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JOURNAL OF CONCHOLOGY :
4 e
(Founded 1874)
BEING THE ORGAN OF THE
CONCHOLOGICAL - SOCIE FY
OF GREAT BRITAIN AND IRELAND
EDITED, UNDER THE DIRECTION OF THE COUNCIL, Se.ctier wl Ti] fore
BY 4
J-R. Le -B. TOMLIN, M.A RES:
og GT Sete Gee
1934-1937.
: i:
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Sold also at the Headquarters of the Society,
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NEW NAMES PROPOSED IN THIS VOLUME.

Gontodorts ovata Barnard
Limapontia depressa (A. & H.) var. r. pellucida oe
Lucina odontotis Salisbury .
Melanopsis doriz Issel var. nigra Biggs
Hyridella bardwelli Clench
Albinaria green 'Tomlin ;
Berthellina engelt Gardiner, n.g. & sp.
Macrocallista (Paradione) bardwelli Clench and Mae.
Edentulina ulugurensis Bequaert and Clench .
Edentulina usambarensis Bequaert and Clench
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Helicella millepunctata Bttg. var. osoat o.
. 3 ,, var. castaneoradiata Biggs
55 se ,, var. hyalepunctata Biggs
Melanopsis doriz Issel var. fasciata Biggs
as ss 5, var. carinata Biggs
Theodoxus doriz Issel var. obscura Biggs

su

%
2 tito ne
See

ies

Oh Td ae dL
Vee

18TH MAY, 1934.

ote.

“JOURNAL

Or 2

CONCHOLOGY

FOUNDED 1874.

BEING THE ORGAN OF THE CONCHOLOGICAL ©
SOCIETY OF GREAT BRITAIN AND IRELAND.

Hon. Editor: ' Hon. Secretary: Hon. Treasurer :

J.R.leB. TOMLIN, M.A.,| J. W. JACKSON, D.Sc., | C. OLDHAM, F.LS.,
23 Boscobel Road, The Museum, The Bollin,
: St. Leonards-on-Sea, The University, Shrublands Road,

Manchester. Berkhamsted.

CONTENTS.

List of Officers and Council .. , I
g A New Species of Coney from South Africa (with
fe figures)—Dr. BARNAR 2
Oldhaven and Thanet Sand Moll. of Herne Bay (Presidential
: Address)—J. E. Cooper .. 4
Names of British Mollusca. II sok, WIncKworTH 9
Limapontia depressa (A. & H.) var. nov.in Scotland (with
map)—D. K. Kevan 16
Habitat of Facelina drummondi (A. & H )—Miss N. “FISHER 24
Proceedings: 7th Oct. (Annual Mise) 11th Nov.,
gth Dec., 1933 ; ; ae deat = ua ; ; 25
Accounts e te a 30

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THE

JOURNAL OF

CONCHOLOGY.

VOL. 20.

18th MAY,

1934. INO. 2.

LIST OF OFFICERS AND COUNCIL FOR

1933-4.

PRESIDENT :
A. P. GARDINER, B.Sc.

VICE-PRESIDENTS :

. SPENCE

. LUCAS, F.G:S.

_ ADAMS, B.A.

. BLOOMER, F.L.S.

. BOWELL, M.A., IM.R.C.S.

AE: BOYCOTT, M.A.,
» ERS,

, COLLINGE, D.Sc... (St.
MSc. (Birm,),” Fils,

. CONNOLLY.
aie COOKE, M.A., D.Sc.,

S.
. COOPER.

| Blected ,

HON. TREASURER : |
¢” OLDHAM, F.L.S., F.Z.S.

HON. EDITOR :
B. TOMLIN, M.A.,
S.

Se
mh 9

. LE
RE.

HON.

H. CROWTHER, M.Sc., F.R.M.S.,
rz.

J. WILFRID JACKSON, D.Sc.,
F.G5S.

A. S. KENNARD, A.L.S., F.G:S.
R. F. SCHARFF, Pu.D., M.R.LA.
E. W. SWANTON, ee
E.R. SYKES, B.A., FLL.S,
J.R. ve B. TOMLIN, M.A.,
F.R.E.S.
HUGH WATSON, M.A.
R. J. WELCH, M.Sc., M.R.I.A.
R. WINCKWORTH, M.A..,
PF RGS.

HON. SECRETARY :

J. WILFRID JACKSON, D.Sc.,
ea cr

HON. LIBRARIAN AND CURATOR :
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RECORDERS :

Non-MariIneE Mo.uusca : Pror. A. E.. BOYCOTT, M.A., D.M., F.R.S.

MARINE MOLLUSCA :

A. P. GARDINER, B.Sc.

COUNCIL :

J. DAVY DEAN, F.E.S.
A. W. STELFOX, M.R.ILA.
H. COATES, F.R.S.E.

A. K. LAWSON, F.R. Met. Soc.
Rev. G. H. CARPENTER, D.Sc.
| W. H. DAVIES.

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President : CHARLES ALLEN.
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NORTH STAFFORDSHIRE BRANCH.

President :
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A NEW SPECIES OF GONIODORIS FROM SOUTH AFRICA.

By K. H. Barnarp, D.Sc., F.L.S. (South African Museum
Cape Town).

>

(Read before the Society, 16th September, 1933.)

ONLY a single representative of the family Okeniidz (olzm Gonio-
dorididz) has hitherto been known from South Africa, viz. [daliella
amoenula Bgh. In June, 1933, while examining the bottom of the
training ship General Botha in Simonstown dry-dock, I found two
nudibranchs which appeared to belong to the genus Gontodoris.
The ship had been moored in Simon’s Bay for three and a
half years.

The specimens were 20-21 mm. long and 11-12 mm. broad.
The colour was orange-buff, with the dark bluish internal
organs showing through on the back and right side; the gills,
clubs of the rhinophores and some of the tubercles darker
brownish.

The shape of the body is much more broadly oval than the
figures of G. nodosa (Mont.) and G. castanea A. & H. (Alder
& Hancock, Brit. Nudibr. Moll., pls. 18, 19; Garstang, 7. Mar.
Biol Assoc, 4, pl. 27, 1800; Baba, Venus, u, pl. 2, fis. 3, 4930)
or even Vayssiere’s figure of castanea (Ann. Mus. Marseulle, 1,
pi ay fie. 9, 1001).

In other respects the external characters are typical. The head
tentacles are blunt, digitiform, with a slight, somewhat nodose
ridge on upper surface ; the free edge of the mantle slightly undulate
(in one specimen feebly scalloped), continuous in front of the
rhinophores but interrupted behind the gills, and not continuous
with the ridge on the tail ; a slight medio-dorsal keel. Back elevated
and smooth, but the sides with fairly numerous small tubercles.
Gills nine, not quite symmetrical, tripinnate, some of them
bifurcate distally ; the hindermost two are shorter, more papilliform,
with stout axis and less exsert pinne. Cuticular spicules feebly
nodulose.

Internal anatomy in general corresponding with Alder
& Hancock’s account (loc. cit., pl. 17, fig. 1). Suctorial crop
(ingluvies) completely sessile on the buccal sac. No labial armature.
Radula consisting of fourteen pairs of large hamate teeth, rachis
naked, no small plate-like laterals, formula 0.1.0.1.0. ; the apices
of the teeth have a slight ridge, but no denticles.

From the typical species of Goniodoris this form differs in the
tripinnate gills, and the absence of labial armature and outer lateral
teeth on the radula; the ingluvies has not even a short petiole.

BARNARD : NEW GONIODORIS. 3

Nevertheless, it is so obviously a “‘ Goniodoris ”’ that I propose to
include it in this genus under the name Gontodoris ovata n.sp.

Risbec’s species G. joubini and G. violacea from New Caledonia
(Faune Col. Franc., ii, 1928) are quite different.

Goniodoris ovata n.sp. radula tooth.

4

‘OLDHAVEN AND THANET SAND MOLLUSCA OF HERNE BAY.
(Presidential Address delivered at the Annual Meeting, 7th October, 1933.)
By J. E. Cooper.

To the geologist the north-east coast of Kent is of great interest,
and the small piece between Herne Bay and Reculver is especially
worthy of study as it contains the classic section of the
Oldhaven beds. _

Geologizing on our coast is not without incidents. Any one who
has put his foot into a London Clay “‘ mud-glacier ’’—they abound
in the winter—will not do it again in a hurry.

After heavy weather the beach is sometimes well scoured, and
one may possibly spot the butt-end of a Mammoth tusk in the
“clay-with-flints”’. Then follows a race home for a spade,
followed by some strenuous digging so as to forestall the rising tide.
With luck the tusk is excavated, and having been hidden under
some bushes for the night, is brought home next morning
precariously balanced on a bike.

Oldhaven Gap, now called Bishopstone Glen, is a ravine in the
cliffs about midway between Herne Bay and Reculver. The section
now shortly described is a little west of Bishopstone Glen. The
cliff here is about 100 feet high.

SECTION 200 YDS. WEST OF BISHOPSTONE GLEN (OLDHAVEN Gap).

PLEISTOCENE Gravel, abt. 5’.

EOCENE Blue Clay, abt. 40’.
London Clay

Buff and greyish Sand, abt. 25’.
Oldhaven (Many Mollusca.)

Black Pebble band.

Landenian Light grey and greenish Sand,
“Woolwich ”’ abt. 26°.
O0.D.—____|-—-O LD.
Foreshore.
Thanet. Sandy Clay (with Mollusca).
PLEISTOCENE.

The top stratum is a few feet of gravel.

EOCENE.

About 40 feet of London Clay, then some 25 feet of Oldhaven
beds, with a band of black pebbles at the base; next come 25 feet
of sand, which represent the Woolwich beds. As this bed is marine

COOPER : THANET SAND MOLLUSCA. 5

and cannot be satisfactorily separated from the underlying ‘Thanet

series, it seems best to adopt Wooldridge’s suggestion ? and call

the whole Landenian. The sandy clay of the Thanet Sand comes
out on the foreshore.

OLDHAVEN Beps.—These contain numerous mollusca. Thin
irregular bands of shells (mostly Cyprina morrisit) run through the
loose sand. Near the base is a fairly constant thick band of shelly
limestone, sometimes hard, sometimes rotten, occasionally passing
into loose sand.

Most of the species listed below came from close to this section,
the rest were obtained from a spot about one-third of a mile
to the east.

Nucula proava 8. V. Wood. Scarce.

N. fragilis (Desh.). Rather common.

N. sextans 8S. V. Wood. Scarce. .

N. striatella S. V. Wood. A few only.

N. cf. prelevigata S. V. Wood. Two odd valves.

Nucula sp. This bears some resemblance to N. proava, but differs
in shape and it has very strong hinge-teeth. It does not seem
to fit any described species.

Glycymerts terebratularis (L.). A few.

G. plumsteadtensis (J. Sow.). A few.

Modiola simplex J. Sow. Scarce; a very frail shell.

M. cf. depressa J. Sow. One example.

Mytilus (Arcomytilus). ?n.sp. One only.

Astarte elevata G. B. Sow. Not uncommon.

Cyprina morris J. Sow. Very common and very variable.

Trapezium n.sp. <A few valves.

Dosiniopsis bellovacensis (Desh.). Common. !

Protocaratum plumsteadianum (J. Sow.), including P. laytont Morris.
The small form (/aytonz) is abundant ; when in good con-
dition it has a smooth creamy pioeiaat The thicker and
larger form (plumsteadianum) is much less common.

Corbula morrisu Edw. MS. Common.

C. regulbiensis Morris. Also common.

Panopza intermedia J. Sow. A few.

Cyrtodaria rutupiensis (Morris). A few.

Pteria media (J. Sow.). One small example.

Calyptrxa suessoniensis (Orb.). Scarce.

Ficus nodulifera (G. B. Sow.). Not uncommon. It seems to occur
in small colonies.

1 Proc. Geol. Assoc., xxxvi, p. 3, Oct., 1925. Since the above was read
Mr. A. G. Davis has told me that the name ‘‘ Bishopstone’”’ has been
proposed for the ‘‘ Woolwich ”’ marine beds of East Kent.

6 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

Ficus sp. A single specimen, which appears to differ from any of
the species described in Proc. Malac. Soc., xviii, p. 235.

Natica (Polynices) abducta (Desh.). Common.

i. i repanda (Desh.). Common.

_N. (Euspira) glaucinoides J. Sow. Common.

Natica sp. A few of a remarkably high-spired form, not identified.

Ampullina sp. One example.

Odostomia cf. regularis Edw. MS. Rare.

Aporrhais sowerby1 Mantell. Common.

A. margerini S. Gardner (non de Kon.). A few.

Siphonalia mariz (Melleville). Not uncommon and very variable ;
one specimen of the large form with less prominent knobs,
which has been found at Swanscombe Hill.

“ Buccinum’’ concinnum G. B. Sow. (QO.7.G.S., 1859, p. 136).
Several specimens. The genus of this shell is uncertain, as
the characters of the aperture are as yet unknown.

Hemipleurotoma infraeocenica Cossm. Fairly common.

HI. cf. laubrieret Cossm. With the last.

cf. Parvisipho sp. A pretty little shell found with the last two.

Besides mollusca, the Oldhaven Beds contain sharks’ teeth of
at least three species ; scales, spines, and vertebrz of fish, also bones
of a small Chelonian.

In clayintercalations amber-coloured crystals of gypsum arefound.

LANDENIAN.—In this section the upper part (“‘ Woolwich ’’)
has no mollusca.

CorBULA BED.—Some 26 feet below the pebble band of the
Oldhaven Beds there is a scattered line of “‘ pockets’’ formed of
slightly hardened sand, full of C. regulbiensis. ‘This bed is first
seen a little west of Bishopstone Glen. It can be traced in the
cliff nearly as far as Reculver. It contains :— |
Nucula fragilis (Desh.). Scarce.

Glycymeris plumsteadiensis (J. Sow.). Scarce.

G. terebratularis (L.). Rare.

Cyprina morrisit J. Sow. A few.

C. scutellaria Lam. Fragments.

Dosiniopsis beltovacensis (Desh.). A few.

Protocardium plumsteadianum (J. Sow.). The small form [= laytoni
(Morris)] occurs occasionally.

Protocardium sp. A scarce form, which attains the size of
plumsteadianum, but differs from that species by having about
fifteen sharply tubercled ribs on the posterior fifth of the shell.

Corbula regulbiensis Morris. In vast quantities. Many specimens
have an accessory rostral plate. This was first noted by
a Belgian student, the late E. Vincent.

Cyrtodaria rutupiensis (Morris). A few.

COOPER : THANET SAND MOLLUSCA. 7

Panopexa intermedia J. Sow. A few.

P. granulata Morris. Scarce.

Sanguinolaria edwardsi Morris. Scarce.

Thracia oblata J. Sow. Very rare.

Cucullza decussata Park. The typical form is scarce. Most of the
specimens found are smaller than the Thanet Sand form
and are almost square in outline.

Ostrea bellovacina Desh. Rare.

Calyptrea suessoniensis (Orb.). Rare.

Ficus intermedia (Melleville). Scarce.

Natica (Polynices) abducta (Desh.). A few.

Re repanda (Desh.). Frequent.

IN. (Euspira) glaucinoides J. Sow. Frequent.

N. cf. (Lunatia) viviparoides Cossm. Rare. This is near the high-
spired Oldhaven species noted above.

Aporrhais sowerbyi Mant. A few.

Epitonium bowerbanki (Morris). Very rare.

Siphonalia mariz (Mellev.). Scarce. Much smaller than the
Oldhaven form and more highly sculptured.

Cominella bicoronata (Mellev.). Very rare.

Hemipleurotoma cf. infraeoczenica Cossm. Very rare.

Tornatellza parisiensis (Desh.). Very rare.

Entaliopsis brevis (Desh.). Frequent.

The Corbula band shells are mostly silicified, but sometimes |
there occur hard flinty lumps in which the shells of the Corbula
have perished, leaving perfect casts of the exteriors.

As a rule the shells of the Corbula are perfect, while those

of the associated species are crushed and broken. The inference

is that the Corbula lived on the spot, while the others were “dead” —
shells that were drifted into the pockets.

On the same horizon one occasionally finds internal casts of
a large Cyprina (probably C. scutellaria). No trace of the shell
remains, and the hardened sand adheres to the smooth surface of
the cast. This suggests that the Cyprina were already casts when
deposited in the sand.

In this stratum wood is common, mostly silicified, the rest as
lignite. Pieces of the former are often riddled with the borings of
Teredo antenaute J. Sow., varying from 3mm. to 1omm. in
diameter.

Probably Teredina personata Lam. is also present, but the actual
shell has yet to be found.

THANET SAND.—At Bishopstone a few feet of barren sand underlie
the Corbula bed. Below this is a bed of greenish sandy clay with
innumerable Cyprina. This stratum is sometimes well exposed on
the shore. It contains :-—

8 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

‘Nucula fragilis Desh. Scarce.

Glycymeris terebratularis (L.). A few.

G. plumsteadiensis (J. Sow.). Scarce.

Astarte tenera J. Sow. A few.

Cyprina morrisit J. Sow. In profusion, and showing great variation.

C. scutellaria Lam. Much less common.

Dosiniopsis bellovacensis (Desh.)._ Common. |

Corbula regulbiensits Morris. Common in the top of the bed.

C. morrisit Edw. MS. Scarce, with the last.

Panopea granulata Morris. A few.

P. intermedia J. Sow. A few.

Cyrtodaria rutuptensis (Morris). Frequent.

Sanguinolaria edwardsi Morris. A few.

Thracia oblata J. Sow. Common.

Pecten contubernalis S. V. Wood. Rare.

Cucullza decussata Park. Common.

_ Ostrea bellovacina Desh. Frequent, but only in the upper part of
the bed. Large examples exceed 4 inches in diameter.
Small specimens are found attached to pieces of pyritized
wood. If, as sometimes happens, the convex valve is
attached, the oyster had a decidedly thin time, as both
valves became nearly flat. O. cymbuloides S. V. Wood
appears to be merely a young shell of this species with
more ribs than usual.

Pholadomya cuneata J. Sow. A few.

P. konincki Nyst. A few.

Teredo antenautx J. Sow. and Teredina personata Lam. Are probably
both represented, as ‘‘ Teredo”’ tubes are abundant in
pyritized wood. _

Natica (Polynices) abducta (Desh.). Frequent.

Aporrhats sowerbyi Mantell. Scarce.

Cominella desort Desh. One example.

A few other species have been seen, but in too poor condition
to identify.

Gasteropoda are decidedly scarce in the Thanet Sand, yet large
numbers of the Pelecypoda are found bored, a curious fact which
needs explanation.

The foregoing lists are far from complete, they merely give the
results of the writer’s collecting.

In conclusion, I would express my cordial thanks to Mr. Arthur G.
Wrigley for useful collecting hints and for much assistance in
identifying the shells ; to Mr. L. R. Cox for help with names and
for allowing me to consult the British Museum collections ; and to
Dr. E. I. White for kindly identifying the sharks’ teeth.

NAMES OF BRITISH MOLLUSCA.—II.

By R. WinckwortH, M.A.
(Read before the Society 9th December, 1933.)

I am indebted to Mr. A. Wrigley for drawing my attention to four
of the five following corrections to the List of British Marine
Mollusca in Part 7 of this volume :—

p. 228. For CASSIDARIA Lamarck 1816
vead GALEODEA Link 1807.
p-. 243, no. 85. To the references add (cor).
p. 244, no. 94. ‘To the references add (norvegicum).
p. 244, no. ror. For ovata (Pennant 1777)
read ovata Pennant 1777.
p. 244, no. 106. For 332 read 382.

The first correction requires comment. Galeodea Link is often
quoted with the assertion that it is preoccupied by Olivier for a genus
of beetles. Unfortunately this is one of the very few names I| took
for granted and did not check. I have since looked up the alleged
Galeodea of Olivier and find that it does not exist : the coleopterous
genus is Galeodes.1 Galeodea Link is therefore available for the
molluscan genus, and has the same type species as the later
Cassidarta.

ARCA LACTEA Linné (p. 239).

Mr. Wrigley also disagrees with my placing of Arca lactea in
the subgenus Barbatia. 1 agree with him in regarding it as a
Fossularca ; but I had adopted Dall’s view that Calloarca, Granoarca,
Striarca, Acar, Fossularca, etc., are only sections of the subgenus
Barbatia, which ‘‘ merge into one another through their peripheral
species”’.2 In Fossularca the lozenge occupied by the ligament is
small and leaves part of the cardinal area uncovered on both sides,
in Acar only the anterior part of this area is bare, and in Sérzarca
the entire cardinal area is covered by the ligament. However,
the recent species of Fossularca form a distinctive section, which,
as Lamy? has pointed out, is also characterized by a peculiar
sculpture, so that perhaps it is desirable to separate them. ‘The
name Fossularca, however, is not to be used as (here again I am
indebted to Mr. Wrigley for information) there are two earlier
synonyms, namely Arcopsis von Koenen 1884 4 and Trigonodesma

1 Encyc. Meth., tome sixieme (Insectes), p. 579 (1791).

2 “ Tertiary Fauna of Florida,’ Trans. Wagner Free Inst. Sct., vol. 3,
p. 615 (1808).

® 7. Conchyl., vole 35; p. 4 (1907).

4 Paleocene Kopenhagen, p. 86.

10 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

S. V. Wood 1864,1 of which the genotype is the Eocene species
Arca lissa Bayan = A. levigata Cuillat, non Spengler. In accordance
with this point of view Arca lactea should be placed in :—

s.G. TRIGONODESMA Wood 1864. A. lissa Bayan.

DoripiciTaTa stricta Iredale & O’ Donoghue (p. 235).

This is the species originally described by Garstang ? as Doris
maculata, and in omitting it from the list, I was influenced by
Eliot’s suggestion? that it might be an extreme variation of
Doridigitata derelicta (Fischer), i.e. Doris verrucosa of Eliot and
others. I have had opportunity of comparing the animal with the
excellent figures given by Eliot (loc. cit., pl. 8), and I now believe
this was a serious error of omission, so that the following addition
must be made on p. 235, after no. 315 :—

sticta Iredale & O’ Donoghue 1923.

MONTACUTA PHASCOLIONIS Dautzenberg & Fischer (p. 243).

I find that I gave no reference for this interesting little bivalve,
which may well prove to occur in British waters as a commensal
with Phascolion strombit (Montagu); this gephyrean is commonly
found in the shells of Aporrhais, Turritella, Dentalium, etc., and
may easily be recognized by its habit of filling the mouth of the
shell it lives in with a cement of sand grains. A third associate of
the group is Odostomia perezi (D. & F.). These two molluscs were

Fics. 1-3: Montacuta phascohons D. & F., shell, x 6.

Fics 4, 5: Montacuta phascolioms D. & F. hinge, X 15 approx.

Fic. 6: Odostomia perezi (D. & F.), shell, x 8.

Fic. 7: Odostoma perezi (D. & F.), detail of mouth, X 12 approx.

1 Eocene Bivalves, p. 86.
2 F¥. Mar. Biol. Assoc., vol. 4, p. 167 (1896).
3 Ray Society Monograph for 1919, p. 99 (1910).

WINCKWORTH : BRITISH MOLLUSCA. |

described in an interesting account of “‘ Les Mollusques marins du
Finistere ’’,! which I commend to the notice of English con-
chologists, and which should be consulted for the descriptions of
these two species (pp. 81 and 126). I have to thank M. Ph.
Dautzenberg for readily giving me permission to reproduce the
original figures.

MactTra GLAuCA Born (p. 246).

I have marked this species in the list as Sarnian only, in spite of
its recorded occurrence in Cornwall, for I can find no evidence that
it occurs living to-day in British seas north of the Channel Islands.
I imagine, though positive proof is lacking, that the Cornish examples
are derived from a Holocene or Pleistocene bed below low water,
from which numerous valves were at one time washed ashore.
‘* Almost all the British examples consist of the worn valves which
were obtained by Miss Pocock (1801) from the sands of Hale in
Cornwall.” 2. There are also records of one valve from Padstow
and fragments at Lands End. A single valve was found on the sands
at Hayle by Cocks in 1846, according to a MS. note in my copy of
Jonathan Couch’s Cornish Fauna. I can find no later records in
textbooks or local lists.®

Most of the following notes on genera are stimulated by comments
in a review of my list in the Japanese journal Venus.*

AcmMa v. PATELLOIDA (p. 219).

Acmea admittedly has one year’s priority over Patelloida, but
it seems to me that since & and e are variants of the same letter in
Latin,®> Acmzxa 1833 is preoccupied by Acmea 1821; both names
are presumably derived from dxuy, and Hartmann’s genus of
1821 was emended to Acmaea by Agassiz. Unfortunately a loophole
for argument is left, in that, while the point is settled for specific
names in article 35 of the International Rules, where it is laid down
that “‘ specific names . . . shall be considered homonyms if they are
distinguished from each other only by . . . the use of ae, oe, and e,
as caeruleus, coeruleus, and ceruleus’’, no similar statement is made
for generic names. Presumably the same ruling must be applied
to genera, although not definitely stated, since the rejection of
homonyms is governed by similar rules for genera and species

1 Travaux de la Station Biologique de Roscoff, fasc. 3. Paris 1925.

2 Forbes & Hanley, British Mollusca, vol. i, p. 367 (1848).

3 Compare Victoria County History of Cornwall, vol. 1, p. 144.

Vol. 3.99, 208 (1042).

5 Scientific Latin is not necessarily classical Latin. As an example of
later Latin orthography, I will quote the two phrases Rex glorie and fines
terre from a psalter now in front of me.

1 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

(arts. 34, 35). Acmeza therefore, being no longer available for the
limpet, Patellotda, becomes the earliest name available for this genus.

ASSIMINEA U. SYNCERA (p. 223).

I do not see that it is possible to regard Syncera Gray 1821
otherwise than as a nomen nudum. However the question is raised
in Venus, and the name is actually used by some systematists.
The original account 1 of Nerita Syncera hepatica refers to ‘“ the
eyes appearing to be at the end of the tentacula”’, and no other
character of shell or animal is given. ‘This character applies to
Assiminea and Paludinella, as well as to certain Strombide,
Clausiliidz, some Pupillidz, and a few Turrids ; it may also appear
to be the case in several other mollusca, where the tentacles are
partly retracted. Gray’s furthér surmise that this appearance was
due to fusion of eye peduncle and tentacle would suggest that the —
animal was not Assiminea or Paludinella, but some animal related to
Terebellum, in which he saw some resemblance to Nerita. It is not
until 1847, when Gray gave Syncera as a synonym of Assiminea
in his List of Genera (no. 193), that we learn what Syncera was
supposed to be, and that the Nerita-Terebellum chimera can be
dismissed as a myth.

Euttma and BALcis (p. 225).

This is a troublesome problem in which attention must be given
to the names Strombiformis, Melanella, Eulima, and Balcis.

Strombifornis da Costa 1778 was first applied to this group by
Iredale * in 1915, who: designated S. glaber da Costa as the type.
Unfortunately Iredale overlooked the earlier designation by
Harris 3 in 1894. It is true that Harris was under a misapprehension
in supposing that the first species must be selected as type, but that
does not alter the fact that he has definitely designated a type in
the words “ his first species, and therefore the type of the genus is
Turbo perversus Linn.” Strombiformis is not, therefore, available
for generic use in this family.

Melanella Bowdich 1822 * forms the fect group of Lamarck’s
Melanta and is described as “‘ Semi-transparent, mouth invaded by
the last whorl; white. Turreted; spire curved. Marine.” The
only species associated with the name by Bowdich is M. Dufresnit,

1 *°A natural arrangement of mollusca,’” London Medical Repository,
vol. 15, p. 239 (1821). The reference is quoted in full by Iredale, Proc.
Malac. Soc., vol. 15, p. 37 (1922). See also Jeffreys, Brit. Conch., vol. 5,
Pp. S¥or (1869).

® Proc. Malac. Soc., vol. 11, p. 293.

* Proc. Malac. Soc., vol. 1, D. a1:

4 Elements of Conchology, Dp: 27

- WINCKWORTH : BRITISH MOLLUSCA. 13

- undescribed, but figured on pl. 6. This is presumably (from the
footnote on p. 27) a fossil, and possibly a poor drawing of an
Eulimid, but it seems to me more probable that it is a fairly good
drawing of a Stiliferid, judging from the appearance of the whorls
and the shape of the mouth: curved spires are not unknown in
Stiliferide. As the type specimen has not been found, exact
_ determination is not feasible, and the safest course is to avoid the
use of the name Melanella until further evidence is available.

Eulima Risso 1826 1 contains four species : elegantisstma Montagu,
glaberrima Risso, striata Brocchi, and subulata Brocchi. Turbo
subulatus in Brocchi is quoted as of Donovan. Herrmannsen 1846
designates Turbo subulatus Donovan as type, nullifying Gray’s
selection in 1847 of Helix polita L., which Gray no doubt considered
to be the same as glaberrima.

Balcis Leach 18472 was first published posthumously by Gray
in a list entitled ‘‘ Classification of the British Mollusca by W. E.
Leach, M.D., 1818”. Of the three species quoted under Balcis
‘two are nude, being undescribed and without reference, but Balcis —
Montagui is defined by its synonym Helix poltta Montagu, which
as the only recognizable species becomes the type of the genus.

Thus the generic names to be used in this family are :—

Eulima Risso [= Strombiformis auct.]. Type, E. subulata
= E. glabra (da Costa).

Balcis Leach [= Eulima auct.]. Type, B. montagut = B. alba
(da Costa).

For Melanella auct., Monterosato’s VITREOLINA is available,
and, until fuller knowledge is forthcoming, should be treated as
a subgenus of Balcis.

NATICA (p. 228).

Some authors have attempted to draw a sharp line between the
Naticids which have a calcareous operculum as Natica and those
that have a corneous operculum as Polinices. My own studies based
on English, Mediterranean, and Indian species have convinced me
that an attempt to classify Naticids primarily on this basis is bound
to lead to unnatural grouping. It should be observed that the so-
called calcareous operculum has an outer calcareous layer and an
inner corneous one. Fuspira, in which most of our British species
may be placed, is in most characters closely allied to Natica, and
I accordingly regard it as a subgenus of Natica, which lacks

1 Hist. Nat. Europe Merid., vol. 4, p. 123-
2 Ann. Mag. N.H., vol. 20, p. 271.

14 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

the calcareous layer of the operculum, rather than as a subgenus
of Polinices (type species mammilla L.), from which it differs in
so many shell characters.

It will be noted that I have used Euspira instead of Lunatia,
as I am now convinced from an examination of a series of Natica
glaucinoides J. Sowerby, the type of Euspira, that the differences
between the Eocene glaucinoides and the Recent species I listed
under Lunatia are not sufficient to warrant separate subgeneric
names. For Lunatia Gray 1847, it is therefore necessary to
substitute :—

s.c. Eusprra Agassiz 1838. Natica glaucinoides J. Sowerby.

The earlier Ampullina Bowdich 1822 is difficult to interpret :
as usually understood, it represents the group typified by Natica
depressa Lamarck, which certainly has no close relatives among
recent British Naticids.

OCENEBRA (p. 229).

The earliest published spellings + of this name are both Ocenebra,
although it is often quoted as Ocinebra, which was the later spelling,”
and quite possibly the intended form of the name, but its
etymology is too dubious to allow us to presume a misprint in 1847 ;
the earlier spelling must accordingly be adopted.

Tritonalia Fleming 1828% has sometimes been used for this —
genus. On p. 356 we find Murex erinaceus and eight other fossil
species assigned to Triton. It seems that when the index was
prepared, Fleming noticed that he had used Triton twice—Triton
Laurenti for batrachians and Triton Montfort for mollusca. He
accordingly substituted Tvitonalia for the latter, and the only
description of this name is in the list of corrigenda to be found in
some copies of the book, where we are instructed to read Tritonalia
for Triton on p. 346 and on p. 356. The reference to p. 346 1s to
a list of all the genera then placed in Muricide, whether represented
by British species (e.g. Tviton) or not (e.g. Ranella) ; so that it is
clear that Tritonalia is intended as an emendation of TJ7iton
Montfort, and not a new genus for the nine British species. Asa
substitute name, it is equivalent to 77iton and must have the same
type, namely Murex tritonis L.

Thiele * considers Ocenebra and Vitularia® to be subgenera of

1 Leach, Ann. Mag. N.H., vol. 20, p. 269 (Oct. 1847); Gray, Proc.
Zool, Sect, 1847, p28es (Nova, I647):

* Leach, A Synopsis of the Mollusca of Great Britain, p. 117 (1852).

3 A History. of British Animals, corrigenda, following index.

4 Handbuch, p. 299 (1929).

> Swainson, A Treatise on Malacology, p. 297 (1840).

WINCKWORTH : BI.ITISH MOLLUSCA. 15

the same genus, in which case Vitularia has priority as the generic
name. I should, however, recommend separating them as distinct
genera.

NEPTUNEA (p. 229).

Neptunea Réding 17981 requires notice, as a few authors still
use the later name Chrysodomus Swainson 1840. I do not think
anyone will dispute the propriety of regarding Murex antiquus L.
and its sinistral form, Murex contrarius L., the Crag fossil called
Trophon antiquum var. contrarium by S. V. Wood and Murex
despectus L. as congeneric, whatever limits may be assigned
specifically. Accordingly Chrysodomus with type C. argyrostomus
Swainson (= antiquus) falls into the synonymy of Neptunea.
Iredale in 1921 ? designated N. despecta the first species as type,
but a type had already been selected nearly fifty years earlier by
Monterosato,? when he mentioned ‘ F[usus] antiquus monst.
contrarius ch’e il tipo del genere Neptunea di Bolten”’. This refers
to Bolten’s, i.e. Réding’s, fifth species, N. contraria, based on
Chemnitz, vol. 9, figs. 894, 895, which represent the Crag form
from ilaamsaihy,

A more serious rival to Neptunea is Tritonium Miiller,* as Gray
in 1847, although listing Tvitonium six times, only refers to
Irnitontuum Miller once, when he gives Murex antiquus as type.
However, Schumacher in 1817 included Tritonium Fabricius
among his genera, selecting as type “‘ Tritonitum undatum Fabrit.
Miiller”’. As the Tritontum of Fabricius ® is taken from Miiller
and exactly the same assemblage of species (excluding those not
common to the two faunas) occurs in the two works, I think we
may justifiably adopt Schumacher’s type of ‘‘ Tritonium Fabrit.”’
as fixing the type of Tritonium Miller and treat the name as
a synonym of Buccinum L. |

1 Museum Boltenianum, p. 115.

aA Pvoe. Malacs S0c., Vol. 'T4, Dp. 200,

3 Notizie intorno alle Conchighe fossili di Monte‘ Pellegrino e Ficarazzi,
P19 (1872).

4 Zool. Dan. Prodromus, p. 243 (1776).

> Fauna Groenlandica, p. 395 (1780).

16
LIMAPONTIA DEPRESSA (A. & H.) var. nov. IN SCOTLAND.
By D. K. Kevan.

(Read before the Society, 16th September, 1933.)

THE previous history of Limapontia depressa in Britain is a very
brief one. ‘The only records are those for Hylton Dene, near
Sunderland, on which Messrs. Alder and Hancock based their
original description of the species in 1862 (1), and Loughor Marsh,
near Swansea, where it was taken by Mr. Moggridge and Mr. C.
Spence Bate, and figured by the latter gentleman in his Notes on
the Fauna of Swansea and the Neighbourhood (1849), although
it appeared there under the name of L. nigra.

On 16th May, 1932, while collecting on a particularly interesting
saltmarsh to be found at the mouth of the R. Tyne, near
Tynninghame, to the west of Dunbar, East Lothian, I found
a number of small slug-like molluscs, obviously belonging to the
genus Limapontia, and on further examination I could only label
them as a very definite variety of L. depressa. In general form and
position of the vent, etc., they tallied with Alder & Hancock’s
original description of the species (1). In colour, however, they
were yellow and green instead of black.

I was not able to visit the locality again for some time, and when
I next looked for the species I could not find a single specimen.

Passing over the winter, therefore, I determined to start a fairly
early investigation. On 19th March, 1933, I found further specimens
of this Limapontia, and Dr. C. H. O’Donoghue kindly examined
them and, as far as could be ascertained from externals, agreed that
it appeared to be a variety of depressa. Alderia modesta (Lovén)
referred to by A. & H. (1) was found in association on that date.

On 16th April following, Limapontia were abundant, and on this
occasion a number of small dark olive to black specimens appeared,
and the question arose as to whether these were juvenile reversions
to type, or Limapontia capitata (nigra), which species had been found
in the pools on the saltings at Aberlady (about 10 miles west as the
crow flies) by Dr. E. A. T. Nicol. Unfortunately an accident
resulted in their dying before examination could be made, and
further specimens were secured on 14th May.

L. depressa were still abundant, while, again, a small percentage
of the small dark olive to black individuals occurred. These were
compared with L. capitata from Aberlady, and both Dr. O’ Donoghue
and Dr. Nicol were of opinion that they were this species. It seems
evident, therefore, that both species of Limapontia are present,
capitata being represented, somewhat sparsely, by both the black
and the “transparent brownish-green’”’ forms referred to by

KEVAN : LIMAPONTIA IN SCOTLAND. 17

A. & H. (2), while depressa is represented by a strongly dominant
and distinct variety differing from the type in the following details :—

Colour.—-When extended, chrome yellow, with the much-
branched hepatic organ clearly visible and coloured bright green ;
pigmentation (brown to black) to a greater or less degree on the
_ lateral crests, the front angles and lower edge of the head, etc.,
sufficient to accentuate the white oblong or ovate area occupied
by the eye; otherwise, apart from the occasional minute yellowish
or whitish freckles mentioned by A. & H., the epidermis is unpig-
mented and transparent.

Tynninghame
Sands

TYNNINGHAME, SALTMARSH

18 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

When contracted the mollusc appears as a green bead, thinly
ringed with yellow, and, both in its extended and contracted state,
harmonizes very remarkably with the alge and flora, making
detection far from easy until its appearance becomes familiar.

The colour is quickly extracted by spirit, leaving the animal
pure white, but in a weak solution of formalin it is retained for
a long time, although gradually weakening and leaving the hepatic
organ a dark and dingy green.

For this variety I propose the name pellucida as being less cumber-
some and quite as applicable as a reference to its bi-colouration.
It differs so obviously from its black prototype that it is undoubtedly
worthy of varietal status.

I would like to add some notes regarding its habitat at
Tynninghame, together with some observations, which must be
considered as preliminary, with regard to breeding, etc. :—

Habitat—Saltmarsh at the mouth of the River Tyne, East
Lothian. The marsh is situated on the north side of the river
and takes the form of a tongue, separated from the shore proper by
a very narrow spit of land about ? mile in length, affording complete
protection from the sea. This is best seen on the accompanying
plan of the area.

A large tidal creek, gradually narrowing, and with numerous
irregular branches, runs more or less centrally from the south end
northwards, dying out as it approaches the top of the marsh.

Normal high-water mark: East to west from the point of the
spit, irregularly across the south end of the marsh to the mouth of
the river.

Normal low-water mark: A line running approximately north-
west to south-east at the northern end of the rocks by “ Tyne
Mouth ”’. .

The marsh is only covered by the sea at high spring tides. On these
occasions the creeks fill very quickly and the water then spreads
slowly over the surface of the marsh. On other occasions the creeks
may only fill partially, and at low tides not at all. There is no in-
flowing brook, but saturation (from the tides), rain, and percolation
from the surround keep the marsh sufficiently wet in normal
circumstances. In hot weather, however, the surface dries and
cracks, the occasional pools disappear, and even the creeks may be
dry or near-dry.

Flora.—Usual saltmarsh forms, consisting chiefly of Armeria
maritima, Glaux maritima, Suzda maritima, and Salicornia sp.
The grass Festuca rubra occurs on any patch of drier land on the
west side, giving way to a normal woodland and grassland flora
as the margin of the marsh is reached. Bands of Scirpus sp. appear
on the north and west margins.

KEVAN : LIMAPONTIA IN SCOTLAND. — 9

Alge.—At about two-thirds of the distance from the north end
of the marsh Pelvetia canaliculata occurs in considerable patches,
while a Conferva is generally present on the surface of the marsh,
in the pools, and on the sides of the creeks.

Mollusca—In the mud below normal high-water the usual
estuarine species are to be found, i.e. Scrobicularia plana (ptperata),.
Macoma balthica, Mya arenaria, and Hydrobia ulvez, while, as this
gives place to sand, Cardium edule and Retusa obtusa appear.
On the marsh itself the following interesting association occurs :—

Hydrobia ulve.——Abundant and often reaching a length of
0°3 In.

Littorina saxatilis tenebrosa.—Abundant and, although mostly
unicoloured or chequered, containing a percentage banded and
coloured as Littorina saxatilis rudis on the shore proper.

_ Littorina littorea—A well-established colony in one of the

tidal creeks on the marsh; in hot weather L. littorea buries

itself in the moist mud. Shell: well-developed, covered with
mud and ferruginous matter.

Phytia myosotis.—Abundant.

In addition, of course, the three ‘‘ seasonal’? nudibranchs
already mentioned, i.e. Limapontia depressa var., Limapontia
capitata, and Alderia modesta.

Coleoptera.—As a further indication of the type of marsh I would
mention that the following species are common: Pogonus chalceus,
Dichirotrichus pubescens, Bembidion minimum, Cullenus lateralis,
Heterocerus marginatus; while Heterocerus sericans, Cafius.
xantholoma, Bledius spectabilis, and others are not rare. ‘These
(as also other groups like Hemiptera, Arachnoidea, etc.), during
the recurrent flooding at spring tides, survive quite happily in the
tunnels which they or Crustacea (Talitrus locusta, for example)
have dug in the mud.

Habits, Breeding, etc——On the dates already mentioned, i.e.
16th May, 1932, and 19th March, 16th April, and 14th May, 1933,
Limapontia depressa (as also L. capitata and A. modesta) were
crawling on the surface of the marsh and not actually zm the creeks or
pools, although present on the sides of the former where covered
with Conferva. It was particularly plentiful in the area of the marsh
already mentioned where the alga Pelvetia canaliculata occurred,
and the only flora consisted of Suzda and Salicornia. As Pelvetia,
etc., disappeared northwards and Armeria and Glaux became
dominant, Limapontia depressa also tailed off, although isolated
specimens were taken at the edge of a dried-up pool at the top of
the marsh—probably floated up by the last spring tide.

It was not seen crawling on any of the plants, or the Pelvetia,

20 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

but appeared to be seeking out the cracks and crannies in the mud
for protection and in order to deposit its eggs. It seemed particularly
partial to situations where Conferva was plentiful, and it is probably
this which constitutes its main food.

On 4th June Limapontia had disappeared completely from the
surface of the marsh, which was dry and sun-cracked. In the
cracks and under the “cakes”? of mud which could be easily
removed a few somewhat shrunken and sickly specimens were
found, in company with the associates previously mentioned and
other forms of life (Coleoptera, Crustacea, etc.), which, in their
endeavour to escape the heat, had all been driven underground.

On 8th July, and again on 7th August, a further search was
made, but no specimens could be found, and it now remains to
be seen when the species makes it reappearance on the marsh.
Alder & Hancock (1) found L. depressa in October, but state that
Mr. Spence Bate’s specimens seemed nearly twice as long as theirs.
This points to the juvenility of the Sunderland animals, and to the
possibility of a reappearance at Tynninghame in October or
thereabouts.

As regards breeding, in the Tynninghame locus, this, owing to the
drying up of the marsh surface, especially during the summer,
has to take place over a restricted period, which, judging by the
abundance of the species, is more or less confined to the months
of April and May. The egg-capsules, ovate-cylindrical in form,
are deposited on the mud ; in captivity L. depressa deposited them
on the alga placed in the water with them. These capsules averaged
about 4mm. in length and about 1:5 mm. in diameter, and from
a count taken of a number of capsules contained 400-450 eggs of
a decided yellow colour. The veligers were active on 29th—30th May,
a fortnight after the eggs were laid, but the difficulty of repro-
ducing anything like natural conditions prevented development
and, unfortunately, no hatching took place.

From the fact that L. depressa breeds on the oe of the
Tynninghame marsh, it would seem that this must be a natural
habitat, although why this nudibranch should select such a situation
for the purpose is one of those mysteries of evolution which must
remain unexplained. Its associate Alderia modesta certainly crawls
over the marsh, but only deposits its eggs in pools.

As regards. the development and hatching of the ova and
subsequent growth, two alternatives present themselves :—

(1) That the complete life-cycle occurs on the marsh itself.

(2) That it occurs partly on the marsh and partly in a true marine
habitat.

In support of the first alternative it might be suggested that the

KEVAN : LIMAPONTIA IN SCOTLAND. 21

deposition of ova on the marsh is prima facie evidence that develop-
ment also takes place in that situation ; that the surface of the marsh
only being covered at high spring tides is an argument against
migration of any sort, and points to the probability of the veliger
(a) passing its free-swimming stage in the egg-capsule, hatching
in perfect form and then burying itself deep down in the cracks
and crannies where there might be sufficient moisture for it to live
through the summer in safety ; or (0) hatching at the next spring
tide when the marsh would be covered, and being carried down
underground into situations sufficiently wet to permit of normal
free-swimming activity and subsequent growth to adult form. ©

In support of the second alternative it can be argued that it would
be more consistent with the known habits of nudibranchs, many of
which come inshore to breed, and then (both adults and fry) dis-
appear for another year; that even in this apparently abnormal
situation it would be possible for L. depressa to have a normal life-
history, as the adults could arrive with the spring tides, spread over
_ the marsh in favourable loci, and breed; the eggs could develop
on the damp surface, and hatch when the marsh was covered at the
next spring tide, which as it slowly receded might carry a percentage
of the minute veligers into the creeks and thence seawards, where
they would assume adult form and return to the Tynninghame
marsh as the breeding season again approached.

Both alternatives point to a very high mortality in the early
stages of growth, whether on the marsh altogether or partly in the
sea. Hot weather and a development so timed as to favour emergence
from the capsule simultaneously with the arrival of the spring tides
are but two of the difficulties which the veliger has to overcome,
unless it can withstand the former and develops according to
alternative 1 (a). It must be remarked, however, that alternative
1 (a) seems to be the least likely solution, 1 (6) possible, while
alternative 2, perhaps, can be described as probable, but: actual
proof of either will be difficult to obtain, owing to the minute size
of the veligers.

It is not suggested that the Tynninghame breeding habits are
typical of the species : they may, in fact, be much modified by local
conditions. Alder & Hancock (1) state they found L. depressa in
brackish-water pools (at Hylton Dene, Sunderland), and in such
situations, especially if subjected to daily tidal influences, more
equable conditions may prolong the actual breeding period. At
Tynninghame, however, from the disappearance of all adults during
June, it can be assumed that the species lives one year only, and
dies shortly after breeding. As to when it will reappear is presently
a matter of conjecture, but I hope to find it again before the

22 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

end of the year in the same locus, when its ecology will be further
studied.

Summary.—Limapontia depressa is now known to have a range
extending from Swansea to Sunderland and the Tyne estuary
(near Dunbar). It is, apparently, a species easily overlooked, but
which is locally abundant at certain periods of the year. It requires
definitely brackish situations for breeding, but while undoubtedly
needing moisture in no mean degree, does not necessarily require
submersion ; its breeding period is April-May (possibly beginning
earlier or ending later in favourable circumstances ); the adult
dies after breeding, and the new generation reappears within
a period at present undetermined, but which might be the following
October-November, assuming, as seems possible, that A. & H.’s
original specimens were more or less juvenile.

As regards the new variety for which I have proposed the name
pellucida, it is so distinctive in appearance, although conforming
to type in general form, that the possibility of its proving to be
a separate species cannot be overlooked. Only a complete
anatomical examination can finally settle this question, and it is
possible that Dr. O’Donoghue may agree to undertake the difficult
task entailed in dealing with such a small animal as Limapontia.
It is certain his findings would receive general acceptance.

BIBLIOGRAPHY.

(1) ALpER & Hancock. Ann. Mag. N.H., Ser. 1, x, 264.
(2) Ibid., Ser. 11, i, 401.

Notes ADDED WHEN GOING TO PRESS.

The marsh was again visited on 5th September and 7th October
with a negative result. On 3rd December, however—the occasion
of the next visit—after a three hours’ search the following were
found :—

eight L. depressa var. pellucida,

one L. capitata (°),

two Alderia modesta,
and one egg capsule of L. depressa. On gth December another visit
was made to see if by any chance the December spring tides had
resulted in any influx of the above species. The day was cold,
windy, and rainy, and only three Alderia modesta were found.

All the above molluscs were juvenile, most of the Limapontia
being very minute. One very small specimen is suggested as being
L. capitata, as it had the appearance of beginning to develop
pigmentation, besides (in water) being much more active than normal
depressa. The eight L. depressa were certainly var. pellucida.

KEVAN : LIMAPONTIA IN SCOTLAND. 23

The egg capsule contained active veligers, which Dr. O’ Donoghue
suggested were about seven days old. This was an entirely
unexpected find; it proves either survival on the marsh or the
arrival from the sea in November (by the spring tides) of adults,
and points to two breeding periods—a minor one in November-
December and a major one in April-May.

The following points now suggest themselves :—

(1) That survival on the marsh during the summer months,
whether under (a) or (5), seems very unlikely, for the following
reasons :—

(i) Adults, breeding in April-May, disappeared completely
in June.

(ii) April-May fry, if surviving on the marsh, would not
develop so unequally as to provide both adults and extremely
juvenile forms in November at the same time.

(iii) It seems unlikely, if any approaching-adult forms were
present on the marsh in September—October, that they would
have escaped notice entirely, as the surface was sufficiently wet
to bring them to the surface.

(2) ‘That L. depressa only reaches its adult form in a true marine
habitat ; that it breeds on the marsh, the veligers emerging when the
spring tides occur, being swept out seawards as the tides recede, and
returning in various stages of growth in October-November and
March-April for the two breeding seasons. It is very significant
that their appearance at Tynninghame in November and the period
of greatest abundance in April-May appears approximately to
coincide with the two chief spring tides of the year.1 Now if the
year be divided into three equal periods, say, October—January,
February—-May, June-September, it will be readily seen that the
last period, comprising the hottest part of the year, can be ignored
in considering the breeding habits of L. depressa. ‘The questions
which arise, however, from a consideration of the facts so far
ascertained are :—

(1) Do the November juveniles develop into the adults of
March, breeding in April-May? If so, why was the species not
abundant in March? And how are the November adults
explained ?

(2) Are there two distinct races breeding in, say, October-—
November and April-May, or only one race with two waves of
arrival, one (mainly juveniles) in October-November and one
(mainly adults) in March—April ?

1 The March tide might not necessarily bring in the species in
abundance, but it might enable the April tide to do so. Time cannot be
fixed arbitrarily.

24 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 10934.

(N.B.—Specimens collected abundantly in April were much
larger than those collected in May, but this, possibly, may be
due to the former being swollen with eggs, and not to a further
wave of arrival in May.)

It is difficult to form any definite opinion as yet, but I would
suggest that there is but one race with a major breeding period in
April-May ; that juveniles begin to arrive in October-November
and onwards, the main influx (then of adults) taking place in March—
April, the earlier arrivals developing and breeding in normal
circumstances at the same time. Favourable conditions on the
marsh, however, might hasten growth and bring a proportion of the
early-comers to maturity in February—March, the resulting veligers
being carried into the main creek, on to the estuarine mud, or
even further, by the March-April spring tides that bring in the
main stream of adults. ‘These veligers might possibly develop
more quickly and return as the November adults, and being adult
would presumably breed on reaching the breeding-ground, thereby
establishing what might appear to be a distinct race, which, however,
might die out as quickly as it arose. In the unstable conditions that
obtain on a marsh there is bound to be unevenness of development,
resulting in favourable circumstances in a secondary breeding period.
This secondary period is not uncommon in other nudibranchs
and generally takes place at about the same time of the year.

The reappearance of L. depressa, as hopefully predicted in the
body of this paper, has undoubtedly brought the solution to the
problems in connection with this species much closer. Attempts
will be made during the next five or six months to settle the main
questions that have arisen, and to get further insight into the habits
of this interesting mollusc.

Habitat of Facelina drummondi (Alder & Hancock).—I have notes of
a rather unusual habitat of this species in Belfast Lough. ‘The shore at
Greenisland, about 9 miles from Belfast on the north side of the Lough,
is flat and sandy, with frequent low reefs of rocks running out from the land,
and in places the sand has been scoured away, exposing beds of red Trias
marl, where Barnea candida (Linné) and Zirfxa crispata (Linné) live. Here
Facelina occurs fairly plentifully in the empty Pholas burrows, usually
associated with Paphia saxatilis (Fleuriau) at half-tide mark. I have found
specimens thus at all times from March until late October, and cannot
remember ever having found them save in the burrows, though I may have
taken an odd one elsewhere. Alder & Hancock? give as habitat “‘ under
stones between tidemarks, and in shallow water ’’, and Colgan,? though
he usually dredged this species, mentions having found one on a Zostera
bed. I would be glad to know if Facelina has been commonly found in
Pholas burrows elsewhere.—N. FISHER.

1 Alder & Hancock, Monograph British Nudibranchiate Mollusca, pt. iv
(1848), fam. 3, pl. 13.

2 Colgan, N., ‘‘ The Opisthobranchiate Fauna of the Shores and Shallow
Waters of County Dublin,” Irish Naturalist, 23, pp. 187-8, 1914.

25

PROCEEDINGS OF THE
CONCHOLOGICAL SOCIETY OF GREAT BRITAIN & IRELAND.

611th (Annual) Meeting, held in the Rooms of the Royal Society,
Burlington House, London, on Saturday, 7th October, 1933.

The President, Mr. J. E. Cooper, in the chair.

Among those present were Messrs. R. Garnett, J. G. Dalgliesh, A. G.
Stubbs, A. P. Gardiner, G. Shrubsole, A. Wrigley, H. W. Worsfold,
G. C. Spence, A. S. Kennard, H. Overton, G. L. Wilkins, W. J. Davey,
EF... M.. Dyke, H:. C. Fulton, A. E., Ellis, J. D. Dean, T. W. Twiggs, 1. ©.
Huggins, C. Oldham, R. Winckworth, A. E. Salisbury, R. J. Welch,
J. R. le B. Tomlin, Miss K. M. White, Miss Nora Fisher, Miss J. D.
Robertson, Mrs. C. Oldham, Mrs. A. S. Kennard, Mrs. H. Fulton, Mrs. H.
Overton, Mrs. A. Wrigley, Mrs. E. M. Morehouse, Capt. C. Diver, Dr. C.
Price-Jones, and Dr. J. W. Jackson.

Appointment of Scrutineers.
- Messrs. J. G. Dalgliesh and H. W. Worsfold were appointed scrutineers.

Appointment of Auditors.
Messrs. C. H. Moore and F. Taylor were reappointed auditors.

Election of Trustee.

Mr. R. Winckworth was elected Trustee in place of Mr. B. R. Lucas
(resigned).

Election of Honorary Member.

The Rev. Dr. A. H. Cooke was unanimously elected an Honorary Member.

Candidates Proposed for Membership.

Ralph Hope Lowe, B.A., 54 Queen’s Crescent, Sunderland, Co. Durham.
J. Newton, B.Sc., 86 Colchester Terrace, Sunderland, Co. Durham.
(Both introduced by the Rev. E. Percy Blackburn and Dr. J. W. Jackson.)

Presidential Address.

The President (Mr. J. E. Cooper) gave an address on “‘ Oldhaven and
Thanet Sand Mollusca of Herne Bay ’’, and a cordial vote of thanks was
passed unanimously.

Votes of thanks were also accorded to the authorities of the Royal Society
and the Manchester Museum for the use of rooms for meetings.

Election of Officers and Council.

The Officers and Council for 1933-4 were unanimously elected as
nominated (see p. 1).

Exhibits.

By Mrs. Morehouse : Series of Polygyra.

By Mr. R. Winckworth: Series of Chlamys townsendi (Sow.) from
Karachi, to illustrate shell growth. |

By Mr. G. C. Spence: Archachatina spectaculum Pilsbry ; Urocoptis
livida 'Torre.

By Mr. H. Overton: Colour photograph of Arion ater; high-spired
L. peregra and very large L. truncatula from Walderton, Sussex.

By Dr. J. W. Jackson : Varieties of Patina pellucida (L.) from Ballintoy
shore; Patella vulgata L., C. zizyphinum conuloide (Lam.), G. umbilicals
(da Costa), and N..lapillus (L.), from the top of the raised beach in Park
Lane, Ballintoy.

26 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

By Mr. J. G. Dalgliesh: Helices from Sussex, Kent, and Hants ;
association of Mactra corallina cinerea and Pinnotheres pisum.

By Mr. G. L. Wilkins: Eggs of Sepia officinalis L. and Loligo vulgaris
Lam. ; vars. of N. lapillus (L..) ; Gastrochzena dubia (Penn.) on Spondylus ;
Barnea candida (L..), Clavagella aperta Sow., and C. melitensis Brod. in situ.

By Mr. A. E. Ellis: Living Hygromia odeca (Locard) from Coombe
Cellars, Devon, where they were numerous in hedge-bottoms amongst
dead leaves.

By the President: Books which once belonged to Dr. J. G. Jeffreys ;
Lym. palustris var. elongata Moq. (Herne Bay) and f. albida Nelson (Chislet
Marshes). |

By Mr. J. R. le B. Tomlin: Species of Helicostyla just received from
Mindoro; growth stages of Tonna, including operculated embryos ;
Pleurotomaria hirasei Pilsbry from the coast of Kii; rare species of Trivia
and Cancellaria, including T. acutidentata (Gaskoin), T.. hordacea (Kiener),
LT. maugert Gray, T. producta (Gaskoin), the types of T. rubinicolor (Gaskoin),
and 7. vesicularis (Gaskoin), C. textilis Kiener, C. thomasiana Crosse, C.
scalata Sow., and C. trigonostoma Blainville. :

By Mr. A. G. Stubbs : Long series of Cepza nemoralis L.. from Wooding-
dean, Sussex ; drawings of shells and wild flowers.

By Mr. H. W. Worsfold : Land shells showing normal and abnormal
varieties, including sinistral specimens.

By Mr. A. S. Kennard: Pleistocene shells from France, including C.
nemoralis major Fér. and Elona quimperiana (Fér.) from Gourdan—new
records for French Pleistocene, Trochulus odeca (Loc.) from Gourdan,
C. hortensis (Mull.), and Eulota choquetiana Tour. from Elbeuf.

By Mr. C. Oldham: (1) H. aspersa from Mablethorpe, Lincs., to
illustrate the recessive character of yellow shells (exalbida): one of
these mated with a brown from Hants yielded 183 young, all brown,
but the yellow character reappeared when these browns were mated
(2) H. aspersa, albino animals, the F 2 generation of a snail with
brown shell and albino animal and one with yellow shell and grey
animal. (3) H. pomatia living on granite rocks at Linné’s Hammarby,
near Upsala; it is not indigenous in Southern Sweden, but is naturalized
in many places and is said to have been introduced by Linné himself on
the grounds of his country house at Hammarby. (4) Geomalacus maculosus,
eggs and newly hatched young, the F 2 generation of a slug collected at
Glengarriff in August, 1929. :

By Mr. C. Oldham and Capt. C. Diver: Maps of the South Haven
Peninsula Survey, Studland Heath, Dorset, viz. :—

(1) Maps showing stages in the growth of South Haven Peninsula.

(ii) Maps showing (1) geological formations, (2) main plant communities.

(iii) Maps showing the distributions of the species of Mollusca found
during the Survey. These include: Land Mollusca, 28 species; Fresh-
water Mollusca, 6 species ; Brackish water, 1 species ; total, 35 species.

ANNUAL REPORT.

This is the Fifty-Seventh Annual Report of,the Society. Since the last
Annual Meeting the Society has lost seven members by death, seven by
resignation, and two have been struck off the list through non-payment of
arrears. Only one new member has been elected during the year. The
membership at the present time is 223, including the four Honorary
Members.

The losses by death are: H. J. Stobart, Col. E. C. Freeman, A. W.
Wincott, Rev. E. H. Nash, A. W. Pye, W. Gyngell, and Rev. E. N. Dalton.

Six ordinary meetings have been held at the. Manchester Museum by
the kind permission of the authorities. On 12th November there was a joint
meeting with the Yorkshire branch, held at the University, Leeds, when the
Hon. Secretary, Dr. J. Wilfrid Jackson, gave a lantern lecture on “ Shell

PROCEEDINGS 27

Lore’, and dealt with the uses of shells as charms and amulets and in
many other ways, both in the past and at the present time. There were
many interesting exhibits at this meeting, most of which had a bearing on
the subject. On 8th April a joint meeting of the Yorkshire and Manchester
members was held at the Manchester Museum, when there was a good
attendance and a good display of specimens.

One Special Exhibit was held in January, viz. Thiara.

‘Twenty-six notes and papers have been read during the year, and some
of these have appeared in the Fournal.

Three numbers of the Fournal have been issued to members since the
date of the last Annual Meeting, viz. Vol. XIX, No. 8, October, 1932,
containing 32 pages of text and a portrait of the late J. R. B. Masefield ;
Vol. XIX, No. 9, February, 1933, with 32 pages of text and one text-figure ;
Vol. XIX, No. 10, June, 1933, with 32 pages of text, one sketch-map, and
24 text-figures. T’he above Yournals were received from the publishers by
post as follows: No. 8, 26-10-32; No. 9, 3-3-33 ; and No. 10, 22-6-33.
_A further number of the Yournal is in preparation, and will be issued to
members shortly ; it will complete Vol. XIX.

On 3rd and 4th May last Capt. Cyril Diver represented the Society at
the Centenary Celebrations of the Entomological Society of London, and
presented a congratulatory address.

Additions to the Library have been received from Lieut.-Col. W. H.
Turton, Messrs. H. Schlesch, G. C. Spence, H. H. Bloomer, J. F. Musham,
Fridthjof Okland, Von M. Rotarides, A. S. Kennard, Arthur Blok, Dr. P.
Bartsch, and Dr. H. A. Pilsbry. Dr. A. W. Bowell also presented a bound
volume of reprints on Radulez, also MSS. on same. Mrs. Freeman presented
a large number of useful books from the library of her late husband,
Col. E. C. Freeman.

There have been several additions to the Cabinet from Messrs. H.
Schlesch, W. H. Davies, and R. Waterston (voucher specimens).

The Hon. Librarian and Curator has presented a report on the J. W.
Taylor Collection, stating that he has made considerable headway with the
arrangement during the last twelve months. There are two cabinets, a large
and a smaller one. It was found expedient to divide the collection into three
sections. One portion, already mounted in rectangular glass-topped_ boxes,
has been arranged in the smaller cabinet practically in the order of the
Society’s 1902 list of Non-Marine Mollusca; another portion, mounted
on cards, has been arranged in great part in the large cabinet, some specimens
having to be remounted ; and a third portion, consisting of specimens in
glass tubes, is now being dealt with along with numerous examples in chip-
boxes and other receptacles. Some two hundred sets out of this miscellaneous
lot have been mounted and placed with the carded section. With regard to
the remainder, it is proposed to place them in glass-topped boxes
ultimately, if the funds of the Society will allow. They are at present placed
together in the large cabinet.

RECORDER’S REPORT (Non-Marine Mollusca).

SINCE the last report (Vol. XIX, p. 344) 83 new records have been
authenticated for the Census.

Cornwall, E. (2): Anodonta anatina (A. E. Boycott).

Devon, S. (3): Helicella itala (A. S. Kennard), Phytia myosotts var.
ringens (A. R. Waterston).

Dorset (9) : Anodonta anatina (W. D. Lang).

Kent, W. (16): Zonttoides excavatus (F. H. Gripper).

Herts (20): Milax gracilis (A. E. B.).
_ Middlesex (21): Caecilioides acicula (A. C. Thomas).

Suffolk, W. (26): Milax sowerbii (G. Master).

Cambridge (29): Pisidium personatum (H. Overton).

28 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

Salop (40): Pseudanodonta (Severn: C. Oldham).

Pembroke (45): Milax gracilis, M. gagates (H. E. Quick).

Yorks, $.W. (63): Physa heterostropha (cistern at Doncaster: E. M.
Morehouse).

Northumberland, S. (67): Clausilia cravenensis (G. W. Temperley).

Dumfries (72): Pisidium henslowanum, P. milium, P. obtusale, P.
personatum, P. pulchellum, P. subtruncatum (D. K. Kevan and A. R.
Waterston).

Kirkcudbright (73): Pisidium cinereum, P. hibernicum, P. lilljeborgii, P.
milium, P. nitidum, P. obtusale, P. subtruncatum (D. K. K. and A. R. W,).

Wigtown (74): Pisidium cinereum, P. hibernicum, P. lilljeborgit, P. milium,
P. mtidum, P. obtusale, P. personatum, P. pulchellum, P. subtruncatum
(D. K. K. and A. R. W.). |

Berwick (81): Helicella caperata caperata, Hygromia striolata, Vertigo
substriata, Ancylus lacustris, Planorbis nautileus, Pl. spirorbis, Valvata
cristata (D. K. K.).

Haddington (82): Vallonia pulchella pulchella (prob. holocene), Zonitoides
nitidus (D. K. K.).

Perth Mid. (88) : Zonitoides nitidus (A. R. W.).

Elgin (95): Punctum pygmzxum, Vertigo substriata, V. pusilla, Carychium
minimum, Pisidium hibernicum, P. lilljeborgii, P. nitidum, P. obtusale (A. E.B.).

Fasterness (96): Acanthinula aculeata, Helix arbustorum, Ena obscura,
Pupa umbilicata, Vertigo substriata, Succinea pfetfferi, Limnza truncatula,
Pisidium personatum (A. E. B.).

Westerness (97) :. Limnza truncatula (A. R. W.).

Clyde Is. (100): Ena obscura (J. E. Forrest).

Ebudes, N. (104): Agriolimax levis (A. R. W.), Paludestrina stagnalis
(M. I. Crichton). .

Hebrides (110): Hygromia hispida (dead shells only), Paludestrina
ventrosa (new to Scotland: E. A. T. Nicol), Agriolimax lzvis, Helicella
caperata caperata, Pupa marginata, Vertigo antivertigo, V. pygmea, V.
lilljeborgi, Succinea pfeifferi, Limnza palustris, Aplexa hypnorum, Paludestrina
jenkinst, P. stagnalis (A. R. W.), Pisidium lilljeborgii, P. nitidum (C. Elton).

Kildare (125): Acme lineata (D. K. K.). ©

Mayo, W. (138): Vallonia pulchella pulchella (C. O.).

‘The accurate differentiation of the five species of Succinea which must now
be recognized (S. putris, S. elegans, S. pfeiffert, S. oblonga, S. arenaria)
has been put on a much more definite basis by the anatomical work of
H. E. Quick (Proc. Malac. Soc., 1933, vol. xx, p. 295), and it is most desirable
that living specimens should be submitted for authentication especially
when immature or poorly grown. The status of S. putris in the north of
England and in Scotland is particularly uncertain; so far it has been
verified only from Kirkcudbright : specimens from Dumfries, Ayr, Peebles,
Selkirk, Fife, Perth (S.), Perth (Mid.), Perth (N.), Easterness, and Clyde Is.
have all been pfeifferz.

YORKSHIRE CONCHOLOGICAL SOCIETY.

Annual Report of the Yorkshire Branch.

IN spite of the exceptionally dry season of 1933 and the resultant paucity
of captures, the Yorkshire Branch has had a successful year and increased
enthusiasm has been shown by the members. The Officers for 1933 were :—

President: Charles Allen; Vice-Presidents: J. C. North, F.R.P.S.L.,
and K. G. Howell. Council: K. Howell, W. Gyngell, Miss K. Morehouse,
and Miss E. Dufty. Secretary and Treasurer: J. R. Dibb, F.R.E.S.
Recorder: H. J. Armstrong. |

We regret to announce the death of Mr. W. Gyngell, of Scarborough,
who was a member and also served on the Council for many years.

PROCEEDINGS 29

Up to the present eight meetings have been held, which included four
summer excursions. The Council is gratified to note an improved attendance.
‘The opening meeting in January was devoted to “‘ Short Papers and General
Exhibits ’’, and was well supported as follows :—

‘“* Practical Methods of Killing and Preserving Slugs,’ by K. Howell.

** Helicostyla and Cochlostyla,”’ by H. J. Armstrong.

“The Genus Liguus,” by Mrs. E. M. Morehouse.

*“* Helix pomatia,” by Mrs. E. M. Morehouse.

‘* A rare Publication known as The Naturalists’ Scrap Book of the Liverpool
District,’ shown and discussed by J. D. Firth.

At the February meeting for exhibits one of the most interesting features
was the description of the internal structure of Anodonta cygnea, by Miss K.
Morehouse, who brought a freshly killed specimen, which was partially
dissected to illustrate her remarks. The Ravensknowle Museum,
Huddersfield, was visited in March to review the fine collections of shells,
under the guidance of Mr. J. C. North. A joint meeting with the parent
Society was held at Manchester Museum in April, and a full report of this
has appeared elsewhere. An excursion to Agbrigg, near Wakefield, under
the leadership of Mr. J. D. Firth, was made in May with good results.
A well-attended meeting at York was held in June, with the President and
Mr. H. Sowden as leaders, for the investigation of the River Foss, with
rather disappointing results from this usually prolific locality. This was
a joint meeting with the York Field Naturalists’ Club and the Yorkshire
Naturalists’ Union. In September the Cridling: Stubbs District near
Pontefract was visited, being a joint meeting with the Doncaster Scientific
Society and the Yorkshire Naturalists’ Union.

Three meetings are yet to be held to complete the year’s programme.
The 37th Annual Meeting will be held early in October. In November
a joint meeting with the parent Society will take place in Leeds. Finally,
a Jecture by Mrs. E. M. Morehouse will be given in December.

Membership now stands at 32.

JouHn R. Diss,
Hon. Secretary.

ANNUAL REPORT OF THE LONDON BRANCH.

ALTHOUGH there is not a great deal of particular note to report, the 1932-3
Session closed with every sign of a successful year. Mr. A. S. Kennard
once again occupied the chair. ‘The attendance has been good on the whole,
averaging seven Members at each meeting, but it is hoped that this average
will increase during the next Session.

The syllabus arranged for the nine meetings has been worked through
as printed, all members contributing their share of notes and exhibits. The
meetings partly devoted to ‘‘ Cephalopoda’’, ‘‘ Rare and Interesting
Conchological Books ’”’, and ‘‘ Practical Hints on Collecting ”’ proved very
popular ; on the last occasion members gave their own experiences which,
although sometimes amusing, were highly instructive.

The 1933-4 Session, for which the syllabus has already been circulated,
commences with the Annual General Meeting on 9th October, 1933.

Guy L. WILKINS,
Hon. Secretary.

612th Meeting, joint with the Yorkshire Conchological Society, held at
Leeds, 11th November, 1933.

Mr. C. Allen (President of the Yorkshire Society) in the chair.

Among those present were Messrs. H. J. Armstrong, K. Howell, K. G.
Howell, J. Digby Firth, C. H. Moore, A. K. Lawson, J. H. Lumb, Dr. J. W.
Jackson, and Mrs. Morehouse.

New Members Elected.

Ralph Hope Lowe, J. Newton.

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32 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I, MAY, 1934.

Candidate Proposed for Membership.

Horace Warnes Cushing, B.A. (Cantab.), F.R.G.S., Ramsden House,
Elland, Yorks (introduced by J. R. Dibb and Mrs. Morehouse).

Papers Read.

** Melanopsis doriz Issel, new variety,” by H. E. J. Biggs.
** Achatina fulica (Fér.) in Nederland East Indies,’’ by Miss Tera van
Benthem Jutting.
Exhibits.

By Mr. H. J. Armstrong: Large and fine collection of Urocoptide ;
West Indian openculates; and Epiglypta howinsule (Cox) from
Lord Howe Is.

By Mrs. Morehouse: British and Foreign examples of H. pisana ; also
-H. candidissima Drap. and H. aperta Muller.

By Mr. K. Howell: Tethys punctata Cuvier from Scarborough.

By Mr. K. G. Howell: Water-colour drawings of Ammonites from
Broderick Collection, painted by T. Robins.

By Mr. C. H. Moore: L. and F.W. shells damaged by birds and animals
(from the J. W. Taylor Collection) ; also Anodonta cygnea, from Newton,
near Hyde.

By Dr. J. W. Jackson : Band-variation of Helix nemoralis and H. hortensis
(from the J. Kidson Taylor Collection).

By Mr. C. Allen: Living Planorbts corneus.

613th Meeting, held at the Manchester Museum, 9th December, 1933.
Mr. G. C. Spence in the chair.

New Member Elected.
H. W. Cushing.

Papers Read.
** Names of British Mollusca: II,’ by R. Winckworth.
** On the Occurrence of Locally Extinct Marine Mollusca in the Sand-
dunes at Portstewart, Co. Londonderry,’’ by Miss Nora Fisher.
Exhibits.

By Mr. G. C. Spence: Tyropidophora from many localities.
By Mr. C. H. Moore: Large series of Cyprea.

614th Meeting, held at the Manchester Museum, 13th January, 1934.
Mr. G. C. Spence in the chair.

Resignation.
Roland Garnett.
Paper Read.

‘* Vallonia costata (M ll.), monstrosity from East Lothian,” by
D. K. Kevan.
Exhibits.

By Mr. C. H. Moore: Series of Conus.

By Mr. F. Taylor : Clausilia and dissected clausia from many localities ;
Balea perversa from Grasmere.

By Mrs. Morehouse : Mactra stultorum, with. blisters on interior of shell,
from Scarborough; Helix nemoralis, with abnormal growth of mouth,
from Wentbridge; Planorbts spirorbis and abnormal forms from
Almholme, near Doncaster ; Planorbis corneus from Methley and St. Neots ;
also white variety from the canal at Stroud; Bzthynia tentaculata (very
large) from River Foss at York.

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interesting specimens were shown.

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Vor. 20] 17TH AUGUST, 1934. _ [No. 2

od PA

JOURNAL

an Gye

CONCHOLOGY

FOr NOE 1874.

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BEING THE ORGAN OF THE CONCHOLOGICAL
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CONTENTS.

Genital Dimorphism in Zonitoides (with figures)——-HuGuH WATSON .
Ce fulica (Fér.) in the Netherlands East Indies—Miss T. v. B.
UTTING ; é

Cephalopods from the Cape ‘of Good Hope—Dr. Ki, H. BARNARD

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Isidorella pyramidata Sow.: A correction (with figures)—Dr. H. E. Quick

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THE

- JOURNAL OF CONCHOLOGY.

ee 17th AUGUST, 1934. Diss sia:

GENITAL DIMORPHISM IN ZONITOIDES.
By Hucu Watson, M.A.

CONTENTS.
Page
Introduction ‘ 5 : i Fig
Zonitoides nitidus (Mull.) ; eae)
Zonitoides excavatus (Bean) ' «Ae
Other Zonitide f : 4 hipaa 4
Summary , i : j PuAw
INTRODUCTION.

THE British species of Zonitoides show an unusual amount of
diversity in their genital ducts. Thus, the duct that passes back
from the capsule that surrounds the anterior part of the penis
and dart-sac opens into the receptacular duct alone in many
specimens of Z. excavatus and probably in a few examples of Z.
nitidus. But in other specimens of both species it communicates
at its hinder end not only with the receptacular duct, but also with
the oviduct, by means of a short transverse connection. And in still
further examples of Z. nitidus I find that it only opens into
the oviduct, its apparent connection with the receptacular duct
consisting merely of connective tissue or muscle-fibres.

I hope, however, to be able to discuss this peculiarity more fully
in the course of a subsequent paper. In the present article I will
therefore only attempt to deal with the much more conspicuous
dimorphism of the penis, epiphallus, prostate gland, and dart-
apparatus, which we find in these snails.

It will be convenient to consider the two species separately,
beginning with Z. nitidus. But first I wish to express my thanks to
Professor A. E. Boycott, R. A. Phillips, C. O. van Regteren Altena,
and others, who have together kindly furnished me with more than
a third of the specimens on which my researches have been based.

ZONITOIDES NiTIDUS (Miill.).
In 1883 Charles Ashford! stated that out of about a hundred

specimens of Zonitoides nitidus, obtained from Yorkshire and

1 Journ. of Conchol., vol. 4, p. 109.

34 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

Hampshire in July and August, only one had a dart; and that the
rest seemed to have the dart-sac in a very early stage of develop-
ment, though the shells in most cases were apparently mature.
In 1897 W. Moss? said that out of eleven examples of the same
species gathered at Bardsley, near Ashton-under-Lyne, in March
and April, only three had darts, although all the shells seemed to
be mature. In the remaining specimens the dart-sac was finger-
shaped, without any trace of the peculiar lobe of the dart-bearing
forms, and the calcareous organ in the penis was also absent. He
added that the difference in the size of the genital organs of the two
types was very conspicuous, and as no immature darts or transitional
dart-sacs had been found the point awaited further elucidation.

J. W. Taylor,? in 1908, stated that specimens examined up to
and including May were usually furnished with a dart, while those
examined in the later months were almost invariably without it.
But more recently H. B. Baker * has pointed out that it is not entirely
a matter of seasonal periodicity, as five of the seven specimens of
this species that he dissected were collected in Michigan on the
same day in the middle of July, and they included both types. The
one with a dart and a relatively large dart-sac and penis he terms the
male phase, and the one with the very small dart-sac and penis and |
no dart he terms the female phase; and he states that this
species evidently has a strong tendency towards separation of the
male and female sex-functions, although one animal he dissected
seemed to be more or less intermediate. He points out, however,
that more work will be required to prove whether a single animal
acts as both male and female during different periods of its life,
the species being protandrous to an unusual degree, or whether
an individual is permanently specialized towards a single. sex,
though he thinks that the latter condition is the more probable.
On the other hand, J. Thiele + seems to prefer the view that the two
forms develop successively during the animal’s life, as he states that
in Zonitotdes, s.s., the male and female parts usually are not mature
simultaneously.

If the view favoured by Baker be correct it implies that in
Zonitoides nitidus we have an animal which, though belonging
to an hermaphrodite group, has become more or less dicecious,
a matter of great theoretical interest. And, in any case, it is clear
that we have here a problem that merits further study. I have there-
fore examined the genital ducts of a large number of specimens

1 Tbid., vol. 8; p.

. Monogr. ae pa W. Moll. Brit. Ts vol. a3.p. 143.
8 Proc. Acad. Nat. Sct. Phila., vol. 80, "1928, p. 38.

4 Handbuch Syst. Weichtierkunde, Oa, p. 604,

WATSON : GENITAL DIMORPHISM IN ZONITOIDES. 35

that I have collected in Cambridgeshire at different times of the
year, and of a smaller number from Hertfordshire, Edinburgh,
and Quebec, for which I am indebted to Professor A. E. Boycott
and Mr. A. R. Waterston. Altogether 170 of the specimens dissected
proved to be mature or nearly so, and of these 140 were found at
Grantchester, about 2 miles south of Cambridge. They were
collected in a broad ditch by the side of the road from Grantchester
to Trumpington, where Z. nitidus occurs associated with the
following species, although only the four marked with an asterisk
are at all plentiful: Lymnza truncatula (Mill.), *Planorbis leucostoma
Millet, *Carychium minimum Mill., Succinea putris (Lin.), *S.
pfeifferi Rossm., Cochlicopa lubrica (Mill.), Vallonia pulchella
(Mill.), Arianta arbustorum (Lin.), *Hygromia hispida (Lin.),
H. striolata (Pfr.), Arion intermedius Norm., Euconulus fulvus
(Miull.), Vitrea crystallina (Miull.), Oxychilus cellartus (Miull.),
O. helveticus (Blum), Retinella radiatula (Alder), R. nitidula (Drap.),
Agriolimax reticulatus (Miull.), and A. levis (Mill.).

My researches accord with those of earlier observers in showing
that two strikingly different types of genital ducts occur among
apparently mature specimens of Zonttoides nitidus. In one type
(Fig. 1) the dart-sac is long and recurved posteriorly ; it usually
contains a long and slender dart, and when fully mature often bears
a rounded coronal gland. The penis and epiphallus are also both
well developed ; the vas deferens pursues a more or less serpentine
or zig-zag course; and the prostate gland is usually rather
conspicuous. In the other type (Fig. 2) the dart-sac and penis are
very much smaller and simpler. The slender, degenerate dart-sac is
not usually reflexed posteriorly ; 1t never contains a dart and never
bears a coronal gland. The epiphallus is but little developed, being
sometimes scarcely broader than the narrow vas deferens, which
is straighter than in the other type. A prostate gland is not
distinguishable ; and probably owing to the small size of the penis
the anterior end of the latter organ does not extend as far forward
as in the other type, so that the genital atrium is somewhat longer.

But to term these two types male and female phases would seem to
be misleading. Sections through the ovotestis, or hermaphrodite
gland, of a specimen of each of the types, collected at the same time,
show that in the so-called female phase the gland contains as many
spermatozoa as it does in the so-called male phase, and, similarly,
in the latter phase it contains as many ova as in the so-called female
phase. Thus both types or phases are equally hermaphrodite.
Moreover, I have found no appreciable differences in the female
parts of the two types ; the only essential difference lies in the organs
connected with copulation. In the so-called male type these organs

36 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

are well developed in the manner normally found in most species —
of Zonitoides ; in the other type or phase the organs of cope enee
are acu small and degenerate.

The dimorphism of the genital ducts of this species may be
compared with that which is found in Vallonia, Acanthinula,
Vertigo, and allied genera. In these forms, however, adult specimens
which have not well developed copulatory organs are entirely
without them, the vas deferens ending blindly. This type has been
appropriately,termed the aphallic condition ; and I therefore propose

Anterior half of genital organs of two specimens of Zonitoides nitidus (Mill.),
from Grantchester, Cambridgeshire. X 20.

Fic. 1.—Euphallic type. Fic. 2.—Hemiphallic type.

to call the type found in Z. nztzdus, in which the copulatory organs
are present though very small and degenerate, the hemiphallic
condition ; while the so-called male phase, in which these organs
are well developed, may be termed the ewphallic condition.

In those orthurethrous species in which the aphallic type occurs
it is usually more abundant than the euphallic type, and the same
is true of the hemiphallic type in Zonztoides nitidus, a fact suggested
by the observations of Ashford and Moss mentioned above, and
confirmed by my own observations shown in the following table :—

WATSON : GENITAL DIMORPHISM IN ZONITOIDES. 37

Locality. Number of Specimens.
Grantchester, Cambs. (Aug., 1928-—July,

TO33) : : ; ‘ 32 euphallic, 108 hemiphallic.
Lords Bridge, Cambs. (Oct., 1928) . BE - I -
Wall Hall, Radlett, Herts. (Oct., 1921) . 2 ‘i 6 *
Watford Road, Radlett, Herts. (May, 1923) 0 he 10 52
Duddingston Loch, Edinburgh (Oct? 163 ) fo) Pe 6 ‘3
Quebec, Canada (Oct., 924) . ‘ I re 4 P

The structural differences between the genital ducts of the two
types or phases strongly suggest that snails of the euphallic type
reproduce by cross-fertilization, and those of the hemiphallic type
by self-fertilization. But further investigations must be made before
it can be said whether this is actually the case. Among all the
specimens I have dissected the only four that contained a
spermatophore, which might have come from another individual,
were of the euphallic type ; but a microscopical examination of the
contents of the spermatheca of a few specimens failed to reveal any
spermatozoa in either type, though this fact is perhaps of little
significance.

We must now consider whether the two types succeed each other
during the individual’s life, one changing into the other as the animal
grows older, or whether some individuals are permanently of the
one type and others permanently of the other type.

The view that the euphallic phase changes during the animal’s
life into the hemiphallic condition, by the degeneration of the
copulatory organs, is certainly untenable. This is shown by the
fact that the shells of hemiphallic specimens are, on an average,
smaller than those of euphallic snails from the same locality. Thus,
of the Grantchéster specimens, almost half of those with shells
exceeding 5°85 mm. in diameter proved to be euphallic, and scarcely
a tenth of those with smaller shells, there being a difference of quite
i mm. between the average diameters of the shells of the two types.

The smaller average size of the hemiphallic specimens, however,
does not prove that this type changes into the euphallic phase as the
animal grows. The difference may be due to the amount of room
that the copulatory organs take up in the type in which they are
well developed. And although the largest snails include the highest
proportion of euphallic specimens, they also include some
hemiphallic examples; indeed, the largest specimen that I dis-
sected—an example from Lords Bridge, Cambridgeshire, with
a shell measuring 7°3 mm. in diameter 1—proved to be of the

1 Taylor (1908) and Ellis (1926) give the diameter of the shell of Z. mtzdus
as 8 mm., but this is far above the average size of the species. L. E. Adams
(1896) gives 64 mm. as the shell’ s diameter; Steenberg (1911) gives
5-64 mm. ; Geyer (1927) 5-6 mm. ; Germain (1913 and 1930) and Mermod
(1930) 5-7 mm.

38 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

hemiphallic type. It seems unlikely that such large hemiphallic
snails are really younger and less fully grown than euphallic
specimens that may be under 5°3 mm. in diameter.

But the chief argument against the view that the one type changes
into the other as the animal grows older is that, if this were so, one
would expect to find, at some seasons at least, not a few specimens
intermediate in character; for so great a change in the
copulatory organs could not be accomplished in a very short time,
and it is very unlikely that the snail would hide itself underground
during the whole period when it was taking place. Yet, as Moss
has already pointed out, such intermediate or transitional specimens
seem to be conspicuous by their absence. Among the numerous
examples of Z. nitidus that I have dissected, only three small
specimens from Grantchester might possibly have been regarded
as intermediate between the two types, but as their shells only
measured 4°2, 4°3, and 4°7mm. in diameter respectively, it is
much more probable that they were immature euphallic snails.+
Among the 135 specimens from Grantchester more than 4°75 mm.
in diameter, and the thirty from other localities, not one intermediate
example was found; all were quite definitely of the one type or
of the other, although both conditions were found together at all
seasons of the year from March to October. It therefore seems almost
certain that one type does not change into the other during the
individual’s life, but that some snails are permanently of one type
and some of the other.

It is remarkable, however, that the relative abundance of the two
forms varies at different times of the year, as Taylor noticed and
as the table on p. 39 shows.

My observations indicate that in June and July, and sometimes
also in May or August, the great majority of the specimens at
Grantchester are of the hemiphallic type, and the very few euphallic
snails found at the same time occur exclusively among the largest
specimens. In the autumn, however, euphallic individuals become
more numerous and are found of all sizes, while hemiphallic
specimens become less common than at midsummer. The
euphallic type is also common among such specimens as I have
been able to find in the early spring. Thus it would seem that at
Grantchester snails attaining sexual maturity at or near midsummer
are of the hemiphallic type; while those of the euphallic type

be

1 Probably the single ‘‘ more or less intermediate ’’ specimen dissected
by Baker was also immature. He does not mention its size, but he states
that his specimens lacked the coronal gland, and his drawing of the genital
ducts of what he terms the male phase shows clearly that the specimen
depicted was not fully mature.

WATSON : GENITAL DIMORPHISM IN ZONITOIDES. 39

become mature in the autumn, or sometimes perhaps not until the
following spring, as probably little development takes place during
the depths of winter. It is natural to suppose that at least some of
the largest snails found in the summer are specimens that have
continued to live on from the spring, and this would explain why
a few of the euphallic type may still be found in-the summer
months.

Max. Diameter Total
of Shell . |4:5-4°8 mm./4:9-5-3 mm.|5-4-5:8 mm./5:9-6-4 mm.|6:5-6-9 mm.

Pe ane 16h

Aug, 1928". 0 2E, DH EES 2'o Le eames iss 9 SE, 10H
17th Oct.,1928. | 12, 1H |1z, 1 Oo ee ae 0 dn, 3H
16th May, 1929. | 0 0 le, On fim Ga 0 Qn, OH
or a ee i ore oe ae

TOQO FG, Wi de Lead OF, 2H QE, 3H Pe OR LE iE 2, OH
15th July,1930 | 0 On, tn (0H 12n | OF BH lim, On | Le, 168
17th Sept., 1930 0 0 28; OH ae, 28 2b, OR 8E, 2H

25th War... 19015) O08, TH Qz, 1H Big ooo 28, On | be, OF Ae, 2H
13th May, 1981 .°| 0-8,> 2H Or, 9H OR, oH Of Le 2B le 28, LO

30th June, 1931 0 Or, On |0z,13H | Lz, 7H 0 le, 20H
18th Oct., 1931 . 0 0 0 On, 1H 0 Or, 1H
7th July, 1983. |0z, 1H |Ox, 2 |0z,14u | On, 82 |. 0 Or, 20H

Total. .{\1, 6H |3x,30nH |5u,47H | 162,23 |7n, 2u | 82,108

—

Table showing the number of euphallic (zg) and hemiphallic (4) specimens of Zonttoides nitidus,
of various sizes over 4:4.mm. in diameter, found together at Grantchester, near Cambridge, on
different dates.

Various explanations might be suggested to account for this
marked seasonal difference in the relative prevalence of the two
types. It may be that snails of the hemiphallic type develop more
quickly than the others, and arrive at maturity at least three months
earlier. Or perhaps the two types lay their eggs at different times of
the year, as might easily be the case if one type is cross-fertilized
and the other self-fertilized. Or it is conceivable that the two types
are not genetically distinct, but that all the individuals of this species
inherit a tendency to become hemiphallic under certain external
conditions. For example, it is at least possible that if the weather
is cold and unfavourable at a certain critical stage in the early
development of the genital ducts, the snail will become hemi-
phallic ; while it will become euphallic if the weather is warmer
at that stage of development, as it might be in specimens not
maturing until late in the year.

Further observations and experiments are required to discover
which explanation is correct. It will be noted that Taylor found,

40 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

as I have done, that the proportion of euphallic specimens diminished
about the end of May; but he does not seem to have found that it
increased again in the autumn. Perhaps he did not examine many
specimens in the autumn ; or it may be that in the North of England
the euphallic snails do not mature until later. In this connection it
may perhaps be significant that six specimens found by Waterston
beside Duddingston Loch, Edinburgh, all proved to be hemiphallic,
although they were collected as late as the beginning of October.

ZONITOIDES EXCAVATUS (Bean).

Charles Ashford } stated that out of a large series of individuals
of this species examined in May, June, and July, scarcely 10 per
cent furnished darts; and that they were most likely to be found
in animals with shells that had lost their brilliancy and assumed
a dull, dirty yellow appearance. Moss? found that a dart was
present in only three out of eleven, apparently mature, specimens
of this species collected at Bardsley, near Ashton-under-Lyne,
in March and April, that is to say, exactly the same proportion as he
found in Zonitoides nitidus from the same locality ; and his further
remarks, which I summarized when dealing with the last species,
apply also to the present one. Taylor ? stated that adult specimens
of Z. excavatus often contain darts up to the middle of May, but
that later in the year darts are absent from mature examples, which
then become less common, the immature specimens becoming
more plentiful. Boycott,* however, found darts in two out of five
specimens he examined, which had been collected at Portmadoc,
Carnarvonshire, in the month of August.

- Of this species I have only been able to examine the genital
ducts of between fifty and sixty specimens, including eight from
English localities, for which I am indebted to Professor A. E.
Boycott, thirty-seven from various Irish localities, nearly all of
which were kindly collected and sent to me by R. A. Phillips, and
eight from Holland, which were kindly collected by Dr. W.
Beyerinck, and sent to me by C. O. van Regteren Altena.
Particulars of these specimens are given in the following table :—
Hartfield, Sussex. March, 1926 . 3 hemiphallic specimens.
Burnham Beeches, Bucks. Feb., 1926 1 ditto.

ap es Moril, 1920... 3. ditto:
Haltwhistle, Northumberland, June,

1925 : ; : : POO Gateoy
New Ross, Co. Wexford. Dec., 1929 2 ditto. (diam. 5°5 mm.)

1 Journ. of Conchol., vol. 4, 1883, p. III.

* Ibid., vol. 8; 1807,.p.:421.

3 Monogr. L. and F. W. Moll. Brit. Is., vol. 3, 1908, p. 136.
4 Proc. Malac. Soc., vol. 11, 1915, p. 327.

. WATSON: GENITAL DIMORPHISM IN ZONITOIDES. 41

New Ross, Co. Wexford. Jan., 1931 9 ditto. (diam. 4°7-6'1 mm.)
Mt. Butler, Roscrea, Co. Tipperary.

Oct., 1929 . g ditto. (diam. 4°2—-5°7 mm.)
Kilrush, Co. Clare. March, 1931 . 9g ditto. (diam. 4'5-6'o mm.)
I euphallic (diam. 5°8 mm.)

Woodford, Co. Galway. Jan., 1930 6 hewphalie (dem oes mint)

CorGalway.: Sept.,, 1928). ¢: ae. Vaitte., 1 (diane, 3°2/na?)
Mantinge, Drente, Holland. June, {3 euphallic (diam. 5:2-5:8 mm.)
1934 A . (5 hemiphallic (diam. 4°9-5°8 mm.)

In this species we ad exactly the same dimorphism of the
genital ducts as in Zonitoides nitidus. ‘The euphallic and hemiphallic
types much resemble the corresponding types in the last species,
and have already been figured by Moss.1. They differ strikingly
from each other in the same manner as they do in Z. nitidus. It is
true that in some of the hemiphallic specimens of the present
species the penis, epiphallus, and dart-sac do not seem to be quite
so small and degenerate ; but even these specimens do not approach
those of the euphallic type, which contrast strongly with all the
hemiphallic specimens found with them.

As in the last species, the shells of the euphallic specimens are,
on an average, slightly larger than the others. But one, sexually
mature, euphallic specimen had a shell measuring only 5:2 mm.
in diameter, while the hemiphallic snails that I have dissected had
shells varying up to 6°1 mm. in diameter, and Boycott? stated
that the shell of the specimen of which he figured sections had
a diameter of as much as 6°4mm., although this animal appears
to have been of the hemiphallic type. ‘These facts, together with
the notable absence of intermediate specimens, suggest that in this
species also it is very improbable that one type develops into the
other in the course of growth. It is much more likely that the slightly
greater average size of the euphallic specimens is due to the fact
that the much larger copulatory organs require a larger shell to
accommodate them.

This species also resembles Z. nitidus in that the euphallic type
is the less common of the two, but is not so scarce at some seasons
of the year as at others. In the present species, however, according
to the observations of previous authors as well as my own, it would
seem that euphallic specimens are most frequently found in the
spring or summer, and are rare at other times of the year. But it is
to be hoped that some one who has the opportunity will investigate
this matter further with the help of breeding experiments, which
would be facilitated by the fact that it is often possible to distinguish
the two types even in living specimens, owing to the transparency

of the shell.

1 Trans. Manchester Microscop. Soc. 1898, 1899, pl. v, figs. 23, 26.
* Op, cit., p. 928,

42 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

OTHER ZONITIDZE.

This remarkable dimorphism of the genital ducts does not seem
to occur in any other member of the Zonitidz found in the British
Isles, apparently not even in Zonitoides arboreus (Say), a species
introduced into Britain from America. Indeed, with the possible
exception of Agriolimax levis (Miill.), I do not know of any other
British sigmurethrous snail or slug in which ole: at all com-
parable has been found.

It is possible, however, that one or two of the numerous species
of the Zonitidz found only in America may show a similar condition.
For example, in Striatura, an American genus allied to Zonitoides,
Baker? has described and figured the genital ducts of S. ferrea
Morse as having exceptionally small and simple male organs, and
no dart, although he has shown ? that in S. milium (Morse) these
organs are large and well developed and a dart is present. It there-
fore seems possible that the three specimens of S. ferrea which
Baker was able to examine may all have been of the hemiphallic
type, for sometimes one may dissect as many as twenty examples
of Zonitoides nitidus without finding a single At ane specimen
among them.

SUMMARY.

The two species of Zonitoides native to the British Isles both show
a striking dimorphism in the genital ducts. In some specimens—
the “ euphallic”’ type—the penis, epiphallus, prostate gland, and
dart-apparatus are well developed ; in others—the “ hemiphallic ”
type—these organs are quite small and degenerate—a condition
which may be compared with that of the aphallic specimens found
in several orthurethrous species. Both types are equally
hermaphrodite, but the first would seem better adapted to cross-
fertilization, and the second to self-fertilization. ‘They both may
grow to about the same size, and may be found together at almost
any season of the year without intermediate forms. It is therefore
very unlikely that one type develops into the other during growth.
Nevertheless, the euphallic type is often scarcest among small
specimens, and is more frequently found at some seasons of the year
than at others, when it may be comparatively rare. A similar genital
dimorphism does not seem to occur among any of the other British
Zonitidz, although it may perhaps be found in one or two of the
members of this family living only in America.

1 Proc. Acad. Nat. Sci. Phila., vol. 80, 1928, p. 37, pl. vii, fig. 6.
2 Ibid.; p. 35, pl. vil, figs. 3, 0,24,

43

ACHATINA FULICA (FER.) IN THE NETHERLANDS EAST
INDIES.

By Miss TERA VAN BENTHEM JUTTING (Zoological Museum,
Amsterdam).

(Read before the Society, 11th November, 1933.)

Ir is a matter of common knowledge that in the course of about
80 years the large African snail Achatina fulica (Fér.) has succeeded
in finding its way from its native country, tropical Africa, to
Mauritius, the Seychelles, British India, Ceylon, Malaya, China,
and North Borneo, thus augmenting its territory in an unequalled
short amount of time.

Benson was the first to meet them on Mauritius in 1847 and
afterwards purposely introduced them in Calcutta, and by the
time he published his note the editor of the journal could add a
record from Reunion where the animal had also been introduced
by human agency.

For further particulars about the rapid distribution of this snail
in our century I may refer to the bibliography at the end of this note.

It is curious that in its native country Achatina fulica does not
require special attention as a devastator, whereas in its new settle-
ments it soon became an extraordinary plague to horticulture and
to some of the crops for the world-market (rubber, tea, cacao)
by feeding down young shoots and flowers, not even respecting
such well-armed plants as Euphorbia and Opuntia.

Now it was not to be wondered at that the Plantquarantaine
Service of the Netherlands East Indies of late years has been
vigilant to keep this enemy far from our Malaysian colonies.
Unfortunately, in spite of all precautions the barrier has been
forced and in the beginning of 1933 specimens were reported
from the Rhio Archipelago and afterwards from Java. A recent
letter of Mr. van der Meer Mohr of the Deli Experiment Station
at Medan mentions the occurrence of Achatina fulica in large
numbers in a rubber plantation on the east coast of Sumatra.

Large new regions are hereby opened for the invaders. It is
hoped that agricultural and horticultural authorities will succeed
in combating this new pest by inculcating on the Europeans and
on the native population that no measures of extermination can be
severe enough to protect their crop from these voracious new-
comers.

In concluding I wish to draw attention to a useful instruction
for destroying Achatina fulica suggested in a paper by Connolly
where it might perhaps escape adequate notice :—

44 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

“It is an interesting fact, in this connection, that there is no
limestone in Ceylon, which is almost a purely granitic formation,
and due doubtless to this cause the snails have developed a passion
for whitewash, for which they crawl up the walls of buildings in
order to lap it off the whitened windows, and this is now turned
to account in keeping down the pest by placing little bags of poisoned
whitewash in spots where they are likely to find and eat it.”’

This method of destruction might be put in practice in our
colonies with equally satisfactory chances of success, at least in
West Java, this part of the island being poor in limestone deposits.

BIBLIOGRAPHY.

1.—W. H. Benson, ‘‘ Note sur la transportation et la naturalisation au
Bengale de l’Achatina fulica de Lamarck ’”’ (Fourn. de Conch.,
Vol. 7, 1655, Pp. 200-9).

2.—N.. ANNANDALE, “ The Distribution in India of the African snail
Achatina fulica Fér.” (Ree. Ind. Mus. vole, 1907; pp. 170-7).

3.—V.H. C. JARRETT, ‘“'The occurrence of the snail Achatina fulica in
Malaya” (Singapore Naturalist, 1923, pp. 73-6).

4.—F. W. Soutu, “ The Giant Snail (Achatina fulica Fér.) in Malaya ”’
(Malayan Agric. vol; 14, 1926, DD: 2315241):

5.—J. C. VAN DER MEER Monk, ‘ ‘*“ Over Ryssota brookei en tevens nog een
enkel woordje over Achatina fulica’”’ (De Trop. Natuur, vol. 16,
£O27)\ Dip enGrs).

6.—K. W. Dammerman, The Agricultural Zoology of the Malay Archipelago
(Amsterdam, 1929, p. I19).

7 —M. Conno ty, “‘ The Distribution of Non-Marine Mollusca throughout
Continental Africa ” (Journ. of Conch., vol. 19, 1929, p. 103).

8.—V.H. C. Jarrett, ‘‘ Achatina fulica”’ (Hong Kong Naturalist, vol. 3,

1932).
9.—S. LeeFMans and J. VAN DER VECHT, ‘De groote Agaatslak (Achatina
fulica Fér.) in Nederlandsch- fade (De Bergcultures, vol. 7,

1933, PP- 579-584).

CEPHALOPODS FROM THE CAPE OF GOOD HOPE.
By K. H. Barnarp, D.Sc. (South African Museum, Cape Town).

IN rearranging the exhibited series of Cephalopods in the
South African Museum, a specimen which had been labelled
‘“Enoploteuthis ”’ attracted attention. On closer examination it
was found to be Gonatus fabric (Lichtenstein). ‘The specimen
was captured by the Cape Fisheries Survey vessel Pieter Faure
in 1903 off Cape Point in 930 fathoms (no closing net used), and
probably had been provisionally identified as an Enoploteuthis
by. the. late: Dr, Gilehrist.

Gonatus fabricii was recorded from the Cape of Good Hope by
Steenstrup, as mentioned by Pfeffer (1912, Ceph. Plankt. Exp.
ii, F:.a., pp) 231,°240, 1242): \¢Baissgecord seems -to| have been
overlooked in compiling the fauna-lists of South African Mollusca.

BARNARD : CEPHALOPODS FROM THE CAPE OF GOOD HOPE. 45

The present specimen is in good condition but has lost the
greater part of the epidermis. Length from anterior margin of
mantle to posterior apex 220 mm., to beginning of fin 125 mm. ;
breadth 37 mm. Length of fin 95 mm., greatest breadth 85 mm.
The fin is therefore nearly equilateral, the greatest width almost
as far forward as the origin of the fin, the apex tapering rapidly
to a slender point resembling Pfeffer’s figure of Ancistroteuthis
fice, pl. 50).

The 2nd, 3rd, and 4th (ventral) pair of arms are subequal, about
110 mm. in length, the 4th pair more slender than the others.
The 1st (dorsal) pair is go mm. in length. ‘Tentacles 160 mm.
in length. On the club there are three small median hooks proximal
to the very large subdistal one. Gladius 170 mm. inlength. Radula
as figured by Verrill (1882, Trans. Conn. Ac. Arts Sct., vol. v,
pl..45; fig..1a).

Pfeffer (l.c., p. 240) mentions differences between the northern
and the southern (antarcticus) forms, and wonders whether
Steenstrup’s Cape specimen belonged to the latter or to an inter-
mediate form. ‘These differences are relative, and without actual
material for comparison it is difficult to say to which form the
present specimen bears most resemblance. In comparison, however,
with Verrill’s figure 1d on pl. 49 (l.c., 1882) both the distal and
subdistal hooks on the club of the tentacle project much farther
out of their sheaths, especially the large subdistal one, and in
shape are almost perfect semicircles. This specimen would seem,
therefore, to belong to the southern form.

This opportunity may be taken of placing on record the occurrence
at the Cape of three other Cephalopods not hitherto included in
the fauna-list. |

Thysanoteuthis rhombus Troschel. The specimen from which
the exhibited cast was made was washed ashore at St. James,
False Bay, date unknown. Mantle length 480 mm., width 375 mm.
Another specimen came ashore at the same locality in February,
1918.

Todarodes sagittatus (Lam.). A cast of this species was
prepared from a specimen washed ashore on the west coast of the
Cape Peninsula. Mantle length 520 mm., length of fin 235 mm.,
_ width of fin 390 mm.

Tremoctopus violaceus Della Chiaje. ‘Two specimens of this
species were washed up at St. James in April, 1912, and a third
one at Somerset Strand (also in False Bay) in 1917.

46 | |
CYPRAA VINOSA GMELIN IN A SAXON WOMAN’S GRAVE
IN SOMERSET.

By J. Wi_rrip Jackson, D.Sc., F.G.S.
(Read before the Society, 7th December, 1932.)

I am indebted to the Very Rev. Prior Horne, F.5.A., of Downside
Abbey, near Bath, for information concerning a cowry-shell
submitted to me for identification. ‘The shell is that of Cyprea
vinosa Gmelin and was discovered in a Saxon cemetery at Camerton,
Somerset, by Prior Horne. It is pierced at one end for suspension
and was found in grave 100 of this cemetery. The grave is dated as
the middle of the seventh century a.p. and contained a female
skeleton with the minute bones of a seven months child within
the pelvis. In a little heap by the left foot of the skeleton were
found: 1, cowry-shell ; 2, lump of chalk cut in the shape of a heart,
min. long; 3,.a large boars tusk; 4, a thick iron pin, 24 in.
long; 5, a flint scraper (?); and 6, a Roman 3rd brass apparently
of Tetricus II.

In rg1r ‘Tomlin (this Fournal, vol. xii, p. 251) recorded a lip-
fragment of Cyprea tigris from a pit-dwelling at St. Mary Bourne,
Hants. In 1912 (this Yournal, vol. xiii, p. 307) I published a short
account of the discovery of shells of Cyprzxa vinosa in Saxon graves
in Kent. ‘These shells, under the name of Concha veneris, were
recorded by Faussett, in 1856,1 from the graves of Saxon women,
two on Kingston Down and one on Sibertswold Down. One of
the Kingston Down graves is dated as seventh century A.D. from
the associated pendants. I was able to identify the species from
two examples preserved in the Mayer Collection in the Liverpool
Museum. In the same paper I referred to another cowry from
a double-grave, also seventh century, near Wingham, Kent,
recorded in Archzologia, vol. xxx, p. 551.

In the Antiquaries Fournal, vol. xi, 1931 (pp. 282-4), there is a
further record by Mr. 'T. W. Bagshawe of the discovery of a Cyprxa
vinosa, pierced for suspension, in a Saxon grave at Luton, Bedfordshire,
along with a female skeleton.

In addition to the foregoing, four other records of the association
of cowry-shells with Saxon burials are mentioned by Nils Aberg in
The Anglo-Saxons in England (1926, pp. 105 and 208). They are
as follows : Chatham, Kent, one Cyprea found with a seventh century
pendant; Sarre, Kent, one Cyprxa arabica; Alfriston, Sussex, three
fragments of a large cowry-shell, dating A.D. 550-600; and Hasling-
field, Cambridge, one Cyprea. Cowries are also recorded from graves

1 Faussett, Inventorium Sepulchrale (1856), pp. 68, 92, and 133.

JACKSON : CYPRAEA VINOSA GMELIN IN SAXON GRAVE. 47

at Linton, Cambs, of sixth century (see Fox, Archzol. of the Camb.
Region, 1923, p. 260); and Burwell, Cambs (see T. C. Lethbridge,
Camb. Antig. Soc., vol. xxix, pp. 84 et seq.); also Ellesborough,
Bucks (see Records of Buckinghamshire, vol. ix, pp. 426 et seq., and
plate 1).

Cowries from Jutish burials from Breach Downs, Kent, and
Wingham, Kent, are in the British Museum.

Nils Aberg (op. cit., p. 106, footnote) remarks that ‘ Indian
decorative shells also occur in Lombard, South German, and
Scandinavian grave finds, and mostly belong to the seventh century.
It would, however, seem that these shells had begun to be imported
_ into Middle Europe already during the course of the sixth century ”’.

In my 1912 paper (op. cit., p. 308) I refer to records of Cyprxa
vinosa from the Franco-Merovingian Necropolis of Nesles-lez-
Verlincthun (Canton de Samer); from a sepulchre at Tardinghen ;
and from excavations at Pompeii. Cypreza tigris has also been
recorded from the latter place as well as from the Gallo-Roman
necropolis of Trion, at Lyons. A fragment of Cyprea lurida,
pierced for suspension, is recorded from the dolmen of Géandes,
Bourg-Saint-Andéol, at Ardeche (see Annales de la Société Linn.
de Lyon, vol. lviil, 1911, p. 210). |

In my book, published in 1917,1 I discussed the significance of
the presence of cowries in graves and other situations. It was
there stated that the cowry was (and still is) widely believed to
confer fertility on women and to help in the process of parturition.
They are worn by women as amulets, presented to them as bridal
offerings in many places, and used by sterile and pregnant women
to attain these respective benefits. In addition they have been
placed in graves with the object of conferring vitalizing power and |
to ensure the continuance of the deceased’s existence, i.e. not
merely life but resurrection. The association of cowry-shells
with pregnancy is to be found in places so far away as India and
Japan.

1 J. W. Jackson, Shells as Evidence of the Migrations of Early Culture,
Manchester, University Press, 1917.

48
A REPUTED SMOOTH-SHELLED VARIETY OF HELIX
_ ASPERSA MULL.

By C. OLDHAM.
(Read before the Society, 1oth March, 1934.)

REFERENCE is made on p. 259 of vol. ii of J. W. Taylor's Monograph
of British Land and Freshwater Mollusca to a variety of Helix
aspersa said to have been described by P. Calcara as var. glabra
in Molluscht Sicilia (1845). Mr. J. R. le B. Tomlin tells me that
no such work as Molluschi Sicilia is known, but that in a paper
of Calcara’s, published in 1845, the Esposizione det Moll. Terr. e
Fluv. det Dintorni di Palermo, ten forms of H. aspersa are enumerated.
No description is given of any, but the name glabra, one of the
ten, should perhaps be regarded as a descriptive epithet. Lacking
a diagnosis, however, it is a nomen nudum, and therefore invalid.
In the absence of any proper description prior to 9th July, 1910,
the date of issue of the relevant part of the Monograph, 'Taylor
himself must be regarded as the author of glabra in view of his
diagnosis, “ Shell smooth with the usual rugulose sculpture almost
obliterated ’’; locality, Sicily. In a later part of the Monograph,
published on 20th December, 1914, Taylor ascribes to the Sicilian
form which he had described as glabra a variety which “ has been
found to inhabit the churchyard at Rand, near Wragby,
Lincolnshire, by Mr. J. F. Musham”’.

_ It seemed worth while to ascertain whether this smooth character
was a heritable one, and in order to see if smooth snails still
inhabited the churchyard, I visited Rand in January, 1933. At
that season aspersa was, of course, not active, but a few dead shells
found in the churchyard were of the typical wrinkled form. A
subsequent examination of the shells from Rand in the Lincoln
Museum, in the J. W. Taylor and J. Kidson Taylor collections in
the cabinet of the Conchological Society and in Mr. Tomlin’s
collection, as well as shells in the Lincoln Museum collected in
the Newark Road, Lincoln, on 2oth May, 1910, a month later than
the date on which the shells were collected at Rand, made it clear
that the smoothness was not natural, but due to extraneous causes.
All the shells were devoid of periostracum and fizzed when tested
with a drop of dilute hydrochloric acid. But their degradation
had gone further; the calcareous portion of the shells had
apparently been attacked by some corrosive agent, which had so
eroded the shell externally that the characteristic yellowish-grey

1'The paper appeared in the Att: della Accademia di Scienze e Lettere di
Palermo, N.S., vol. i (1845).

OLDHAM : SMOOTH-SHELLED VARIETY OF HELIX ASPERSA MULL. 49

flammules had disappeared or were represented only by vestiges ;
whilst internally the nacreous layer had the shabby appearance of
shells some time dead. Smooth shells, replicas of those from the
Rand churchyard, may be turned out to order by decorticating
any ordinary aspersa by boiling them in dilute caustic soda, then
partially decalcifying them by immersion in dilute hydrochloric
acid and polishing the deteriorated product with a little vaseline.
A like result may be achieved by immersing normal shells in
sulphuric acid, which both decorticates and decalcifies them,
although sulphuric breaks down the calcareous layers more slowly
than hydrochloric acid. |

Mr. Musham tells me that the shells at Rand and in the Newark
Road, Lincoln, were collected for and not by him, that those at
Rand were found in a heap of old masonry in a corner of the
churchyard, and that the smooth shells, whether at Rand or in
the Newark Road, were all dead, such living ones as were seen
being ordinary rough-shelled aspersa. How the Rand shells were
reduced to their smooth state it is impossible to say. Attrition
by blown sand, the effects of which are often seen in shells living
on sand dunes, may be ruled out at once, for the churchyard stands
on heavy glacial clay. Some of the Museum specimens appear to
have remains of dead snails in their upper whorls, and it seems
possible that snails, gathered in the churchyard or the adjacent
vicarage garden, had been thrown into some corrosive stuff, weed-
killer or what not, which had attacked the organic and inorganic
parts alike, and had then been cast onto the rubbish heap, although
this would hardly account for the smooth shells in the Newark
Road. However the condition was attained, and whatever the
shells referred to by Calcara may have been, it is certain that
these Lincolnshire shells are not natural products and in con-
sequence are not to be differentiated by their smoothness from
“normal examples. No such smooth form as T'aylor’s diagnosis
postulates has yet been recognized in Britain.

50
ISIDORELLA PYRAMIDATA (SOW.) : A CORRECTION.
By Dr. Fl, 1 Oui,
(Read before the Society, 12th May, 1934.)

In the Fournal of Conchology, vol. 19, June, 1933, fig. 12 on p. 327
is inaccurate. ‘I‘he organ shown as the gonad is really the albumen
gland. The gonad occupies the upper whorls of the shell in the
usual way, and the hermaphrodite duct has numerous small saccular
diverticula as indicated in Fig. C. Compare Watson’s figure of
Isidora (Physopsts) globosa (Morelet), Trans. Roy. Soc. of S. Africa,
vol. xii, part 3, plate viii.

In the living animal of Isidorella pyramidata, the lobulated
respiratory frill overlaps the anus, and lies largely in front of it,
hiding the siphon, but in spirit specimens the frill shrinks back
and appears as in Fig. A, exposing the anus between it and the
siphon.

While it is true that the salivary glands and their very short
ducts lie in front of the nerve ring on the buccal bulb in Istdorella
and in Planorbis corneus, a very thin thread of glandular tissue

passes back through the nerve ring (Fig. B).

51
NAMES OF BRITISH MOLLUSCA—ITI.
By R. Winckwortu, M.A.
(Read before the Society 9th December, 1933.)

THE following remarks on Pecten and Kellia were included in Part II,
but held over from the last number of the Journal for want of space.
The note on Pandora has been amplified and the opportunity taken
to add two other notes.

PECTEN (p. 241).

Grant and Gale in a book,! which contains a great deal of valuable
systematic work, seem to me to be in error, when they regard the
genus Pecten as established by Osbeck ocad of Miller. Osbeck’s
account of his eastern travels was originally published in Swedish
in 1757, and is too early to be taken into account; this was trans-
lated into German in 1765 ; and an English Edicion! translated from
the German, appeared in 1771. The only reference to Pecten
faithfully survives both translations, as may be seen from the
complete quotations here given.

1757, p. 299. ‘‘ Med ankartaget sdlade et hwitt Corall-amne,
hwarpa en réd Snicka, Pecten adscensionis, som hade manga grenar
pa skalet och war fastwaxt.”’

1771, p. 100. ‘‘ With the cable we pulled up a piece of coral,
on which a red shell (Pecten Adscensionts) was growing, which on its
valves represented many branches.”’

While it is true that the German edition had been carefully revised,
this does not give nomenclatorial validity to the original names.
Opinion 21 of the International Commission on Zoological
Nomenclature refuses nomenclatorial status to Klein’s genera of
1744 as quoted by Walbaum in 1792. Opinion 57 is even more
pertinent : :—‘‘ Hasselquist’s ‘Iter Palaestinum’ was published
prior to 1758; it was edited as to its nomenclature by Linnaeus.
The German translation by Gadebusch, published in 1762, does
not give validity to the names published in the original edition in
1757.

Not only is Pecten Osbeck inadmissible on this basis, but it would
-also appear to be a nomen nudum. The genus is in no way described,
but is solely dependent on its association with the specific name
Adscensionis. 'This species, however, is certainly not indicated ?
or defined, and surely one cannot regard this casual allusion as
a description. It is so far from being described that Grant and Gale
interpret it as an unidentified species of Chlamys, while I should

1 Mem. San Diego Soc. N.H., vol. 1 (1931).
2 The term “ indication ”’ is ‘precisely defined in Opinion 1.

52 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

consider it more probable that it was Spondylus powelli Smith,
after consulting published and manuscript lists of Ascension Island
mollusca and bearing in mind the remark, firmly grown (fastw4xt)
on coral; though an unknown species of Chama might be a better
guess. This point could be settled from the actual specimen, which
is probably still in existence, but “‘ in no case is the word indication
to be construed as including museum specimens. ”

My conclusion is that Pecten Osbeck is a nude name, published
in a work not valid for nomenclature ; accordingly Pecten Miller
1776 stands with P. maximus (L.) as type.

IELLIA (p.) 242).

Grant and Gale have stated that the customary use of Kellia
is inadmissible, inasmuch as Herrmannsen in 1846 selected Cardium
rubrum Montagu as type. They have, however, overlooked the earlier
designation of type by Récluz in 1844, who, in his account of
Erycina, refers + to 'Turton’s genus Kellia, mentioning “ Le type
de son Kellia, celui seul qui correspond au caractere de son genre,
le Kellia suborbicularis.”

CALOPODIUM v. PANDORA (p. 248).

Dr. Prashad has already pointed out, in his report on the
Pelecypoda of the Siboga Expedition (p. 322), that Calopodium must
supplant Pandora. |

The first reference to Pandora occurs in 1795, in volume 11 of
the Conchylien-Cabinet, where (p. 211) Chemnitz at the end of his
description of Tellina crystallina states that Hwass had made a new
genus (Geschlecht) for Tellinas with a flat upper valve such as
inequivalvis, crystallina, etc., and called it Pandora. Unfortunately
in this volume Chemnitz is as casual in his use of binomials as in
the earlier volumes 2; and I do not see that the quotation of a name
attributed to Hwass in a non-binomial work can be regarded as
a valid proposal of a genus.

The next use of the word Pandora is as a legend over three figures
in the middle of plate 250 of the Tableau Encyclopédique, part 10,
published in 1797. Unfortunately no specific name is given; and,
although a published figure is to be construed as a valid indication
of a species, it does not give validity to a generic name.

Thus Pandora cannot be regarded as a valid generic name until
Lamarck’s formal description * in 1799. Meanwhile, Réding had

1 Revue Zool. Cuv., vol. 7, p. 295.

2 'There is a mononomial Phineas on p. 297 ; ; numerous trinomials,
e.g. Helix Ianus bifrons (p. 307) and Helix Nux denticulata, Helix sinuata
major (p. 275), and even quadrinomials occur in this volume.

’ International Rules of Zoological Nomenclature, Opinion 1.

4 Mem. Soc. H. N. Paris, an vii, p. 88.

WINCKWORTH : NAMES OF BRITISH MOLLUSCA. 53

already in 1798 proposed Calopodium 4 for the species C. albidum
Réding = Tellina inequivalvis Gmelin.

Poli in 1791 placed the animal of Tellina inzequivalvis in a new
genus, Hypogea; but that name need not be considered here, as
it includes Pholas dactylus, which species was selected as type
by Gray.

I cannot agree with those authors who regard the Mediecrancan
and Atlantic forms referred to Pandora inzquivalvis (L.) as con-
specific. The English species has a thick shell, the Mediterranean
a thin one ; they differ also in colour, in shell proportions, in muscle
scars, in the shape of the cardinal and in the angle it makes with the
ligament. It is true both vary considerably, but they remain distinct
in these and almost every shell character except sculpture. For these
two forms the names usually given are inequivalvis Linné and
margaritacea Lamarck. I have recently re-examined the type
specimen in the Linnean cabinet, and can confirm that it is the
Mediterranean species. For the Atlantic species, I am afraid the
law of priority requires us to revive albidum Réding 1798 for
margaritacea Lamarck 1801. Calopodium albidum is defined by
reference to Tellina inzequivalvis Gmelin (which includes Pacific,
Mediterranean, and Atlantic species) and further limited by the
quotation of Chemnitz’s figures only among those given by Gmelin :
this makes albidum the Atlantic species. |

TELLINA BRITANNICA Tomlin (p. 245).

Attention is here drawn to a recent paper ? in which this new
species is described. It is closely related to Tellina balaustina L.,
and should be added to the list after No. 121.

ScaLa Bruguiere.

I note that Thiele in his Handbuch, p. 222, revives Klein’s name
Scala for Epitonium, quoting it as Scala (Klein 1753) Bruguiére
1792. I find that Bruguiére, however, has not used Scala himself,
but in the article on the history of conchology, section “‘ Méthode
de Klein”, gives ‘a’ list’ of Klein's ‘genera’ extracted’ from: his
Tentamen. ‘This (p. 532) is the only reference to Scala I can find
in Bruguiere, and obviously does not make Klein’s name available ;
the description of Scala is quoted verbatim from p. 52 of the
Tentamen. In Epitonium the whorls are separated so as to form a
disjunct spiral, and I have regarded Clathrus as_ generically
distinct.

1 Mus. Bolten., p. 166.
2 Proc. Malac. Soc., vol. 21, p. 145 (1934).

54

.~BIONOMICS OF A BRACKISH-WATER NUDIBRANCH :
LIMAPONTIA DEPRESSA.

By Dr. PauL PELSENEER.

L. GEOGRAPHICAL DISTRIBUTION.

In the 8th part of Alder & Hancock’s British Nudibranchiate
Mollusca, 1910, p. 142, Eliot says that Limapontia depressa “‘ appears
not to have been found since the time of Alder & Hancock ” (1862,
Ann. and Mag. Nat. Hist., ser. 3, vol. x, pp. 264-5), and thus has
remained unknown from other localities than those quoted by
them: near Sunderland, North Sea, and near Swansea, Bristol
Channel.

Nevertheless, in some other stations, L. depressa was recorded
before 1910: in Wimereux, near Boulogne (Pelseneer, 1894, Mém.
Acad. Belg., vol. liii, p. 62: anatomical description, without
biological account), and near Easington, Yorkshire (Petch, 1903,
Trans. Hull Sct. and Field Natural. Club, vol. 111, p. 32); then, more
recently, in Sallenelles, not far from Caen, Calvados (Gallien, 1929,
Bull. Soc. Linn. Normandie, ser. 8, vol. i, p. 162), and in East
Scotland, near Dunbar (Kevan, 1934, this fournal, vol. xx, p. 16).

Thus this species enjoys a rather wide distribution in both
Britain and Continent (French coasts of the Channel), and as
L. depressa is a minute creature, it has probably escaped notice
in various places; but as it has a very special habitat, it could not
be present everywhere.

II. HAaBritat or BIOTOPE.

In each station L. depressa is living in the same natural conditions:
brackish pools more or less isolated from the sea, and there related
only by exceptional tides.

It has also, in its various places, the same , fellow-species, WIZ,
among mollusca: Tellina balthica, Hydrobia ulve, Alexia myosotis,
and often Alderia modesta.

Adult and larval L. depressa may live in sea-water, and the
latter could be carried eventually by currents through the open
sea. In fresh water, on the contrary, they die. Besides, L. depressa
lives also, for a rather long time, out of the water, in a damp
atmosphere. |

III. BreepING Hasits AND DEVELOPMENT.

(1) Breeding Season.—Not only during the months November—

December, then once more April-May, but also in January—

February (Gallien) and March (Pelseneer). ‘Thus during a very
large part of the year, over seven months.

.PELSENEER : BIONOMICS OF A BRACKISH-WATER NUDIBRANCH. 55

(2) Egg Clusters and Number of Eggs——The nidamental ribbons
or egg clusters are as long as the laying animal, 6-7 mm., some-
times more (1 cm.). The deposition of a cluster ends in a few
minutes. The number of eggs in a ribbon is about 400, or nearly
the same number as in Limapontia capitata in the Mediterranean
Sea (Vayssiere, 1903).

(3) Development.—A. Conformation of the hatched young. The
Limapontiidz are the only family of Nudibranchs where the young
of some genera hatch with the adult form (“ ephelicimorphic’”’):
Cenia cocksi (Pelseneer, 1899 ; Colgan, 1912), Vayssterea caledonica
(Risbec, 1928). In L. depressa the hatching, as could be expected
from the great number of eggs, takes place with veliger free larve,
as in the adjoining species L. capitata, and in other genera of
Ascoglossa: LErcolania, Hermza, Alderia, Elysta.

B. Length of embryonic life: in L. depressa this period covers
three or four weeks, thus more than in L. capitata (16-17 days).
In the latter, however, observations were made in summer (June)
and in L. depressa in winter (February), and the different dura-
tions are caused by the differences of season: always higher
temperature accelerates development and hatching.

OCCURRENCE OF AMNICOLA TAYLORI (E. A. SMITH) AND
BITHYNIA LEACHII (SHEPPARD) IN SCOTLAND.

By RopcEerR WATERSTON.
(Read before the Society, 8th April, 1933.)

A VISIT was paid to the ponds used for seasoning timber at Grange-
mouth, Stirlingshire, on 20th April, 1931. ‘The ponds are three in
number. The two largest lie right and left of the road Grangemouth
to Falkirk at Grangemouth and communicate under the road, while
that on the right also communicates directly with the Forth and
Clyde Canal and with the River Forth at high tide. The third
pond lies close to this one and does not concern us in these notes.

The two main ponds are bordered, where they have not been
artificially built up with cement, by a narrow belt of Glyceria
aquatica backed by Urtica in places. Amnicola taylori was found
to be common amongst the submerged decaying leaves at the
roots of the Glyceria. Specimens were readily obtained by sieving.
On the outer fringe of the Glyceria belt Bithynia leachit occurred
abundantly with S. corneum and B. tentaculata. Many egg ribbons
of B. leachit were observed in both ponds on a subsequent visit on
7th July, 1931.

Amnicola taylori has been kept under observation at home and

56 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

bred in June last year, producing small circular plano-convex
capsules laid singly and each containing a single egg. Further
‘observations on the development have confirmed those of Jackson
and Taylor (Journal of Conchology, xi, pp. 9-11). The close
parallel of the habitat of this species at Grangemouth and Dukin-
field is remarkable. In both cases Glycerta seems to furnish most
amenable conditions.

Elsewhere in Britain A. taylori occurs in canals in Cheshire and
Lancashire.

Ellis regards the species as North American. In order to obtain -
more detail on the somewhat doubtful home of this species
specimens were sent to Dr. H. A. Pilsbry. In his reply (15, vi, 31)
he states :—

“'This shell is not known in North America, and is not much
like any of our forms. It has the appearance of the European
group. So far as I know, the statement of A. E. Ellis in British
Snails, page 81, that ‘A. taylori is a North American species’
is erroneous. I may say that our collection contains practically
every North American species known. |

“Your shells seem to agree well with the account of taylori
E. A. Smith, but I have not been able to compare Dukinfield
_ specimens, by which that form is to be judged, as that is Smith’s
type locality (Fournal of Conchology, xi, p. 9).”

“1 do not think that Amnicolidz are likely to be transported on
pine logs, though it is of course possible. At all events, we have
nothing closely resembling your shells in America.”

This then destroys the North American myth. Where is the
true home of taylori ?

Stelfox (Proc. Roy. Ir. Acad., xxix, B, p. 69) regards it as
endemic. Its only habitats in Britain, however, are artificial and
it seems more likely that it is a European introduction.

Bithynia leachu occurs sparsely in the Forth and Clyde Canal
at Grangemouth as well as in both of the ponds mentioned. The
occurrence of this species in Scotland must also be regarded as
adventitious.

The chief pond weeds at Grangemouth were Potamogeton spp.,
Ceratophyllum, Lemna polyrhiza. Associated mollusca_ were
Planorbis vortex, P. spirorbis, P. albus, P. contortus, Physa fontinalis,
Limnza peregra ovata, Valvata piscinalis, V. cristata, Bithynia
tentaculata, Spherium corneum, S. lacustre, Pisidia.

1 Through the kindness of Professor Boycott I have been able to compare
the Grangemouth shells with those from Dukinfield. ‘The Scottish shells
agree in every detail with the English specimens.

57
‘GIANT FORM OF PLANORBIS CORNEUS (LINNE).

By LioneL E. Apams.

(Read before the Society, 7th December, 1932.)

SEVERAL years ago Professor Boycott discovered at Burgh Heath,
in Surrey, two contiguous ponds containing a giant form of
Pl. corneus. Within more recent years I have had the opportunity
of studying these ponds, and have come to the conclusion that the
snails are not merely a number of individuals specially favoured
by an abundance of food under good growing conditions, but
that they form a constant variety if not race. ‘The following facts
seem to support this view.

1. ‘There are no individuals of normal size to be found in the
ponds; no adult measuring less than 33 mm., though within half
a mile there is a swamp containing plenty of normal specimens ;
also a pond a mile and a half distant with normal specimens. These
are the only habitats of PI. corneus in the district, the nearest
being at Guildford and Wimbledon.

2. Comparison of their “ growth checks” shows that after
the first year the Burgh Heath individuals are consistently larger
than normal specimens.

Burgh Heath. Normal.
Ist year g-13 mm. Qg-13 mm.
2nd year 26-30 ,, Po ea
_ grd year 34 45 24 55
4th year 35, (afew 36 mm.) 25° 3,.° (rarely 26 nam.)

99

These “‘ growth checks” are those of a year’s normal growth,
and not those due to periods of drought or other causes.

3. These larger individuals, as might be expected, lay larger
batches of eggs, and I think, though I have not actually measured,
that the individual eggs are likewise larger than those of normal-sized
parents. I have had in my jars capsules containing 60 (four times)
and several containing over 50 eggs. C. Oldham tells me his
normal sized captives do not lay more than 50 in a batch, 49 being
the highest of his records.

4. I have never known the “ giants” to pair with normals in
my jars, though every opportunity was given them. This, however,
is merely negative evidence, and there is no saying if this would
be the case if they met in a wild state.

There is of course the possibility of the Burgh Heath form
being imported from the Continent, as there are specimens of
equal size from Budapest, and some 34 and 32 mm. from the
** Rhine ”’ in the Darbishire collection in the Society’s collection in
the Manchester Museum.

¢

58 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

5. While PI. corneus greatly preponderates in numbers, the

following species are also found in the ponds, all being of normal
size with the exception of P. obtusale which is larger than usual:
Pl. carinatus, Pl. contortus, Pl. vortex, Pl. complanatus, Sph.
lacustre, Sph. corneum, L. peregra, A. lacustris.
_ The soil is sand and gravel, and the ponds are deeply lined with
black mud. Potamogeton natans and duck-weed cover nearly the
whole surface. There is a marked lack of carbonate of lime in
the water and most of the adult corneus are eroded characteristically
of that deficiency. It is difficult, therefore, to imagine that the
corneus would be specially favoured by their environment. The
ponds are shown in a map of the district dated more than a hundred
years back.

A NEW SPECIES OF LUCINA.
By A. E. SALISBURY.

[PLATE 1.]

SoME years ago Mr. H. W. Worsfold received from Sarawak some
specimens of a lucinid shell which he asked me to identify, and of
which he very kindly presented me with an example.

On studying the Lucinidz in the National Collection the shells
were found to be identical with a species until now without name ;
this I propose to call Lucina odontotis in reference to the very marked
and dentate ear over the anterior side of the beak which distinguishes
the species. ‘The following is a description of the shell, the type of
which is in the British Museum, and is now figured.

Lucina odontotis sp.n. Shell equivalve, suborbicular, subequilateral ;
the anterior side of the umbonal region is furnished with a very
distinct ear with toothed surface; the entire surface of the shell is
covered with marked radial sculpture strongest in the posterior region,
becoming finer in the centre, and strengthening again at the anterior
side; the ribs are crossed by concentric striation, giving the effect
of tiling, especially when viewed under the lens, this imbricate effect
developing into a frilling in the posterior region. Ligament contained
in a groove, the outer edge of which is dentate to the extent of
becoming frilled as above mentioned. Internally the pallial line joins
the adductor scars. Denticulate all round the inner margin, the
dentation having a tendency to become obsolete in the posterior
region, but nevertheless quite obvious. Colour white, tinged with
ochre; texture of a semi-porcellanous character. ‘The type and
two other shells in the British Museum were collected at Sarawak
and presented by Sir George Bartlett.

JOURNAL OF CONCHOLOGY. PLATES:

LUCINA ODONTOTIS SP.N.

Fig. 1: External view of right valve.
Figs. 2, 3: Internal view of shell.

Fig. 4: Dorsal view.
[Facing p. 58.

Det

59

_LIMN2A PEREGER Mull. Var. MARITIMA Jeff. AT
GULLANE POINT, FIRTH OF FORTH.

By D. K. Kevan,
(Read before the Society, 7th December, 1932.)

Tue above variety of L. pereger occurs in some abundance in the
ponds at Gullane Point, Firth of Forth (Bartholomew’s half-inch map).
These ponds lie in hollows just off the sand-dunes proper, and are
choked with mosses, etc., while in one the Bogbean (Menyanthes
trifoliata) occurs. ‘They frequently dry up during the summer
months, retaining sufficient moisture under the moss to ensure the
survival of the molluscan fauna.

I first found the variety in 1929, and took further specimens. in
May, 1930 and March, 1931, but beyond the normal interest attaching
to this variety, there was methine unusual about it, either in form or
size (Fig. 1). In August, 1932, however, the ponds were dry, and
among those of normal type I found a Valvata-like monstrosity, an
empty shell (Fig. 2). The likeness to V. pzscinalis is very evident
_ when the shell lies on the ground and is viewed from above, owing to
the exceptionally flattened spire and subrotundate aperture, but is
less apparent from the front where its Limnzid form (although
distorted) is revealed. It is not unlike some of the “‘ half-flats’ (but
dextral, of course) to which Professor A. E. Boycott and Captain C.
Diver refer in their paper on the abnormal forms of L. peregra obtained
in artificial breeding (Proc. Malac. Soc. Lond., vol. 19, Nov., 1930,
pl. 15). Its texture tallies with that of normal specimens. The shells
taken from this particular pond varied considerably in size, but
rarely exceeded that given by Ellis (British Snails, p. 106), 11 X 5$ mm.
I only took empty shells (the snails having died after breeding this
year), but the new brood was plentiful and well developed.

In the second pond, apart from a certain amount of normal varia-
tion in the shape of the aperture and length of spire, I encountered
nothing unusual, but in size, the shells were exceptionally large, shells
of over 15 mm. in length being common, while some exceeded 20 mm.
in length. ‘These were lying on top of the dried moss. Underneath,
the new brood was developing as at the first pond. It is possible that
years of exceptional growth are cyclical, as on the previous occasion
that specimens were taken from this pond (31st May, 1930, when the
species had fully or practically attained maturity) only a few shells
were slightly above normal size.

Associated with L. pereger var. maritima were Lim. truncatula and
Pisidium personatum (both abundant) while Plan. crista was sieved on
the 1931 visit. Vallonia pulchella (fide Kennard) in subfossil form

60 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

was plentiful in the sand under the dried moss of these ponds, and
one shell of Agriolimax agrestis was also found in this situation. It
is interesting to note that in the marshes (about half a mile to the
south of these ponds) which extend practically to the shore, and
contain a considerable and interesting molluscan fauna, Lim. pereger
var. maritima does not occur, its place being taken by the typical
form.

Fic. 1: L. pereger var. maritima 12 X 7 mm.
Fic. 2: L. pereger, var. maritima monstr. 5 X 5mm.

Supposed New Variety of Melanopsis doriz Issel Melanopsis doriz Issel,
var. nigra nov. Shell uniformly black, sub-sutural band wanting, columella
lip bluish with a blue prominence on the body whorl where the outer
lip joins. Habitat: Qanat at Ginehkan (c. 6,000 feet), near Kerman,
S. Persia. Type in my collection; paratypes in British Museum. I first
found this variety in 1924, but being in the very early stages of my study of the
mollusca of Persia I did not describe it as new and only do so now with
some hesitation. One is loth to add more names to the genus Melanopsis,
but I. have now travelled fairly widely in S. Persia where this species is,
perhaps, the commonest shell found. I think the occurrence of the variety
is worth recording. A qanat is an underground watercourse made by sinking
a series of wells and joining the bases. After some distance the water
flows out on the surface as a stream. It is just at this point where
shells are nearly always found, sometimes in great profusion. This qanat
at Ginehkan (pronounced “‘ Geenehkoo ”’ by the natives) comes out of the
mountain side and flows for 550 yards until it joins another swift stream
coming down from the mountains above. From this point on no shells
occur ; the combined streams dash along over stones in a headlong rush
to the plain below, where the water is distributed over cultivated land.
There is no connection with any other body of water. Throughout its
length this qanat contains enormous numbers of the variety described,
only a very small percentage in any way approaching the normal doriz,
which is dark brown with a light brown or yellow sub-sutural band. So
far I have not found this variety anywhere else in S. Persia. I collected
a large number of normal doriz in a qanat to the west of Kerman, and of
these just a few show some tendency to darkness and loss of the band,
but can be easily separated from var. mgra.—H. E. J. Biccs (Read before
the Society, 11th November, 1933).

61.

THE COLOURATION OF NUCELLA LAPILLUS (L.).
By Guy L. WILKINS.

(Read before the Society, 16th September, 1933.)

A SHORT time ago a note on the colouration of Nucella lapzllus (L.)
_ was read before this Society. This aroused my interest, for this
summer I have added considerably to my series of the species,
principally from the pier-head at Deal. Mr. Burton mentions in
his paper! that on clay rocks the shells of Nucella lapillus are
usually white with brown bands and on limestone or granite rocks
may be more varied in colouring. I have found several other
colour varieties, in addition to those mentioned by him, living
on Deal pier-head. The rocks from Deal to Dover are all chalk
mixed with flints; I have not observed any granite, limestone or
clay. The supports of the pier (which are sunk into the chalk sea
floor) are all of iron, including the steps. ‘There are a few baulks
of timber at the very end of the structure, bolted to the iron supports
to act, I suppose, as shock absorbers. ‘The girders, spans, and
steps are richly covered with barnacles and mussels, which, I believe,
form a large part of the diet of N. lapillus; the evidence of many
a meal may be seen about, in the shape of empty mussel shells
still hanging by the byssus. Jeffreys? notes having seen it busily
feeding on Balanus, the proboscis being inserted between the
opercular valves.

The under parts of the iron steps, which are of a lattice formation,
are in great demand for the laying of egg clusters, as indeed are the
angles of the girders; it is practically impossible to remove a
complete mass, so strongly are they attached to the surface. The
molluscs have been careful in almost every case to choose a spot
comparatively free from mussels and barnacles. ‘This cautious
egg laying is no doubt in part responsible for the abundance of
Nucella lapillus on Deal Pier.

It may be of interest to note here the colour varieties obtained
from this one locus :— :

(1) Pure white—no bands.
(1a) Pure white with spire light brown (possibly due to
rust marks ?).
(1b) White with sienna brown bands.
(1c) White with pale chocolate brown bands.
(1d) White with dark chocolate brown bands.
(1e) White with the shell grooves alternately light brown.

1 Fourn. of Conch., vol. xix, 339.
2 Jeffreys, Brit. Conch., vol. 4, p. 279.

62 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST, 1934.

(1f) White with the three wide bands composed of alternate
narrow ones of buff and pale brown, sometimes scarcely
visible outside but dark inside.

(2) Yellow or buff—no bands.

(2a) Yellow or buff with similar banding to those with
the white ground.

(3) Orange—no bands.

(3a) Orange with chocolate brown bands.

(4) Pale brown—no bands.

(4a) Pale brown with waving longitudinal lines of dark
brown.

(5) Dark chocolate brown—no bands.

(sa) Dark chocolate brown with single white band round
suture.

(6) Olivaceous, slightly clouded with brown.

(7) Pale mauve—no bands.

This latter form is particularly fine when young, although the
colour is a trifle illustve. The shell is pale mauve all over, the
mouth rose colour at the lip, shading back to a rich red-brown.
As the shell advances in age, it apparently becomes denser and loses
the delicate shade. By artificial light the colour is scarcely dis-
tinguishable from the somewhat dull grey of a mature specimen.

I have found no specimens exhibiting a definite purple or red.
The deepest orange forms by no means approach the true red seen
in Littorina littorea L.

All the colour varieties enumerated above are fairly frequent
with the exception of 1e, 5a, 6, and 7. White, no bands, did not
appear to be very much more in evidence than the coloured forms.

Although the Deal shells must be exposed to a certain amount
of rough sea, they are of a notably good shape and attain quite a
considerable size.

The largest I have taken from Deal Pier is 43 mm. in length ;
dead shells as large as 50 mm. are fairly frequent further along the
coast at Sandwich and Shellness. Whether these have been carried
along from Deal is difficult to say, but it may be quite likely, for
I found a solitary ancient specimen living in a pool left by the
tide on the Sandwich side of Pegwell.

One would not expect to find Nucella lapillus thriving in such
a spot in any quantity, for there are no rocks nearer than Ramsgate,
between which place and Sandwich is the outflow of the River Stour.

The Deal specimens are fairly strongly ribbed in most cases,
the young usually foliated, these foliations often continuing to
quite a late stage of growth.

No strong tuberculations of the outer lip were noticeable in the

WILKINS : THE COLOURATION OF NUCELLA LAPILLUS (L.). 63

specimens collected inthe summer, but some sent tome in March
of last year, of a smaller size, exhibited this feature to a marked
degree.

I have collected the species at Walton-on-the-Naze (Essex),
Felixstowe (Suffolk), and Folkestone (Kent), and in addition I have
acquired specimens from the River Blackwater (Essex), Hastings
(Sussex), and Pendine (Cornwall).

None of these call for very particular notice, except that the
Folkestone shells (which were living on rocks in some profusion)
had strongly tuberculated lips, the white variety being rather more
abundant than the coloured, and the River Blackwater specimens
seemed a trifle more elongated than those from Walton and
decidedly less attractive in colour. Unfortunately, my series from
these localities are scarcely long enough to be of value for reliable
comparisons.

Last summer I collected Nucella lapillus in one or two parts of
Scotland, namely, the Firth of Forth (under the Forth Bridge),
Loch Melfort, Poolewe (Ross and Crom.), and Durness (Sutherland).
A comparison between the specimens collected at these places and
the southern forms is interesting.

The Forth Bridge shells do not vary greatly, in fact are just as
unattractive as the ones from the River Blackwater in Essex, dull
in colour and solid in texture, with strongly tuberculated outer lip ;
strangely enough I found the red variety of Littorina littorea living
on the identical stone occupied by one of the Nucella.

The Loch Melfort shells are very different. They are slender,
with tapering spires, the mouth small in proportion to the height,
and the sculpture slight except towards the spire. No coloured
specimens were found, all being a uniform white, the inside of the
mouth only being coloured a reddish brown, with slightly
tuberculated lips. |

The Poolewe shells are similar, with a lighter tint inside the
mouth and thinner lips; not many full-grown specimens were
found. The species was fairly abundant in both these places.

Going still further north to Durness, a wild spot 58 miles from
Lairg and two or three miles from Cape Wrath, there is a marked
change. The species swarms on the rocks left uncovered by the
tide ; some of the rocks must be at least ten feet high and are quite
submerged at high water. ‘The shells conform to the general rule,
that those found in exposed situations are stunted in growth, with
a mouth large in proportion to the height, but they vary in one
particular—the outer lips, in apparently full-grown specimens,
are quite thin compared with specimens from similar localities.
I have some from Caldy Island, which are much the same size,

64 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 2, AUGUST,. 1934.

but the lips are thick and have strong tuberculations as in the
specimen figured by Cooke. None of the Durness shells measure
more than 26 mm. in length, most are considerably under. The
colours vary from greyish white, through grey and grey with
brown bands, to deep chocolate brown, almost black, and vice-
versa, giving the shell a very distinctive appearance. ‘The sculpture
in most cases is light, with scarcely any signs of foliation, except
when very young. The egg capsules, of which I obtained a small
cluster attached to a living specimen, were, when fresh, of a beautiful
mauve, particularly noticeable in the bright afternoon sunlight.

Quantities of mussels, which abound on the same rocks, were
also stunted to about the same proportion as Nucella.

Strongly banded and patterned Littorina tenebrosa Mont. were
found living with the Nucella lapillus.

The colouring of shells still remains a mystery. Food must,
I think, play a large part in the production of pigment, the colour
variation in widely separated localities pointing to this. ‘The
colours do not vary in the southern parts of the British Isles to
any great extent, as far as I have been able to ascertain, and it is
doubtful whether the food supply would vary a great deal, but
several hundred miles away one would expect the food to be
different, and the shells certainly are.

Until the exact composition of and method of manufacture of
pigment by molluscs can be worked out, it is impossible to say
if the cause of variation is due to (1) a varying supply of colour
elements in the food or water, or (2) the varying ability of the
pigment manufacturing organs of the individual to extract these
colour elements.

The variation often found in individuals—the colour being
unevenly distributed, appearing gradually or suddenly, disappearing
altogether or being entirely absent—might be due to inability on
the part of the animal. Whether such conditions would be inherited
or not is a matter for experiment.

Cooke 2 is inclined to look upon the black and white banding of
N. lapillus at Newquay as having a tendency to protective coloura-
tion, the bands harmonizing singularly with the veined and banded
rocks. I would suggest that this is coincidence; if not, surely the
Folkestone shells would adopt a less prominent hue, as they are
singularly noticeable on the grey toned rocks, and at Deal, on the
upper deck of the Pier, the Nucella can be distinctly seen crawling
on the lower supports, even when they are beneath the surface of
the water.

1 Camb. Nat. Hist., Moll., fig. 35.
2 Camb. Nat. Hist., Moll., p. 70.

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CONCHOLOGY

FOUNDED 1874.

BEING THE ORGAN OF THE CONCHOLOGICAL |
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The Littoral Zone (Presidential Address)—-A. P. GARDINER . 65
The Rev. Dr. A. H. Cooke-——-J. R. te B. ToMLIn: .. eT.
Dr. R. F, Scharfi—Id. nee : <9
Planorbis corneus in Co. Down—R. fe WELCH . : SI
--Mactra stultorum UL. in association with Pinnotheres pis
Penn.—J]. G. DALGLIESH : 81
Vallonia costata monstr. from East Lothian (with figures) —
; KEVAN. 82
Preference of Patina pellucida L. for Laminaria digitata—
Miss N. FISHER . : gL 83
Rumina decollata L. in the New World—E. P. Cueatum . Ra
The Fauna of Birdlip Woods—Rev. L. W. GRENSTED ; Bias 3
Slug and Beetle—C.H. Moore .. 85
Non-Marine Shell-Deposits in Yorks ‘and. Durham—A. G.
KENNARD and B. R. Lucas . 86
A New AyrideHa from Australia (Plate 2)—W. ie CLENCH . . 89
A New Holocene Deposit in Co. Down—R. MACDONALD OF
Editorial Notes 92
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POL: 20. 21st DECEMBER, 1934. No. #

THE LITTORAL ZONE.
By A. P. GARDINER, B.Sc.

(Presidential Address delivered at the Annual Meeting, 13th October,
1934.)

THE Littoral Zone, which is the area between high- and low-water
marks of the spring tides, is a region second to none in interest to
the zoologist. There is little doubt but that it was the site of the
origin of life, and it presents to the naturalist countless examples
of the wonderful adaptations which enable animals and plants not
only to exist, but to thrive under conditions of continual change
and stress of circumstances. The region is one of the most thickly
populated, and the inhabitants are of many different forms and
habits. A study of the molluscs alone of this zone presents to us
a great number of examples of the probable steps by which animals
in past ages have migrated from the sea to fresh water and to the
land, and there are numerous cases of species which are still effecting
this change at the present time. ‘The keen struggle for existence,
which is of necessity found in such a thickly populated area, has
resulted in many cases of epizoic and epiphytic conditions and also
of such devices for securing food and foothold as symbiosis, com-
mensalism and parasitism.

It is my hope to deal with a few of such points of interest as these
in certain coastal areas which seem to me to be favourable to the
purpose. Nearly every type of the littoral zone, except the coral
reef and the mangrove swamp, occurs in the British area, and the
modifications of these types are innumerable. The chief factor which
has caused this variation is the position of our islands in relation
to the tidal wave. As this sweeps in its course with a velocity of as
much as 500 to 600 miles an hour it impinges on the west coast
and is split up and diverted in many directions. Some results of
this are seen in the characters of the west coast of Scotland, the
coast of Lancashire and Cardigan Bay, the Bristol Channel and
the coast of Hampshire and Dorset. In the Scottish area the

5

66 JOURNAL OF CONCHOLOGY, VOL. 20,.NO. 3, DECEMBER, 1934.

direction of the tidal wave is more or less at right angles to the
coast-line, with the result that deep inlets exist free from extensive
deposits of silt and sand. The hardness of the rock in this region
probably helps to maintain this condition. In West Wales and
Lancashire, on the other hand, the course of the tidal progress is
largely parallel with the coast-line, with the result that any inlet
is likely to be filled up with sand and the inshore waters thus become
shallow, resulting in vast areas being exposed at low tide. The
funnel-shaped Bristol Channel is placed at such an angle as to
receive the full force of the tidal wave, which becomes piled up as it
passes into this great inlet. The result of this is that at Chepstow
the difference of water-level is as much as 60 feet. he mean range
for this Channel is 42 feet for spring and 21 feet for neap tides.
St. Malo and the Channel Islands have, roughly speaking, 40 feet
and 20 feet. On the Hampshire coast there are four tides in the
twenty-four hours, owing to the tide entering each end of the
Solent ; the rise and fall is small.

The direction of the wind has a great influence on the height of
the tide ; many a day’s collecting has been made or marred in the
Salcombe Estuary or in the Helford River by this factor. In
illustration of wind influence, it is recorded that in 1905 the height
of the tide in Suffolk was increased by 6 ft. 3 in. by a N.N.W. wind.

For purposes of study it is usual to divide the tidal area into
zones. Davenport’s system of division is as follows :—

(1) The Submerged Area. Exposed only at low water of spring
tides. |

(2) The Lower Beach. Exposed twice daily.

(3) The Upper Beach. Only reached by extreme high tides.

The brown alge afford what is probably the best method of
marking out the zones. At the highest point of the upper beach
is found Lichina. At a slightly lower level Pelvetia canaliculata
occurs, and near this we find Fucus platycarpus and, where fresh-
water is present, Fucus ceranioides. We then reach the very extensive
and conspicuous area of Fucus vesiculosus. ‘This is followed by
Ascophyllum nodosum, never without the parasitic Polysiphonia
fastigata. With this is Fucus serratus followed by Himanthalia lorea,
with its disc-shaped organs of attachment, and, finally, in the
submerged zone Laminaria saccharina and L. digitata.

This algal mode of division only holds where rocks and stones
are present, and it is impossible to draw hard and fast lines. For
example, on sand and mud the characteristic vegetation in sheltered
positions of the submerged zone consists of the Angiosperm
Zostera. |

GARDINER : THE LITTORAL ZONE. 67

In general, the factor which above all determines the flora and
fauna of a given region is the perpendicular height, depending on
the angle of the coast with the horizontal. Horizontal distance
makes no difference. For example, at Oban, in places the tide only
recedes a few yards, while at the Seymour and Icho Towers, in
Jersey, it is necessary to go out as much as 2 or 3 miles to reach the
extremity of the low water fauna.

Other important factors of determination are the changes of
density and temperature and, especially in rock pools, the con-
centration of the hydrogen ion. Moore, in 1915, attributed the
observed increase of alkalinity of sea water to the increase of the
phytoplankton ; a similar change has been observed in rock pools
at different places when Ulva and Enteromorpha have made rapid
growth. |

After these few general remarks on the subject of my address
I will try to illustrate some of the points which seem to me to be
of the greatest interest by reference to collecting and observation
conducted for many years at the following places :—

(1) Salcombe Estuary with some points of comparison with the
Helford River.

(2) Oban.

(3) Places on the west, south, and south-east of Jersey.

(4) Pendine, Pembrokeshire.

(5) The bay between the Castle and Penance Points, Falmouth.

SALCOMBE ESTUARY.

This is probably as nearly an ideal collecting ground as it is
possible to find; it affords good examples of Davenport’s three
zones.

The Submerged Zone is extensive, and in the sand and mud areas
is covered with Zostera. Near the mouth, however, the ground
becomes hard in places with rock and stone and, finally, when the
bar, immortalized by Tennyson, is reached, we find clean sand
with little life except a curious form of Spisula solida, which has
generally to be obtained by the use of the dredge.

Davenport’s Lower Beach is also represented in several different
forms. Near the Marine Hotel it consists of sand and mud and,
alas! empty bottles and tins. Further down the estuary it is com-
posed of rocks and pools rich in life.

The Upper Beach, too, is typical, and presents most of the forms
usually found in this position. The particular zone is dealt with
elsewhere.

We will consider first the Zostera as exposed at a good tide, and

68 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 3, DECEMBER, 1934.

it must be a good one. Vigorous work with a strong garden fork,
even at a moderate state of the tide, will expose two fine worms of
the Polycheta—Amphitrite edwardst Quatrefages, and lower down
in the zone Amphitrite johnstont Malmgren. ‘The latter occurs
also on a bank, the Salstone far up the Kingsbridge branch of the
estuary where, however, the former is scarce or absent. Both are
found near the Marine Hotel. Associated with them is a very large
handsome member of the Aphroditide, Lepidasthenia argus
Hodgson, and frequently a smaller member of the same family of
worms, Lepidonotus clava (Montagu). ‘The flat form of both of these
worms prevents them from getting in the way of their fat and
rotund companions. With these two associations of worms we shall
find the small bivalve, Mysella bidentata (Montagu). These filter
feeding bivalves must derive benefit from the débris and minute
organisms occurring in the burrows of the worms and they also
enjoy a sheltered habitat, especially valuable to them in their early
stages. Mysella bidentata does not always depend on this kind of
shelter, as witness its occurrence in crevices of rocks; I have
noticed this particularly in the summer months, far more than in
the springtime, at Marazion and at Falmouth. |

Other small bivalves such as Cardium exigum Gmelin, Thyastira
flexuosa (Montagu), and, more rarely, the minute Lepton (Epzlepton)
clarkiz Clark, occur near these Polychzte worms and also near the
- common lug-worm, Arenicola marina L., and the rather rarer
Arenicola ecaudata, Johnston. I do not think that these species
have any particular commensal relation to the worms.

If we examine some of the harder parts of the shore we shall
see definite holes ; on thrusting down the fork and lifting the ground
quickly, burrows with a yellowish lining of as much as an inch in
diameter will be seen. If we are fortunate and quick, and if the
water does not fill the holes too quickly, we shall capture the two
Crustaceans, Upogebia deltaura Leach and Upogebia stellata
(Montagu). Of these two the former is the larger. With still greater
good fortune we shall see on the yellow lining of the burrows
the beautiful flat white bivalve, Lepton squamosum (Montagu).
Specimens of these which were found by Winckworth and Salisbury
spatted while in captivity. In this case also, a flat organism, the
Lepton, allows its commensal to pass it with ease in the burrow.
The Lepton leads a sheltered life and feeds upon débris and minute
organisms in the burrow.

The most exciting find is yet to be made. Far down the zone the
fork will expose the worm-like Echinoderm, Leptosynapta inhxrens
(Miller). Firmly attached to this we may find one, perhaps more,
examples of the bivalve Entovalva (Devonia) perriert (Malard). These

GARDINER : THE LITTORAL ZONE. 69

are generally attached near the posterior end of the Echinoderm.
Until this species was rediscovered by Orton, and further found in
quantity by Winckworth, it was one of our rarest shells. This case,
and that of Lepton squamosum, are good examples of the com-
parative ease with which some animals are found when looked for
in the right places, but never elsewhere. Our classic textbooks on
conchology are frequently deficient in matters of this kind, and there
is much work to be done by us all.

If we cross the ferry we find two other very interesting associations.
In some of the most glutinous areas the fork will turn up a squirming.
mass of arms. This consists of the Echinoderm Ophiocnida
(Acrocnida) brachialis (Montagu), and with it will be found two
commensals, Mysella bidentata (Montagu) and the flat Chetopod
worm Harmothoe lunulata (Delle Chiaje).

In a bay of clean sand a little way down the estuary slit-like holes
will betray the Echinoderm, Echinocardium cordatum (Pennant).
With this occurs another bivalve, Montacuta (Tellimya) ferruginosa
(Montagu), but this association is not a very close one, the bivalve
being generally found free from the Echinoderm. The colour of the
former matches the sand so well that it is easily overlooked. Many
specimens of this shell in the older collections were taken from the
stomachs of fish at Cruden. I have dredged it without Echinocardium
in 5 fathoms off ‘Teignmouth.

A worm, Polydora ciliata (Johnston), bores into both living and
dead shells. The sponge, Cliona celata Grant, has the same habit.
The sponge may be obtained by dissolving the shell with dilute
hydrochloric acid.

Associations of probably a purely epizoic character are seen in
the angled white tubes of the worm Pomatoceros triqueter (L.).
Serpula vermicularis L. makes a rounded tube in the same position.
Another tube-building worm, Filograna implexa (Berkeley), makes
a mass of much smaller tubes. Shells and alge are frequently
covered by the tubes of the worm Spirorbis. borealis Daudin ;
these resemble small Gastropod shells.

The worm Sabellaria alveolata (1.) constructs dense masses of
tangled tubes, often many yards in extent ; these reef-like structures
afford shelter to countless species of mollusca, worms, crustacea,
etc., and are a rich hunting ground.

Competition for space and desire for protection result in even
the dead shells of Gastropods being turned to account by Crus-
taceans and Cceelenterates in wonderful commensal and symbiotic
associations. Eupagurus prideauxi (Leach) often has the anemone
Adamsia palliata (Bohadsch) on its shell. Eupagurus bernhardus (L.)
generally has Calliactis parasitica (Couch) as its companion. The

70 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 3, DECEMBER, 1934.

_ Hydroid, Hydractinia echinata (Fleming) also frequently covers the
shells inhabited by crabs. hese family parties are often completed
by a worm, Nereilepas (Nereis) furcata Savigny. ‘These are cases
of true symbiosis, the benefit of the association being mutual. The
active crab moves the anemone from place to place, the latter feeds
on the débris of the crab’s captures and, in return, protects the
crab from prowling fish by means of its stinging organs. Another |
hermit crab, Eupagurus cuanensis (Thompson), uses a sponge,
Suberites domuncula, and not a shell for its home.

Another interesting case of the use of dead shells is that of the
worm Phascolion strombi (Montagu); this blocks up the mouth of
the shell with a cement substance in much the same way as a bird,
the nut-hatch, diminishes the size of a hole in a tree with mud to
adapt it to nesting purposes. I have found the shells of Turritella,
Aporrhais, and Dentalium to be those most frequently used. In
the Cambridge University Museum there is a series of such shells
with the worms in situ. On the coast of Brittany this worm is found
associated with a Gastropod, Odostomia perezi Dautzenberg and
Fischer, and a bivalve, Montacuta (Tellimya) perezi D. & F.
I am indebted to Mr. R. Winckworth for information on this matter ;
he thinks that the occurrence of the bivalve in British waters is so
probable that he has included it in his 1932 list under the name of
Montacuta phascolionis D. & F., marked “Q”. Every blocked
shell should be examined with great care. I have dredged these on
the Cornish coast and at Oban.

Musculus marmoratus (Forbes) occurs just below the tide limit,
living in Ascidians. Near the Salstone Lamellaria perspicua (L.)
is found under the test of the Ascidian, Leptoclinum maculosum Edw.
This seems to be a case of the bivalve seeking shelter for breeding
purposes. Miss K. White found this association on several occasions
in the Isle of Man. |

In the Zostera beds of Helford, but not in those of Salcombe,
I have observed the association of Bittium reticulatum (da Costa)
with a sponge. Of course, the occurrence of Cerithiopsis barleei
Jeffreys with Ficulina ficum has been known for a long time.

Before leaving Salcombe the largest British bivalve, Pinna
fragilis Pennant, should be sought for by looking along the surface
of pools, where the broad end of the shell may be seen just projecting
above the surface of the sand or mud. This animal has been found
by treading on it with the bare foot, but this is not a pleasant way
of detecting it.

Salcombe has not produced Pelseneeria (Stilifer) stylifera (Turton)
with its Echinoderm host, but the Pea Crab, Pinnotheres pisum
(Pennant) occurs with Modiolus, 'This seems to show definite

GARDINER: THE LITTORAL ZONE. 71

selection in the behaviour of the crab, for Orton found that fat
and well-nourished mussels were selected. The female appears to
sit upon the ctenidia and scrapes up the mucus laden with food
particles. She is visited there, while inside the mussel shell, by
the male, who sometimes comes to an untimely end by being trapped
between the valves of the shell.

A reasonable explanation of how such associations as those of
worms, Echinoderms, and Crustacea with bivalves may have arisen,
seems to be that any spat of these prolific molluscs which happens
to remain in, or enters, burrows, has a better chance of reaching
maturity than has spat not thus protected. This seems to be one
way of accounting for the fact that Lepton and Devonia are found
in the company of the animals with which they live. Further, it
is easy to imagine that the actual parasitic habit of animals like
Devonia may. have arisen through propinquity brought about at
first by chance. ‘The ingesting of mollusca by sponges and Ascidians
may have arisen in a similar way.

The leaves of the Zostera, as well as the soil in which it grows,
have a characteristic fauna. At Salcombe and at Helford the
dominant species are Cantharidus striatus parvus (da Costa), Rissoa
membranacea (J. Adams), and Haliclystus. Buccinum and Littorina
are frequent on the substratum, while at Helford, but not in similar
situations at Salcombe, Hamuinoea navicula (da Costa) may be
found by thrusting the hands down into the mud around the roots
of the Zostera.

Instead of mentioning any other species found at Salcombe, I will
record a fact that has come to my notice in connection with the
occurrence of different species in different years. In April, 1930,
Tethys punctata (Cuvier) swarmed in hundreds between the Marine
Hotel and the Castle, but there was not one on the opposite side
of the estuary. <Archidoris britannica (Johnston) and Aeolidia
papillosa (Linné) were also very plentiful. ‘There were very few
Pleurobranchus membranaceus (Montagu). In the following year
Archidoris and Aeolidia were as numerous as ever, Pleurobranchus
was scarce and Tethys absent. In April, 1933, Pleurobranchus
simply swarmed everywhere, in the dredges, on the Salstone, and
near the Hotels. On the other hand, only one Aeolidia and two or
three Archidoris were seen. ‘These were the results of the hunting
of my pupils, not only of my own efforts. There was little in the
differences of climatic conditions to account for these facts, and the
observations were made during spring tides of about the same date.
A very extensive inshore migration of these species, lasting for a very
short time, seems to be indicated. Full records, taken over a long
period of time, would be of great interest.

72 JOURNAL OF CONCHOLOGY, VOL. 20, NO 3, DECEMBER, 1934.

JERSEY.

The chief collecting grounds are at the south and south-east,
near the Seymour and the Icho Towers, and at the west end of the
island at la Pulente and I’Etac.

The most notable characteristics of our area here are the swift
tides and the flat shores. The result is that the tides recede for a vast
distance and ebb and flow with great rapidity. Marshall states that
the ebb takes seven, and the flow five, hours. Particularly is this the
case at the two Towers. The Icho Tower is, if anything, the more
dangerous of the two because the wild jumble of rocks between it
and the mainland is intersected by deep and wide channels running
parallel with the latter. Through these the rising tide rushes with
great velocity, and woe to the person who too long delays his return
to the shore.

Much of the best collecting is 3 miles or more from the land.
Marshall, in his Additions to British Conchology, refers to the
occurrence of Mactra glauca Born. It is found in grit to the north-
east of the Seymour Tower, and is accompanied by Donax variegatus
(Gmelin) of several varietal forms. Here also occur Gari fervensis
(Gmelin), Gari depressa (Pennant), Pharus legumen major Bucquoy,
Dautzenberg & Dollfus, Solen marginatus Montagu, Ensis ensis
and szliqua (Linné), Lutraria magna (da Costa), and many other
bivalves; an extensive and typical association for this kind of
substratum. There are pools near the Tower with big stones under
which large Octopus vulgaris Lamarck lurk. Marshall refers to the
danger of collecting in this place in saying, “the stranger is at
first appalled at the apparent disappearance of the island and at the
utter chaos of the rocks which surround him.’ On one occasion
I could only find my way back from the Seymour ‘Tower by compass,
owing to a sea fog that prevented my seeing more than a few yards
around me.

One interesting association which occurs near the Towers, at
Green Island, St. Brelade’s Bay, la Pulente, and |’Etac is that of
Lepidopleurus cancellatus (Sowerby), L. scabridus (Jeffreys), Tornus
subcarinatus (Montagu), Alvania lactea (Michaud), and Alvania
carinata (da Costa); these occur under stones rather deeply
embedded in the mud and sand. With them occurs a Crustacean,
Axtus stirhynchus Leach, whose burrows are gutters of which the
embedded stone forms the roof. ‘This seems to be an association
similar to that of Upogebia and Lepton squamosum. If this is the case,
the difficulty of accounting for the supply of food of these species of
mollusca is removed. A third association typical of this place is
that of Haliotis tuberculata Linné, Acanthochitona communis (Risso),
and Ocenebra aciculata (Lamarck). ‘These are found under large

GARDINER : THE LITTORAL ZONE. 73

stones resting on others at an angle in pools. It is in the occurrence of
the first and last of these, and of Alvania lactea (Michaud), and of the
great numbers of Acanthochitona communis (Risso) that the
molluscan fauna of this place differs from that of similar situations
in Great Britain. The three above-named species of the Loricata
seem to take the place, to a great extent, of Lepidochitona cinereus
(Linné), Acanthochitona crinitus (Pennant), and the more local
A. discrepans (Brown), Tonicella marmorea (Fabricius), and T.
rubra (Linné) and Callochiton achatinus (Brown), of the British
coasts. It is difficult to explain why a species occurring in both
regions should be very common in one and rare in the other, when
there is no satisfactory explanation to be got from the environment.
This is a point that arises in other parts of this paper and I have
ventured to call such species “‘ equivalent ”’.

One other point is the rarity of Galeomma turtoni Sowerby in
Jersey, although it is fairly common in other islands of the group.
I found two under the same stone at |’Etac, at the end of a long day.
The next day the turning over and turning back of hundreds of
stones at the same place did not yield one.

Mr. Pike, of the Jersey Museum, showed me specimens of
Onchidella celtica (Forbes & Hanley) from |’Etac. These occurred,
like mine at Trevone, at a much lower zone than has been attributed
to them. I have never found specimens at or near the high-water
mark, much less above it, as has been stated by many writers.

OBAN.

Mr. Winckworth, who directed me to the best hunting ground in
Kerrera Sound, told me that I should go home “tired, bleeding,
but successful’, and I did! Never have I come across such sharp
stones perched at such precarious angles. The shore is so steep
that the tide only recedes a few yards and care is necessary to avoid
being thrown into deep water when turning a stone. :

The ‘ equivalent’”’ species of chitons are Tonicella marmorea
(Fabricius), T. rubra (Linné), Callochiton achatinus (Brown), and
Lepidopleurus asellus (Gmelin). ‘These are dominant and seem to
replace those found in the south.

The Laminaria is remarkable for the grand Pecten Chlamys
nivea (Macgillivray) and for the beautiful Margarites helicinus
(Fabricius). The latter seems to be equivalent to Lacuna parva
(da Costa) in the south. Chlamys distorta (da Costa) was very fine.
The largest Lacuna crassior (Montagu) that I have ever seen occurred
here. I swallowed the largest one when turning over a rock ; how-
ever, regurgitation took place, so that, unlike the fisherman’s largest
fish, it was not lost. :

74 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 3, DECEMBER, 1934.

Other invertebrates found here were Terebratulina caput-serpentis
(Linné), Crania anomala (Miiller), Munida rondeleti, Galathea
strigosa (Fabricius), and Pycnogonium littorale. ‘The Fucus was
thickly covered with Clava squamata (Miller) ; only at the Salstone
have I seen so much of it.

It was noticed that the Lepidopleurus asellus (Gmelin) in the
Laminarian zone were much larger than those dredged. ‘The
largest of the former measured 1-9 X 1:3 cm., while the latter were
only 0-8 o°5 cm.

Trophon truncatus (Str6m) is very common and seems to be the
equivalent species to Philbertia purpurea (Montagu) on a beach such
as that of Marazion or of Falmouth.

Patelloida tessulata (Miiller) largely replaces Patella vulgata Linné.

Cantharidus cleland1 (Wood) and Trichotropis borealis Broderip and
Sowerby occurred in numbers just below the tide-mark, and Lima
sulcata Brown in deeper water off the Maiden Rock. Perhaps the
comparative scarcity of Nucella lapillus (Linné), Patella, and
Mytilus edulis V.inné accounts for the extraordinary richness of the
fauna in other respects. |

The greatest find of all was Emarginula crassa anassa Dean.
On our first day almost the first upturned stone yielded two large.
ones, but the total number of adults found in two weeks in two
separate years was small. Of these, one found by Miss White
probably holds the record for size in British waters. ‘There were
very many small ones occurring with Emarginula conica Lamarck.
This species seemed “‘ equivalent’ to Emarginula reticulata mullert
Forbes & Hanley of the south.

Trivia monacha arctica (Montagu) is very large and entirely takes
the place of Trivia monacha monacha (da Costa).

FALMOUTH.

Time prevents me from saying much about this locality, so famous
as the chief hunting ground of Cocks.

Excellent examples of the Upper Beach are presented. Here
one finds Littorina neritoides petraea (Montagu) well on its way to
become a land form. With it live dwarf Littorina saxatilis (Olivi),
Mytilus edulis Linné, and the bivalve Lasza rubra (Montagu).
These hide in the Lychina. Otina ovata (Brown) may be on its way
to the land from its damp caves, but I have always found it much
farther down the zone than would be expected for a Pulmonate.
Near the Lizard it occurs at about half-tide. In connection with
the question of migration to the land Tattersal states that Littorina
nerttoides (Linné) has lost its metamorphosis, having no free
veliger stage. The same is true of Littorina saxatzlis (Olivi), so that

GARDINER : THE LITTORAL ZONE. 75

these two species, accustomed to long exposure to the air, are far
advanced in the landward migration.

Littorina littoralis (Linné), of a lower zone, has a somewhat
abridged metamorphosis, while the still more maritime Luzttorina
littorea (Linné) has retained its full typical series of larval changes.
At first sight it seems that the most natural and easy method by
which transition from sea to land could take place would be through
the intermediate brackish and freshwater existences. This, no
doubt, is sometimes the case. An obvious example is seen in the
estuarine and brackish species, Hydrobia jenkinsit Smith. ‘This now
swarms in thousands in the River Pang at Bradfield, and I have
frequently found it alive in a damp coppice. Here, probably, it
has been deposited by flood water and survived for a time. In this
method of migration the osmotic difficulty has to be overcome. In
this physical process water tends to pass through a membrane from
a more dilute into a more concentrated solution until equilibrium
is established. This flow is most deadly in its results, for example,
brittle starfish are killed so suddenly by immersion in fresh-
water that even they have not got time to perform autotomy.
Exquisite specimens may be obtained in this way without the risk
of loss of arms.

In favour of the theory of direct migration from sea to land
direct, rather than through an intermediate freshwater phase, it is
known that the Upper Beach Lasxa rubra can live exposed to air
for nine days, but not for one in freshwater. The numbers for some
other species are :—

Littorina neritoides. Air 42 days. Freshwater 11.

L. saxatilis. Ce 2 eae! » 7:
L. littorea ty ae 9 7:
L. littoralis. Ot Ea 05 2.

These results are those of Colgan (1910).

As a rule the lower its zone on the shore the less power an animal
has of resisting freshwater. These considerations seem to point to
the possibility of Pomatias elegans, for instance, having undergone
direct transition. Cooke, in 1895, observed landward migration of
three species of Littorina at Panama. These were actually on trees.

The Falmouth section of coast, including as it does rocky coves,
sandy beaches, and reefs of rocks with splendid pools, is an excellent
place for observing examples of protective resemblance. Space
only permits me to mention Rostanga rufescens Iredale and
O’Donoghue. Here I have frequently found this red nudibranch
under stones, but never on red sponge ; thus this would seem to be
a case of warning rather than of protective colouration.

76 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 3, DECEMBER, 1934.

In the rock pools Patelloida virginea (Miller), Patella depressa
Pennant, Patella athletica Bean, are very inconspicuous on the
calcareous algz Melobesia, Lithothamnion, and Corallina. Littorina
littoralis frequently, but by no means always, matches the Fucus
on which it lives. Cases of protective resemblance in the Nudibranchs
are very numerous.

I have often wondered if the blue lines of Patina pellucida (Liste
may not help to break up the outline of the animal in the same way
that the bright stripes of the larve of Hawk-moths help to render
the creature inconspicuous.

Arca tetragona britannica Reeve, Arca lactea Linné, Ocenebra
ertnacea (Linné) on this coast and O. aciculata (Lamarck) and
Halotis in Jersey are good imitations of lumps of stone.

These Cornish beaches are not what they were thirty years ago,
when I worked them year in and year out for six years. During the
War an oil tank ship went on the rocks and was burnt there. For
some years the flora and fauna were wiped out. In 1931 life was
nearly but not quite normal near the site of the disaster. Gillan
Creek, towards the mouth of the Helford River, might at one
time have served as the happy hunting ground of good biologists—
its fauna was ruined in one night by a drift of oil from a wreck on
the Eddystone. We were at Gillan the day before and the day after.
This occurred some years ago and perfect recovery has never been
made. How many millions of crabs and lobsters in the adult and
larval state must have been killed, to say nothing of other animals
of importance as fish food !

Finally, one word about the last type of shore: Our example is
Pendine and Amroth in Pembrokeshire. On this sandy wave-
swept expanse the molluscs must either burrow in the sand and
have long tubes, or be prepared to roll like Actaeon tornatilis
(Linné), the most characteristic animal of this region ; it can often
be found in the wet sand by following its tracks. Tellina squalida
Montagu, Dzpledonta rotundata (Montagu), and Mysia undata
(Pennant) amongst the scarcer species, with Cyprina islandica
(Linné), large white Venus striatula (da Costa), Donax, Lutraria,
Spisula, Mya, Pharus, Cultellus, Ensis, Solen, and Mactra form
banks of dead shells.

In the submarine forest at Amroth Pholas and Barnea of great
size occur in the subfossil wood. Pendine is also famous for
Clathrus turtonis (Turton). A pupil of mine whom I sent there
found three in one day. Here there are no stones to leave unturned
and none to leave the wrong way up.

a
The Rev. Dr. A. H. COOKE.

By J. R. te B. ToMtin.

_ ALFRED HANDS COOKE was the son of Edward Cooke, of Enfield, and
born on 5th October, 1854. He was a colleger at Eton, eventually
captain of the school, and one of the school Field XI. In 1874
he won the Newcastle, and becoming a member of King’s College,
Cambridge, he proceeded to carry off almost every distinction
open to classical scholars, as well as captaining the College
Association XI from 1874-8.

In the latter year he was Senior Classic and rst Chancellor’s
medallist. Elected to a Fellowship of his College, and ordained by
Wordsworth, Bishop of Lincoln, he spent more than twenty years
successively as Lecturer, Dean, and ‘Tutor, and served for more than
ten years as Assistant Censor of non-collegiate students in the
University. He was also for many years Lecturer and Honorary
Chaplain at Girton College.

In 1900 he accepted the headmastership of Aldenham School
and remained there for twenty years. In 1920 Eton offered him the
living of Mapledurham, on the Thames, and he died at his vicarage
on 28th November last at the age of 80, only three weeks after the
death of his wife.

He married Miss Mary Louisa Seels, of The Hall, Wainfleet, in
1881, and had two sons; the younger, Alan, also a King’s man,
was reported missing in the War and never heard of again; the
elder, Cyril, of Marlborough and King’s, won the M.C. in the War
and became headmaster of Dunchurch Hall School, near Rugby.

But Cooke, great classical scholar as he was, had another claim
to distinction ; he was no mean scientist and his volume on Molluscs
in the Cambridge Natural History series (1895) is still a standard
book of reference.

The first conchological paper that he wrote was on the shells of
Guernsey, Sark, and Herm, in conjunction with H. M. Gwatkin,
of St. John’s College (fFourn. of Conch., Vol. I, p. 321), and this
collecting in home waters inspired him to go much further afield.

He spent part of a Long Vac. at Panama, when it was still an
unspoilt locality—inspired thereto by the accounts of C. B. Adams’s
foray many years before and the richness of his spoils—and himself
brought back a very fine collection. He was never tired of describing
the incidents of this trip, the numerical abundance of so many
of the species, the exhausting effect of collecting in the tropical
heat; the climax was reached when he staggered home one day
with a sack over his shoulder containing nearly a dozen live
specimens of the big Strombus galeatus Swainson.

78 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 3, DECEMBER, 1934.

The association of Cooke and Gwatkin mentioned above became
ever more intimate and the ties of friendship were knit closer by
the interest in a common hobby. Gwatkin, of course, had very
early taken up the study of radule and devoted himself whole-
heartedly to their acquisition and mounting. Cooke was induced
to supplement Gwatkin’s work by photography, and as the latter’s
fame spread he was constantly appealed to by foreign malacologists
for information about radular characters, which was most con-
veniently imparted in the form of a photograph.

Cooke’s favourite groups in the Mollusca were Thais (Purpura)
and Clausilia. The former taste was the result of his trip to Panama,
where species of Thais were numerous and particularly attractive.
The latter was gradually engendered by his travels in Europe and
Palestine, especially in the mountain haunts of the Alopza group.
He amassed an extraordinarily complete series of the common
Nucella lapillus (.), illustrating its variation along the whole line
of its known range ; this series, as well as his enormous accumulation
of Clausiliide, was presented to the British Museum (Natural
History) a year or two ago.

He was President of the Malacological Society from 1913 to 1915
and of the Conchological Society 1919-1920. While at Mapledurham
he made an intensive study of the history of the parish, which
eventually appeared in book form.

Recollections of him at Cambridge in the early eighties bring to
mind a tall, spare, fair man, with a slight limp (due to a football
accident), short-sighted, distinctly chilly and academic in manner
to a stranger, but to friends he revealed a vigour, a breadth of mind
-and an enthusiasm which were alike inspiring and infectious. He
was Curator in Zoology of the University Museum from 1880 to
1890, under John Willis Clark, and a constant association with him
there for four years taught one more in many ways than can be
easily acknowledged.

The Times, reviewing his career at Aldenham, says of him:
‘Patient and painstaking, courteous and ae as he was,
there was yet in him a hint of power in reserve—a standard set and
maintained in himself and anticipated in others.” ‘This, I think,
sums up Cooke’s character well; he was the embotliment of
noblesse oblige, and such a character is a tremendous asset whether
at the ’Varsity, at a public school, or in a country parish.

; 79
Dr. R. F. SCHARFF.
By J. R. te B. ToMiin.

ROBERT FRANCIS SCHARFF was born in Leeds in 1858. He studied at
three universities—Edinburgh, University College, London, and
Heidelberg, and took the degrees of M.A., B.Sc., and Ph.D.

Zoology was always his chief subject, and after spending some
time at the Marine Biological Stations of St. Andrews and Naples
he accepted, in 1887, a post in the Dublin Museum of Science and
Art—now the National Museum—as Assistant in Natural History
under A. G. More, a joint author of the Cybele Hibernica. ‘Three
years later, on More’s resignation, Scharff was appointed Keeper,
and held this post until 1921. From the beginning of his work in
Dublin he was an active member of the Royal Irish Academy and
the Royal Zoological Society of Ireland and very frequently an
officer of one or the other. He was also for a long time on the
Council of the Royal Dublin Society, a Fellow of the Linnean
and Zoological Societies of London, and a constant attendant
at international zoological meetings on the continent, where his
ability as a linguist was an invaluable asset.

In 1895 he was awarded the prize given by Emperor Nicholas II
at the International Congress of Zoology. In 1906 and 1908 he
delivered the Swiney lectures on Geology in London.

After his retirement he lived on in Ireland until about two years
ago, when he moved for a short time to Lausanne. Only two months
before his.death he had carried out a project of settling on the
south coast. He died at Worthing on 11th September.

Scharff was twice married and had two sons and one daughter ;
his second wife was Miss Jane Stephens, of Dublin, who had been
an assistant under him at the Museum and is well known for her work
on Sponges.

Scharff was to all intents and purposes an original member of
the Conchological Society, as has been proved by Dr. Jackson
(fourn. of Conch., Vol. XVIII, p. 66); in 1879 we find him a
Vice-President (fourn. of Conch., Vol. II, pp. 315 and 322), and in
1902 he was elected President. His address was entitled “ ‘The
Origin of the Land and Freshwater Mollusca at present living in the
British Isles ’’.

His contributions to this Journal were few in number and with
the above exception not particularly important, but he left his mark
on scientific literature by three books dealing with his favourite
subject of the distribution and dispersal of animals. ‘These books
were The History of the European Fauna, 1899 ; European Ammals,
1907; The Distribution and Origin of Life in America, 1911.

80 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 3, DECEMBER, 1934.

His interest in the problems of distribution and migration
naturally turned his attention to the Irish fauna and in 1893 the Royal
Irish Academy appointed a Fauna and Flora Committee with
Scharff as Chairman. His position at the Museum enabled him to
assist and encourage the study of Irish animals very considerably,
and at different times he made important critical contributions on
wood-lice, on deep-sea fishes, on non-marine mollusca, and on
fossil vertebrates from cave deposits. He also wrote on the origin
of the Irish races of domestic animals and on the Irish names of
indigenous creatures.

Commenting on Scharff’s views, Mr. Lloyd Praeger writes
as follows :—

“In all these studies Scharff found—as many others have
done—extreme difficulty in accounting for present faunal
distribution and the close relationships existing between the faunas
of separated areas in view of the serious barriers offered to
migration by intervening areas of sea. ‘Trans-marine migration
on the necessary scale under existing geographical conditions,
indeed, was to him an impossibility. And in spite of theories of
the permanence of ocean-basins and all geological difficulties,
he invoked former land-bridges across which the fauna had
migrated from island to island and from continent to continent.
The biological evidence appeared to him incontrovertible, and
geological difficulties were minimized. In claiming that the present
distribution of animal and plant life demanded a different
distribution of land and sea in times geologically recent in order to
allow of terrestrial migration, Scharff was a forerunner of Wegener,
but they proposed different solutions of the problem—Scharff
raising parts of the ocean beds to form land-bridges, Wegener even
more sensationally obliterating the intervening seas by moving
the continents together into a single great land mass.

‘“A second difficult and controversial problem connected with
the history of the present fauna and flora centres round the
Pleistocene glacial period. Scharff read and thought much’ over
this; his conclusion was that much of our animal and plant
population must have existed in or near its present habitats
throughout this time: from this he inferred that the conception
of some thousands of feet of ice over, for instance, our own island
must be erroneous. I think that evidence is on the increase that
the ice was not simultaneously over the whole of Ireland, and,
indeed, that it was not over certain areas at all; but to Scharff
the idea of any widespread ice-cap was untenable: the Ice Age,
he believed, was essentially a wet, not a cold period ; and he even
attempted to explain glacial striz as due to stones pressed against

TOMLIN : DR. R. F. SCHARFF. Sr

the rocks not by ice but by mud. He was not content to accept such
difficulties as incapable of explanation, but boldly put forward the
solution which to his mind appeared the most probable.

‘““ He was a conscientious and diligent worker in the zoological
field, thorough and painstaking, and had little sympathy with the
superficial or hasty work which sometimes passes for scientific
research in these later days; but he was always tolerant of the
views of others.”’

Planorbis corneus (L.) in Co. Down.—I have to record Planorbis corneus
from Co. Down, though only from a new garden pond, where I saw no sign
of it last year. Lately, when in the Marchioness of Londonderry’s famous
gardens at Mountstewart, Ards Peninsula, Co. Down, the head-gardener
took me to a pond in the new Spanish garden, where pond-snails were
causing much damage to rare water-lily leaves. I found that two well-
known Britannic species were causing the trouble, Planorbis corneus (L.)
and Lymnza stagnalis (L.), the latter much the more abundant of the two
and doing most of the damage. Some leaves were almost entirely eaten
away. ‘The pond had been cleaned out, but I was able to get about half
a dozen of the Planorbis and over a dozen of the Lymnza for the Belfast
Museum aquarium tank, as well as leaves almost completely covered with
the gelatinous egg masses. It is interesting to find it again in the north of
Ireland, far from its Kildare and Queen’s County natural habitats, so soon
after Miss Fisher’s record for Cushendall, Co. Antrim, where it occurs
plentifully in a hotel garden pond.—R. J. WeEtcu.

Mactra stultorum, Linn. in Association with Pinnotheres pisum Penn. —
Last August (1933) a specimen of Mactra stultorum Linn. was found living
at low water, Hove, Sussex, in association with Pinnotheres pisum Penn.
As this host of the latter was considered to be unusual, the occurrence was
notified to Dr. Isabel Gordon at the Natural History Museum, South
Kensington, who kindly supplied the following information: ‘‘ I have
not found any record of the association of Pinnotheres pisum with Mactra
stultorum in European waters, and presume that it must be unusual. An
Indian Ocean species, Pisum matricolus, was found in Mactra violacea by
the late Colonel Alcock. The molluscan hosts of P. pisum for European
waters are, in addition to Mytilus edulis and Cardium edule, Modiolus vulgaris,
Cardium exiguum, Cardium norvegicum, and Glycymeris. They are also found
in association with certain. Ascidians.”’—J. GorpoN DatouissH. (Read
before the Society, 1oth March, 1934.)

82

VALLONIA COSTATA (MULL.) MONSTR., FROM
EAST LOTHIAN. ;

By D. K. Kevan.

(Read before the Society, 13th January, 1934.)

WHILE collecting on the 5th September, 1933, at the extremity
of a long spit of land dividing the shore proper from an extensive
salt-marsh in the estuary of the River Tyne, near T’ynninghame,
East Lothian, I found an extraordinary monstrosity of Vallonia
costata, which I have attempted to delineate in the attached figures.
The specimen was submitted to Mr. A. S. Kennard, who has made
a special study of the genus, and he states that he has never seen a
Vallonia like it before. He adds that while costata can be considered
the most variable in shape and size of the three British species, it
is remarkable how slightly Valloniae do really vary, the only
definitely abnormal one that he had seen previously being a pulchella,
extremely high-spired and without a lip, due possibly to some
injury to the genitalia. He does not consider that this is the cause
in the present case.

eet
ers
2 Se.
“ae
“oo. fs

. y%
ees
8
72

Oe
ere: “a At
ue, ae o% ry) 4
aoa P segs eS oN
4 Mae @ et f
5 eee, ry
PaCS AIO TY
san
ff

e P| 2
millimetres

Vallonia costata monstr. from shell-sand, estuary of R. Tyne, Tynninghame,
near Dunbar, East Lothian.

Apart from various marine (mainly estuarine) and salt-marsh
forms (including Phytia myosotis) the following land-shells were
associated with Vall. costata in the shell-sand: Cepzea nemoralis,
Helicella caperata (abundant), Cochlicopa lubrica, Lauria cylindracea,
Pupilla muscorum, Vitrina pellucida, Gontodiscus rotundatus, Oxychilus
cellarius, and Punctum pygmzum. ‘The spit of land is composed

KEVAN : VALLONIA COSTATA FROM EAST LOTHIAN. 83

of sand, and is covered by a dense growth of Sea Buckthorn,
excepting at the point (north side), a patch a little way down the
south (salt-marsh) side, and occasionally along the edges, where
Maram grass and other sand-dune plants occur. A few stones are
to be found in these open spaces, and, here and there, one or
two old tree-trunks or branches, evidently washed up by the tide.
Under these I found small living colonies of the following species :
HM. caperata, C. lubrica, L. cylindracea, P. muscorum, V. pellucida,
V. costata and O. alliarius, but nowhere was there any sign of
living or even recent C. nemoralis, although old and broken shells
were very common. There seems little doubt that the encroach-
ment of Sea Buckthorn has practically destroyed the area as a
snail habitat; some species have already gone, while others are
fast disappearing or only just managing to “‘ hang on” in a few
isolated situations.

Preference of Patina pellucida (L.) for Laminaria digitata.— Wherever this
common limpet occurs on the coast of North-East Ireland it is almost
exclusively found on the fronds of the ‘‘ smooth ” Laminaria (L. digitata).
Praeger + says: ‘‘ Of general occurrence round our shores [the North of
Ireland] on the broad fronds of Laminaria digitata,” and I found this to
hold good wherever I collected in North-East Ireland. At Port Ballintrae,
Co. Antrim, in October, the fronds of L. digitata were literally covered with
Patina, but it was only after a prolonged search that I found a very few
specimens on the “ crinkly ” Laminaria (L. saccharina). My experience is
thus just the reverse of Gardiner’s,* who found that “‘ Patina pellucida
(L.) prefers Laminaria saccharina, and to a less extent L. digitata and
Rhodymenia palmata’’. His observations were made at ‘“ Falmouth,
St. Ives, Chideock, Pembroke coast ’’. Sinel ® states that “‘ in the summer
months its young [P. pellucida] may be seen in numbers on Laminaria
digitata ’’—presumably at Jersey, where he worked. Farran ‘ records it as
occurring on Fucoids as well as on Laminaria (species not stated) at Blacksod
Bay, Co. Mayo, and I once (Port Ballintrae) found a single specimen on
Fucus serratus. Nevertheless, it may safely be said that in North-East
Ireland at any rate Patina pellucida (L.) shows a decided preference for
Laminaria digitata over other alge.—N. Fisuer. (Read before the Society,
8th September, 1934.)

* Praeger, R. LI., “The Marine Shells of the North of Ireland,” Rep.
and Proc. Belfast Nat. Field Club, vol. 2, 1887-1888, Appendix iii, p. 81,
1889.

2 Gardiner, A. P., Journ. Conch., vol. 18, p. 311, 1929.

* Sinel, J., Outline of the Natural History of our Shores, pp. 203-4, 1906.

* Farran, G. P., Results of a Biological Survey of Blacksod Bay, Co. Mayo,
pp. 9, 64. Fisheries, Ireland, Sci. Invest., 1914, iii.

RUMINA DECOLLATA LINNE IN THE NEW WORLD.

By, E-mer P. Cueatum (Southern Methodist University, Dallas,
Texas).

THE exotic snail Rumina decollata L. with its characteristic
decollated shell appears to be having a rather rapid dissemination
in certain parts of the United States. Although indigenous to
the Mediterranean region, it has been reported from ten localities
in the United States, seven of them being in Texas.

For the past three years, this species has been thriving in several
backyards in Oak Cliff, a suburb of Dallas, Texas. Mr. John
Litsey, of Dallas, first mentioned its occurrence within the city
to the writer, and several subsequent field trips to its present
locality have furnished interesting ecological data.

Rumina 1s active intermittently throughout the winter in Dallas.
A rainy period followed by a few warm days results in their
appearance at the surface of the ground; a few cold days will
cause them to burrow into the soil, sometimes far enough down
completely to cover their shells. Recently (5th January, 1934) a
trip to the area inhabited by these snails revealed a considerable
number burrowed under a dense mat of periwinkle vines (Vinca).
Some had their shells completely exposed; others were entirely
covered by humus or had only the apices of their shells visible.

On a recent trip (1st to 3rd February, 1934) to south central
Texas, R. decollata was found in abundance along the banks of the
Guadalupe River, one-half mile south-west of Greene. Collections
were made approximately one-fourth mile up and down the river
in this vicinity and shells both living and dead were found equally
abundant at all points. In Breckenridge Park, San Antonio, this
species is distributed all along the banks of the San Antonio
River that meanders through the park.

Pilsbry, in his Manual of Conchology (2nd series, vol. 17, p. 212,
1905) summarizes the distribution of this species as follows:
“Entire Mediterranean region, the typical forms from southern
France, Italy, Sicily, Canary Is. Introduced in the Azores, Madeira,
and Cape Verde Is., Bermuda, Santo Domingo, Cuba (Havana),
Charleston, South Carolina.’ Johnson (Naut., xiii, p. 117, 1900)
speaks of a colony that lived for a while in Philadelphia, one
individual being found devouring a specimen of Helicella ericetorum.
Smith (Naut., xx, pp. 4-6, 1912) notes the shells as common in
cemeteries of New Orleans, La., and the older parts of Mobile,
Ala. Ferriss (Naut., xxviii, p. 11, 1914) calls attention to its being
found by Camp in Brownsville, Texas. Recently Rumina has been
collected in the south part of Houston, Texas, by Mr. Robert

CHEATUM : RUMINA DECOLLATA IN THE NEW WORLD. 85

Tenery. The writer has before him shells from Houston, Greene,
and Dallas. Shells from Greene and Dallas are much lighter in
colour than those from Houston. It seems quite probable that
this species occurs over a much wider area in the southern United
States than hitherto reported.

The Fauna of Birdlip Woods.—It is to be hoped that all readers of this
Journal have seen, or will see, Professor Boycott’s striking paper in the
February number of the Journal of Ecology, under the title of ‘‘ The
Habitats of Land Mollusca in Britain”’. It was of special interest to me
that he there gives a list of thirty-seven species to be found in the
famous beech woods which clothe the western slopes of the Cotswolds
at Birdlip, as I was myself about to spend a week in that neighbourhood.
I was able to add two typical woodland species to his list, viz. Lauria
cylindracea DaC., of which a single specimen turned up among beech
leaves at the foot of a moss-covered wall, and Azeca goodalli Fér.,
which occurred among sycamore leaves, at a point where a few
sycamores are planted among the beeches. ‘These sycamore leaves
were a profitable hunting-ground for other species, notably Clausilia rolphii
Leach and Ena montana Drap. I failed to find Arion intermedius Norm.
or Columella edentula Drap., which can hardly be absent from the woods
altogether. One very beautiful slug is worth recording, a pure white
Arion ater L.. with the head and tentacles black, the effect being even
more striking than in the var. oculata, in which only the tentacles are
black. I was able to confirm another detail upon which Professor Boycott
comments. On one stony patch there were hundreds of Abida secale
Drap., but not a single young specimen, living or dead, was to be seen.
Where do the young hide themselves >—L. W. GRENSTED. (Read before the
Society, 12th May, 1934.)

Slug and Beetle.—On 24th June, 1934, my attention was drawn to moving
objects on the garden path, which upon examination proved to be a Ground
Beetle (Carabus violaceus) savagely attacking a specimen of Arion hortensis.
On lifting the beetle from the ground the slug was dropped, but upon
replacing the beetle on the path about 3 or 4 inches from its prey the insect
at once ran up to it and began to bite it about the middle of the body. This
attack lasted for about three minutes, by which time the slug was dead,
and ultimately the beetle wandered away to the cover of some pieces of
timber. Evidently this is a very useful kind of beetle to keep in a garden.—
C. H. Moore. (Read before the Society, 8th September, 1934.) .

86

NON-MARINE SHELL-DEPOSITS IN YORKSHIRE (N. RIDING)
AND DURHAM.

By A. S. Kennarp, A.L.S., and B. R. Lucas, F.G.5.
(Read before the Society, 7th May, 1932.)

Tue following account deals with some interesting shell-deposits
at Kirby Fleetham, Oxney Fields, and Cockerton :—

1. KirBy FLEETHAM.

The village of Kirby Fleetham is situated on Sheet LV, South-
West Yorkshire (North Riding). The Chara marl deposit is found
in the area bounded on the west by the Moorhills plantation, the
mill-beck to the south, Fleetham Lane to the east, and a little
beyond the Hall Garth (old moated Hall) to the north. ‘The owner,
Mr. E. H. Courage, deepened a drain running due east, about
350 feet from the Hall Garth, and in doing so cut through the
Chara marl bed in its greatest depth. The lake must have had an
area of approximately 60 acres and all around the margins you
come to sand and gravel of glacial deposit.

The lake appears to have passed through periods of desiccation,
and the Chara marl is interlarded with small bands of peat. The
writers collected the following thirty-nine species of shells :—

Bithynia tentaculata (Linn.). Rare.
Valvata piscinalis (Mull.). Common.
, eristata Mill. Common.
Carychium minimum Mill. Rare.
Limneza pereger (Miull.). Common.

, palustris (Miull.). Common.

» truncatula (Mill.). Rare.
Planorbis planorbis (Linn.). Rare.

z, carinatus Mill. Rare.

ta corneus (Linn.). Rare.

5 albus Miuil. Rare.

. crista (Linn.). Common.

complanatus (Linn.). Common.

Doeytis lacustris (Linn.). Rare.
Physa fontinalis (Linn.). Common.
Pupilla muscorum (Linn.). Rare.
Vertigo antivertigo (Drap.). Common.

,, pygmza (Drap.). Rare.
genes Gred. Rare.

,, moulinsiana (Dupuy). Rare.
Vallonia pulchella (Miull.). Rare.

excentrica Sterki. Rare.

2?

»))

KENNARD : SHELL=-DEPOSITS IN YORKSHIRE AND DURHAM. 87

Vallonia costata (Mill.). Rare.
Cochlicopa lubrica (Miull.). Rare.
Arion sp. Rare.

Petasina fulva (Mill.). Rare. ©
Zonitoides nitidus (Miull.). Rare.
Retinella radiatula (Ald.). Rare.
Vitrea crystallina (Miull.). Rare.
[imax sp. Rare.

Trochulus hispidus (Linn.). Rare.
Artanta arbustorum (Linn.). Rare.
Cepza nemoralis (Linn.). Rare.

,, hortensis (Miull.). Rare.
Succinea pfeifferi Rossm. Rare.
Sphzerium corneum (Linn.). Rare.
Pisidtum nitidum Jenyns. Common.

4, miltum Held. Common.

a obtusalastrum B. B. Wood. Common.

This is a most interesting series and is a record of events hitherto
unsuspected. ‘There is first the series of true marl shells. These
are all freshwater and are all common in the deposit. They are
Valvata piscinalis, V. cristata, Limnza pereger, Physa fontinalss,
Planorbis crista, P. complanatus, and the three species of Pisidia.
From the thickness of the deposit it is clear that the marl period
lasted a considerable time, but a change of conditions led to the
cessation of the deposition of the marl and a different association of
freshwater forms occurred: later it became a marsh with the
usual land-shells. ‘The age of the marl is probably early Holocene
while the peaty earth represents the period from that to the present
time. Of particular interest is the occurrence of Vertigo genes
and V. moulinsiana, which are unknown in a living state in
Yorkshire.

2, OFMEY, LF PELDS,

They are situated on Sheets LV and LVII of the 6 in. Ordnance
Survey of Durham and form a peninsula at the junction of the
Rivers Tees and Skerne. Seventeen years ago the land, that had
been looked on as derelict, was drained after pumping for over
a year, and the level of the water so lowered as to make it possible
to cut drains. In the dried, more or less peaty soil the writers
found the following eleven species of shells :—

Limneza stagnalis (Linn.).
,, truncatula (Mill.).

Planorbis leucostoma Mill.

Vertigo pusilla Mill.

88 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 3, DECEMBER, 1934.

Vertigo antivertigo (Drap.).
” pygmexa (Drap.).
Vallonia excentrica Sterki.
Retinella radtatula (Ald.).
Vitrea crystallina (Mill.).
Trochulus hispidus (Linn.).
Succinea pfetiffert Rossm.

There is no clue as to the age of this deposit, which clearly
represents a marsh. The reclaimed land covers about 40 acres,
and is in close proximity to the famous “ Hell Kettles’.

3. COCKERTON (DURHAM).

Cockerton village is situated to the east-north-east of Darlington
on the 6 in. map, Durham LV, north-west, of the Ordnance Survey.
The ponds, which were brought to the notice of Messrs. E. O. D.
Sibson and B. R. Lucas in December, 1931, were found in laying
down a drain and new road in continuation of Bates Avenue to
the north of Cockerton nearly at the foot of Elvert House.

A thick clay containing shells was discovered, unmistakably old”
ponds. The drain cut through 25 feet of this deposit at a depth
of 5 feet from the surface of the meadow and 6 feet thick. The
area of the deposit could not be ascertained, but according to the
foreman it spread beyond the road and appeared to consist of
two ponds. Fourteen species occurred, viz. :—

Limneza pereger (Mill.).
Planorbts arcticus Beck.

‘ crista (Linn.).

3 leucostoma Mill.
Vertigo parcedentata Al. Braun.
Columella columella (Benz).
Vitrina pellucida (Miill.).
Trochulus hispidus (Linn.).
Succinea pfeiffert Rossm.
Pisidium cinereum Ald.

5 pulchellum Jenyns.
fs mitidum Jenyns.
subtruncatum Malm.

hibernicum West.

9)

This is clearly a late Pleistocene deposit as is shown by the
occurrence of the three extinct species Planorbis arcticus, Vertigo
parcedentata, and Columella columella, and this is the first record
of these species in the North of England. The fauna is identical
with that of the Ponders End stage in the South of England.

JOURNAL OF CONCHOLOGY. PLAIE, 2,

HYRIDELLA BARDWELLI CLENCH

Fig. 1: Exterior view, holotype, nat. size.
Figs. 2-3: Interior view, paratype, nat. size.
Fig) 4: Sculpture, holotype. x 6.

Fig, 5: dlinge plates, paratype. xX 3.

Photographs by F.. P. Orchard.
Facing p. 89.]

89

A NEW HYRIDELLA (MUTELIDA) FROM AUSTRALIA.
By WiLuiamM J. CLENCH.

(Read before the Society, 8th September, 1934.)

[PLATE 2. |

Hyridella (Hyridella) bardwellt, sp. nov.

Shell oblong-ovate to elliptical, inequilateral, inflated, thin
and shining. Beaks elevated, full and smooth. Young specimens
show a broad and shallow indentation on the uppermost portion
of the beaks, which is not indicated in the older specimens.
Posterior ridge low, rounded and inconspicuous. Dorsal outline
somewhat arched, basal outline somewhat flattened. Anterior
end regularly rounded, posterior end irregularly rounded to
subtruncated, and somewhat produced a little below the mid-
line. Periostracum a deep, blackish brown, olivaceous green in
transmitted light. Radial sculpture of very faint, thread-like lines,
visible in both transmitted and reflected light. Concentric
sculpture of fine growth lines, a few specimens showing a series
of hair-like threads that are connected with fine, radially arranged
riblets. Areas in which the radial riblets occur, however, are
irregularly placed, and not present on all specimens. Rest periods
indicated in transmitted light by darkened, concentric lines at
about 5 mm. intervals. ‘Teeth delicate, pseudocardinals double in
the right valve, and not quite parallel, thickened at their distal
ends. The left valve possesses a single pseudocardinal, somewhat
irregularly pointed. Laterals single in the right valve, double and
nearly parallel in the left valve. Nacre, bluish white, opalescent,
most strongly so at the posterior end of each valve where, in
addition, there is a somewhat coppery stain. Interior of all shells
stained with “‘ oil spots”’ or Tullberg’s layers. Exterior areas of
the umbones badly corroded.

Length. Height. Width.

54 at 17°6mm. Holotype
54 29 19°5 Paratype
52°5 27 18 /
53 29 18 a
Cee a tail Ya i
49 aoe: 20 :

Holotype-—Museum of Comparative Zoology, No. 41999, lower
reaches of the Glenelg River, Kimberley Division, Western
Australia. Beresford Bardwell collector, 1933. ‘Twelve paratypes,
No. 42000, from the same locality, one of which is deposited in
the South Australian Museum.

90 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 3, DECEMBER, 1934.

Remarks.—A recent publication by Cotton and Gabriel on the
Australian Unionide (Proc. Royal Soc. Victoria, 44, pt. 2,
pp. 155-160, pl. 16, April, 1932) has made possible a much better
understanding of the freshwater clams of that continent. Thiele
has, however (Handbuch der Systematischen Weichtierkunde, Jena,
3, p. 838, 1934), placed all of the Australian species in the family
Mutelidz and not the Unionide as considered by the above
authors.

This new species appears to be quite different from all other
Australian forms. The lack of beak sculpture places this species
in Hyridella s.s.; its outline and thin structure infer a relation-
ship with H. wilsont (Lea) of central and northern Australia.
Nothing, however, is known of its soft parts. From this species
it differs in being deeper between the beaks and the basal margin,
more inflated and not possessing a parallel dorsal and basal outline.
In colour as well it differs in being very much darker. Com-
parative measurements between shells of about the same length
are as follows :—

Length. Height. Width.
52 24°5 13°5mm.wilson Holotype
52°5 27 18 bardwelli Paratype

This particular series is heavily stained with the so-called “ oil
spots”’ or Tullberg’s layers, a condition more or less induced by
the particular nature of the habitat. Freshwater clams living
in mud, especially containing any amount of decaying organic
material, are usually found to be much corroded by the organic
acids in their medium. To protect themselves from the corrosive
action, deposition of these oil spots occurs on the inner surface of
the valves. The composition of the oil spots is of the same chemical
material that is used to produce the periostracum (Altnéder, K.,
Arch. Hydrobiol., 17 (3), pp. 423-491, pl. 3, fig. 10, 1926). ‘These
spotted areas are usually disc-shaped and occur most abundantly
in the region of the umbones, the outer surfaces of which are most
deeply corroded.

A NEW HOLOCENE DEPOSIT IN CO. DOWN.
By R. MacDOonaLp.

Durinc May of last year I discovered an interesting Holocene
deposit of land-shells on the foreshore at Groomsport, Co. Down,
less than a quarter of a mile east of the village, from which I was
able to obtain the following species: Cochlicopa lubrica (Miiller),
Claustlia rugosa Draparnaud, Trichia hispida (Linné), Vallonia
pulchella (Miller), Cochlicella acuta (Miiller), Cepaea nemoralis
(Linne), all frequent; Vertigo angustior Jeffreys (5), and Pupilla
muscorum (Linné) (1).

I again visited the section in May of the present year when
I was able, owing to the erosion, to determine the following as a
typical section: Height of top of section, 22 ft. 6in. above
Ordnance Datum.

(1) Recent surface soil, 16 inches.

(2) Blown sand with land-shells, 3 ft. 7 in.

(3) Black layer, probably Neolithic, 10 inches, which contained
the following species of marine shells: Patella vulgata Linné,
frequent ; Littorina littorea (Linné), frequent ; Littorina littoralis
(Linné), a few only; Buccinum undatum Linné, a few broken
specimens ; Paphia rhomboides (Pennant), one perfect valve. It
also contained bones of the following domestic animals which
have been identified by Dr. J. W. Jackson: Horse, Ox, Pig,
and Goat, together with a few specimens of Trichia hispida.

(4) Blown sand coarser than layer (2) but containing the same
molluscan fauna. I could not determine the depth of this layer
owing to the presence of talus.

The presence of Vertigo angustior Jeffreys in this deposit is of
great interest as it has not been hitherto recorded from Co. Down
either in the living or fossil state, although living in the adjacent
county of Antrim. It has probably become extinct in the present
situation owing to the encroachment of the sand over a coastal
marsh as has been suggested by Stelfox (1) with regard to its dis-
appearance from several other Irish localities where it is now
found only as a fossil.

For other references to the occurrence of Vertigo angustior in
Ireland as a fossil see the recent paper by D. K. Kevan in The
Irish Naturalists’ ‘fournal, vol. 4, p. 178, May, 1933, in which
both its recent and fossil distribution is recorded as known up to
the present. |

Another deposit of the same type existed several years ago at
Orlock Point, about a mile and a half further round the coast near

92 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 3, DECEMBER, 1934.

Donaghadee from which the following: were determined by
Kennard and Woodward (2): Retinella nitidula (Drap.), (1);
Trichia hispida (.), (7); Cochlicella acuta (Miller), common;
Cepxa nemoralis (L.), (3); Clausilia rugosa (Drap.), (1); and
Cochlicopa lubrica (Miller), (3).

All these species with the exception of R. nitidula also occurred
in the deposit above described.

BIBLIOGRAPHY.

(1) Stelfox, A. W., Proc. Roy. Irish Acad., 29, Section B, No. 3, p. 102, 1911.
(2) Kennard, A.S., and Woodward, B. B., ‘‘ The Post-Pliocene Non-Marine
Mollusca of Ireland,”? Proc. Geol. Association, vol. 28, p. 133.

EDITORIAL NOTES.

‘THE Society has suffered a very heavy loss by the death of Dr. R. F. Scharff,
who was to all intents and purposes an original member. By the courtesy
of Mr. R. Lloyd Praeger I am able to give some account of Scharff’s life,
and I should like to thank Mr. Praeger on behalf of the Society.

Another death much to be deplored is that of William James Wintle,
a member of our Society, which occurred suddenly on 26th July last.
He was an author and journalist by profession, and had been for many
years on the editorial staff of the Amalgamated Press.

News has just been received of another very serious loss—that of our
most recently appointed Honorary Member, Dr. Alfred Hands Cooke,
on 28th November. Dr. Cooke is perhaps best known as the author of the
Molluscs in the Cambridge Natural History series. He has been Vicar of
Mapledurham since 1920, and from 1900 to 1920 was headmaster of
Aldenham School. He only survived his wife three weeks.

In his report on the work of the Government Laboratory for the year
ended 31st March, 1934 (H.M. Stationery Office, London, 1934, od. net),
the Government Chemist, Sir R. Robertson, refers to a curious incrustation
on the surface of stored marine shells, which was found to consist of calcium
acetate associated with traces of common salt, and appeared on marine
shells but not on land shells nor on marine shells covered with a layer of
vaseline. ‘The shells had been stored in drawers of oak wood, which is
known to evolve traces of acetic acid continuously, and the effect could be
traced to the localized action of acetic acid attracted by the deliquescent
residue from sea-water salts on the shells.

The South African Fisheries and Marine Biological Survey Report,
No. 10 (1932-3), Ppp. 20, 21, mentions the occurrence of a species of
Pleurotomaria which has provisionally been assigned to P. quoyana F. & B.
Two specimens have been trawled in about 200 fathoms, and have been
presented to the Durban and to the Cape Town Museums. The larger
specimen is described as being 118 mm. in altitude by 115 mm. in breadth
of base ; the smaller as 65 X go. ‘These figures seem to represent shells of
remarkably different proportions if they belong to the same species.

EDITORIAL NOTES. 93

The South Australian Naturalist, vol. xv, p. 113, September, 1934,
publishes an account of a Black Duck, Anas superciliosa, which was shot
with a live specimen of Hyridella australis attached to one foot. The mussel
was adhering so firmly that the toe-bone of the bird was actually crushed
by the pressure of the valves. A photograph of the foot with shell attached
is given natural size. The Hyridella weighed 24 ounces.

The Marine Recorder asks me to publish the following communication
with reference to the Marine Census. It calls attention to an important
modification of method, in that members are no longer invited to submit
their actual specimens unless the Recorder asks to see them.

“The question of the best methods of collecting information as to the
distribution of the marine species of Great Britain and Ireland was con-
sidered by the Council on 13th October. It was decided that if members
would send lists of species to the Recorder it would not generally be
necessary to forward specimens as well. Should the Recorder think it
necessary to inspect any particular species, these could be sent to him at his
request. It was decided that a serious effort should be made this year to
expedite this important work.

Members and others are asked to help in this matter in the following
ways :—

(1) By sending particulars of species in their own collections.

(2) By collecting and observation in any particular areas to which they
have, or have had, access.

It is felt that rapid progress could be made by these methods. The value
of the work would be greatly increased if helpers would include ecological
information, such as associated animals and plants, geological formation
of the habitat, exact dates, nature of the water, etc.

During the last two years a few zoologists and collectors have sent a
limited quantity of information of this kind.

Dr. L. B. Langmead sent such information on Hydrobia ulvze (Pennant)
and Miss Nora Fisher on Patina pellucida (Linné).

Most of the lists sent in the past have been lists, pure and simple. It is
not generally recognized that information about all species, rare or common,
is wanted.

The Council and the Recorder will be grateful for any help in this
matter ”’.

ALAN P. GARDINER,
Marine Recorder,
Kiln Coppice,
Bradfield College,
Berks.

By an unfortunate oversight in our last number the millimetre scale
photographed with the shell on Plate 1 was cut off in preparing the block,
and the new species, Lucina odontotis (see p. 58), appeared without
dimensions. They are as follows: Dorsal margin to beaks, 27 mm. ;
anterior to posterior margin (maximum distance), 27-5 mm.; thickness
(two valves), 16 mm.

o4

PROCEEDINGS OF THE
CONCHOLOGICAL SOCIETY OF GREAT BRITAIN & IRELAND.

615th Meeting, held at the Manchester Museum, toth February, 1934.
Me Gc Spence in the chair.

Exhibits.

By Mrs. Morehouse: Large series of Cyprxa, including C. gillei Jouss.,
from Fiji; C. vaticina Iredale, Port Jackson; C. scurra Gmelin, Queens-
land; C. errones, L., Indian Ocean; C. sophize Braz., New Georgia,
Solomon Is.; C. compton Gray, S. Australia; C’. notata Gill, Broome,
W. Australia; C. giczac L., Queensland ; C. xanthodon Gray, Queens-
land; C. nashit Iredale, Port Jackson; C. thersites Gask., S. Australia ;
C. decipiens Sm., Broome; C. aurantitum Mart., and C. testudinaria L.,
N. Hebrides ; also Xenophora corrugata Rve., Hen and Chicken Islands,
New Zealand, 25-30 fathoms (one with shells attached and another with a
“sponge).

By Mr. C.H. Moore: Mitra, Ancillaria, and Marginella ; also British
Land Shells (from the J. W. Taylor collection).

By Mr. G. C. Spence: Group of Bilharzia-carrying snails from Africa.

616th Meeting, held at the Manchester Museum, t1oth March, 1934.
Mr. G. C. Spence in the chair.

Candidate Proposed for Membership.

Tinsley Owen Tippett, Roche Road, Stenalees, St. Austell, Cornwall
(introduced by C. P. Richards and J. E. Cooper).

Papers Read.

‘“A reputed smooth-shelled variety of Helix aspersa Miill.,”’ by
C; Oldham, F.L.S.

‘© Mactra stultorum (L.) in association with Pinnotheres pisum Penn.,” by
J. G. Dalgliesh. .

Exhibits.

By Mrs. Morehouse: Placostylus scarabus Albers, and porphyrostomus
Pfr.; dissection of Anodonta cygnea L., with pearls, from Roundhay
Park, Leeds. .

By Mr. A. K. Lawson: Japanese toys (birds) made of shells.

By Mr. G. C. Spence: Species of Blanfordia—hosts of Bilharzia.

By Mr. C. H. Moore: Series of Oliva.

617th Meeting, joint with the Yorkshire Conchological Society, held at the
Manchester Museum, 7th April, 1934.

Mr. G. C. Spence in the chair.

Seventeen persons present.
Election of New Member.
Tinsley Owen Tippett.

Candidate Proposed for Membership.

Philip Vlasto, Budgemore, Henley-on-Thames (introduced by N. B.
Davis and C. Oldham).

PROCEEDINGS. 95

Exhibits.

By Miss Nora Fisher: Marrat’s type-specimens of Gladius (= Tibia)
martint M.; Murex imbricatus Higgins and Marrat; Sconsia barbudensis
H. & M.; Lima zelandica, M. (by courtesy of the Liverpool Museum
authorities).

By Mr. C. H. Moore: Special groups from the J. W. Taylor collection.

By Mr. K. Howell : Limnza pereger with yellow bodies, from Saw Wood,
Thorner ; Limax cinereoniger from Saw Wood, L. maximus from Saw Wood,
and Milax gracilis from garden near railway embankment at Horsforth.

By Mr. G. C. Spence: Smaller species of Achatina.

By Mr. A. K. Lawson: Littorina rudis M. & R., from Loop Head, Co.
Clare, and from Walton-on-Naze; L. obtusata var. zestuari Jeff. from
Woodbridge (ex coll. J. C. Dacie).

By Mrs. Morehouse: Series of Cerithtum and Epitonium.

By Mr. F. Taylor: British Non-Marine shells of special interest from
many localities.

By Messrs. Emmett and Goodson: Colour varieties of Helix nemoralis
from Basford, near Leek ; Planorbis vortex from Barlaston, near Stoke-on-
Trent ; Limnza palustris from Coalpit Ford, near Leek (sets collected. in
1914 and 1931 showing marked deterioration in seventeen years) ;
H.. virgata from Bryn Euryn, N. Wales (Sept., 1932); and H. aspersa
from Portslade and Arley Kings, Worcs.

618th Meeting, held at the Manchester Museum, 12th May, 1934.
Mr. G. C. Spence in the chair.

| Election of New Member.
Philip Vlasto.

Member Deceased.
Rev. S. Spencer Pearce.

Resignation.
W. J. Eyerdam.

Papers Read.

‘The Fauna of Birdlip Woods,” by Rev. L. W. Grensted.
‘“* Tsidorella pyramidata (Sow.)—A Correction,” by Dr. H. E. Quick.

Exhibits.

By Mr. C. H. Moore: Nassarius, Nerita, and Cerithium; also ‘“'The
Young Collector’s Handbook of Shells,’? by Woodward, price 1d. (no date).

By Mrs. Gill: Cameo of “‘ two griffins drawing a chariot carrying woman
playing lyre’’, Pompeii, cut on Cassis cornuta.

619th Meeting, held at the Manchester Museum, 8th September, 1934.
Mr. C. H. Moore in the chair.

Candidates Proposed for Membership.

John G. McWilliams, 121 Cave Hill Road, Belfast (introduced by R. J.
Welch and Ronald McDonald). |

F. Paolo Agate, Via Alessio Narbone 8, Palermo, Italy (introduced by
J. W. Jackson and R. Winckworth).

Albert Henry Smith, 56 Lawson Street, Kettering, Northants (introduced
by J. Newton and R. H. Lowe).

96 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 3, DECEMBER, 1934.

Member Deceased.
Ww. J. Wintle.

Papers Read.

“A new Hyridella (Mutelidz) from Australia,’ by W. J. Clench.

“Slug and Beetle,” by C. H. Moore.

‘* A Note on the Preference of Patina pellucida (L.) for Laminaria digitata,’
by Miss N. Fisher.

Exhibits.

By Mr. C. H. Moore: H. lapicida, H. nemoralis, and H. arbustorum,
from Dovedale.

By Mr. F. Taylor: Large Anodonta cygnea from Fowl-mere, near
Thetford, Norfolk ; Non-Marine shells from Bolton-le-Sands, including
Vertigo antivertigo, Pupilla muscorum, JFaminia cylindracea, and Clausilia
bidentata. Also varieties of Arion ater from Woodfield Nursing Home,
Werneth, Oldham, Lancs.

620th (Annual) Meeting, held in the rooms of The Royal Society,
Burlington House, London, W.1, 13th October, 1934.
The President, Mr. A. P. Gardiner, in the chair.

‘Twenty-eight other members present.

Election of Scrutineers.
Miss N. Fisher and Mr. H. Worsfold were elected Scrutineers.

Election of Auditors.
Messrs. C. H. Moore and F, Taylor were elected Auditors.

Election of New Members.
J. G. McWilliams, F. Paolo Agate, A. H. Smith.

Member Deceased.
Der, REF; Schack.

Presidential Address.

The President delivered an address on “ The Littoral Zone,” and a
cordial vote of thanks was passed unanimously.

Votes of thanks were also accorded to the authorities of the Royal Society
and the Manchester Museum for the use of rooms for meetings.

Election of Officers and Council.

The Officers and Council nominated for 1934-5 were unanimously
elected. The list is the same as last year with the following exceptions :—

President, J. Davy Dean; Vice-Presidents, add A. P. Gardiner ;
Council, Mrs. Morehouse and Miss Fisher instead of J. D. Dean and
Rev. G. H. Carpenter. ! :

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‘THE

"MANUAL OF CONCHOLOGY.

A Systematic, Fully Illustrated Monography of Recent Mollusks.
Founded by GEORGE W.. TRYON, Jr, in - 1878,

continued by

‘HENRY A. PILSBRY,

Curator of the Department of Mollusca in the Academy of Natural a
Sciences of oe .

a, ee

The Manual is published i in Parts, of which four constitute a volume.

Subscriptions may begin or terminate with any volume. A listof
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per part . : - $5.00-
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First. Series , sCephalonnds, ‘Marine Geeteopodss and Scaphopods.

Seventeen Volumes (complete).

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two or three still to be issued. Completed volumes include the —
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_ Achatinellide, Tornatellinide and their allies (in collaboration —
with C. Montague Cooke), and the Pupillide. These groups have
~~ never before been adequately treated; their beauty, extent, and
intricacy will be a surprise to conchologists #0 have not given e

them special attention.

Iti is believed that students of the Mollusca will Gad material of value to a
them in these volumes, whether they are interested in ae of —
the world, or in those of a local fauna.

In the later volumes the fossil forms also, of the genera dealt with,
are classified and listed.

Inquiries and subscriptions may be addressed to :—

THE ACES OF NATURAL SCIENCES,

19th AND THE PARKWAY, |
PHILADELPHIA, PENNA., U. S.A.

x Vor. 20) — - 2ND APRIL, 1 935. a [No.

: THE

_ JOURNAL

OR

CONCHOLOGY

FOUNDED 1874.

BEING THE ORGAN OF THE CONCHOLOGICAL
SOCIETY OF GREAT BRITAIN AND IRELAND.

Hon. Secretary: Hon. Treasurer :

Hon. Editor:
J.R.leB. TOMLIN, M.A., | J. W. JACKSON, D.Sc., | C. OLDHAM, F.L.S.,
23 Boscobel Road, The Museum, | The Bollin,
St. Leonards-on-Sea. | The University, Shrublands Road,
| Manchester. | Berkhamsted.
CONTENTS. :
| u _ PAGE
List of Officers and Council : : : Sete ae eel y
Changes of Address . . es 5 22 98
Editorial Notes . ©... oe : oe O68
Ernest William Bowell (1872-1935)—A. E. Boycorr R . IOL
The Cephalopods of the Yorkshire Coast (Plates 3-7) — J. A.
STEVENSON. -. ‘ ; Pee, : ; 192

Locally Extinct Marine Mollusca at Portstewart—Miss N. FISHER 117

Self-fertilization—-CHARLES ALLEN : o ¥20

i _. Accounts : : . 127

a _Lonpon : DuLau & Co., LTp., 2 STAFFORD ST., OLD Bonn ST., W.1.

| Sold also at the Headquarters of the Society,
THE MANCHESTER MUSEUM, THE UNIVERSITY, MANCHESTER.

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THE

OF

JOURNAL

CONCHOLOGY.

VOL. 20.

2nd APRIL,

1935. No. 4.

LIST OF OFFICERS AND COUNCIL FOR 1934-5.

PRESIDENT :
J. DAVY DEAN, F.R.E.S.

VICE-PRESIDENTS :

G. C. SPENCE Elected
BR LUCAS Pigg, (ree
L. E. ADAMS, B.A.

H. H. BLOOMER, F.L:S.

Prom, A. E. BOYCOTT, M.A.,

DL, FR.

ae oe ’ COLLINGE, Dec, for:

Ww
And.), M.Sc. (Birm.), F.L.S.,
PRES.

ajor M. CONNOLLY.

. E. COOPER.

. CROWTHER, M.Sc., F.R.M.S.,

way

HON. TREASURER :
S). ClidstiAa. F14.9.y, 1-269.

HON. EDITOR :

J.R.LE B. TOMLIN, M.A.,
F.R.E.S.

A. P. GARDINER, B.Sc.

J. WILFRID JACKSON, D.Sc.,
F.G.5.

A. S. KENNARD, A.L.S., F.G.S.

E. W. SWANTON, A.L.S.

E. R. SYKES, BA., F.LS.

J.R. Le B. TOMLIN, M.A.,
Pan.

HUGH WATSON, M.A.

R. J. WELCH, M.Sc., M.R.I.A.

R. WINCKWORTH, M.A.,
FR.GS,

HON. SECRETARY :
J. WILFRID JACKSON. DSc.
ia.

HON. LIBRARIAN AND CURATOR :
C. H. MOORE.

HON. RECORDERS :
Non-MarINE Mo.tuusca: Pror. A. E. BOYCOTT, M.A., D.M., F.R.S.

MARINE MOLLUSGA :

A. P. GARDINER, B.Sc.

COUNCIL :

A. W. STELFOX, M.R.I.A.
HH. COATES, F.R.S:E.
A. K. LAWSON, F.R. Met. Soc.

W. H. DAVIES.
Mrs.
Miss N. FISHER.

E. M. MOREHOUSE.

YORKSHIRE BRANCH.

President : CHARLES ALLEN.
Hon. Secretary: J. R. Diss.

President :
Hon. Secretary : Guy L. WILKINS.

LONDON BRANCH.
A. S. Kennarp, A.L.S.

NORTH STAFFORDSHIRE BRANCH.

President :
Hon. Secretary : B. BRYAN.

98

LIST OF MEMBERS. .
Changes of Address, etc.

Archer, Allan F., University Museums, Ann Arbor, Michigan, U.S.A.

Collinge, Walter DSc: Misc... F184. 8.3.4... The Yorkshire
Museum, York.

Dibb, J. R., F.R-E.S.,; 1 Moorland Grove, Leeds, ‘7.

Falcon, W., M.A. (Cantab.), Clausthal, Umkomaas, Natal.

Fox, Sir Cyril, Ph.D., F.S.A., National Museum of Wales, Cardiff.

Lawson, A. K., F.R.Met.S., Kenara, Rydal Drive, Hale Barns, Cheshire.

Lohmander, Hans, Naturhistoriska Museet, Goteborg, Sweden.

Paton, Mrs. B. J., Swan’s Lodge, Holt, Norfolk.

Rehder, H. A., Smithsonian Institution, U.S. National Museum,
Washington, D.C., U.S.A.

EDITORIAL NOTES.

IN 1934 this Journal completed its sixtieth year of issue, pp. 1-48 of vol. i
having been published in 1874.

Once again we have to record serious losses to the Society by death.
Dr. E. W. Bowell, who was President in 1931-2, died last month. We hope
to publish some short account of his life in this number.

Mrs. G. B. Longstaff, nee Donald, died at Bath on 17th January, aged 79.
She was a very good all-round naturalist in her earlier days and took
particular interest in Botany and in the Mollusca. More recently she made
a name for herself in Paleontology and her papers on Loxonematidze, a
family of Paleozoic Gastropods, are well known to geologists.

In the last line on p. 25 of the current volume of the Journal for “‘ Park
Lane ”’ read “ Park Cave ’’.

The Rev. E. P. Blackburn has just published an admirable “ Survey of
the Land and Freshwater Mollusca of Northumberland and Durham ”
(Tr. Northern Nat. Union, vol. i, pt. 3, pp. 139-186, Nov., 1934). To our
mind these works which gather up the information of previous years in a
summary and at the same time a comprehensive form are amongst the most
valuable papers that appear. The volume of literature on our subject,
already vast enough, is being added to at an amazing rate ; the “ Mollusca ”
portion of the Zoological Record in the last few years in its annual list of
titles has never been below goo and has twice exceeded 1,000.

The Survey starts with a concise account of the subdivision of the counties,
illustrated by two maps which are conveniently inserted in the text and are
thus more handy for reference. ‘The great changes, due to drainage of
marshes and felling of woodlands, are indicated, and reference is made to
Holocene Mollusca.

We shall look forward to the detailed excursus on Clausilia cravenensis
Taylor, which is promised in a future number.

EDITORIAL NOTES. 99

We should like to call attention to the excellent work now being carried
out by Mr. C. H. Moore on the J. W. Taylor collection. During 1934 he
labelled and mounted 550 series of shells, and catalogued a large number
of the freshwater shells. In the library Mr. Moore has card-indexed and
catalogued 380 books and pamphlets, as well as bringing the general library
completely up to date. He intends to prepare a catalogue in book form of all
donations to the Society.

On p. 92 of our last number a short report is quoted on the well-known
shell disease. Thanks to the President, I am now able to give in full a paper
by J. R. Nicholls of the Government Laboratory, W.C. 2, on ‘‘ Deterioration
of Shells when Stored in Oak Cabinets”, which appeared in Chemistry
and Industry, vol. 53, no. 51, pp. 1087-8, 21.xii.34 :—

‘“‘'There have been numerous cases recorded of the corrosion of lead and
other metals when in contact with oak. Brame (¥. Soc. Chem. Ind., 1918,
37, 39) has shown that lead roofing is attacked where it touches oak beams
and Southernden (ibid., 1918, 37, 85) records that lead laid on deal remained
sound for eighty-five years, whereas that on oak was incrusted in eight years,
7 |b. of lead per square yard being corroded. Dr. Alexander Scott has
reported that at the British Museum lead medallions contained in oak
museum cases became badly corroded, even though the lead and oak were
not in contact, the specimens resting on cardboard slips. He has said (‘ The
Cleaning and Restoration of Museum Exhibits,’ Bulletin No. 5, D.S.IL.R.,
1921): ‘ It is more or less generally recognized that it is unwise to store
medals and other small objects of lead in cabinets of oak, but cabinets of
mahogany and various other woods are quite safe.’

“The origin of such corrosion is the fact that oak (and certain other
hard woods, e.g. teak) continually evolves traces of acetic acid, even when
the wood is thoroughly seasoned. Watson (Chemical Essays, 1787, 3, 366),
commenting on the corrosion of roofing lead, says: ‘.. . oak contains
a much stronger acid than deal, and this stronger acid being distilled, as it
were, by the heat of the sun in summer, attaches itself to the lead and
-corrodes it.’ With free access of air the acid vapours are quickly dissipated ;
but where they are not removed the concentration may soon become
sufficient for the acid to attack metals. Water has been shown to be necessary
for the action, which increases as time goes on.

‘“‘ There does not appear to be any recorded instance of substances other
than metals being attacked through association with oak, but such a case
has recently been investigated.

‘* 'The Natural History Museum at South Kensington found that a number
of shells which had been stored for long periods had developed a white
incrustation, considerably affecting the appearance of the specimens. On
a number of occasions this form of deterioration has cropped up and troubled
collectors, although it does not appear ever to have become widespread.
Suggestions have been made that the attack is due to bacteria but no evidence
in support of this has been adduced.

“<The Museum authorities requested the Government Chemist to examine
the shells, to investigate the cause of the deterioration, and, if possible,
to suggest a remedy.

‘“‘ The shells examined had been attacked to very varying extents. Some
were completely covered by the white deposit, whilst others had only small
patches visible. In one instance two shells of the same type, which had been
mounted on one card, were noticeably different; one was practically
unaffected whilst the other had been attacked over almost the whole of its
surface.

‘<The incrustation could not be brushed from the shells but was easily
scraped off. It was soluble in water and the surface of the shell, when washed,
was seen to have been attacked over the whole area covered by the deposit.
From one shell three-quarters of a gram of incrustation was extracted by
solution in water. Examination of the extracted matter showed that it

100 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

consisted almost wholly of calcium acetate but also contained traces of salt.
The acetparatoluide prepared from the incrustation was found to melt
sharply at 148° C., pure acetparatoluide melting at the same temperature.

‘“* Microscopical examination of scrapings from the shells showed no
mould growth and bacteriological cultures showed no bacteria associated
with the deposit.

‘It appeared, therefore, that the shells had been in contact with acetic
acid which had attacked the carbonate layer of the shell over definite areas,
and the resulting calcium acetate showed as a white incrustation.

‘“ As a result of inspection of similar deteriorated shells in their normal
storage positions at the Museum and of inquiries made there, the following
facts were elicited :—

‘“‘ (1) The deteriorated shells were amongst those stored for long periods
in drawers of which the sides, backs, and bottoms were made of oak.

‘* (2) The shells were not treated in any way before mounting on cards,
except that dirty shells were washed.

‘“*(3) The shells were not lacquered or varnished after mounting.

‘ (4) The incrustation appeared on marine shells and not on land shells.

‘“* (5) A certain number of shells had been smeared with vaseline and none
of these was attacked.

‘“* (6) The atmosphere of the museum is normally dry.

‘“ All the above facts were consistent with the shells having been attacked
by the acetic acid emitted from the oak linings of the drawers, but did not
explain why some shells were heavily, some lightly, and some not at all
attacked. ‘The clue to these differences was found in the traces of salt
associated with the incrustation. Washings from shells which showed no
sign of attack contained no chlorides whereas washings from incrusted shells
gave reactions for chlorides varying with, and roughly proportional to, the
area attacked.

‘'The mechanism of the deterioration therefore appears to be as follows :
The oak wood of the drawers continually emits traces of acetic acid and these
vapours can only escape with difficulty from the closely fitting drawers.
Marine shells retain sea-water which, on evaporation, leaves a small residue
of salts ; according to the amount of sea-water and to the porosity of the
shells, this residue may be spread over the shell or be located at the place
to which the sea-water drains. This residue, being hygroscopic, is in a
condition to absorb the acetic acid vapours, which would react with the
calcium carbonate of the shell forming the incrustation. Where dirty shells
had been washed the salt would be removed and the normal surface of the
shell, not being itself hygroscopic, would not absorb the acetic acid and would
not be attacked.

‘< The prevention of such deterioration would appear to be simple. Either
oak cabinets should not be used or all shells before being mounted should
be washed and dried. Added precautions when oak cabinets are used would
be the periodical aeration of the drawers by opening them, and the smearing
of the shells with vaseline, if this does not affect their appearance.

‘* Mention may be made of a further possible source of acid contamination,
viz. cotton wool. All cellulose fibres are liable to attack by bacteria, with
consequent production of traces of volatile acids if the humidity of the
atmosphere reaches a sufficient degree of saturation to cause the fibre
to absorb more than a limiting amount of water. In general, the atmosphere
of museums would probably be sufficiently dry for this action to be
insignificant ; but the possibility should be borne in mind when storing
rare or delicate specimens. Even if washed they should not be placed in
direct contact with cotton wool; they may be mounted on soft wood or
Bristol board and may, as a further precaution, be lightly smeared with
vaseline.”

IOI

ERNEST WILLIAM BOWELL (1872-1935).
By A. E. Boycott.

E. W. BOWELL was a naturalist from boyhood, and his long and
devoted services to Conchology were recognized by his election
as President of this Society in 1931: He was the fourth son of the
Rev. W. Bowell, of Hereford and Sissinghurst, and was educated
at Hereford Cathedral School and Wadham College, Oxford.
He afterwards went in for teaching, took Orders in 1900, and was
successively a school master at Neston and Leatherhead, and curate
of Penshurst. He then left the Church and took to medicine,
qualifying from Guy’s Hospital in 1917, after which he served in
the R.A.M.C. in the East, and when the War was over did medical
laboratory work at his hospital and with the Clinical Research
Association. His eyesight began to fail in 1930, and his general
health became very unsatisfactory soon afterwards; he died on
19th February, 1935, after a long illness.

Bowell was constitutionally a student and a scholar, and a most
agreeable and kindly man. He was, especially in his young days,
a good field worker, though he was more interested in the anatomy
and microscopy of the mollusca than in their biology. He made
a particular specialty of their radula and spent a great deal of
time in working out methods of staining, mounting, and photo-
graphing them. In 1908-9 he published a useful description of
the radulae of the British helicids (Proc. Malac. Soc., vol. viii,
Pp. 125, 205, 379), and it is a pity that he never felt ready to carry
out his plan to write a complete account of all the British species,
for he certainly knew more about them than anyone else, and
acted as a general referee on the subject for anyone who cared to
supply him with material. In some of his other anatomical work
he was less successful, and fell into error about the structure of
Vitrina pyrenaica and Limnzxa pretenuis. In our young days we
collaborated in an account of the mollusca of Herefordshire (1899),
and among a variety of notes and short papers his discovery and
description of the form og of Cochlicopa lubrica (Proc. Malac. Soc.,
1917, vol. xii, p. 312)” is perhaps worth special notice. His
writings are, however, no measure of his good influence, which
was exercised more in his talk and letters and in his implacable
conviction that natural history was a respectable occupation for
any man.

102
THE CEPHALOPODS OF THE YORKSHIRE COAST.

By J. A. STEVENSON.

(Read before the Society, 9th February, 1935.)
[PLATES 3-7.]
INTRODUCTION.

CONSIDERABLE interest has been aroused in recent years throughout
England by the occurrences from time to time along the coast
of Yorkshire of several large and rare forms of cephalopods,
particularly giant squids. ‘These occurrences, however, have not
_been confined solely to the larger types, many of the smaller forms
having been obtained during the same period. In view of the fact
that hitherto no comprehensive study has been made of the
cephalopods of the particular region under consideration, it is
the purpose of this report to bring in up-to-date and published
form the available material and records before the interested public.
It is intended that this report will provide a useful basis for further
investigation in this field.

Most of the records are of recent origin. ‘The chief sources
have been the Marine Biological record-book of the Scarborough
Field-Naturalists’ Society, the Victoria History of Yorkshire, and
the records that have periodically appeared in The Naturalist
(Hull). A very large number of the records was made by Mr. W. J.
Clarke, F.Z.S., of Scarborough, who has most diligently and
enthusiastically obtained information over a period of many years,
and has very kindly placed it entirely at my disposal. Also,
specimens have frequently come to the writer’s hand, in which
cases attempts have always been made, with varying success, to
obtain all information possible concerning their capture. In cases
where specimens occurred whose identity was doubtful, such
specimens, whenever possible, were sent to the British Museum
(Natural History), where Mr. G. C. Robson gave great assistance
by providing exact identifications.

In order that this report may contain the elements of a guide,
a brief description is given of many of the species found in this
area, and should be sufficient to identify positively the more
common forms. In the case of the rarer and more unusual species,
particularly the sepiolids, the members of the Ommastrephidae,
and the giant squids (Architeuthis), the author would suggest that
these be sent as soon as possible after capture to the Department of
Mollusca, British Museum (Natural History), for identification.
The accurate identification of many species of cephalopods is by
no means a simple task ; but if a copy is available, reference may

STEVENSON : THE CEPHALOPODS OF THE YORKSHIRE COAST. 103

be made to Hoyle’s article, ‘‘ British Cephalopoda; their nomen-
clature and identification,” Fourn. Conch., vol. 10, p. 197 (1902),
which contains a key for the identification of the British species.

Cephalopods are actively swimming, predaceous molluscs
characterized by the possession of eight or ten sucker-clad arms,
highly developed eyes, a horny, parrot-like ‘‘ beak’, and a
“funnel’’. By expelling water from the mantle cavity through
this funnel with some force, they are able to shoot at a great speed
through the water.

Both demersal and pelagic forms of cephalopods are found off
the Yorkshire coast. ‘They are to be found in all types of habitats,
ranging from low-tide mark to the deep sea: hence collecting
involves many different methods. The shrimpers on the sandy
beaches at Filey and Scarborough generally obtain numbers of
Sepiola ; the trawlers in shallow water catch other species, and those
trawlers which visit the off-shore banks bring up still other forms,
such as Ommastrephes sagittatus, characteristic of deeper water.
Other species have been found cast up on the shore after frosts
and heavy easterly gales.

RECORDS AND OBSERVATIONS.
Order DIBRANCHIA.
Sub-order DECAPODA.
Family SEPIIDAE.
(1) SEPIA OFFICINALIS (Linnaeus, 1758). PL. 7, Fic. 1.

Description.—This species is unmistakable both in general shape
and the pattern of the colours on its body. The head and body
are broad and somewhat flattened, the sessile arms comparatively
short. ‘The fins in this animal take the form of a narrow fringe
extending on either side of the body from the posterior end approxi-
mately to the anterior edge of the mantle, and of nearly constant
width throughout its length. ‘This characteristic is unique among
Yorkshire cephalopods, and serves to identify the species at a
glance. ‘I'he colour-pattern is remarkable, consisting of a series
of dark chocolate bands extending from the sides towards the
centre of the dorsal surface. The intervening spaces between these
bands are whitish. ‘The head and arms are uniformly chocolate.

Size.—About 1 foot to 1 ft. 6 in. from posterior end to tips
of sessile arms.

Occurrence in Yorkshire Waters.—Rare. Formerly, it appears to
have been more abundant, because Mr. W. J. Clarke informs me
that about twenty years ago it was occasionally to be seen upon
the Scarborough fish-market. More recently he obtained a

104 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

specimen, trawled 40 miles N.E. of Scarborough, on 1st February,
1932. Shells of this animal are very frequently to be found lying.
upon the sands of some of our bays, particularly during the winter-
time, when some of the more violent easterly gales deposit them in
large numbers, and in more or less broken condition, upon the
shore. Such was the case during the early spring of 1928, when
the South Sands at Scarborough were strewn with them (Naturalist,
rst April, 1928, p. 115).

Family SEPIOLIDAE.

(2) SEPIOLA ATLANTICA (Orbigny, 1839).

Description.—Body nearly spherical, the anterior edge of the
mantle attached to the head on the dorsal surface. In this it may
at once be distinguished from Rossza, the only other Yorkshire
genus with which it might be confused, since the anterior edge of
the mantle in the latter species is free at this point. Fins large,
rounded, and extending laterally from the middle of the body,
which in some specimens they nearly equal in diameter.

The colour changes of this little cephalopod are very interesting
to watch. There is no ground colour, save a slight greenish tinge
in the translucent flesh. The chromatophores are relatively large,
particularly on the ventral surface. ‘The usual colour is chestnut
brown, with a shade of opalescent green over each eye; but the
animal is able at a moment’s notice to become a pallid white.
When the bowl in which the animal is living is put in sunlight, the
Sepiola becomes dark brown, which changes to white when the
bowl is moved to a shaded place.

Size.—Rarely over an inch in total length (excluding the
retractile tentacles) in this area.

Occurrence in Yorkshire Waters—Very abundant just below
low-tide mark on our sandy beaches, particularly at Filey, where
sometimes in the summer it is caught in the shrimp-nets in large
numbers. It occurs in deep water, too, because the writer has
occasionally seen it entangled in the nets of the steam-trawlers that
work from 7 to 40 miles off the coast.

Habits.—This is a form characteristic of sandy bottoms. It
occurs during the summer time close inshore, but in winter appears
to retreat to deep water, where the force of the gales cannot reach it.
Hence it is during the summer that this species comes to our notice
most frequently, when the shrimpers catch it, sometimes in quite
large numbers (10-20 per drag or push), in their push-nets and
shrimp-trawls.

The following observations were taken from a specimen kept

STEVENSON : THE CEPHALOPODS OF THE YORKSHIRE COAST. 105

alive in a small glass bowl of sea-water with sand on the bottom
during the summer of 1928. At rest, the animal (which is about
three-quarters of an inch long) is nearly buried in sand, with just
its eyes and the anterior end of its body showing. ‘The arms are
turned downwards and folded backwards along the lower part
of the sides of the head. The motions of water-circulation are
hardly perceptible when Sepzola is at rest, but when it is swimming
they are very vigorous. It is interesting to watch Sepiola bury itself
in sand. It alights, arms downwards, on the sand; and, before
the body has come to rest, it blows out a slight depression with
its funnel. This done, by directing the funnel backwards it drives
the sand from under it, heaping the latter about it. ‘This sand which
is blown out is mixed with enormous quantities of a mucous sub-
stance, which helps considerably to distribute the sand over the
animal. In about two minutes the mucus seems to disappear, and
the animal is now covered evenly and smoothly, except for its eyes
and the anterior portion of its body, with a fine layer of sand. This
is only shaken off when the Sepiola begins to swim again, which it
does periodically for a short while. |

When Sepiola is swimming, the large fins are incessantly
undulating. They have a screw-like motion, and by means of
them the animal is able to travel surprisingly fast through the water.
As in the squid (Loligo), they serve to elevate the posterior end of
the animal, the arms being held in such a position as to act as vanes
for elevating the anterior end. The funnel is very long, and can
be directed forwards or backwards according to the direction in
which the animal wishes to swim. Sepiola is able to go quite as
fast forwards by directing the funnel backwards as backwards by
directing it forwards, motion, of course, being effected by the
forceful expulsion of the water contained in the mantle cavity.

(3) SEPIOLA PFEFFERI Grimpe, 1921.

This species has been recorded off Flamborough Head (Lat.
53. 35. N., Long. 0° 32’ E.) by Grimpe, in Cephalopodenfauna der
Nordsee, p. 19 (1925). We have not seen this species in the Scar-
borough district, and the local record-book contains no mention
of it.

(4) SEPIETTA OWENIANA (Orbigny, 1839).

Though, as with the above species, there is no mention of Sepzetta
in the record-book of the Scarborough Field-Naturalists’ Society,
it is recorded from both Filey and Scarborough by Hargreaves in
the fourn. Conch., Vol. 13, p. 105 (1910), under its synonym, Septola
scandica (Steenstrup).

106 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

(5) Rossta MacrosoMa (delle Chiaje, 1829). Fic. 1.

Description —This species, which is far rarer along the Yorkshire
coast than its relative Sepiola, can be distinguished from the latter
chiefly by the fact that the anterior edge of the mantle is free all
around the body, the fins are relatively much smaller and quite
thick, and the size is considerably greater. The colours of the only
two specimens we have seen were purplish-brown and a pallid
white. In the purple specimen the chromatophores were some-
what small and set close together.

Size—The maximum has been set at 10 inches from the
posterior end of the mantle to the tips of the retractile tentacles.
Specimens of this size, however, are extremely rare, and a specimen
of 5 inches must be considered exceptional. :

Fic. 1: Rossia macrosoma (delle Chiaje).

Occurrence in Yorkshire Waters —We have only three records of
its occurrence, all from deep water :—

(a) A specimen trawled by the S.T. Expert, 8 miles north of
Scarborough (opposite Hayburn Wyke) on the “ hard grounds ”’
(about 25 fathoms). Received on 2nd November, 1927. Identified
by Mr. Robson, and deposited in the British Museum. The
mantle of this individual was 41 mm. in length. Colour when fresh,
purplish-brown. Vide Naturalist, 1st January, 1928, p. 25.

(b) A female specimen caught in a Danish plaice seine off

*

STEVENSON : THE CEPHALOPODS OF THE YORKSHIRE COAST. 107

Whitby and landed at Scarborough (steam drifter Szlver Line).
Received 8th May, 1928. Identified by Mr. Robson and deposited
in the British Museum collection. Length of mantle, 54 mm.
Total length when fresh (tip of mantle to tips of retractile tentacles)
10 inches. ‘This specimen is the largest of this species ever examined
by Mr. Robson, and probably represents the maximum size to
which this animal grows. Vide Naturalist, 1st August, 1928, p. 238.

(c) A specimen taken from the stomach of a codfish caught
12 miles north-east of Scarborough, on 4th March, 1933
(Clarke MS.).

None of the fishermen to whom these two specimens were shown
had seen the like of them before ; and this coupled with the scarcity
of records leads us to believe that this species is rare along the
Yorkshire coast. It is, however, a comparatively small, deep-
water form; and it is possible that it may be locally abundant
and hitherto overlooked. Both (a) and (b) came from sandy bottoms
not very far off-shore, so it is possible that some of the in-shore
trawlers obtain them more frequently than we are led to believe,
sandy bottoms being suitable for trawling. If a sharp look-out
were kept for them, it is believed that further specimens would be
forthcoming.

Family LOLIGINIDAE.
(6) LOLIGO FORBESI (Steenstrup, 1856).

This species can be distinguished from the other Yorkshire
forms by the shape of the fins and their position on the mantle.
These extend from the blunt posterior end up to a point about
three-quarters of the way towards the anterior edge of the mantle.
They are obtuse and rounded: broad, extending outwards on
either side of the animal as far as the width of the mantle. Young
specimens can be distinguished from Alloteuthis, the only genus
here likely to cause confusion, by the absence of a marked attenua-
tion of the posterior end of the mantle. In Loligo this is somewhat
blunt and rounded; whereas in Alloteuthis, particularly in the
male, it is much elongated and tapered to a point.

Loligo is capable of a wide range of colour change. ‘The flesh
is translucent when alive, and there is a greenish tinge around
each eye. ‘The chromatophores are capable of considerable
expansion, and in this state render the squid reddish-brown in
colour. Contracted, they are so small as to be unnoticeable against
the translucent whitish flesh, and the living squid appears beautifully
opalescent. It is capable of assuming all the wide range of shades
between these two extremes.

Specimens of this squid up to two and a half feet in total length

108 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

(excluding the retractile tentacles) are not uncommon off the
Yorkshire coast. ‘The average size, however, might be stated at
from 8 to 12 inches.

This is the real ‘‘ squid’ of the fishermen, and is probably the
most abundant cephalopod frequenting the coastal waters of
Yorkshire during the summer and autumn. It does not’ appear
to be caught close in-shore at any time by the fishermen, but at
times large numbers are taken in the nets of trawlers fishing from
7 to 15 miles off-shore. In such cases these squids are used exten-
sively for bait by the fishermen. They are considered to be the
bait par excellence for cod and ling.

Loligo when taken in the trawl is usually too mutilated by
contact with sea-urchins, etc., to survive until it reaches the
surface, hence the writer has not been afforded opportunity of
studying it alive. The evidence goes to show that spawning
along the Yorkshire coast takes place during the late summer
(August), because we have found at about that time large masses .
of the egg-capsules of this species on the Filey sands. One bunch
of these capsules, taken in a beam-trawl (of the type used by the
fishermen in catching soles) in Filey Bay contained 79 capsules,
all of which exceeded 4 inches in length (8th August, 1928). Several
bunches, when placed in sea-water, released numbers of young
squids almost immediately. Exposure of the capsules to air seemed
to accelerate the speed of hatching of the young squids, which
swam about vigorously as soon as they had freed themselves from
the gelatinous capsules.

Loligo, particularly young specimens, forms an important part
of the food of the Wolf-fish (Anarhicas lupus L.) during the summer
time, since the stomachs of these fish are generally found to contain
large numbers of them.

(7) ALLOTEUTHIS SUBULATA (Lamarck, 1799). PL. 3.
Loligo subulata Lamarck, 1798.

This small species can generally be distinguished at a glance
by its much attenuated form. In the male, the posterior end of
the mantle is tapered to a point about as far behind the posterior
ends of the fins as the distance from their anterior ends to the
anterior edge of the mantle. The female is only attenuated for a
short distance beyond the fins—about half the length of the latter.
The fins are rounded and obtuse. Eyes large.

Colour in life probably much like that of Loligo. Since all the
specimens we have received have been dead, it is not easy to say,
but the colours of these specimens have very much resembled those
of dead Loligo of about the same size.

STEVENSON | THE CEPHALOPODS OF THE YORKSHIRE COAST. 10g

Males are generally larger than females, being on the average
about 6 inches in total length (excluding the retractile tentacles).
This includes the tapered “tail”. Females do not generally
exceed 43 inches, rarely 5.

Occurrence in Yorkshire Waters.—Alloteuthis subulata is probably
the most plentiful cephalopod found off the cost of Yorkshire
during the winter and early spring. It is particularly abundant
at this time in the deeper off-shore waters (40 fathoms and down),
and is occasionally taken in very large numbers in the trawl-nets.
The fishermen inform us that these small squids have a habit of
clinging to the exterior of their nets, sometimes in such large
numbers that the nets appear quite white with them. They never
reach the surface alive, we are told; and are generally quite
mutilated by then. Hence living specimens have not been available
for study. Vide Naturalist, 1st January, 1928, p. 23.

That this species forms an important article in the food of such
fishes as cod, ling, and wolf-fish is evidenced by the fact that many
of the stomachs of these fish, upon being opened, were found to
contain the partially digested remains of Alloteuthis, sometimes in
large numbers.

The shrimpers at Filey have informed us of a small, much
attenuated squid of about the size of Alloteuthis that they
occasionally catch at low spring tides in their push-nets. We
have not been able to procure a specimen, but, as Alloteuthis does
occur between tide-marks on our southern coasts, it seems probable
that these are referable’ to this species. On this coast, however,
Alloteuthis appears to be more of a deep-water species.

Family OMMASTREPHIDAE.

(8) OMMASTREPHES SAGITTATUS (Lamarck, 1798). PL. 4.
Loligo sagittata Lamarck, 1708.

Todarodes sagittatus (Lam.) Steenstrup, 1880.

Mr. Winckworth has communicated to me the following note
upon the nomenclature of the Ommastrephidae :—

‘‘ Ommastrephes—Hoyle and his successors are wrong in
using this name for the sagittata group, as L. sagittata Lamarck
is not among the original species of Ommastrephes. The type
of Ommastrephes is O. bartrami (Lesueur) which is closely allied
to Caroli and is a Sthenoteuthis. As the earlier name Ommastrephes
should be used instead of Sthenoteuthis, Todarodes can be used
for the species sagittatus.”’

The Ommastrephid specimens mentioned in this paper have
been recorded in various periodicals (The Naturalist, etc.) hitherto

IIo JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

under the older system, viz. Ommastrephes sagittatus, Sthenoteuthts
carolt, etc., and it is felt that in order to avoid confusion it would
be simpler to adhere to these names, which I have done.

This species can be distinguished from all other common York-
shire forms by its large size, its brick-red colouration, and by the
shape of its pen, which is tapered throughout its length, and
broadened at its posterior extremity into the shape of an arrowhead.
The angle of the fins is acute. Large specimens of this animal are
liable to be confused with small Sthenoteuthts ; hence it is advisable
to send such to an expert for proper identification, if possible.

Size.-—The smallest specimen we have known from this district
was 17 inches in total length; and the largest 45 inches (tip of
longest tentacles to posterior end of mantle). A fairly average size
is about 24 inches.

Like Sthenoteuthis, this squid seems subject to stranding on the
shore. It appears to fluctuate very widely in abundance from
year to year. It had not been recorded for this area until the
summer of 1928, when large numbers appeared suddenly off the
coast. Since then, they have occurred in greater or less numbers
up to the present time (1933). Ommastrephes appears to be most
abundant 30 to 40 miles off-shore, but some specimens have from
time to time been found cast-up on the beaches. The following
list is, we believe, a complete one to the present time for the recorded
instances of these strandings :—

(a) 19th March, 1928. Male, Cayton Bay sands. Deposited in
the British Museum. (Clarke.)

(6) 28th November, 1928. South Bay, Scarborough. 44 inches
long. Deposited in British Museum. (Clarke.)

(c) 22nd March, 1929. South Bay, Scarborough. 18 inches long.
(Clarke, in lit.)

(d) 22nd March, 1929. South Bay, Scarborough. 184 inches
long. (Clarke, in lit.) |

(e) 22nd March, 1929. South Bay Scarborough. 20 inches long.
(Clarke, in lit.)

(f) 1oth April, 1930. South Bay, Scarborough. 18 inches to tips
of sessile arms. Deposited in British Museum. (Clarke,
in lit.) |

(g) 4th May, 1930. Scarborough. 32 inches long. Deposited in
British Museum by Mr. F. D. Taylor, of Scarborough.

(h) 19th May, 1931. South Bay, Scarborough. 37 inches long.
Deposited in the Scarborough Museum. (Clarke.)

(1) and (7) 13th May, 1931. South Bay. “ Both about 3 feet long.”
Unidentified, but probably of this species. (Clarke.)

STEVENSON : THE CEPHALOPODS OF THE YORKSHIRE COAST. ELE

(k) 4th August, 1932. Scarborough. 3 feet in total length.

(Clarke.)
(7) x1th March, 1933. North Sands, Scarborough. Female,
3 ft. rrin. over all. | Deposited in British Museum.

(Clarke, in Naturalist, 1st July, 1933, p. 162.)

(m) 31st March, 1933. South Bay, Scarborough. Male, 34 inches
over all. Deposited in the Hull Museum. (Clarke, in
Naturalist, 1st July, 1933, p. 162.) |

In addition to these, there are some records of the capture of
Ommastrephes in the trawl-nets :—

(n) 2nd April, 1928. 25 miles off Scarborough. 244 inches long.
(Stevenson.)

(0) 10th October, 1930. 12 miles north of Scarborough. 45 inches

_ long. Deposited in British Museum. (Clarke.)

(p) During the summer of 1928 many specimens of Ommastrephes
sagittatus ‘were trawled on the off-shore grounds and
brought into Scarborough. Those seen by the writer
measured from 17 to 393 inches in length. (Stevenson,
in Naturalist, 1st August, 1928, p. 238.)

It is probable that in the many secluded bays along the coast
specimens have from time to time been stranded and have escaped
our notice. This squid is apparently quite abundant at times off
the Yorkshire coast, though we believe 1928 to have been a year
of exceptional abundance.

Local names: ‘“ Red squid,” “ Cuttlefish.” The latter name is
in contrast to “squid”, which most of the fishermen apply only
to Logo. ‘They say that red squids are of no use as bait, and usually
throw them overboard with the rest of the “ rubbish’, after the
contents of the cod-end have been sorted.

(9) TopaRopsis EBLANAE (Ball, 1841). PL. 5.
Loligo eblanae Ball, 1841.

This species can most readily be distinguished from other local
members of the Ommastrephidae by its small size and the relatively
great width of its fins. Its great rarity, however, makes it advisable
for expert authority to be had upon its identity, should likely
specimens occur.

The only specimen we have seen measured ro inches from the
tip of the mantle to the ends of the retractile arms.

One record ; a typical male with both ventral arms hectocotylized.
Taken in the trawl off Robin Hood’s Bay, and put into a jar of
formalin that the writer had placed on board the trawler. This
specimen was received on gth April, 1928 (Stevenson, in Naturalist,
ist August, 1928, p. 238). Deposited in the British Museum.

112 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

The fact that the fishermen had never seen the like of the above
specimen, and the small number of records (two, we believe, with
locality, including the above, for the North Sea), indicate that this
animal must be very rare in this vicinity. It is said to be more
plentiful off the Atlantic coast of the British Isles.

(10) STHENOTEUTHIS CAROLI (Furtado, 1887). Px. 6, Fic. 1.
Ommastrephes caroli Furtado, 1887.

Sthenoteuthis bartrami (Lesueur, 1821). (teste Hoyle, 1909).

The identification of the giant squids is a matter of some difficulty,
and should be undertaken only by an expert. No descriptions of
this and some of the following species are given in this paper. All
specimens obtained should be despatched as soon as possible: after
death to the British Museum for correct diagnosis. '

The remarkable occurrences of this giant squid in the vicinity
of Scarborough during recent years have aroused much interest in
scientific circles, and have been well summarized by Clarke and
Robson (‘‘ Notes on the stranding of giant squids on the
north-east coast of England,” Proc. Malac. Soc., London, vol. xviii,
part iv, March, 1929). They are as follows :—

(a) 3rd January, 1925. A specimen, 7 ft. 14 in. in total length,
was cast up on the shore at Withernsea, “in a dying condition.”
_ After being exhibited at that town and photographed, it was sent
to the British Museum (Robson, in Proc. Zool. Soc., 1925, p. 291):

(6) 18th March, 1927. A specimen, 5 ft. 7 in. in total length,
was found stranded on the rocks at the northern end of North Bay,
Scarborough; and ultimately, through the thoughtfulness of
Alderman Whitehead of that town, secured from the danger of
being cut up as bait by fishermen. It was photographed, and
exhibited to a large number of sightseers; and was eventually
deposited in the British Museum, where a cast was made of it.
This specimen was in quite good condition.

(c) 1st February, 1928. A specimen found by my brother at
high-water mark upon the rocks in South Bay, Scarborough. No
measurements were taken, but its length, not including “‘ tentacles ”’
was estimated at 3 ft. 6in., the total length being about 44 feet.
The head with the tentacles was sent to the British Museum, where
it was identified with this species by Mr. Robson. It had been
considerably mutilated by prowling rats on the shore. (See
Naturalist, July, 1928.)

(d) gth January, 1930. A female specimen, 3 ft. g in. long to
tip of short arms, stranded at Filey (W. J. Clarke, in Naturalist,
ist April, 1930). Desposited in the British Museum.

JOURNAL OF CONCHOLOGY. PLATE 3.

FEMALE.

Alioteuthis subulata (Lamarck).

See p. 108.
[Facing p. 112.

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JOURNAL OF CONCHOLOGY. | PLATE 4.

TAIL OF FEMALE.

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JOURNAL OF CONCHOLOGY. PLATE 6.

Fic. 1: Sthenoteuthis caroli (Furtado).
See p. 112.

Fic. 2: Sthenoteuthis pteropus (Steenstrup).
Seep. 114,

JOURNAL OF CONCHOLOGY. PUATE 7:

Fic. 1: Sepia officinalis (Linnaeus).
wee py 10a.

Fic. 2: Eledone cirrhosa (Lamarck).
See p, 115.

*

et

4

STEVENSON : THE CEPHALOPODS OF THE YORKSHIRE COAST. 113

(fe) s2and ‘December, 1933. A specimen,’ '{' 5 ft. 10 in. ‘long,
stranded alive on South Sands,” Scarborough. Secured by
Mr. F. D. Taylor and sent to the British Museum (Clarke, in lit.).

The above are all the definite records we have of Sthenoteuthis
carolt in this district. From time to time, however, we hear of
exceptionally large squids being found upon the shore and cut up
for bait before we can examine them; these are very probably
referable to this species, since of the larger forms this seems to be
the most abundant on the Yorkshire coast. Mr. Clarke furnishes
some interesting notes upon the occurrence of some of these large
squids :— 3

Giant squid, unidentified, ‘‘ caught on rod and line by an angler
from the east pier at Scarborough on 2oth May, 1929. It was
measured—4$ feet in extreme length, and was cut up for bait.
Another, about 5 feet in length, was stranded alive on the South
sands in the second week in June, 1929. It was returned to the
water and swam away.”’ Again Mr. Clarke writes (13th February,
1933) :—

‘', . . Last week two more (squids) came ashore, one 6 feet over
all, the other with a body, exclusive of tentacles, of 3 feet (estimated
lengths), but I was not told anything about them in either case
until they had been cut up, so I have no idea what species they
were.”

When it is considered what a small area of the coastline of
Yorkshire has hitherto been investigated with regard to these
strandings, it would be quite safe to assume that these giant squids
are not nearly so rare as they have been thought to be.

It is probable that a careful watch in many of the secluded bays
along this shore, particularly in winter-time, would yield many
more records.

Remarks.—These strandings are particularly interesting for two
reasons. First, they are more frequent on this part of the coast
than elsewhere. A suggestion as to the reason for this is given by
Robson (1929). Apparently off the Yorkshire coast the impetus of
the main south-going current is coming to an end, with a consequent
drop in salinity and confusion of tidal currents. It is supposed that
“the immigrant Sthenoteuthis coming southwards with the current
probably get into difficulties through lack of proper food or low
salinity off the Yorkshire coast and are washed ashore where the
south-going current is losing its velocity.’’ (Robson and Clarke,
1929, p. 158.)

Secondly, with the exception of two doubtful records, all these
strandings have occurred during the months of December, January,
February, and March—mid-winter. This is probably to be

8

114 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

explained chiefly by weather conditions (squids seem to strand
most frequently after sharp frosts), and also by the probability of.
these squids, in the course of their migrations, being off the coast -
at that particular time of year.

(11) STHENOTEUTHIS PTEROPUS (Steenstrup, 1856). PL. 6, Fic. 2.

Ommastrephes pteropus Steenstrup, 1856.

As with S. caroli records are not numerous. ‘The following are
all the occurrences of which we have knowledge :—

(a) aoth November, 1553. A specimen, 4ft. 4in. In. total
length stranded at Scarborough (Goodrich, E. S., 1892, Fourn.
Marine Biol. Ass., N.S. 2, p. 314). Deposited in the British Museum.

(b) 19th December, 1907. A specimen, 5 ft. 104in. in total
length, was stranded on the sands at Redcar. The occurrence was
recorded in The Naturalist for December, 1908; and the article
was illustrated by a photograph of another specimen of this species,
stranded at Scarborough (it does not say when). The photograph
is very effective, and shows the animal’s front view on a board,
with tentacles reaching downwards. Robson and Clarke (1929)
believe these two records to refer to the same specimen.

(c) 1st March, 1912. A large, somewhat mutilated, skinless
specimen was stranded on the shore at Redcliff, near Scarborough.
It was received by Mr. W. J. Clarke, who photographed it, and was
eventually deposited in the National Museum of Wales. Length,
“not including tentacles,’ 3 feet. .

It is noticeable that no records have occurred since 1912. What
reason there may be for this, and for the fact that no specimens
of S. caroli were recorded before 1925, can only be guessed at.
Possibly these squids fluctuate in numbers over long periods of time.

Family ONYCHOTEUTHIDAE.
(12) ARCHITEUTHUS CLARKEI Robson, 1933.

See Robson’s account in Proc. Zool. Soc., September, 1933, p. 681.

One specimen, 17 ft. 5 in. in length, and weighing approximately
17 stones, was stranded in South Bay, Scarborough, on 14th January,
1933. (Clarke, in Naturalist, 1st July, 1933, p. 157.) Mr. W. J.
Clarke, after whom this new species has been named by Mr. Robson,
has supplied the writer with the following interesting account of
the squid :—

‘‘ Unfortunately as it lay upon the sand it was greatly damaged
by the thoughtless crowd which gathered round it. People stood
upon it and peeled off nearly all the skin. One youth cut out the
mandible, and another cut off the tips of both long tentacles and

STEVENSON : THE CEPHALOPODS OF THE YORKSHIRE COAST. II5

took them away. After a long hunt I found the mandible in the
possession of a lad about 17 years old and recovered it, but for a
long time I could hear nothing about the tentacle tips, although
a message was broadcast on the wireless asking for their return.
But after a good deal of inquiry I heard that a certain fisherman
had cut them off, taken them home, and a day or two later, when
he was tired of them, they were taken to the fish-pier and dropped
into one of the offal barrels. Directly I learned this | communicated
with the manure works at Hull where the fish refuse goes to be
converted into fertilizer, but unfortunately it was too late. Inquiries
showed that a labourer handling the refuse had actually seen the
tentacles, but was not interested and knew nothing of the wireless
hunt for them. So they were converted into fish manure and lost.
It is a great pity, for the squid was in good condition when it was
first seen, with perfect skin, etc., but the assembled spectators
seem to have done everything in their power to destroy it. It
came ashore close to the Aquarium entrance on the foreshore, and
so was easily accessible to everyone. . . . The length of the portions
cut from the tentacles was estimated at 18 inches, making the full
length about) 19 feet...) 60" (W.-. Clarke; in it.)

The task of having this huge squid conveyed bodily to the British
Museum was no light one, and much credit is due to Mr. Clarke
for saving the specimen before it became too mutilated for identifica-
tion and for seeing it safely off from Scarborough.

Sub-Order OCTOPODA.
Family OCTOPODIDAE.
(13) ELEDONE CIRRHOSA (Lamarck, 1798). PL. 7, Fic. 2.
Octopus cirrhosus Lamarck, 1798.

This cephalopod can be distinguished at a glance from the other
Yorkshire species by the fact that it possesses eight sessile arms,
lacking the two retractile tentacles which are characteristic of the
Decapoda ; and by the fact that the suckers, which are sessile (not
stalked as in decapods), are in a single row along each arm. Also,
fins are lacking on the mantle.

The average size on this coast is about 1 ft. 3 in. from the end
of the mantle to the tips of the longest arms. We have, however,
received specimens ranging from 5 inches up to 20 inches in length.

Living specimens of Eledone are very beautifully and brilliantly
marbled with a rich red-brown of different shades on a whitish
background. ‘The ventral surface has a distinct greenish tinge.
When’ the animal is frightened it turns greyish-white, but if not
disturbed for about 15 seconds will regain its normal red-brown

116, JOURNAL. OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

colour. (These notes were taken from a specimen that the writer
kept alive once for eight hours in a tub of sea water.) :

This is the only Octopus that is found here in any numbers. It is
somewhat sparsely distributed over the trawling grounds,
particularly of Whitby, and on the offshore ones, from 30 fathoms
down. However, it does occasionally stray into shallow water,
since specimens have from time to time been found stranded upon
the shore; and once, Mr. Clarke tells me, an Eledone was seen
swimming in the water in Scarborough harbour. The fishermen
inform us too that this Octopus is quite often caught on their
long lines. .

There is some question as to the occurrence on the Yorkshire
coast of the common octopus (O. vulgaris Lamarck, 1798). It is
entered without comment in the record-book of the Scarborough
Field Naturalists’ Society ; but since no mention of Eledone was
made in this book, we believe that the latter has been confused with
Octopus. Mr. Robson informs the writer that for the East coast
of the British Isles north of the Straits of Dover there is only one
very dubious record for Octopus vulgaris—from the Firth of Forth.
It must certainly be very rare, if present at all, along the coast of
Yorkshire. However, it may possibly occur. In April, 1928, the
seining-drifter Silver Line took a large Octopus (estimated length
3 feet) off Whitby, and this was kept for us. Unfortunately it
began to decompose before the boat reached Scarborough, and was
thrown overboard. However, the fishermen stated, among other
things, that each arm possessed two rows of suckers, which tallies
with Octopus. We believe that a careful watch for this species would
sooner or later yield a specimen or two.

The Author wishes to thank Mr. W. J. Clarke, of Scarborough,
for his kindness in making available all his notes and records for the
compilation of this report, and for the great help he has always
been willing to give towards its completion; Mr. G. C. Robson, of
the British Museum, for much valuable assistance concerning
nomenclature, and for very kindly identifying specimens sent to
the Museum; Mr. J. R. Tomlin and Mr. R. Winckworth for great
help in arranging the paper for publication, and for their constructive
criticism of it; and the fishermen of the various Scarborough
trawlers and drifters that have been concerned in the capture of
many rare forms unobtainable in any other way.

Tr?

LOCALLY EXTINCT MARINE MOLLUSCA AT PORTSTEWART.
By Miss N. FIsuHer.

(Read before the Society, 9th December, 1933.)

THE discovery of these shells was due to Mr. R. J. Welch, who in
the spring of 1931 brought me a few marine shells which he had
found among the Portstewart sand-dunes, about 200 yards inland
from the present beach. All the shells belonged to species which still
occur on the coasts of north-eastern Ireland, except Scrobicularia
plana (da Costa), which was represented by two perfect valves.
_ As the presence of Scrobicularia needed explanation, I visited the
spot several times during 1932-3. The following paper is an
attempt to give the shells their rightful place in the succession of.
post-glacial deposits in north-eastern Ireland.

The range of sand-dunes in which the shells occur lies about
? mile west of Portstewart, and extends for about 13 miles to
Ballyaghran Point, at the mouth of the Bann. The greatest width
is about 4 mile. The exact spot may easily be found, as it lies at the
seaward base of the largest dune of the range, about + mile from
the Portstewart end. The seaward end of the small valley where the
shells occur is blocked by a dune, and inland the valley broadens
out, coalesces with a parallel valley, and ends at the foot of the big
dune already mentioned. ‘The shells are mixed with fine gravel
and form a thin layer on the floor of the valley, thickest at the
seaward end, and dwindling almost to vanishing point at the head of
the valley, just before it merges into the parallel valley. Here land-
shells (Cepxa nemoralis L.) and some kitchen-midden débris
occur, but not in association with marine shells. The shells and
gravel are solely on the surface; a hole dug 6 feet deep did not
yield a single shell, and revealed only blown sand to the bottom.
In an adjoining bowl-shaped valley were more shells and gravel,
and also quantities of shell-sand trickling down the sides of the
valley. No trace of any deposit from which the shells might have
weathered out could be found, although the dunes were ‘carefully
searched on several occasions. Mr. Welch, who has explored the
dunes many times during the last forty years, tells me that he has
never seen a similar deposit there or in any other dunes. A near-by
valley, about 50 yards closer to the sea, shows a storm-beach which
Mr. Welch informs me is the one to which Coffey and Praeger
refer (1).1 According to their paper this beach is 6 feet above present
high-water level, and I am indebted to Dr. J. W. Jackson for the

1 The numbers in parentheses refer to Bibliography at end of article.

118 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

information that the present position of the shells is also about 6 feet
above high-water level to-day.

According to (2), p. 35, and (3), pl. facing p. 384, the Portstewart
dunes rest on a raised beach platform, and one especially deeply-
cut valley is floored with very coarse, much-worn gravel, which may
perhaps be the top of the raised beach. This gravel-accumulation,
however, closely resembles the storm-beach. Coffey and Praeger (1),
p. IgI, state that the raised beach may be seen underlying the
newer accumulation of the sandhills between the Bann sandhills
and the town of Portstewart, but I believe that it is not now visible,
owing to building operations. ‘The Memoir (2), p. 35, also states
that ‘‘ blue shelly silt [Estuarine Clay] has been dug up in different
places in the vicinity, on both sides of the river [Bann] ’’. This seems
to show that part, at least, of the Portstewart dunes is underlaid
by Estuarine Clay, but it is nowhere visible. Praeger (4), p. 224,
has described a typical Scrobicularia deposit overlaid by 6 feet of
blown sand, at the eastern end of the Castlerock dunes, on the other
side of the Bann. :

The storms of the winter 1932-3 revealed a fine kitchen-midden
in the valley parallel to that in which the shells were first found.
The following species of mollusca were noted from this deposit :
Patella vulgata L., Lattorina littorea (L.), Glycymeris glycymerts
(L.), Ostrea edulis L., Pecten maximus (L.).

In the following list I have for comparison marked with an asterisk
those species which now occur in the district, taking Fair Head and
Lough Foyle as the boundaries. Lack of information has prevented
me from distinguishing those species which actually /zve in the district
at the present time, and those which are only represented by
dead shells. Any notes on the present range of a species refer only
to its occurrence in this area, except where a larger area, such as
north-eastern Ireland, is specifically mentioned.

The marine molluscan fauna of this district has been investigated
by Chaster (6, 7) (Ballycastle and Rathlin Island), Knight (8)
(Portstewart), Galwey (9) (Magilligan), and Jeffreys (10) (Lough
Foyle). ‘The nomenclature and arrangement throughout are those
of Winckworth’s “ The British Marine Mollusca ’”’ (5).

*Diodora apertura (Mont.). Frequent.

*Patella vulgata L. Not common, mostly small.

*Patella athletica Bean. Four.

* Patina levis (Pennant). About a dozen.

*Patelloida virginea (Miller). Frequent.

*Calliostoma zizyphinum conuloide (Lam.). One small imperfect
specimen.

FISHER : EXTINCT MARINE MOLLUSCA. IIQ

Calliostoma papillosum (da Costa). One very young specimen is
referred by Mr. Winckworth to this species. Very rare in
north-eastern Ireland at present.

*Gibbula cineraria (L.). Rather scarce.

*Tricolia pullus pictus (da Costa). Also rather scarce.

*Lacuna parva (da Costa). ‘Two small specimens.

[*Littorina littorea (L.). Many broken specimens, which I think are
from a kitchen-midden deposit. Also a few perfect specimens,
which may be contemporary with the other shells. ]

*Tittorina saxatilis (Olivi). Scarce.

*Littorina neritoides petrea (Mont.). One, small.

*ittorina littoralis (L.). Scarce, only a few small specimens.

*Hydrobia ulue Pennant. Very plentiful ; the predominant species
in the shellsand.

*Cingula semicostata (Mont.). Very plentiful, and, after Hydrobia
ulvx, the most abundant species in the shellsand.

* Alvania crassa (Kanmacher). Moderately common.

* Alvania punctura (Mont.). Fairly frequent.

*Rissoa parva (da Costa). Plentiful.

*Tornus subcarinatus (Mont.). Three perfect specimens. ‘The
occurrence of this distinctive species is interesting for, though
odd shells turn up occasionally on the coasts of north-eastern
Ireland, it has not been taken alive. The only “live” Britannic
.records are from the south of England. Tornus is entirely
southern in its extra-British range, finding its northern limit
of range in the British Isles.

*Skeneopsis planorbis (Fab.). Few.

* Turritella communis Risso. One 2 inches long, and a small worn one.

*Bittium reticulatum (da Costa). One.

*Cerithiopsis tubercularis (Mont.). ‘Ten, the short obese form.

Cerithiopsis barleei Jeffreys. Seven. New to north-eastern
Ireland, either as a recent or fossil species. Its extra-British
range appears to be entirely southern.

*Triphora perversa (L.). Four. |

*Clathrus clathratulus (Kanmacher). Several.

*Graphis albida (Kanmacher). Two perfect and one broken.

*Aclis ascaris (Turton). Five.

*Aclis minor (Brown). Three and a large fragment.

*Fulima trifasciata (J. Adams). About a score of all sizes.

*Balcis lubrica (Monterosato). One. Only recent north-eastern
Ireland record is “‘ Off Ballycastle, living ’’.

*Balcis devians (Monterosato). Eight.

*Chrysallida obtusa (Brown). Several.

*Chrysallida indistincta (Mont.). Nine.

120 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

Chrysallida decussata (Mont.). About twenty. Referring to this
species J. I’. Marshall (fourn. Conch., 9, p. 290) states that
“usually there are only three sculptured whorls, but in fine
adult specimens there is a fourth’’. More than half of the
Portstewart specimens have four sculptured whorls and one
especially fine example has five. C. decussata is new to —
north-eastern Ireland either as a contemporary or fossil species.
Its extra-British distribution appears to be entirely southern.

*Chrysallida spiralis (Mont.). Plentiful.

* Menestho divisa (J. Adams). One.

Menestho diaphana (Jeff.). Four. New to north-eastern Ireland,
either recent or fossil. Its present range is “‘ Bergen to Eastern
Medn. and Adriatic’’ (Jeffreys, P.Z.S., 1884, p. 349).

*Odostomia acuta Jeff. Nine.

*Odostomia scalaris (MacGillivray). ‘Three.

*Eulimella levis (Brown). ‘Three perfect and a broken one.

*Turbonilla elegantissima (Mont.). Four immature.

*Turbonilla acuta (Donovan). One.

*Turbonilla fulvocincta (Thompson). One immature.

*Aporrhais pespelicani quadrifidus da Costa. One, and three large
fragments. .

* Natica poliana alderi Forbes. Two small worn specimens.

*Trivia monacha (da Costa). One.

*Trivia arctica (Mont.). One, and several fragments.

* Nucella lapillus (L.). Moderately common, but small.

*Ocenebra erinacea (L.). Few.

[*Buccinum undatum L. Many fragments, but not a single shell.
These fragments are puzzling ; they do not appear to be of the
same age as the other shells, but look as if they had come from
a kitchen-midden deposit, yet not even a fragment was noted
in the kitchen-midden in the parallel valley. Only a few minutes,
however, were devoted to the examination of the latter deposit,
so it is quite possible that Buccinum does occur there and was
overlooked. ]

*Nassarius reticulatus (L.). ‘Three, and a large fragment.

* Nassarius incrassatus (Stré6m). One.

* Philbertia linearis (Mont.). Four small specimens.

* Mangelia coarctata (Forbes). ‘Three small specimens.

*Retusa mammillata (Phil.). Three.

*Retusa retusa (Maton & Rackett). Frequent.

*Cylichna cylindracea (Pennant). One imperfect.

*Nucula nucleus (L.). Plentiful.

*Glycymeris glycymeris (L.). Small valves abundant.

* Arca tetragona britannica Reeve. ‘Two small valves.

FISHER : EXTINCT MARINE MOLLUSCA. Ia!

* Anomia ephippium L. Small valves fairly plentiful.

*Mytilus edulis L. In the first valley examined only a few small
valves were found, but in the second valley (that in which the
shellsand was found) large valves were not infrequent.

*Musculus marmoratus (Forbes). ‘Two valves.

*Ostrea edulis L. Rare and mostly small; larger valves very thin.

*Pecten maximus (L.). One small valve.

*Chlamys varia varia (L.). ee but much scarcer than C.
opercularis.

*Chlamys distorta (da Costa). Plentiful.

*Chlamys opercularis (L.). Plentiful.

*Chlamys tigerina tigerina (Miller). Five valves.

*Chlamys tigerina obsoleta Pennant. Plentiful, far outnumbering the
type-form.

*Phacotdes borealis (L.). Valves plentiful, of all sizes.

*Kellia suborbicularis (Mont.). ‘T'wo.

*Lasea rubra (Mont.). Plentiful.

*Turtonia minuta (Fab.). Plentiful.

*Lepton nitidum ‘Turton. Three.

*Montacuta ferruginosa (Mont.). Few valves.

*Mysella bidentata (Mont.). Plentiful.

*Cyprina tslandica (L.). Very plentiful, of all sizes. Also one half-
grown specimen with the valves still together—the only
specimen of any species found in this condition. It appears
to be the only species among the Portstewart shells whose
extra-British range is essentially northern.

*Cardium echinatum L. ‘Three young and one Hal Snowe:

*Cardium scabrum Phil. Plentiful.

*Cardium exiguum Gm. Several.

*Cardium ovale Sowerby. Plentiful.

*Cardium edule edule L. Fairly common.

*Dosinia lupinus lincta (Mont.). Two large valves, and several small
ones. :

*Gafrarium minimum (Mont.). Few valves.

*Venus casina L. One very large old valve, one adult, and two small.

*Venus ovata (Pennant). Frequent.

*Venus fasciata (da Costa). Fairly common, but not so abundant as
those of V. striatula.

*Venus striatula (da Costa). Plentiful.

*Paphia rhomboides (Pennant). Several, large and small.

*Paphia pullastra (Mont.). Several, of all sizes.

*Paphia saxatilis (Fleuriau). One valve.

Paphia decussata fusca (Gm.). Four. Extremely rare at the present
time in north-eastern Ireland. ‘‘ Portrush, a specimen with the

122 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

valves united, but old and worn-looking ”’ (Praeger (13), p. 72) is
the only record from the district, where it is now extinct.
It is an abundant and characteristic fossil of the Lower
Estuarine Clay throughout north-eastern Ireland.

* Donax vittatus (da Costa). Abundant of all sizes.

*Tellina fabula Gm. Several.

Tellina donacina L. One large and two small. A rare species in

north-eastern Ireland.
*Tellina pygmxa Lovén. ‘Two.
*Tellina crassa Pennant. Four large and two small.
* Macoma balthica (L.). Plentiful.

Scrobicularia plana (da Costa). Plentiful. Now extinct in north-
eastern Ireland (see Praeger (4), p. 254), though it occurs in vast
numbers in the Lower Estuarine Clay.

*Abra prismatica (Mont.). Few.
*Gari fervensis Gm. Plentiful.
*Gari tellinella (Lam.). ‘Two large and several small.
*Cultellus pellucidus (Pennant). Several broken valves and fragments.
*Fnsis ensis (L.). Several fragments.
*Mactra corallina cinerea Mont. Few.
* Spisula elliptica (Brown). Few.
*Spisula solida (L.). Fairly plentiful.
*Spisula subtruncata (da Costa). Plentiful.
*Aloidis gibba (Olivi). Few.
*Hiatella arctica (L.). Four.
*Hiatella gallicana (Lam.). Many, much more plentiful than
H. arctica.
Pholas dactylus L. ‘Two fragments.
*Thracia villostuscula (MacGillivray). ‘Three valves.

The absence of both Mya and Lutraria is noticeable. It is of
interest to analyse the geographical distribution of the shells
enumerated above (excluding Buccinum and Littorina littorea as of
doubtful origin). At the present time and as far as is at present
known, of the 113 species recorded, fourteen species reach their
northern limit of range in the British Isles, and two of these do not
now live in north-eastern Ireland (Chrysallida decussata and
Cerithiopsis barleet). One species (Cyprina tslandica) almost reaches
its southern limit of range in the British Isles. It occurs in north-
western France but is very rare. Nuinety-eight species range both
north and south of the British Isles.

As the shells are obviously not in situ it is difficult to assign them
to their proper place in geological history, but a careful study brings
out some interesting points, and enables them to be dated with

FISHER : EXTINCT MARINE MOLLUSCA. 123

a reasonable show of accuracy. It has been suggested that the shells
were merely blown wind-borne from the present beach, and are
therefore contemporary, and of no special interest, but several
facts are against this theory. Firstly, the abundance of Scrobicularia
plana, a species now extinct in north-eastern Ireland, and the presence
also of Paphia decussata, which is extremely rare (see Fisher, (11)).
Secondly, when the dunes were visited in October, 1932, by
Professor J. K. Charlesworth, Dr. R. Ll. Praeger, Mr. R. J. Welch,
and myself, a gale was blowing and it was impossible to face the
sand-laden blast, yet, as Dr. Praeger pointed out to us, the sand was
being blown away from beneath the shells, so that they were
gradually sinking; the shells themselves were not being blown
about at all. In view of these facts the theory does not seem tenable.

Considered as a whole, the fauna resembles that of the Estuarine
Clay, but when examined in detail it differs in several important
particulars. ‘The Estuarine Clay fauna indicates a fairly definite
depth of water in which the deposit was laid down, but the
Portstewart shells comprise both littoral species and those that live
in deeper water, showing that the mollusks could not have lived
and died on the spot where they are now found, but have been
brought together by some other agency.

It is true that the Portstewart shells include both Scrobicularia
plana and Paphia decussata, characteristic fossils of the Lower
Estuarine Clay, which is known to occur in the neighbourhood, but
they also comprise more recent ‘‘ immigrants ”’, the most striking
examples being Rissoa parva and Cyprina islandica. Of Rissoa parva,
so common everywhere at present, Praeger (4), p. 260, says:
‘ Compared with its present abundance on our shore, this species
is conspicuously rare in the Estuarine Clays.” There its place is
taken by the allied R. albella, now practically extinct in Ireland, save
in the south and west. R. albella is absent from the Portstewart
shells where R. parva is abundant. Cyprina tslandica is also ‘‘ con-
spicuously absent from the estuarine series ’’ (Praeger (4), p. 251),
yet it is plentiful and of all sizes in the Portstewart shells, as on our
coasts at the present time.

Mr. A. W. Stelfox has suggested, and my own researches fully
bear him out, that the shells belong to a period later than that of the
Neolithic (‘25 foot’’) Raised’ Beach. His theory is that the
elevation of the land which brought the Raised Beach gravels to
their present position also raised the Estuarine Clay sufficiently to
allow of its being eroded by wave-action. The shells washed out
of the Estuarine Clay together with those of other species then
living in the vicinity were re-deposited as a beach-deposit. This
deposit was then perhaps overlaid by blown sand, from which the

124 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

shells are now weathering out. Mr. Stelfox’s theory, I think, fully
explains the association of Scrobicularia and Paphia decussata with
Cyprina and Rissoa parva, the two former species being re-deposited
and the two latter representative of the fauna living at the time this
beach-deposit was accumulating. Further evidence that the shells
form part of an old beach-deposit is afforded by the curious mixture,
which has already been noted, of littoral species with those from
deeper water, and also the fact that the Lamellibranchs are all repre-
sented by single valves only. The Gastropods also are all more or
less worn.

The following twenty-eight species occurring among the
Portstewart shells are not mentioned by Praeger, (4) in his list of
the Estuarine Clay fauna of north-eastern Ireland, in which all earlier
records are included.

Calhostoma zizyphinum conuloide (Lam.), Calliostoma papillosum
(da C.), Tornus subcarinatus (Mont.), Cerithiopsis tubercularts
(Mont.), Cerithiopsis barleet Jeft., Triphora perversa (L.), Clathrus

clathratulus (Kanmacher), Graphis albida (Kanmacher), Balcis

lubrica (Monterosato), Balcis devians (Monterosato), Chrysallida
decussata (Mont.), Chrysallida spiralis (Mont.), Menestho diaphana
(Jeff.), Turbonilla fulvocincta (Thompson), Nassarius tncrassatus
(Strém), Philbertia linearis (Mont.), Arca tetragona britannica
Reeve, Chlamys tigerina (Miller), Cardium ovale Sow., Gafrarium
minimum (Mont.), Paphia saxatilis (Fleuriau), Donax vittatus (da
Costa), Tellina donacina L., Tellina pygmzxa Lovén, Tellina crassa
Pennant, Abra prismatica (Mont.), Gari tellinella (Lam.), Mactra
corallina cinerea Mont. Most of these species undoubtedly belong
to the later ‘‘ immigrant ”’ fauna rather than to that of the Estuarine
Clay.

Praeger (12), p. 30, has described a deposit at the Alexandra Dock,
Belfast, which appears similar to that from which the Portstewart
shells were derived. This deposit consisted of “‘ Two feet of coarse
yellow sand, with abundance of shells. . . . The shells are often much
worn, and generally occur as single valves, and the deposit has all
the appearance of an old sandy beach.”’ It was overlaid by 6-7 feet
of black littoral clays, and rested directly upon the Estuarine
Clay, the line of demarcation being remarkably sharp and
well defined. The fauna of this Belfast bed is not listed
separately, but on p. 30 and in the annotated list of species
(pp. 38-44) thirty-six species are mentioned as occurring in
the “‘yellow sand’’. ‘Twelve of these species do not occur
at Portstewart, but of the 113 species known from the latter
deposit eighty-nine are not recorded from the Belfast bed. In this
Belfast bed many species make their first appearance as

FISHER : EXTINCT MARINE MOLLUSCA. 125

members of our present fauna. In this connection it is interesting
to note the apparent briefness of the period during which Chrysallida
decussata, a southern shell, lived in north-eastern Ireland. It is
unknown in the Estuarine Clays and Raised Beaches, occurs in
some numbers among the Portstewart shells, the specimens being
unusually fine, and is now apparently extinct.1

The Portstewart assemblage, therefore, represents a beach-deposit,
in age younger than the Estuarine Clay, and containing some shells
derived from the Lower (Scrobicularia) zone of the Clay.2- The fauna
closely approximates to that of the present time, but a slightly
warmer climate is suggested by the presence of Chrysallida decussata,
and also by the absence of many common species whose present
range is mainly or wholly northern. There is evidence of a
degeneration of the climate since the deposition of the Estuarine
Clays ; this degeneration is shown by the appearance in abundance
of Cyprina tslandica, a species whose present headquarters are the
Icelandic coasts.

I wish to express my gratitude to Mr. R. MacDonald and
Mr. R. J. Welch for help with the field work ; to Mr. R. Winckworth
for checking the identifications of all the smaller shells; and to
Mr. A. W. Stelfox without whose help, so generously given, this
paper would not have been written.

BIBLIOGRAPHY.

(1) Coffey, G., and R. Ll. Praeger. ‘‘ The Antrim Raised Beach : A Con-
tribution to the Neolithic History of the North of Ireland,” Proc.
Roy. Irish Acad., 25, C, pp. 143-200, 6 pls., 1904.

(2) Symes, R. G., F. W. Egan and A. M’Henry. ‘“ Explanatory Memoir
to accompany Sheets 7 and 8 of the Maps of the Geological Survey
of Ireland,” 1886.

(3) Wright, W. B. The Quaternary Ice Age, 1914.

(4) Praeger, R. Ll. ‘‘ Report on the Estuarine Clays of the North-East
of Ireland,” Proc. Roy. Irish Acad., (3), 2, pp. 212-289, 1892.

(5) Winckworth, R. “ The British Marine Mollusca,” Zourn. Conch., 19,
PP. 211-252, 1932.

(6) Chaster, G. W. ‘“‘ A Day’s Dredging off Ballycastle,” Irish Nat.,
6, pp. 120-5, 1897.

(7) —— “Notes on the Marine Mollusca of Rathlin Island,” ibid.,
pp. 184-7.

(8) Knight, G. A. F. ‘ Notes on the Marine Mollusca of Portstewart,
North Ireland,” Trans. N.H. Soc. Glasgow, N.S., 6, pp. 1-17,
IQOI.

* The 'Turbot Bank. records (specimens marked ‘“‘ Co. Antrim” in
Belfast Museum are almost certainly from the Turbot Bank) given by
Nichols (14), p. 552, are not contemporary—probably early post-glacial.

* The Upper (Thracia) zone of the Estuarine Clay does not appear to be
present in the Bann deposits (see Praeger (4), pp. 215 and 223-4). None of
its characteristic fossils is represented in the Portstewart shells.

126 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 4, APRIL, 1935.

(9) Galwey, Miss H. “‘ On the marine shells of Magilligan Strand, County
Tyrone ”’ [recte Derry], Journ. Conch., 5, pp. 267-270, 1888.

(10) Jeffreys, J. G. ‘“‘ On the Moll. procured during the Lightning and
Porcupine Expeditions, 1868-1870,” parts 2-9. [Contains few
Lough Foyle records.] P.Z.S., 1879, pp. 553-588 ; 1881, pp. 693-
724, 022-9052; 1882, pp. 656-687; 1883, pp. S8-115; 1884,
pp. I11-149 ; and 1885, pp. 27-63.

(11) Fisher, Miss N. “ Living Tapes decussatus (L.) in Ulster,” Irish Nat.
Journ., 19, p. 162, 1929.

(12) Praeger, R. Ll. “‘ The Estuarine Clays at the New Alexandra Dock,
Belfast, with List of Fossils,” Rep. and Proc. Belfast Nat. Field
Club (2), 2 (1886-7) ; Appendix, 1888.

(13) —— “ The Marine Shells of the North of Ireland,” ibid., 3 (1887-8),
Appendix, 1889.

(14) Nichols, A. R. “‘ A List of the Marine Mollusca of Ireland,’’ Proc.
Roy. Irish Acad., (3), 5, pp. 477-662, 1900.

Self-fertilization.—In March, 1931, Mr. Charles Oldham kindly sent me
some specimens of Planorbis corneus var. albina (Moq.). 'These were kept
by me in rectangular glass tanks and from the young produced in the
summer of 1931 one was isolated from the time of hatching in a tank
8 inches by 5 inches, in water some 6 inches deep. ‘The tank has about
3 inches of sand, in which various water plants grow, the whole forming a |
fairly well balanced aquarium. In 1932 this snail produced a small egg-
capsule which contained two eggs; it is not known whether these were fertile
or not but they failed to hatch. In 1933 the same snail produced three egg-.
capsules from which five young snails were hatched ; they were apparently
perfectly formed and when examined under a lens seemed quite normal,
but all died within a few weeks. This summer, 1934, three batches of eggs
have been laid by the snail. From the first capsule deposited two snails
emerged, and these are, at the time of writing (October), 1°7 cm. and 1°4 cm.
in diameter. From the second capsule five snails hatched, two of which
died within a week, the other three are now 5 mm. in diameter, in both cases
two eggs remain unhatched in the capsules. ‘The third batch of eggs so
far has not hatched and appears to be sterile. Of the five surviving snails,
one has been isolated from birth with a view to obtaining evidence as to
whether self-fertilization will take place in a second generation. ‘The other
four are being kept together to see if these creatures are sexually perfect.—
CHARLES ALLEN. (Read before the Society, 11th November, 1934.)

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Vor. 20]

22ND AUGUST, 1935. _[No. 5
JOURNAL

Le OR oe

CONCHOLOGY

FOUNDED 1874.

BEING THE ORGAN OF THE CONCHOLOGICAL
SOCIETY OF GREAT BRITAIN AND IRELAND.

Hon. Editor : _ Hon. Secretary: Hon. Treasurer :
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St. Leonards-on-Sea. The University, Shrublands Road,
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CONTENTS.
PAGE

Yorkshire Cephalopods—W. J. CLARKE and J. A. STEVENSON .

Mollusca of the Sheep Ponds on the Eastbourne Downs—
G. SHRUBSOLE -

Vertigo genesit Gredler in Central find A. Sp
Testacella in Sussex—J. R. LE B. TOMLIN
Notes on the Snails of the Mullet, W. Mayo—C. OLDHAM

129

130
142
145
146
: 149
The Dates of Publication of Forbes and Hanley's S Fist. Bri.
Moll.—N. FisHer and J. R. te B. ToMiin i

Flood-débris in Poland—A. J ANKOWSKI
Editorial Notes

Proceedings: 13th Oct. ceont: fron iy, 196), noth Nae. 8th
Dec., 19343; 12th ae ” oh. Feb., ee March, 6th Apr. .
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JOURNAL OF CONCHOLOGY.

VOL. 20. 22nd AUGUST, 1935. No,, s.

YORKSHIRE CEPHALOPODS.
By W. J. Criarke, F.Z.S., and J. A. STEVENSON.

WHILE a recent paper in this Journal} upon the Cephalopods of
the Yorkshire Coast by the junior author was in the press, three
additional records were made which should be mentioned to
complete the series already published. ‘They are as follows :—

Sthenoteuthis caroli (Furtado).

(a) 31st January, 1935. A specimen stranded on the sands at
South Bay, Scarborough, and discovered by Mr. A. Audibert and
Dr. N. Walsh. Length: “... 5 feet from the tip of the longest
tentacle to the tip of the tail . . .’; width of fins, 20 inches.
Deposited in the Hull Museum. (Clarke.)

(b) 13th February, 1935. A specimen stranded on the shore
about 14 miles north of Scarborough. Length: 5 ft. 2 in. over all.
This specimen was brought by Mr..C. B. Horsman and Mr. Rhodes
Wilson to the Scarborough Museum, where it is being preserved.

Ommastrephes sagittatus (Lamarck).

23rd March, 1935. A specimen, 374 inches in total length, was
stranded on North Sands, Scarborough, and examined by the
senior author. Specimen not preserved.

1 Fourn. of Conchol., vol. 20, p. 102.

130

MOLLUSCA OF THE SHEEP PONDS ON THE EASTBOURNE
DOWNS.

By GEORGE SHRUBSOLE.
(Read before the Society, 10th Nov., 1934.)

%

Tue Downs included in this district are those within a 7 miles
radius from Eastbourne. They begin at Beachy Head and the
River Cuckmere forms the western boundary, though a small
part of the Downs across the river comes within the district.

It is probably true to say that there are no natural ponds on the
Downs. Without some artificial assistance, such as puddled clay,
the ground will not hold water. Scattered over the Downs is a
number of ponds used for watering sheep—sheep ponds, popularly
known as dew ponds.

Originally these ponds were constructed in various ways. After
excavating a bed was made with chalk, clay, sand, flints, and straw,
according to the maker’s method. The puddled clay rendered it
watertight. The ponds were circular in shape with sloping sides.
Some of these ponds must have been in existence as long as sheep
have been grazed on the Downs. Others no doubt were added at
times when the price of wool caused more land to be grazed, going
out of use or derelict when the industry fell off. Puddled ponds,
however, are liable to damage from the feet of cattle and sheep
using them, and in time the bed would leak. The life of a puddled
pond may have been about forty years. There have probably been,
therefore, several remakings of the older ponds on the same sites.
In more recent years the puddled ponds have been replaced by
ponds wholly of cement, with wide cemented margins. There is
only one puddled pond, in very bad condition, remaining on these
Downs to-day. The present cemented ponds show signs of age,
and advantage was taken of the lowness of the water in 1933 and
1934 to repair thirteen ponds ; two others have been done recently,
probably in 1933. At least four more need attention. A cemented
pond should have a longer lease of life than a puddled one, but these
ponds give the impression that insufficient cement was used on the
sides. With a cracked or broken margin (liable to increase through
frost) a pond does not collect a full supply of water in the winter,
and so starts the summer short of water and becomes foul. ‘These
ponds depend almost entirely upon rainfall for their water supply.
Rainfall is greater on the high Downs than in the lower surrounding
country, and their wide cement margins increase the catchment
area very considerably. A pond 70 feet across has an area of about

SHRUBSOLE : MOLLUSCA OF THE EASTBOURNE DOWNS. 131

20 yards square, and at every rainfall the rain over this area is
collected in the basin of the pond.

Usually these ponds get no land drainage, partly from their
situation, sometimes on the highest bit of ground locally, and partly
because the excavated material forms a mound round the pond.
In the case of one or two ponds, however, the bank has been cut
and a cemented drain brings in drainage from suitable higher
collecting ground, such as a hard track. Recently three ponds lying
alongside the road have had road drainage turned into them.
Receiving no land drainage these cemented ponds are normally
free from mud. A little slime on the sides under water, often greenish
from alge, is all that is seen. In the centre of the pond, however,
a black deposit gathers, probably the work of many years, the result
of decayed vegetation, grass, and, if there are trees near, leaves,
and possibly dead water-weed, but “‘ deposit” ponds usually
contain little weed, perhaps Zannichellia, or a Potamogeton of a similar
type (linear leaves). There is no body to the deposit; a dredger
full of it dipped in the water clears at once, practically no residue
remains, except a few grass stems, etc., not yet fully decayed. The
quantity of the deposit varies, apart from the age of the pond.
Around ponds where there is now no grazing the grass grows long
with many plants. This growth dies down and the dead material
is blown into the pond. The accumulation of deposit is greatest
where the pond is situated in a hollow. If cattle have access to a pond
the deposit is largely increased with the insoluble portion of the
manure.

There is usually an abundance of insect life, gnat larve, water
beetles, etc., in these ponds, and in several cases newts occur.

Besides the sheep ponds proper there is another kind of pond
found on the Downs, the old farm ponds, occurring close to farm
buildings. ‘They are puddled ponds, generally in poor condition,
verging on derelict, whilst one has been converted into a
cement pond.

Previous to this survey in 1934 very little conchological work
had been done on these ponds. Six of the more easily accessible
had been known for some years to contain Limnza pereger ; dredging
produced little more. Early in 1934 a pond was brought to notice,
hitherto unknown, and the discovery in it of several species, scarcely
expected in such a situation, led to a re-examination of the ponds
previously visited, with the result that a survey of all the ponds on
the Downs was decided on.

The drought in 1933, continued in 1934, though it spoilt some
ponds through cleaning operations, presented a most favourable
opportunity for the examination of their deposits. When the ponds

132 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 5, AUGUST, 1935.

are well filled it is practically impossible even with a I
dredge to reach the deposit in many ponds.

An explanation of the term “ cleaned ”’ as applied later to some
of the ponds is necessary. Owing to the drought in 1933 advantage
was taken of the lowness of the water to clean a number of ponds.
This was not primarily to get rid of any deposit present, but to allow
of repairs to the cement work. The pond was emptied of water
and the deposit thrown out, and the necessary repairs made. The
pond was left to fill with rain, unless it happened to serve a farm.

This process if thoroughly carried out would destroy any mollusca
present, but it seems probable that in some cases it could be
ascertained that the cement in the centre of the pond was sound
(the usual defects are cracks in the margin running down into the
pond), without entirely emptying it or removing all the deposit.

Some such explanation appears to be necessary to account for
the fact that though none of these ‘‘ cleaned” ponds showed any
mollusca in May, 1934, some young L. pereger appeared later in the
year in several of them. It is also probable that some ponds after
cleaning stood longer than others waiting for rain, and may even
have gone dry.

Unfortunately some of these ponds had not been visited before
cleaning, and it cannot be ascertained now if they used to hold
mollusca. Such of them therefore as show no signs of snails now
are omitted when drawing any conclusions from the list.

The man who carried out the work on most of the ponds has left
the district, and no one has been met with who knows. exactly
what tapped at each pond.

The heights of the ponds are taken from the Ordnance Map,
when given, in other cases from the contours. A pond’s elevation
is not a guide to its isolation. To reach a pond in a valley it may be
necessary to cross ground over:400 feet high.

Mr. Charles Oldham very kindly named the Pisidia for this
survey, and Mr. T. J. Richards, of Eastbourne, the pond weeds.

NOTES ON THE PONDS.

(1) Pashley.—Held L. pereger up to cleaning in 1933. Deposit ;
probably vegetable and small, but difficult to reach. No weeds.
In some six visits during the year only two young L. pereger were

seen, 5th July, 1934.

(2) Beachy Head Road. I.—Held L. pereger up to cleaning in
1933. Deposit; now receives road drainage. Difficult to dredge.

SHRUBSOLE : MOLLUSCA OF THE EASTBOURNE DOWNS. 133

No weeds. L. pereger (young) found on 8th August and sub-

sequently. 1934.
L. pereger plentiful. 1935.

(3) Beachy Head Road. II.—Exactly the same as Pond (2).

(4) Black Robin Bottom.—Derelict; only mud, manure, and
rubbish in centre, with a little rain water. May, 1934.

Cement had been repaired and possibly some mud removed.
Full of water, but still muddy. March, 1935.

(5) East Hale Bottom.—Thick deposit, largely cow manure.
No weeds ; newts numerous. L. pereger abundant. May, 1934.

Cement had been repaired and pond cleaned out. Scarcely any
deposit. No signs of L. pereger. March, 1935.

(6) Wigden’s Bottom.—Not known previous to cleaning in 1933.
But little deposit and no signs of molluscs. May, 1934, and
March, 1935.

(7) South of Polo Ground.—Derelict ; mud, manure, and rubbish
in centre with a little rain-water. Would be dry later. No signs of
mollusca. May, 1934.

Half filled with water (winter rain); very foul. March, 1935.

(8) Bullock Down Farm.—Not known previous to cleaning in 1933.
No snails or weed. April, 1934. A lot of chalky mud has been
brought in by drain, March, 1935.

(9) Bullock Down. I. Not visited previous to cleaning in 1933.
No weed or snails. April, 1934.

Slight deposit, little weed just showing. Full of L. pereger
(young). March, 1935.

(10) Bullock Down. I1.—Not visited previous to cleaning in 1933.
No snails or weed. April, 1934.
Very little deposit, no snails. March, 1935.

(11) Belle Tout.—Not visited previous to cleaning in 1933. No
deposit or snails, several visits. 1934.
Slight deposit, conferve, and some weed just showing. No snails.

March, 1935.

(12) Crow Link.—Cement in very bad condition, large patches
missing, pond cannot fill within 10 feet of margin, consequently
starts the summer short of water. Water very low and foul by July.
Very heavy vegetable deposit. ‘Thick bed of Chara fragilis, some
Ranunculus aquatilis, duckweed, and Conferve. Dredged several
times, no sign of any mollusca. 1934.

Pond 12 feet below margin, less than 2 feet of water above deposit.
Full of Conferve. No mollusca. 27th March, 1935.

134 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 5, AUGUST, 1935.

(13) Pea Down.—Not visited before, but looks as if it had been
cleaned. No deposit within reach, some slime and cow manure,
water coloured by it apparently. No weeds and no signs of snails.
July, 1934. | ,

Pond heavily charged with manure and margin covered with it.
‘This must wash into pond. No weed or snails. 1st April, 1935.

It seems likely that ponds used by large herds of cattle must be
cleaned or raked out at no long intervals. This pond may have been
cleaned in 1933, and may require it again at the end of this summer.
Some ponds are wired off from cattle.

Regular cleaning might eliminate snails if present or prevent them
establishing themselves. |

(14) Down’s Golf.—Fairly thick deposit with some mud, a
cemented drain brings in drainage water. Water rather low. A few
small patches of Zannichellia palustris.

S. lacustre plentiful. roth July, 1934, and 26th March, 1935.

Thick deposit. No weed, well filled with water.

(15) Hill Cottages Margin of pond showed some repairs had
taken place, probably in 1933. Well filled with water, thick vegetable
deposit in centre. A little weed. Potamogeton pectinatus. ‘wo living
L. pereger and three dead shells ; one dead newt. A careful search
revealed nothing more. ‘The pond.had probably not been cleaned
out, but in repairing the margin when the water was low some lime
may have killed off the stock of snails. July, 1934. :

Pond well filled. One large L. pereger and a number of young.
26th March, 1935.

(16) Willingdon Golf.—Thick deposit. Only a few inches of foul
water. Would be dry last year and probably again this. No weed or
signs of snails. roth July, 1934. Fair supply of water, but cement
margin faulty. 13th April, 1935.

(17) Oxendean.—Not visited previous to cleaning in 1933.
Vegetable deposit, but a drain brings in some mud. No signs of
any mollusca in April. The pond got very low by October; the
farm pond having failed, water was taken for farm purposes. It
was possible to dredge all the deposit and some S. lacustre were
found. 1934.

Pond rather full. No weeds, some Conferve. It was only possible
to reach the edge of the deposit, but one S. lacustre was found.
March, 1935.

(18) Bourne Hill.—Small deposit, but cemented drain brings
in land drainage. No weeds. S. lacustre in fair numbers. A few
dead adults, the living half-grown. 4th June, 1934.

SHRUBSOLE : MOLLUSCA OF THE EASTBOURNE DOWNS. 135

Upper cement work poor condition. Only half-full. iS. lacustre.
12th April, 1935. |

(19) Ratton Park.—Very heavy deposit, chiefly leaves and manure.
Much Conferve and Ranunculus aquatilis in patches. L. stagnalis
most plentiful, and newts. May, 1934, and March, 1935. Not
much water. Heavy deposit, many leaves. Much Conferve and
weed just showing.

(19a) Ratton Park.—Derelict. Only some rain-water in pond,
which must have been dry 1933-4. March, 1935.

(20) Ratton (Willingdon).—Cement of margin broken in places.
Heavy deposit with manure and leaves. A little Ranunculus
aquatilis and Conferve. No trace of snails. May and June, 1934.

Water low. No snails. April, 1935.

(21) Hanging Hill—Top 15 feet of margin has been recoated
with cement, probably 1933. Heavy deposit leaves and manure.
A little weed, Zannichellia palustris and Ranunculus aquatilis. No
sign of snails or bivalves. 4th June, 1934. Pond rather full. Difficulty
in reaching deposit. A lot of dredging produced six S. lacustre
(two dead). No signs of L. pereger, which was seen in this pond some
years ago; the cementing may have killed them. March, 1935.

(22) Water Works Drive-—Derelict, cement faulty. In wet
weather it holds about a foot of water. Dry in 1933 and 1934. At
times there are newts. May, 1934.

Only a little water in centre of pond. March, 1935.

_ (23) Middle Brow.—Cement margin in bad condition, but the
basin appears quite sound. Deposit, vegetable, but difficult to reach.
Algze and slime on the sides. L. pereger numerous. 17th May, 1934.

Pond fairly full, water greenish. No L. pereger could be seen,
but dredging produced some young snails. A wild duck was on the
pond, and this may account for no snails being visible.
2nd April, 1935.

(24) Long Man.—A rectangular pond with rounded ends and
steep sides. Known to have held L. pereger for some years. Con-
siderable vegetable deposit. Some slime on sides. A little
Potamogeton pusillus. L. pereger but no bivalves. May, 1934.

(25) High and Over.—A rectangular pond with rounded ends and
exceptionally steep sides. ‘Has held L. pereger for some years.
Noticing that mud (excavated earth) had accumulated at the lower
end, the pond was carefully dredged. JL. pereger numerous and
Pisidium casertanum and P. nitidum occurred freely in the mud.
April, 1042,

136 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 5, AUGUST, 1935.

Later the road past the pond was widened and much earth got
in along the whole length. Road drainage was also turned into the
ond.
: In May, 1934, a thick bed of Potamogeton lucens covered the mud,
with a few patches of Ranunculus aquatilis and later Chara fragilis.
Dredging produced in addition to L. pereger, P. casertanum and
P. nitidum, and for the first time S. lacustre. ‘Two further visits
in May and July produced the same result. 1934.

(31) Snap Hill—Cement in very bad condition. Dry in 1933
and 1934.

Pond had been dry but recent rain had just covered the deposit ;
vegetable with a little mud. Dead weed, too rotten to identify,
covered the deposit. ‘The latter was too hard to dredge but six
dead (adult) S. lacustre were lying on it. 28th July, 1934.

Water only 10-12 feet across. Ranunculus aquattlis fairly thick.
Thorough dredging produced one dead S. lacustre and one living
(young). Should pond dry again, as is most probable with so little
water, S. lacustre can scarcely survive. 2nd April, 1935.

(32) Charlston Bottom.—Derelict and dry. July, 1934.
(26) East Dean Road.—The only puddled sheep pond which

has not been cemented. In poor condition, gets very low but not
quite dry. Ranunculus aquatilis plentiful, with Zannichellia palustris
and Conferve. Some Alisma plantago. Glyceria fluitans all round
the sides. L. pereger plentiful, with P. crista, S. lacustre, and
P. mitum. May, 1934.

(27) Peakdean.—A derelict farm pond; mud and manure
with some rain water in the hollows. No sign of mollusca. 28th
May, 1934.

(28) Fristonn—An old farm pond. ‘The basin of the pond is
mud, but nearly all round this is flat ground several yards in width.
This 1s covered with 5 or 6 inches of water when the pond is full.
This shallow is a mass of matted Glyceria fluitans and in places
j. communis. ‘The pond proper can only be dredged when
the water is low in summer. The pond contains Ranunculus
aquatilis and Conferve abundantly and some duckweed, L. minor.

In 1933 the pond was dry but the mud wet; in 1934 some rain
in August kept it going.

The pond has been known to hold L. pereger for twenty years.
About 1928 H. jenkinst was taken for the first time, and on
5th April, 1934, L. stagnalis and P. albus. Later in the year, when
the water fell, the pond was dredged. 8S. lacustre and P. milium
were taken in the mud. JL. stagnalis increased in numbers all

SHRUBSOLE : MOLLUSCA OF THE EASTBOURNE DOWNS. 137

through the year, and by September no L. pereger could be seen
and it was difficult to find one. 1934.

Pond very full. LZ. stagnalis very numerous, only one L. pereger
found by dredging. May, 1935.

(29) Sheep High.—An old farm pond in bad condition, dries
in most summers. Quite dry and hard in 1933. In May there was
about a foot of water. Pond very heavily weeded with Ranunculus
aquatilis, Potamogeton densus, Zannichellia palustris, and Glyceria
fluitans all round the edge. SS. lacustre found freely in the mud.
A few weeks later the pond was overgrown with weeds, the
Glyceria in particular encroaching over the pond. By July the pond
was dry, the mud in the centre hard and cracked, the weeds dead,
but the Glyceria covering nearly all the pond was alive though lying
flat. It is probable under this thick mass there is sufficient moisture
to keep the S. lacustre alive. 1934.

(30) Oxendean.—An old farm pond in very bad condition. It
only holds water in wet weather. Dry in 1933 and in 1934 except
for a week or two in April. Quite hard and dusty by June, and
remained dry for the rest of the year, except when rain fell. L.
truncatula was most abundant on the banks of the pond in April
and on the mud in May, when the water fell. There are no signs of
any other mollusca. 1934.

SUMMARY.

Ten species of mollusca occur in these ponds: L. pereger,
L. stagnalis, L. truncatula, H. jenkinsi, P. albus, P. crista, S. lacustre,
P. casertanum, P. milium, and. P. nitidum.

Three heavily muddied ponds are noticeable for the number of
species they contain: Friston, with six; East Dean Road, with
four; and High and Over, with four species. Only the last is a
cemented pond, but now contains so much mud that it is equivalent
to a puddled one.

All the species can be found amongst them except L. truncatula.
In no other ponds does more than one species occur. L. truncatula
occurs once and L. stagnalis once also.

The only species which show anything like a general dispersal
are L. pereger and S. lacustre, and each has an essential condition.

For L. pereger it appears absolutely necessary that the pond must
hold a good supply of water, with no likelihood of any shortage.
Probably in a cement pond if the water gets low it becomes warm
and loses its aeration, and the cement sides become too hot for the
snails to crawl out on.

138 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 5, AUGUST, 1935.

_ Thirty-three ponds have been visited. From them must be
deducted six derelict, two foul condition, and three drying ponds.

There are also six ponds which have been “ cleaned’’. As they ©
are not known to have held L. pereger before cleaning and do not
now, they must be omitted also. This leaves sixteen possible
habitats. L. pereger does occupy eleven of them, and L. stagnalis
another.

Of the four unoccupied ponds, three certainly are verging on
low water. In two of them land drainage has been turned in,
evidently to help with this deficiency. The fourth pond, used by
cattle, appears to be subject to raking at intervals to clear it from
manure.

It may thus be said L. pereger has found its way into practically
every pond suitable to its requirements. It is more than likely that
the cleaned ponds did contain this snail. ‘Take those in the Beachy
Head group—nine good ponds, five occupied by L. pereger. It is
strange if the others were blank, as the ponds are comparatively
close together, and in the case of three of these the cleaning can be
seen to have been very thorough; one was relined throughout.

For S. lacustre a plentiful supply of water is not a necessity ;
but there must be some mud in addition to the vegetable deposit.

Leaving out the derelict farm ponds, there are eleven ponds on
these Downs with more or less mud in their deposit. Two are in
a very foul condition, but the remaining nine all hold S. lacustre,
notwithstanding the fact that two were dry and hard in 1933 and
1934 and several had only a few inches of water over the mud.

SPECIES RECENTLY INTRODUCED INTO THE PONDS.

From the notes it will be seen that additional species have appeared
in two ponds, Friston and High and Over, whilst they have been
under observation. Both ponds lie alongside the road, and in recent
years some miles of road have been remade in their neighbourhood,
for which they supplied water for the use of the steam-roller ;
the water being pumped from the ponds into a water cart. ‘This
cart possibly came up on to the Downs full of water as a supply
for the journey ; even if it did not, it would be certain to contain
some water and mud from previous fillings. Standing in the pond
to refill, the overflow would introduce some of this ditch-water
and mud into the pond, with possibly some snails or spawn. The
dates at which road-making took place appear to confirm this
surmise. They were kindly furnished by the Surveyor of the
East Sussex County Council.

SHRUBSOLE : MOLLUSCA OF THE EASTBOURNE DOWNS. 139
Friston Pond.

The water-cart was at the pond in 1926, 1929, and 1932. This
pond is known to have held L. pereger since 1910. In 1928 or 1929
H. jenkinst was taken for the first time. On 15th April, 1930, a visit
to the pond produced L. pereger and H. jenkinsi only. On 5th April,
1934, in addition to the above species, L. stagnalis and P. albus
were taken. JL. stagnalis, especially the adult snails, were easily
detected without dredging. In number they were about equal to
L. pereger. ‘This species could not have been overlooked for years.
It must have been introduced with P. albus in 1929 or 1932. The
bivalves in the pond are not taken into consideration, as the pond
was not thoroughly dredged before April, 1934.

High and Over Pond.

The water-cart was at this pond in 1930, and again when the road
was widened, probably 1932. L. pereger has been seen and taken
here since 1927. It was not dredged. It was carefully dredged for
the first time on 19th April, 1932. P. nitidum was taken freely and
P. casertanum in lesser numbers. The pond was dredged again on
ist May, 1934. S. lacustre, both adult and young, was immediately
taken with the two species of Pisidia. This species cannot have been
established in the pond in April, 1932, and been overlooked. It
Is quite possible now to dredge 10-12 S. lacustre without finding
any Pisidia.

Pond Weeds.

There are only five heavily weeded ponds, all with much mud—
Friston, East Dean Road, Sheep High, High and Over, and Crow
Link. The first three, puddle ponds, carry a general crop with a good
deal. of Glyceria encroaching on them as the water falls in summer.
High and Over has a very thick bed of Potamogeton lucens and
Crow Link becomes very foul from its shortage of water and decay
of Chara fragilis.

The cement ponds carrying plenty of water (vegetable deposit)
usually are very lightly weeded; one or more of Zannichellia or
similar Potamogeton and Ranunculus aquatilis. In ponds containing
mud, the crop of weed is on similar lines but generally heavier.
In some ponds Conferva is very thick. With only two species of
mollusca showing anything like a general distribution among the
ponds it does not seem possible to connect the weeds with the
dispersal of the snails. Conferve on the feet of birds might act as
a carrier of spawn or young snails.

JOURNAL OF CONCHOLOGY, VOL. 20, NO. 5, AUGUST, 1935.

140

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142

VERTIGO GENESII GREDLER IN CENTRAL IRELAND.

By R.A. Pamitps, MLR.1A.
(Read before the Society, 11th May, 1935.)

TuE discovery in 1924 of Vertigo genesti, first in a fossil state in ©
King’s County and then as a living species in Queen’s County,
suggested the probability that it would be found living in other
parts of Ireland. After repeated searches in likely-looking ground
in many localities during subsequent years I was at last successful
in finding, on the 18th October, 1931, four living specimens in a
mixed gathering of Vertigo and other mollusca collected on that
day at Fiagh Bog near Borrisokane, Co. ‘Tipperary.

Bearing in mind, and guided by the nature of, the habitat at that
locality, I again, two years later, met with V. geneszz in similar spots
in bogs near Ballinasloe and near Tuam, Co. Galway. At each of
those localities the habitat lies on the margin of an extensive peat-
bog at spots which during summer and autumn are damp or spongy,
according to the amount of rainfall, and during winter and spring
are usually in a more or less swampy condition, places where the
flora of the adjoining pasture lands mingles with that of the bog
and marsh, producing a thick, luxuriant vegetation composed largely
of grass, sedge, and rush.

In August, 1934, I found the species living near Roscrea, Co.
Tipperary, the habitat there being small, dense patches of bog-rush,
sedge, and grass in a wet hollow, watered by springs, at the foot
of a hill-side pasture.

Details of these new localities and the vice-counties in which they
are situated are :—

TIPPERARY NORTH.

(1) Fiagh Bog, 3 miles north-east of Borrisokane, October, 1931,
and on three subsequent dates. Luxuriant beds of bog-rush
(Scheenus nigricans) among which grow various grasses including
Molinia, Festuca ovina, Agrostis alba, Holcus lanatus, Poa trivialis,
Anthoxanthum, with Carex spp. and Eriophorum, by the sides of
shallow drains which separate the bog from the road which runs
across it. Vertigo moulinsiana, in abundance, accompanies V. genesit
at this locality.

(2) Near Roscrea, August, 1934, also February, 1935. About
2 miles north-west of the town, by the Birr railway in a small wet
field between the railway embankment and hilly pasture-land.
V. genesti sparingly in small tufts or stools of Scheenus nigricans

1 Fourn. of Conch., vol. 17, 1925, pp. 236-240.

PHILLIPS : VERTIGO GENESII GREDLER IN CENTRAL IRELAND. 143

with a mixture of Funcus obtusiflorus, Molinia, Festuca ovina, other
grasses, and various sedges. This habitat is much interfered with
and curtailed by the grazing and trampling of cattle. The place is
not far from Golden Grove and Gloster, King’s County, where the
shell was first discovered, as a fossil, in Ireland by Mr. A. W.
Stelfox. V. moulinsiana lives in a similar habitat less than a quarter
of a mile distant.

GALWAY SOUTH.

Pollboy Bog, 2 miles south of Ballinasloe, September, 1933, and
July, 1934. A wet peaty spot near the bank of the canal which passes
through the bog. Juncus conglomeratus, F. articulatus, Molinia,
and various pasture grasses and sedges growing with, or close to,
typical bog plants such as Scirpus cxspitosus, Eriophorum vaginatum,
Drosera, Erica tetralix, Osmunda, etc. V. genesit, adult and juvenile,
seen crawling and resting on soft over-mature leaves of grasses and
sedges on a damp day in July. The habitat is in the midst of a thicket
of gorse interspersed with willows, birches, and bog myrtle.

GALWAY NORTH.

Cloonascragh Bog, 2 miles south of Tuam, October, 1933, and
July, 1934. V. genesi fairly plentiful in marshy spots where the
edge of the bog meets the base of an extensive esker ridge. Pasture
grasses dominant, with Molinia, Funcus spp., Carex spp., Typha,
Spirea, Menyanthes, Hydrocotyle, and other moisture-loving plants.
Adults and juveniles were plentiful in July.

Thus, all the known localities for Vertigo genesit in Ireland occur
at intervals of approximately 20 miles along a line running north-
west for about 75 miles across the Central Limestone Plain from
Mountmellick and Roscrea to Tuam.

Each habitat is either directly connected with, or lies within a
mile or two of, one of the great lowland peat-bogs which form such
characteristic and remarkable features on the surface of Central
Ireland.

This distribution leads to the conclusion that V. genesii probably
lives in suitable spots throughout the midland counties of Ireland.
There is no apparent reason why it should be absent from other
parts of the country, but frequent searches for it in bogs and marshy
places in the south and west have, so far, been unsuccessful. As
the shell occurs in fossil deposits in England and in Scotland, it
seems quite likely that it still exists in a living state in those countries,
possibly in damp grassy places on moors or near the edges of
marshes. Gredler’s original habitat for the species was “‘ an alpine
pasture’ near Bozen in the Tyrol.

144 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 5, AUGUST, 1935.

Vertigo genesit appears to require a more specialized habitat than
most other Irish members of the genus. V. pygmza, V. antivertigo,
V. substriata, and even V. lilljeborgt and V. moulinsiana may all be
found adapting themselves, in their respective habitats, to various
situations, such as under or among stones, under logs, in layers of
decaying vegetable matter as well as on growing plants, but V. genesz, _
so far as I could discover, seems to confine itself to the living
vegetation in places that are permanently damp or semi-swampy, —
particularly to spots where the finer-leaved grasses and sedges,
even though growing among rushes and larger plants, are dominant
and dense, their roots and lower parts standing in wet soil, or some-
times in shallow water, their upper parts luxuriant and leafy.

As the little snails shelter and are hidden among the leaves and
stems during the summer and autumn months, the easiest way to
detect their presence and obtain specimens is to cut handfuls of
the herbage close to the ground, shake them over a sheet of paper
or other material, and pick out the Vertigo and associated molluscs
from among the débris. This can be done in the field. By those
means the mollusca associated with V. genesit in each of the four
habitats here dealt with were found to be :—

Vertigo pygmza, V. antivertigo, V. substriata, Agriolimax levis,
Hyalinia crystallina, Hy. radiatula, Zonitoides nitidus, Euconulus
fulvus, Punctum pygmzum, Cochlicopa lubrica, Succinea pfetffert,
Carychium minimum, and Limnea truncatula. In addition Hygromia
hispida, Vallonia pulchella, and Pupa anglica were present at Fiagh
and Roscrea. Columella edentula occurred at Fiagh, Pollboy, and
Cloonascragh, and, as already mentioned, Vertigo moulinsiana
was an abundant associate at Fiagh Bog.

Occasional specimens, mostly dead shelis, of Lymnza pereger,
Planorbis contortus, Pisidium cinereum, and P. personatum also
appeared, but could not be regarded as associates of the land
species.

Though habitually living under moist conditions and probably
subject to occasional submergence, V. genes can evidently exist
for long periods in a perfectly dry atmosphere. Three specimens,
collected at Fiagh Bog on 25th November, 1934, which were
forgotten and left by themselves in a small glass tube (2 in. X 4 in.)
appeared to have quite dried up when rediscovered early in February,
1935, but crawled about quite actively when a narrow strip of
moistened paper was placed with them in the tube.

The plants occurring most frequently among the species which
compose the floral associations of the V. genesit habitats are :—

Funcus obtusifiorus, F. conglomeratus, fF. articulatus, Scheenus
nigricans, Eriophorum angustifolium, Triglochin palustre, Eleocharis

PHILLIPS : VERTIGO GENESII GREDLER IN CENTRAL IRELAND. 145

palustris, Carex teretiuscula, C. echinata, C. vulgaris, C. glauca,
C. panicea, C. flava, C. hirta, Anthoxanthum odoratum, Agrostis
canina, A. alba, Holcus lanatus, Molinia cerulea, Poa trivialis, P.
pratensis, Festuca elatior, F. ovina.

Ranunculus flammula, Cardamine pratensis, Viola palustris,
Lychnis flos-cuculi, Potentilla palustris, Epilobium palustre, Hydro-
cotyle vulgaris, Galium palustre, Scabiosa succisa, Menyanthes
trifoliata, Mentha .aquatica, Orchis maculata, O. ericetorum, O.
latifolia.

Larger plants which grow among the foregoing but are not
apparently frequented by V. genesit are: Spirza ulmaria, Angelica
sylvestris, Cnicus palustris, C. pratensis, Lythrum salicaria, Typha
latifolia, Phalaris arundinacea, Phragmites, Salix aurita, S. cinerea,
Myrica gale. Moss (Hypnum spp.) is sometimes plentiful among
the other plants but is shunned by V. genesit.

The rushes (Schenus and Juncus spp.) serve a useful purpose in
protecting habitats to which browsing animals have access as,
being hard and unpalatable, cattle usually pass the spots where
they are dominant, thus allowing the grasses and other leafy plants
which grow among them and are essential to the well-being of
V. genes to develop and mature.

No actual tests were made as to whether the soil of those Irish
habitats was of an alkaline or acid nature. The Pollboy habitat,
however, is on pure peat and undoubtedly acid. The Cloonascragh
and Fiagh habitats, being on the margins of bogs where the layers
of peat are thin, disintegrated, and mixed with the marly subsoil
and matter washed in from the adjoining esker and other limestone
surroundings, are probably more or less alkaline. ‘The Roscrea
habitat also appears to be alkaline, as the whole district is calcareous
and overlying peat is not present in the neighbourhood.

It therefore seems probable that V. genesit is indifferent as to the
presence or absence of lime in its immediate surroundings.

Testacella in Sussex.—Two species of Testacella have occurred
regularly in the St. Leonards district at any rate for the past ten years.
T. haltotidea is fairly common in the gardens at Beauport Park, and has
been sent or shown to me by Mr. Grinsted, the bailiff, on various occasions.
I’. scutulum occurs regularly but sparingly every spring in my own garden.
—J. R. LE B. Tomtiin.

Ge)

146

NOTES ON THE SNAILS OF THE MULLET,
WESTERN MAYO.

By C. OLDHAM.

(Read before the Soctety, oth March, 193 5.)

A. W. STELFOx’s contribution to the survey of Clare Island in
Co. Mayo, undertaken by the Royal Irish Academy some twenty-
five years ago, was an account of the Land and Freshwater Mollusca,
not only of Clare Island itself but of other islands and of districts
on the near-by mainland.t One of these districts is the Mullet
Peninsula, a bare, isolated region, almost an island. The peninsula
consists of several low rocky masses, once islands but now connected
with one another by extensive areas of blown sand, bare dunes, and
flat areas more or less covered by sward. ‘There are four large
shallow lakes and some smaller pools with sandy beds. Stelfox’s
time for field work on the Mullet was limited to an evening and the
whole of the next day (30th and 31st March, 1910) when, despite
unfavourable weather—a dry, cold north wind—he observed
thirty-eight species.?

In June, 1933, and July, 1934, I spent a few days on the Mullet,
and with more leisure and better weather conditions I was able to
add eight species, found alive, and from debris at Lough Leam,
other four species. This débris comprised a miscellaneous
assemblage of land and freshwater snails, some of which, judging
by the condition of their periostraca, had not long been dead, and
others, perhaps not always of the same age, which had been washed
out of the crumbling sand of the dunes on which the lake is
encroaching on its north-west margin.

Of the species found alive, but not seen by Stelfox, one,
Paludestrina jenkins1, has probably arrived since his visit ; the others
are, as probably, old colonists; but all are perhaps worth brief
mention.

Clausilia rugosa (Drap.). In the sward among the rocks on Annagh
Head. A short tumid form, apparently var. septentrionalis (A.
Schmidt) ; the mean dimensions of six examples are 8°8 < 2°4 mm.

Vallonia excentrica Sterki.? Several under pieces of board on the
blown sand near Lough Leam.

* Clare Island Survey, Part 23, Land and Freshwater Mollusca, Proc.
Roy. Irish Acad., vol. xxxi.
2 Mr. Stelfox tells me that a thirty-ninth species—Paludestrina ventrosa—
was included in his Mullet list in error.
3 Mr. Stelfox tells me that when writing his report he did not discriminate
between V. pulchella and V. excentrica, and that the shells there referred to
as pulchella were in fact excentrica.

OLDHAM : NOTES ON THE SNAILS OF THE MULLET, WESTERN MAYO. 147

Physa fontinalts (L.) \

Bithynia tentaculata (L.)J
the blown sand a mile north-west of Aghleam.

Paludestrina jenkinst (Smith). In a trickle of water among the
‘dunes near Binghamstown; abundant in the Loughs of
Termoncarragh, Leam and Ardmore. The Lough Leam shells
are very tumid and quite unlike those from the other stations.

Pisidtum cinereum (Alder)

P. subtruncatum (Malm)
Binghamstown.

P. lilljeborgu (Cless.). In the sandy bed of Lough Ardmore,
associated with a peculiar form of P. nitidum, in which the posterior
margin is much truncated and slopes steeply to the ventral margin
and the umbonal striz are unusually pronounced, a form very near,
Mr. Stelfox says, to his var. arenicola. The sandy bed of Cross Lough
seems suitable for P. lilljeborgii and I looked for it in several places,
but in vain. Mr. Stelfox tells me, however, that some time after
the publication of his report he discovered a single young shell in
a gathering of P. nitidum from this lake.

Among Chara in a shallow pond on

}In a trickle among the dunes near

LoucH LEAmM.

Lough Leam, south-west from Binghamstown, is a shallow lake,
flooded by salt water at spring tides. No marine species and, apart
from Paludestrina jenkinst, no brackish water species now live in the
lake, although large numbers of dead shells of Mya arenaria are
embedded, still erect, in the sandy bed, and a few dead shells of
a Rissoa were seen in the jetsam on the shore. In 1910 Stelfox
found Paludestrina stagnalis in abundance; I saw none. These
facts suggest that not long ago the lake-was more saline than it is
to-day ; but, be that as it may, the water at some slightly earlier
period must have been less saline than it is to-day and have supported
a considerable freshwater fauna.

Shells of land and of freshwater species are to be seen embedded
in the blown sand on the north-western edge of the lough; and
these, washed out of the crumbling sand cliff, are associated with
shells of other species such as Vitrina pellucida, Helicella itala,
Cochlicella barbara, Vallonia spp. and Cepzwa nemoralis, that have
probably been washed or blown into the lough from the sward, and
others such as Hyalinia alliaria, H. radiatula, Cochlicopa lubrica,
Vertigo antivertigo, V. pygmza, Succinea pfeifferi, and Limnza
truncatula, which may still survive in the adjoining marsh, and
Paludestrina jenkinst which lives in the lough, in the miscellaneous
débris that has drifted into little depressions in the floor of the

148 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 5, AUGUST, 1935.

lough, or as jetsam on its shore. Whilst the age of individual shells
in the débris may be doubtful it is certain that all the species,
whether still surviving or not, were living in or near the lough not
-long ago. About as much of this drifted débris as would fill a quart
measure was washed and cleaned; the residual shells comprised
thirty species, of which four, marked with an asterisk, are additions
to Stelfox’s Mullet list. An attempt to show their relative frequency
has been made by assigning them in the following list to four classes :
A, from one to six specimens (giving actual numbers) ; B, from seven
to twenty-five; C, from twenty-six to a hundred; D, exceeding
a hundred.

Vitrina pellucida (Miill.), B. All fresh shells.

Hyalinia alliaria (Miller), A. Four.

FH. radiatula (Alder), A. ‘Three.

H, crystallina (Mill.), A. One. | :

Punctum pygmzum (Drap.), B. Most of the shells with
periostracum in good condition.

* Sphyradium edentulum (Drap.), A. One. An elongate shell
devoid of periostracum.

Helicella ttala (L. Bae Ae

Cochlicella oe (L.) }B. ae

is ove Leas Bae Many of the shells are clearly
referable to one or the other, but the specific identity of some is
uncertain.

Cepza nemoralis (Mill.), B. All “live” shells.

Cochlicopa lubrica (Miull.), D. Mostly fresh shells, derived
presumably from the sward.

Pupa anglica (Fér.), A. One. An adult, devoid of periostracum.

P. muscorum( L.), A. Three. Worn shells, lacking periostracum,
and probably coeval with the Sphyradium edentulum and Pupa
anglica. ‘The extensive sandy areas in the Mullet are, judged by
English criteria, ideal for this species ; and it is puzzling to explain
why, if there at all, it should not be found alive and in abundance.
In the area of the Clare Island survey Stelfox found it only on
Inishbofin and there only as a fossil.

Vertigo antivertigo (Drap.), D. Varies much in size; some of the
shells obviously fresh.

V. pygmza (Drap.), B. Varies in size and condition like the last.

Claustlia rugosa (Drap.), A. Six. All worn shells.

Succinea pfeifferti Rossm., C. Most of the shells are fossilized,
but others quite fresh. This species is not uncommon in damp places
in the sward of the blown sand areas.

Carychium minimum (Mill.), B. Some fossilized, others fresh.

OLDHAM : NOTES ON THE SNAILS OF THE MULLET, WESTERN MAYO. I49

Limnza pereger (Miill.), D. In great abundance. The majority
have tall spires and narrow mouths, but there is considerable
variation in both respects.

L. palustris (Miil.), A. One. A small worn shell.

L. truncatula (Mill.), D. Some fossilized, but most quite fresh.

Planorbis crista (L.), D. All var. levigata Adami, i.e. lacking
crests.

P. glaber Jeff., D. Some retain periostracum in varying degrees
but none is quite fresh.

P. spirorbis (L.), B. All lack periostracum.

Aplecta hypnorum (L.), A. One. A young shell.

*Paludestrina jenkinst-Smith, D. In great abundance ; now living
in the lough. All the empty shells in the débris obviously not long
dead. (

*Pisidium cinereum Alder, A. Six. |

P. mtidum Jen., D. In extraordinary abundance, outnumbering
the shells of all the other species together. In many of the shells
the truncated posterior margin slopes steeply to the ventral margin,
but not in so marked a degree as in the living shells in Lough
Ardmote. |

P. personatum Malm., A. Two.

ERRIS.

Succinea pfeiffert, Paludestrina jenkinsi, and Pisidium lilljeborgi
at Carrowmore Lake, 8 miles south-east of Belmullet, are additions
to Stelfox’s list for the district of Erris.

All the shells are now in the Irish National Museum, Dublin.

Testacella eating Milax.—Some time ago I found a Testacella maugei
crawling up a wall in Berriedale Avenue, Hove. I believe that it is not
recorded from Sussex. I put it in a tin with a Milax sowerbii half as big
again as itself. Looking into the tin that evening I saw that the Testacella
had got the tail of the Milax well into its mouth and that the latter was
making frantic efforts to escape by curling round from side to side over the
Testacella’s back. With some difficulty I pulled them apart with two pads
of cotton-wool and found the tail of the Milax shrivelled. It died the next
day. I gave the Testacella a live worm about three times its length and
next evening only the extreme head-end of the worm was lying in the tin,
and the slug was much puffed out and very torpid. Curiously enough I
found a T’. haliotidea on a step in the same road a day or two later, the first
I had ever seen in Hove, though I see that it is recorded from several places
in Sussex.—A. G. STUBBS.

150

THE DATES OF PUBLICATION OF FORBES AND HANLEY’S
HIST. BRIT. MOLL.

By Nora FisHer and J. R. Le B. ToMLin.

Forses and Hanley’s A History of British Molluscs and their Shells
was issued in parts between 1848 and 1853. ‘The dates of publication
of some of the parts have been given by Woodward (fourn. Conch.,
10, p. 47, 1901) and Reynell (Proc. Malac. Soc., 13, pp. 25-6, 1918),
but in each case from an imperfect set. Recently one of us obtained
a set of parts in the original covers, complete save for one part.
Fortunately the part wanting from this set is one whose date of
publication is already known.

The following is a complete list of the parts with their contents
and dates of publication.

No. of Pt. Pages. Plates. Date
I 1-40 A-B, 1-2 Ist Jan., 1848.
2 41-80 C-D, 3-4 1st Feb., 1848.
3 81-120 , 5-7 1st March, 1848.
4 121-160 F, 8-10 1st April, 1848.
5 161-200 G, II-13 Ist May, 1848.
6 201-240 H, 14-16 Ist June, 1848
7 241-280 I, 17-19 1st July, 1848.
8 281-320 K, 20-2 1st August, 1848.
9 321-360 L, 23-5 Ist Sept., 1848.
ike) 361-400 N, 26-8 and Oct., 1848.
II 401-440 O, 29-31 1st Nov., 1848.
12 441-477. M, 32-4 1st Dec., 1848.

On p, 477, end of volume: 1.

Then comes advertisement

page, “‘ Temporary Title-page,” for vol. 1, with Notice on back,

and “ (Temporary) Contents of the First Volume

3

No. of Pt. Pages. Plates. Date.
13 1-40 ~=6 P, 35-7 tet Jan.,: 1340,
14 41-80° R; 38-40 1st Feb., 1849.
15 81-120 Q, 41, 43-4 1st March, 1849.
16 121-160 S, 45-7 2nd April, 1849.
17 161-200 .U, 42, 48-90 1st May, 1849.
18 201-240 50-53 Ist June, 1849.
19 241-280 AA, 54-6 and July, 1849
20 281-320 BB, 58-9, 61 1st August, 1849.
2x 321-360 NN, 57, 62-3 Ist Sept., 1849.
22 361-400 DD, 64-6 rst. .49ct:,.2840,
23 401-440 FF, 60, 67-8 Ist Nov., 1849.
24. 441-480 II, 69-71 Ist Dec., 1849.
25 481-520. CC, 72-3,.77 1st Jan., 1850
26 521-557 |, 74, 78-9 Ist Feb., 1850.
On p. 557, “‘ end of volume 2.” Rest as at end of vol 1.

No. of Pt Pages. Plates. Date.
ag 1-40 EE, 83-5 1st March, 1850
28 41-80 GG, HH, 80, 86 1st April, 1850
29 81-120 JJ, 75-6, 81 Ist May, 1850.

FISHER AND TOMLIN :

FORBES AND HANLEY’S HIST. BRIT. MOLL. I5I

No. of Pt Pages Plates Date
30 121-160 LL, 82, 87; 115 Ist June, 1850.
ai 161-200 KK, 88, 116-17 1st. July; 1850,
a2 201-240 OO, 118-120 1st August, 1850.
33 241-280 PP, 89, 92, 121 1st Nov., 1850.
34. 281-320 SS, 90-1, 93 and Dec., 1850.
35 321-360 RR, 94-6 Ist Jan., 1851
36 361-400 SS, 97, 99-100 1st Feb., 1851.
an 401-440 ‘TT’, 101-3 1st March, 1851.
38 441-480 UU, 104-6 1st April, 1851.
39 481-520 VV, 107-9 1st May, 1851
40 521-560 L1I0-13 and June, 1851.
41-2 561-616 YY, ZZ, 98, 114, 114A, Ist Sept., 1851.
(in one pt.) II4B, II4C, I14D
“End of the Third Volume.’ Rest as at end of other vols.
No. of Pt. Pages. Plates. Date.
43 1-40 DDD, 1146, 114F, 123 ret Jan, 1852,
44. 41-80 FFF, 124-6 2nd Feb., 1852.
45 81-120 EEE, 129-131 1st March, 1852.

Cover titled “‘ Part 7”’, but crossed out in ink and ‘“‘ 45’ added
below. Date also crossed out and “‘ 1st March 1852” inserted.
All the covers of the remaining parts are similarly altered. Evidently
old wrappers were utilized for the later parts (parts 45-51).

No. of Pt. Pages. Plates. Date.
46 121-160 FFF, 122, 127-8 1st April, 1852.
47 161-200 HHH, KKK, LLL, rst July, 1682.
MMM

48 201-240 BBB, OOO, PPP, OQQ 1st Sept.) 18s2.
49 © 241-280 AAA, CCC, 132-3 1st Dec., 1852.

50-1 281-301 W, MM, Til. JJJ, NNN, ist May, 1853.

(in one pt.) RRR, SSS

Parts 50-1 also contain the title-page, Preface (pp. vii-—ix),
Introduction (pp. xi-xxxvi), General Index (pp. xxxvii-lxxv),
Contents (pp. Ixxvii-lxxx), and ‘“ Explanation of the Plates of
Animals ”’, pp. 479-486.

Two of the plates in the set from which these details are taken
are incorrectly lettered. Plate SS, issued with part 34, ought to
be marked XX; on p. 484 of vol. 1 it is stated that “A few
impressions of this plate were issued, marked SS”. Plate FFF,
issued with part 44, ought to be marked GGG; on p. 485, vol. 1,
we are told that “‘A few impressions were issued of a plate
so marked; these should be altered to GGG. There is no plate
FFF ”’.

From this it would seem that the present copy of the work is a very
early impression.

152
FLOOD-DEBRIS IN POLAND.

By ANTON JANKOWSKEI.

In the second half of July, 1934, there was great flood in poled
embracing the south-western part of the country and originating
in the exceptionally heavy rainfall in the Carpathian Mountains.
Prior to that I was on a trip collecting mollusca, and not being able
to continue further collecting because of the heavy rain, I went
back in the direction of Warszawa, stopping here and there as
weather conditions permitted, and after all I stopped for a few weeks
at Jozefow, belonging to Count R. Rostworowski, an estate on the
right, high bank of the River Wisla (about 180 km. south from
Warszawa), where I awaited the flood. ‘There was a fine park ©
just close to the river and a sloping narrow pass terminating just
at the water margin. During the flood a part of this pass was invaded
by flood too. After the flood was over there were left in that
ravine heaps of flood débris (broken branches, small pieces of wood,
bark, roots, straw, ears of corn, seeds, etc.). I noticed there a lot
of small dead mammals, birds, beetles, and mollusca, the last very
numerous and mostly Ceciliotdes acicula (Mill.), a rare species
wherever it occurs. I got in a small bag a portion (about 5 litres)
of the débris, being careful to take it from the top to the bottom of
the layer, in order to possess an average sample of the whole deposit
left in the ravine. After drying and sifting the contents I picked over
5,300 specimens (about forty species), belonging mostly to small
species. They are as follows :—

Valvata piscinalis (Miull.) . 13 Vertigo antivertigo (Drap.). 114 ~
Bithynia tentaculata (L.) 3 Vertigo pygmexa (Drap.) . 121 ©
Galba truncatula (Mull.) . 5 :, angustior Jeflr. . 7
Planorbis corneus (L.) . ; 2 Pupilla muscorum (L.) 385
Tropidiscus planorbts (L.) . 12 Valloma pulchella (Mull. B20r
Spiralina vortex (L.) . ; 9 a enniensis Gredl. . [0°
a vorticulus 'Trosch. 5 ~ costata (Mull.) 40

Amtsus spirorbts (L.) . 8 Faminia tridens (Miill.) Ra eepiane

5, leucostoma (Miill.) I Clausilia 2°

» septemgyratus Ziegl. . 14 Cecilioides acicula (Mill. ) by 400
Gyraulus albus (Miill.) ; 10 Punctum pygmzum (Drap.) 2
Bathyomphalus contortus (L.) 41 Vitrea inopinata Ulicny . as
Segmentina nitida (Mill.) . 4 Zonitoides nitidus (Miull.) . 12
Carychium minimum Mill. . 3 Euconulus fulvus (Miull.) . 2
Succinea ptiris (Lay. : r7 _Fruticicola fruticum (Mill.)

M pfeifferr Rossm. . 3 (jUV:),) FO

us oblonga Drap. : fe ZenobiellarubiginosaA. Scam. «<6
Cochlicopa Neve (Mal). 75 Perforatella bidens (Chemn.) 10

», £. exigua Mke. 6 Helix pomatia L. (juv.)

Truncatellina cylindrica (Fér.) 310 Fruticicolide and Helicide 683

1 One specimen sinistral.

2 The first record for Poland.

’ Small specimens, not to be determined.

4 Rare species in Poland, recorded till now from Podole only.

JANKOWSKI : FLOOD-DEBRIS IN POLAND. 153

Beside the above species I picked also from different places of the
débris Lymnza stagnalis L. (1), Hippeutis complanatus (L.) (1),
Arianta arbustorum (L.) (1), Cepwa nemoralis (L.) (2), Cepza
vindobonensis C. Pf. (1), and Sphzrium rivicola Lam. (1).

Looking over the booty the following circumstances strike one :
(1) Absence of Carpathian forms ; (2) Extraordinarily great quantity
of C. acicula.

After giving due consideration to the matter, I came to the
following conclusion.

The absence of Carpathian forms in the debris may indicate
that the specimens are of local origin (Jozefow and the close environs
up the river), with the exception, of course, of C. nemoralis, a form
of Western Europe, drifted from elsewhere, where it has been
brought accidentally or on purpose. ‘This supposition of the local
origin of the specimens may be partly proved by the fact that with
few exceptions the species listed above are common everywhere and
as far as I could find in a comparatively short stay in Jozefow,
more than half of the terrestrial forms inhabit the park numerously
(C. lubrica, T. cylindrica, P. muscorum, V. pulchella, V. costata,
Z. nitidus, F. fruticum, A. arbustorum, C. vindobonensts and var.
pallescens, and H. pomatia) and in addition V. pellucida, Z. incarnata,
T. hispida; sporadically, I found S. oblonga, P. pygmeum, V.
enniensis, F. tridens, H. lutescens.

The abundance of C. acicula in the débris is due, I believe, to the
geological condition of the region. ‘The underlying rock is of
cretaceous origin, forming numerous cracks all over the region, that
may be inferred from heavy rainfall being soaked up very quickly.
These underground cracks may create suitable habitats for C. acicula
where they might flourish and die generation after generation without
being detected, and only the rough waters of the heavy flood may
wash them out to the surface.

154
EDITORIAL NOTES

WE have to deplore the loss of another of our Honorary Members,
M. Philippe Dautzenberg, of Paris, who died on gth May. His death will
cast somewhat of a cloud over the Reunion Amicale which is being organized
by the enterprise of the Journal de Conchyliologie for 4th—7th July and to
which are invited the Conchologists, Malacologists, and Palzontologists
of all nations. M. Dautzenberg was to have acted as one of three
‘‘ Presidents d’Honneur ”’, the other two being M. E. L. Bouvier, of the
Muséum National d’Histoire Naturelle, and M. H. Douvillé, of the Ecole
des Mines.

We congratulate Madame Henri Fischer and the other directors of our
contemporary on the conception of so admirable a scheme and wish them
every success in carrying it out.

The National Museum of Wales has recently been presented with the
diary kept by the well-known naturalist L. W. Dillwyn from 1817 to 1852.
I venture to cite one or two entries :—

Apr. 2, 1818. Received a letter from W.S. Millard begging for permission
to dedicate a poem on Botany to me, and declined to accept it.

Dec. 20, 1820. Arrived at Bristol and spent the whole day in looking over
the collections of Mr. Miller and Mr. Maillard.

[The former is no doubt J. S. Miller, Curator of the Philosophical
Institution of Bristol, who described Oxychilus alliarius, and whose name
will be found in several places in Jeffrey’s Brit. Conch., vol. 1.]

July 21, 1827. 200 Ianthinae picked up in Oxwich Bay.

Dillwyn also mentions that when in London he went to Mrs. Mawe’s
to see the magnificent collection of shells belonging to Mrs. Bligh, “ which
appeared to be well worth the price asked, viz. £700.” I may note that this
collection was subsequently sold by auction, the sale taking six days, from
20th-25th May, 1822.

It was catalogued by Swainson, who in an appendix to the sale catalogue
described a number of new species. Mrs. Bligh was the widow of the
famous Admiral William Bligh, of the Bounty, and. owed most of her
collection to her husband’s voyages in the Pacific. He was Captain Cook’s
sailing-master on the Resolution for four years, and was appointed to the
Bounty in 1787. :

From a priced copy of the catalogue I gather that the shells realized a
little over £1,100, and amongst individual prices are the following:
Scalaria pretiosa, a very perfect specimen, £3 8s.; Conus aurisiacus,
£12 1s. 6d.; C. pulicarius, £5 5s.; Voluta fusiformis, £28 17s. 6d.; Conus
textile, 10s. 6d.; Achatina zebra (Algoa Bay), £2 15s.; Strombus latissimus,
£6 16s. 6d.; Cyprea argus, £1 11s. 6d.; Harpa costata, 15 guineas ;
Cypreza aurora, £9 19s. 6d.; Voluta imperialis, £8 15s.

The death of ‘‘ Grabham of Madeira’”’ deserves some notice in our
Yournal, for among his multifarious interests and hobbies he certainly
included Conchology and he was a member of the coterie which gathered
round Lowe and Wollaston to investigate the natural history of Madeira.

In Testacea Atlantica, published in 1878, Wollaston already speaks of
Grabham as celebrated far and wide. He was born on oth January, 1840,
graduated in medicine, and after serving as house surgeon at St. Thomas’s
Hospital went to Madeira in 1861, and spent the rest of his life there, dying
on 28th January last at the age of 95. The wideness of his interests was
extraordinary: he was botanist, geologist, entomologist, musician, and
‘many other things, but perhaps most distinguished for his researches in
climatology : he served on the British Association Committee on Meteoric
Dust, he was Bradshaw Lecturer when over 80 before the Royal College of

EDITORIAL NOTES. 155

Physicians, and at the age of 88 he read an excellent paper on the deep-sea
food fishes of Madeira before the 1928 British Association. As further
evidence of his versatility it may be mentioned that he wrote on hybridiza-
tion, atmospheric electricity, cable currents, and earthquakes.

He had a remarkable collection of clocks of all ages and designs.

We have not yet given any notice of a most artistic and useful monograph
that appeared last year entitled ‘‘ A Collection of Japanese Shells, with
Illustrations in Natural Colours ’”’, by Professor Shintaro Hirase, of the
Seikei High School. The book consists of 129 plates, with figures of shells
printed in natural colour on a rather deep sea-blue background, and a
catalogue of the figures with dimensions. In the case of some of the very
small species the figures rather fail, but it is a great boon to have such a
complete illustrated catalogue and we are under a considerable obligation
to Professor Hirase for such a helpful piece of work.

In Nature, 8th June, 1935, appears an interesting letter from the Curator
of the Perth (Australia) Museum on the Australian grey butcher bird
(Cracticus torguatus).

It eats Helix pisana, which has obtained a foothold in the Perth district,
either crushing it with its powerful bill or beating it on the ground, but it
has not learned to use an anvil stone as our thrush does. Much of the shell
is swallowed and subsequently disgorged in the pellet. This bird’s diet is
unusually wide, as in captivity it also eats raw meat, ants, and butterflies.

PROCEEDINGS OF THE
CONCHOLOGICAL SOCIETY OF GREAT BRITAIN & IRELAND

(Continued from p. 96.)

Exhibits.

By Mr. H. W. Worsfold : A small series of Japanese marine Gastropoda.
By Mr. A. E. Salisbury : Turride from Japan and from the Pacific.
By Mr. J. D. Dean: Cyprza caput-draconis Melvill from Easter Island.
By Mrs. Morehouse: Helix pisana Muller and H. nemoralis L.

By Miss N. Fisher: Holocene marine mollusca from the Portstewart
dunes, collected in 1932-3. :

By the President: An extensive exhibit of specimens, charts, etc., to
illustrate his address. |

By Mr. J. R. le B. Tomlin: All-the known species of Anostoma ;
Epitonium magnificum Sow. and E. raricostatum Lam.; Recluzia lutea
Bennet, R. hargravest Cox, and R. rollandiana Récluz ; a number of rare
species of Tropidophora, including formosa Sow., vexillum Sow., denanst
Mab., deliciosa Fér., deburghiae Reeve, belairi Petit, and the type of
carnicolor Ancey.

By Lt.-Col. Peile: The radula of Volva volva (L.), from the Straits of
Malacca, and for comparison that of Cypraa lynx L. from Mombasa.

By Mr. G. L. Wilkins: Models of Vermetus gigas Gray, Oliva scripta
Lam., Olivancillaria, Terebra oculata Lam. and tigrina Dh., Murex tenuispina
Lam. and palmarosae Lam., Strombus vittatus L., Arion ater L., Helix
pomatia L., Geomalacus, Pila canaliculata Lam., Planorbis albus Miull.,
and Lambis bryonia Gm.; also a series of pink Oliva illustrating the effect
of heat on colouration ; the specimens had been held for a few minutes
in the flame of a methylated spirit lamp, probably achieving the same result
as if lying for hours or days under a tropical sun. Heat does not seem to
affect the polish, but slight cracks may appear which close up when cold.
It is not suggested that all colour-vars. in Oliva are due to heat, but
undoubtedly many of the pink specimens one sees have been thus produced.

156 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 5, AUGUST, 1935.

By Mr. F. Taylor: Selection of British non-marine shells to show the
possibilities of cleaning ; also their eggs and young to show specific develop-
ment; also a series of Valvata macrostoma, Amnicola taylori, Planorbis
dilatatus, and others; also sinistral examples of H. aspersa, H. pomatia,
and Oxychilus luctdus—the two last from Coulsdon, Surrey.

ANNUAL REPORT.

3 This is the Fifty-Eighth Annual Report of the Society. During the last

year we have lost three members by death, two by resignation, and three
have been struck off the list through non-payment of arrears. Eight new
members have been elected. ‘The membership at present stands at 222,
including the five Honorary Members.

The members lost by death are the Rev. S. Spencer Pearce, W. James
Wintle, and Dr. R. F. Scharff.

Six ordinary meetings have been held at the Manchester Museum.
On 11th November a joint meeting with the Yorkshire Branch was held at
Leeds, and many interesting exhibits were shown. On 7th April a similar
joint meeting was held at Manchester, and again there was a good display
of specimens. In addition the members had the advantage of seeing some
of the reserve collections in the Manchester Museum, under the guidance
of the Hon. Secretary.

‘Twelve papers and notes have been communicated to the Society during
the year, and several have since appeared in the Yournal.

Three numbers of the Journal have been issued since the last Annual
Meeting, viz. Vol. 19, No. 11, December, 1933 (received 12/12/33), with
32 pages of text (including Index) and 1 plate: this completes Vol. 19 ;
Vol. 20, No. 1, 18th May, 1934, with 32 pages of text and 11 text-figures ;
and Vol. 20, No. 2, 17th August, 1934, with 32 pages of text, 1 plate, and
7 text-figures. In addition a separate List of Members has been issued.

Additions to the Library have been received from Messrs. J. R. le B.
Tomlin, G. C. Spence, J. F. Musham, R. J. Welch, A. K. Lawson, H.O.N.
Shaw, J. R. M. Bergenhayn, C. F. Davidson, T.. K. Chamberlain, H. H.
Bloomer, H. Schlesch, J. A. Grieg, Dr. A. E. Boycott, and Miss Van
Benthem Jutting. At the Annual Meeting last year Mr. J. E. Cooper
presented to the Library the following books: Bound copy of Histoire
Naturelle des Mollusques Terrestres et Fluviatiles de la France, by J. P. R.
Draparnaud, also Complément, by A. L. G. Michaud, containing the book-
plate of John Gwyn Jeffreys ; bound copy of Index Testaceologicus, 1818,
by W. Wood, with bookplate and autograph of John Gwyn Jeffreys. 3

Additions to the Cabinet have been received from Mr. H. Schlesch and
Dr. H. E. Quick (voucher specimens of Succinea arenaria B-Ch., from
Tipperary, N.).

RECORDER’S REPORT (Non-Marine Mollusca).

Since the last report (Vol. XX, p. 27) thirty-three new records have been
authenticated for the census.

Devon S. (3) : Physa heterostropha (nursery garden: A. E. Ellis).

Dorset (9): Milax sowerbit (H. H. Bloomer).

Sussex W. (13): Testacella mauget, Sphaerium rivicola (A. G. Stubbs).

Kent W. (16): Cochlicella barbara (J. P. T. Burchell), Pistidium milium
(L. B. Langmead).

Brecon (42): Milax sowerbit, M. gracilis (A. E. Boycott).

Radnor (43): Pisidium pulchellum (A. E. Boycott).

Pembroke (45): Sphyradium edentulum (H. E. Quick).

Cheshire (58): Neritina fluviatilis (W. H. Davies).

York N.W. (65): Paludestrina jenkinst (C. Allen).

PROCEEDINGS. 157

Durham (66): Vallonia pulchella, V. excentrica (J. R. Crawford),
Paludestrina stagnalis (E. P. Blackburn).

Northumberland S. (67): Vallonia excentrica (W. Philipson), Vertigo
substriata (E. P. Blackburn).

Northumberland N. (68): Vallonia pulchella (G. W. Temperley),
Azeca tridens (A. M. Oliver), Planorbis nautileus, Pl. contortus (W. Philipson),
Bithima tentaculata (E. P. Blackburn), Acme lineata (K. B. Blackburn).

Berwick (81): Pzstdium amnicum, P. lilljeborgiit, P. milium, P. nitidum,
P. obtusale, P. subtruncatum (D. K. Kevan). 7

Haddington (82): Pisidium henslowanum (D. K. Kevan).

Queen’s County (130): Margaritana margaritifera (R. A. Phillips).

Tipperary N. (143): Succinea arenaria (R. A. Phillips).

ANNUAL REPORT OF THE YORKSHIRE CONCHOLOGICAL
SOCIETY.

We welcome Mr. K. G. Howell, of Leeds, to the Presidential Chair this
year and up to the time of writing eight meetings have been held. The
opening meeting was devoted to general exhibits and short papers ‘by
Mrs. E. M. Morehouse and Messrs. Firth, North, Armstrong, and Howell.
In February Mr. J. C. North lectured upon the land shells of Malta,
illustrating his remarks by many fine examples from his collection. The
March meeting was of special interest, being the occasion of the Presidential
Address. In April we visited Manchester, joining forces with the Parent
Society.

Four excursions have been made during the summer, which, from a record
point of view, were not very productive, the weather being on the whole too
dry for any quantity of snails. The freshwater species seem to have been
similarly affected, possibly owing to last year’s exceptionally dry season,
which caused many streams and the smaller rivers to dry up completely and
so drastically reduced the larger rivers. Excursions were made to King
Lane Pond, Leeds, Acomb Brick Ponds, York, Bramham, near Leeds, and
Bentley, near Doncaster, from May to August.

The 38th Annual Meeting and two Ordinary Meetings will complete our
activities for the year.

Membership has dropped a little and now. stands at 28.

| Joun R. Disp,
Hon. Secretary.

ANNUAL REPORT OF THE LONDON BRANCH.

The usual nine meetings have been held at the Cripplegate Institute,
Golden Lane, E.C. 1, with fairly good attendance in spite of a certain amount
of sickness. During the summer the Branch suffered a severe loss with the
death of Mr. W. James Wintle, F.Z.S., who had been a staunch supporter
for many years, and had occupied the Chair on many occasions. Although
failing health had prevented him from attending regularly of late, his
absence from future meetings will be greatly felt.

Several particularly interesting items were included in the 1933-4
syllabus. On the 12th March and oth April the President, Mr. A. S
Kennard, read notes on ‘‘ Pioneers in British Conchology ”’, dividing the
subject into two sections—Pre-Linnzan and Post-Linnzan, illustrating
his remarks with examples from contemporary literature, some of which
were extremely rare and curious. ‘“‘ Gems of my Collection,” on 11th June,
proved attractive, an unusually fine selection of specimens being shown, and
the members giving short descriptions of their own particular ‘‘ gems ”’
with their reasons for so calling them. : .

Thanks are due to Mr. J. E. Cooper for regularly supplying notes
throughout the year describing the marine genera down for discussion at

158 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 5, AUGUST, 1935.

each meeting, and to Lieut.-Col. A. J. Peile, who has continued his notes
on the foreign Operculates.

Altogether the Branch has had a good year, but it is still desirable that the
membership should be substantially increased. A syllabus for 1934-5 is
now in circulation. The meetings will be held at the Cripplegate Institute
on the third Monday in each month, commencing 15th October, 1934.

Guy L. WILKINS,
Hon. Secretary.

621st Meeting, joint with the Yorkshire Conchological Society, held at
Leeds, roth November, 1934.

Mr. G. C. Spence in the chair.
! Papers Read.

‘Mollusca of the Ponds on the Downs in the Eastbourne District,” by
George Shrubsole.

“* Self-fertilization in Planorbis corneus var. albina (Moq.),” by Chas.
Allen.

Mr. Spence gave an interesting talk on Urocoptis and exhibited many
species from his collection.

Exhibits.

By Mr. J. R. Dibb: Clausitlia cravenensits from Addingham, Yorks ;
Solen ensis (9 in. long), from Port Erin, Isle of Man.

By Mr. J. F. Musham: Very large form of Cyprea cervus (7 by 4 in.).
Also a collection of rare shells from a deposit at Broughton, Brigg,
Lincolnshire, including Acme lineata and its monstr. sinistrorsum, Vertigo
antivertigo, Vertigo pusilla, Vertigo moulinsiana, Vertigo alpestris, Vertigo
angustior, Vertigo genes, Lauria anglica, Ena montana, Gontiodiscus ruderatus,
and Acanthinula lamellata.

By Mr. K. Howell: A number of slugs from Adel, Yorks, including
Milax gracilis, Arion circumscriptus and hortensis, Agriolimax agrestis
var. reticulata and var. migra. Also Limax flavus from Headingly, Arion
intermedius from Wyke, Limax cinereoniger from Saw Woods, Thorner, L.
maximus v. sylvaticus from Kirk Smeaton, and Testacella scutulum from
Doncaster.

By Mr. H. L. Armstrong: Large selection of Liguus from Florida
and Cuba; also Blaesospira echinus from Vinales, W. Cuba.

-By Mr. C. H. Moore: Ancylus showing size and thickness from many
localities. .

By Mrs. Morehouse: Large series of Bulimus and Bulimulus.

622nd Meeting, held at the Manchester Museum, 8th December, 1934.

Mr. G. C. Spence in the chair.
Candidate Proposed for Membership.

Major C. J. F. Bensley, R.A., c/o Lloyds Bank, Cox’s Branch, Pall Mall,
S.W.1. (Introduced by Lt.-Col. A. J. Peile and A. T.. Hopwood.)

Members Deceased.
Rev. Dr. A. H. Cooke and G. C. Leman.
Resignations.
Rev. Dr. G. H. Carpenter and W. F. Webb.
Exhibits.
By Mr. C. H. Moore: Japanese shells.
By Mr. A. K. Lawson: Valves of Pecten tigerinus (Miull.) taken from

stomach of flounder (Dundee, 1921) : over 100 valves were found in one fish.
By Mr. G. C. Spence: Holospira and Epirobia.

PROCEEDINGS. | 159

623rd Meeting, held at the Manchester Museum, 12th January, 1935.
Mr. G. C. Spence in the chair. ;
Election of New Member. |
Major C. J. F. Bensley.

Resignations.
5S. G. Finch and C. H. Higgins.
Exhibits.

By Miss Fisher: Photographic print of feeding tracks of mollusca.
(On behalf of Dr. C. Hay Murray.)

By Mr. G. C. Spence: Series of Urocoptids.

By Mr. A. K. Lawson: Small pearls from pearl-mussel from R. Tay:
variation series of Nucella lapillus.

By Mr. C. H. Moore: Solen stliqua, 8 inches long, from Aberdeen and
Saltburn ; also series of small marines.

624th Meeting, held at the Manchester Museum, oth February, 1935.
Mr. G. C. Spence in the chair.

Member Deceased.
Mrs. G. B. Longstaff.
Paper Read.
‘““ The Cephalopods of the Yorkshire Coast,” by J. A. Stevenson.
Exhibits.
By Mr. A. K. Lawson: Cancellaria cancellata from Algiers.

By Mr. F. Taylor: Planorbis corneus from Burgh Heath, Surrey ; also
very large examples of the same from Boynton Fish Ponds, near Scarborough.
By Mrs. Morehouse: Series of Liguus from Cuba; also Chondrothyra.

By Mr. C. H. Moore: Achatina achatina from W.C. Africa.

There was a Special Exhibit of Past and Present Mollusca of the
Manchester District.

625th Meeting, held at the Manchester Museum, 9th March, 1935.
Mr. G. C. Spence in the chair.
Member Deceased.
Dr. E. W. Bowell.
Paper Read.
** Notes on the Snails of the Mullet, W. Mayo,” by C. Oldham.
| Exhibits.

By Miss N. Fisher: Imbricated variety of Nucella lapillus (L.) from
Trearthen Bay, Anglesey (1934), and from Mussel-beds, Marino, Co.
Down (1935).

By Mr. G. C. Spence: Pachnodus, etc., from South and Central Africa.

The Special Exhibit was Cyprea.

626th Meeting, joint with the Yorkshire Conchological Society, held at
the Manchester Museum, 6th April, 1935.

The President, Mr. J. Davy Dean, in the chair. Nine persons present.
Apologies were read from several members.

Address by President.
The President delivered a short address on ‘“ Historical or Type- -

Localities of British Mollusca ’’, and a cordial vote of thanks was passed
unanimously. :

160 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 5, AUGUST, 1935.

Exhibits.

By Mr. G. C. Spence: South African Achatina.

By Mrs. Morehouse: Locality sets of Helix nemoralis L. and Helicella
virgata (Da Costa); also Acmza testudinalis (Miller) from Scarborough,
and other marine shells.

By Mr. C. H. Moore: Non-Marine Mollusca from the districts around
Stalybridge and Grange-over-Sands.

By Mr. F. Taylor : Large collection of Lancashire Non-Marine Mollusca.

By Dr. J. W. Jackson: Local Non-Marine Mollusca and Habitat-
photographs.

By Miss N. Fisher, Mr. W. Fowler, and Liverpool Public Museum :
Nucella lapillus var. imbricata Lamarck. Only known locality for true var.
imbricata is off Rhoscollyn Bay, Anglesey, where it was discovered by
McAndrew. (a) Var.: One of McAndrew’s original specimens. Dredged
“on an oyster-bed 4-7 fms.” See Jeff., B.C., vol. 4, p. 277. Ex. coll.
Liverpool Museum. (6) Var.:° Specimens dredged in 11-12 fms., same
place, by W. Fowler, 1934. They occurred singly, dotted about on a bottom
of pure Balani ; nothing else came up in the dredge. Ex. coll. N. Fisher.
(c) Normal “‘ sheltered’: N. lapillus—‘‘ sheltered coast’ form. Marino
shore, Co. Down, Feb., 1935. Young usually imbricated, and small per-
centage of adults also. Ex. coll. N. Fisher. (d) Normal “ exposed ”’:
N. lapillus—‘‘ exposed coast”? form. Idrigal Pt., N. of Vig, Skye, Sept.,
1933. Coll. by Dr. C. Hay Murray. No trace of imbrication.

627th Meeting, held at the Manchester Museum, 11th May, 1935.

Mr. G. C. Spence in the chair.
Papers Read.

“ Vertigo genesii Gredler in Central Ireland,” by R. A. Phillips.
‘““ Notes on and Description of a New Species of Macrocallista,”” by W. J.
Clench and R. A. McLean.
“ African Studies : Edentulina and Gonaxis,’? by W. J. Clench.
‘“ Catalogue of Latiaxis,” by J. R. le B. Tomlin.
Exhibits.

By Mr. G. C. Spence: Cochlicella acuta (Miller), vars. from Rye, etc. ;
Clavator spp. from Madagascar.

By Mr. F. Taylor: Pyramidula rotundata (Miller), Clausilia laminata
(Montagu), and white Clausilia biplicata (Montagu), from Purfleet ; Helix
hortensis Miuill., vars. and darts from Carshalton.

By Mrs. Morehouse: Placostylus.

By Mr. C. H. Moore: Series of Bulla.

By Mr. A. K. Lawson: Photograph of ‘‘ Clam Shells ” perforated for
buttons.

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CONTENTS.
) : ae PAGE
Limnza involuta in W.Sutherland—C.OLpHAM . 61
Eastonia rugosa and other Portuguese Moll ot C.
WINCKWORTH and R. WINCKWORTH : 162
Crepidula fornicata in Schleswig and Denmark—H. ScHLESCH on TOS
A New Albinaria from Cyprus (with figs. is R.leB. TOMLIN . 164
Slug and Beetle—Id. : : : (OR
Helicella acuta inland—L. E. Soins ; 5 ‘ ; 305
Fatal ‘‘ Sting’ by a Cone—T’. IREDALE’ 166
Pisidium vincentianum in a Kentish Pleistocene Deposit—C.
OLDHAM . : G7
The Marine Mollusca of Macithieat NM. FisHEn pote 24 . 168
Type Localities of Brit. Mollusca—J.D. DEAN .. : ¥96
‘ Catalogue of Recent Latiaxis—J. R. le B. ToMLIN IBS
Proceedings: Oct. 19, 1935 (Annual Meeting) .. 184
Two Editions of vol. i of The i ae R.le B. Suen
and N. FIsHER . 192

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JOURNAL OF CONCHOLOGY.

VoL. 20. 4th DECEMBER, 1935. No. 6.

LIVMNZ/EA INVOLUTA THOMPSON, IN WEST SUTHERLAND.
By Cuas. OLDHAM. |
(Read before the Society, 19th October, 1935.)
On 28th June and again on 2nd July, 1935, I visited Loch Fleodach |

Coire, a bare mountain tarn at about 1,300 feet in the wild country
24 miles north-east of Inchnadamph, where particularly near the
outlet stream I found an involute Limnza in some abundance, a
form which hitherto has been observed only in South-West Ireland.
The loch, in two parts connected by a short channel, has a total
length of some 600 yards and a maximum width of about 400.
The outlet stream falls steeply for 150 feet to a tarn known to the
Inchnadamph anglers as the Fiddle Loch, and then steeply again
for some goo feet to Loch Assynt, which it enters south-east of the
ruined castle of Ardvreck.

The water of Loch Fleodach Coire is deficient in lime; its bed
. stony for the most part, but in places there is coarse sandy grit
and in others peat. The only plants seen, and those sparingly, were
Potamogeton natans and Isoetes hystrix. On the under side of the
stones a sponge (Spongilla lacustris) was common. Apart from the
Limnza the only mollusc seen was Pistdium lilleborgu. In the
bright sunshine the Limnzas were crawling on the stones, and others
were found beneath them, where there were many egg-capsules
and newly hatched young. The capsules usually contained four or
five eggs, but the number varied from two to ten.

In all the specimens collected the upper angle of the mouth was
the highest part of the shell, and all were markedly involute ; indeed,
except that the mouth was wider and the outer lip more rounded in
consequence, they might have come from Lough Crincaum or
one of the little loughs near Glengarriff. I failed to find any Limnza
in the Fiddle Loch, where, however, Pisidtum llljeborga was
abundant, and the snails found in Loch Assynt were just small
Limnxa pereger with moderate spires.

Professor Boycott tells me that the anatomy of the Loch Fleodach
Coire snails, like that of those in Loch Crincaum and the Glengarriff
loughs, is that of L. pereger, to which species all these snails with
involute spires should perhaps properly be referred, but for con-
venience of reference, although not from conviction, I have in this
note retained Thompson’s specific name involuta.

dia

162

EASTONIA RUGOSA AND OTHER PORTUGUESE MOLLUSCA.

By H. C. WINcCKworTH and R. WINCKWORTH.
(Read before the Society, 2nd November, 1935.) —

PRAIA DA ROCHA is a small plage in the township of Portimao,
on the southern shore of Algarve, about 20 miles from Cape
St. Vincent, which we visited during the spring tides of 12th to
15th September this year. The foreshore is a sandy beach with
cliffs and stacks of a soft Miocene limestone containing many
Pecten and other fossil shells: eroded reefs of this limestone
extending for half a mile or so beyond a natural arch on the west
of the plage proved to be the best collecting ground. We also
explored the sands, which provided numerous live Donax trunculus
L. and Nassarius reticulatus (L.), several species of Solenide, and
many species of dead shells. Mactra corallina (L.) is abundant on
these sands; it varies considerably in colour and to some extent
in shape, and there seems little doubt that Reeve’s Mactra epidermia,+
described as from Portugal, is only an abnormal example of this
species. |
Valves of Panopea glycimeris (Born), up to 1o inches in length,
were common in the sand at the mouth of the river on the east of
Praia da Rocha, but we failed to find living examples ; it presumably
burrows in the sand somewhere near extreme low water. The
difficulties, successfully overcome, in obtaining another large species
of this genus, P. australis Sowerby, from ‘Tigers’ Bay in Angola
(curiously said to be in Natal), are recorded by Valenciennes in his
monograph on Panopea.? |
Our most interesting result was the discovery of living Eastonia
rugosa (Helbling). This species has been known, as a shell, for
over 150 years, but its habitat has not been recorded. We found
that it was a boring mollusc, burrowing in the limestone reef near
low water in company with Pholas dactylus L. and Barnea candida
(L.), though not very common ; we saw, I suppose, over a hundred
live Pholas, but only three living Eastonia, and three more complete
shells in situ in their burrows. The siphons are large as well as
long (the mean extension is about equal to the length of the shell)
and encased in a brown sheath like those of Mya truncata L. The
recorded distribution is mainly Atlantic, from Portugal to West
Africa and the Canaries, though there are also Western

1 Conch. Icon., vol. 8, Mactra, Hip 10.
2 Arch. Muséum (Paris), vol. 1, p. 1 (1839).

H. C. AND R. WINCKWORTH : EASTONIA RUGOSA. 163

Mediterranean records (Alicante, Algeria) : the principal references
in literature have been given by Lamy.?

In the empty shells of Hastonia in each case we found Ungulina
rubra (Roissy) living, another species whose range extends from
Portugal to West Africa, recalling the somewhat similar habitat
of our English Sphenia in empty Hiatella burrows.

Other rock burrowing species encountered were Lithophaga
aristata (Dillwyn), Paphia saxatilis (Fleuriau), Petricola lithophaga
(Retzius), and Jrus irus (L.), all plentiful, and a few Hiatella
pholadis (L.).

Another interesting find was Pseudopythina macandrewt (Fischer)
alive in a rock pool. This seems a rare species, though Hidalgo
gives several Spanish records as from extreme low water; there
are deep water records from off Portugal and in the Bay of Biscay ;
and it has been obtained under stones at low water in Brittany.
For literature see footnote.®

Altogether we found eighty-eight species of mollusca, of which
thirty-eight were taken or observed alive. It is not proposed to
give a list of these as for the most part they are recorded by Nobre
in his Moluscos Marinhos de Portugal,® which gives detailed localities
and illustrations of every species including nudibranchs. Another
work that should be consulted on Portuguese mollusca is Hidalgo’s
Fauna Malacologica de Espana, Portugal y los Baleares : Moluscos
Testaceos Marinos.’

3 F. Conchyl., vol. 63, p. 386 (1917). See also Nobre, op. cit., p. 370.

* Trew. Sta. Biol. Rosco, Fasc, 3, @.'145 (1925).

> Kobelt, Prodromus, p. 387 (1888) and references there given. Also
Jeffreys, Proc. Zool. Soc., 1881, p. 952 (1882); Monterosato, Solarit,
p. 12 (1873); Locard, Travailleur, vol. 2, p. 303 (1898); and Hidalgo,
op. cit., p. 574. It seems clear that the specific name should be macandrewt,
and not setosa nor caillati.

6 Instituto de Zoologia da Universidade do Porto, 466 pp., 80 pl. (1932).

? Museo Nacional de Ciencias Naturales, Madrid, part 1, pp. Ir112
(1916); part ii, pp. 113-400 (1917); part iii, pp. 401-752 (1917).

Crepidula fornicata L. in Schleswig and in Denmark.—In my paper on
the distribution of Petricola pholadiformis Lam. in Arch. f. Molluskenkunde,
1932, p. 151, I mentioned that C’. fornicata L. might be expected to appear
in Danish waters. At a recent meeting of the Danish Nat. Hist. Soc.
Dr. R. Sparck reported that C. fornicata L. was observed at the oyster
colonies in the Limfjord last year, imported with young oysters from
Holland, and in the same way it has been imported into the colonies at
Ellenbogenbank near List, Isle of Sylt, West Schleswig, having been
collected there in August, 1934, by Dr. W. Ankel (Natur und Volk, April,
1935, p. 176).—H. Scuiescu. (Read before the Society, 19th October, 1935.)

A NEW ALBINARIA FROM CYPRUS.
By. J. Rous B.. Tomuiin,
(Read before the Society, 19th October, 1935.)

Albinaria greeni n.sp.

Tuts shell is an addition to the very homogeneous little group of
Cypriote Albinaria, of which saxatilis Pfeiffer is the commonest
and most familiar species, and like saxatilis has white axial ribs
on a ground-colour of the palest grey. It seems, however, to be
most closely related to avia Charpentier, but larger in every way ;
the aperture of greenz is notably larger and subquadrate, not pyriform ;
its axial ribs are more regular, very much finer, blunter, and less
prominent; it is extensively decollate when mature, losing from
6 to 8 whorls and being left with 6-7, whereas axia only loses
about two.

The immature shell has a polished, bulbous protoconch of about
a whorl and a half with extremely fine short axial striz below suture
extending across less than half the whorl; these striz gradually
lengthen on the succeeding deciduous whorls, but disappear on

Albinaria greent. X 3.

the adult ; on the 3rd or 4th deciduous whorl minute white nodules
appear irregularly just below the suture, and on succeeding whorls

GQ Goer w

Representative teeth of radula.

TOMLIN : A NEW ALBINARIA FROM CYPRUS. 165

these nodules form the bases of the axial ribs, which on the last
deciduous whorl are about half as numerous as on tthe first
permanent one.

Dimensions of holotype :—

I 13: ‘diam, max. 4 min.
Aperture 3° 3mm,

Hab.—Hills between Limassol and Paphos at an 4ltitude of
ca. 800 feet, rather common.

This species forms one of a very extensive collection of land
shells made by Mr. Ernest E. Green, the well-known entomologist
and authority on Coccidz, in the course of a winter in Cyprus.

The combination of entomology and conchology in fieldwork is
often a happy and a fruitful one, and Mr. Green seems to have
found it particularly so, as there are very few of the recorded species
of mollusca that he has missed.

I am indebted once more to Lieut.-Colonel A. J. Peile for figures
of representative teeth on the radula.

The specimen from which the figures are taken is in the British
Museum collection; it has ninety formed rows of teeth with
formula 24—1—24; the admedians change shape gradually from
Nos. 1 to 8; an ectocone appears at No. g, and an endocone at
No. 11; the marginals then diminish in size; the three outermost
lines are rudimentary.

Slug and Beetle.—One evening recently my wife called my attention
in the garden to a large ground beetle carrying off a small slug (Agriolimax
agrestis) in its mandibles. The beetle proved to be Carabus violaceus L.—
the same species that was observed by Mr. C. H. Moore attacking a slug,
as recorded on page 85 of this volume, only in that case the slug was Arion
hortensis. ‘The Carabus was travelling fast and holding its prey well up in
the air to avoid obstacles——J. R. LE B. TOMLIN. (Read before the Society,
19th October, 1935.)

Helicella acuta, an inland locality. ‘The existence of a thriving colony
of H. acuta in the centre of the Isle of Wight, 5 miles from the sea, is note-
worthy as unusual in Great Britain-—LIoNEL E. Apams. (Read before the
Society, 19th October, 1935.)

166
FATAL ‘STING’? BY A CONE.
By Tom IREDALE.
(Read before the Society, 19th October, 1935.)

ALTHOUGH there have been many reports of attacks by Cones from
the outlying islands of the Pacific Ocean, there has never previously
been a case in Australia.

On 25th June, 1935, a young man in his twenties, Charles
Garbutt, was fatally stung by a Cone, almost definitely Conus textile,
at Hayman Island, one of the Whitsunday Group of Islands,
Queensland. Apparently he was handling it when “a spike’ came
out and pierced his hand. He did not complain of pain until later,
when he said his sight was failing and that he had a burning sensation
round the mouth. He grew steadily worse and died while being
taken to hospital. ‘This is the first fatal case in Australia and there
do not seem to have been many others elsewhere.

In the Australasian Medical Gazette for September, 1912,
Dr. J. B. Cleland gave an account of the bites of shellfish of the
genus Conus, from a MS. note given him by Hedley. The well-:
known cases by A. Adams, Bennett, Crosse and Marie, Montrouzier,
and Garrett were cited and an additional case of a European
_ lady bitten by a Conus geographus in F1ji in June, 1901, was detailed.
The shell was sent by Dr. B. G. Corney from Levuka, Fiji, with
a full medical account of symptoms and treatment, to Dr. A. H.
Hallen, who handed the shell to the Australian Museum where it is
still preserved. ‘The Cones responsible for attack up to the present
are :—

Conus aulicus: Moluccas (Sir E. Belcher fide A. Adams).

Conus geographus: New Britain (Cox); Fii (Cleland).

Conus marmoreus: Loyalty Islands (Montrouzier).

Conus textile: New Hebrides (Bennett); New Caledonia (Crosse
and Marie).

Conus tulipa: New Caledonia (Crosse and Marie); Paumotus
(Garrett). |

It is probable that all Cones are more or less poisonous, but
generally the animal is sluggish and does not move much.

Conus textile is not uncommon on the Great Barrier Reef, and
many have been collected alive without injury, but more care will
be taken in the future.

167

PISIDIUM VINCENTIANUM IN A KENTISH PLEISTOCENE
DEPOSIT.

By CuHas. OLDHAM.

(Read before the Society, 19th October, 1935.)

A FEW weeks ago Mr. J. P. T. Burchell kindly sent for my inspection
a gathering of Pisidia from a Pleistocene deposit at Sittingbourne,
in which Mr. A. S. Kennard tells me the associated species were
Planorbis levis, Limnza pereger, L. truncatula, Spherium corneum,
and a few land shells. Some of the Pisidia resembled in certain
characters this or that recent species, but among them were others
that I could not with confidence refer to any; and it may be that
the gathering includes species other than those I could identify
with certainty. Many of the shells may be assigned definitely, and
many more probably, to P. cinereum. A considerable number
is, I believe, an inappendiculate form of P. henslowanum, and there
are a few P. amnicum and P. subtruncatum. Of more interest, perhaps,
is the occurrence of P. vincentianum, of which there are a good many
quite characteristic valves.

In Britain, so far as I know, P. vincentianum has been found
only in an early Holocene deposit near Killough, Co. Down,
where it was recognized by Mr. A. W. Stelfox (Proc. Roy. Irish
Acad., xxxix, Sect. B, No. 1, p. 10); and the purpose of this note is
to call attention to its occurrence in the Pleistocene of South-East
England, where, despite the characters which separate it so clearly
from all other British Pisidia, it has probably been overlooked.
It was described and figured in 1913 by B. B. Woodward (Cat.
Brit. Species of Pisidium in Brit. Mus.) from the Pleistocene at
Soignies, Belgium. He emphasizes the unusual character of the
hinge-plate and the unique position of the ligament-pit, which,
owing to the central part of the hinge-plate being bent downwards
and backwards towards the umbo, is virtually visible only when
viewed from across the ventral margin of the shell.

168 |
THE MARINE MOLLUSCA OF MAGILLIGAN. CO. DERRY.
By Nora FIsHEr.

MAGILLIGAN has long been famous for the variety and abundance
of the shells thrown up on its strand, but hitherto no detailed list
has been published. The following list must be regarded as tentative
only, for no dredging has been done, and my own collecting has
been limited to four half-days’ work on the shore. Nevertheless,
138 species were obtained, to which number must be added a
further twenty-four species recorded by other observers.

The district of Magilligan forms a triangle of flat land with the
apex projecting across the mouth of Lough Foyle towards
Inishowen, Co. Donegal. On the north it is washed by the Atlantic
and on the west by Lough Foyle. Inland the old coastline is clearly
seen in the magnificent range of old sea-cliffs which extend across
the base of the Magilligan triangle from Downhill on the east
and culminate in Benevenagh on the west. The north shore is an
unbroken stretch of sand which runs eastward from Magilligan
Point for nearly 7 miles to Downhill, where the old sea-cliff descends
to the sea margin. This shore, especially near the Umbra, is by
far the more productive of species; drifts of small shells, mixed
with Terebella tubes, sometimes line the shore for miles.

About Downhill are a number of isolated rocks jutting out of
the sandy shore and at the railway tunnel the shore is rocky and
precipitous. This small area provides the only rocky part of the
entire Magilligan coastline.

The Lough Foyle shore is not nearly so prolific ; it is uniformly
of muddy sand, and the shells cast up are usually much worn,
and species few.

A large brackish pool lies in the dunes between the Martello
Tower and the sea at Magilligan Point, a shallow channel, now
(June, 1935) dry, connecting it with the sea. Presumably during
autumn and winter the sea reaches the pool, as it tasted slightly
salt. When visited it had shrunk considerably below its usual
level, judging from the line of débris around the margin. It con-
tained a few flounders, about 6 inches long, many dead juvenile
specimens of Cardium edule L. and Mya arenaria L., half-buried
in the mud at the edge, and in the deeper water were large colonies
of adult Mytilus edulis L., but all dead. Perhaps the pool was
colonized during the autumn, and only the flounders had been able
to survive until June ? Under favourable conditions Mytilus edulis
grows with extraordinary rapidity, so the size of the mussels does
not negative this suggestion. No Hydrobiz were noted, but they
may have been buried in the mud, and I had not time to search for

FISHER : THE MARINE MOLLUSCA OF MAGILLIGAN. CO. DERRY. 169

them. The pool shelved very steeply in one place, to a depth of
apparently about 8-10 feet. It is intended to investigate the fauna
and conditions of this pool in detail.

There has been very little work on the molluscan fauna of the
district ; the earliest Magilligan record is that of Pinna, mentioned
in a letter from the Rev. Robert Innes to Dr. Nicholson, Bishop of
Derry, written in 1725 (1) 1. Miss H. Galwey (2), in 1888 published
a scanty list of species, and there are many Magilligan records in
Thompson (3), mainly supplied by G. C. Hyndman. Hart (4), in
his paper on the marine mollusca of Donegal and Dublin,
incidentally added a few species to the Magilligan list, and Praeger
(5) also supplied a few species. Finally Nichols (6) in 1900 published
a number of additional species mainly from ‘Thompson’s
unpublished MSS.

The following list has been compiled from (a) material collected
by members of the Route Naturalists’ Field Club, Mr. R. J. Welch,
and myself in May, 1932; (6) material collected by Mr. Eric
Young and myself in May, 1933; and (c) several additional species
collected by the Rev. W. J. Gregg and Noel Gregg and sent to me
for identification. Also Mr. Young kindly allowed me to look over
his collection, in which were a few Magilligan species not otherwise
noted. Some additional species were obtained in May, 1935, by
R. MacDonald and myself.

In every case, unless otherwise mentioned, dead but fresh shells
were found ; the scarcity of living specimens is remarkable.

The nomenclature and arrangement are those of Winckworth’s

List (7) :—

Emarginula reticulata mulleri F. & H. In drift, plentiful.

Diodora apertura (Mont.). Moderately common.

Patella vulgata L. Living on Downhill rocks.

Patella athletica Bean. Recorded by Galwey (2).

Patina pellucida (L.). Many in drift, 1935.

Patina levis (Pennant). Common.

Patelloida virginea (Miller). Common in drift.

Calliostoma zizyphinum conuloide (Lam.). Frequent, also var.
lyonst.

Gibbula magus tuberculata (da C.). Not common.

Gibbula tumida (Mont.). Moderately common.

Gibbula cineraria (L.).

Cantharidus montagui (W. Wood). ‘Three shells.

Tricolia pullus pictus (da C.). Frequent.

1 The numbers in parentheses refer to Bibliography at end of article.

170 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 6, DECEMBER, 1935

Lacuna vincta (Mont.). Plentiful.

Lacuna crasstor (Mont.). ‘Two shells.

Lacuna parva (da C.). Fairly common in drift.

Lacuna pallidula (da C.). Sparingly in drift.

Littorina littorea (L.). Not common.

Littorina saxatilis saxatilis (Olivi). An attractive little striped and
chequered form is frequent in drift.

[ittorina saxatilis jugosa (Mont.). Living, abundant, on the exposed
rocks at Downhill railway tunnel.

Littorina neritoides petrea (Mont.). Living, plentiful on rocks at
Downhill.

[Hydrobia ulue Pennant. No doubt lives on the Lough Foyle mud-
flats, but I did not actually observe it there on my one visit
to that part of the shore, nor did I ever find it in drift on the
north shore. Farther up Lough Foyle, on the mud-flats round
Eglinton, it is very abundant, and probably lives all along the
Lough Foyle border of Magilligan.]

Potamopyrgus jenkinsi Smith. I have included this freshwater
species as its empty but beautifully fresh and clean shells
occur plentifully in shell-drift from the Umbra. The shells
are of a uniform clear golden-brown colour. Mr. A. W.
Stelfox suggests that they have been washed from the Bann
River by floods. Sometimes other land and freshwater species
occur in the drift; Vallonia is the most frequent.

Cingula proxima (F. & H. ). ames by Thompson (3). Doubtful ;
a critical species.

Cingula semicostata (Mont.). Abundant.

Cingula semistriata (Mont.). ‘Two, in drift, 7-5-1935.

Cingula cingillus (Mont.). One.

Alvania crassa (Kanmacher). Frequent in drift.

Alvania cancellata (da C.). Scarce in drift.

Alvania punctura (Mont.). Scarce, in drift.

Rissoa parva (da C.). Plentiful, both the ribbed and smooth forms.

Rissoa membranacea (J. Adams). Scarce, in drift.

Tornus subcarinatus (Mont.). ‘Two, in drift, May, 1935.

Skeneopsis planorbis (Mont.). Five, in drift, 1932 and 1935.

Turritella communis Risso.

Bittium reticulatum (da C.). Moderately common.

Cerithiopsis tubercularis (Mont.). Scarce, in drift.

Triphora perversa (L.). ‘Two fresh shells.

Clathrus clathrus (L.). Fairly common.

Clathrus turtonis (Turton). Recorded by Nichols (6).

Clathrus trevelyanus (Johnston). ‘Three.

Clathrus clathratulus (Kanmacher). Not uncommon, in drift.

FISHER : THE MARINE MOLLUSCA OF MAGILLIGAN. CO. DERRY. 17k

Janthina britannica F. & H. Gregg obtained several specimens
mm 0097.

Eulima trifasciata (J. Adams). One (Gregg). Another, broken,
in drift.

Balcis alba (da C.). Several.

Chrysallida indistincta (Mont.). One (Gregg). ‘Three more, in
drift, 7-5-1935.

Chrysallida decussata (Mont.). One (Gregg). An addition to the
recent fauna of North-East Ireland. Nichols’s records are
probably early post-glacial (6, p. 552).

Chrysallida sptralis (Mont.). Several, in drift.

Menestho doltoltformis (Jeffreys). One, in drift, 7-5-1935. An
addition to the recent fauna of North-East Ireland. The
specimen is now in the Public Museums, Liverpool.

Odostomia scalaris MacGillivray. A few (Gregg). Eight, in drift,
73935:

Turbonilla elegantissima (Mont.). Several.

Capulus ungaricus (L.). Common, of all sizes.

Aporrhats pespelicani quadrifidus da Costa. Frequent, of all sizes.

Natica catena (da C.). Frequent, and often thrown up alive. The
spawn is also common.

Velutina velutina (Miller). Fairly plentiful in drift.

Lamellaria perspicua (L.). A few.

Erato voluta (Mont.). Two (Gregg). Two more, drift, 1933.

Trivia monacha (da C.).

Trivia arctica (Mont.). Both species of Trivia are frequent at
Magilligan, and arctica appears to be the more plentiful. Out
of a large boxful of specimens sent me by Young, numbering
altogether 645, 405 specimens were arctica, and the remaining
240 monacha. Dr. Lebour in her paper on the British species
of Trivia (8) states (p. 483) that the shell of monacha is usually
larger than that of arctica, but in the Magilligan specimens
I cannot see any difference between the two species. The
occasional very large specimens which occur are usually
monacha however.

Simnia patula (Pennant). Several specimens taken during 1932 and
1933. It is a rare species in North-East Ireland.

Trophon truncatus (Stré6m). One very worn specimen, named by
Winckworth.

Trophon muricatus (Mont.). Recorded by Nichols (6) as having .
been taken alive.

Nucella lapillus (L.). Frequent. A large, very solid form with
a short spire and very wide mouth lives on isolated rocks near
Downhill tunnel.

172 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 6, DECEMBER, 1935.

Ocenebra erinacea(L.). Frequent, some of the specimens very fresh-
looking. |

Colus gracilis (da C.). Frequent.

Neptunea antiqua (L.). Common.

Buccinum undatum undatum L. Common.

Nassarius incrassatus (Strém). Commoner than N. reticulatus.

Nassartus reticulatus (L.).

Heedropleura septangularis (Mont.). Two fine specimens.

Lora turricula turricula (Mont.). One (Gregg).

Lora turricula rosea (Lovén). One fine specimen (Gregg).

Lora rufa rufa (Mont.). Scarce.

Mangelia coarctata (Forbes). Several (Gregg).

Mangelia nebula (Mont.). Three, verified by Winckworth.

Philbertia linearis (Mont.). Fairly frequent.

Acteon tornatilis (L.). Frequent.

Retusa retusa (Maton & Rackett). One, 7-5-1935.

Retusa alba (Kanmacher). Four, in drift, 1932. Eight more, 7—5-
2055"

Diaphana minuta Brown. One, in drift.

Cylichna cylindracea (Pennant). Plentiful, of all sizes.

Tricla lignaria brownit Leach. Frequent.

Hermania catena (Mont.). Fairly frequent, in drift.

Acteoma cocks (A. & H.). Plentiful in a large shallow pool at
high-water mark, Downhill, at mouth of railway tunnel,
7-5-1935. Associated with Cladophora utriculosa, Kutz., and
was found only on this alga or else crawling on the bare
sandy floor of the pool. Enteromorpha and Ulva, and one or
two small brown-red algz also occurred in the pool. I am
indebted to Dr. Helen Blackler for the identification of the
Cladophora. When Acteonia was searched for on 10-6-1935
in the same pool not a single specimen could be found. This
species is another addition to the fauna of North-East Ireland.

Leucopepla bidentata (Mont.). One (Gregg). The first record for
Co. Derry.

Nucula nucleus (L.). Valves frequent.

Glycymerts glycymeris (L.). Very plentiful; valves especially so on
the Lough Foyle side of the Point, May, 1935.

Arca tetragona britannica Reeve. Valves plentiful.

Anomia ephippium L. Valves frequent.

Mytilus edulis L. Living, abundant, on isolated rocks at Downhill.

Modiolus modiolus (L.).

Musculus discors (L.). ‘Two valves, in drift, 7-5-1935.

Musculus marmoratus (Forbes). Five valves.

Ostrea edulis L. Odd valves only.

FISHER : THE MARINE MOLLUSCA OF MAGILLIGAN. CO. DERRY. 173

Pinna fragilis Pennant. Recorded by Innes in 1735 (1), and also
by Portlock in 1843.

Pecten maximus (L.). Valves not common.

Chlamys varia (L.).

Chlamys distorta (da C.). Valves frequent.

Chlamys opercularis (L.).

Chlamys tigerina tigerina (Miller). Two valves, 7~5—1935.

Chlamys tigerina obsoleta (Pennant). Five valves, 1932 and 1935.

Chlamys septemradiata (Miller). A single valve recorded by Hart
(4) and Thompson (3) mentions specimens supposed to be
from Lough Foyle.

Lama hians hians (Gm.). “ Coast of Derry,” recorded by Nichols (6).

Astarte triangularis (Mont.). Valves very plentiful.

Thyasira flexuosa (Mont.). Two imperfect valves.

Myrtea spinifera (Mont.). Recorded by Nichols (6).

Phacotdes borealis (L.).

Kellia suborbicularis (Mont.). Sparingly, in drift.

Lasza rubra (Mont.). Valves fairly common, but not so frequent
as those of the next species.

Turtonia minuta (Fab.). Valves very plentiful.

Lepton mtidum ‘Turton. A few in drift (Gregg).

Montacuta ferruginosa (Mont.). Valves fairly common.

Mysella bidentata (Mont.). Valves plentiful, and two perfect
specimens in drift, 7-5-1935.

Cyprina tslandica (L.). Very plentiful, and often thrown up alive.

Glossus humanus (L.). Recorded by Frazer (9).

Cardium echinatum L. Sometimes thrown up alive.

Cardium ovale Sow. One valve (Gregg.).

Cardium exiguum Gm.

Cardium edule L.

Cardium edule lamarckit Reeve. Recorded by Galwey (2).

Cardium crassum Gm. Recorded by Galwey (2).

Dosinia exoleta (L.). Recorded by Galwey (2).

Dostnia lupinus lincta (Mont.). Very plentiful, and often thrown
up alive.

Gafrarium minimum (Mont.). A few valves.

Venus casina L.

Venus ovata (Pennant). Plentiful.

Venus fasciata (da C..).

Venus striatula (da C.). Frequent and sometimes thrown up alive.
Small living specimens were fairly abundant, 7-5-1935.
Paphia rhombotdes (Pennant). Very common, and often found living.
Paphia pullastra (Mont.). One specimen, and a valve in Eric
Young’s collection. Much scarcer than P. rhomboides in the

Magilligan district.

174. JOURNAL OF CONCHOLOGY, VOL. 20, NO. 6, DECEMBER, I935.

Mysia undata (Pennant). Recorded by Galwey (2).

Donax vittatus (da C.). Frequent. Regarding this species cibetnney
(3) says (pp. 343-4): “‘ Plentiful, close to low-water mark
at Magilligan, where it is collected by the people for food.”

Tellina squalida Mont. Recorded by Nichols (6), and I have seen
valves collected by Miss Kathleen Maxwell at Downhill strand.

Tellina tenuis da Costa. Several fresh specimens.

Tellina fabula Gm. Appears to be rather scarce.

Tellina pygmexa Lovén. Four valves (Gregg). T'wo more, 7—5--1935.

Tellina crassa Pennant. Recorded by Nichols (6).

Macoma balthica (L.).

Abra alba (W. Wood). Fairly common in drift.

Abra prismatica (Mont.). Moderately common in drift.

Gari fervensis (Gm.). One perfect specimen.

Gari depressa (Pennant). A single valve recorded by Nichols (6).

Gari tellinella (Lam.). Recorded by Hart (4).

Solecurtus scopula (Turton). Recorded by Nichols (6).

Pharus legumen major Bucquoy, Mautzenberg, and Dollfus.
Recorded by Nichols (6).

Ensis ensis (L.).

Ensis siliqua (L.). Abundant.

Solen marginatus Mont. Recorded by Forbes and Hanley (10).

Mactra corallina cinerea Mont. Common, sometimes thrown up
alive.

Spisula elliptica (Brown).

Spisula solida (L.). Fine living specimens thrown up plentifully,
Tb 935:

Spisula subtruncata (da Costa). Small fresh-looking valves scarce.
One live juvenile shell measuring 12 X 12 mm., 7-5-1935.

Lutraria lutraria (L.). . Shells very abundant, especially just at
Magilligan Point.

Lutraria magna (da C.). Recorded by Thompson (3) as L. Azans
Fleming.

Mya truncata L. Rather scarce.

Mya arenaria L. Not noted, except the dead young in the brackish
pool.

Alotdis gibba (Olivi).

Hiatella arctica (L.). Valves sparingly.

Hiatella gallicana (Lam.). Valves occur sparingly in drift.

Barnea baie (L.). One fragment of a valve, 7-5-1935.

Zirphza crispata (L.). A few large old valves, worn, May, 1932.

Teredo navalis L. Recorded by Galwey (2).

Cochlodesma prztenue (Mont.). Recorded by Thompson (3) as
Andtina pretenuis, as occurring “ quite fresh’ at Magilligan.

FISHER : THE MARINE MOLLUSCA OF MAGILLIGAN, CO. DERRY. 175

Thracia phaseolina (Lam.). Recorded by Hart (4).

Thracia villostuscula (MacGillivray). One valve, in drift, 7-5-1935.

Lyonsia norwegica (Gm.). Recorded by Hart (4).

Sepia elegans Orbigny. Three dorsal plates found by G. C. Hyndman
at Magilligan are recorded by Forbes and Hanley (10).

The following species recorded from Magilligan by Thompson (3)
are erroneous :—

Rissoa Bryerea Mont. = Rissoina bryetea Mont. West Indian.

Donax denticulatus Linn. = West Indian.

Pectunculus pilosus Linn. = Glycymeris pilosus. G. pilosus is a
Mediterranean species which does not occur in the British
Isles. Probably G. glycymeris was the species really found.

Venus verrucosa Linn. “ A young valve in Hyndman’s collection.”
There is no such valve in Hyndman’s collection now. Doubtless
an error, as V. verrucosa is a southern species and does not now
live in North-East Ireland.

BIBLIOGRAPHY.

(1) Innes, Rev. Robert. Letter to the Right Rev. Dr. Nicholson, Lord
Bishop of Derry, ‘‘ An Account of the great Variety of Plants,
Shell-stones, and many other Curiosities in the Parish of
Magilligan in the County of Londonderry in Ireland,”’ Anthologia
Hibernica, vol. 3, pp. 116-120, 1794.

(2) Galwey, Miss H. ‘‘ On the marine shells of Magilligan Strand,
County Tyrone [recte Derry],”’ Journ. Conch., 5, pp. 267-270, 1888.

(3) Thompson, William. The Natural History of Ireland, vol. 4, 1856.

(4) Hart, H. C. ‘* Notes on Marine Mollusca collected on the Coasts of
Donegal and Dublin,’ Zoologist (3), 16, pp. 51-6, 105-7,
139-141, 181-3, 1892.

(5) Praeger, R. LI. ‘‘ The Marine Shells of the North of Ireland,’ Rep.
and Procs. Belfast Nat. Field Club (2), vol. 3, Appendix, 1889.

(6) Nichols, A. R. “‘ A List of the Marine Mollusca of Ireland,” Proc.
Roy. Irish Acad. (3), vol. 5, pp. 477-662, 1900.

(7) i a R., “ The British Marine Mollusca,” Fourn. Conch.,

9, PP. 217-225, 1932.

(8) Rabe Dr. M. V. “ The British Species of Trivia,” Journ. Mar.
Biol. Assoc., 18, pp. 477-484, 1933.

(9) Frazer, W. ‘‘On the Distribution of Jsocardia' cor along the Irish
coast,’ Proc. Nat. Hist. Soc. Dublin, 5, pp. 189-190, 1871.

(10) Forbes, E., and S. Hanley. A History of British Mollusca.

176
TYPE LOCALITIES OF BRITISH MOLLUSCA.
By J. Davy Dean, F.R.E.S.
(Read before the Society 6th April, 1935.)

Tue first records of British non-marine mollusca are given by
Kennard and Woodward in their Synonymy of the British
Non-marine Mollusca. ‘Thuson p. 4 we find that the well-known.
freshwater species Theodoxus fluviatilis (Linnzeus) was first recorded
as British by M. Lister (Hist. Anim. Angl., p. 136). This reference
gives us the following habitats—River Ouse at Fooforth and Clifton
(probably a mile or two north-west of the City of York), River
Wharfe and River Lune, near “* Kerby-Launsdale ’’. Such localities
are historical and, in this instance, date as far back as 1678, and
specimens, if obtainable, should be so marked.

The information regarding records of British marine mollusca
is more scattered and the locality is not always given. ‘Thomas
Pennant, who was the first author on British Mollusca to use the
Linnean nomenclature, describes a number of species, many of
which are without mention of locality. This was not so much care-
lessness as lack of appreciation of the importance of locality data.
But of the species first described by Pennant, and as new to science,
were two which are of interest, Cultellus pellucidus, from Red Wharf
Bay, Anglesey, and Hydrobia ulve from Flintshire. ‘These are
understood as ‘Type localities, and it would be useful if this fact
were added to the label of any specimens found in collections to-day.

I have just had a recent experience of the importance of some
such method. In an old collection of shells given to the National
Museum of Wales is a set of Sphzrium pallidum Gray, marked
‘‘ Paddington ’’. Now, to anyone living in South Wales, Paddington
conjures up only the eastern terminus of the Great Western Railway.
Bartholomew’s Gazetteer revealed the fact that there is more than
one Paddington—one a village in Lancashire and a mile or so
north-east of Warrington, and yet another, an ecclesiastical district
of Salford County Borough.

There is at the Accrington Museum a collection of 27,000
specimens of Mollusca. A request for information concerning this
was readily granted by the Curator, Mr. A. Hanson. The first
curator was R. Wigglesworth, a conchologist known to many in the
old Manchester days. He was the first to record Sphzrium ovale
(as it was then known) from Lancashire, in 1862, and I now learn
that the locality was the Leeds and Liverpool Canal at Clayton-le-
moors. This, and a second set taken in 1886, are preserved in the
above Museum. An examination of the Synonymy put me on the

DEAN : TYPE LOCALITIES OF BRITISH MOLLUSCA. Ev?

track of Gray’s record, the one from Kensal Green, which is of
course in the Metropolitan Borough of Paddington. This, the type-
locality, no longer exists conchologically, and there is a definite
note to this effect in the Journal of Conchology in 1926 (vol. 18, p. 38)
by Grensted. |

Here, then, is a clear case for investigation and report on the
present range of the species in the two counties, Lancashire and
Yorkshire. Rimmer in 1880 gave Wakefield and Blue Bridge,
near York. One of the earliest pages of this Journal contains
Hebden’s record in 1874 for Stanley, and there is at Altrincham
Museum a fine series taken by Collier and Standen, at a later date,
at Hollinwood.

Textbook records, however, may be misleading. Gray’s
‘“ Turton ”’ of 1857 has, of course, the Kensal Green record only.
Reeve, in Land and Freshwater Shells, in 1863 adds Daniel’s Surrey
record, never confirmed. Jeffreys quotes Exmouth (Clark),
Paddington Canal (J. G. J.), canals and ponds in Lancashire
(Darbishire). Clark’s collection was given to Turton, and Turton’s
collection went to Jeffreys, whose collection is now at Washington,
U.S.A. The Lancashire record may refer to the Ashton locality
(vide Jackson in Fourn. of Conch., vol. 12, p. 54), which is R. D.
Darbishire’s unpublished record of 1860.

With this introduction let us turn to the list of British species
and see how many can claim to have been first found in Lancashire
or Yorkshire, or in North Wales. I have notes of twenty species
and shall be glad to hear of others.

1. Acanthinula lamellata (Jeffreys), 1830, Yorks.—Jeffreys’

original reference is in the Trans. Linn. Soc., vol. xvi, p. 333,
“from the neighbourhood of Scarborough, favoured me by
Mr. J. S. Miller of Bristol.” The type-locality is therefore in all
probability Forge Valley.
2. Amnicola taylori (Smith), 1901, Lancs.—Smith’s description
and record appeared in the Annals and Mag. Nat. Hist., series 7,
vol. 7, February, 1901. Fred Taylor’s first discovery of the species
was at Droylsden, Lancs., on 28th April, 1900. In September
of the same year the species was again collected in the Peak Forest
canal at Dukinfield (Fourn. of Conch., vol. 11, p. 9).

3. Chlamys distorta (da Costa), 1778, Yorks.—This species,
Pecten pusto Auctt., is, da Costa says, ‘‘ found on some of our shores,
as in Yorkshire at Scarborough and the mouth of the River Tees,
the coasts of Dorsetshire,” etc., etc. (Brit. Conch., p. 150). The old
saying, “ ’’Tis an ill wind that blows no one any good,” may apply
here; and the loss of an old name once again brings Scarborough
into notice as type-locality for an old species under a changed name.

12

178 | JOURNAL OF CONCHOLOGY, VOL. 20, NO. 6, DECEMBER, 1935.

4. Colus gracilis (da Costa), 1778, Yorks.—Another well-known
marine species which was first noticed from Scarborough by Martin
Lister, and figured by him in Hist. Conch., t. 913, f. 5, under the
name -Buccinum Rostratum gracilius. It is also the Murex corneus
of Pennant, but no locality 1s given.

5. Cultellus pellucidus (Pennant), 1777, N. Wales.—The type-
locality is Red Wharf Bay, Anglesey, as already mentioned, one of
the few cases where the record is substantiated by type-specimens
in the Pennant Collection at South Kensington.

6. Gari fervensis (Gmelin), 1791, Yorks.—This species, the
Psammobia ferroensis auctt., was first figured by Lister, who found
it at Scarborough.

7. Hanleya hanleyt (Bean), 1844, Yorks.—First described by
Bean in Thorpe’s Brit. Marine Conch. from specimens obtained at
Scarborough on the under-sides of rocks at lowest ee -tides,
and still the rarest of the Chitons on our coasts.

8. Hydrobia ulve (Pennant), 1777, N. Wales.—This species,
which occurs in such vast numbers around our coasts, was first
described by Pennant from Flintshire. This, and Pennant’s Solen
pellucidus, are the two species from Welsh localities of which type-
specimens exist in the Pennant Collection.

g. Lauria cylindracea (da Costa), 1778, N. Wales.—In the short
list of localities given by da Costa in Brit. Conch. is Leeswood in
Flintshire, probably one of the unspoilt localities for so common
a species.

10. Lepidochitona cinereus (Linné), 1767, Yorks.—The earliest
record I can find for this, our commonest Chiton, is one by Pennant
under the name Chiton marginatus. 'This was at Scarborough,
where probably it still exists, as it does in local colonies along most
of our shores.

11. Margaritifera margaritifera (Linné), 1758, Yorks.—The
pearl-mussel, for which some of the rivers of Lancashire and
Yorkshire are still productive habitats, was first noted by Lister
from the Rivers ‘‘ Air”’ and Ribble in Craven and the River Ure near
‘‘ Rippan ” (Ripon), and is the ‘ Chama-glycemeris margaritifera ”’
of Lister, and may possibly be assigned also to Lancashire, as this
county can certainly claim the Ribble.

12. Monodonta lineata (da Costa), 1778, N. Wales.—The earliest
records are apparently da Costa’s, and he mentions Barmouth, the
coast of Flintshire, and Anglesey ; also Ince in Cheshire. A fairly
general species on our coast, though on the Cheshire coast it may
be a thing of the past.

13. Natica catena (da Costa), 1778, Yorks.—First recorded by
Lister from the mouth of the Humber, according to da Costa in

DEAN : TYPE LOCALITIES OF BRITISH MOLLUSCA. 179

Brit. Conch., p. 84, in 1698; the other localities which are given
are all southern. i

14. Neptunea antiqua (Linné), 1758, Yorks.—Another well-
known species first figured and described by Lister, who received
specimens from Scarborough.

15. Planorbis dilatatus Gould, 1841, Lancs.—First recorded
as British by J. G. Jeffreys in 1869, and from Lancashire, for this
was Rogers’ record in June of that year, the localities being the
Bolton and Gorton canals. According to Fred Taylor this species
is not nearly so common as it used to be, probably owing to the
many recent stoppages at the mills and the absence of warm water,
which this species seems to prefer.

16. Planorbis levis Alder, 1838, Lancs.—First recorded as
British by Alder in 1838, and from Burnley, Lancashire, by F. C.
Long in June, 1886.

17. Solen marginatus Montagu, 1803, N. Wales.—First noticed
by Pennant from Red Wharf Bay in Anglesey and recorded as
S. vagina. Montagu gives (1) Laugharne, Carmarthenshire, as
well as Pennant’s locality (2) in Anglesey, so that it is difficult to
say whether Montagu’s Carmarthenshire locality should be recorded
as the type-locality. Personally I think it should. Both, however,
are historic.

18. Spherium pallidum Gray, 1856, Lancs.—As already
mentioned, the second record for this species came from Lancashire.
The Middlesex locality has already disappeared and the Lancashire
stations may soon be in danger. It would be as well if an intensive
survey of the present range of the species were undertaken.
Wigglesworth recorded it from Clayton-le-moors in 1862.

19. Theodoxus fluviatilis (Linné), 1758, Lancs. and Yorks.—
First recorded as British by Martin Lister in 1678 from the River
Ouse at Fooforth and Clifton (probably near York), from the
River Wharfe and River Lune at “‘ Kerby-Launsdale”’ on the
Lancashire border. As a matter of fact, most collectors know it to
be still quite common in the Lune as far south as Lancaster.

20. Vertigo alpestris Alder, 1838, Lancs.—This very local
species was first recorded as British in August, 1837, the first
Lancashire locality being Clitheroe, the collector Gilbertson, from
specimens collected (in 1837) nearly one hundred years ago. ‘This
reference reads: “4. alpestris (Fér.) Ald. Found at Clitheroe,
Lancashire, by Mr. Gilbertson ; and in Northumberland by Mr. J.
Thompson.” (Mag. Zool. and Bot., ii, p. 112.)

180

CATALOGUE OF RECENT LATIAXIS.
By J.’ Ro Le 8. Tonxivin-
' (Read before the Society, 11th May, 1935.)

LATIAXIS was erected by Swainson in his Treatise of Malacology,
pp. 82, 306, 1840, for the single species mawe Gray, but has
gradually come to be used for a number of beautiful species, very
highly decorative in form, and very doubtfully distinct generically
from those usually assigned to Coralliophila.

The well-known genotype of Latiaxis is abnormally loose in
coiling, but the operculum is absolutely the same as that of other
Latiaxis as well as of species which are admitted to be Coralliophila—
being more or less pear-shaped and having a lateral nucleus.

The catalogue which follows is an attempt to list all the recent
species which have at one time or another been assigned to Latiaxis.
Its position as a genus distinct from Coralliophila is thoroughly
discussed by Dall in Bull. Mus. Comp. Zool. Harvard, vol. 18,
p. 217. He seems there to suggest a larger lumping of species than
would be accepted to-day, and he also unites Pseudomurex
Monterosato with Coralliophila ; this, I think, is quite reasonable,
and Thiele in his Handbuch is inclined to acquiesce.

armatus, Latiaxis. Sowerby, Apr.,,1912, Ann. Mag. N.H. (8),
vol. 0, Dp. 472,d.2 2 .Ku., Typein B.M.
Much resembles pagodus A. Ad., but has the subperipheral
ridge very slightly indicated and is much longer in the spire.
babelts, Fusus. Requien, 1848, Cat. Cog. Corse, p. 76: Bonifacio.
Figured by Odhner in Ark. f. Zool., vol. 23A, no. 14, pl. i,
f. 19, as a var. of bracteatus Brocchi and as belonging to
Coralliophila. = bracteatus.
benoitt, Murex. ‘Tiberi, 1855, Descr. Alcuni Nuovi Test., p. 15,
pl. ui, f. 10-12. Mediterranean. = bracteatus.
bracteatus, Murex. Brocchi, 1814, Conch. Foss. Subap., vol. 2,
Ps woegpeplt ix, £..3.
Described as an Italian Tertiary fossil.
capensis, Latiaxis. ‘Tomlin, 1928, Ann. S. Afr. Mus., vol. 25,
D332. Pl: Bet 3.
Sandy Point, 95 f. Type in S. Afr. Mus.
cariniferus, Murex. Sowerby, 1st Oct., 1834. Conch. Ill., parts

66-7, f. 58. = bracteatus.
cariniferus, Murex. Wiener, 1843, Cog. Viv., p. 100, pl. xviii, f. 2.
Hab. ? . esieengr.

couturiert, Latiaxis. Jousseaume, ist Jan., 1898, Le Nat. (2),
vol. 20, p. 22. New Britain. = pagodus A. Adams.

TOMLIN : sis oh ach ta i OF RECENT LATIAXIS. 181

debrinchins: Pyrula (Rhizochilus). Reeve, ih Novi, 1857, PiZ.5.;
1857, p. 208, pl. xxxvili, f. 3. China (coll. Barclay). Acearding
to Dall it is also as widespread in the Caribbean as it is in the
Far East.

delessertit, Rapana. ‘Tryon, 25th Oct., 1880, Man. Conch., vol. 2,
PP 203,230, pli eive ty 240.
Cited from Chenu’s vernacular “‘ Pyrule de Delessert ”
in Legons Elém., p. 276, pl. ix, f. 4, 4a, 1847. = mawe.
diadema, Murex. A. Adams, 25th July, 1854, P.Z.S., 1853, p. 70.
Philippines (Mus. Cum.). TypeinB.M. = pagodus A. Adams.

elegans, Latiaxis. Angas, 1878, P.Z.S., 1878, p. 74. Hab.?
= bracteatus.

eugenize, Pyrula. Bernardi, 1853, fourn. de Conch., vol. 4, p. 305,
plow tiiig. China.

exfoliatus, Latirus. Sowerby, 1882, Thes. Conch., vol. 5, p. 3, pl. 424,
f. 15. New name for pagodus A. Ad. non pagodus Jonas. There
is, however, no pagodus Jonas, and the species that Sowerby
intended seems to be idoleum Jonas. = pagodus.

fimbriatus, Trophon. Hinds, 1844, Zool. Voy. Sulphur, vol. 2,
p- 14, pl. i, f. 18, 19. Str. Macassar, 11 f. Reeve unnecessarily
altered this name to luculentus in his monograph of Murex,
Sp. 1297,

jfincht, Latiaxis. Fulton, Feb., 1930, Ann. Mag. N.H. (10), vol. 5,
p- 250, text-figs. 2, 2a. Ku. Type in B.M. = deburghiz.

fortunt, Rapana (Latiaxis). A. Adams, 25th July, 1854, P.Z.S.,
1853, p. 99. China (Mus. Cum.). Type in B.M. with author’s

label. = eugeniz.

fritschi, Rapana. Martens, 1874, fahrb. deutsch. Mal. Ges., vol. 1,
ptay, ph vi, f.. 3. Cape terreus, of Conch “wel a7). 46,

fruticosus, Murex (Trophon). Gould, May, 1849, Pr. Boston Soc.
N.H., vol. 3, p. 143. New Holland. A dubious species united
by Tryon with Murex noduliferus Sow.

fusiformis, Pyrula. Rolland du Roquan, 1853, fourn. de Conch.,
vol. 4, p. 406. Hab.? Figured by Chenu in Lecons Elément.,
pis Las sae ae erm

fustformis, Coralliophila deburghie var. Dall, June, 1889, Bull.
Mus. Comp. Zool. Harvard, vol. 18, p. 219. W. Indies. A
form without spines. Name preoccupied.

gravest, Purpura. Broderip, 19th July, 1836, P.Z.S., 1836, p. 44.
Mediterranean. ‘Types in Norris and Broderip collections.
The latter (Brod. No. 1450) is now in the B.M. “ Figured in
Conch. Ill. as Murex cariniferus.” == bracteatus.

gyratus, Trophon. Hinds, 1844, Zool. Voy. Sulphur, vol. 2, p. 14,
pla, f) tay ney) Str Vineaesar ref,

182 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 6, DECEMBER, 1935.

hindsit, Trophon. Carpenter, 1857, Rept. 26th Meeting Brit. Assoc.
(1856), p. 205. New name for T. muricatus Hds. non Mont.

idoleum, Pyrula. Jonas, 26th Jan., 1847, P.Z.S., 1846, p. 120.
Hab. ? (Mus. Gruner). = gyratus.

japonica, Rapana. Dunker, 1882, Index Moll. Mar. Fap., p. 43,
pi. xi, £. 24°25. Japan.

kieneri, Latiaxis. Hidalgo, 1904-5, Cat. Mol. Test. Isl. Filip.,
vol. 1, Moll. Mar., p. 23. New name for Murex cariniferus
Kiener non Sow. |

kinoshitai, Latiaxis. Fulton, Dec., 1930. Ann. Mag. N.H. (10),
vol. 6,-p. 685, plo xvii, f.1, ta. Kit: Pype in B.M,

laceratum, Murex. Deshayes, 1856, fourn. de Conch., vol. 5, p. 79,
pl. itl, T3, 4. Aleeria, == brecreatus.

lintoni, Trophon. Verrill and Smith, Nov., 1882, American F. Sct.
(3), vol. 24, p. 365. New England. Figd. in Tr. Connecticut
Acad., vol. 6, p. 176, pl. xxix, f. 1, 1884.

Dall in Bull. Mus. C.Z. Harvard, vol. 18, p. 219, paces it

as a var. of deburghiz.

lischkeana Rapana. Dunker, 1882, Index Moll. Mar. fap., p. 43,
MeL 2s Ri, ogee. japan.

mawee, Pyrula. Griffith and Pidgeon, 1834, Moll. and Radiata,
D, $00, Bl. ee 3, 4. China,

In Zool. Beechey’s Voyage Gray calls it mawezx, and some
years later maire. Jousseaume in Bull. Soc. Zool. France,
vol. 8, p. 186, has mave.

muricatus, Trophon. Hinds, 1844, Zool. Voy. Sulphur, vol. 2, p. 14,
pli, t. 16,97.) Paneina, 10 f,

May be a Murex: see Tryon’s Manual, vol. 2, p. 202. The
name is preoccupied by Montagu and Carpenter changed it
to Trophon hindsit.

nodosa, Rapana (Latiaxis). A. Adams, 25th July, 1854, P.Z.S.,
1853, p. 98. Philippines (Mus. Cum.). ‘Types in B.M.

pagodus, Murex. A. Adams, 7th Dec., 1853, P.Z.S., 1851, p. 269.
Hab. ? (Mus. Cum.). Type in B.M.

pagodus, Latiaxis. Sowerby, 1882, Thes., vol. 5, p. 3, pl. 424, f. 2, 3.
(No loc.) Ascribed to Jonas, and perhaps a MS. name of his.
Gray in Aa: Wide. IN... (3); vol. 20). p. 78, mentions a
Latiaxis pagoda Johnson, which is certainly this. = gyratus.

pilsbryi, Latiaxis. Hirase, Dec., 1908, Conch. Mag., vol. 2, No. 12,
App: p00, pied, 230, 240; ph vill, fie Gad, 64 f«)Tosa.
Type in coll. Hirase.

princeps, Latiaxis. Melvill, 30th Oct., 1912, Pr. Malac. Soc.
London, vol. 10, p. 248, pl. xu, f. 15, and text-figs. Persian Gulf,
50 f., and near Mussandam, 55 f. ‘Type in B.M.

TOMLIN : CATALOGUE OF RECENT LATIAXIS. 183

purpurata Rapana. ‘Tryon, 25th Oct., 1880. Man., vol. 2, p. 203,

| pl. Ixiv, f. 345. Taken from the “ Pyrule pourprée”’ of Chenu’s
Lecons Elément., pl. ix, f. 2, 2a. = deburghiz.

regalis, Fusus babelis var. Requien, 1848, Cat. Cog. Corse, p. 76,
Bonifacio. = bracteatus.

rhodostoma, Rapana (Latiaxts). A. Adams, 11th Apr., 1855, P.Z.S.,
1884; p..138,. plo xxvin, #) a China (Mus. Cum.).') Smith is
certainly correct in transferring this to Latzrus.

ricinuloides, Latiaxis. Schepman, July, 1908, Siboga-Exp., Prosobr.
pt. i, monograph 49a, p. 359, pl. xxi, f. 7. Station 257.

rosaceus, Latiaxis. Smith, 31st Oct., 1903, Proc. Malac. Soc.
London,-vol. 5, p. 376, pl. xv, f. 16. Port Elizabeth. Type in
BoM, = frischt, 7

sallei, Latiaxis. Jousseaume, 1883, Bull. Soc. Zool. France, vol. 8.
p 186, ploy f) 3. Japan»: = sapenieus.

sibogee, Latiaxis. Schepman, July, 1908, loc. cit., pl. xxi, f. 8.
Station 89.

spinosa, Coralliophila deburghiz var. Dall, June, 1889, Bull. Mus.
Comp. Z. Harvard, vol. 18, p. 219. W. Indies.

spinosa, Coralliophila. Dall, 1925, Pr. U.S. Nat. Mus., vol. 66,
art, 17, Pp. Td, pl. xxavi, fT) 5,8," Honshu Is., Japan, Gof; The
same as spinosus Hirase, fide Fulton in Pr. Malac. Soc., vol. 19,
p- 19. Apparently not the var. spznosa above.

spinosus, Latiaxis. Hirase, Dec., 1908, Conch. Mag., vol. 2, No. 12,
App:, p. 71, pl. xlu, f. 253-4, Dosa. Lype.in,.coll, Hirase.
== pagodus A. Adams.

tabulatus, Latiaxis. Schepman, July, 1908, Siboga-Exp., Prosobr.,
pt. 1, monogr. 49a, p. 360, pl. xxi, f. 9g. Station 95.

tectumsinense, Murex. Deshayes, 1856, fourn. de Conch., vol. 5, p. 78,
pl. ii, f. 1,2. Algeria. Typein coll. Deshayes. = bracteatus.

texttlis, Latiaxis. Gray, July, 1867, Ann. Mag. N. H. (3), vol. 20,
p. 78. Error for tortilis.

tortilis, Latiaxis. H. & A. Adams, 1st Apr., 1864, P.Z.S., 1863,
p. 431. China. Type in, BiM,: 2 gyratus,

tosanus, Latiaxis. Hirase, Dec., 1908, Conch. Mag., vol. 2, App.,
p.7t, pl. xl, fas sr6) Tosa. Dype inieoll. Hirase.. This
runs very close to princeps and may even be identical.

turris, Purpura (Coralliophila). Moérch, 1872, Fourn. de Conch...
vol. 20, p. 129, pl. v, f. 4. Hab. ? Probably near Montevideo.

wilsoni, Coralliophila. Pritchard & Gatliff, 1898, Pr. Roy. Soc.
Victoria, vol. 10, Dh 140, Bb. Rkuk 8, OF Ort Pai ey
Hedley, in P.L.S.N.S.W., vol. 38, p. 331, who thinks it is the
same as nodosa.

winckworthi, Latiaxis. Fulton, Feb., 1930, Ann. & Mag. N.H.
(10), vol, §, p. 281, textefigs. 1,14. Ki. Type in BUM,

184

PROCEEDINGS OF THE
CONCHOLOGICAL SOCIETY OF GREAT BRITAIN & IRELAND.

628th Meeting (Annual Meeting) held in the Rooms of the Royal Society,
London, on Saturday, 19th October, 1935.

The President (Mr. J. Davy Dean, F.R.E.S.) in the chair.

Amongst those present were Messrs. H. R. Wakefield, A. P. Gardiner,
J. Rode B. Vornlin) ‘Chas:-Oldham; 1. ©.\’Yhomas, F.. Taylor; Geo.
Shrubsole, Arthur Wrigley, H. W. Worsfold, A. Blok, J. E. Cooper, H. C.
Fulton, A. G, Stubbs,’ G.. C- Spence, A. E. Ellis, Dr. J: W.. Jackson,
Professor A. E. Boycott, Lieut.-Col. A. J. Peile, Capt. C. Diver, Mrs. J. D.
Dean, Mrs. Morehouse, Miss J. D. Robertson, Mr. and Mrs. A. 5.
Kennard, Mr. and Mrs. R. Winckworth, Mr. and Mrs. W. J. Davey,
Mrs. Bowell, and Dr. John H. Boycott.

Election of Scrutineers.
Messrs. A. Blok and H. W. Worsfold were elected Scrutineers.

Election of Auditors.
Messrs. C. H. Moore and A. K. Lawson were elected Auditors.

Candidates Proposed for Membership.

L. C.D. Hermitte, W!.B., ChB. TM. and H., 32 Rutland” Park,
Broomhill, Sheffield, 10 (introduced by Lieut.-Col. A. J. Peile and Dr. J. W.
Jackson).

D.C. Thomas, 13 Queen’s Road, Ealing, London, W.5 (introduced by
Professor A. E. Boycott and Dr. J. W. Jackson).

Henry D. Russell, 182 Marlboro Street, Boston, Mass., U.S.A. (intro-
duced by William J. Clench and J. R. le B. Tomlin).

Wm. T. Trewin, c/o W. James Bailey, 250 Gillott Road, Edgbaston,
Birmingham (introduced by C. Theodore Cribb and Dr. J. W. Jackson).

Seville Wilson Brooks, 129 Hornby Road, Blackpool (introduced by
Miss Nora Fisher and Dr. J. W. Jackson).

John Bernstrém, 9 Skéldungagatan, Stockholm, Sweden (introduced by
H. Schlesch and Dr. J. W. Jackson).

Hon. Member Deceased.
Ph. Dautzenberg.

Member Resigned.
K. Howell.

Papers Read.

A number of papers was taken as read.

Presidential Address.

The President delivered an address on ‘‘ Conchological Cabinets of the
last Century ’’, and a cordial vote of thanks was passed unanimously.

Votes of thanks were also accorded to the authorities of the Royal Society
and the Manchester Museum for the use of rooms for meetings.

Election of Officers and Council.

The Officers and Council nominated for 1935-6 were unanimously
elected. The President is Lieut.-Col. A. J. Peile. The retiring President,
Mr. J. Davy Dean, becomes a Vice-President. No other changes were made.

PROCEEDINGS. 185

Exhibits.

By Mr. C. Oldham : Planorbis corneus (Linné) var. pyrrholeuca Oldham.
The F,, generation of two similar shells. In no generation has there been
any departure from this type of coloration: Limnza involuta ‘Thompson,
Loch Fleodach Coire, Inchnadamph, Sutherland, 28th June,1935; holo-
cene Vertigo genestt from Herts; Pisidium vincentianum Woodward,
Pleistocene of Sittingbourne, Kent (J. P. T. Burchell).

By Mr. A. R. Waterston : Giant Limnza truncatula from Barra, Hebrides
(10°7 mm. long) with an average English specimen ( 5:5. mim.) for
comparison.

By Mr. A. E. Ellis: Assiminea grayana Leach collected by Mir EA.
Ellis, of Norwich Castle Museum, in the following localities in Norfolk
and Suffolk : King’s Lynn (18th April, 1929), Scolt Head (29th May, 1934),
River Bure at Great Yarmouth (2nd May, 1929), St. Olave’s Bridge,
Haddiscoe (26th April, 1929), Lake Lothing, Lowestoft (5th March, 1933),
and Blythburgh (April, 1929). The specimens were accompanied by
ecological notes and a sketch-map showing the distribution of the species
in East Anglia.

By Mr. H. W. Worsfold : A small series of Cuban land-shells and species
of Cardiide belonging to the genera Cardium and Corculum.

By Mr. R. A. Phillips: Recent Vertigo genesii from Ireland.

By Lieut.-Col. Peile: Shells of all the known species of Poecilozonites,
recent and fossil; shells and radule of Macrochlamys glauca Pfr. from
Garhwal.

By Mrs. Morehouse: Nucella lapillus var. imbricata? from Tenby ;
Liguus, Chondrothyra, and Viana regina Mor. from Cuba.

By Mr. A. G. Stubbs: Handsomely marked series of H. aspersa from
Sussex ; L. stagnalis var. variegata, Lewes; Helicella heripensis, Sussex ;
drawings of mollusca and of fungi; necklaces of shells.

By Mr. W. Fowler: Eulimella macandrei. Forbes, Propilidium exiguum
Thompson, Lepeta fulva Miller, and Hedropleura septangularis Mont.
dredged off Oban ; also.a very large Emarginula crassa anassa Dean from
near Oban, measuring 2:8 X 3:8 X I'9 cm.

By Mr. G. L. Wilkins: Models of British Nudibranchs, including
Lomanotus marmoratus, A. & H., Thecacera pennigera Mont., Palio dubia
M. Sars, Okenia aspersa A. & H., and Doris coccinea A. & My: also
Buccinum undatum L. juv., and Neritina pulligera L.

By Mr. A. P. Gardiner: The British Pleurobranchidz according to
Engel, viz. Pleurobranchus membranaceus Mont., P. (Berthella) plumula
Mont., P. (Bouvieria) perforatus Ph.; also Lamellaria perspicua 1.., shells
and animals, showing female and ova in the Ascidian Leptodinium

~ maculosum.

By Mr. F. Taylor: H. nemoralis, showing colour and band variation,
and darts, H. aspersa and darts, H. virgata and vars.—all collected at
Cleveleys, Lancs., in August last.

By Mr. J. R. le B. Tomlin: Sinistral Vallonia pulchella ; a long series of
Continental Cochlicella acuta Miill.; rare Cypreide, including
hungerfordi Sow. (type), C. kiiensis Roberts, C. petitiana Crosse, C.
vredenburgi Schilder and C. hirasei Rob. (said by Schilder to be the second
known specimen) ; Alora gouldii A. Adams from the Bay of Panama (coll.
A. H. Cooke); Cancellaria trigonostoma Blv., C. antiquata Hinds, C.
corbicula Dall from 1,100 fms. off Cuba and other species.

By the President: Specimens from the Dillwyn Collection, now in the
National Museum of Wales at Cardiff, including five proposed lectotypes,
viz. Murex scolopax, Venus tiara, Distorsio mulus, Bullia cochlidium, and
Euchelus quadricarinatus ; also Nucella crispata Lam. (Dillwyn’s Buccinum
crispatum) and Cardium papyraceum Brug.; both valves of the Cardium
are marked—one marked “ papyra™” is probably Dillwyn’s writing ;
the other valve is marked mitidus ; Dillwyn wrote: ‘‘ I bought this shell of
Humphreys,” so the nitidus may be Humphreys’ writing.

186 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 6, DECEMBER, 1935.

By Mr. J. E. Cooper: Thirteen species of curious lamellibranchs,
including Trisis, Malleus, Pedum, Ephippodonta (both species), Corculum,
Brechites, and Metocardia. |

By Mr. A. Blok: Avseries of Cerion, mostly received from Maynard ;
Cyprea tigris L., showing variation in colour and size ; examples of mother-
of-pearl counters and thread-winders of the Victorian period ; Canon
Norman’s copy of Turton’s Land and Freshwater Shells, with manuscript
notes and addenda; holograph letter from Turton to unknown recipient,
April, 1828, acknowledging receipt of a parcel of shells and referring to
diagnoses of others ; holograph letter from J. E. Gray to Alder, May, 1838,
asking for information for use in his forthcoming revision of ‘Turton’s
Land and Freshwater Shells, and asking also for specimens for the British
Museum collection ; example of engraved Nautilus shell, period the early
1850’s—from the legend on the back of the first whorl it will be seen that.
the whole of the engraving was ‘‘ executed with a common penknife ’’.

ANNUAL REPORT.

This is the fifty-ninth Annual Report of the Society. Since the last
Annual Meeting the losses to the Society have been heavy ; five members
by death and four by resignation. Only one new member has been elected,
but there are six nominations in hand. ‘The membership at present is
213, including 3 Honorary Members.

The losses by death are the Rev. A. H. Cooke (see Obit., p. 77), E. W.
Bowell (see Obit., p. ror), G. C. Leman, Mrs. G. B. Longstaff, and
Ph. Dautzenberg, an Hon. Member (see p. 154).

Five ordinary meetings have been held at the Manchester Museum,
by the kind permission of the authorities. In addition, on the roth November
there was a joint meeting with the Yorkshire Conchological Society at Leeds.
This was well attended and many interesting exhibits were shown.
Mr. K. G. Howell, the President of the Yorkshire Society, was in the chair,
and Mr. G. C. Spence gave an interesting talk on Urocoptis, illustrating his
remarks with many specimens from his own collection. On the 6th April
a similar joint meeting was held at the Manchester Museum, and again
there was a good display of specimens, chiefly of local interest. The
President, Mr. J. Davy Dean, was in the chair and gave an address on
‘* Historical or Type Localities of British Mollusca ’’.

Two Special Exhibits were held during the year, these being ‘‘ Cyprea ’
and ‘‘ Past and Present Mollusca of the Manchester District ’’.

Eight notes and papers have been communicated during the year and
some have since appeared in the Journal. One of special importance is that
by J. A. Stevenson, on ‘‘ Cephalopods of the Yorkshire Coast ”’.

Three numbers of the Journal have been issued to members since the
last Annual Meeting, viz. Vol. 20, No. 3, 21st December, 1934, with
32 pages of text, 1 plate, and 2 text-figures; Vol. 20, No. 4, and April,
1935, with 32 pages of text, 5 plates, and 1 text-figure ; and Vol. 20, No. 5,
22nd August, 1935, with 32 pages of text.

Additions to the Library have been received from Messrs. H. Schlesch,
E. A. Ellis, C. Oldham, Curt Krausp, H. Watson, R. MacDonald, F. Baker,
Rev. E. P. Blackburn, Rev. G. A. F. Knight, and Miss Tera van Benthem
jutting.

Additions to the Cabinet have been received from Messrs. H. Schlesch
(photos and various); C. Oldham (Limnza pereger var. involuta, from
Inchnadamph, Sutherland, 28.6.35); D. K. Kevan (numerous voucher
specimens from Easterness, v.c. 96; Ross E., v.c.106; Sutherland E., v.c.
107; and Sutherland W., v.c. 108; all July, 1935); and a handsome gift
of radula slides from Mrs. Bowell (from her late husband’s collection).

bd

PROCEEDINGS. 187

RECORDER’S REPORT (Non-Marine Mollusca).

SINCE the last report (Vol. 20, p. 156) 206 new records have been
authenticated for the census. The most important novelties are Limnza
involuta, hitherto known only from south-west Ireland, discovered by
C. Oldham in Loch Fleodach Coire, 2$ miles north-east of Inchnadamph,
in Sutherland West, and Vertigo genesii (see this fournal, 1925, Vol. 20,
p. 142), which comes into the census for the first time from four localities
in central Ireland, found by R. A. Phillips. A number of old records have
also been verified from collections in the hands of A. S. Kennard and the
Scottish workers have again added many items.

As K. J. Morton (Scot. Nat., 1934, p. 83) has pointed out, W. D. Roebuck,
in his paper in the same journal (1916, p. 107) and, I may add, in the map
he left for the Society’s recorders, fell into error over the boundary between
Easterness and Westerness. H. C. Watson prescribed that it should be
the watershed between the east and west of Scotland and this Roebuck
brought across the Great Glen in an impossible position about half-way
along Loch Ness. It actually crosses immediately to the north of Loch
Lochy, and Glen Moriston and Glen Garry, with Lochs Oich, Garry and
Quoich are in Easterness and not, as Roebuck supposed, in Westerness.
G. C. Druce’s map in the Comital Flora of the British Isles is also wrong, but
not so wrong as Roebuck’s, while the true position is shown (on a small
scale) by B. N. Peach and J. Horne on plate xvii of vol. i of the Bathymetrical
Survey of Scottish Fresh-water Lochs (1910). Until this year the Census
had no records from the mislaid area. —

Specimens for authentication should in future be sent to Professor A. E.
Boycott, Ewen Farm House, near Cirencester.

Devon S. (3): Ceecilioides acicula (A. S. Kennard), Planorbis corneus,
Sphaerium rivicola (Exeter Canal, A. E. Boycott).

Somerset N. (6): Milax gracilis (A. E. Ellis), Acanthinula aculeata
(F. A. Knight).

Dorset (9) : Columella edentula (W. D. Sutton).

Isle of Wight (10): Helicella heripensis (L. E. Adams), Phytia myosotis
(H. W. Bristow, 1852, and J. E. Cooper).

Hants S. (11): Vertigo substriata (H. and J. Groves, 1877).

Sussex W. (13): Vertigo substriata (H. Groves, 1878).

Kent E. (15): Azeca tridens (McAndrew coll.), Pupa secale (H. C.
Huggins). |

Kent W. (16): Eulota fruticum (Penshurst, E. W. Bowell), Vertigo
antivertigo, V. substriata, Columella edentula (F.H. Gripper), Helix rupestris,
Hygromia fusca, Planorbis carinatus, Neritina fluviatilis (A. S. Kennard).

Essex S. (18): Hehx arbustorum (F. Corner), Vertigo pusilla (F. Taylor),
Claustlia laminata (A. S. K.), Limnza glabra (H. Groves, 1877), Spherium
rvicoia (1B. Ca;

Essex N. (19): Vallonia excentrica (J. French), Vertigo pygmea (B. B.
Woodward).

Herts (20): Clausila biplicata (Tring, W. Whitaker, 1870).

Middlesex (21) : Sphzrium ovale (Paddington Canal, J. Groves, 1875).

Oxford (23): Mulax sowerbiu (L. W. Grensted).

Suffolk E. (25): Limnza glabra (C. Reid), Paludestrina ventrosa (J. E.C.).

Norfolk E. (27): Valloma pulchella, Assiminia grayana (E. A. Ellis),
Paludestrina ventrosa (J. E. C.).

Norfolk W. (28): Punctum pygmzeum (A. Mayfield), Truncatellina
cylindrica (Thetford, per F. N. Haward), Assiminia grayana (E. A. E.).

Northampton (32): Pisidium pulchellum (E. P. Blackburn).

Gloucester E. (33): Limax cinereoniger, L. tenellus, Arion minimus
0 OR a Se

Hereford (36): Sphzrium rivicola (E. W. B.).

Worcester (37) : Hyalinia rogersi (N. G. Hadden).

Warwick (38): Ceciliotdes acicula (J. H. Bloom).

188 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 6, DECEMBER, 1935.

Stafford (39): Planorbis glaber (H. Overton).

Salop (40): Planorbis carinatus, Pisidium milium, P. pulchellum
(C. Oldham and A. E. B.).

Pembroke (45) : Limnza glabra (A. L. Leach), Planorbis glaber (J. Groves).

Montgomery (47): Planorbis corneus, Pl. contortus, Paludestrina jenkinst,
Anodonta anatina (C. O. and A. E. B.).

Denbigh (50): Limnza stagnalis (C. O. and A. E. B.), Paludestrina
ventrosa (F. T.).

Yorks M.W. (64): Milax gagates (garden, C.O.and A. E. B.).

Durham (66): Helicella heripensis (R. H. Lowe), Vertigo antivertigo
(J. R. Crawford). Truncatellina cylindrica (Claxheugh, R. House, 1848),
Pisidium pulchellum (E. P. B.).

Northumberland 5. (67): Pisidium pulchellum (E. P. B.).

Northumberland N. (68): Helicella heripensis (W. Philipson), Pupa
anglica (E. P. B.), Succinea putris, Valvata piscinais (M. V. Lebour),
Pisidium pulchellum (K. B. Blackburn).

Kirkcudbright (73): Planorbis vortex (F. R. Cotes), Pistditum pulchellum
(D: K. Kevan).

Ayr (75): Helicella caperata caperata (W. Evans), Pisidium llljeborgit,
P. mlum, P. mtidum, P. subtruncatum (A. R. Waterston).

Lanark (77): Limax arborum, Vertigo substriata, V. hlleborgi, Succinea
pfefferr (D. K. K. and A. R. W.), Pisidium amnicum (D. K. K.).

Peebles (78): Vallonia excentrica (D. K. K. and A. R. W.). |

Selkirk (79): Punctum pygmxum. Vertigo antivertigo, V. substriata,
Planorbis complanatus, Pl. fontanus, Valvata piscinalis, V. cristata (D. K. K.
and A. R. W.), Prsedium milium, P. mtidum, P. pulchellum (D. K. K.).

Roxburgh (80): Agriolimax levis, Arion minimus, Vertigo llljeborgt,
Succinea pfeifferi (D. K. K. and A. R. W.), Helicella caperata caperata
(J. Roseburgh), Pistdium hibernicum, P. lilijeborgit, P. milium, P. mtidum,
P. subtruncatum (D. K. K.).

Berwick (81): Vallonia pulchella (A. R. W.).

Edinburgh (83): Pzstdium amnicum (W. Evans and A. R. W.).

Fife (85): Vallonia excentrica, Planorbis complanatus, Anodonta anatina
CA, WK. WW s)s

Stirling (86): Heltcella caperata caperata (W. Evans), Ancylus lacustris
1. i. K. and. Aik WW).

Perth W. (87): Vertigo antivertigo, Limnzea auricularia acuta, Pisidium
lilljeborgu (A. R. W.), Valvata cristata, Pisidium henslowanum (D. K. K.
and A. R. W.).

Perth E. (89): Pisidium pulchellum (A. R. W.).

Kincardine (91): Vallonia excentrica, Vertigo pusilla, Paludestrina
jenkinst (J. E. Forrest and A. R. W.). 2
Aberdeen S. (92): Vertigo lilljeborgi, Columella edentula, Succinea

pfeiffert, Limnza palustris, Physa fontinalis (J. E. F. and A. R. W.).

Easterness (96): Vertigo lilljeborgi (J. E. F.), Zonitoides excavatus,
Ashfordia granulata, Helix nemoralis (by L. Oich), Pupa anglica, Vertigo
antivertigo, Limnza palustris, Planorbis spirorbis, Paludestrina stagnalis
(D. K. K.), Prsidium conventus (C. O.).

Ebudes 8. (102): Pupa anglica (K. H. Jones).

Ebudes N. (104): Vertigo lilljeborgi (J. E. F.).

Ross W. (105): Pisidium lilleborgiu, P. nitidum (A. R. W.).

Ross E. (106): Hyalima pura, Hy. crystallina, Zonitoides nitidus,
Punctum pygmzum, Vertigo pygmzxa, V. substriata, Columella edentula,
Clausilia rugosa, Succinea pfeiffert, Carychium minimum, Phytia myosotts
(Ks ae

Sutherland E. (107): Hyalima radiatula (D.K.K.).

Sutherland W. (108): Planorbis nautileus (M. I. Crichton), Vertigo
substriata (D. K. K.), Hyalinia cellaria, Hy. mtidula, Hy. crystallina, Arion
subfuscus, Vallonia excentrica, Vertigo antivertigo, V. pygmza, Carychium
minimum, Succinea pfeiffert, Limnza involuta, Valvata piscinalis (C. O.).

PROCEEDINGS. 189

Hebrides (110): Planorbis spirorbis (C. Elton), Limax maximus, Milax
gagates, Hyalima fulva, Valloma costata, Pisidium hibernicum, P. milium,
P. subtruncatum (A. R. W.).

Orkney (111): Hyalima nitidula, Pupa marginata, Planorbis glaber
(ih Peter.)

Shetland (112): Hyalinia crystallina (K. H. J.).

Down (115): Paludestrina ventrosa (A. W. Stelfox).

Donegal E. (119 E): Limnza palustris, Amphipeplea glutinosa, Planorbis

carinatus, Pl. albus, Valvata piscinalis, Succinea pfeifferi (H. Trevelyan).
Fermanagh (120): Planorbis spirorbis (H. T.).

Kildare (125): Vertigo antivertigo, Amphipeplea glutinosa (D. K. K.),
Neritina fluviatilis (A. R. W.).

Wexford (127): Vertigo moulinsiana (R. A. Phillips).

Kilkenny (129): Phytia myosotis (D. K. K.).

Queen’s Co. (130): Vertigo genesii (R. A. P.)

King’s Co. (131): Hyalinia alliaria (R. A. P.).

Westmeath (132): Planorbis glaber (H. and J. Groves).

Roscommon (134): Helicella heripensis (R. A. P.).

Galway N.E. (140 N): Vertigo genesii, Limnza palustris (R. A. P.).

Galway S.E. (140 S.): Vertigo genesii, V. lilljeborgi, Planorbis contortus
OUR to AP,

Clare (141): Vertigo moulinsiana, V. lilljeborgi (R. A. P.).

Tipperary N. (143): Helicella caperata caperata, Vertigo moulinsiana,
V. genes (R. A. P.).

Tipperary S. (144): Helicella caperata caperata (R. A. P.).

Waterford (145): Helicella caperata caperata (R. A. P.), Phytia myosotis.

Kerry 5S. (148 S.): Helicella caperata caperata, Ashfordia granulata,
Succinea pfeiffert (A. W. S.).

MARINE RECORDER’S REPORT.

Dr. H. Engel, in a paper on “‘ The English Species of the family Pleuro-
branchidae”’, pronounced specimens sent to him from Guernsey, Oban,
Salcombe, and Plymouth by R. Winckworth, A. P. Gardiner, G. C. Robson,
and E. S. Allan respectively, to be Pleurobranchus perforatus (Philippi).
It now appears that these are the true. Berthella plumula (Montagu) of
Winckworth’s list, while the animal which up to now has been thought
to be this species is quite different. In any case, we now have three distinct
species, not two.

Dr. N. B. Eales kindly brought me a number of Chitons from Tenby.
It is evident from these that Acanthochitona discrepans (Brown) is still
very numerous at that place. The President tells me that this has been
found by W. Fowler at Holyhead ; this is a new station for the species.

At my request, J. E. Cooper has sent me particulars of the distribution
of thirty-six selected species of outstanding importance in the matter of
dividing our coast into areas. His information is founded on his own
collecting or on specimens in his collection from reliable sources.

I should be grateful for further facts about the following among them :—

Osilinus lineatus (da Costa).
Cantharidus exasperatus (Pennant).
Patella depressa (Pennant).

Patella athletica (Bean).

Acteon tornatilis L.

All species of Lima.

All species of Cardium.

Of these, (1) does not seem to occur in the English Channel east of
Chideock, Dorset. From that place I have found it right round the coast

SIDu BW ND

190 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 6, DECEMBER, 1935.

up to Minehead, Somerset. (2) does not seem to exist in the Channel
east of Studland. I think that these are two examples of species which
will be found to be very important in mapping out areas.

W. Fowler has sent a long list from Oban. It is not to be expected
that many species would be found new to such a well worked place, but
he has sent several items of interest. :

Margarites groenlandicus (Gmelin) occurred in very large numbers in
the roots of Laminaria dredged off Kerrera. |
Eulimella macandrei (Forbes) was dredged in considerable numbers in

Kerrera Sound, and seems to be an addition to the Oban list.

A pure white form of Gibdula cineraria (Linné) was found on Laminaria.

Odostomia eulimoides (Hanley) was found on the ears of Chlamys striata
(Muller) as well as on Aequipecten opercularis (Linné) and Pecten maximus
(Linné). |

St. G. Byne found five ‘“‘ bones” of Sepia rupellaria = Parasepia
orbigniana (Férussac) on beaches near Falmouth, and five Crepidula formcata
(Linné) in beach rubbish at Helford. These were probably brought with
oysters introduced into the oyster farm at Port Navis. Great care should
be taken to guard against the introduction of this species into the beds.

Miss Norah Fisher finds Patina pellucida L.. on Laminaria digitata (see
paper). This observer has done valuable work on the occurrence of
Archidoris flammea (A. and H.); she finds it generally on Hymentacidon
sanguinea (see paper).

It occurred at Lough Ine, Co. Cork, not on this weed (Renouf). Dr. Eales
and Miss K. M. White allowed me to inspect species collected at Lough Ine.
These included Alderia modesta (Lovén). Miss White also reports Lanthina
cast up alive at Marazion.

Full lists and particulars of all the above observations have been made
and recorded for future use.

The Recorder will be grateful if any observers who do not enjoy collecting
and dissecting slugs will send him any examples of Pleurobranchide that
they may find. By so doing they will help to increase our knowledge of
the occurrence of the three British species of this family.

LIBRARIAN’S REPORT.

THE work of cataloguing has been steadily continued during the past
twelve months. :

In connection with the J. W. Taylor library, 470 works have been card-
indexed and listed.

The landshells in the smaller cabinet have been arranged and catalogued.

ANNUAL REPORT OF THE YORKSHIRE CONCHOLOGICAL
SOCIETY.

WE welcome Miss Kathleen Morehouse, of Leeds, to the Presidential
Chair this year.

Up to the time of submitting this report, nine meetings have been held.
The first meeting of the session was devoted to short papers by members
and general exhibits, with considerable success. The February meeting
was one for exhibits, and in March a highly interesting lecture on “ ‘The
Anatomy of the Gastropoda’ was the Presidential Address. In April
we joined forces with the parent society at Manchester, as reported else-
where. The May meeting was in charge of Mr. J. Digby Firth, who
conducted members to the Leeds Museum and displayed some of the
recent additions to the conchological collections, by kind permission of
the Museum authorities.

PROCEEDINGS. IQI

During the summer, excursions were made to York, Tag Lock, Brighouse,
and Ledston Luck, in June, July, and September respectively.

The 39th Annual Meeting was held in Leeds in October.

As pointed out in a special Report of the Council, the officers of the
Society view with apprehension the small attendances which have been
a most adverse feature during this year, and it is hoped to put in hand
special arrangements to endeavour to increase the attendances at future
meetings.

In November we are to entertain the parent Society at a joint meeting
in Leeds, when Mr. H. J. Armstrong will address the meeting, his subject
being ‘‘ Shell Money.”

The session will close with the December meeting for general exhibits.

Membership now stands at 29.

JoHN R. Disp,

Hon. Secretary.

ANNUAL REPORT OF THE LONDON BRANCH.

NINE meetings have been held during the past year, each equally successful.
Membership remains practically the same as last year. ‘The meeting held
on 19th November, 1934, was a special one to celebrate the 40th Anniversary
of the London Branch. Mr. J. Cooper, who was Secretary for some twenty-
five years, gave reminiscences of the early work of the Branch, and exhibited
a notice of a meeting held at the Borough Polytechnic in February, 1895,
at which Mr. A. S. Kennard gave an address on the Subfossil Moilusca of
Crayford. It is satisfactory to be able to record that Mr. Kennard is still
a staunch supporter of the Branch, and was in the Chair at this 4oth
Anniversary Meeting. The actual announcement in Science Gossip of the
formation of the London Branch by Canon Horsley, in November, 1894,
was also shown.

Another meeting which calls for particular remark was that held on
18th February, 1935, when Mr. A. Blok spoke at some length upon Pearls,
describing their growth, structure, and general aspect, touching upon the
industry of both the natural and the artificial product. Exhibits were
plentiful, for Mr. Blok obtained excellent examples of pearl structures,
both natural and cultured; altogether, a most satisfactory evening.

The Syllabus for 1935-36 is now in circulation, and the undersigned
will take pleasure in sending copies to any members or friends interested
in the work of the Branch.

G. L. WILKINs,

Hon. Secretary.

ANNUAL REPORT OF THE NORTH STAFFORDSHIRE BRANCH.

OwINc to the exceptionally dry season, Land Mollusca have not been
much in evidence. However the few members of this Branch have spent
many pleasant outings searching and observing. Messrs. H. Emmett
and J. H. Goodson report a thriving and well established colony of
H. caperata at Froghall, in the Churnet Valley, which they are led to
believe is a new locality for this species in Staffs. Clausilia laminata is
about extinct in its old locality at Consall, Churnet Valley, but has turned
up in fair numbers half-a-mile lower down the valley, where one specimen
of EF. obscura was found in association with it. Ancylus fluviatilis var. alba
still flourishes in its recorded habitat in Dovedale.

Messrs. J. and W. Hill, of Leek, have supplied the following interesting
notes. A new locality for ’Physa heterostropha i in good numbers in the canal
at Cheddleton, and on the same day some very fine shells of S. ovale were

192. JOURNAL OF CONCHOLOGY, VOL. 20, NO. 6, DECEMBER, 1935

obtained ; this species is rare and local in North Staffordshire. From
Endon they obtained eight species of Pisidium, viz.: P. hibernicum (one
specimen), P. mtidum, P. henslowanum, P. subtruncatum, P. obtusale,
P. milium, P. casertanum, and P. personatum. H. caperata, two specimens
of the very beautiful and rare var. obliterata taken near Cheddleton; in
the same locality H. nemoralis band formula (12)o00 has reappeared where
specimens were taken two years ago. V.substriata, two specimens obtained
from a marsh near Consall.

On 6th October a joint ramble by Messrs. H. Emmett, J. H. Goodson,
and J. and W. Hill, in the Churnet Valley, proved very successful. H. fusca
turned up in good numbers, and the party obtained an excellent series of
H. caperata. Mr. W. Hill got a very nice specimen of P. rotundata var.
alba. Other species taken were lV. crystallina, V. radiatula, and E. fulvus.

We regret the filling in of many ponds in our neighbourhood owing
to the advance of the builder, ponds that yielded good shells and other
forms of aquatic life.

A collection of British Land and Fresh-water Shells, rich in Staffordshire
species, is housed at the Hanley Museum, Stoke-on-Trent, and may be
consulted on application to the Curator.

We are still alive and active, and hope to appoint another President
in the near future.

Mr. C. Oldham has kindly named the Pisidia.

B. BRYAN,

Hon. Secretary.

Two editions of vol. i of The Conchologist —It is not universally known
that two editions of vol. i of The Conchologist were published. ‘The
original edition was a quarto, edited by Walter E. Collinge, and published
in London in 1891. Details of the dates of publication of the four parts are
as follows: No. 1, pp. 1-16, 25th March, 1891; No. 2, pp. 17-32,
24th June, 1801; No. 3, pp. 33-48, 20th September, 1391 ; No? ‘4,
pp. 49-58, 24th December, 1891. 'Title-page, index, and preface to vol. i
published with No. 4. This edition seems to be less known, almost all
libraries having the second edition, an octavo reprint. In reply to an inquiry
from one of us, Mr. Collinge wrote (4/4/1917) that “‘ The Conchologist
was originally issued (vol. i) as 4to and later this volume was reprinted as
8vo”’. Ina further letter (12/4/1917) Mr. Collinge said ‘‘ Certainly publish
a note re The Conchologist if you think fit. The reason of the reprint in
8vo was the inconvenient shape of the original vol. i. It was reprinted, as
near as I remember, early in 1903 a The pagination of the second
(reprinted) edition is as follows: No. 1, pp. 1-24; No. 2, pp. 25-48 ;
No. 3, pp. 49-72; and No. 4, pp. 73- 38 ok Re7e B. TomLIN and Nora
FISHER. (Read before the Society, 19th October, 1935.)

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A Bystemante: Fully Ilustrated Melons of Recent 4 Mollusks.
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| continued by
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It is believed that students of the Mollusca will find material of value to
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Vou. 20). 24TH MARCH, 1936. [No.7

LHe

- JOURNAL

OR.

CONCHOLOGY

FOUNDED 1874.

BEING THE ORGAN OF THE CONCHOLOGICAL
SOCIETY OF GREAT BRITAIN AND IRELAND.

Hon. Editor: Hon. Secretary : Hon. Treasurer :

J.R.leB. TOMLIN, M.A., | J. W. JACKSON, D.Sc., | C. OLDHAM, F.L.S.,
23 Boscobel Road, The Museum, The Bollin,
St. Leonards-on-Sea. The University, Shrublands Road,
Manchester, 13. —. Berkhamsted.
e CONTENTS. PAGE
List of Officers and Ca ihsil ; : ; Be ; . 193
List of Members : | . - 194
Distribution of Pl. corneus in Ulster—R. MacDonaLp . “194
Engel’s Paper on “ The English Species of the Family Pleuro-
branchide ”-—A. P. GARDINER . “4905
Neritina fluviatilis in Orkney (with Map)—A, ‘E. Boycorr . 199
Description of a New Species of Macrocallista (with figures) —
W. J. CLencu and R. A. MacLean . 201

” Studies of African L.& F.W. Moll.: Notes on Edentulina Pfr.
with Descriptions of New Species (pl. 8 and text-figures)—

J. Bequarrt and W. J. CLENCH 204
Apparent Disappearance of L. peregra . from Friston ‘Pond,

Eastbourne Downs—G. SHRUBSOLE 217
Proceedings: 2nd page autee, ae December, 193 . : ath

January, 1936 te 218
Accounts 220
Some interesting Monstrosities | in Cypreide (plate 9)—Dr.
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Habits of young H. pomatia—A. E. Boycotr . eo Bae

Monodonta lineata (da Costa) in N. Wales—Miss N. FISHER . 224
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By. h, LUCAS F.G.o: i A. P. GARDINER, B.Sc.

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‘to Ai i BLOOMER, F.L.S. PG.

Pro. Ay iB. BOYCOTT, M.A., | A. S. KENNARD, A.L.S., F.G.S.
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mn. EB. COLUINGE.” D.s¢, tot.) E.R. SY KES, BA. F.L.S.

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194

LIST OF MEMBERS.
Changes of Address, etc.

Boycott, Professor A. E., Ewen Farm House, near Cirencester,
Gloucestershire.

Buckle, Dr. W. F., Clare, Suffolk. 3

Burton, E. St. John, F.G.S., F.R.S.A., 99 Hankinson Road,
Bournemouth. )

Forcart, L., St. Johannvorstadt 22, Basel, Switzerland.

Lowe, R.H., 8 Sydenham Terrace, Sunderland.

Lumb, J. H., 1a Clarendon Place, Hopwood Lane, Halifax.

MacDonald, R., 112 Antrim Road, Belfast. |

@kland, Dr. F., Veterinaerinstituttet, Ullevalsveien 68, Oslo, Norway.

Salisbury, A. E., 51 Amersham Hill, High Wycombe, Bucks.

Schlesch, H., Pernillevej 23, Bispebjerg, Copenhagen, N., Denmark.

Sowden, H., York and District Field Naturalists’ Society, The Y.P.S..
Museum, York.

Wright, N. P., 2 Colville Square, Bayswater, London, W. 11.

The Distribution of Planorbis corneus (Linné) in Ulster.—It is now almost
five years since the appearance in this Fournal (Vol. 19, p. 119) of a note
on the above subject. Its occurrence in Ulster is of considerable interest,
as until the beginning of the present century it was only known to occur
in Ireland in Co. Kildare and the north-east corner of Queen’s County.
In the spring of 1930 Miss Nora Fisher found it plentiful in a pond in the:
grounds of the Glenville Hotel, Cushendall (Irish Nat. Fournal, vol. iii,.
p. 90). Later it was discovered in another pond at the same place—probably
introduced in both cases. In one of these it was associated with Limnza
pereger (Mill). Since this discovery, which was the first record for Ulster,
Planorbis corneus has been found in several other localities in Northern.
Ireland, in all of which it is probably safe to say that it has been introduced.
In June, 1933, Mr. R. J. Welch, while with a party of the Belfast Naturalists’
Field Club on the banks of the River Lagan—a canalized river—between
Drumbridge and Shaw’s Bridge, obtained a single immature specimen
near the former place; careful search did not reveal any others in this.
portion of the canal (Ivish Nat. Journal, vol. iv, p. 200). Mr. Welch the same
year found it in very large numbers in the pond of the new Spanish Garden
at Mountstewart demesne, Ards, Co. Down, where an unpigmented form
possessing a red body also occurs. Mr. D. J. Carpenter, of the Belfast
Field Club, and I paid several visits this summer to various parts of the
Lagan Canal to determine how far it might have spread since it was first
noticed two years ago. We found that it occurs in great numbers between
Drumbridge and Shaw’s Bridge, and in two small backwaters at Newforge
(Belfast side of Shaw’s Bridge), but not in the main canal itself on this side
of Shaw’s Bridge, but could not be found in the canal between Drumbridge
and Lisburn. In the Lagan canal it is associated with Limnzxa pereger
(Miull.), L. stagnalis (L.), Planorbis albus Miull., P. carinatus Miull., and
Bithynia tentaculata (L.). The only previous find of this species in the
Northern half of Ireland appears to be the specimens found by the late
W. F. de V. Kane in a lily pond at Markree Castle, Sligo, and given to
Welch, who recorded the find in the Irish Naturalist, vol. x, p. 131, 1901.

R. MacDonaLp.

195

ENGEL’S PAPER ON “ THE ENGLISH SPECIES OF THE
FAMILY PLEUROBRANCHIDZ ”’.

By A. P. GarpIner, B.Sc.
(Read before the Society, 7th December, 1935.)

ENGEL points out that British zoologists have up to the present
considered that there are two English species in this section of
animals, viz. :—

Pleurobranchus (Berthella) plumula (Montagu).
(Oscantus) membranaceus (Montagu).

There has been no difficulty about the latter ; its large size, thin
shell, characteristic shape, and many other features mark it off so
clearly that it is not necessary to consider it further. Under the
former name, however, Engel has shown very clearly that two species
exist in Britain. He points out that British zoologists have in the past
called all members of this group plumula if they were evidently not
membranaceus.

As a result of examination of animals sent to him from Plymouth,
Salcombe, Guernsey, and Oban, by Dr. E. J. Allen, Mr. G. C. Robson,
Mr. R. Winckworth, and the writer of this paper, Engel concluded
that the British area contained three species, not two only. He
arranged them as follows : —

Pleurobranchus (Oscanius) membranaceus (Montagu).
(Berthella) plumula (Montagu).
(Bouvierta) perforata Philippi.

The author of this paper first compared the descriptions of
plumula and perforata in Engel’s paper with such shells as were
available at the time; these included some from animals which had
been examined and named by Engel. This alone caused one to
suspect that Engel’s perforata was the plumula of Montagu, while
his plumula was an animal which up to then had not been recognized
in this country, or, rather, perhaps one should say that its
individuality had been swamped in what was really a description of
two species by some of the earlier writers.

It seems that Vayssiere in working on the Pleurobranchide
identified a Mediterranean species wrongly as plumula. Engel in
revising the group was biased by this, and overlooked the fact that
it was known that plumula Vayssi¢re was quite different from
plumula Montagu. Engel also had to depend upon spirit specimens,
whereas the writer and many other observers in Britain have had the
advantage of studying living animals. The following is a tabulation
of the differences observed on examining shells named perforata

196 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

and plumula by Engel. The shells were first placed in a row with
their ventral surfaces upwards, and the spire away from the observer.

plumula of Engel.
Cavity of the shell shallow.

Shoulder to right not angulated ©

and not tending to project be-
yond the spire.

Neither margin much curled in-
wards.

Lines of growth not very strongly
marked, rather wrinkled near the
edge.

Longitudinal folds from apex slight
or absent.

perforata of Engel.

Cavity deeper.

This shoulder angulated, and pro-
jecting beyond the apex of the
spire.

Margins slightly inflected.

More strongly marked and. less
wrinkled.

Folds more pronounced.

On placing the shells with the dorsal surface upwards the following

points were noticed :—

Shell flatter.

Longitudinal folds less prominent.

Rather less iridescent.

Folds parallel to lines of growth
inconspicuous. |

Margins straight and parallel.

General aspect of the shell rather
like Limax : a parallelogram with

Shell more convex.

Folds more prominent.

Very iridescent.

Folds more conspicuous specially
near the periphery.

Margins slightly hollowed.

General aspect like Testacella at
a casual glance.

the corners rounded off.

I do not think that the colour is of great value in distinguishing
the shells ; for instance, of two typical examples of plumula collected
in Guernsey by Tomlin, one is white, the other a brownish horn
colour.

The shells were then compared with the following drawings.

The drawing of plumula Montagu in Sowerby’s Index is exactly
like the shells collected by the author of this paper at Oban, and
named perforata by Engel. This is also true of the two figures in
Jeffreys’s British Conchology, pl. xcvii, especially of the one of the
part of the shell showing the apex.
_ The description of plumula Montagu in Jeffreys (vol. 5, p. 12)
is also far more that of Engel’s perforata than his plumula. At the
same time one is left with the impression that Jeffreys may have had
shells of both kinds before him, but had failed to detect specific
differences between them. Examples of this are noticed in the
following: His remarks on the margin point to Engel’s perforata.
Those on colour are, if anything, in favour of perforata. His mention
of the ‘slight furrow which runs from back to front” is
characteristic of perforata. On the other hand, “ squarish outline ”’
alone is more correct for Engel’s plumula.

The habits of plumula and perforata seem to be similar ; they are
generally found between tide marks on the undersides of rather
large stones. ‘They may be found in such situations in spring,
summer, and autumn. I have no first hand knowledge of their

GARDINER : THE ENGLISH SPECIES OF THE FAMILY PLEUROBRANCHIDZE.

197

habits in winter. ‘They do not seem to be subject to the marked
inshore migration in spring which I have remarked at Salcombe
in the case of Oscanius membranaceus Montagu. I have some doubt
as to whether perforata is commoner than plumula. Collecting
from Oban to the Channel Islands has on the whole given me a
different impression. It is now necessary to compare some other
anatomical features, as well as the shell in the following animals.

They are best tabulated :—

Vayssiére’s name .

Proposed name
General colour

Shell colour

Body

Shell shape

Radula

Mandibles
Plume

Measurement of
animal in mm.

Measurement of
shell in mm.

Ratio of body
length to shell
length.

Position of genital
orifice.

Locality of speci-
mens.
Distribution

Vayssiére’s description

plumula Montagu

wrongly.
engeli nov.
Pale yellow, citron
yellow, sometimes
orange.

Roseate amber yellow,
the rose especially
at the circumference.

Smooth when fresh,
tuberculate in
alcohol.

Naticoid, growth lines
fine, only visible
with lens. Longitu-
dinal striz finer.

Teeth shaped like
knife-blade, saw-
like in distal half.

Smooth.

Bipinnate, scarcely
half length of body.
18 dorsal, 17 ventral
pinnules (not alter-
nate in fig.).

20-29 x 10-15.

4-7 X 2°6-4:5.

5 to 4,

From fig., a little in
front of plume.

Marseilles.

Mainly Mediterranean,
also Norway, Heb-

rides, Devon,
Guernsey.

Vayssiére’s description
perforata Philippi.

plumula Montagu.
Iridescent, hyaline
white, somewhat rosy
or bluish over various
internal organs.
Milky white, somewhat
rosy in some speci-
mens, rather yellow-
ish in others.
Reticulated.

Ovoid, auricular, some
growth lines strong-
ly marked dorsally,
less so ventrally.
Numerous longi-
tudinal striz under
x 10, which give
iridescent effect by
crossing growth lines.

Teeth hook-like.

Serrated margins.

20 dorsal, 18 ventral
pinnules, each itself
bipinnate with about
12 little branches on
each,

25-380 x 14-17.

10-14 x 5-8-7.

2°b to 2*2,

From fig., immediately
adjacent to plume.

Roscoff (Brittany).

Channel, West coast
of France, Cette,
Sicily.

Montagu’s description

plumula Montagu.

Pale yellow above, yel-
lowish white below.

Yellowish white tinged
with brown at one
end.

Reticulated.

Ovate, oblong, strongly
wrinkled.

Pinnatifid, the pinnz
standing alternate
(pinnules with lateral
branches in figure).

Diam. nearly double
shell.
%in. X tin. [i.e.
12:5 x 6)
About 2.

Plume immediately be-
hind a protruded
foramen.

Milton (Devon).

In the preceding comparison it will be seen that in Vayssiere’s

diagnosis Montagu’s plumula agrees with perforata, but not with
plumula of Vayssiere. The one exception to this is perhaps found
in colour, but the author has found this to be very variable, so that
this difference seems to be outweighed by the evidence in favour of
perforata being plumula Montagu.

Montagu’s figure, for example, does show the relative positions
of the genital orifice and the branchial plume (a point also made

198 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

clear in Montagu’s description). The figure also shows the markedly
alternate arrangement of the pinnules, and also the well-developed
lateral processes of each pinnule. This view is also supported by
the size of the shell and its relative size to the rest of the animal.
If, as I am firmly convinced is the case, perforata Philippi and
plumula Montagu are the same animal, then Vayssiere’s plumula
is left without a name.

The plume characters and also those of the radula make it
desirable to place the two species in different genera, or at all events
in different sub-genera.

Now Berthella has as type B. plumula Montagu ; hence with the
recognition of the identity of plumula Montagu and perforata
Philippi, Bouvierta becomes a synonym of Berthella. Cleanthus
Leach is also a synonym of Berthella, so that no generic name is
available for the group brocki Vayss., citrina Leuck., edwardst
Vayss., granulata Krauss, and Engel’s so-called plumula. For the
Pleurobranchus (Berthella) plumula of Engel’s paper I therefore
propose the new name Berthellina with type species engelt nom. nov.
(Berthella plumula of Vayssicre).

In conclusion I am convinced that Dr. Engel’s identification of
Montagu’s Bulla plumula with Vayssiére’s Berthella plumula is
wrong. On all points of comparison, except colour, which is variable,
Montagu’s plumula agrees with Vayssiére’s perforata, and not with
his plumula. The drawing given by Montagu of the plume and
genital orifice is convincing and supported by the writer’s
examination of actual specimens of both species, the names of which

should be :—

Berthella plumula Montagu (= perforata Philippi of Vayssiere).
Berthellina engeli nov. (= plumula Vayssiere).

My thanks are due to Dr. E. J. Allen for a prompt response to
my appeal for specimens, which included both the species under
discussion.

BIBLIOGRAPHY.

ENGEL, H. Ann. Mag. Nat. Hist., ser. x, vol. 13, p. 583 (1934).

Monracu, G. Testacea Britannica, part i, p. 214, pl. 15, fig. 9; part u,
vignette fig. 5, and p. 583 (1803).

VayssizRE, A. Ann. Sct. Nat. (Zool.), ser. viii, vol. 8, pp. 271, 291 (1898).

199

NERITINA FLUVIATILIS IN ORKNEY.
By A. b Bowcorr

(Read before the Society 2nd November, 1935.)

In England Neritina is not uncommon in running water from
Somerset and Kent to North Lancashire and Yorkshire, and in
Ireland in the central parts. It is unknown in Devon and Cornwall,
in Wales except in Glamorgan, in the extreme north of England, and
in the whole of Scotland except for an outlying locus round the
junction between Stenness and Harray Lochs in Orkney, where it
was discovered by Edward Forbes? about roo years ago, more than
300 miles north of its nearest known station. As Forbes and
Hanley? say: ‘“‘ The question of the parentage of the Orkney
specimens is a curious subject for zoological speculation”; but
however they got there they have since been found in abundance
- on many occasions, e.g. by J. McMurtrie,? who remarks that “‘ the
shells are clean and beautifully. marked’, by T. Scott,* by J.
Waterston,® by K. H. Jones ® about twenty years ago who found
them ‘“‘ much eroded”’, and more recently by C. Oldham and
J. R. le B. Tomlin this year. The English and Irish distribution
seems to be determined by the need the species has for calcareous
water: it has never been found in really soft water, as in Cornwall,
North Wales, or the Lake District, and the least calcareous loci
I know for it are the Herefordshire Wye, with about 20 mgms.
calcium per litre (= 5 degrees of hardness), and the Lancashire
Lune, with about 30; most of its habitats have 60-100. In Ireland
Stelfox 7 says it is strictly calcicole, and Moquin-Tandon § that it
lives in calcareous districts in France. ‘The great majority of the
water in the northern half of Scotland is soft and it is interesting to
find that Neritina maintains its calcicole habit in Orkney which
I have been able to do with the kind help of Mr. Robert Rendall,
of Kirkwall, who got me three samples of water from different
places in the Neritina neighbourhood near the Bridge of Brodgar.
These gave 54, 85, and 96 mg. per litre of calcium, on the average
78 (== 20 degrees of hardness), so that the water is pretty well as
hard as in the Thames and other Neritina habitats in the south of
England. ‘The samples were taken on an ebbing tide and were

1 J. E. Gray’s edition of W. Turton’s Manual L.F.W. Shells Brit. Isles,

1840, p. 84.
A Fdast, Bui. Moll., 1853, vol. iii, p. 6.

3 In R. Rimmer, LEW. Shells Brit. Isles, 1880, p. 24.

4 Annual Reports of the Fishery Board for Scotland, 189g1, part ili, p. 269.

5 Aun, Scot. Nat. Hist.; ‘10903, 0. 82.

© Proc. Malac,. Soe., 1919); vol, xiii, py 182s

" Proc. Roy. drish MAedds 1911, vol. xxix, B,; ps Far:

8 Hist. Nat. Moll. Terr. Flur. de France, 1855, vol. ii, p. 548.

200 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

almost wholly freshwater, the salinity being only 0:2 per cent NaCl.
It is a pleasure to vindicate the precision with which Nerttima
chooses the places where it cares to live: there cannot be many
places in Scotland, especially in the northern parts, with hard water
which is not too stagnant to satisfy it.

NERITINA
FLUVIATILIS

°

——— |
100 MILES

That the water is hard is not surprising. Underground water
in Old Red Sandstone areas often, perhaps usually, contains much
lime, and the lakes are no doubt charged by springs and seepage
from the land as well as by surface streams. W. A. Caspari?
mentions a calcareous deposit in the Loch of Swannay, and the
Geological Survey Memoir 1° mentions much lime in the flagstones,
wind-blown shell sand in several districts, and calcareous marls
on the sites of former lakes; the springs, too, may deposit a
calcareous tufa. Dr. W. B. Bannerman has also been good enough
to tell me that all the deep and surface spring water in Orkney is
very hard.

[In July, 1935, the fresh clean examples were all under stones and not
abundant ; most specimens were on pebbles and coated with a white limy
deposit.—J. R. le B. T.]

° Bathymetrical Survey of the Scottish Fresh-water Lochs, 1910, vol. 1,
p. 271.
10 G,. V. Wilson, et al., Geology of the Orkneys, 1935.

201

DESCRIPTION OF A NEW SPECIES OF MACROCALLISTA.
By W. J. CLencH and R. A. McLean.
(Read before the Society, 11th May, 1935.)

In 1817 L. W. Dillwyn proposed the name Venus pacifica for a
shell called V. chinensis by Chemnitz in 1795. The name chinensis
was previously applied by Chemnitz in 1788 to another Venus.
Neither name was binomial! so that Dillwyn was justified in
proposing a new name. However, the name pacifica had been
applied by Bolten in 1798 to Venus plicata Gmelin, 1791. There
was no reason for this change by Bolten and consequently the name
Venus pacifica Bolten must be listed as a synonym of Venus plicata
Gmelin. This makes Venus pacifica Dillwyn a homonym of V.
pacifica Bolten. Sowerby (1855, p. 624) changed the name chinensis
to sinensis, on the basis that the latter as a classical term was to be
preferred and described it in the genus Cytherea. This name is not
to be confused with Cyclina sinensis (Gmel.). The two have never
been used together in the genus Venus. According to the zoological
rules this change is not an emendation but the creation of a new name.
_ Fortunately a name was needed so the above sinensis Sowerby can
be accepted as a new name to replace V. pacifica Dillwyn, 1817,
non Bolten, 1798.

Venus chinensis Chemnitz, 1795, Conchyl. Cab., 11, p. 227, t. 202,
f. 1976. non Venus chinensis Chemnitz, 1788, ibid., 10, p. 356,
tat 4) 166s.

Venus pacifica Dillwyn, 1817, Descript. Cat. Recent Shells, 1,
p. 175, non Venus pacifica Bolten, 1798, Mus. Bolten. p. 183.

Cytherea sinensis Sowerby, 1855, Thesaur. Conch., 2, p. 624,
pl. 131, f. 80-1.

Another change appears to be necessary. Venus costata Chemnitz,
1795, cannot stand, as Gmelin applied this name to another Venus
in 1791, and also according to Sherborn (see footnote) this volume
of Chemnitz is non-binomial. In either case a new name is necessary.

Venus costata Gmelin, 1791, [in] Linné, Syst. Nat., ed. 13, 1,
p. 3291. non Venus costata Chemnitz, 1795, Conchyl. Cab., 11,
p.296,. 1 202, f, Tame.

We suggest Macrocallista (Paradione) nioba, new name, to take
the place of Venus costata Chemnitz, referring to the same figures
as given by Chemnitz.

Dall (1902, p. 351) used Chionella Cossmann, 1886, as a section

1 Sherborn, 1902, Index Animalium, pt. i, for the years 1758-1800,
p. xxxvii of the bibliography, states in reference to Martini and Chemnitz,
Neues Syst. Conchyl. Cabinet, ‘“‘ Last vol. only binomial.” 'The last volume
referred to is vol. xii, 1829.

202 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

of Macrocallista, to include the non-elongate forms of this genus.
Later (1909, p. 197) he proposed the name Paradione to replace
Chionella Cossmann, 1886, non Swainson, 1840. Iredale (1924,
p. 210) proposed the name Notocallista for the Austral species in
this genus, selecting Macrocallista kingt Gray as the genotype.
His name is without question an absolute synonym of Paradtone
Dall.

We have received a series of shells from Western Australia that

appear close to Macrocallista (Paradione) moba. ‘The shells are more
laterally compressed than in this latter species and differ consistently
in colour.

MACROCALLISTA (PARADIONE) BARDWELLI, new species.

Shell rather oval, the diameter contained 2°4 times in the length.
The sculpture consists of fairly heavy concentric ridges. The upper
or umbonal sides of these ridges are nearly perpendicular, the lower
or marginal sides slope at an angle of approximately 45 degrees.
The entire outer surface of the valves is polished. Minute sculpture
consists of very small radial striz, limited to the lower posterior area
of the valves. These minute striz cross the concentric ridges at

CLENCH AND MCLEAN: A NEW SPECIES OF MACROCALLISTA. 203

right angles. The colour consists of a rich cream which shades into
a pink at the margin of the shell in adult specimens. There are
numerous radial bands and streaks of purplish brown which are
paler toward the beaks. Lunule very broadly lanceolate, defined
by slight grooves and coloured pinkish with a few irregular, chocolate
brown, thread-like lines. Region of the area more intensely rayed ;
escutcheon not defined. Interior white, sometimes with a tinge of
pink in the cavities of young specimens. Pallial sinus somewhat
pointed at the lower distal end and not quite reaching the mid-line.

Length. Height. Width.

8 mm. 58 mm. 33 mm. Holotype.
72mm. 51mm. 29 mm. Paratype.
62°5 mm. 45°5 mm. 26°5 mm. #
54mm. 40 mm. 22 mm. 5
59 mm. 44mm. 27 Tm . if

Holotype.—Mus. Comp. Zool. 92135, Broome, Western Australia,
B. Bardwell collector. Paratypes from above locality collected by
B. Bardwell and H. L. Clark, and from near Garden Island,
Fremantle, Western Australia, by H. L. Clark. A single paratype
deposited in the South Australian Museum.

Mr. B. C. Cotton, of the South Australian Museum, adds the
following: Fremantle; Yallingup, Geography Bay; Albany;
all South-west Division ; and Esperance, Eucla Division. Esperance
at about 122 degrees E. long. seems at present to be the eastern
limit of this species so far as known.

Remarks.—The above species resembles M. nioba in shape and
sculpture, but differs in colour, being darker, and in width as
compared to length. In M. nioba the width will go 1°9 times into
the length. M. bardwelli resembles M. erycina somewhat in
coloration and general appearance, but the coloration of M.
bardwelli is darker and the concentric ridges of this species are more
convex and evenly spaced. The ridges of M. erycina tend to be a
little irregular and are quite wide and flattened. Our present new
species is probably the one figured by Sowerby (1855, Thes. Conch.,
ii, p. 623, pl. 130, f. 71) as Cytherea costata var. pacifica Dillw.
but his figure is very much foreshortened and no accurate idea of
the shape of the shell can be obtained from it. Another species
that resembles M. bardwelli in coloration and gross external
appearance is Cytherza hagenowi Dunker, described from the Red
Sea. The ratio, for this species, of length to width is 2°1 to Ivo.
According to the figures that we have seen C. hagenowt Dunker is
a less elongate form than our present new species, and possesses
as well a truncated posterior end. Our new form has the posterior
end smoothly rounded.

204 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

BIBLIOGRAPHY.

BoLTEN, J. F., 1798, Mus. Boltenianum, 2, p. 183.

CHEMNITZ, J. ‘i: ., 1788, Conchyl. Cab. (1), 10, Ps REO,

17905, Conchyl. Cab.'(1), 41, pp. 226, 227.

Da.L, W. H., 1902, Proc. United States Nat. Mus., 26, p. 335-412.
1909, Proc. Malac. Soc. London, 8, p. 197.

Dittwyn, L. W., 1817, Descript. Cat. ‘of Recent Shells, 1, p. 175.

DUNKER, c 1848, Zeit. fiir Malak., 5, p. 184.

GMELIN, J. F 1791, [in] Linné Syst. Nat., (ed. 13), 1, p. 32901.

IREDALE, T’., 1924, Proc. Linn. Soc. N.S. Wales, 49, p. 210.

Reeve, L. A., 1864, Conch. Icon., 14, Dione Monogr., aot, :

SHERBORN, C. D., 1902, Index Animalium, pt. i, for the years 1758-1800.

SOWERBY, G. B., 1855, Thesaur. Conch., 2, pp. 623, 624.

STUDIES OF AFRICAN LAND AND FRESH-WATER
MOLLUSKS.

Notes on Edentulina Pfeiffer, with Descriptions of New Species.

By JosepH Bequaert? and WiLi1amM J. CLENCH.? |

(Read before the Society 11th May, 1935.)
[PLaTE 8.]

THE species described in this paper were recognized as new some
time ago and, since duplicates of some of them have been distributed,
their names should be rendered valid without further delay. The
opportunity is used to present a synopsis of Edentulina.

Edentulina Pfeiffer.

Ennea subgenus Edentulina Pfeiffer, 1856 (January), Malak.
Blatter, 11 (1855), p. 173.

Type by designation of Kobelt, 1904, Syst. Conch.-Cab., i,
Abt. 12B, pt. 1, p. 290: Bulimus ovoideus Bruguiére, 1789.

It may be noted that most species of Edentulina have an impressed
line a short distance below and parallel with the suture. In Gonaxts
and Marconia, on the other hand, the whorls are crenulated or
beaded below the suture.

The genus is exclusively African, Ea ining the species listed
below. Other species, included by Tryon (1885), Bourguignat
(1889), and Kobelt (1904), do not belong here.

affins C. R. Boettger, 1913; with var. gracili: C. R. Boettger,
1913.—Tanganyika Territory.

_ dussumiert (Dufo, 1840).—Seychelles, Madagascar ?).
grandis (Pfeiffer, 1846).—Socotra.

insignis (Pfeiffer, 18577)—Gaboon, Cameroon.

1 Department of Tropical Medicine, Harvard University Medical
School, Boston, Mass.

2 Museum of Comparative Zodlogy of Harvard University, Cambridge,
Mass.

JOURNAL OF CONCHOLOGY. PLATE 8.

Figs. 1-8: Edentulina affinis C. R. Boettger.

Amani. Natural Size.

Figs. 9 and 10: Edentulina ovoidea (Bruguiere).

Mayotte. Natural size.
[Facing p. 204.

il ‘
qi .
’
. i
. t
‘
(Sues
,
i;
{
r i
: “
(
.

BEQUAERT AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS. 205

intermedia (Morelet, 1851).—Madagascar.

johnstont (EK. A. Smith, 1887).—-Cameroon.

langiana Pilsbry, 1919.—Belgian Congo.

liberiana (Lea, 1840). Syn.: pupulus Morelet, 1848.—Liberia.

martenst (E. A. Smith, 1882); with var. subumbilicata (O.
Boettger, 1905), and form minor (d’Ailly, 1896).—Cameroon.

obesa (Taylor, 1877). Syn.: zanguebarica Morelet, 1889. With
var. bulimiformis (Grandidier, 1887): Syn. grandidiert Bour-
guignat, 1889.—Tanganyika Territory, Kenya Colony, Zanzibar.

oleacea (Fulton, 1903).—Tanganyika Territory.

ovoidea (Bruguiere, 1789). Syn.: tumida Morelet, 1860; ovoidea
var. mayottensis Dupuis and Putzeys, 1901; Bulimus grandis
Deshayes, 1851.—Comoros.

stumpffiit Kobelt, 1904.—Madagascar.

ulugurensis Bequaert and Clench, 1935. dese se ooh Territory.

usambarensis Bequaert and Clench, 1935.—Tanganyika ‘Territory.

We have seen specimens of all, except intermedia, johnstom, and
stump ffi.

Edentulina affinis C. R. Boettger.

Plate 8, Figs. 1 to 8.

Edentulina affinis C. R. Boettger, 1913, Proc. Mal. Soc. London,
x, pt. 6, p. 349, pl. xv, fig. 8 (Kipatimu, Tanganyika Territory).

Edentulina affinis var. gracilis C. R. Boettger, 1913, loc. cit.,
p- 349, pl. xv, fig. 9 (Kipatimu, Tanganyika Territory).

Bulimus ovoideus Woodward, 1859, Proc. Zool. Soc. London,
nm, .750° (iiloa [== ila), O° D.,° 30, tO 40° 2... Panganyine
Territory). Craven, 1880, Proc. Zool. Soc. London, p. 217 (Magila
in Usambara, ‘Tanganyika Territory). Not of Bruguiere, 1789.

Edentulina ovoidea Bourguignat, 1889, Moll. Afr. Equat., p. 140
(in part; specimens from Mt. Nguru, Usagara, 2,000 m.,
Tanganyika Territory). Kobelt, 1904, Syst. Conch.-Cab., 1, Abt.
I2B, pt. I, p. 290 (in part), pl. xxxiv, figs. 5-7 (specimens from
Tanganyika Territory).

Ennea ovoidea E.. v. Martens, 1897. Mitt. Naturh. Mus. Hamburg,
iy, 0. 413.

Ennea (Edentulina) ovoidea E. v. Martens, 1897, Deutsch. Ost-Afr.,
iv, Besch. Weichth., p. 11, pl. ii, figs. 11-13 (Mt. Miassa at Derema
in the Handei Mts., Usambara, 1,000 m.; Kitohaui, 26 kilom.
south-west of Sadi Mankanjila, on the plateau between Ukuledi
and Umbekuru ; both localities in Tanganyika Territory). Germain,
1916, Bull. Mus. Hist. Nat. Paris, xxii, p. 244 (Kipatimu, Tanganyika
Territory).

Tanganyika ‘Territory: Bagilo, Uluguru Mts., 5,000 feet;
Vituri, Uluguru Mts., 2,500 feet ; Nyange, Uluguru Mts., 3,000 feet

206 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

(A. Loveridge). Amani, Usambara Mts., 3,000 feet (A. Loveridge
and R. E. Moreau). Kizerui, Usambara Mts., 4,000 feet (A.
Loveridge).

We have seen in all nineteen full-grown specimens of this species
which appears to be common in the forested mountain ranges
a short distance from the coast in Tanganyika Territory. All large
Edentulinae seen from that territory are FE. affinis, and we have
reached the conclusion that those recorded from the same district
by Woodward, Craven, Bourguignat, E. v. Martens, and Germain
were also Boettger’s species and not E. ovotdea. When compared
with specimens of true ovordea, E. affinis shows the following
distinctive features: ‘The shell is only very slightly flattened on
the apertural face, so that in profile the axis of the spire runs near
the middle of the shell; the lower edge of the aperture is evenly
curved, not in the least sigmoid seen in profile ; and the base of the
last whorl is strongly convex, saccate. The sculpture is the same in
both ovoidea and affinis and the convexity of the whorls and
perforation of the columella show no very striking differences.

Size and shape vary greatly, as pointed out by E. v. Martens
and as shown by our figures of eight specimens from Amani. The
total length ranges from 32 to 46 mm., the greatest width from
16:5 to 22 mm. Fig. 6 is the slender form called var. gracilis by
C. R. Boettger, but it hardly deserves a name.

Edentulina langiana Pilsbry.

Edentulina langiana Pilsbry, 1919, Bull. Amer. Mus. Nat. Hist.,
xl, p. 171, fig. 60 (Stanleyville, Belgian Congo).

Ennea (Edentulina) ovoidea Dupuis and Putzeys, 1901, Ann. Soc.
Malac. Belgique, xxxvi, Bull. Séances, p. lix (Nsendwe, Belgian
Congo). Not of Bruguiere.

Belgian Congo: Stanleyville, one specimen. Katompe, Lower
Katanga, one specimen (Michael Bequaert).

This species is extremely close to the East African E. affints
C. R. Boettger, with which it agrees in the saccate base, the shape
of the lower edge of the aperture, and the very slight flattening of
the apertural face of the shell. It differs in being thinner, with a
much shorter and broader aperture, a thinner and more narrowly
reflected lip, and a longer and deeper umbilical crevice.

Edentulina ovoidea (Bruguiere).
Plate 8, Figs. g and ro.

Bulimus ovotdeus Bruguiere, 1789, Encyclop. Méthod., Vers, 1,
pt. 1, p. 335 (no locality). Shuttleworth, 1848, Zeztschr. f. Malakoz.,
v, p. 79. Pfeiffer, 1848, Monogr. Helic. Viv., ii, p. 45.

BEQUAERT AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS. 20'7

Ennea (Edentultna) ovotdea Pfeiffer, 1856 (January), Malak.
Blatter, 11 (1855), p. 173; 1859, Monogr. Helic. Viv., iv, p. 335;
1868, loc. cit., -v,'p. 45%; 1876, loc.’ cit., vil, ‘p.408.

Ennea ovoidea Morelet, 1860, Séries Conchyl., ii, p. 74 (Mayotte
at about 1,200 m.); 1877, Fl. de Conchyl., xxv, p. 336 (Anjouan) ;
1883, loc. cit., xxxi, p. 197 (Mayotte). Crosse and Fischer, 1889,
in Grandidier, Hist. Phys. Madagascar, xxv, Hist. Moll., pt. 1,
Atlas, pl. xxiii, figs. 2-2a.

Gibbus (Edentulina) ovoideus Tryon, 1885, Man. of Conch. (2),
1.182, pl. xvi fie, 18:

Edentulina ovoidea Bourguignat, 1889, Moll. Afr. Equat., p. 140
(in part). Kobelt, 1904, Syst. Conch.-Cab., i, Abt. 128, pt. 1, p. 290,
pl. xxxiv, figs. 1-4 (two specimens from Mayotte); 1910, fahrb.
Nassau. Ver. Naturk. Wiesbaden, \xiii, p. 167. Haas, 1929, Zool.
jahrb., Abt. Syst., lvii, p. 395 (Mayotte).

Ennea (Edentulina) ovotdea var. mayottensis Dupuis and Putzeys,
rg01, Ann. Soc. Malac. Belgique, xx«vt, Bull. Séances, p. lix
(Mayotte).

Bulimus grandis Deshayes, 1851, in Férussac, Hist. Nat. Moll.
Terr. Fluv., ii, pt. 2, p. 101 (Madagascar) ; [date ?, Atlas, pl. cxliv,
figs. 1-2; without name]. Not Pupa grandis Pfeiffer, 1846. |

Ennea tumida Morelet, 1860, Séries Conchyl., ii, p. 75, pl. v,
fig. 7 (locality unknown).

Gibbus (Edentulina) tumidus Tryon, 1885, Man. of Conch. (2),
Lee, Pl. eyil,. fer, 1m,

Edentulina tumida Bourguignat, 1889, Moll. Afr. Equat., p. 140
(“ Mayotte,” here given as locality, appears to be a mere surmise).
Kobelt, 1904, Syst. Conch.-Cab., i, Abt. 128, pt. 1, p. 292, pl. xxxiv,
fig. 8.

We have seen two specimens which we regard as true ovoidea : °
one from an unknown locality, the other from Mayotte. They differ
from £. affinis as follows: the shell is much flattened on the
apertural face, so that in profile the axis of the spire runs much
closer to the apertural face than to the strongly convex opposite
face; the lower edge of the aperture is curved backward, making
the lip strongly sigmoid in profile; and the base of the last whorl
is tapering, not convex. Our two specimens measure respectively
48:5 and 47-5 mm. in length, 22:6 and 22-5 mm. in greatest width.

EF. ovoidea is known with certainty from the Comoros only, where
it appears to be common. Published records from ‘‘ Madagascar ”’
seem to be all unreliable.

Edentulina grandis (Pfeiffer).
Pupa grandis Pfeiffer, 1846, Symb. Hist. Helic., iii, p. 95 (Socotra).
Philippi, 1847, Abb. Beschr. Conch., ii, p. 156 (p. 26 of Bulimus),

208 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

pl. Bulimus vi (xxxi), figs. 4 (type). Pfeiffer, 1848, Monogr. Helic.
V., Uy p. Bot. -Raister,.a952,).5yst:. Conch.-Cab.,. 1, Abt. 1s,
p. 120, pl. xvi, figs. 2-3. E. v. Martens, 1897, Deutsch. Ost-Afr.,
tv, Besch. Wetchthiere, p. 12. :

Ennea ovoidea Crosse, 1884, Fl. de Conchyl., xxxii, p. 357 (Socotra).
Not of Bruguiere. :

Following Shuttleworth’s suggestion (1848, Zettschr. f. Malakoz.
v, p. 79), Pfeiffer and others regarded Pupa grandis as identical
with Bulimus ovoideus Bruguiere. E. v. Martens seems to have been
doubtful about the matter, which he left undecided.

Two specimens, presumably from Socotra, at the Museum of
‘Comparative Zoology, agree with E. ovoidea in the sigmoid curve
of the lower edge of the aperture and in the shell being somewhat
flattened on the apertural face. They differ, however, in the much
more open and deeper umbilicus (in ovordea this forms a closed
slit), We are provisionally regarding them as specifically distinct
from ovoidea, even though recent collectors have failed to find
_Edentulina in Socotra. Deshayes’ Bulimus grandis was, we believe,
_E. ovotdea.

| Edentulina dussumieri (Dufo).

Puppa dussumiert “ Férussac”’ Dufo, 1840, Ann. Sct. Nat., Zool,
(2), xiv, p. 198 (Mahé, Seychelles; with brief description of a
young shell).

Bulimus dussumiert Reeve, 1849, Conch. Icon., v, Bulimus, pl. lxv,
fig. 457 (supposedly from “India’’). Pfeiffer, 1853, Monogr.
Hele, Vio.,)in, p. 362.

Pupa (Gibbulina) dussumiert Pfeiffer, 1856 (January), Malak.
Blatter, 11 (1855), p. 1743 1859, Monogr. Heltc. Viv., iv, p. 66r.

Ennea dussumiert Morelet, 1860, Séries Conchyl., ii, p. 79, pl. v,
fig. 8 (figures a specimen from the Seychelles in Férussac’s
collection ; claims it occurs also in Madagascar). Crosse and Fischer,

1889, in Grandidier, Hist. Phys. Madagascar, xxv, Hist. Moll.,
pt. 1, Atlas, pl. xxi, figs. 6-6a. Sykes, 1909, Trans. Linn. Soc.
London, Zool. (2), xii, pt. 1, p. 59 (Mahé; Silhouette; Praslin).

Gibbus (Gibbulina) dussumiert Nevill, 1868, Proc. Zool. Soc. London,
p- 260 (Mahé; Praslin; Silhouette; Feélicité; all Seychelles).

Gibbus dussumiert ‘Tryon, 1885, Man. of Conch. (2), i, p. 84,
pl. xvil, fig. 30.

Ennea dussimiert Paetel, 1873, Cat. Conch.-Samml., p. 83.

Ennea (Edentulina) dussumieri Pfeiffer, 1868, Monogr. Helic. Viv.,
Vv, p. 452; 1876, loc. cit., vil, p. 499. E. v. Martens, 1898, Mitt.
Zool. Mus. Berlin, i, pt. 1, p. 7, pl. 1, figs. 7-10, 1oa—d (Mahé ;

Silhouette). Wiegmann, 1898, loc. cit., p. 38, pl. 1, figs. 1, 2, 5, 7,
8; pl. iv, figs. 2-3 (anatomy).

BEQUAERT AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS. 209

Edentulina dussumiert Kobelt, 1904, Syst. Conch.-Cab., i, Abt.
I2B, pt. I, p. 298, pl. xxxiii, fig. 6-8.

We have seen many specimens from the Seychelles, some of them
from Mahe. There is no definite record of the occurrence of this
species in Madagascar or elsewhere.

Edentulina intermedia (Morelet).

Pupa intermedia Morelet, 1851, Rev. Mag. Zool. (2), iii, p. 220
(Port Léven, Madagascar). Pfeiffer, 1853, Monogr. Helic. Viv.,
mp. 520. .

Ennea intermedia Morelet, 1860, Séries Conchyl., i, p. 76, pl. v,
fig. 6 (type). Crosse and Fischer, 1889, in Grandidier, Hist.
Phys. Madagascar, xxv, Hist. Moll., pt. 1, Atlas, pl. xxiii, fig. 3.

Ennea (Edentulina) intermedia Pfeiffer, 1859, Monogr. Helic. Viv.,
HV, PD. 335.5 1900, loe, cit., Vipy aes; Teo, foo. Cit,, Vilyp..400,

Gibbus (Edentulina) intermedius ‘Tryon, 1885, Man. of Conch. (2),
i, p. 83, pl. xvii, fig. 20 (only).

Edentulina intermedia Bourguignat, 1889, Moll. Afr. Equat.,
p. 140. Kobelt, 1904, Syst. Conch.-Cab., i, Abt. 12B, pt. 1, p. 292,
pl. xxxiv, fig. 9.

According to the published figure this large species (41 mm. by
1g mm.) differs conspicuously from E. affinis and E. ovoidea in the
shape of the aperture, which is obliquely semi-ovate.

Edentulina stumpffii Kobelt.

Edentulina stumpfhi Kobelt, 1904, Syst. Conch.-Cab., i, Abt.
I2B, pt. I, p. 294, pl. xxxv, figs. 6-7 (Nossi-Bé).

Ennea intermedia var.? Kobelt, 1880, fahrb. D. Mal. Ges., vii,
Pp. 333, pl. viti, figs. 4-7. Not of Morelet, 1851.

_Ennea intermedia Crosse, 1881, fl. de Conchyl., xxix, p. 193
(Nossi-Bé). Not of Morelet, 1851.

Gibbus (Edentulina) intermedius Tryon, 1885, Man. of Conch. (2),
i, p. 83, pl. xvii, figs..22—3 (only).

This species is known with certainty from Nossi-Bé only. ‘There
is a possibility that it might be a Gzbbus. Haas refers doubtfully to
it a young specimen from Majunga, Madagascar (1929, Zool.
Fahrb., Abt. Syst., vii, p. 405).

Edentulina insignis (Pfeiffer).

Ennea insignis Pfeiffer, 1857, Proc. Zool. Soc. London (1856),
p. 388 (Gaboon) ; 1858, Novit. Conchol., i, p. 112, pl. xxxti, figs. 1-2
(type); 1859, Monogr. Helic. Viv., iv, p. 3353 1868, loc. cit., v,
D. 451; 1876, loc, cit, Fh p, 408.

Gibbus (Edentulina) insignis 'Tryon, 1885, Man. of Conch. (2), i,
pi 84, «pl. xvi, fie, wb:

14

210 © JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

Edentulina insignis Bourguignat, 1889, Moll. Afr. quat., p. 140. E.
Kobelt, 1904, Syst. Conch.-Cab., i, Abt. 12B, pt. 1, p. 293, pl. xxxv,
figs. 1-2. Degner, 1934, Zool. Fahrb., Abt. Syst., Ixv, p. 232,
fig. 15 (anatomy ; Buea, Cameroon).

Gibbus insignis d’Ailly, 1896, Bth. Svenska Vet.-Akad. Handl.,
xxii, Afd. iv, No. 2, p. 8 (Etome and Boana, Cameroon). O.
Boettger, 1905, Nachrichtsbl. D. Malak. Ges., xxxvii, p. 1577 (Buea
and interior of Cameroon).

‘ Cameroon: Buea; Sakbayeme near Edea; Kribi;_ several
specimens. We have also seen a specimen from the Gaboon.

Edentulina johnstoni (E. A. Smith).

Gibbus (Edentulina) johnstont E. A. Smith, 1887, Proc. Zool.
Soc. London, p. 127, fig. (type, on p. 128; Mt. Cameroon, 7,000-
8,000 feet, Cameroon).

Gibbus johnstoni O. Boettger, 1905, Nachrichtsbl. D. Malak. Ges.,
XXXVU, p. 158 (Mt. Cameroon).

Edentulina johnstoni Kobelt, 1904, Syst. Conch.-Cab., i, Abt.
L2E, pt, I, D. 207, O.. Xaxy, We, 10.

Edentulina (?) johnstont Degner, 1934, Zool. Fahrb., Abt. Syst.,
Ixv, p. 233, fig. 16 (anatomy of immature snail from Buea,
Cameroon).

This species is known from the Cameroon only, where it appears
to be rare.

Edentulina martensi (E. A. Smith).

Ennea (Edentulina) marteni FE. A. Smith, 1882, Jl. of Conch.,
iii, pt. 10, p. 301 (West Africa, without more definite locality ; also
based in part on v. Martens’ pl. iv, figs. 1-1a, of 1878, of a |
Cameroon shell).

Gibbus (Edentulina) martenst ‘Tryon, 1885, Man. of Conch. (2),
ip... Oa pl. xvil, fig.:17.

Gibbus martensi d’Ailly, 1896, Bih. Svenska Vet.-Akad. Hand.
xxii, Afd. iv, No. 2, p. 9 (Etome and Bomana, Cameroon ; with var.
minor, p. 9). O. Boettger, 1905, Nachrichisbl. D. Malak. Ges.,
XXXvVii, p. 157 (Buea; Bomana, 800 m., Mt. Cameroon; Bakossi
Mts., above 1,000 m.; all Cameroon).

Edentulina martensi Kobelt, 1904, Syst. Conch.-Cab., i, Abt. 128,
pt. i, p. 293, pl. xxxv, figs. 3-5. Odhner, 1932, Proc. Mal. Soc.
London, xx, pt. I, p. 20, figs. 2, 6, 7 (anatomy). Degner, 1934,
Zool. Fahrb., Abt. Syst., xv, p. 230, figs. 13-14 (anatomy; Buea,
Cameroon). Spence, 1925, fl. of Conch., xvii, pt. 8, p. 248 (Buenga,
Cameroon).

Marconia martensi Odhner, 1931, Ark. f. Zool., xxiii, A, No. 14,

p. 73 (radula).

BEQUAERT. AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS, 2II1-

Ennea insignis E. v. Martens, 1876, Monatsber. Ak. Wiss. Berlin,
p. 263, pl. iv, figs. 1-1a (Victoria and Bonjongo, Cameroon).
G. Pfeffer, 1878, Fahrb. D. Malak. Ges., v, pp. 62-8, figs. i-v
(anatomy). Not of Pfeiffer.

We have studied three specimens from Etome, Cameroon, part
of a lot recorded by d’Ailly.

E. martensi var. subumbilicata (O. Boettger).

Gibbus martenst var. subumbilicata O. Boettger, 1905, Nachrichtsbl.
D. Malak. Ges., xxxvii, p. 157, fig. 1 (Nongo madiba on the Bali
road, Cameroon).

Edentulina martenst subumbilicata Kobelt, 1904, Syst. Conch.-Cab.,
iy Abt, 128, pt:' 2; \p..172, ple pans: fies 1-3.

It is not impossible that this form may prove to be specifically
distinct.

Edentulina obesa (Taylor).

Ennea minor (?) E. v. Martens, 1869, in van der Decken’s Reisen
in Ost-Afrika, 11, Abt. i, p. 59 (no locality). Not of Morelet, 1851.

Buliminus obesus “ Gibbons”’ ‘Taylor, 1877, Quart. Fl. Conch.,
i, pt. 12, p. 255, pl. ui, fig. 3 (Bawri or Bawi Island, Zanzibar).

Bulimus obesus Craven, 1880, Proc. Zool. Soc. London, p. 217
(Magila in Usambara; Pangani; both Tanganyika Territory).

Ennea obesa E. A. Smith, 1881, Proc. Zool. Soc. London, p. 281
(near Lake Nyasa and between it and Daressalaam, Tanganyika
Territory). E. v. Martens, 1891, Sitzungsber. Ges. Naturf. Fr.
Berlin, p. 16 (Kisemo in Ukuere, Tanganyika Territory). E. A.
Smith, 1894, Proc. Mal. Soc. London, i, pt. 4, p. 166 (Witu and
Mangea, Kenya Colony). E. v. Martens, 1897, Mitt. Naturh. Mus.
Hamburg, xiv, p. 113 (Pangani).

Gibbus (Edentulina) obesus "Tryon, 1885, Man. of Conch. (2), i,
p. 33; pl. RV, fig, 24,

Ennea (Edentulina) obesa E. v. Martens, 1897, Deutsch. Ost-Afr.,
iv, Besch. Weichth., p. 13 (Derema in Usambara; Masai Steppe
at Pangani R.; both Tanganyika Territory). Germain, 1916,
Bull. Mus. Hist. Nat. Paris, xxii, p. 245 (Kipatimu, Tanganyika
Territory).

Edentulina obesa Bourguignat, 1889, Moll. Afr. Equat., p. 141
(Malindi and Mombasa, Kenya Colony; Tanga; Quiryana and
Neguru Mts., Tanganyika Territory). Kobelt, 1904, Syst. Conch.-
Cab,,.1; Abt. 128, ptt, O.,40%, pl. ReRVI,, fice, L112,

Ennea zanguebarica Morelet, 1889, Jl. de Conchyl., xxxvii, p. 10,
pl. i, figs. 7~7a (no locality mentioned, but presumably from
‘“‘Zanguebar ”’ or the coastal region of 'T'anganyika Territory).

Edentulina zanguebarica Kobelt, 1904, Syst. Conch.-Cab., 1,
Abt, (128; pt: 1, 'p. 909, DL Rey, Geers:

212 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

Kenya Colony: Mt. Mbololo, Taita Mountains, 10 miles from
Voi (A. Loveridge, 1934). Summit of Mt. Umengo, 13th November,
tg1t (E. Heller, Rainey Exp.). Tanganyika Territory: Nyange,
Uluguru Mts., 3,000 ft. (A. Loveridge, 1926). Zanzibar Island.

From the description and figure HE. zanguebarica is indis-
tinguishable from typical obesa. E. A. Smith (1894) reached the same
conclusion. He also synonymized EF. bulimiformis Grandidier and
E. grandidiert Bourguignat, but we believe these two names refer
to a form sufficiently distinct to be given at least varietal rank.
Dautzenberg (1908) also pointed out that grandidieri differs from
obesa.

Our specimens vary in length from 21-5 to 31-6 mm. and in
greatest diameter from 10-7 to 14°3 mm.

E. obesa var. bulimiformis (Grandidier).

Ennea (Edentulina) bulimiformis Grandidier, 1887, Bull. Soc. Malac.
France, iv, p. 188 (mountains between the Usagara and es
districts, Tanganyika Territory).

enbilna bulimiformis Bourguignat, 1889, Moll. Afr. Equat.,
pe tat

Ennea (Edentulina) obesa var. bulimiformis E. v. Martens, 1897,
Deutsch. Ost-Afr., tv, Besch. Weichth., p. 13 (Tegetoro in Uluguru,
1,100 m.; Mbagalala in Uluguru; Magila in Usambara; all
‘Tanganyika Territory). 2

Edentulina grandidiert Bourguignat, 1889, Moll. Afr. Equat.,
p. 142, pl. vil, figs. 8-g (Nguru Mt. in northern Usagara, 2,000 m.,;
Tanganyika Territory). Kobelt, 1906, Syst. Conch.-Cab., i, Abt.
LBB, pt.'2, ‘p. ¥71," pl kv, figs, 6+7. |

Einnea (Edentulina) grandidier: E. v. Martens, 1897, Deutsch.
Ost-Afr., tv, Besch. Weichth., p. 13. Dautzenberg, se Fl. de
Conchyl., ie Pp. 2 Voi Kenia Colony). | ung

Kenya Colony: Voi (A. Loveridge, 1934).

Both bulimiformis and grandidieri appear to have been based
upon a variation of £. obesa with the aperture narrower than usual.
Grandidier’s measurements of bulimiformis are: length, 27 mm. ;
width, 12mm.; aperture, 11 by 7mm.; and Bourguignat’s of
grandidiert: length, 28 mm. (given by error in the text as 18 mm. ;
the figure measures 28 mm.); width, 11 mm.; aperture, 11 by
7mm. One shell from Voi has a decidedly narrower aperture than
the other specimens of obesa we have seen. It measures: length,
16mm.; greatest diameter, 12 mm.; aperture, 10°7 by 7 mm.

Edentulina oleacea (Fulton).

Ennea oleacea Fulton, 1903, Fl. of Malacology, x, pt. 3, p. 99,
pl. ix, fig. 9g (Ukami, Tanganyika Territory).

BEQUAERT AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS. 213

Edentulina oleacea Kobelt, 1904, Syst. Conch.-Cab., i, Abt. 128,
pt: ap.408: |

Tanganyika Territory: Amani, Usambara District, 3,000 feet
three full-grown specimens (R. E. Moreau).

The species is allied to £. obesa (Taylor), but amply distinct.

>

Edentulina ulugurensis, new species.
Figs. 11 and 12.

Description—Shell convexly conic, thin, rimately perforate,
not appreciably flattened dorso-ventrally and with a pronounced
hump-like swelling on the body whorl above the aperture; the
base strongly convex or sack-like. Colour of periostracum light
straw yellow, the shell itself a pure white. Whorls 63, rather convex.

II 12 1a

Figs. 11 and 12: Edentulina ulugurensis Bequaert and Clench. Vituri.
Slightly less than natural size. Holotype.

Fig. 13: Edentulina usambarensis Bequaert and Clench. Lutindi. x 2
Holotype.

regularly increasing in width, the body whorl two-thirds of the
length of the shell. Spire acute as a whole, produced at an angle of
67° from the base line, the summit obtuse because of the flattened
first two whorls. Aperture subquadrate, its outer and inner sides
parallel and somewhat oblique to the axis of the shell. Outer lip
white, narrow, and very slightly reflected, scarcely ascending at the
suture ; in profile the edge is straight and cast obliquely from the
axis. Columella nearly straight, somewhat thickened and folded
above over the umbilical rimation ; the umbilicus is definitely open
when viewed at an angle and only appears to be rimate when viewed
from below. Suture not deeply impressed, not crenulated, but
margined by an impressed line along the inferior border. Sculpture :
first two whorls smooth; following whorls with an exceedingly
fine and close axial striation, which is somewhat interrupted by areas
of fine malleation ; the malleation is especially distinct below the
suture, where the shell is almost microscopically beaded ; ventral

214 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

surface of body whorl and area immediately behind the outer lip
almost devoid of sculpture.

MEASUREMENTS.
Greater Lesser
Length Diameter Diameter Aperture
20°2Mm. 1..17°5 min. | 1555 mm, gies by o:t mm. | Holotype

Holotype-—Museum of Comparative Zoology, No. 59926,
Vituri, Uluguru Mountains, 2,500 feet, Tanganyika Territory
(Arthur Loveridge, 1926).

Remarks.—The swelling on the body whorl is the most striking
feature of this species. This character is also found in Marconia
gibbosa Bourguignat (1889, Moll. Afr. Equat., p. 137, pl. vii,
figs. 6-7), also of ‘Tanganyika Territory. Our species is, however,
not related to gibbosa, which seems to be a Gonaxis (as suggested
by Gude, 1902, Proc. Mal. Soc. London, v, pt. 3, p. 205), 14 mm.
in length, and with a strongly crenulated suture1 We were at
first inclined to regard the gibbosity of our species as an abnormal
feature, but the shell seems to be otherwise normal. Moreover,
it differs from its nearest relatives also in other respects. The
much shorter and broader aperture separates it from E. affinis, E.
obesa, and E. oleacea; in addition affinis and oleacea have a closed
umbilicus, while in oleacea the axial striation is much more
pronounced and in obesa the whorls are more convex and the
summit more pointed. L. ulugurensis has a thinner and less reflected
outer lip and a much finer sculpture than affints.

Edentulina liberiana (Lea)

Bulimus liberianus Is. Lea, 1840, Proc. Amer. Phil. Soc., i, p. 174
(Liberia) ; 1841, Trans. Amer. Phil. Soc., N.S., vii, p. 457, pl. xi,
fig. 4 (type). Pfeiffer, 1848, Monogr. Helic. Viv., ti, p. 116; 1853,
loc. “cit., 11, p. 359. -Reeve, 1850, Conch. Icon., v, Bulimus,
pl. Ixxxviil, fig. 660.

Ennea (Edentulina) liberiana Pfeiffer, 1859, Monogr. Helic. Viv.,
iV P3905 Woes 0c. cit.;'¥, P4805 41076, loc. cit.; vil; p.' 490:

Ennea liberiana Dohrn, 1875, Malak. Blatter, xxii, p. 205; 1878,
Jahrb. D. Mal. Ges., v, p. 154 (living animal grass green). E. v.
Martens, 1891, Sttzungsber. Ges. Naturf. Fr. Berlin, p. 30 (Barombi,
Cameroon). Johnston, 1906, Liberia, ii, p. 861.

1 'The name Gonaxis gibbosa (Bourguignat) need not be replaced by
Gonaxis marcont (Gude), since the South American Streptaxis gibbosa
Pfeiffer was not originally described as a Gonaxis and is not now included
in that genus.

BEQUAERT AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS. 215,

Gibbus (Edentulina) libertanus ‘Tryon, 1885, Man. of Conch. (2),
i, p, 93,; pl. xvit few 26;

Edentulina liberiana Bourguignat, 1889, Moll. Afr. Equat., p. 141,
Kobelt, 1904, Syst. Conch.-Cab., i, Abt. 12B, pt. I, p. 297, pl. xxxv,
fig. 11. Conolly, 1928, Ann. Mag. Nat. Hist. (10), i, p. 529 (Kaiyima,
Sandoh Chiefdom, Sierra Leone). Spence, 1928, fl. of Conch.,
XVill, pt. 7, p. 211 (Ferme Suisse near Edea, Cameroon). Degner,
1934, Zool. Fahrb., Abt. Syst., \xv, p. 228, fig. 12 (anatomy ;
Gbandevulo, Sierra Leone).

Gibbus liberianus @’Ailly, 1896, Bh. Svenska Vet. Akad. Handl.,
xxll, Afd. iv, No. 2, p. 7 (Etome; Itoki; Ndian; Bonge; Kutta ;
Bibundi; all in Cameroon). A. de Rochebrune, 1898, Bull. Mus.
Hist. Nat. Paris, iv, p. 157. O. Boettger, 1905, Nachrichtsbl. D.
Malak. Ges., xxxvii, p. 156 (Mukonje and Bibundi, Cameroon).
Germain, 1911, Bull. Mus. Hist. Nat. Paris, xvii, p. 231 i wii
Ivory Coast).

Bulimus pupulus Morelet, 1848, Rev. Zool. Soc. Cuviér., xi, p. 352
(Gaboon). Pfeiffer, 1853, Monogr. Helic. Viv., i, p. abe

Ennea (Edentulina) pupula Pfeiffer, 1859, Ncaue, Helic. Viv.,
i... 2390:

Liberia: Camp No. 3 on the Du or Dukwa River; Suehn ;
Kakatown to Gbanga; Zanschue to Suah Koko; Paiata; twenty-
three specimens (J. Bequaert). Cape Palmas (M.C.Z.).

This species seems to be widely distributed in the West African
forest region. In Liberia it is quite common. It differs from most
species of the genus in the reduced size (19 to 25-3 mm. by g°8 to
13 mm.) and the conical spire.

We agree with d’Ailly that Bulimus libertanus Deshayes, 1851,
in Férussac, Hist. Moll. Terr. Fluv., ii, pt. 2, p. 102 [date ? Atlas,
~ pi. cl, figs. 19-20; without name], could not possibly have been
Lea’s species. The measurements (22 mm. by 11 mm.) and figures
seem to indicate Pupa minor Morelet (1851), from Madagascar,
which has been sometimes placed erroneously in Edentulina and
is probaby a Gzbbus.

Edentulina usambarensis, new species.
Figs 23:

Description.—Shell conic, thin, rimately perforate, not appreciably
flattened dorso-ventrally and possessing a strongly convex base. —
Colour of periostracum very light yellowish, the shell itself a pure
white. Whorls 6, flattened, regularly increasing in width and forming
a straight-sided and somewhat acute spire, produced at an angle of
69° from the base line ; body whorl about two-thirds of the length
of the shell. Summit obtusely rounded. Aperture higher than wide

216 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

and somewhat obliquely set to the axis. Outer lip white, narrow, and
very slightly reflected, moderately ascending at the suture ; in profile
the edge is straight and cast obliquely from the axis. Columella
nearly straight, slightly thickened above, and folded over the
umbilical rimation; the umbilicus very narrowly open, slit-like.
Sutures not impressed, not crenulated, but margined by an incised
line along the inferior border. Sculpture: first two whorls smooth ;
remainder finely and closely striated axially; between the axial
strize there are microscopic ridges, set spirally, but difficult to see ;
the sculpture is only slightly weaker on the ventral surface of the
body whorl and is quite distinct behind the outer lip.

MEASUREMENTS.
Greater Lesser
Length Diameter | Diameter Aperture

772mm. 8:8 mm. 8-omm. | 6°5 by 4°5 mm. | Holotype

Holotype—Museum of Comparative Zoology, No. 59919,
Lutindi, Usambara Mountains, 4,000 feet, Tanganyika Territory
(Arthur Loveridge, 1926).

Remarks.—E. usambarensis is one of the smallest members of the
genus. It is characterized by the conical outline, its greatest diameter
being in the lower third of the shell. It differs therefore in shape
from the other East African species, but is similar to the West
African E. lbertana.

219

APPARENT DISAPPEARANCE OF LIMNZZA PEREGRA FROM
FRISTON POND, EASTBOURNE DOWNS.

By G. SHRUBSOLE.
(Read before the Society, 2nd November, 1935.)

Tuis is an old disused farm pond of good size, with puddled bottom,
situated 350 feet above sea-level. Round three sides of it there is a
depression, and this shallow area, several yards in width, in wet
weather is part of the pond. Owing to the droughts of the last three
years weeds, coarse grass, and especially Glyceria fluitans have
overgrown this area up to the deeper water, whilst it was merely
wet mud. There is a good deal of Funcus, and the pond proper
holds Ranunculus aquatilis, Lemna minor, and Conferve.

L. peregra was taken in the pond in i1g1o and at fairly frequent
intervals since 1925, and the snail could always be seen when passing
the pond. No other species was taken (excluding bivalves).

In 1926 H. jenkinst was introduced into the pond, and on
15th April, 1930, was taken for the first time with L. peregra. ‘The
pond had not been dredged for a year or two, as its molluscan
content was well known.

In 1929 or 1932 or possibly on both occasions L. stagnalis with
P. albus got into the pond. It was first discovered on 5th April, 1934.
Dredging amongst the G. fluitans brought up L. peregra and some
young L. stagnalis. When the presence of the latter was realized
a careful search produced some adult snails. L. peregra certainly
predominated in numbers, the L. stagnalis were mostly one-third
grown to quite small, but there was a number of adults.

During the next few months it appeared as if the L. peregra
were decreasing in numbers, whilst the reverse was the case with
L. stagnalis. As this might be due to the adult L. peregra dying off
and the fry being inconspicuous, observation was continued and
a few notes made.
sth July.—L. stagnalis, very plentiful; L. peregra, only a few seen.
28th August.—L. stagnalis, all over pond; L. peregra, not to be

seen, but dredging produced a few fry.
11th October.—L. stagnalis, most plentiful; L. peregra, scarce.
1935. 1st March.—L. stagnalis, about 100; L. peregra, 1.
8th April.—L. stagnalis, in large numbers; L. peregra, 1.
6th May.—L. stagnalis, most numerous; L. peregra, 2.
28th May.—L. stagnalis, over 80 (counted); L. peregra, I.
17th June.—L. stagnalis, plentiful; L. peregra, 1 dead shell.
12th July.—L. stagnalis, very plentiful; L. peregra, none found.
26th October.—L. stagnalis, most numerous ; L. peregra, 3 (small).

Dredgings up to about June were mostly in the grassy area, but

later, as the water fell, the pond itself was included. In dredging

218 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

care was taken not to pick conspicuous snails, but to use the dredge
haphazard; but L. stagnalis could have been taken in almost
unlimited numbers.

In the ponds on the Downs the adult L. peregra usually die off
about June and only small snails are found later.

L. stagnalis in Friston Pond appears to be present in all stages
(adult to fry) from March to November. It may live longer than
L peregra.

It is a question if P. albus (which got into the pond at the same
time) is flourishing. Very few came to hand in this year’s dredging,
but it was not specially looked for.

H. jenkinsi is present in almost countless numbers.

Now, at the end of October, L. stagnalis can be seen everywhere
in the pond (adult snails in this water become very dark coloured).
Some pieces of paper floating on the water all have these snails
on them. No L. peregra can be seen. A few eee ago they were as
numerous as L. stagnalis now is.

L. peregra has probably been in the pond ever since it was made
(no date can be given), isolated, and with no fresh introduction
of stock.

Can it be that the recently introduced L. stagnalis are more
vigorous ? At the same time there is no shortage of food in the pond.

PROCEEDINGS OF THE CONCHOLOGICAL SOCIETY OF
GREAT BRITAIN AND IRELAND.

629th Meeting, joint with the Yorkshire Conchological Society, held at
Leeds, 2nd November, 1935.

Miss Morehouse (President of the Yorkshire Society) in the chair.

Election of New Members.

L. C. D. Hermitte, D. C. Thomas, H. D. Russell, W. T. Trewin, S. W.
Brooks, J. Bernstrém.

Papers Read.

*'The Mollusca of the Pocklington Canal, near York,”’ by H. Sowden.

* Neritina fluviatilis in Orkney,” by A. E. Boycott.

“ Colonization of Land Snails,” by A. E. Boycott.

“The Habits of young Helix pomatia,” by A. E. Boycott.

“Apparent Disappearance of Limnza pereger from Friston Pond,
Eastbourne Downs,” by G. Shrubsole.

Mr. H. J. Armstrong gave an interesting talk on ‘“‘ Shell-Money ”’ and
exhibited many specimens from his collection.

Exhibits,

By Mr. J. C. North.—String of Marginella from Karachi.

By Mr. H. Sowden.—Specimens to illustrate his paper; also types of
Cowries used as money.

By Mr. C. H. Moore.—Various species of British Vitrea, with critical
notes on same.

PROCEEDINGS. 219

By Mr. J. Digby Firth—Copies of The Conchologists’ Companion, by
- Mary Roberts, 1834; Histoire des Coquilles, by Brard, 1815 ; Conchological
Dictionary of British Isles, by W. Turton, 1819; and The Elements of
Conchology, by Thomas Brown, 1816.

By Miss Nora Fisher.—Varieties of Littorina saxatilis Ol. from numerous
localities (on behalf of the Liverpool Museum).

By Mrs. Morehouse.—Series of Chitons from Tenby and Scarborough ;
also Australian species.

By Dr. J. W. Jackson.—Paryphanta busbyi (Gray) and P. hochstettert
(Pfeiffer) and their eggs ; also “‘ Ring Cowry ”’, Cypreza annulus L., used as
shell-money at Darjeeling, India, and Ibadan, Nigeria, W. Africa; C.
moneta, rubbed down on back, from Belgian Congo, where it is known
as “‘ Jiggi”’; and other forms of shell-money.

630th Meeting, held at the Manchester Museum, 7th December, 1935.

Mr. G. C. Spence in the chair.
Member Deceased,

C.H, Schill,
Papers Read.

“A Discussion of Dr. Engel’s paper on ‘ The English Species of the
Family Pleurobranchidez’,’’ by A. P. Gardiner.
“On a new Aglaja from Japan,” by S. Hirase.

Exhibits.

By Miss Nora Fisher——Many shell-necklaces from New Guinea (on
behalf of the Liverpool Museum).

By Mr. C. H. Moore.—A series of Papuina ; also Anodonta cygnea from
Ashton.

By Mr. A. K. Lawson.—Ornaments made from shells.

By Mr. G. C. Spence.—Many species of Pterocyclos, Rhiostoma and
others.

By Dr. J. W. Jackson.—Illustrations showing the uses of shells by natives
of New Guinea.

631st Meeting, held at the Manchester Museum, 4th January, 1936.

Mr. G. C. Spence in the chair.
Candidate proposed for Membership.

Mrs. Cicely Mellor, Rochester, N.J. (introduced by W. H. Weeks and
Mrs. Morehouse). |

Members Deceased.
H. Coates. Rev. R. W. Nevill.
Exhibits.

By Miss Nora Fisher.—Series of shells from the Wexford gravels
(Pleistocene), Blackwater Cliffs, near Enniscorthy; also large Neptunea
contraria (L..) from the Red Crag (exhibited on behalf of the Liverpool
Museum).

By Mr. R. MacDonald: Fragments of calcrete-pebble from hollow in
sand-dune at Port Stewart, Northern Ireland. The included shells are
Cardium sp., Mytilus edulis L., and Hydrobia ulvae Pennant—the last does
not now live in the neighbourhood of the dunes.

By Mr. C. H. Moore.—Series of Limnza spp. from American localities,

By Mr. G. C. Spence.—Various species of Urocoptis and Schistoloma.

220

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14 222

SOME INTERESTING MONSTROSITIES IN CYPRAIDZ.

By ‘FS A.’ SCHILDER, D:Ph;
[PLATE 9.]

A FEW years ago I published a review and classification of
monstrosities occurring in Cypreide.! Later on I received four
abnormal shells, which seem worth recording; they are repre-
sented on plate g.

Fig. 1. An oblong Monetaria annulus Linn., from unknown
locality,? seems to be quite normal with regard to the posterior
extremity, to the flattened but not concave base (Fig. 1a: basal
view), and to the narrow yellow ring by no means confused nor
double (Fig. 15: dorsal view). The only abnormality consists in
a greyish fulvous, partially slightly iridescent callous thickening on
the anterior extremity (its limits are marked by a dotted line), which
encloses innumerable minute particles of mud; this thickening
projects in the axis of the shell, so that the siphonal canal is by no
means recurved (Fig. 1c: view from the right side). ‘Therefore,
this abnormality must not be confounded with the more frequent
really rostrate “ varieties ’’. In the rim behind the anterior terminal
ridge of the inner lip there is a grain of sand apparently situated
outside the thickened callus, but covered by a thin layer of the same
pathological enamel.

Fig. 2. A Monetaria camelorum Rochebr.,*? from Tanga, ex-
hibits a quite stunted outer lip (Fig. 2a: basal view) and a deep
longitudinal incision on the right side (Fig. 2c); the outer lip is
narrow, short, and exhibits only a few traces of labial teeth ; it is,
moreover, elevated above the level of the inner lip (Fig. 2d: view
from behind) ; the lateral incision is sharply cut, steep, and nearly
straight on its dorsal border, whereas its basal border is less regular
and partially incrusted by calcareous masses containing many
particles of mud. The dorsal view (Fig. 25) shows a pale-bluish area
on its right portion, encircled by a deep yellow, rather broad, and
somewhat confused ring, whereas traces of a much paler ring can
be observed in the pale flesh-colour left portion of the dorsal surface.
This monstrosity may have been caused as follows: The former

1 Zeitschr. Morphol. u. Oekologie der Tiere, ser. A, vol. 19, pp. 144-159,
with 48 figs. (1930); the most important former papers have been quoted
in Fossilium Catalogus, part 1-55, p. 72, sub “ Missbildungen ”’ (1932).

2 In a special study on geographical races and ecological varieties in
Monetaria the Linnean “ annulus’ (including obvelata) will be separated
into five races; the figured shell seems to belong to the ecotype ‘‘ A ”’
of the Pacific race, which must be called nouméensis Marie. |

3 In the paper noticed in the preceding footnote the ‘‘ annulus’ from
East Africa will be separated as a distinct species, called camelorum ; the
ecotype of the figured monstrosity was “A ”’.

JOURNAL OF CONCHOLOGY. PLATE Q.

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SCHILDER : SOME INTERESTING MONSTROSITIES IN CYPRAEIDZ. 223
é

top of the dorsum, the position of which is still indicated by the
bluish area and by the deep yellow ring encircling its left border,
was cut by some accident, so that almost the whole right side was
broken off. ‘The animal tried to regenerate this part of the shell,
but its powers were insufficient to reconstruct the whole sixth of
the periphery of the body whorl; therefore the animal attached the
new outer lip immediately to the incision near the top of the dorsum,
and was obliged to use a new level for the basal surface of the shell
(Fig. 2e: the dotted line indicates the circumference of the
monstrous shell from posterior view as in Fig. 2d, projected to a
normal shell on normal level, marked by a drawn line). This change
of the level caused a torsion of the inner lip indicated by an
impression in its centre, by the abnormally narrow and depressed
new body whorl, and by the beginning of a new yellow ring, which
is still pale, but distinctly encircling the new dorsal area. Besides,
the new outer lip became short, the outlets shallow, broad, and not
situated in the axis of the shell.

Fig. 3. In a rather worn subpellucid specimen of Erronea
vredenburgt Schil.,4 from Tyilaut Eureun, South-West Java (set
“FE” 5), the left side is swollen in a curious way, so that the shell
looks asymmetrical (Fig. 3a: basal view); the inflated portion is
separated from the normal right half of the shell by a rather distinct
longitudinal suture on the dorsum (Fig. 3b), accompanied by an
impression especially in the posterior part of the shell (Fig. 3c;
view from behind). The dorsal wall of the inflated left part is about
as thick as the right part, but the transversal bands become
indistinct. ‘This monstrosity may have been caused by the left
portion of the dorsum being hurt and regenerated ; but it may also
be explained by abnormal hypertrophy of some organ of the animal,
as a specimen of Erosaria gangranosa Dillw., from the same locality
(set “ C”’), shows a similar, though far less marked, swelling on the
left side without any trace of suture.

Fig. 4. A small tuberculated shell of Monetarta moneta Linn.,
from the Gilbert Islands,® shows a grain of sand squeezed into the
posterior outlet (Fig. 4a: basal view); it has been covered by a
layer of callus, which entirely fills up the outlet (Fig. 40: view
from behind). Fig. 5 shows the normal aspect of the posterior
outlet in a specimen from New Caledonia.

4 A normal specimen has been figured in Zoolog. Anzeiger, vol. 85, p. 137
(1929).

* See Proc, Malac, 800. val. at, 0. 200 (1034). |:

6 In the study mentioned in footnote 2 the Pacific race of moneta will be
separated as subsp. tuberculosa Quoy and Gaim.; the figured shell belongs
to the ecotype ‘‘E”, which formerly generally has been named
ethnographica Rochebr.

224. JOURNAL OF CONCHOLOGY, VOL. 20, NO. 7, MARCH, 1936.

Colonization of Land Shells.—As I am shortly leaving the neighbourhood
I had better put on record the establishment in the garden of what has for
many years been 17, and is now 20, Loom Lane, Radlett, Herts, of colonies
of (1) Helix pomatia brought from Ramsbury in Wilts in 1920 and in 1923
and in larger numbers from the railway embankment at Coldharbour,
Harpenden, Herts, in-1926; and (2) Clausiha biplicata brought from the
locality (now perhaps destroyed) at Chiswick by Barnes Bridge in 1925.
Of the latter I could find nothing till 1930, when a single specimen appeared
and since then there have always been a few about——A. E. Boycott.
(Read before the Society, 2nd November, 1935.)

The Habits of Young Helix pomatia.—Several people have commented
on the boldness with which adult H. pomatia will walk about in the open
in broad daylight: they behave as if they had no enemy to be afraid of,
and their size and the thickness of their shells would seem to be an adequate
protection against thrushes or any similar inland bird. Correspondingly
it is very rare (though not quite unknown) to find their remains on thrush
stones. From observations on a colony which has lived for some years in
our garden, I can entirely confirm these impressions ; adults are often out
on the lawn in the daytime in suitable weather, and I have but once seen
one (and that a three-parts-grown specimen) broken up by a thrush, though
these birds have been very active during the last three dry summers in
finding and smashing the few H. aspersa and H. hortensis which live in the
garden. Young pomatia of about 20mm. diameter or less I never saw at
all alive or dead until by chance I looked over the patch of nettles and horse-
radish in which they live with a lantern and so found that they are, wisely
enough, nocturnal like most other snails——-A. E. Boycott. (Read before
the Society, 2nd November, 1935.)

Monodonta lineata (da Costa) in North Wales.—This littoral gastropod
mollusk has, in Great Britain, an essentially south-western distribution, and
in Wales its range extends northwards only to Pwllheli, on the south coast
of Caernarvonshire, whence it was first recorded by Da Costa (Historia
Naturalis Testaceorum Britanniae or The British Conchology, 1778, p. 101).
In August of this year (1935) Mrs. A. Anderson brought mea small collection
of shells made at Clynnog, which is about 9 miles south-west of Caernarvon,
on the northern coast of the county, and in it were three perfect though dead
shells of Monodonta lineata. The shells were fresh-looking and bore every
appearance of being recent. All the shells in the collection were gathered
on the beach at Clynnog, and no other part of the coast was visited. This
northward extension of its range in Wales suggests that perhaps Donovan’s
old record of this species from Anglesea (see Jeffreys, Brit. Conch., vol. 3,
p. 318, 1865) is correct after all, although Forbes (Brit. Assoc. Rept., 1850,
p. 255) stated that its range ceased in Cardigan Bay or a little higher up,
and Tomlin (Trans. Liverpool Biol. Soc., 6, p. 114, 1893) says that the
Anglesea record “‘ certainly requires confirmation ”’. The Clynnog specimens
have been presented to the Free Public Museums, Liverpool.—Nora

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Conchological Cabinets of the Last Century, Ciecoientel ao
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“Vou. 20] 9 IsT JULY, 1936. ——[No. 8

Some Tristram Types—A. J. PEILE Agee j | 284
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JOURNAL «Or CON LOLOGY.

VOL. 20. Ist JULY, 1936. No.8

CONCHOLOGICAL CABINETS OF THE LAST CENTURY
By J. Davy Dean, F.R.E.S.

(Presidential Address delivered at the Annual Meeting, 19th October,
1935.)
INTRODUCTION.

A TRAVELLER when exploring new country often finds it wise to
look back along the route by which he came, in order to determine
the way he should go. Accomplishments of the morrow are based
on our position to-day and guided by the footmarks, or records,
of our yesterdays.

The extreme powers once enjoyed by ecclesiastics meant the
suppression of all science, let alone any advance. At the end of
the fourth century if any man thought for himself and expressed
his views it was thought safer to burn him than to allow his doctrines
to spread (1). Even as late as the twelfth century Alexander Neckham,
the first English writer on zoology, adhered to the then prevailing
belief that venomous and poisonous creatures existed to torment
and reprove man for sin and disobedience to his Creator.

Not until the seventeenth century was any real progress possible,
when conchology as a science began its first advance. Sir Christopher
Wren, the famous designer and architect of St. Paul’s and several
London churches of great beauty, was also a Doctor of Science,
and this should not be forgotten. It was he who saw, in the newly-
invented compound microscope, the vast new field for research
thrown open to the naturalist. Wren himself took a pleasure in
making detail drawings of various objects, drawn to a scale of
magnification never previously attempted. Others followed his
example, and there is at this date the first record of an enlarged
drawing of a radula (2). Another great landmark of the period was
the founding of the first Museum of Natural History at Oxford
in 1662. John Tradescant, gardener to Charles I, had established
a curious collection of miscellaneous objects at Lambeth, known as
Tradescant’s Ark, afterwards bequeathed to Elias Ashmole, founder
of the Ashmolean Museum. Included we have recorded the first
publicly exhibited collection of shells, for to these special attention
had been paid. Prominent at this period also was Dr. Martin
Lister, the ‘‘ Father of British Conchology’”’, whose Historia
Animalium Anghz, published in 1678, is so well known. Lister’s

15

226 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

book is outstanding because it was much ahead of its time and
included many distributional records for British mollusca. In the
Catalogue to the Ashmolean Museum there is a footnote which
states that ‘‘ the principal donations in shells came from Dr. Lister,
Dr. Plott, Miss Pugh, Mr. Pratt, Mrs. Buckland, and the late
Keeper of the Museum, J. S. Duncan, Esq.” (3).

Dr. Robert Plot. (not Plott) was the first “‘ custos” of the
Ashmolean Museum, appointed in 1683. The twelve cartloads of
Tradescant rarities had arrived from London in March, and it is
recorded that Dr. Plot had some of the exhibits arranged and
exhibited to the Duke of York by May. John Plott was a successful
miniature painter of a later date (1732-1803). It is recorded that
he executed a number of beautiful water-colour drawings for a
projected work on “ Land Snails’, which unfortunately remained
unfinished at his death (4). If these drawings still exist they should
be of a high standard, for Plott had the essential artist-naturalist
combination, and obviously a great gift in portraiture.

The eighteenth century was a period of great scientific progress.
The collections made by Petiver, incorporated later with the vast
stores accumulated by Sir Hans Sloane, passed to the nation and
became the nucleus of the material now housed in the British
Museum of Natural History, South Kensington. This was in 1753.
Between 1735 and 1768 Linnaeus had written and published twelve
editions of the Systema Nature and revolutionized all biological
nomenclature. For a time his collection remained with a noted
botanist of the period, Sir John Smith, ultimately passing to the
Museum of the Linnean Society. As is well known, many specimens
were added to the collection, making subsequent investigation
extremely difficult.t

Thomas Pennant (1726-1798) was the first writer on British
Conchology to adopt the Linnean nomenclature. British Zoology,
vol. iv, containing the mollusca, was published in 1777 and there
is a later edition, published by his son in 1812. Pennant’s collection
remained at Downing Hall, Holywell, Flintshire, for over a century.
In 1913 it was presented to the nation by the Earl of Denbigh,
and passed into the hands of the British Museum, Natural History,
when it was critically examined by Edgar Smith (6), and later
by Iredale (7). Smith enumerated six valid types to which should
be added Patella depressa Pennant, first reinstated by Tomlin in

1 Turton has an interesting note on the name Linnaeus: ‘‘ In Sweden
the termination -us is an affix to plebeian names only. After his enrolment,
therefore, among the ranks of the nobility, it was exchanged for Von Linné
or a Linné, exchanging the diphthong. In strict propriety then it should
be Linné for his name; Linnéan for what appertains to his name; and
Linnéa borealis for his plant’”’ (5). In the Systema Nature the title-page
of the roth ed. (1758) has Caroli Linnaei, but those of the later editions
(1766-1791) have Caroli a Linné.

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 227

1923 (Ff. of Conch., Vol. 17, p. 34). The small total of eighty-two
species contained in the collection was carefully listed by Smith. |

Pennant received the degree of D.C.L. from the University of
Oxford in May, 1771. His literary industry was immense. Johnson
said of him: “ He is a whig, sir; asad dog. But he’s the best
traveller I ever read; he observes more things than any one else
does.” He also declared that Pennant had “a greater variety of
inquiry than almost any man”? (4).

THe NINETEENTH CENTURY.

Throughout this period specimens from many collections, large
and small, passed through the hands of the systematists to be
identified or described. A considerable number of collections
reached the British Museum (72), but there were others which
passed from one collector to another, either by sale or gift, or were
directly or indirectly presented to, or purchased by, some public
museum in the provinces or abroad. ‘‘ This famous nineteenth
century,” as Melvill has called it, saw the creation of a multitude
of new genera, species, and synonyms.

It is not possible to deal with all these collections, but it is thought
that the location of certain of those which are of historical interest,
set out in list form, would prove to be of value in future research.
While the responsibility for the safe keeping of a collection rests
with a curator, it often happens that such a collection is received
in a state of more or less disorder. Much valuable help has been
rendered in the past by members of this Society and others in cases
of this sort, and it is certain that such help has saved many
existing type-specimens from oblivion.

In order to get a proper view of this period it is necessary to
provide some historical framing. The closing years of the eighteenth
century were deeply seared by the horrors of the French Revolution,
and the wars that followed. While the commencement of the
nineteenth century saw the Peace of Amiens, this period of peace
was ended a year later by the demands of Napoleon Buonaparte,
to be followed by the Battle of Trafalgar, the Peninsular War, the
American War and, in 1815, by Waterloo. During these early years
increase in wealth had been enormous, and England was mistress
of the seas. In 1833 the East India Company was abolished and the
trade of the East thrown open, including, a few years later, several
ports belonging to China.

Here is a conchological picture, crude but colourful.

Sailors, at all times, have been quick to find that curios, including
shells, can be bartered for produce or for coin. Hugh Cuming,
when a boy of about thirteen, had his enthusiasm fired by the
stories told by the sailors visiting Kingsbridge in 1804 and 1805.

228 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

Lovell Reeve, in 1827, then also about thirteen, recorded in his
diary how a sailor walked into the shop where he was employed
and opened out a blue calico handkerchief full of cowries. This
was the starting-point of his collection and conchological pursuits.
For such boys there were few facilities, even in Reeve’s time, for
it is recorded that in the early part of 1828 there was no scientific
arrangement of the shells, even at the British Museum. They were
not described or even labelled. Nevertheless, preparatory work
must have been going on and, a little later, we learn that “a spirit
of improvement had visited the British Museum ’’. It is stated that
‘Room No. 8 contains the collection of recent shells in twenty-six
cases, well arranged, and conveniently displayed for inspection.
The names of Lamarck are on one side, and those of Linnaeus
(which are here more generally known) on the other... he (the
author) would suggest that the collection might be made more
instructive, by placing the name of each genus at full length, at
the head of each compartment, where the species occupy more
than one,... because learners who are examining the shells are
frequently prevented from reverting to the generic words, by the
company crowding round the cases... .” (8).

During Gray’s time at the British Museum (1824-1875) certain
dealers seem to have made a practice of offering payment to
systematists for new species described, such being of more value
from a pecuniary point of view and offering a greater inducement
to trade (9). If this were so, it is easy to understand how some of the
more showy genera have suffered and why some of the names
proposed have no scientific value.

In considering the various collections during the nineteenth
century, an endeavour has been made to deal with them in chrono-
logical order. Owing, however, to absence of data in some cases
this has not always been found possible. ‘The registration and
numbering of specimens had hardly been thought of, and detailed
catalogues were rare.

MontTaGu COLLECTION. LONDON AND EXETER.

Colonel George Montagu (1751-1815) was of the sportsman-
naturalist type and one of the earliest members of the Linnean
Society. He was a keen ornithologist as well as conchologist, and
his collections of birds and other animals were purchased by the
British Museum (4). Turton describes the transaction thus:
‘His cabinet of the natural history of the British islands
is now very properly placed in the British Museum” (10).
Jeffreys refers to the types of Montagu’s Bulla haliotoidea and
B. plumula and states that they are in the British Museum (77).
Montagu published his Testacea Britannica in 1803 and the

J. DAVY DEAN: CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 229

Supplementary Volume in 1808. Mr. J. R. le B. Tomlin has
recently segregated about twenty-four type-specimens in the
British Museum belonging to the above collection. He states
further that this was undoubtedly Montagu’s first series.

A second collection presented many years ago by Henry D’Orville
is located at Exeter. Tomlin believes that it contains, or did contain
at one time, several species which did not reach the British Museum.
Mr. F. R. Rowley, late Curator of the Royal Albert Memorial
Museum at Exeter, has kindly examined this collection and checked
a list of the species first described by Montagu. When Mr. Rowley
first took charge of the Exeter Museum the collection was in a rather
neglected state. A good many specimens were displaced and only
a few of the original labels kept. ‘These were preserved and the
collection remounted in glass-topped boxes. The following species
are represented :—

MARINE SPECIES FIRST DESCRIBED BY MONTAGU WHICH ARE IN THE EXETER
MusEuM

Gastropoda.

Gibbula tumida M. (Trochus). Nine specimens.

Lacuna crasstor M. (Turbo). ‘Three specimens on original card mount.

Hydrobia ventrosa M. (Turbo). Three on card and original printed label
‘“ ventrosus ”’,

Cingula (Hyala) vitrea M. (Turbo). Five on card and printed label
‘* ettreus ”’.

Alvama zetlandica M. 1815 (Turbo). Three on card with written label
“ Zetlandica’’.

A. (Actonia) punctura M. (Turbo). Four specimens on card.

Barleeia umfasciata M. (Turbo). Four on card with printed label
orpasciarus

Tornus subcarinatus M. (Helix). Four on card with printed label
‘* Subcarinata ’’.

Cerithiopsis tubercularis M. (Murex). ‘Two on card with written label
“© Mu. Tubercularis ’’.

Chrysallida decussata M. (Helix). Two on card with printed label
‘* Decussata’’.

C. (Partulida) spiralis M. (Turbo). ‘Three on card with printed label
* Spirals’,

Trophon muricatus M. (Murex). One on card with written label ““Mur.
murticatus ”’.

Lora turricula M. (Murex). Six specimens including three on card with
written label “ Mur. Turricula ’’. |

L. rufa M. (Murex). One on card with printed label ‘“‘ Rufus Murex ’’.

Mangelia attenuata M. (Murex). Two on card with printed label
‘“* Attenuatus Murex ’’.

M. nebula M. (Murex). Four on card with written label ‘‘ M. Nebula’.

Philbertia gracilis M. (Murex). One on card with written label “ M.

Gracilis”’.
P. purpurea M. (Murex). Two on card with printed label ‘‘ Purpureus

Murex’.
P. linearis M. (Murex). Four on card with written label ‘‘ M. Linearis’’.
Pelecypoda.
Astarte (Goodallia) triangularis M. (Mactra). ‘Three complete and five
valves.

Thyasira flexuosa M. (Tellina). Five complete and five valves.
Diplodonta rotundata M. (Tellina). Three valves.

230 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

Kellia suborbicularis M. hee Eleven complete specimens.

Gafrarium (Circe) minimum M. (Venus). Four valves including two on |
original card.

Paphia pullastra M. (Venus) Six specimens ; var. perforans M. Five.

Ervilia castanea M. (Donax). Two valves on original card.

Thracia (Ixartia) distorta M. (Mya). One complete and one valve...

Land Pulmonata.

Laciniaria biplicata M. (Turbo). ‘Two specimens on card.
Marpessa laminata M. (Turbo). Seven specimens.
Helicella caperata M. (Helix). Nine specimens.

Theba cantiana M. (Helix). Three specimens.

It is probable that many of the original labels were lost before
the collection reached Exeter. Labels may be lost in very simple
ways. When the Cuming Collection was being mounted it was
carried drawer by drawer across an open court-yard, as required.
This resulted in many labels being blown away and subsequently
gummed to the wrong tablets (12):

The Montagu Cabinet at Exeter contains 220 species and varieties,

which are accessible to anyone interested. There is a note in this
fournal by Jeffreys, in 1878 (13), concerning certain species in the
collection. |

Lyons COLLECTION. ‘TENBY.

W. Lyons, of Tenby, one of the older conchologists who corre-
sponded with Montagu and Captain Brown, is variously described.
He is “‘ Dr. Lyons” in an old Tenby Guide (1866) and * George
Lyons, Esq., of Tenby, Wales” to Brown (14). His autograph
can be seen in a copy of Lister’s “‘ Synopsis” at Tenby Museum.

Turbo crenatus (Linné) and Turbo perforatus (Perry) were among
the shells sent by Lyons to Montagu in 1813, as then new to Tenby,
quoting Montagu’s labels from Exeter. This gives the earliest date.
Later, Brown refers to Lyons as the collector of two of his new
species, Chiton discrepans and Turritella minor, and two others,
supposed to be new, his Réssoa crystallina (= Hyala vitrea Mont.)
and Hiatella striata, which is the Lyonsia norwegica (Gmelin).

The Lyons Collection of shells was presented to Tenby Museum
on 1st April, 1878, by Miss Lyons, and is exhibited there, as
originally mounted, in a series of table-cases. He will be best
remembered by the genus Lyonsia, dedicated to him by ‘Turton,
and by the var. lyonsa of Calliostoma ztzyphinum (L.).

DILLWYN COLLECTION. CARDIFF. _
Lewis Weston Dillwyn (1778-1855) was born at Ipswich, and

was the son of William Dillwyn, descendant of an old Breconshire
family. Dillwyn was placed by his father at the head of the Cambrian
Pottery in Swansea in 1802; thus while his first scientific publication
British Conferve is dated ‘‘ Higham Lodge, Walthamstow ”’,
the second, A Descriptive Catalogue of Recent Shells, is from
(The) Willows, (Swansea), 1st January, 1817. ‘The time intervening

-

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 231

between these two publications was therefore much taken up by
- the study of conchology, as well as in the production of the famous
‘ Swansea China”. Dr. Gray has stated that Dillwyn’s Catalogue
was one of the best books of the time.

Dillwyn’s cabinet of shells is presumably indicated in the preface
which reads: ‘‘ The author, in the course of an attempt to arrange
a small Cabinet of Shells, had occasion to observe that, in Gmelin’s .
Systema Nature, the same species frequently appears under two
or three different names; and on the other hand that, in many
instances, two or three different species are confounded together
under one specific character ”’ (15).

Dillwyn had enjoyed the liberal use of the library of Sis Joseph
Banks, which passed in 1827 to the British Museum. This library
contains Solander’s MS. descriptions, and in the Dillwyn cabinet
there is an example of Conus amadis marked “‘ fulgens”’, the Conus
fulgens Solander MS. (Portland cabinet.) An interesting specimen
of Nucella crispata (Lamarck) (22) marked “‘ crispm.’’, is identical
with Lamarck’s figure, except for the slightly longer spire. If proof
is needed that this collection was actually before Dillwyn when
writing his Catalogue, it would seem to be supplied by a specimen
of Cardium papyraceum Brug. 'The inner-side of one valve is marked
‘ papyram,”’ and in the other valve is written C. nitidum. Dillwyn
says, “ I have bought this shell of Mr. Humphreys, under the name
of C’. nitidum, by which I believe it is generally known.” An example
of Trigonia margaritacea Lamarck is of interest, as this was the
only recent species known up to 1838.

There are four specimens which should be considered’ as
lectotypes :—

VENUS TIARA Dillwyn : Descript. Cat., 1817, p. 162.

This agrees in details of sculpture with the description but is

larger than the dimensions given.
BULLIA COCHLIDIUM (Dillwyn): Op. cit., p. 627.
Buccinum cochlidium, Chemnitz, xi, p. 275, t. 209, f. 2053/4.

Chemnitz thought this was a land shell. Reeve in Conch. Icon.
copies an immature shell from the British Museum. Dillwyn’s
shell is 2 inches long by 14 inches broad and is the form described as
gradata by Deshayes, but very close to the figures given by Chemnitz.
Apparently a variable species.

Murex scoLopax Dillwyn: Op. cit., p. 681.

A well-known species, first recognized as distinct by Dillwyn,
and separated from M. tribulus L.

DisTorsio MuLus (Dillwyn): Op. cit., p. 704.

Dillwyn’s shell follows the description in being less nodulous
than D. anus, tubercles more regular, and in having the beak more
produced and only slightly ascending (= cancellinus Roissy).

232 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936

On 21st July, 1827, 200 Janthine were picked up by Dillwyn
at Oxwich Bay on the Gower coast. That these included both
rotundata F. & H. and exigua Lk. is proved by the specimens in
the Dillwyn Collection at Cardiff. A series of exigua in the Phelps
Collection, taken at Ilfracombe, may be contemporary. An entry
in the register at the Bristol Museum, for 6th September, 1827,
records several Ianthinz as received from L. W. Dillwyn.

Dillwyn’s collection remained at Penllergaer, Swansea, until
1928, when it was presented, with other specimens, to the National
Museum of Wales by Sir C. Venables Llewelyn, Bart.

Dillwyn’s Index to Lister’s Historia Conchyliorum was published
at the special desire of the University of Oxford. The preface
to this is dated from Penllergaer, 12th January, 1823. There 1s
also a short paper on Cyprea in the Zoological Fournal for 1828,
but from this date his interests seemed to lie in other directions.
_ There is a very full account of his scientific and public life in the
Cambrian Fournal by “ Soranus” (Thomas Williams, M.D., of
Swansea) (16).

LOVELL COLLECTION. BRISTOL.

An extensive collection of shells, formed by Dr. Lovell and valued
at £500, was received by the Bristol Museum from Mrs. Lovell,
in 1824.

ROWLAND COLLECTION. BRISTOL.

_A varied collection of shells was received by the Bristol Museum
in 1826, made by W. W. Rowland, R.N., at Whale Fish Island,
Prince Regent’s Inlet, Port Bowen, etc., during his passage on

board H.M.S. Hecla, in 1824 and 1825.
SWAINSON COLLECTION. MANCHESTER.

William Swainson (1789-1855), of Elm Grove, near Liverpool,
is mentioned by ‘Turton (1822) (17). He had received two specimens
of a Pholas from Torbay from the Duchess of Portland. Turton
considered these as most probably the species then known as
Pholas papyracea (= loscombiana), alluded to by Solander in the
Portland Catalogue. For a list of Solander’s valid names see Proc.
Malac. Soc., vol. xii, p. 89.

The Swainson Collection was purchased by the Manchester
Natural History Society between 1825-6 and formed the nucleus
of the old Peter Street Museum material, later transferred to Owens
College (1869). Specimens were merged into the general collection
and cannot now be traced. Dr. J. W. Jackson has, however,
discovered three figured specimens of Conus generalis Linné.
Swainson, in the Zoological Illustrations, figured many shells from
his own and his father’s collection, as well as some from other

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 233

well-known cabinets of that period—C. Dubois, Banks, George
Humphrey, British Museum, Mrs. Bolton (Windermere), Mrs.
Mawe, and Broderip. He described many new species (18).

TURTON COLLECTION. WASHINGTON, U.S.A.

William Turton, M.B., B.A. (1762-1835), resided in Swansea
for about fifteen years (1791-1807), then at Dublin, Teignmouth,
Torquay, and in 1831 at Bideford—the date of publication of the
Manual. Previous to this date his fine and historical collection
passed to William Clark, of Bath, and from him to Jeffreys. Our
loss of the Jeffreys Collection meant also the loss of the Clark and
Turton collections, for Turton wrote in his Manual, ‘“‘ The whole
of my collections in British Conchology are now in your possession :
and in the ensuing catalogue, nothing has been introduced of which
perfect specimens cannot be found in that collection: This was
addressed to Clark and dated, “‘ Bideford, Devon, 1831 ” (19).

Jeffreys, writing in 1867, says of Triton cutaceus (Linné), ‘“‘ For
my specimens I am indebted to the liberality of Dr. Lukis and
Mr. Macculloch ; I likewise have one in the Turtonian collection.”
On the same page is a note on “ Triton elegans’ stated to have been
found alive at Portmarnock in Dublin Bay—the Hindsia angusti-
costata Pease, and Jeffreys adds, “‘ Portmarnock has been from the
time of Turton a prolific source of such erroneous additions to
the catalogue of British shells ”’ (20).

Forbes and Hanley, under the genus Turtonia, write, ‘‘ His
collections are fortunately preserved in the magnificent cabinet
of our valued friend and correspondent, Mr. Gwyn Jeffreys. A
close examination of them has shown that Turton was not always
to be relied upon in his published statements, and that a severe and
critical judgment must be applied to his labours in conchology ”’ (21).

PARREYSS COLLECTION. LONDON.

Numerous shells were purchased by the British Museum from Herr
Parreyss, a dealer in Vienna, between the years 1841 and 1847.

DIEFFENBACH AND YATE COLLECTIONS. LONDON.

A considerable amount of material from New Zealand was
received by the British Museum between 1835 and 1852 and, in
addition to the Dieffenbach and Yate collections, included numerous
specimens from Dr. Stanger, Dr. Sinclair, Lieut.-Col. Bolton, R.E.,
and Captain Stokes, R.N.

RANKIN COLLECTION. BRISTOL.

Chief Justice Rankin, of Sierra Leone, presented to the Bristol
Museum, in 1836, sixty-one species of shells (of which there is
a detailed list) from the neighbourhood of the Gambia. This

234 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

collection is spoken of by P. P. Carpenter as a valuable and very
reliable one. He says in the Reigen Catalogue, on. p. 472, “ the
principal part is to be found in the general Museum of the Bristol
Institution.”

BRODERIP COLLECTION. LONDON.

William John Broderip (1789-1859) was one of the most
enthusiastic collectors of his time and firmly believed in every
conchologist possessing his own collection. Accurate knowledge,
he said, was impossible without adequate material for study, which
the then existing public collections could not supply. Lamarck’s
natural arrangement of the mollusca was the best, he argued,
because of the fact that Lamarck was himself a collector and knew
his shells, and emphasized the fact that his descriptions of rare or
interesting species were nearly always followed by the two words
. “mon cabinet: (22). :

Broderip was interested in native methods of collecting. ‘‘ In
the Mauritius,” he says, writing in 1825, ‘‘it is the amusement
of the place to watch over the trim apparatus of lines hung over
some sand-bank to tempt the various species of Oliva which there
abound, or to wait for the more rare approach of the Harp Shell,
till the rich hues of its inhabitant (vermilion red) are seen glowing
through the clear blue water, in the rays of the tropical rising sun ”’
(2a) :

The Broderip Collection was purchased by the British Museum
in 1837.

BaBB COLLECTION. BRISTOL.

An important collection of shells was recived by the Bristol
Museum, in 1832 and 1837, collected by Hugh Babb, R.N. This
included such species as Concholepas peruviana, Voluta lapponica,
ten species of Chiton from the west coast of South America, Pinna
nigrina, etc., in all about 100 species, many of them rare at that
time and new to the above Institution.

Babb is mentioned by Reeve in Conch. Icon. under Murex bicolor
Val. = erythrostoma Swains., for which he gives: ‘‘ Hab. Gulf
of California (found on mud banks at low water); Lieutenant
Babb, R.N. (Mus. Steere).”’ Miss Steere’s collection is at the British
Museum. =

GUILDING COLLECTION. LONDON.

The Rev. Lansdown Guilding, of St. Vincent, has papers in the
Zoological Fournal dealing with the mollusca of the Caribbean Islands.
He described several new species amongst which are Stenopus
cruentatus, S. lividus, and Helicina occidentalis from St. Vincent

(1828) (24).

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 235

His method of preserving the more delicate marine shells may
not be remembered to-day. Certain species, especially bivalves,
if killed in boiling water, cannot be cleaned without the risk of
breaking an almost transparent shell. Guilding’s method was to
put them in stale sea-water ; i.e. sea-water which had been purposely
left in the sun for a few hours. This causes the shell-fish to ‘“ die
quietly ’’ (to use his own phrase), fully extended, and in perfect
condition for examination or dissection.

_ The Guilding Collection was sold by auction at Stevens’, the
first sale in 1838 and the last in 1840. The British Museum acquired
_a large number of the specimens, including a certain number of

types.
WALTON COLLECTION. MANCHESTER.

William Walton is mentioned by Lovell Reeve in the Proc.
Zool. Soc., 1842, pp. 49-50, where Helix valtoni is described
(Acavus waltoni auctt.). Emarginula conotdea, another species
described by Reeve, was stated to be from the Walton Collection,
afterwards bequeathed to the Manchester Museum. Cyprea
ocellata var. calophthalma Melvill (1888) was described from a
specimen in this collection.

KRAuss COLLECTION. LONDON.

A series of South African shells, unnamed, purchased by the
British Museum from Dr. Ferdinand Krauss, in 1840.

CUTTING COLLECTION. BRISTOL.

Several donations of shells are recorded in the Reports, etc., of
the Bristol Museum from Dr. J. H. Cutting, and there is one from
Mrs. Cutting in 1836. These mostly comprise specimens from the
West Indies; Barbados, Porto Rico, St. ‘Thomas, and Tortola.
A fine specimen of Pholadomya candida Sowb., received in 1838,
is stated to be the third recent specimen known of this genus.
A specimen of Hyria elongata Swainson was received in 1840.
The last donation, received in 1841, included a specimen of Strombus
gallus Linné.

LINCOLNE COLLECTION. SALFORD.

Abraham Lincolne, of Highbury Place, Islington, amassed a
large collection of shells, valued at £1,000, between 1819-1836.
This was presented to the Salford Borough Royal Museum and
Library, Peel Park, by the Misses Heaven, of Victoria Park,
Manchester, and of Cheltenham, in 1880.

The following notes are taken from the original catalogue, kindly
lent by H. J. M. Maltby, Curator, to whom thanks are due. This
is dated 1836.

236 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

The list of shells is prefaced by details as to how and when the
specimens came into the owner’s possession. Lincolne was a man
of some wealth and was prepared to pay for perfect specimens.

A list of dealers in shells of that period is also of interest. Purchases
were made by Lincolne at various times from Mrs. Mawe, Sowerby,
Stutchbury, Dantzicker, Tucker, Turner, Eling, Moses, Mrs.
Moses, Samuels, Solomons, Antinous (?), and other dealers at
watering places. In 1839 Lincolne purchased, at Stevens’, duplicates
from the Chas. Collier Collection and, in 1848, added some species
from Australia. Previous to this he had attended all the more
important sales.

The Catalogue totals roughly 1,300 species, 350 being bivalves
and gs5o univalves.

Chiton is represented by twenty-five species and includes C.
aculeatus from the “‘ Blossom discovery Ship ”’.

Cardium, with forty species, includes C. zolicum from Caldwell’s
sale, one bought for 3 guineas, another for {2 17s. 6d. A specimen
of Spondylus americanus, which was Dr. Goodall’s, is marked at
£1 128. (1840).

Placuna is represented by placenta and P. lincolnet Gray. ‘There
is also a note showing that a specimen of the latter was received
by the British Museum on 21st April, 1848, the writer thanking
Lincolne for his “ obliging present ”’

Conus is represented by 120 species and includes C. zonatus,
purchased for 3 guineas; C. imperialis, from the Countess of
Essex’ sale, 1838, marked at £4 6s. (Tankerville sale, 1825, 5 guineas) ;
C. omaicus, from the Sir Richard Boroughs sale, 1843, marked down
at 10 guineas though it cost the baronet £20.

A specimen of Voluta fusiformis from the Stainforth sale, 1842,
went for {1 8s. but there is a note to say that formerly one went
up to £15, and another to {28 7s. 6d.

Harpa imperialis also realized good prices. Lincolne bought one
from the Boddington sale, 1838, for £3 7s. and another from the
Boroughs sale for {2 3s.

HINDS COLLECTION. LONDON.

Richard Brinsley Hinds was associated with Captain Sir Edward
Belcher, who was in command of H.M.S. Sulphur during a voyage
round the world. The Hinds Collection was received by the British
Museum in 1842, and the Captain Belcher Collection in 1851.

C. B. Apams COLLECTIONS. LONDON, WARRINGTON, AND AMHERST.

Professor Charles Baker Adams presented to the British Museum,
in 1845 and 1850, 387 shells from the Island of Jamaica, many being
co-types of species described in Contributions to Conchology.

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 237

Two further collections were presented to the British Museum
in 1865 by the Smithsonian Institution at Washington: (a) a Panama
series and (0b) a series from Cape St. Lucas, Acapulco, Neeah Bay,
and Puget Sound. |

Dr. P. P. Carpenter and the Smithsonian Institution presented
to the Warrington Museum, between 1860 to 1864, a collection of
shells, numbering several thousands, amongst which were two series
from the C. B. Adams Cabinets, (a2) Panama and (6) British West
Indies.

Adams was Professor of Zoology, etc., at Amherst College,
Massachusetts, and his type collection is at the Amherst College
‘Museum.

ALDER COLLECTIONS. LONDON AND NEWCASTLE-ON-TYNE.

Joshua Alder (1792-1867) will always be remembered as the
joint author, with Albany Hancock, of The British Nudibranchiate
Mollusca. A collection of their Nudibranchs and the original draw-
ings, many of them coloured, are at the Hancock Museum.

Alder was associated with others in conducting a series of dredging
expeditions in the North Sea, which were partly financed by grants
from the British Association. Mr. T. Russell Goddard says that
while the Alder Collection of shells at Newcastle was mainly British,
he also gave to the Museum, from time to time, quite a number
of exotic species.

In 1858 over 800 specimens of British Mollusca were presented
by Alder to the British Museum. More than 300 of these were
Nudibranchs.

BEAN COLLECTION. SCARBOROUGH.

William Bean (1787-1866) was associated with William Smith,
the father of English geology, and with John Williamson, the first
curator of the Scarborough Museum. Bean was the owner of land
which came to be known as Bean’s Gardens, now part of the shopping
centre of the town.

The Scarborough Philosophical and Archeological Society
purchased six or seven of his cabinets of shells in 1926. Because of
lack of space in an already crowded museum, the contents of four
of these cabinets were merged into the others.

Bean possessed a great number of exotic shells as well as a very
representative series of British examples. Chiton hanleyi and
Patella athletica were among the species he described in 1844.
He had a sinistral Nucella lapillus, picked up by his little grand-
daughter at Scarborough, and exhibited by W. Gyngell at the
Jubilee Meeting of this Society in 1926.

238 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

Carpenter acknowledged Bean’s assistance in his preparation of
the Reigen Catalogue of Mazatlan mollusca, and mentioned a
collection of shells made by him in Guadeloupe. Besides collecting
abroad he also exchanged largely, and many of the specimens at
the Scarborough Museum bear the printed label of the Smithsonian
Institution at Washington, as having been named from their type
specimens. Much of the above information has been kindly supplied
by Charles A. Wilson, the present curator of Scarborough Museum.

FRYER COLLECTION. MIDDLESBROUGH.

Joseph Harrison Fryer (died 1856), of South Shields, disposed
of his collection of shells to Sir J. W. Pease, Bart., of Hutton Hall.
At the baronet’s death this collection was bought, and is now in
the Dorman Memorial Museum, Middlesbrough, Yorks. The
collection is a general one but contains many specimens of land
shells from the Philippines and from South America. It also contains
a number of species of bivalves from the rivers of Africa and from
North and South America. |

Dr. Frank Elgee, the curator, says that the collection had suffered
from neglect when received, and that the specimens were mounted
on cards with pencilled names, and with localities.

Fryer was associated with Alder and Hancock on the sub-
committee appointed to draw up the “ Catalogue of the Mollusca
of Northumberland and Durham ”’ (1848).

FoRBES COLLECTIONS. EDINBURGH AND LONDON.

The collections made by Professor Edward Forbes were
bequeathed to the Royal Scottish Museum in 1856. There is no
detailed list but British, Mediterranean, and exotic species are
represented. Forbes described the mollusca obtained during the
voyages of H.M.S. Herald and Pandora by Captain Kellett and
Lieutenant Wood, and his types were presented by them to the
British Museum in 1850. It is not stated whether there are
co-types at Edinburgh.

Professor Forbes is especially mentioned by Dr. P. P. Carpenter
in his ‘‘ Catalogue of Mazatlan Mollusca” (p. iv), thus: ‘‘ One
whose promised aid would have been of invaluable service, and
whose friendly encouragement mainly induced me to undertake
the work, was, at its commencement, suddenly removed from the
field of labours which was opening before him with such promise
in the metropolitan university of Scotland.” He died in 1854, at the
early age of 39.

Dr. Carpenter dedicated Tonicia forbesit n.s. to him (op. cit.,

Pp. 193).

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 239

H. & A. Apams COLLECTIONS. LONDON AND CAMBRIDGE.

Henry, the elder of the two brothers, was born in 1813 ; Arthur,
the younger, in 1820. The younger brother described, with Lovell
Reeve, the mollusca of the ‘‘ Samarang ”’ in 1850, and his drawings,
made from the life while on board, are used for the plates in The
Genera of Mollusca, published by both brothers between 1853-8 (25).

Mr. H. C. Fulton, who mounted the more important specimens
in the MacAndrew Collection at Cambridge, states that one section
of that collection, comprising 15,000 specimens, contains a number
of the types of H. Adams and of others.

A collection of 192 marine shells from Japan, purchased by the
British Museum in 1874, contains a number of species described
by Arthur Adams but which were not figured. |

STAINFORTH COLLECTION.

This collection is mentioned in the fournal of Conchology (vol. ix,
p. 347) as having been sold by auction about 1850. The location of
many of the Stainforth types was known to Melvill thirty-five years
ago, but no details were given.

HuLSE COLLECTION. LIVERPOOL.

A collection of Mazatlan shells was given to Liverpool Museum
in 1854 by George Hulse.

WRIGHT COLLECTION. LIVERPOOL.

A collection of Dalmatian shells given to Liverpool Museum,
in 1854, by a Mr. Wright.

JARDINE COLLECTION. EDINBURGH.

Sir William Jardine, Bart., presented a collection of shells to
the Royal Scottish Museum, in 1854, which comprised the
following :—

(a) Land shells from the Andes of Quito, Ecuador.
(2) Land shells from Bahia, Bolivia.
(c) Land shells from Port Natal (Durban).

The number of specimens given is not recorded.

MacANDREW COLLECTIONS. LONDON, EDINBURGH AND
CAMBRIDGE.

Robert MacAndrew, of Liverpool, left his collection of British
Mollusca to the University Museum of Zoology, Cambridge, in
1873.

Dr. A. H. Cooke has given us a detailed account of the collection
in this Fournal (26), but the following species deserve mention :—

Acanthochitona discrepans (Brown). ‘This species is correctly
identified, the specimens being from Milford Haven. MacAndrew’s

240 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

labels are uniform, the species’ name in back-hand and the locality
in copy-book hand. Cooke altered the label to “ C. fascicularts
var. gracilis Jefftr.’’, which is a synonym.

Emarginula crassa anassa Dean. ‘Two specimens from Caernar-
vonshire and two from Loch Fyne. Writing of these Cooke states,
‘* The labels were evidently misplaced, and I have transposed them.”
The two largest shells, the largest 35 mm. by 26 mm., were originally
marked Caernarvonshire but are now labelled Loch Fyne.

Gastrana fragilis (L.). A fine series labelled Pwllheli. Cooke
writes, ‘‘ A locality not given by Jeffreys, whose only Welsh locality
is ‘coast of Pembrokeshire, MacAndrew’. Is there a mistake
here ?”’ Largest specimen, 1-5 inches broad. In this connection
it is of interest to note confirmation of the locality by Jackson
(Fourn. of Conch., vol. xix, p. 187), and a record for Llanbedrog
in 1931 by Spence (op. cit.).

Clausilia dubia Drap. The record for Dover by MacAndrew is of
interest and, surely, if not the first, one of the earliest. |

Succinea oblonga Drap. A fine series marked Swansea, a lost
habitat to-day, but a locality which has undergone considerable
changes in recent years. Spence Bate has a MS. record, “ Crumlyn,”’
in a copy of Dillwyn at the National Museum of Wales, which may
provide a clue.

In 1855, MacAndrew presented two collections from his European
dredgings, one to the British Museum (Canary Islands, Spain,
Portugal, Mogador), and another to the Royal Scottish Museum,
Edinburgh (Mediterranean and Lusitanian species, marine and fresh
water). A third collection, presented in 1873, is at the University
Museum of Zoology, Cambridge (Mediterranean, Gulf of Suez, and
Atlantic Islands).

See also the H. Adams and Benson Collections, formerly belonging
to MacAndrew and now at Cambridge. ;

BENSON COLLECTION. CAMBRIDGE.

Merged into the MacAndrew Collection is a series of 15,000
specimens, including a collection from W. H. Benson, the well-
known Indian conchologist, and embracing a number of type
specimens from the cabinets of H. Adams and others. ‘This
information is kindly supplied by Mr. H. C. Fulton.

CHITTY COLLECTION. LONDON AND EDINBURGH.

The Hon. Edward Chitty presented to the British Museum a large
collection of land and freshwater shells from Jamaica, in 1854, and
a second collection was purchased in 1857.

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 241

A collection of about 460 specimens of land and freshwater
shells from Jamaica, collected by Chitty, was received by the Royal
Scottish Museum, Edinburgh, in 1855.

Chitty described nearly the whole of the minute species belonging
to the genus Steastoma, as well as a number of the larger Jamaican
Operculates, but like C. B. Adams, did not figure his species.

CARPENTER COLLECTIONS. LONDON AND WARRINGTON.

Dr. Philip Pearsall Carpenter (1819-1877) presented to the British
Museum in 1857, the collection of Mazatlan mollusca formed by Mr.
Frederick Reigen between 1848-1850. His Catalogue of this
Collection, published by the British Museum authorities (Warrington,
1855-7), is well known. The total number of specimens was 8,800,
representing 692 species, of which 215 were described as new.

Dr. Carpenter, who occupied an official post at the Warrington
Museum between 1860 and 1865, was instrumental in presenting
to that institution several cabinets of shells, now merged in the
general collection, illustrating the classification of the Mollusca.
Through the Smithsonian Institution he secured from Dr. E.
Ravener a U.S.A. Collection (1860), from the Rev. Professor
Hincks and University of Toronto a Canadian Collection (1860),
from Dr. Hubbard of Staten Island an American Collection (1864),
as well as the C. B. Adams Collection previously mentioned.

W. WILLIAMS COLLECTION. LIVERPOOL.

W. Williams presented to the Liverpool Museum, in 1857,
a collection of shells from the Bahamas.

M’KELLAR COLLECTION. EDINBURGH.

Dr. Fred M’Kellar presented to the Royal Scottish Museum,
in 1857, a general collection of shells from many parts of the world.

ARCHER COLLECTIONS. LONDON, LIVERPOOL AND BIRMINGHAM.

There were two brothers of this name. Sam was an army doctor,
and collected very largely abroad, sending shells to his brother
Frank, a solicitor, and to the Liverpool Museum. 'Tomlin, by whom
this note is kindly supplied, knew both Sam and Frank very well,
spending a good deal of time with them. Sam retired as Deputy
Surgeon-General (a rank now extinct) and travelled a great deal
afterwards. It was on these travels that he came across the big
Pleurotomaria adansoniana Crosse & Fischer, from Tobago,
now in the Liverpool Museum. ‘This was found on a shelf in a
curio shop at Barbados. Some years afterwards he was out there

16

242 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

again and thought he would go to Barbados and have another
look at that shop. To his amazement there was a second specimen !
This was purchased by the British Museum (Nat. Hist.), for £55.
Sam Archer’s Singapore collection was left in his will to Tomlin.
The joint general collection of the two brothers was bequeathed to
the Birmingham University.

CHARLESWORTH COLLECTION. LIVERPOOL.

A large collection of British Mollusca, collected by E. Charles-
worth, was purchased by the Liverpool Museum, in 1858.

EyToN COLLECTION. LIVERPOOL.

Thomas Campbell Eyton (1809-1880) presented a collection of
British Marine Mollusca to the Liverpool Museum, in 1858. He
was the author of a series of papers entitled ‘‘ An attempt to ascertain
the Fauna of Shropshire and North Wales” (Mag. of Zool. and
Bot., 2, 1838; continued in Ann. of Nat. Hist., 1-4, 1838-1840).

Tue GASKOIN COLLECTION.

Dr. J. S. Gaskoin (1790-1858) was Surgeon-in-Ordinary to
George IV. At his death his cabinets passed to Thomas Lombe
Taylor, and at Lombe Taylor’s death Melvill acquired a great
many of the Gaskoin types. These are now incorporated in the
Tomlin Collection at St. Leonards-on-Sea.

Trivia costispunctata Gaskoin is still a rare species.

MoTLEY COLLECTION. SWANSEA.

James Motley is mentioned by L. W. Dillwyn, in 1848 (27),
and by his son, L. Llewellyn Dillwyn, in 1851 (28). Motley was
engaged for some years in Labuan, an island off the west coast of
North Borneo, and while there made various collections, including
a series of 120 species of mollusca, now at the Royal Institution
of South Wales, Swansea. He was massacred by Labuan natives

in May, 1859.
STUTCHBURY COLLECTION. BRISTOL.

Samuel Stutchbury, soon after his return from the Pearl Fisheries
in the Pacific, was appointed Curator of the Bristol Institution,
now the City and County Museum. His earliest donation, several
shells from the South Seas, was in 1827. A preparation of the shell
and animal of Trigonia lamarckii Gray is interesting because of its
early date—4th April, 1833. Other donations include a specimen
of a madrepore, Pavonia boletiformis, enclosing an Ostrea, from

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 243

Tahiti; a specimen of Cyprzxa scotti from Swan River, a large
Pinna fot the North Pacific, Cyprea aurantium, and many species
from Australia and the Pacific, in 1859.

Stutchbury was the first collector to take a living Trigonia which
he placed on the thwart of the small boat, from which the animal
leaped back into the sea. It was three months before he obtained
another. ‘This species was described by Gray in 1838 (29).

E. L. Layarp COLLECTION. MANCHESTER.

Edgar Leopold Layard (1824-1900) had wonderful opportunities
for collecting and was interested, not only in land and freshwater
shells, but in other branches of natural history. His collection of
non-marine shells, purchased by the Manchester Museum, was
estimated at over 8,000 species. Collier states that he never bought
a single shell during the whole of his lifetime (30). He founded the
present South African Museum at Cape Town, and was Curator
there until 1870. He collected in Ceylon, New Zealand, Fiji, and
New Caledonia. His friends named a number of species after him,
as he did not as a rule describe his own discoveries, but sent the
specimens home.

FREDERICK LAYARD COLLECTION. BRISTOL.

General Frederick Layard, of the Indian Army, was a brother of
Edgar Leopold Layard. It is of interest to note that he presented
to the Bristol Museum, in 1862, a small collection of shells, one of
which, Streptaxis layardianus Benson, was named after his brother.

TRAILL COLLECTIONS. EDINBURGH AND ST. ANDREWS.

Dr. William Traill (1818-1886) was in his younger days a medical
student at the University of Edinburgh, where he graduated in
1841. His first appointment as surgeon took him, in 1842, to Madras,
then to Hong-Kong, Singapore, and to Malacca, where he visited
Mt. Ophir. From Singapore he sent home his first collection of
shells, the precursor of several others. When home on furlough
in 1854 he became acquainted with Dr. Knapp, a retired surgeon,
and famous malacologist of that period. In this year a collection
was received from ‘T'raill by the Royal Scottish Museum, Edinburgh,
comprising 500 species of marine shells from these eastern seas.
A large miscellaneous collection, received by the University, St.
Andrews, Fife, is probably contemporary. In 1861 he retired and
settled in St. Andrews.

Traill’s collection was celebrated for his specimens of Rostellaria
rectirostris Lamk. (= fusus L.), Astralium guildfordiz Reeve

244 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

= triumphans Phil.) and Turbo imperialis Gmel. For several years
he took entire charge of the exotic mollusca at the Museum at
St. Andrews and presented numerous specimens. ‘These shells
were arranged in the centre of the large hall. |

Dr. Traill’s private collection remained in store, after his death
in 1886, for a number of years, but his trustees forgot to pay any
storage rent. The local auctioneer, who owned the store, made the
usual claim but offered to overlook this, on condition that the
cabinet was presented to the St. Andrews Museum. ‘This was
agreed to, but by this time the contents were in complete disorder.
It is a pleasure to be able to record that this state of things is no
longer the case, thanks to the initiative of Professor D’Arcy
Thompson, the present Curator. |

RIPPON COLLECTION. CARDIFF.

Robert Henry Fernando Rippon (1836-1917), of Norwood,
left to his widow a large collection of insects and _ shells,
approximately 250,000 specimens. This was acquired in
‘1918 by the National Museum of Wales, through the
generosity of the late Lord Rhondda. ‘The mollusca number
about 25,000 specimens and are very comprehensive in scope.
There are numerous labels showing that many of the rarer species
were purchased through dealers, the name of Bryce Wright being
much in evidence. One such label reads, ‘‘ Voluta fustformis,
Tasmania—f2 tos.’ Rippon does not seem to have published
papers on the mollusca, his principal interest being centred. in the
Lepidoptera, more especially in the genus Ornithoptera.

He was believed to have had several reversed Theba :cantiana
and it was from one of these specimens that J. W. ‘Taylor described
the reversed variety. In 1918 these shells were critically examined,
and found to be the sinistral Eulota fortune: Pfr. (31). ‘There is a
rough MS. catalogue of certain portions of the Rippon Collection,
dated 1862. ,

FEDDEN COLLECTION. CARDIFF.

Francis Fedden was engaged on geological survey work for India
in the early sixties, and made an interesting collection of shells from
India and British Burmah. ‘This was presented by his widow to.
the Public Museum and Art Gallery, Cardiff, in 1894.

The collection comprises about 300 species, marine and non-
marine, principally from the Shan States and Burmah. Several of
the latter were new and were mostly described by Blanford and
Theobald in 1865 (32). Some of the new species are contained in
the collection and are as follows :—

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 245

Blanford, 1865: | Macrochlamys hypoleuca, Sitala confinis,
Hemiplecta undosa, Plectopylis karenorum, Streptaxis burmanica,
Pterocyclos feddeni, Diplommatina nana, Alyceus ingrami, and
Helicina arakanensis.

Theobald, 1865: Paludina naticoides, Pterocyclos insignis,
Alyceeus feddenianus, and Unio feddent.

Hanley, 1868: Clausilia tuba (33).

The collection is now merged in the general Index series of
Mollusca in the National Museum of Wales. ,

DENNISON COLLECTION.

John Dennison, of Woolton Hill, Liverpool, is described by
Reeve in his diary as a country amateur of humble origin, but who
having succeeded to the possession of a large fortune spent it most
lavishly in the purchase of costly shells. Huis cabinet was of rose-
wood, elaborately carved. ‘The drawers were lined with velvet,
in which the shells were placed “‘ like a mess of porridge’.

His collection was sold by Stevens, 21st-26th April, 1865, the
sale being attended by many famous collectors, such as Cuming,
Reeve, Angas, Lombe ‘Taylor, H. and A. Adams.

CUMING COLLECTIONS. BRISTOL AND LONDON.

The Hugh Cuming Collection was purchased by the British
Museum for £6,000 in 1866. It contained upwards of 19,000 species,
represented by about 60,000 selected specimens.

Little needs to be added to the many published accounts of a
collection which, with that of Broderip’s, gave to the British Museum
the important position it still maintains. There is a full account in
Volume VIII of this Fournal. Melvill has said that no public collection
in Europe contained, at that time, one half the number of species
possessed by Cuming ; also, that he was better known and respected
on the Continent than in busy London.

A valuable collection of shells, presented by Cuming, was received
by the Bristol Museum on four different dates. His first series,
presented in 1833, included several new species from the South
American Continent. A second series, received in April, 1843,
consisted entirely of the new and wonderful land shells of the
Philippine Islands (from which he had just returned) ; all named by
him and in beautiful condition. A very much larger series was
received in 1849, and comprised nearly 400 specimens, represent-
ing sixty genera and over 200 newly-described species, and others
undescribed. |

A fourth series was presented at the request of G. H. K. 'Thwaites,

246 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

of Ceylon, in 1856. This was representative of the non-marine
molluscan fauna of Ceylon, as then known to Cuming. The above
information is kindly supplied by Mr. H. Tetley, B.Sc., the present
curator of the Zoological collections.

PHELPS COLLECTION. CARDIFF.

The Rev. C. M. Phelps (1841-1907) was resident in Tenby
until 1888. His collection of British Mollusca was for some years
in the possession of the late Dr. Y. H. Mills, of Haverfordwest,
and was presented to the National Museum of Wales in 1916.
Phelps seems to have been recognized as a conchologist in Tenby
and was responsible for a local list published in the sixth edition of
Mason’s Guide to Tenby (1866). Yet Mills wrote to Dr. Hoyle
saying he was certain the shells were not Phelps’s own collecting.
Specimens were mounted on cards with uniform printed labels,
but with the locality written in the copy-book style of an earlier
period and it is this writing that Dr. Mills noted as not that of
Phelps.

The collection is a comprehensive and an interesting one. There
are specimens of Zonites glaber from Manchester, and among the
marine species, Chiton discrepans Brown from Tenby and lanthina
exigua from Ilfracombe. Tellina proxima Brown and T. punicea
Gmelin are present, the former labelled Skye and the latter Wey-
mouth. There is also a good specimen of Donax denticulatus Linné,
labelled Guernsey ; a species of which Pennant wrote, “* Fine and
perfect from Guernsea.”’

GREVILLE COLLECTION. EDINBURGH.

A large collection of exotic land and freshwater shells, together
with a general collection of British Mollusca, in all about 5,000
specimens, was presented to the Royal Scottish Museum by
Dr. Greville, in 1866.

ANGAS COLLECTION. LONDON AND NEWCASTLE.

George French Angas (1822-1886) presented a valuable collection
of marine shells to the British Museum between the years 1870-
1886. They included the types of 240 species described principally
by himself. His collection of Australasian land shells, including many
types, was subsequently bequeathed to the Hancock Museum at
Newcastle-on-Tyne.

Melvill has an interesting note in this fournal with regard to two
very beautiful specimens of Harpa ventricosa which were put up
for auction at the sale of the first portion of the Angas Collection,

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 247

sold by Stevens on 11th May, 1869. These shells were pure albinos,
and went to Lady Harriet Ramsden, Portman Square. They have
never since been traced. Lady Ramsden’s collection was dispersed
in November, 1873 (40).

THEOBALD COLLECTION. BRISTOL.

A small collection from W. Theobald, the well-known Indian
conchologist, was received by the Bristol Museum in 1868. These
specimens are from the east coast of Bengal.

WORSLEY COLLECTION. BRISTOL.

A cabinet of shells, in which 250 species were represented, was
received from 5. Worsley by the Bristol Museum in 1871. Fossil
species are included.

HIGGINS COLLECTION. LIVERPOOL.

The Rev. Henry H. Higgins (1814-1893) was contemporary with
Marrat and associated with him during the “ Argo”’ Expedition
in 1876. The types of Sconsia barbudensis Higgins & Marrat,
and Murex (Chicoreus) imbricatus Higgins & Marrat, are at the
Liverpool Museum. He also presented to the Liverpool Museum,
in 1860, a collection of North American shells, made by Edward
J. Morse.

RASHLEIGH COLLECTION.

Jonathan Rashleigh, Junr., had a collection of Cyprea, which,
according to Melvill, was extremely large and perfect. Little
seems to be known of him except the fact that he lived at Menabilly,
Cornwall, and died at the early age of 27 in December, 1872.
Melvill records the fact that his collection was still in store in
London in 1888 (39).

Cyprea rashleighana Melvill (1888) is described from a specimen
believed at the time to be unique (34). A second specimen was found
to be in the Cuming Collection (1866) which had been figured by
Reeve as a stunted form of tabescens, but not detected until 1898 (35).
But previous to this, in 1895, Melvill and Standen recorded a few
further specimens among the Lifu material (Hadfield Collection),
the first indication of a locality for this rare species.

JEFFREYS COLLECTIONS. LONDON AND WASHINGTON, U.S.A.

John Gwyn Jeffreys (1809-1885) made extensive collections of

248 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

marine shells, not only on the British coasts, but along the Medi-
terranean and Atlantic seaboards.

His British collection, with which were incorporated the Turton
and Clark cabinets, was purchased for a very moderate sum by
the Smithsonian Institution, Washington. The story of the trans-
action is a sad one for British conchologists. The collection was
offered by Jeffreys to Dr. Giinther—Director of the British Museum
(Nat. Hist.) at that time—but was refused. Jeffreys immediately
went to see Dall, then on a visit to this country, who asked for the
refusal of the collection for 24 hours. This was agreed to. Dall
thereupon cabled to Washington and obtained full authority to
purchase. These facts are kindly supplied by Tomlin, who had
them from the late J. T. Marshall.

Fortunately there is a certain amount of the Jeffreys material
still available for reference in this country. His Mediterranean
dredgings off Piedmont were purchased by the British Museum
in 1856. Then there is the Melliss Collection from St. Helena, which
was worked out by Jeffreys, and the St. John Collection from Japan,
presented to the British Museum in 1873. There is also the
magnificent collection of shells bequeathed by Jeffreys to the British
Museum containing selected material from the Lightning,
Porcupine, Knight-Errant, and Shearwater Expeditions, received in
1885 (12). |

LOMBE TAYLOR COLLECTION. LONDON.

The Rev. Thomas Lombe Taylor, of Starston Hall, Norfolk,
is mentioned by Reeve in his diary. In this he wrote enthusiastically,
prophesying that the Lombe Taylor Collection would be one of
the most complete in the whole of this country (1849). Thirty
years later G. B. Sowerby described it as the largest private collec-
tion of shells in the world, and stated that it had cost £17,000.
Among the collections purchased by Lombe Taylor was that of
Gaskoin.

The Lombe Taylor Collection was dispersed between 1879 and
1880. An important series, including a number of Reeve’s and
Sowerby’s types, was presented to the British Museum in 1875.
A second series, acquired by the British Museum in 1879, was
mainly composed of types.

SauL COLLECTION. CAMBRIDGE.

Miss Jane Saul (died 1895), of Limehouse, specialized in Cyprea,
of which genus she possessed one of the finest series ever gathered

J. DAVY DEAN : CONCHOLOGICAL CABINETS OF THE LAST CENTURY. 249

together during the last century. Of her collection it will be sufficient
to notice a few of the rarer species. Her specimen of Cyprea
barclayt Reeve is unique. Other rare specimens are Cyprza saulz
Gaskoin, named after her in 1843; Cyprexa caput-colubri Kenyon,
Cyprea princeps Gray, Cyprea broderipit Gray; two specimens
of Cyprea guttata Gray, and one of Cyprexa venusta Sowerby (38).
Miss Saul’s collection was bequeathed to the University Museum
of Zoology, Cambridge. Reeve borrowed largely from it for the
illustrations of Cyprea, Conus, etc., in the Conchologia Iconica.

BOLTON COLLECTION. WARRINGTON.

William Bolton, of Warrington, presented a collection of about
2,000 species and varieties of shells to the Municipal Museum in
1924. [his was formed in the eighties and is world-wide in character.
The specimens are mounted in boxes and merged in the general
collection at Warrington.

CHOLMONDELEY COLLECTION. MANCHESTER.

Reginald Cholmondeley, of Condover Hall, Shropshire, would
seem to have acquired some remarkably rare species and varieties
of mollusca. His collection was presented about 1888 to the Owens
College Museum, Manchester, by the late Earl Egerton of Tatton.
Conus cholmondeleyi Melvill is unique (36). In 1888, Melvill
described from this collection, Cyprea fimbriata var. cholmondeleyt ;
C. ocellata var. palatha, and C. lamarckit var. redimita. He also

described, in 1889, the very beautiful Zizyphinus haliarchus (37).

DARBISHIRE COLLECTION. MMANCHESTER.

Robert Dukinfield Darbishire (1826-1908) enjoyed a remarkably
long period of conchological activity. In his copy of British Mollusca,
by Forbes and Hanley, now in the National Museum of Wales,
there are many marginal notes, some of which may be quoted.
Cochlodesma pretenue, collected at Sandsfoot beach, Weymouth,
September, 1851 ; Chiton levis, dredged beautiful red individuals,
17 fms., between Guernsey and Herm, January, 1852; Modutola
phasiolina, one fine, on an oyster shell in 14 fms., St. Bee’s Head,
July, 1853; Cerithium adversum, Gortein Bay, Roundstone,
October, 1864.

In 1857, Carpenter acknowledged Darbishire’s help in the prepara-
tion of his Reigen Catalogue, and in this work his name is associated
with those of Gray, MacAndrew, Reeve, Clark, Bean, H. and A.
Adams. Yet his literary activity continued till 1889.

250 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936.

His collections were presented to the Owens College Museum,
Manchester. His Cephalopoda and a series of Tanganyika shells
were presented in 1890; his Mediterranean collection in 1891 ;
the exotic land and fresh-water mollusca (with the exception of the
operculates, which went to Collier) between 1894 and 1897; the
exotic marine mollusca (with the exception of Scalaria) in 1896.

These dates are kindly given by Dr. J. Wilfrid Jackson.

NORMAN COLLECTION. LONDON.

The Rev. Canon Alfred Merle Norman (1831-1918) was principally
interested in the marine zoology of the North Sea, describing
many of his new discoveries in The Annals and Magazine of Natural
History. His collections, known as the ‘‘ Museum Normanianum ”’,
were presented to the British Museum between 1908-1910. ‘The
collection of marine mollusca is almost complete, and represents
the species of our northern seas. It is exceedingly rich in all groups
belonging to the Palzarctic Region. |

Canon Norman did not agree with the great multiplication of
names, due to Continental authors. In no class of animals has
‘ hair-splitting ’’ been carried out to so mischievous an .extent.
A great gain, he considered, would be achieved if able conchologists
would, by close study, reduce the number of species to reasonable
limits.

An account of the collection appeared in the Fournal of Conchology,
vol. vil, pp. 124-8, 1892.

All this labour and love of conchology has left us with a vast
inheritance, and it is our duty in the twentieth century to take a
share in the responsibility. There are still many mistakes to be
rectified and much research is necessary. We live in an age of
specialization. Sherborn has given us the Index Animalium and
thereby cleared the ground immensely. Yet even to-day the name
most frequently used for the Dodo is Didus ineptus L., although
Sherborn has pointed out that it should be D. cucullatus (L.),
Linné having named it twice (39). Attention may be drawn also
to the spelling of the familiar molluscan names, Mitra scabriuscula—
the Voluta scabricula Linné, and Conus tessellatus, originally spelt
tessulatus by Born.

We puzzle over the differences or supposed differences between
two such species as Trivia monacha and T. arctica till Dr. Marie
Lebour, with her wonderful drawings, places the indisputably
different veliger forms before us (P. Zool. Soc., pls. 4-5, 1935).

J. DAVY DEAN: CONCHOLOGICAL CABINETS OF THE LAST CENTURY.

BIBLIOGRAPHY.

1.—Early Medical and Biological Science, 147-197, Gunther, pe

2.—Op. cit., 172.
3.—Cat. of the Ashmolean Mus. 07, Duncan, 1836.
4.—Dict. of Nat. Biography, 1917.
C Coney, Dict. of the Brit. Is., xx, Turton, 1819.
6.—7. Conch., 14, 38, 1913.
4—P., Malac. Sac:, 15, 80; Boag.
8.—Mag. of Nat. Hist., 14-17, 181-2, 1829.
9.—P. Zool. Soc., 726-732, Gray, 1867.
10.—Cronch. Dict. of the Brit. Is., xviii, Turton, 1819.
11.—Brit. Conch., 4, p. 238, Jeffreys, 1867.
12.—Hist. of the Collections, B. M. Nat. Hist., 2, 704~730, 1906.
13.—7. Conch., 2, 1, 1878.
14.—Ills. Recent Conch. G.B., 65, Brown, 1844.
15.—Descript. Cat. Recent. Sh., Dillwyn, 1817.
16.—Science and Scientific Men of Wales, ‘‘ Soranus,
17.—Conch. Ins. Brit., p. 3, Turton, 1822.
18.—¥. Conch., 6, 210, 1890.
19.—Man. L. and F. W. Shells of G.B., viii, Turton, se ak
20.—Brit. Conch., 4, 305, Jeffreys, 1867.
21.—Brit. Moll., 2, 81, Forbes and Hanley, 1849.
22.—Zool. Yourn.., 2, 28, 1825.
23.—Zool. Fourn., 2, 199, 1825.
24.—Zool. fourn., 3, 527, 1828.
25.—7. Conch., 6, 220, 1890.
26.—7. Conch., 3, 340-390, 1882.
a7 — Materials for a Fauna and Flora of Swansea, Dillwyn, 1848.
28.—P. Zool. Soc., 118-120, 1851.
29.—Ann. of Nat. Hist., i, 482, 1838.
30.—F. Conch., 9, 329-331, 1900.
31.—f. Conch.., TO, 47, 1070;
32.-—F. Asiatic Soc. Bengal., 34, 66-105 and 273-9, 1865.
33.—Ann. and Mag. Nat. Hist. Ser 418), 343, 1868.
34.—F. Conch., 5, 288, 1887.
35.—7. Conch., 9, 85, 1808.
36.—F. Conch., 9, 308, 1900.
37.—F. Conch., 6, 32, 1889.
38.— Survey of the Genus Cyprea, Melvill, 1888.
39.—Index to the ‘* Systema Nature ”’ of Linnaeus, Sherborn, 1899.
ae Coneh,, 13. 92; 1010.

39

1855.

INDEX

PAGE.
Adams, A. . j ‘ - 239 Carpenter
Adams, C. B. ‘ ; . 236 Charlesworth
Adams, H. . ; , ges BO. 6. Ginga

Alder . : i : i ar Cholmondeley
Angas : ; Sao CO uean gr
Archer, F. and S. : eivegt: Aug

Ashmole . , SNA el A | AMAT OISINIRe'
Babb . ; : ; - 234 Dennison

Bean . ; } ‘ . 237 Dieffenbach
Benson ‘ 4 , ~ Ao) » Dillan
Bolton : } , +) Bae). Eevton

Broderip . P ; » 234 Fedden

251

PAGE.
241
242
240
249
245
235
249
245
233
230
242
244

252 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 8, JULY, 1936
®

Forbes ;
Fryer
Gaskoin
Greville
Guilding
Higgins
Hinds ‘
Hulse :
Jardine
Jeffreys
Krauss
Layard, E.
Layard, F.
Lincolne
Linnaeus
Lovell
Lyons
McAndrew
M’ Kellar
Montagu
Motley
Norman
Parreyss

eee

PAGE.
238
238
242
246
234
247
236
239
239
247
235
243
243
235
226
232
230
239
241
228
242
250
233

Pennant
Petiver
Phelps
Rankin
Rashleigh
Rippon —
Rowland
Saul

Sloane i
Smith, Sir J.
Stainforth
Stutchbury .
Swainson
Taylor, Lombe
Theobald
Tradescant .
Traill
Turton 2
Walton :
Williams, W.
Worsley
Wright

Yate %

PAGE.
226
226
246
233
247
244

see

248
226
226
239
242
232
248
247
225
243
233
235
241
247
239
233

253
A NEW CLAUSILIA FROM ASIA MINOR.
Dy: Fide. J. Bices.
(Read oe the Society, 9th May, 1936.)'
Armenica (Crentclavis) euprepes, sp. nov.

Shell sinistral, fusiform, purplish brown, semi- Chl i tage dull,
imperforate, whorls 124; protoconch consisting of 2} smooth,
horn-coloured whorls; coste regular, parallel, fine and close,
about 9 to the mm. on 11th whorl; strong crest behind peristome ;
aperture piriform ; peristome continuous, free, somewhat reflected,
deep sinus at upper angle; columella plait narrow, deep channel
at base of aperture ; interior pale brown.

Holotype.—Alt. 19°3 mm.; Max. Diam. 3:9 mm.

Average for 10 paratypes.—Alt. 20°0 mm. ; Max. Diam. 4'1 mm.

Habttat.—Near Macka, Trebizond Province, Asia Minor.

Holotype in my collection ; paratypes in Brit. Mus.

These shells were collected by Mr. E. K. Balls in July, 1933.
The proposed new species bears some resemblance to Oligoptychia
unicristata Bttg., but besides generic distinctions differs by being
more coarsely striated and somewhat thicker. Armenica (Crentclavts)
huet Mort. is a close relative, but is horn-coloured, larger and more
coarsely striated than this species, and the costz are not so regular,
a difference which is very noticeable, comparing the middle whorls.

The species also occurs at 1,100 feet above Macka, a set of
ten having been obtained by the same collector in June of the
same year.

254

SOME TRISTRAM TYPES.
By As): Peice.
(Read before the Society, 4th April, 1936.)

A SELECTION of shells from the collection made by Canon H. B.
Tristram in Palestine, including some of the types, was recently
presented to the National Collection by Dr. C. ‘T. Trechmann.
Tristram’s report on the collection was published in Proc. Zool. Soc.,
1865, pp. 530 to 545.

The following notes on the synonymy of a few of the species are
published by permission of the authorities of the Natural History
Museum :—

(1) Succinea globosa (p. 531). Of two shells so labelled, one, which
agrees with the published description, is a form of Limnza lagotis
(Schrank).1 The other shell, measuring alt. 17, diam. 11 mm.,
appears to be a form of S. putris (Linn.).

On p. 540 “‘ Limnzus tener, Parr.” is recorded from the identical
locality, viz. Lake Huleh, Merom.

(2) Pupa libanotica, p. 538. ‘The holotype proves to be Orcula
orientalis (Pfeiffer).2 Two columellar plaits are present, not
mentioned in the original description.

(3) Pupa hebraica, p. 539.2 The holotype is a form of Orcula
(Pilorcula) raymond: (Bourguignat), differing only in having two
columellar plaits instead of three. ‘The specimen is somewhat
worn and therefore devoid of spines.

Conus gracilis G. B. Sowerby III.—The above combination has been
used at least three times for different species : (1) C' gracilis G. B. Sowerby
II, in Gen. Rec. and Foss. Shells, pt. xvi, pl. 267, f. 4, 1823, was a synonym
of Conus australis Lam., fide Sowerby himself. (2) C. gracilis Wood, Ind.
Test. Suppl., p. 8, pl. iti, f. 3, 1828, is said to be C. tzmorensis Brug. (3)
C. eracis Ge. Sowerby, Ill, P.2.8., 7675, p. 125, pl. xxiv, f; 6, ts an
extremely rare species which was once in the Prevost Collection and sub-
sequently in that of Melvill. Tryon suggests that it is Reeve’s aculeiformis,
but I think this is erroneous, and as it is in need of a name I have great
satisfaction in calling it Conus hopwoodi—J. R. LE B. TOMLIN.

1 Fauna Boica, iii, 1803, p. 289.
2 Malak. Blatt., viii, 1861, p. 168, Taf. 3, ff. 6-8.
3 Mollusques Nouveaux, Litigieux ou Peu Connus, 1863, p. 48, pl. 6, ff. 10-13.

255

Archidoris britannica (Johnston)—During August of last year I was
fortunate enough to witness a most curious piece of behaviour on the part
of large numbers of Archidoris britannica (Johnston). ‘The locality was the
north shore of Belfast Lough, at Greenisland, Co. Antrim, about 8—9 miles
from Belfast, the date 6th August, and the time between 10 and II a.m.
The following notes were made on the spot: ‘* Below the house called
Ballinascreen on marl-flat at low water (Fucus serratus zone) extraordinarily
plentiful, and behaving in a manner quite unlike their usual style. Many
(about 50 per cent) were lying helplessly upside-down, and some were
already dead. Almost all were full-sized (about 70mm. long), but a few
were smaller, ranging down to 40mm. In an area of shore about 70 feet
square 84 specimens were noted, many lying dead or dying in the strong
sunlight. Multitudes more were crawling actively about in a few inches of
water. The marl-flats just at this point are covered with a thick growth of
red and green alge. Only a very few Archidorids were noted in their usual
sort of habitat, flattened into a dark sheltered corner, and protected from
the rays of the sun. All along the shore the species was noted in the most
astonishing abundance, only paralleled in numbers by their abundance in
March and April when spawning, but then they are found under stones and
weeds, not crawling about in the sun or cast up helplessly on to the beach.
Right along the shore from Seapark Dyke A. to the Gut (a distance of about
1 mile or a little more) they were plentiful in rock-pools, crawling on bare
sand and rocks, and dead or dying specimens everywhere high and dry on
the shore. ‘The specimens which were crawling about on the marl-flats
in about 3—8 inches of water were freely exposing themselves to the rays of
the sun, and were mostly crawling towards (or at any rate in the general
direction of) the shore.’ The tide was not a spring (actual height at Belfast
10°8 ft., as compared with almost 12 feet at springs, and height at L.W.
2 feet as compared with between 2 and 6 inches at springs), nor had there
been any gales or indeed any wind at all, so no obvious cause can be
advanced to account for the extraordinary abundance of Archidoris, or for
their unusual behaviour. I have never seen them moving about in the
strong light of the sun on any other occasion——Nora FIsHER. (Read before
the Society, 8th February, 1936.)

Early Occurrence of C. nemoralis.—On Sunday, 2nd February, I saw
a C.. nemoralis L. here, out and about, though a bitterly cold north wind
was blowing and a quarter of an hour later the ground was white with hail.—
W.F. Lioyp James. (Read before the Society, 14th March, 1936.)

256

PROCEEDINGS OF THE
CONCHOLOGICAL SOCIETY OF GREAT BRITAIN & IRELAND.

632nd Meeting, held at the Manchester Museum, 8th February, 1936.
Mr. G. C. Spence in the chair.

Election of New Member.
Mrs. Cecily C. Mellor.

Papers Read.

“Mollusca of the Sheep Ponds on the Eastbourne Downs,” by G.
Shrubsole.

‘* Curious Behaviour of Archidoris britannica (Johnston), by Miss N.-
Fisher.

Exhibits.

By Miss Fisher: Mytilus edulis L. (normal) from Eglington, co. Derry ;
ditto (eroded) from the Embankment, Eglington; and ditto (dwarfs)
from Leasowe, Cheshire.

By Mr. F. Taylor: Xeroclhvia elegans (Gmelin) from Chaldon,
Surrey, collected 21st October, 1935.

By Mrs. Morehouse: Achatina fulica Fer. from Calcutta; also eggs,
young and adults of the same species from Kuala Lumpur.

By Mr. C. H. Moore: Series of species of Columbella.

By Mr. G. C. Spence: Helix aspersa (Miull.) from Johannesburg,
Transvaal.

There was a special exhibit of Lancashire and Cheshire Marine Mollusca.

633rd Meeting, held at the Manchester Museum, 14th March, 1936.
Mr. G. C. Spence in the chair.

Candidate Proposed for Membership.

Wilfrid Edward Reeve, 70 Underhill Road, East Dulwich, London,
S.E. 22 (introduced by Hugh C. Fulton and J. W. Jackson).

Papers Read.

‘““ Early Records of Lancashire and Cheshire Non-Marine Mollusca by
James Wright Whitehead,” by Miss Nora Fisher and Dr. J. Wilfrid
Jackson.

‘* A Sea-shore Census for British Mollusca,”’ by J. Davy Dean, F.R.E.S.

‘“* Early Occurrence of Cepza nemoralts (L.),” by W. F. Lloyd James.

‘““Enemies of the Land and Freshwater Mollusca of the British Isles,”’
by S. V. Wild, M.Sc.Tech., A.I.C., and A. K. Lawson, F.R.Met.Soc.

Exhibits.

By Mr. A. K. Lawson: Various species of shells eaten by enemies.

By Miss Fisher: Paphia pullastra (Mont.) from Valencia Is., Kerry.

By Mrs. Morehouse: Various operculates from Sarawak (Chas. Hose
collection).

By Mr. G. C. Spence: Species of Achatina.

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CONTENTS. GD ye

Yorkshire Céuhalopodalawe {) Crarkey) ie VMs omen
A New Aglaja from Japan (plates 10 and 11)—S, ‘Hirase 250

: Obituary Notice: H. Coates—Joun RITCHIE SL EN, 262

Studies of African L. & F.W. Moll.‘ Notes on Ga
Taylor with Description of a New Species (text- figures)— :
J. BEquAERT and W. J. CLENcH . BE bat aye

Mollusca Destroyed by Frost—J. ‘R. LE B. Pontein: Se we an

_ Early Records of Lancs. and Cheshire Non-Marine Mollusca
1 by. J. W: Whitehead--N. FISHER and Dr. j. W. en 275

Helix minuscula Binney—A. J. PEILE . : : 281
_ Simnia patula iherngen) t in Orkney—R. RENDALL ; , LA BOG
| Editorial, Notes ' : Ln oy 7280
Proceedings; 4th April, oth May, 1936 l mi SONG ae
Plates 10 and Tt, )

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JOURNAL OF CONCHOLOGY,

VoL. 20. 25th NOVEMBER, 1936. No. 9

YORKSHIRE CEPHALOPODA.
By Wo Jo: Cuarke, ‘F.Z.5;

In the interesting article on “‘ The Cephalopoda of the Yorkshire
Coast”, by J. A. Stevenson, published in the Journal of Conchology,
April, 1935, the writer says: ‘‘ There is some question as to the
occurrence on the Yorkshire coast of the common octopus (O.
vulgaris Lamarck). It is entered without comment in the record
book of the Scarborough Field Naturalists Society, but since no
mention of Eledone was made in this book we believe that the latter
has been confused with octopus.” |

Mr. Stevenson’s surmise has been proved to be quite correct.

The record in the S.F.N.S. book says simply: “‘ Octopus vulgarts,
J. C. H.,” no date or particulars being given. I recently came across
Mr. J. C. Harrison, who made the record, and he told me that the
creature was identified and named by the late Dr. Harvey, of
Scarborough. Fortunately Mr. Harrison still had the specimen in
his possession, and I asked him to examine it and see whether it
possessed a single or a double row of suckers on each tentacle.

Mr. Harrison has replied: ‘‘'The octopod I have has one row of
suckers on each tentacle—it is still in good condition.”

It is evident, therefore, that the species is Eledone and not
O. vulgaris.

17

258 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.
A NEW AGLAJA FROM JAPAN.
: By SHinTaro Hirase.
(Read before the Society, 7th December, 1935.)
| [PLATES 10 AND 11.]|

THE opisthobranchiate fauna of the coast of the Biological Station
of the Tokyo Imperial University at Misaki is particularly rich,
and some of them have already been published by the late Sir C.
Eliot. ‘The specimen here noted was caught by a collector of the
Biological Station on the 4th November, 1929. ‘The preserved
material in very good condition was kindly placed at my disposal
by Mr. M. Iwasa, assistant of the Imperial University at Sapporo,
and it was painted while alive in water colour by him.

I am glad of this opportunity of expressing my thanks to Mr. M.
Iwasa for my pleasure in investigating the species.

AGLAJA IwaSAI, sp. nov. Nom. Jap. ‘Tunonasiohkurogahi.

General Colour.—Judging from the dorsal aspect of the living
animal (Pl. 10) sketched by Mr. Iwasa, the animal seems to be
warm blackish brown in colour, while living. Along the median
line of the head shield are two fairly large amber yellow spots,
anterior (PU. 11,8 1, 246) and posterior (Pl, 11, f..4, PYS). “The
anterior margin of the body and inner margin of the anterior end
of the head shield have amber yellow dot lines respectively. The
posterior margin of the head shield is rimmed with a narrow amber
yellow line. Both the anterior ends of the parapodial lobes are also
rimmed with amber yellow lines. ‘The posterior margin of the
mantle has few amber yellow parts. I cannot designate the true
colour of the foot, but it seems to be the same as that of the dorsal
body.

In the preserved specimen both parts are of dull purplish black
colour, but the anterior margin and the antero-lateral margins of
the foot are rimmed with black lines.

Body.—The body is ovate oblong and somewhat swelled in the
middle portion.

Dimensions.—The measurements of the well-preserved specimen
are 80 mm. long, 44 mm. wide, and 36 mm. high.

Head-shield——The form of the head-shield (PI. 11, f. 1, HS)
is somewhat elongated oblong, and not bilobed behind. The
posterior tip of the head-shield is somewhat projected like a tongue,
and both the basal parts of this projection are more or less notched.
The head-shield is free from the body on its posterior and lateral
margins. The length of the head-shield is 40 mm., the breadth
33 mm. The distance between the two amber yellow spots is 14 mm.

S. HIRASE: A NEW AGLAJA FROM JAPAN. 259

The distance between the centre of the anterior spot and the anterior

end of the head-shield is 19 mm. The anterior spot is almost round
and its diameter is 3mm. ‘The posterior spot is more or less
elongated and its size is 4 X 3 mm.

Parapodial Lobes——The parapodial lobes (Pl. 11, f. 1, PL)
are free and their margins are rimmed with sorghum brown colour
lines. ‘The anterior parts of the parapodial lobes have short amber
yellow rims. The fleshy parapodial lobes are recurved on the dorsal
sides of the body, but not so large as to be used as swimming organs.

Mantle-—The posterior end of the mantle (Pl. 11, f. 1, MT)
has two somewhat large lobes and a large gaping orifice between
the lobes.

Foot.—The foot (PI. 11, f. 2, FS) is rather wide, its widest median
part measuring 42 mm., and its length covering the length of the
body. The anterior margin of the foot is not truncate, and is rather
rounded. The sides of the foot are continued in fleshy parapodial
lobes.

Branchia.—The white branchial plume is rather large (72 mm.
long, along the outer side, 29 mm. wide, and 8 mm. thick), and is
situated at the posterior end of the body on the right side (PI. 11,
f. 1, GL), its free extremity (Pl. 11, f. 2, GL) curving to the left
side of the body. Both the dorsal and ventral sides of the branchia
are subdivided into about 11-12 leaflets, each of them being folded
to many small filamentous appearances (PI. 11, f. 3).

Anus.—The oval anal papilla stands about 2mm. just in the
median line of the body near the left basal part of the branchia.
The largest diameter of the anus (Pl. 11, f/'t; 3, AN)’ is’ about
3°5 mm. The inner wall of the anal papilla is folded.

Genital Pores and External Spermatic Groove-—The male repro-
ductive opening (PI. 11, f. 1, MP) is situated on the anterior right
side of the body near the mouth. This opening is connected by
means of a fine groove, the spermatic groove (Pl. 11, f. 1, SGR),
with the common genital opening (Pl. 11, f. 1, CGP), which is
found on the right posterior side of the body near the beginning
of the branchia. ‘The length of the spermatic groove is 45 mm.
along the lateral side of the body. ,

Shell_—The shell (Pl. 11, f. 4) is internal and situated at the
posterior extremity of the body, only covering a part of the gill. —
The calcareous part of the shell is lilac grey in colour. ‘The volute
part is very small, and the outer membranous expansion is rather
broad. The length of the shell is 20 mm. and breadth 11 mm.

Central Nervous System.—The central nervous system, as usual
in the genus, lies on the anterior dorsal surface of the large
pharyngeal bulb and the three ganglia (cerebral, pedal, and pleural)
are small but distinct. Besides these three ganglia there is a distinct

260 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

parietal ganglion under the right pleural ganglion. Each buccal
ganglion is very small, but pretty distinct, and is connected with the
other by means of a very fine, short, connective. The buccal
ganglia (Pl. 11, f. 5, BG) are situated on the ventral face of the
pharyngeal bulb, at a spot about two-thirds from the anterior end.
Thus it may be seen that the buccal ganglia, as compared with the
central ganglio-mass, are situated quite behind the pharyngeal bulb.

Alimentary System.—The ovate mouth opening has two black lip- _
like lobes. The vertical length of the mouth is 10 mm., and its breadth
6mm. Mouth cavity is not high (about 3 mm.); it leads into the
cavity of the voluminous pharyngeal bulb. ‘The bulb is extra-
ordinarily large, 37 mm. long, 25 mm. wide, and 24 mm. high, and
has a pear-shaped form. Its outer surface is arranged with many
fine parallel lustrous longitudinal fibres. The posterior end of this
bulb (PL. 11, f. 5, 6) is connected by the short stalk with the stomach,
has no mandibles or radula, and its wall is very smooth except the
closely arranged, very fine transverse fibrils. Along the median
line the wall of this pharyngeal bulb in the pharyngeal cavity makes
a large fold, the breadth of which is 10 mm., its height 13 mm., and
a large groove on the ventral outer surface of the pharyngeal bulb.

Stomach.—The stomach (Pl. 11, f. 6) is a rather smal! muscular
sac under the large liver. ‘The colour of the stomach is pale
chalcedony yellow with vinaceous lilac spots. There are no horny
teeth or spines, but an ear-like folded process (Pl. 11, f. 6, FP)
protrudes on the posterior part of the stomach. The inner wall of
the stomach is strongly folded. The length of the stomach is 14 mm.
and the width 13 mm.

Liwver.—The compact, voluminous liver is posterior to the
pharyngeal bulb and its colour is dark porcelain green in the
preserved specimen. The length of the liver is 13 mm., its breadth
22 mm., and its thickness 16 mm.

Peticardiem. —The pericardium and the heart are of the type
common to this genus.

Gonad.—The ovotestis lies posteriorly to the liver ee is closely
attached to its posterior surface, but can be easily distinguished
from the liver. The colour of the preserved specimen is somewhat
blackish brown. The length of the ovotestis is 32 mm., breadth
22 mm., and thickness 11 mm.

Spermatheca.—The round spermatheca is situated near the right
side of the liver, and its colour is ivory yellow. The maximum
diameter of the spermatheca is 11 mm. The duct of the spermatheca
is very long (about 22 mm.) and is so slender that unless due care be
taken in dissecting it there is danger of its being cut through.

Male Genital Organ.—The blade-like penis (Pl. 11, f. 7, P) is

fairly large in this species, and its length measures 14 mm. and its

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S. HIRASE: A NEW AGLAJA FROM JAPAN. 261

breadth 6mm. The penis-sheath (PI. 11, f. 7, PSH) is also fairly
large according to the size of the penis. On the other hand, the so-
called prostatic gland (Pl. 11, f. 7, PRO) is very small (about 4 mm.
long and 2 mm. wide) and its colour is dark vinaceous grey.

Habit.—This species was found in shallow water (about 2 feet
deep) near the Biological Station of the ‘Tokyo Imperial University
at Misaki on the 4th November, 19209.

There is only one species of Aglaja (Aglaja gigholiu 'Tapparone-
Canefri, 1874) known to be Japanese. I think Aglaja iwasai is to be
clearly differentiated from it, the reasons being as follow :—

(1) ‘The shell is absolutely different.
(2) The size of its body is much larger.
(3) Its colour is different.
(4) It has no flagellum or filament at the tip of the left separated
lobe of the mantle.
Aglaja twasai is different from all the known species of Aglaja
and I dedicate it to Mr. Iwasa in gratitude for his kindness to me.

EXPLANATION OF PLATES.

PLATE Io.

Aglaja iwasai, sp. nov. Dorsal view, from a watercolour drawing made
by Mr. Iwasa from the living animal at Misaki. ‘The scale of the
drawing was not indicated, but it is approximately double the
size of preserved specimen.

PLATE II.

Fic.

1.—Dorsal view of the preserved specimen. Nat. size. MP, male genital
pore; SGR, spermatic groove; PL, parapodial lobe; CGP,
common genital pore; MT, mantle; HS, head shield; AYS,
anterior yellow spot; PYS, posterior yellow spot; AWN, anus ;
GL, gill. |

2.—Ventral view of the preserved specimen. Nat. size. FS, footsole.

3.—Side view of the gill. x $. AN, anus.

4.—Shell. Nat. size.

5.—Ventral view of the pharyngeal bulb, showing the median large groove
and the position of the buccal ganglia. Nat. size. MLGR, median
large groove ; BG, buccal ganglia.

6.—The pharyngeal bulb and the stomach have been slit lengthwise and
opened out flat. Nat. size. FP, ear-like folded process on the inner
wall of the posterior part of the stomach.

7.—The penis sheath has been slit somewhat lengthwise, showing the large
penis. X 2. P, penis; PSH, penis-sheath; PRO, so-called
prostatic gland.

262 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

OBITUARY NOTICE
HENRY COATES, Fis.) 1659-1935:
By JouHN RITCHIE.

Henry Coates was born in Philadelphia, U.S.A., in December,
1859, the son of Mr. Andrew Coates, who was the American
representative of the famous thread family at that time. Shortly
after Mr. Coates’s birth the family returned to Scotland, where his
father commenced business on his own behalf as a carpet manu-
facturer in Perth. During his residence in America he was associated
with many of the scientific men of eminence of that day, and gave
financial assistance to Audubon towards the publication of his
famous ornithological volume. The father’s interests in natural
history became strongly developed in his son, Henry. From his
early boyhood Henry showed a natural penchant for the fauna and
flora of the district in which he lived, and we find he became early
associated with the Perthshire Society of Natural Science, which
had among its members Geikie and Buchanan White. His interest
in Geology was keen, and we find that while at Edinburgh University
this class was the only one which seemed to offer him interest.

Returning after his University career to his home at Perth, he
began a close study of the mollusca fauna of the district, and from
time to time published his work, his earliest publication appearing
in the Transactions of the Perthshire Society of Natural Science, on
“The Mollusca of Perthshire,” in 1882. This study he kept on
right through his life, and during the last ten years he collated and
catalogued the whole of the collections which were in the Perth
Museum and at the same time collated and catalogued that of
St. Andrews (Dundee University College). In the latter were the
shells collected by Mrs. Carphin.

A few years before his death he had to seek a warmer climate for
the benefit of his health, and removed to Torquay. Shortly before
his death he was appointed President of the famous Society there.
A week or two before his death he saw the publication of a booklet
in which he had the collaboration of his wife on the Birds of ‘Torquay.

During the war years he acted as Curator of the Perthshire
Natural History Museum.

A man of unique personality, he became a member of the
Conchological Society as far back as 1886. Mr. Coates was warm-
hearted, sympathetic, and a most lucid lecturer who will be missed
by many. 3

BEQUAERT AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS. 263

STUDIES OF AFRICAN LAND AND FRESH-WATER
MOLLUSKS.

Notes on Gonaxis Taylor, with Description of a New Species.

By JosepH BEQUAERT! and WILLIAM J. CLENCH.?

(Read before the Society 11th May, 1935.)

Gonaxis Taylor.

THE generic name Gonaxis is here used to include all African
Streptaxide with a more or less distorted spire, the body-whorl
being shifted to one side of the axis, and without columellar and basal
teeth or swellings. Thiele has recently proposed to rearrange the
species partly on the basis of radular structure. Some of them he
would place in Tayloria, some in a distinct genus Afristreptaxis,
while the remainder he would unite with Marconia (see Handbuch
Syst. Weichtierk, ii, 1931, pp. 728-730; ili, 1934, p. 1010; Arch.
f. Molluskenk. \xiv, 1932, pp. 11-12; Sitzungsber. Ges. Naturf.
Fr. Berlin, 1933, pp. 280-3). Unfortunately very few of the species
have been studied in this respect. Moreover, some of the published
accounts of the radula are contradictory or erroneous. ‘Thiele,
for instance, states that there is no central tooth in Gonaxis, though
the radula of the type species has never been examined. Of five
West African species studied by Degner (1934, Zool. Fahrb., Abt.
Syst., Ixv, pp. 210-220), two showed a distinct central tooth, one
a very small one, and two none at all. It would seem, therefore,
that this peculiarity has hardly more than specific value.

Marconia is here retained for the shortly cylindric species, showing
no distortion of the shell, and with very obtuse dome-like summit.
No sharp line of demarcation can be drawn between Marconia
and Gonaxis on shell characters alone. Pilsbry (1919, Bull. Amer.
Mus. Nat. Hist., xl, p. 173) attached great importance to the fact
that in Marconia lata ruwenzoriensis Pilsbry the radula shows two
zones of large laterals separated by a zone of smaller ones, on each
side of the unarmed rachis. Since this feature was also found by
Thiele in Marconia latula (Martens), it may be of more value than
the mere absence or presence of the central tooth.? Moreover, it
should be pointed out that the genotype of Marconia is Ennea lata

1 Department of Tropical Medicine, Harvard University Medical
School, Boston, Mass.

2 Museum of Comparative Zodlogy of Harvard University, Cambridge,
Mass.

3 However, it is not shown in Connolly’s figure of the radula of Marconia
margarita (Preston), which, in addition, has a small central tooth (1922,
Ann. Mag. Nat. Hist., (9), x, p. 488).

264. JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

Smith, as designated by Kobelt in 1906 (Conch.-Cab., i, Abt. 128,
pt. 2, p. 167); not Marconia gibbosa Bourguignat, as given by
Pilsbry. As a matter of fact, we place M. gibbosa in Gonaxts, since
the shell is decidedly distorted.

When Gonaxis is eventually divided, the following names will
become available :—

Gonans, Laylot, 1877,. Quart. 7.» Coneh., i, «ne, IZ, p, “252:
Monotypic for Gonaxis gibbons ‘Taylor, 1877.

Pseudogonaxis ‘Thiele, 1932, Arch. f. Molluskenk., lxiv, p. 11.
Type by original designation: Streptaxis nsendweensis Putzeys,
1899. Proposed as a subgenus of Tayloria.

Macrogonaxis ‘Thiele, 1932, Arch. f. Molluskenk., \xiv, p. 11.
Type by original designation: Streptaxis enneoides Martens, 1878.
Proposed as a section of Pseudogonaxts. 3

Afristreptaxis Thiele, 1932, Arch. f. Molluskenk., \xiv, p. 12. Type
by original designation : Streptaxis vosseleri Thiele, 1911. Proposed
aS a genus.

Eustreptaxis Pfeiffer (1879, Nomenclator Helic. Viv., p. 15;
the date 1878 printed on the wrapper of the first part is erroneous)
does not seem to be available for the African species. The first
valid type selection appears to be by Kobelt, in 1910 (Fahrb. Nassau.
Ver. Naturk., \xiui, p. 144), who designated Helix contusa Férussac
of South America. H. B. Baker (1928, Nautilus, xli, p. 127) claims
that Kobelt in 1880 (Lllustr. Conchylienbuch, p. 209) selected the
West African Streptaxis nobilis Gray, 1837, as the type. But
Kobelt cited two species as the “‘ types’ of Eustreptaxis, one for the
toothed and another for the toothless species; so that his action
could hardly be regarded as a true type designation.

It seems to us that, on the strength of shell characters alone,
Gonaxis divides rather naturally into two groups, as suggested by
Pilsbry (1919, Bull. Amer. Mus. Nat. Hist., xl, p. 171). If given
subgeneric rank these groups might be characterized as follows :—

I. Gonaxis s.s. (Syn. Pseudogonaxis).—Last whorl much dis-
torted shell considerably flattened. Small species, at most 13 mm.
in length. This group contains: albidus, blacklocki, cavallii, cressyt,
denticulatus, gibbonsi, kirki, maugere, mozambicensis, nsendweensis,
percivalt, pileolus, prostratus, pusillus, schweitzeri, souleyetianus,
and welwttschit. |

2. Subg. Macrogonaxis (Syn. Afristreptaxis)—Last whorl
very slightly or moderately distorted, the shell globosely conoid:
Usually large species, exceptionally 10 mm. in length (johnstonz,
turbinatus). ‘This group contains: abessinicus, xthiopicus, bloyeti,
bottegot, breviculus, camerunensis, craveni, elongatus, enneoides,
gibbosa, gwandaensis, johnstoni, kibweziensis, loveridget, mamboiensis,

BEQUAERT AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS. 26 5

micans, monrovia, quadrilateralis, sudanicus, turbinatus, ukamicus,
VENLOENSIS, powelen, and vulcant.

We have seen no species that could not be placed readily in either
of these groups.

The following species, based upon immature shells, are doubtful
Gonaxis: bethencourti, inermis, and pupilla.

No revision of Gonaxis is here attempted. We shall merely list
the species which we believe should be included in the genus.

G. abessinicus (Thiele).—Afmstreptaxis abessinicus Thiele, 1933,
Sitzungsber. Ges. Naturf. Fr. Berlin, p. 288, pl. 1, fig. 2 (Abyssinia,
without more definite locality).

G. zxthiopicus (‘Thiele).—Afristreptaxis ethiopicus Thiele, 1933,
Sitzungsber. Ges. Naturf. Fr. Berlin, p. 287, pl. i, figs. 2-2a (Pate.
Djimma, Buka Mts., Andessachas Detscha, Kella Mts., Upper
Gelo River, all in Alvrssiniay With var. minor ‘Thiele, loc. ie

G. albidus (Pfeiffer).—Streptaxis albida Pfeiffer, 1845, in Philippi,
Abb. Beschr. Conchyl., i, p. 73 184h, loey city, ay pxa28,: pl. vis,
Helix, fig. 5 (type; locality unknown). Unrecognized. Germain
(1911, Bull. Mus. Hist. Nat. Parts, xvii, p. 229) regards G. prostratus
(Gould) as being the same species.

G.(?) bethencourtt (Nobre).—Streptaxis bethencourti Nobre,
1905, Ann. Sct. Nat. Porto, ix, p. 104, pl. i, figs. 33-4 (forests of
Mupépé, Angola). ‘This was based upon an immature shell, 6 by
7 mm., of doubtful generic relationship.

G. blacklockt Connolly, 1928, Ann. Mag. Nat. Hist., (10) 1,
Pp. 531, figs. 1a—-b, Jiama [type loc.], Langranna, Majendoo, all
Sierra Leone. We have seen it from Liberia, Bonuta, Kolobanu,
Memeh ‘Town, Banga, Gbanga.

G. bloyett Bourguignat, 1889, Moll. Afr. Equat., Pp. 194s pl. vin,
figs. 1-3 (mountain range between Usagara and Ugogo, Tanganyika
Territory). We have seen it from Ukami, Tanganyika Territory.

G. bottegot (Martens).—Streptaxis bottegot Martens, 1895, Ann.
Mus. Civ. Genova, xxxv, p. 63 (between Bardera and Brava, Italian
Somaliland); 1897, Deutsch Ost-Afr., IV, Besch. Weichth.,.
p. 31, pl. u, fig! 28 @ype), ‘Not seen.

G. breviculus (E. A. Smith).—Gibbus (Gonidomus) breviculus
E. A. Smith, 1890, Ann. Mag. Nat. Hist., (6) vi, p. 161, pl. vi, fig. 3
(Usagara, ‘Tanganyika Territory). Not seen.

G. camerunensts (d’Ailly).—Streptaxis camerunensis d Ailly, 1896,
Buh. Svensk. Vet. Ak. Handl., xxii, Afd. iv, No. 2, p. 5, pl. i, figs. 1-5
(Bonge and Bibundi, Cameroon). We have seen a paratype from
Bonge and also specimens from Idenau, near Victoria, Cameroon.

G. cavallu (Pollonera).—Streptaxis cavallit Pollonera, 1906,
Boll. Mus. Zool. Anat. Comp. Torino, xxi, no. 538, p. 2 (eastern
slope of Mt. Ruwenzori, in the Mobuku Valley, 2,000 m., Uganda) ;

266 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

1909, Jl Ruwenzori, Rel. Scientif., i, p. 183, pl. xx, fig. 1 (type).
We have seen it from Mt. Ruwenzori in the Butagu [or Butahu]
Valley, 1,800 to 2,200 m., Belgian Congo.

G. cravent (E. A. Smith).—Streptaxis cravent E. A. Smith, 1880,
Ann. Mag. Nat. Hist., (5) vi, p. 429 (on the hills between the mouth
of the Dana [= Tana] River and Mombasa, Kenya Colony) ;
1881, Proc. Zool. Soc. London, p. 280, pl. xxxii, figs. 5-5a (type).
We have seen it from Kizerui and Amani, in Usambara, ‘Tanganyika
Territory ; and from Mt. Mbololo in the Taita Mts., Kenya Colony.

G. cressyi Connolly, 1922, Ann. Mag. Nat. Hist., (9) x, p. 113
(Mtisherra River Valley, Portuguese East Africa); 1925, Trans.
Roy: Sec. South. Africa, xi, pt. 3; ps 110, play, fig. (type). Not
seen. This appears to be very close to G. mozambicensis (Smith),
a species not mentioned by Connolly.

G. denticulatus (Dohrn).—Streptaxis denticulatus H. Dohrn,
1878, fahrb. D. Malak. Ges., v, p. 152 (Mombasa, Kenya Colony).
Syn. Nn ordinartus E. = Smith, 1890, Ann. Mag. Nat. Hist.
(6) vi, p. 160, pl: vi, ‘figs. 2-24 (Mamboya, 4,000-5,000 feet,
Tanganyika Teeitory): Not seen. Dohrn’s type was not figured.
Thiele (1911, Wiss. Ergebn. D. Z. Afr. Exp., iii, p. 186) synonymized
Smith’s ordinarius after comparing cotypes of both species.

G. elongatus (Fulton).—Streptaxis elongatus Fulton, 1899, Proc.
Mal. Soc. London, iti, pt. 6, p. 302, fig. it (locality unknown).
Connolly has recently reported it from Portuguese East Africa.
We have seen several specimens collected by Dr. J. Sandground
in Southern Rhodesia (Mt. Selinda or Chirinda). ‘Two of these are
figured (Figs. 4 and 5). The peculiar sculpture was incompletely
described by Fulton, which led us to think that our shells belonged
to a new form. Beginning with the second nuclear whorl, the shell
is covered with rather fine, oblique, axial ribs, very regularly spaced
(5 to the mm. on the body whorl) ; between these axial ribs there
are numerous, much finer, spiral riblets only visible with an
8 x power lens ; the surface does not appear reticulate owing to the
difference in height of the two kinds of ribs. Our shells measure :
Length eae ana 23°60 mm.t.° greater diameters: (1455 sand
15-4 mm.; lesser diameter, 13:0 and 13:5 mm.; aperture, g:o
by: ‘emda ‘5 by.7°2 mm.

G. enneoides (Martens).—Streptaxis enneotdes Martens, 1878,
Monatsber. Ak. Wiss. Berlin, p. 295, pl. iu, figs. 5-6 (Ukamba,
Tanganyika Territory). We have seen it fork Amani, Tanganyika
Territory.

G. gibbonsi Taylor, 1877, Quart. #. Conch., i, no. 12, p. 252,
pl. 11, fig. 1 (Zanzibar). We have seen specimens collected in the
Island of Zanzibar by C. Cooke.

G. gibbosa (Bourguignat).—Marconia gibbosa Bourguignat, 1889,

BEQUAERT AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS. 267

Moll. Afr. Equat., p. 137, pl. vu, figs. 6-7 (between Kondoa and
Mpwapwa in Usagara; and between Dyaza and Ibahi in Ugogo ;
both in Tanganyika Territory). Syn. Streptaxis (Eustreptaxis)
marcont Gude, 1902, Proc. Mal. Soc. London, v, pt. 3, p. 205 (new
name). Not seen. Marconia gibbosa humilior Pilsbry (1919, Bull.
Amer. Mus. Nat. Hist., xl, p. 175, fig. 626), of the Belgian Congo,
is in our opinion a species of Marconia, probably not separable from
M. vttrea (Morelet) and M. gaudioni (Dupuis and Putzeys).

G. gwandaensis (Preston).—Streptaxis gwandaensis Preston, 1912,
Ann. Mag. Nat. Hist., (8) ix, p. 69, fig. 1 (near the Geelong Mine,
Gwanda district, Southern Rhodesia). Not seen. Also reported
from Portuguese East Africa.

G. nermis (Morelet).—Helix inermis Morelet, 1864, F. de Conchyl.,
Xl, p. 157 (Sierra Leone). According to Connolly an immature,
moderately large Gonaxts.

G. johnstont (E. A. Smith).—Streptaxis johnstont E. A. Smith,
1899, Proc. Zool. Soc. London, p. 581, pl. xxxiii, figs. 5-6 (Nyika
Range and Zomba Plateau, Nyasaland). Not seen.

G. kibweztensis (E. A. Smith).—Streptaxis kibweziensis E. A.
Smith, 1894, Proc. Mal. Soc. London, i, pt. 4, p. 165, fig. 1 (Kibwezi,
Kenya Colony). We have seen it from Kibwezi, Voi, the Taru
Desert, Mt. Mbololo in the Taita Mts., all in Kenya Colony,
and from Kibosho at the foot of Mt. Kilimanjaro, Tanganyika
Territory. ‘The name was misspelled kilweziensis by Kobelt in 1910
(Abh. Senckenb. Naturf. Ges., xxxii, p. 57).

G. kirkii (Dohrn).—Streptaxis kirkii Dohrn, 1865, Proc. Zool.
Soc. London, p. 232 (Mumba Island in Lake Nyasa, Nyasaland).
E. A. Smith, 1899, Proc. Zool. Soc. London, p. 582, pl. xxxiii, figs. 7-8
(specimen from Zomba Plateau, Nyasaland). Not seen. Also
reported from Portuguese East Africa.

G. loveridget Bequaert and Clench.—See below.

G. mamboiensis (E. A. Smith).—Streptaxis mamboiensis E. A.
Smith, 1890, Ann. Mag. Nat. Hist., (6) vi, p. 160, pl. vi, fig. 1
(Mamboya, 4,000-5,000 feet, Tanganyika Territory). ‘The name
was misspelled mambojensis by Kobelt in 1905 (Conch.-Cab., i,
Abt. 12B, pt. 2, p. 8), and mambodschensis by Kobelt in 1910 (fFahrb.
Nassau. Ver. Naturk., \xiii, p. 171). Not seen.

G. maugere (J. E. Gray).—Streptaxis maugere J. E. Gray, 1837,
Mag. Nat. Hist., i, p. 486, figs. c-d (on p. 485, Sierra Leone).
Syn. Streptaxis mangere Petit, 1841, Rev. Zool. Soc. Cuviér., p. 99.
We have seen specimens from Liberia, Memeh Town, Kolobanu,
Betala, Paiata, Bonuta, Kakatown to Gbanga, Banga, Du River,
Cape Palmas. The species is also known from French Guinea.

G. micans (Putzeys).—Streptaxis micans Putzeys, 1899, Ann. Soc.
Mal. Belgique, xxxiv, Bull. Séances, p. lv, fig. 2 (Waregga Forest

268 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

in the Manyema district, Belgian Congo). We have seen specimens
from Nsendwe (named by Dupuis), Stanleyville, and Sitaweza
(between Walikale and Lubutu), all in the Belgian Congo. G. micans
mut. apertus Pilsbry, 1919, Bull. Amer. Mus. Nat. Hist., xl, p. 178,
fig. 64c¢ (Stanleyville, Belgian Congo) we have seen from the village
of Malela (chief Kasende, S. of Pania Mutombo), Belgian Congo.

G. monrovia (Rang).—Helix monrovia Rang. 1831, Ann. Sct.
Nat., xxiv, p. 16, pl. iii, fig. 3 (Cape Mesurado on the coast of
Malaguette = Monrovia, Liberia). Syn. Streptaxis nobilis J. E.
Gray, 1837, Mag. Nat. Hist., i, p. 486, figs. a—-b (Sierra Leone).
Helix blandingiana \s. Lea, 1840, Proc. Amer. Phil. Soc., i, p. 175 ;
1841, Trans. Amer. Phil. Soc., vii, p. 459, pl. xii, fig. 9 (type ; banks
of the St. Paul River, Liberia). Helix reclusiana Petit, 1841, Rev.
Zool. Soc. Cuviér., p. 99 (one of the islands off the coast of Guinea).
Streptaxis recluziana Pfeiffer, 1868, Monogr. Helic. Viv., v, p. 440,
Helix rimata Pfeiffer, 1847, Zettschr. f. Malak., iv, p. 48
(without locality). Streptaxis monroviana Pfeiffer, 1876, Novit.
Conchol., v, p. 26, pl. cxlii, figs. 1-6 (Liberia). We have seen it
from Liberia, where it is very common, Cape Palmas, near Trade
Town, Bassa County, Paiata, Banga, Du River, Monrovia, Gbanga,
Kakatown, Zanschue to Suah Koko. It is also known from French
Guinea, Sierra Leone, and the Ivory Coast. Streptaxis nobilis var.
minor Germain, 1912, Bull. Mus. Hist. Nat. Paris, xviii, p. 254
(Roum Island, near Konakry, French Guinea), was based upon
specimens 13°75 to 16 mm. high and 11°75 to 12 mm. in greater
diameter. ‘This seems to represent an unusually dwarfed race, even
though the species varies considerably in size in the same locality.
Our smallest Liberian specimen measures: Height, 15-6 mm. ;
greater diameter, 15-4 mm.; our largest: height, 35-5 mm.;
greater diameter, 25:5 mm.

G. mozambicensis (E. A. Smith).—Streptaxis mozambicensis E. A.
Smith, 1880, Ann. Mag. Nat. Hist., (5) vi, p. 429 (between Lake
Nyasa and the East Coast of Africa) ; 1881, Proc. Zool. Soc. London,
p. 280, pl. xxxu, figs. 6-6a (type). Not seen. This species came
probably from the northern part of Portuguese East Africa. It is
about the size of G. cressyt Connolly, which should be compared
with it (cressyt: Height, 6-2mm.; greater diameter, 3:8 mm. ;
mozambicensis: Height, 7-5 mm.; greater diameter, 4-5 mm.).

G. nsendweensis (Putzeys).—Streptaxis nsendweensis Putzeys,
1899, Ann. Soc. Mal. Belgique, xxxiv, Bull. Séances, p. lv, fig. 3
(Nsendwe, Belgian Congo). Originally misspelled ‘“‘ nseudweensis ”’,
the specific name was corrected in print by Dupuis and Putzeys
in 1900, in an abstract of a paper (p. xix); but the correction does
not seem to occur in the periodical itself. We have seen paratypes
from Nsendwe and specimens from Mpala, Belgian Congo.

BEQUAERT AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS. 269

G. percivalt (Preston).—Streptaxis percivali Preston, 1913, Proc.
Zool. Soc. London, p. 194, pl. xxxii, fig. 4 (northern slopes of Mt.
Marsabit, Kenya Colony). Syn. Streptaxis woodhousei Preston,
1913, Proc. Zool. Soc. London, p. 194, pl. xxxii, fig. 5 (Mt. Elgon,
Uganda). We have seen several paratypes of S. woodhousei and
others from the Yala district, Kenya Colony. We agree with Germain
that woodhousei is not separable from percivali.

G. pileolus Connolly, 1928, Ann. Mag. Nat. Hist., (10) i, p. 532,
figs. 2a-b (Langranna [type loc.] and Majendoo, Sierra Leone).
We have seen a specimen from Liberia (Gbanga).

‘G. prostratus (Pfeiffer).—Streptaxis (Artemon) prostrata ‘“‘ Gould ”’
Pfeiffer, January, 1856, Malak. Blatter, ii (1885), p. 172, footnote
(Cape Palmas, Liberia). Gould, October, 1856, Proc. Boston Soc.
Nat. Hist., vi, pt. 1, p. 12 [“* Streptaxis prostrata Gould”, in Jay,
1850, Cat. Shells Coll., 4th ed., p. 117, is a nomen nudum]. Tryon,
1885, Man. of Conch., (2) i, p. 69, pl. xxvii, fig. 9 (figure of a cotype
or topotype). This species is common in Liberia, Cape Palmas,
Bonuta, Kasata, Kolobanu, Moala, Gbanga, Du River.

G. (2) pupilla (Morelet).—Streptaxis pupilla Morelet, 1887,
J. de. Conchyl., xxxv, p. 283, pl. ix, fig. 2 (Great Comoro Id.).
This is possibly an immature Gonaxis, although more probably
a young Marconia.

G. pusillus (Martens).—Streptaxis pusillus Martens, 1897, Deutsch
Ost-Afr., “ IV, Besch. Weichth.,” p. 32, pl. ii, fig. 31 (“ Bukendo
on the Ituri River,” Belgian Congo; this was probably a mis-
spelling for Bukende on the Itiri or Semliki River, in 0° 50’ N.,
29° 50° E.). Syn. Gonaxis cavallit ituriensis Pilsbry, 1919, Bull.
Amer. Mus. Nat. Hist., xl, p. 177, figs. 63 c-c" (Penge [type loc.],
Avakubi, Lesse, Rutshuru, all in the Belgian Congo). We have
seen paratypes of zturiensis from all localities listed by Pilsbry.

G. quadrilateralis (Preston).—Ennea quadrilateralis Preston, 1910,
Ann. Mag. Nat. Hist., (8) vi, p. 527, pl. vii, fig. 2 (Shimbi [= Shimba
or Simba] Hills, Kenya Colony). Syn. Streptaxis craveni var. minor
Germain, 1918, Bull. Mus. Hist. Nat. Paris, xxiv, p. 252 (Zanzibar
Island). Preston’s species was described as “ sculptured with
moderately fine, very closely set, arcuate, transverse strie”’; and
the paratype examined by Germain showed a similar sculpture.
E. quadrilaterahs could, therefore, not possibly be identical with
G. cravent, which is smooth except for the close crenulation below
the suture. Since Germain compares his S. craveni var. minor
with a paratype of EF. quadrilateralis, we surmise that his minor was
a small specimen of Preston’s species and not of G. cravent. We
have not seen the species.

G. schwettzert (Dohrn).—Streptaxis schweitzeri H. Dohrn,
1878, Jahrb. D. Malak. Ges., v, p. 153 (Sokon, Liberia). Gonawxis

270 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

schweitzert Degner, 1934, Zool. Fahrb. Abt. Syst., Ixv, p. 212,
fig. 2a (type). The status of this species is left open to discussion
by Degner. We believe we have recognized it in two specimens from
Lenga Town, Liberia, which are only 9 mm. in length, for 6 to
64 whorls, and have the umbilicus completely closed.

G. souleyetianus (Petit)—Helix souleyetiana Petit, 1841, Rev.
Zool. Soc. Cuviér., p. 99 (supposedly from the Seychelles). Streptaxts
souleyetiana Picites 1846, in Philippi, Abb. Beschr. Conchyl., i
p. 130, pl. viii, Helix, fig. 6 (not the type). Syn. Helix dussumiert
‘* Férussac ”’ Dito 1840, Ann. Sct. Nat. Zool., (2) xiv, p. 199
(Mahé; without desoumcien), Known from the Seychelles only.
We have seen it.

G. sudanicus (Preston).—Streptaxis sudanica Preston, 1914,
4. Linn. Soc. London Zool., xxxii, p. 265, pl. xviii, figs. 15-16 (Sheik
Tombé on the Bahr-el-Gebel [below Lado], Anglo-Egyptian
Sudan). Not seen. 3

G. turbinatus (Morelet).—Streptaxis turbinata Morelet, 1867,
Voy. Welwitsch. Moll. Terr. Fluv., (1868), p. 58, pl. i, fig. 8 (District
of Icolo and Bengo, on the shore of Lake Quilonda, Portuguese
West Africa). Not seen.

G. ukamicus (Thiele).—Streptaxis ukamica Thiele, 1911, Wass.
Ergebn. D. Z. Afr. Exp. (1907-8), ili, p. 185, pl. iv, figs. 25-6
(Ukami Mountains, Tanganyika Territory). We have seen it from
Nyange (Uluguru Mountains), ‘Tanganyika ‘Territory.

G. vengoensis Connolly, 1922, Ann. Mag. Nat. Hist., (9) x, p. 114
(District 15 miles N. of Macequece, Portuguese East Africa) ;
1925, Trans. Roy. Soc. South Africa, xii, pt. 3, p. 115, fig. 2, pl. iv,
fig. 2 (type). Not seen.

G. vosselert (Thiele). —Streptaxis vosseleri Thiele, IIT, Wiss.
Ergebn. D.Z. Afr. Exp. (1907-8), iii, p. 185, fig. ix, pl. iv, fig. 27
(Amani in Usambara and ‘T'anga ; both in Tenens Territory).
We have seen it from Lutindi (Usambara Mountains), ‘Tanganyika
Territory.

G. vulcani (Thiele).—Streptaxis vulcant ‘Thiele, 1911, Wass.
Ergebn. D.Z. Afr. Exp. (1907-8), iii, p. 184, fig. viii, pl. iv, figs.
22-3 (Mt. Ninagongo at 2,500 to 3,000 m., Belgian Congo). Syn.
Ennea buccina Preston, 1913, Proc. Zool. Soc. London, p. 196,
pl. xxxii, fig. 11 (Burunga at the foot of Mt. Mikeno, at 6,000 feet
Belgian Congo). We have seen numerous specimens from Burunga,
Mt. Ninagongo (at 9,000 feet), T'shibinda, and Luvunu, near Masisi ;
all localities in the Kivu highlands of the Belgian Congo. A study
of this series shows that buccina was based upon a mere individual
variation of vulcant.

G. welwitschii (Morelet).—Streptaxis welwitschii Morelet, 1867,
Voy. Welwitsch, Moll Terr. Fluv. (1868), p. 57, pl. i, fig. 7 (on the

BEQUAERT AND CLENCH : AFRICAN LAND AND FRESH-WATER MOLLUSKS. 271

shores of Lake Moembege, district of Cazengo, Portuguese West
Africa).—Connolly records the species from Sierra Leone. We
have seen one specimen from Kakatown to Gbanga, Liberia, which
agrees well with the original description and figure.

Gonaxis (Macrogonaxis) loveridgei, new species. Figs. 1, 2, 3.

Description—Shell globosely conoid, rather thin, imperforate,
shiny, little depressed dorso-ventrally and slightly oblique. Colour
of periostracum bronze green. Whaorls six, slightly convex. Spire
regularly convex ; body whorl distinctly but moderately thrown to
one side of the axis, about three-fourths of the length of the shell.
Summit dome-shaped,-obtusely rounded. Aperture subquadrate,
somewhat inwardly oblique. Outer lip white, narrow, and slightly
reflected, connected directly with the parietal wall, without inter-
vening notch. A small thickened deposit, mere indication of a
parietal tooth, on the body whorl just within the end of the outer
lip. Columella nearly straight and somewhat thickened, forming a
plate behind and attached to the inner lip, which ends directly on the
body whorl and is not a continuation of the columella. Sutures
not very deeply impressed. Sculpture: Nuclear whorl smooth
and glossy ; next whorl at first with a faint indication of ribbing,
which changes rather abruptly to a definite sculpture of numerous
fine, slightly oblique, axial ridges covering the remainder of the
shell; the ridges not forming crenulations at the sutures.

MEASUREMENTS.
Greater Lesser Height of
Length Diameter Diameter Aperture
mm. mm. mm. mm.
21 >s 15°5 1275 Os Holotype. Fig. 2.
2470 17'o LAs lO" 5 Paratype. |
Ot +m 14°0 13°90 +8 Paratype.
at & I4°0 19.10 meg Paratype.

Holotype-—Museum of Comparative Zodlogy, No. 59915,
Bagilo, Uluguru Mountains, 5,000 feet, Tanganyika ‘Territory
(Arthur Loveridge, 1926). Paratypes from Vituri, 2,500 feet, and
Bagilo, Uluguru Mountains. Same collector.

Remarks.—A rather distinctive species, due to the somewhat
aberrant edge of the inner lip and columella. In most other species
seen by us the columella continues evenly and without any line of

272, JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

demarcation with the lip ; whereas in G. loveridgei the lip originates
above the columella on the body whorl, while the columella itself
forms a thickened plate just behind and joined to it. The most nearly
allied form appears to be G. ukamicus (Thiele), but this has a very
smooth surface, is more oblique, and has a fully developed parietal
tooth. From the description and figure, G. quadrilateralis (Preston)
also appears to be similar, but that species has a distinct notch
at the junction of the outer lip with the parietal wall and lacks the
plate-like thickening of the columella. |

I 2 3

Fics. 1-3.—Gonaxis loveridgei Bequaert and Clench. Bagilo.
Natural size. Fig. 2 is the holotype.

4 5
Fics. 4 and 5.—Gonaxis elongatus (Fulton). Mt. Selinda.
Natural size.

Lamelliger Ancey.

Streptaxis section Lamelliger Ancey, 1884, Le Naturahste, V1,
p. 399. Monotypic for Helix trobertz Petit, 1841.

We agree with Degner (1934, Zool. fahrb. Abt. Syst., Ixv, p. 2.20)
that this group should be given full generic rank. The shell is
characterized by the presence of two pits on the body whorl, just
behind the outer lip, with corresponding immersed basal swellings,
and of columellar swellings or teeth. There is a long, sinuous
parietal lamella, deeply entering the aperture. In addition the animal
shows several important anatomical features and the inner lateral
teeth of the radula are unusually wide, with very broad basal plates.
The genus is strictly West African.

TOMLIN : MOLLUSCA DESTROYED BY FROST. 273

There is a possibility that the name Lamelliger will be replaced
by Odontartemon Pfeiffer, January, 1856, Malak. Blatter, 11 (1855),
p. 172 (as a subgenus of Streptaxis, for several species, including
distorta Jonas, troberti Petit, dejecta Petit, etc.). ‘The first type
designation seems to have been made by Kobelt in 1880 (Jllustr.
Conchylienbuch, p. 209), who selected Helix distorta Jonas, 1843.
Whether Kobelt intended to designate true genotypes in this work
is, however, open to question. Ancey in 1884 (Le Naturaliste, vi,
p. 508) designated Helix dejecta Petit, 1842, as type of Odontartemon.
’ ‘The following species are included :—

L. distorta (Jonas).—Helix (Streptaxis) distorta Jonas, 1843, in
Phlahppi; Abbe -Beschrs: Conchyl,. igs pi oats oplca, Heliny ies °2
(Guinea). Not recognized.

L. maasst Degner, 1934, Zool. fahrb. Abt. Syst., xv, p. 224, figs.
t1a-c (radula and anatomy; type not figured); ‘Tammassadou
and Gueckédou, French Guinea, Porruma, Liberia.

L. troberti (Petit)—Helix troberti Petit, 1841, Rev. Zool. Soc.
Cuviér., p. 100 (coast of Guinea). Streptaxis troberti Morelet, 1867,
Voy. Welwitsch, Moll. Terr. Fluv., (1868), p. 58, pl. 1, fig. 6 (not the
type). Syn. Streptaxis leonensis Pfeiffer, 1859, Monogr. Helic. Viv.,
iV, p. 333 (Sierra Leone). Gude, 1902, Proc. Mal. Soc. London, v,
pt. 3, p. 225, pl. iv, figs. 1-3 (type). Known from Portuguese
Guinea, Sierra Leone, French Guinea, Liberia, and Angola.

Through the kindness of Dr. E. Degner, the Museum of Com-
parative Zodlogy has recently received from the Hamburg Museum
specimens of both L. maasst and L.. trobertt.

MOLLUSCA DESTROYED BY FROST.

By J. R. te B. Tomtin.
(Read before the Society, 7th Nov., 1936.)

Last year I visited the Loch.of Harray, on the Orkney Mainland,
in July, as mentioned in Professor Boycott’s article, ‘‘ N. fluviatilis
im, Orkney,’ *

That species and Hydrobia jenkinsi were to be seen alive in the
utmost abundance on small stones—the Neritina completely covered
by a white limy deposit with comparatively few exceptions, the
Hydrobia all clean and normal.

This year, also in July, I had an opportunity of revisiting the

* This Journal, vol. 20, p. 199.
18

274. JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

ground and found both species extremely scarce living, and that
in the same locus to which I paid particular attention in 1935,
a few yards of shore close to the Bridge of Brodgar. Dead shells
were plentiful and it seemed pretty clear that some unusual factor
had been at work to wipe them out wholesale. ‘The water at the edge
of the Loch is extremely shallow, not more than a very few inches
deep for some little way out, and the whole Loch though 43 miles
long nowhere attains a greater depth than 14 feet.

This shallowness at once suggested possibilities of freezing,
and I had recourse to our member, Mr. Robert Rendall, of Kirkwall,
who is such a mine of knowledge about anything Orcadian. It is
to him that I am indebted for practically all the following data,
and through him to Mr. Muir, of the Kirkwall Meteorological
Station.

There were two special periods of frost in Orkney last winter—
an exceptionally severe one in the first week of February last, and
a rather severe one exactly a month later.

On 5th February the minimum temperature was 23 degrees and
g degrees on the grass, and on 2nd and 3rd March 30 degrees, with
a grass minimum of 24 degrees. In either case the spell lasted for
three days.

Mr. Spence, of Brodgar, confirms the severity of these spells,
and says that Harray was completely frozen over right up to the
dykes, and Stenness likewise except for a small piece at the Bridge
of Brodgar and the outlet at the Brig o’ Waithe.

During the second period of frost several swans which had stayed
too long in the water were solidly frozen in and died, though men
tried to release them with long poles. Mr. Spence, who has lived
there for twelve years, does not recall any frost as severe as these
two periods: he states that Harray was frozen solid at the edge
and could be walked on without risk. ‘Though the February
temperatures as given above were lower, yet the ground was frozen
further down in March.

It is, I think, a fair inference that last winter is responsible for the
present scarcity of the snails.

FISHER AND JACKSON : LANCASHIRE AND CHESHIRE NON-MARINE MOLLUSCA. 275

EARLY RECORDS OF LANCASHIRE AND CHESHIRE NON-
MARINE MOLLUSCA, BY JAMES WRIGHT WHITEHEAD,

By Nora Fisuer and J. W. Jackson, D.Sc., F.G.S.
(Read before the Society, 14th March, 1936.)

RECENTLY an old conchological diary covering the years 1841-1858
came to light in Liverpool Public Museums, and by the courtesy of
Dr. Douglas A. Allan, the Director, we have been permitted to
make use of it in the following account.

The diary is obviously the work of a Liverpool conchologist, and
with very few exceptions the localities referred to are in the Mersey-
side area.

The diary itself is an ordinary exercise-book with marbled covers.
It begins “‘ Memoranda and Observations regarding Natural
History, etc.”’, but deals only with mollusca. The entries run from
September, 1841, to June, 1858, and cover 26 pp. They are con-
cerned chiefly with land and freshwater mollusca, but include some
marine species from various Lancashire and Cheshire localities,
and with these we hope to deal later in another paper. At the back
of the book are miscellaneous notes regarding the preservation of
mollusks, and also a copy of a letter from the author of the diary
to a friend. This letter is signed “J. W. W.” Search was made
for any mention of a conchologist whose initials were J. W. W.
and who flourished between about 1840 and 1860. At last (Proc.
Lit. & Phil. Soc. Liverpool, no. 14, p. 1, 1859) a notice of the death
of James Wright Whitehead was found. Whitehead, who died in
the winter of 1858-9, was a good conchologist, and is frequently
quoted by Byerley in his “ Fauna of Liverpool” (Proc. Lit. & Phil.
Soc. Liverpool, no. 8, Appendix, 1854). He became a member of
that society on 18th May, 1857, and was then living at 15 Duke
Street, Edge Hill, just outside Liverpool. By occupation he was
a merchant, of the firm of Whitehead and Meyer, who had premises
in Orange Court, Castle Street, Liverpool. It is not known how
Whitehead’s diary came to be in Liverpool Museums, for no trace
of his collection of shells, which is said to have been a good one,
can be found there, but it is possible that they were incorporated
with the general collection without any distinguishing mark.

The following localities referred to in the diary are on the out-
skirts of Liverpool: Crosby, Edge Hill, Huyton, Low Hill, Mosley
Vale, Roby, Speke, ‘Toxteth Park, and Wavertree.

That Whitehead collected widely in Wirral is shown by the long
list of Wirral localities mentioned by him: Bebington, Bidston,
Brimstage, Bromborough Pool, Greasby, Higher ‘Tranmere,
Hoylake, Leasowe, Liscard, New Brighton, New Ferry, Parkgate,

276 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

Saughall, Stourton Hill, Sutton, Upton, Wallasey, and Wood-
church. The context shows that the ‘‘ Upton ”’ so often mentioned
is the Wirral place of that name, not the one near Chester.

Some of the localities to which Whitehead refers are now historic
having been built over or otherwise destroyed as far as molluscan
life is concerned, but probably many of the species he mentions
still live in the localities where he collected them over eighty years
ago. In this connection may we appeal for information as to the
present status in any of his localities of any species listed by
Whitehead ?

In the following list of records the arrangement and nomenclature
followed are those of Kennard and Woodward in Synonymy of the
British Non-Marine Mollusca (1926).

LIstT OF RECORDS.

Acme lineata (Drap.). ‘‘ Acme fusca. Patrick’s Wood, Bromboro’
| Pool, between high road and railway, 1856. Mr. Cameron.”
Viviparus viviparus (L.). “ Paludina vivipara. Very fine, from the

Shropshire Canal at Chrislington [Christleton], near Chester,
judyson8e9.”

‘* Paludina achatina (Gray). Mersey and Dee Canal, Mollington

to Ellesmere Locks, Saughall Bridge only, Aug. 24, 1852.”

Viviparus fasciatus (Mill.). “ Paludina listeri. Drain, Scarsbrick
Road, Southport, Sept., 1850.”

Bithynia tentaculata (L.). “‘ Bythinia tentaculata. Rivulet from well
near Grange-hill, Hoylake, July, 1849. Pit nr. brickfields,
Low Hill, May, 1850. Ditches and drains, Southport, 1850.”

‘“ Bythinia impura. Ditch, Leasowe, June 16, 1851. Pits at
Sutton. Plentiful, July 18, 1851.”

Valvata piscinalis (Mill.). “ Valvata piscinalis. Rivulet from well
near Grange-hill, Hoylake, July, 1849. Ditches and drains,
Southport, Sept., 1850. Leeds and Liverpool Canal from Kirby
to Litherland, July 23, 1852. Leeds and Liverpool Canal
between Linacre Bridge and Sandhills Bridge, May 9, 1853. °
Large, at Saughall, May—Aug., 1856.”

Valvata cristata (Mill.). “ Valvata cristata. Leasowe, May—Aug.,
1856.”

Carychium minimum (Mill.). “ Carychtum minimum. Amongst
decayed leaves at ‘Greenwood’, Bebbington, June, 1850.
Garden-fence, Huyton, May—Aug., 1851.” |

Phytia myosotis (Drap.). ‘“‘ Conovulum denticulatum. Vegetation on
mud banks, Bromboro’ Pool, Aug., 1850.”

‘“‘ Conovulus denticulatus. Entrance to Bromboro’ Pool, May-

Aug., 1856.”

FISHER AND JACKSON : LANCASHIRE AND CHESHIRE NON-MARINE MOLLUSCA. 277

Limnea stagnalis (L.). “ Lymnea stagnalis. Drains on the Marsh,
Hoylake, July, 1849. Pits, Edge Hill, May, 1850. Toxteth
Park, plentiful, May, 1850. Blackpool, Aug., 1851.”

Limnza auricularia (L.). ‘“ Lymnza auricularia. Young from pond
in Mr. Evans’s garden, Prescot, June-July, 1850.”

Limnza pereger (Miill.). ‘ Lymnza peregra. Small and clear from
mouth of the brook on Shore, Crosbie (Little Brighton),
Sept., 1846. Upper Lake, Birkenhead Park, Aug., 1848. Pits,
Edge Hill, May, 1850. Pits, Huyton, June-July, 1850.”

Limneza palustris (Mill.). “‘ Lymnza palustris. Drains on the Marsh,
Hoylake, July, 1849. Ditches and drains, Southport, Sept.,
1850. Blackpool, Aug., 1851. “Wood Big Mains, Huyton,
May-Aug., 1851. Little Crosbie, May—Aug., 1856. Semi-
fossil ? from clod of turf under the sand on the shore, Hoylake,
July, 1849.”

Limnza truncatula (Miull.). “‘ Lymnza minuta. Pit behind Catholic
Chapel, Edge Hill, May, 1850. Ditch, Upton, June 5, 1851.”

Limnea glabra (Mill.). “‘ Lymnzus glaber (elongata) from ditch
near Brimstage, June 6-27, 1853. Lymnzus elongata. Ditch
by road from Saughall to Woodchurch, Sept. 30, 1853.”

Planorbis planorbis (L.). ‘“‘ Planorbis marginatus. Pit below the hill,
Upton, July 15, 1851.”

Planorbis carinatus (Miill.). “‘ Planorbis carinatus. Rivulet from
well near Grange-hill, Hoylake, July, 1849. Ditch near New
Church, Bidstou June 2; 1851.”

Planorbis albus Mill. ‘‘ Planorbis albus. Pit near railway, Edge
Hilly’ May; 1850, - Pit, -Dptons June,” r8s0, “Pits, plentiful,
Huyton, June-July, 1850. Saughall, May—August, 1856.”

Planorbts crista (L.). ‘‘ Planorbis imbricatus. Pit in plantation at
Upton, June, 1850, and Sept. 30, 1853.”
Planorbis vortex (L.). ‘“‘ Planorbis vortex. Pit near railway, Edge

Hill, May, 1850. Semi-fossil? from clod of turf under the
sand on the shore Hoylake, July, 1849.”

Planorbts spirorbis (L.). ‘‘ Planorbis spirorbis. Pit, Upton, June, 1850.
Pits, plentiful, Huyton, June—July, 1850.”

Planorbis contortus (.). “ Planorbis contortus. Ditches and drains,
Southport, Sept., 1850. Ditch, Leasowe, June 16, 1851.
Hightown, May—Aug., 1856.”

Segmentina nitida (Miil.). ‘‘ Planorbis nitidus. Pit, Upton, June,
1850. Pits, roadside, Sutton, July 18, 1851.”

Ancylus lacustris (L.). ‘‘ Velletia lacustris. Pit, Huyton, June-
July, 1850. Pit, ‘ Logwood,’ Huyton, May—Aug., 1851. Pit,
Upton, June, 1850.”

Ancylastrum fluviatilis (Mill.). “ Ancylus fluviatilis. Brook near
the bridge, Upton, June, 1850. ‘Torbuck Brook, Huyton,

278 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

June-July, 1850, and May—Aug., 1851. Brook, Upton, June 5,
1851. Patrick’s Wood. Bromboro’ Pool, between High Road
and railway, May—Aug., 1856.”

Physa fontinalts (L.). ‘‘ Physa fontinalis. Pit near brickfields, Low
Hill, May, 1850. Brook near the bridge, Upton, June, 1850.
Pits, plentiful, Huyton, June-July, 1850. Ditch, Leasowe,
June 16; 185%.”

Aplexa hypnorum (L.). “‘ Aplexa hypnorum. Ditches near Upper
Parliament Street [Liverpool], June, 1850. Ditch, nr.
Mr. Kenyon’s Ground, Huyton, June-July, 1850. Ditches and
drains, Southport, Sept., 1850.”

Pyramidula rupestris (Drap.). ‘‘ Helix umbilicata. Main walls from
4 to 6 feet up, Furness Abbey, July 11, 1852.”

Lauria cylindracea (da Costa). ‘‘ Pupa umbilicata. Hedge bank,
Wallasea. Brickfield, Upton, June 5, 1851. Old walls, Bidston,
June 16, 1851. Furness Abbey, walls from 4 to 6 ft. up.”

Lauria anglica (Fér.). “‘ Pupa anglica. Patrick’s Wood, Bromboro’
Pool, between High Road and railway, May—August, 1856.”

Pupilla muscorum (L.). ‘‘ Pupa marginata. Under stones behind
the sandhills, New Brighton, June, 1850.”
Columella edentula (Drap.). ‘‘ Vertigo edentula. ‘ Logwood,’

Huyton, May—Aug., 1851. Pupa edentula. Patrick’s Wood,
Bromboro’ Pool, between the High Road and the railway,
May-—Aug., 1856.”

Acanthinula aculeata (Mill.). ‘“‘ Helix aculeata. Amongst decayed
leaves at ‘ Greenwood’, Bebbington, June, 1850. Plentiful,
‘Logwood,’ Huyton, May—Aug., 1851. Patrick’s Wood,
Bromboro’ Pool, between High Road and the railway, May-
Aug., 1856.”

Vallonia pulchella (Miull.). “‘ Helix pulchella. Under stones behind
the sandhills, New Brighton, June, 1850.”

Vallonia costata (Miill.). ‘‘ Helix crenella. Brickfield, Upton,
June 5, 1851. Leasowe, June 16, 1851.”

Cochlicopa lubrica (Mill.). ‘ Bulimus lubricus. Under stones
behind sandhills, New Brighton, June, 1850. Huyton, 1850
and 1851. Preston, Aug. 9, 1851.”

Ena obscura (Miill.). ‘ Bulimus obscuras. From old wall on road to
Ferry-house, Parkgate, June 6-27, 1853, one specimen.”’
Punctum pygmexum (Drap.). “ Helix pygmexa. Brickfields, Upton,
June 5, 1851. Helix pygmzxa? ‘ Logwood,’ Huyton, May-

Aug i8hr."

Gontodiscus rotundatus (Miill.). ‘‘ Helix rotundata. Railway bank,
Huyton, June-July, 1850. Mosley Vale, garden wall near
brook, June, 1850. Old wall, plentiful, Upper Tranmere,
Aug., 1850.”

FISHER AND JACKSON : LANCASHIRE AND CHESHIRE NON-MARINE MOLLUSCA. 2'79

Petasina fulva (Mill.). “‘ Helix fulvua. In wood leading to the Hall,
Speke, Aug., 1850. ‘ Logwood,’ Dam, Huyton, May—Aug.,
1851. Patrick’s Wood, Bromboro’ Pool, between High Road
and the railway, May—Aug., 1856.”

Zonitoides excavatus (Alder). ‘‘ Helix excavata. In wood leading to
the Hall at Speke, Aug., 1850.”

Helicella draparnaldi, Beck. ‘‘ Helix lucida. ‘ Logwood’ mill-dam,

| Huyton, June-July, 1850, and summer, 1851.”

Helicella cellaria (Mill.). “‘ Helix cellaria. Bottom of our garden,
Edge Hill, May, 1850. Quarry near Liscard, June, 1850.
Halsnead Park, Huyton, June-July, 1850. Plentiful in old
wall; Upper. Tranmere; Aug., 1850. Preston; Aug:, 1851.
Furness Abbey, July 11, 1851. Patrick’s Wood, Bromboro’

Pool, May—Aug., 1856.”

Helicella alliaria (Miller). “‘ Helix alliaria. Under stones behind
the sandhills, New Brighton, June, 1850. Huyton, June-July,
1850. Patrick’s Wood, Bromboro’ Pool, May—Aug., 1856.”

Helicella nitidula (Drap.). ‘‘ Helix Nitidula. Leasowe, June 16,
1851. Preston, Aug. 9, 1851. Patrick’s Wood, Bromboro’
Pool, May—Aug., 1856.”

Helicella radiatula (Alder). ‘‘ Zonites radiatulus. Under stones in
old pasture (Nathan’s Roughs), Huyton, June, 1856.”

Vitrea crystallina (Miill.). “*‘ Helix crystallina. Amongst decayed
leaves at ‘ Greenwood’, Bebbington, June, 1850. Ditch side,
Upton, June 5, 1851. Field near brook, Upton, July 15, 1851.
‘ Logwood’’ Dam, Huyton, May—Aug., 1851.”

Vitrina pellucida (Mill.). ‘‘ Vitrina pellucida. Under stones behind
the sandhills, New Brighton, June, 1850. Alive, at ‘ Logwood’,
Fauyton, 1351.”

Candidula caperata (Mont.). “‘ Helix caperata. On Common
(Warren), Crosbie (Little Brighton), July, 1848. Under stones
behind the sandhills New Brighton, June, 1850. Lane leading
to Mill, Wavertree, Aug., 1850. Furness Abbey, July 11,
1852,”

Cochlicella acuta (Mill.). “‘ Bulimus acutus. Field beyond Leasowe
Lighthouse, July 5, 1852.”

Ashfordia granulata (Alder). ‘‘ Helix (sericea). Very plentiful,
Preston, Aug. 9, 1851.”

Fruticicola subrufescens (Miller). ‘‘ Helix fusca. Upton, lane leading
to Moreton, Sept. 27, 1852.”

Fruticicola hispida (L.). ‘‘ Helix hispida. Garden wall, near brook,
Mosley Vale, June, 1850. Leasowe, June 16, 1851. Upton,
June 5, 1851. ‘ Logwood’ Dam, Huyton, 1851.”

‘“* Helix concinna. Quarry near Liscard, June, 1850. Halsnead
Park, Huyton, June-July, 1850. Preston, Aug. 9, 1851.”

280 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

Fruticicola striolata (C. Pfeiffer). ‘‘ Helix rufescens. Preston,
Aug. 9, 1851. Lane from Church (Castle) to riverside,
Lancaster, Aug. 5, 1852. Lane to stone quarry near Windmill
beyond Wavertree, May—Aug., 1856.”

Arianta arbustorum (L.). “‘ Helix arbustorum. Plentiful in old wall,
Upper Tranmere, Aug., 1850. Preston, a pale var., Aug. 9,
1851. Furness Abbey, small var., July 11, 1851.”

Helix aspersa Mill. “ Helix aspersa. Abundant on Commons,
Hoylake, July, 1849. Higher Tranmere, May—Aug., 1856.”
Helix nemoralis L. ‘“‘ Helix nemoralis. Abundant on Common

(Warren), Crosbie (Little Brighton), July, 1848. Abundant
on Commons, Hoylake, July, 1849. Quarry, Allerton Road,

_ Wavertree, May, 1850. Huyton, June-July, 1850. Preston,
ANG. 0, 18515.

Helix hortensis Mill. “‘ Helix hortensis. Hedge bank between coal
pits and Halsnead Park wall, Huyton, May—Aug., 1851.”

‘* Helix hortensis ? var. Very plentiful, variety dull white, embank-
ment of bridge over the River Alt on round from Formby to
Ince, May, 1857."

Balea perversa (L.). ‘‘ Balea perversa. From Poplar-trees near
ditch at lower end, Clifton Park, Birkenhead, June 17, 1852.
Patrick’s Wood, Bromboro’ Pool, 1856.”

Clausilia rugosa Drap. ‘‘ Clausilia rugosa. Clay cliffs, New Ferry,
June, 1850.”’

“ Clausilia nigricans. Patrick’s Wood, Bromboro’ Pool, 1856.”

‘ Succinea putris (L.). ‘ Succinea amphibia. Brook, Mosley Vale,
Aug., 1850. Pit, in Mr. Kenyon’s Ground, Huyton, June-
July, 1850. Brook, Upton, June 5, 1851. Dam, Huyton,
May-—Aug., 1851.”

Dreissensia polymorpha (Pallas). ‘‘ Dreissena polymorpha. Leeds and
Liverpool Canal from Kirby to Litherland, July 23, 1852.
General, Mersey and Dee Canal, Mollington to Ellesmere
Locks, Aug. 24, 1852. Leeds to Liverpool Canal being let
dry to Linacre Bridge observed all the stonework of the sides
and bridges beyond Sandhills Bridge to be completely
encrusted, May.o,. 1853.

Spherium rivicola (Leach). “ Cyclas rivicola. Leeds and Liverpool
Canal from Kirby to Litherland, July 23, 1852. Leeds and
Liverpool Canal, Sandhills Bridge to Linacre Bridge, May 9,
1853. Mersey and Dee Canal, Mollington to Ellesmere Locks,
Ate: 24, naga,” |

Spherium corneum (L.). “ Cyclas cornea. Pit near railway, Edge
Hill, May, 1850. Pit, Upton, June, 1850. Plentiful, Huyton,
1850 and 1851.” 3

Spherium lacustre (Mill.). ‘‘ Cyclas calyculata. Pit near sandy

PEILE : HELIX MINUSCULA BINNEY. 281

lane, Huyton, May-Aug., 1851. Pit near Saughall, Sept. 30,

Lote py

| Pisidium amnicum (Mill.). “‘ Pistdium amnicum. Leeds and Liver-
pool Canal from Kirby to Litherland, July 23, 1852. Same
canal, between Sandhills Bridge and Linacre Bridge, May 9,
1853. Mersey and Dee Canal, from Mollington to Ellesmere
Locks, Aug) 24, 1852.”

Pisidium nitidum Jenyns. ‘‘ Pisidium nitidum. Blackpool, Aug.,
1851. Pisidium nitida? Stourton Hill, Aug., 1850.”

Pisidium pusillulum B. B. Woodward. ‘‘ Pisidium pustllum. Ditches

_ near Upper Parliament Street [Liverpool], June, 1850.”

Pisidium henslowanum (Sheppard). ‘‘ Pisidium Henslowanum ? near
Roby, June or July, 1850.”

Anodonta cygnea (L.). “‘ Anodonta cygneus. Plentiful, pits, Huyton,
Sept., 1849. Small Greasby brook, Sept. 30, 1853. Small,
Saughall, May—Aug., 1856.

“Var. cellensis. Pit, Sutton, July 18, 1851.
“Var. ponderosa. Pit in Leg [? Ley] Brook, Upton, July 15,
fod pte

Unio pictorum (L.). “‘ Unio Pictorum. One specimen, small, Shrop-
shire Canal at Chrislington [Christleton], near Chester,
aly, 78g7."

HELIX MINUSCULA BINNEY.

By Ato]. PERILE,
Read 4th April, 1936.

As this little snail, which must now be called Hawatia minuscula

(Binney), occurs in the Bermuda Islands and forms part of to-day’s

exhibit, an account of its distribution and (consequent) vagaries

in nomenclature may be of interest. The following summary only

includes the first use of a new generic or specific name.

1840. Helix minuscula Binney. Ohio. Boston Fourn. Nat. Hist.,
iy Diag. Clday fiig

1841. Helix minutissima Lea. Cincinnati. Proc. Am. Phil. Soc.,
by Be,

1849. Helix apex Adams. Jamaica. Contributions to Conch.,
3 P. 36.

1851. Hyalina minuscula (Binn.) Pfeiffer. Zeitschrift, p. 178.

1851. Helix minutalis Morelet. Yucatan and Cuba. Test. Noviss.,
yo

1853. Helix lavalleana Orbigny. Cuba. Sagra, French ed.,
pi 167. t. 8h, aces.

282 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

1854. Helix kawaiensis Pfeiffer. Kawaii. Proc. Zool. Soc., p. 52.

1855. Helicella minuscula (Binn.) H. & A. Adams. Genera Moll.,
ii, p. 118.

1860. Microphysa minuscula (Binn.) Martens in Albers Heliceen,
ed). 2) °p. 82.

1864. Pseudohyalina minuscula Morse. Journal Portland Soc. Nat.
Hise. 4, pp. Sand 16, pl. via, to 3:

1870. Helix blakeana Tate. Nicaragua. Am. Fournal Conch., v,
Dias, 6G. C8.

1871. Helicopsis kauaiensis (Pfr.) Pease. Kauai. Proc. Zool. Soc.,

1872. Zonites (Hyalinia) minusculus (Binn.) Fischer and Crosse.
Mexico. Miss. Sc. Mex. Moll., p. 175.

1880. Choanomphalus minusculus (Binn.) Strebel. E. Mexico.
Beitr. Mex. Db. & S) Conch:, iv, p. 19, t. 4, £10. !

1891. Charopa unwint (Braz.) Hedley. Lord Howe Island.*
Records Aust. Mus., 1, p. 138.

1898. Zonitoides (Pseudohyalina) minusculus (Binn.) Pilsbry.
Nautilus, “p. 131. |

1911. Hawatia kawaiensis (Pfr.) Gude. Sandwich Islands. Proc.
Malac. Soc., ix, p. 2'72.

1913. Macgillivrayella crystallina Preston. Norfolk Island.’
Ann, & Mag. NUY., xi, ps 532.

1928. Pseudovitrea minuscula (Binn.) Baker. Michigan. Proc.
Acad. NatisSe, Philad., xxx. ps 25:

1930. Hawatia minuscula Baker. Occ. Papers Mus. Zool. Univ.
IVECH., Dp. 24.

In addition to the localities given above the shell has been recorded
from many North American stations and from Porto Rico,
St. Thomas, Manchuria, and Japan. For references see Martens
Biologia Centrali-Americana, L. G F.W. Mollusca, p. 125.

For references to occurrence in the British Isles see Synonymy
of British non-Marine Mollusca, Kennard and Woodward, 1926,

P- 354:

1 See Proc. Malac. Soc., xviii, p. 266. ya
2 This identification, made by myself, of specimens in the British
Museum, has not been previously recorded.

RENDALL : SIMNIA PATULA (PENNANT) IN ORKNEY. - 383
SIMNIA PATULA (PENNANT) IN ORKNEY.

By R. RENDALL.
(Read before the Society, 9th May, 1936.)

. THE parish of Birsay lies on the north-west corner of the main
island of the Orkneys. Its seaward boundary is a rampart of rocky
cliffs, broken on its western coastline by two open bays, exposed
to the Atlantic. The larger, whose rocky shore is a rich hunting
ground for the marine zoologist, is enclosed on the south by
Marwick Head, a perpendicular face of rock rising 300 feet sheer
out of the sea, and on the north by the Brough of Birsay, a grassy
island with high sea-cliffs, which on the landward side slope down
to a rocky beach, distant from the mainland about 250 yards. At
low-tide this intervening channel is laid bare, and the exposed
zone provides an excellent field for the collector.

In the shallower sunny pools Tethys punctata is (or was) by no
means uncommon. During spring-tides Trivia monacha may be
taken alive at the extreme low-water mark. From nearby rock-
pools I have collected specimens of Archidoris britannica, A‘olidia
paptllosa, and Berthella plumula.

A strong tideway runs through the channel during high water,
so that, especially after stormy weather, the deposits on the beach
are changed with every tide. There are good shell-drifts along the
tidal edges of these deposits, and although these are largely composed
of rough shell-sand, there is a fair proportion of small shells, among
which may be found many sub-littoral species. Indeed, I know
of no other area in our Orkney group where a better collection,
representative of our small and more locally distributed species,
could be made. ‘These drifts vary greatly from season to season, but
the turbulence of the tides makes a prolonged dearth of good material
a rare occurrence.

The characteristic shells include Emarginula reticulata, Diodora
apertura, Patelloida virginea, Margarites groenlandicus, Eulima
trifasciata, Erato voluta, and Arca tetragona, besides such commoner
genera as Patina, Gibbula, Calliostoma, Lacuna, Littorina, Rissoa,
Mangelia, Astarte, Chlamys, and Cardium. From similar drifts
on the south side of the bay I secured the only four specimens (shells
only) of Lepeta fulva which I have yet found in Orkney.

Last summer, in the month of August, I spent an afternoon in
this district with two friends. While crossing over to the Brough
at low-tide in order to visit the recently excavated ancient monastic
settlement, we were attracted by some unusually rich shell deposits.
After a short cursory search one of my friends, Dr. Ronald B.
Mooney, handed me an unfamiliar shell with the remark: ‘‘ Have
you seen one like this before ?”’ I had not. It was a specimen of

284. JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

Simnia patula, a species which, so far as I can ascertain, has not
hitherto been recorded from the north of Scotland, and whose only
other Scottish record is from the Sound of Mull.

The British distribution of S. patula is given by Jeffreys (1)1 as
ranging from Sark and Guernsey to the Sound of Mull, with Dorset,
Devon, Cornwall, co. Galway, Turbot Bank (co. Antrim), and
Magilligan as intermediate stations. Forbes and Hanley (2) mention
Birterbuy Bay and Arran in Ireland as localities in which it has been
found. Its occurrence at Magilligan has recently been noted in
this Fournal (3), and its rarity in north-east Ireland commented
on. From information kindly sent me by Mr. ‘Tomlin it appears
that Simnia patula has also been reported from Wexford and
Killala in Ireland. He writes: ‘I looked in my volume of J. T.
Marshall’s bound papers which are full of MS. additions, but found
no northern localities for Simnia; he adds Wexford and Killala
in Ireland,” and continues: ‘I have just found very fine examples
of Simnia in Marshall’s collection from ‘Torbay. Marshall also has
Scilly examples.” A later record from ‘Torbay has also been sent
me by Mr. Alan P. Gardiner, who gives “ Simnia patula (Pennant)
off Thatches Rock, Torbay, fide Fowler.”

Even though an isolated record, the occurrence of S. patula in
Birsay confirms the significance of this district as a Scottish link
with the marine fauna of western Ireland. A few years ago, in this
same locality I was fortunate in obtaining a single specimen of
Physcosoma granulatum (Leuck.) (now in the Royal Scottish
Museum, Edinburgh), which had only been once reported from
Scotland before. These two records linked up Ireland and Norway
in its distributional range.

Dr. A. C. Stephen, to whose kindness I was indebted for the
identification of this Sipunculid Worm, in his notes upon its
distribution (4) remarks: “‘ According to Southern it is the most
abundant littoral Gephyrean on the West of Ireland. It hasenot
been found in the Irish Sea. North of Ireland it seems relatively
scarce, since it has only been recorded twice from Scotland and
twice from Norway.” The British distribution of S. patula, which
has several stations on the West of Ireland, none in the Irish Sea,
and only two from Scotland (one from the West and one from
Orkney) provides an interesting parallel.

The southern element in the Birsay marine fauna is further
illustrated by the striking similarity between the types found in the
shell-list for the west of Orkney and those recorded for Magilligan
by Miss Nora Fisher. Of the 162 species in the Irish list 111 are
found on the west coasts of Orkney (Birsay and Hoy Sound), and

1 'The numbers in parentheses refer to Bibliography at end of article.

RENDALL : SIMNIA PATULA (PENNANT) IN ORKNEY. 285

of the remaining fifty-one only twenty-six are unrepresented by
other species of the same genera, and several of the fifty-one are
to be found on other Orkney shores. I am indebted to Mr. R.
Winckworth for the list of mollusca dredged by him in Hoy
Sound in 1916, which supplemented considerably the results of
my own shore collecting.

The Orkney Islands as a group are uniquely situated from a
marine-zoological point of view. ‘They not only represent the
northerly fringe of our western marine fauna, but they are also
within the range of our Arctic species. Hugh Miller (5) remarks
upon the pronounced difference between the sea-life of the western
and eastern shores of Scotland. Orkney, geographically placed
beyond the conjunction of both coastlines, has links with the
distinctive features of each. A complete faunistic survey of Orcadian
marine forms yet remains to be undertaken, and its results co-
ordinated with the faunas of other areas. Deep-sea dredging would
secure a wealth of interesting material. Jeffreys’s Report (6) on his
Shetland dredgings (1861-8) indicates the advancement in know-
ledge of new forms, and in the distribution of old, which such work
makes possible.

The possibility of this single specimen of S. patula having been
carried northward by tidal action must not be overlooked. Tropical
seeds are found not infrequently along the western coasts of Orkney.
Even from as far north as the Faroes, exotic molluscan forms have
been reported by accurate observers (Jeffreys’s Report for 1868).

In Jeffreys’s distributional notes on S. patula (1) the Coralline
zone 1S given as its usual habitat. Records recently published by
the Marine Biological Association (7) gives its bathymetrical range
as being from 10-49 fms., which confirms the dredging experience
of Forbes and McAndrew (2), who took it alive “ in the crevices of
Alcyonium off the Land’s End in twenty fathoms’. Various grounds
in Plymouth waters are recorded, and the association of the mollusc
with Eunicella and Alcyonium digitatum noted.

BIBLIOGRAPHY.

(1) JeFFREYS’s British Conchology.

(2) ForBEs AND HaNLey’s A History of British Mollusca and their Shells.

(3) FisHer, Miss Nora. “The Marine Mollusca of Magilligan,” JYourn.
Conch., 20, pp. 168-175, 10935.

(4) STEPHEN, Dr. A. C. ‘“‘ The Echiuride, Sipunculide, and Priapulide
of Scottish and Adjacent Waters,” Proc. Roy. Phys. Soc. Edinburgh,
VOL. KK, Part dy De Wd Roaa

(5) MILLER, Hucu. My Schools and pe ee 1854.

(6) JEFFREYS, J. Gwyn. “ Report of the Results of Deep-sea Dredging in
Zetland, with a notice of several species of Mollusca new to
Science or to the British Isles,” Annals and Mag. of Nat. Hist.
for Oct., 1861 ; 1864, pp. 327-342 ; 1868, pp. 232-342.

(7) Plymouth Marine Fauna, and Ed., 1930, Marine Biol. Assoc.

286 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.
EDITORIAL NOTES.

IT is with great regret that we have to chronicle the three following deaths :
that of James A. Grieg, the well-known curator of the Bergen Museum in
Norway ; that of Leopoldo Faustino, of the Manila Bureau of Science ;
and that. of Robert J. Welch, of Belfast, who has been a member of the
Society for more than forty years. We ‘hope to publish some account of
Welch’s life in our next number.

Mr. C. H. Moore has been continuing his excellent work on the Society’s
collections at Manchester during the past twelve months—boxing, arranging,
and cataloguing. He has been devoting most attention to the J. W. Taylor
collection, both land and freshwater shells.

To show the extent of this collection we select quite at random from
Mr. Moore’s catalogue a few examples of the number of exponent series :
Arianta arbustorum is represented by 63 sets, Cochlicella barbara by 30,
H. pisana by 40, Balea perversa by 18, Carychium mnmum by 20, and
Lymnexa peregra by 82.

The J. W. Jackson Collection of British Mollusca has recently been
acquired by the Public Museums, Liverpool. It includes the Robert
Standen Collection and also many specimens collected by older workers,
forming altogether a representative series of British marine shells and a
fine assemblage of locality sets in the land and freshwater portion. Of the
latter material a good deal comes from localities that have since been built
over or otherwise destroyed, mainly in Lancashire and Cheshire. A series
of Crag shells named by Alfred Bell is also included as well as shell-marl
material and shells from other British Post-tertiary deposits.

Mr. Lloyd James mentions in lit. that he took a scalariform C’. nemoralis
last July at Middle Barton, Oxon, yellow with band formula 00345.

We have recently received from Mr. Sohtsu G. King two interesting
pamphlets ; one is a catalogue of his conchological library, which he has
this year presented to The Science Society of China Library at Shanghai.
It is an extremely valuable collection, including such things as the Thesaurus,
Conchologia Iconica, Manual of Conchology (both series), and most of the
serials which deal with mollusca complete.

The other pamphlet, by Grabau and King, is the second of the educational
handbooks published by the Peking Society of Natural History, and entitled
the Shells of Peitatho. Written in a popular style and illustrated with
numerous woodcuts, this excellent brochure starts with notes on collecting
and cleaning shells, and on the characters and terminology of the molluscan
shell. The rest is devoted to the commoner shells of the Peitaiho beaches.

The first mollusca part has just been published of the Fauna van Nether-
land, dealing with the Opisthobranchs, Amphineura and Scaphopods,
and written by Miss Tera van B. Jutting and Dr. Engel.

This strikes us as a particularly well got up little handbook, excellently
printed, with plenty of good text-figures : each nudibranch genus is ilius-
trated by a figure—usually photographed from Alder & MHancock’s
monograph. ‘There are also many drawings of radule and other details,
especially in the Amphineura. Similar handbooks are much to be desired
dealing with our British marine Mollusca.

EDITORIAL NOTES. 287

E. E. Andrews, of Johns Hopkins University, has a very interesting
account in the Nautilus, vol. 49, p. 2, 1935, of the rapid growth of a variety
of the common Jamaica Pleurodonte acuta (Miiller) which he reared from the
egg. Of two born on goth August, 1932, one measured 7 X 6°5 mm.,
and this seems to have been the average size at birth. On 3rd September
one specimen had a diameter of 17 mm. ‘The rate of growth in either case
was 10 mm. per month at first, but this did not continue, and it was found
that the smaller example took till January to attain the size reached by the
larger in October. In November the larger was forming its peristome, so
that under the conditions of feeding in confinement this fine snail may
attain maturity in about four months.

In the Nautilus for last July H. E. J. Biggs has a first-rate article on
shell-collecting on the Iranian plateau. He gives a very terse and vivid
little pen-picture of the sort of country it is and of the possibilities
of collecting, as well as notes on the mollusca collected. Altogether it is
a most readable paper, and we are glad to know that our member is
going to give this journal some fuller account of his Persian collecting
before long.

We have received Fossils, by Professor R. S. Lull, director of the Peabody
Museum at Yale University, one of the University Series published by the
University Society of New York (Chapman & Hall, Ltd., price 4s. 6d.).

The object of this series is stated to be to present concisely and attractively
the story of the life of mankind. The fossils treated of in this volume are
mainly vertebrates, and there are some interesting figures of prehistoric
creatures restored. Perhaps the most interesting chapter is that on Fossil
Men, with six figures of the chief forms so far discovered. As far as it goes
the book contains a lot of interesting matter and good figures, but with so
comprehensive a title one would have expected more details about
invertebrates ; it would almost be possible to go through the book without
realizing the existence of such a thing as a fossil mollusk. There is certainly
no figure of one.

The book is evidently based on the magnificent collection of fossil
vertebrates assembled by Marsh at Yale.

288 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 9, NOVEMBER, 1936.

PROCEEDINGS OF THE
CONCHOLOGICAL SOCIETY OF GREAT BRITAIN & IRELAND

634th Meeting (Joint Meeting with the Yorkshire Conchological Society),
held at the Manchester Museum, 4th April, 1936.

The President, Lieut.-Col. A. J. Peile, in the chair.

Present : Messrs. H. Emmett, J. H. Goodson, A. V. Wild, J. C. North,
F. Taylor, E. Dearing, S. W. Brooks, Mr. and Mrs. G. C. Spence, Mr. and
Mrs. C. H. Moore, Dr. and Mrs. Wilfrid Jackson, Miss Jackson, and
Mrs. Morehouse.

Election of New Member.
Wilfrid Edward Reeve.

The President read a short paper entitled ‘“‘ Some Tristram Types ”’
He also exhibited a series of land shells found in Bermuda but of exotic
origin and gave a short account of the conditions affecting their introduction.
He commented on the extended wanderings of Helix minuscula Binney
and the involved synonymy pertaining to this snail.

Exhibits.

By Mr. C. H. Moore: Series of Haliotis, Nassarius, and Ancilla.

By Mr. F. Taylor : Planorbis dilatatus, Physa heterostropha, and Bithynia
tentaculata, from hot-water reservoirs at Royton, near Oldham, Lancashire,
collected 18th March, 1936; series of Lymnza glabra and L. truncatula,
from Chadderton, near Oldham ; series of Helix hortensis, from Carshalton,
Surrey ; and series illustrating Dimorphism in Zonitoides.

By Mr. G. C. Spence: Diplommatina and Alycezus.

By Mrs. Morehouse: Helicostyla, Rhysota, Obba, Eulota, Geophorus,
and Cyclophorus, from Isle of Cebu, Philippines; also on behalf of
Miss K. M. Morehouse, Patella vulgata and Nucella lapillus, from Ravenscar,
Yorks, and a red variety of Littorina littorea, from Robin Hood’s Bay, Yorks.

By Messrs. H. Emmett and J. H. Goodson: Shells from localities in
North Staffordshire ; also Helix terrestris and var. grisea from Dover.

By Dr. J. W. Jackson: Scalariform examples of Achatina fulica Fér.;
also a reversed specimen ; scalariform specimen of Achatina panthera Sw. "
and a dwarf specimen of Cypreea shu lu.) 4 by ‘30 mm: ,

635th Meeting, held at the fihanonectes Museum, 9th May, 1936.
Mr. G. C. Spence in the chair.

Member Deceased.
G. H. Weaver

Member Resigned.
J. Newton. |
Papers Read.

** Simnia patula (Penn.) in Orkney,’’ by Robert Rendall.
** New Clausilia from Asia Minor,’ by H. E. J. Biggs.

Exhibits.

By Mr. A. K. Lawson: &na obscura, Clausilia laminata, C. bee
and Succinea putris, from Weaver Valley, Cheshire ; Lymnza glabra, from
pond at Didsbury, Lancs.

By Mr. G. C. Spence: Series of Ennea.

By Mr. C. H. Moore: Amphiperas and Birostra.

There was no meeting in September.

a THE LARGEST AND FINEST STOCK OF SHELLS IN “THE b WORD
) Established 861. oe oe
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Vor. 20] 18TH MARCH, 1937. _ [No. 10

Pont os

JOURNAL

OR ae

CONCHOLOGY

~ FOUNDED 1874.

‘BEING THE ORGAN OF THE CONCHOLOGICAL
Rah carscaas OF GREAT BRITAIN AND IRELAND.

Hon.<Editor: \,. Hon. Secretary : Hon. Treasurer :
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) apchee, | 13.

Ae CONTENTS. : | - PACE
ou of Officers: and Council © : CR RR ihe Ot aes
Changes of Address . : : : wd a OO
‘Anodonta in E. Kent—J. E. Cones: ; fe i «2 ZOO. |
H.jenkinsi on Beachy Head—G. Survupsoie eee Boats
Obituary Notice: Harry Sowden—Dr. Gayner . ae 201
Some Radula Problems, with pee Haynes (Presidential

Address)—A. 1 Pre My 206
Dredging in Loch Linnhe—W. F OWLER (CRY. & B05
‘Accounts | Ty soe ia 266
Mollusca of the Bieco| Ponds ¢ on the Baktbourne Downs—

G. SHRUBSOLE . 308
Proceedings: 10th Ode. (Annual Meeting), heath Mie
| 12th Dec., 19363; oth Jan., 1937 . as fee 1
Editorial Notes Ava t ; ‘ : : 4) ASLO

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THE

JOURNAL OF CONCHOLOGY.

VOL, 20. 18th MARCH, 1937. No. 10

LIST OF OFFICERS AND COUNCIL FOR 1936-7.

PRESIDENT :
Lt.-CoL. A. J. PEILE.

VICE-PRESIDENTS :

SPENCE A. P. GARDINER, B.Sc.

BR. LUCAS, F.G.S. jBlected. J. WILFRID JACKSON, D.S
L. E. ADAMS, B.A. PGS Se
P

ROF. COMER M.A. | A. S. KENNARD, A.LS., F.G.S.

D.M., FR:S. E. W. SWANTON, A.L:S.
W. E. COLLINGE, D.Sc. (St. | E. R. SYKES, B.A., F.L.S.
And.), M.Sc. (Birm.), F.LS., J. R. LEB. TOMLIN, M.A.,

F.RES. FRES.

ee eee HUGH WATSON, M.A.

H. CROWTHER, M.Sc., F.R.M.S., | R. WINCKWORTH, M.A.,
F.ZS. F.R.GS.

HON. TREASURER : HON. SECRETARY :
ROL AM, FF 15.5) FF faa | J. WILFRID JACKSON, DSc.,
T G.2.

HON. EDITOR : HON. LIBRARIAN AND CURATOR :

J.R.Le B. TOMLIN, M.A., C. H. MOORE.
F.R.E:S.

HON. RECORDERS :

Non-MaArInE Mo.uuusca : Pror. A. E. BOYCOTT, M.A., D.M., F.R.S.
MarInE Mo.tiusca: A. P. GARDINER, B.Sc.

COUNCIL :

Mrs. E. M. MOREHOUSE.
Miss N. FISHER.
A. R. WATERSTON, B.Sc.

A. W. STELFOX, M.R.I.A.
A. K. LAWSON, F.R. Met. Soc.
W. H. DAVIES.

YORKSHIRE BRANCH.

President: H.C. Versry, D.Sc.
Hon. Secretary : E. DEARING.

LONDON BRANCH.

President: A. S. KENNARD, A.L.S.
Hon. Secretary : Guy L. WILKINS.

NORTH STAFFORDSHIRE BRANCH.

President: W. E. ALKINS, D.Sc.
Hon. Secretary : B. BRYAN.

290
LIST OF MEMBERS.

Changes of Address.

Archer, Allan F., 20 Derne Street, Boston, Mass., U.S.A.

Biggs, Rev. H. E. J., c/o Church Missionary Society, 6 Salisbury Square,
London, EC. 4.

Brown, V. A. G., Flat 17, Mount Heatherbank, Richmond Gardens,
Bournemouth.

Dalgliesh, J. G., c/o Lloyds Bank, 74 Church Road, Hove, Sussex.

Fitzgerald, Rev. H. P., The Down House, Shawford, Hants.

King, S. G., c/o The Science Society of China Library, 533 Rue Roi Albert,
French Concession, Shanghai, China. |

Oldham, C., Oxfield, Shootersway, Berkhamsted.

Simpson, James, 25 Woodend Place, Hazelhead, Aberdeen.

Wakefield, H. R., Sylvanholm, Woolavington Corner, Bridgwater.

Waterston, A. R., Royal Scottish Museum, Edinburgh 1.

Wilkins, G. L., 11 Willow Road, Hampstead, London, N.W. 3.

Anodonta in East Kent.—The doubtful occurrence of Anodonta cygnea
in Chislet Marshes was mentioned in Vol. XIX, p. 321. It is now possible
to supplement that note. During the years 1934-5 the two main drainage
ditches in these marshes were dredged with a power-driven “ grab’’. This
scooped up large quantities of clay and mud. Both Anodonta cygnea and
A. anatina were found sparingly in clean fresh condition (though not
actually alive) in “‘ spoil ’’ from the Whitfield Sewer. The mud of the North
Stream yielded hundreds of both species, all dead, and mostly discoloured.
What killed all these mussels ? A possible explanation is that it was due to
tarry surface-water from the main road, which crosses the head of the
North Stream, and from a by-road which runs parallel to it. ‘The main road
was heavily tarred some five or six years ago. A. cygnea is supposed to live
in the River Stour, but careful search in dredgings from that river near
Sturry last year failed to produce a fragment. When the southern part of the
Whitfield Sewer was dredged in 1934 the grab brought up quantities of
Cardium edule, which lived there when the Wantsum was a sea. ‘The locality
is now 2 miles from the coast—J. E. COOPER.

Hydrobia jenkinsi on Beachy Head.—In the field adjoining the higher of
the two ponds on the road up to Beachy Head is a large cement drinking
trough, 36 by 4 by 3 feet. In March, 1936 it was seen to contain
H. jenkinsi in considerable numbers. ‘The trough probably gets its water
from the pond too yards distant. Both pond and trough have been under
observation for nearly three years. The pond was cleaned in 1933 and no
snails could be found in it till October, 1934. It now holds L. peregra and
S. lacustre, the former abundantly. Both are found in the trough. H.
jenkinsi has never been taken in the pond. The only pond on these Downs
holding H. jenkinsi is Friston, 3 miles away, where it was introduced ten
years ago, probably with marsh water. Some ten ponds lie between Friston
and the trough, and in none of these is it found. The pond and trough are
situated (470 feet) almost at the end of the Downs at Beachy Head, the
ground falling rapidly to the sea. Excepting Friston the nearest localities
for H. jenkinsi are the Cuckmore Valley, over 6 miles away, and the marshes
beyond Eastbourne, over 3 miles distant——G. SHRUBSOLE. (Read before the
Society, 10th October, 1936.)

291

OBITUARY NOTICE: HARRY SOWDEN.
By Dri. S.. Gavner.
(Read before the Society, 12th December, 1936.)

Born at Meanwood, Leeds, on 28th June, 1870, he went to work
~at the Heath Nurseries, Moortown, Leeds, on leaving school, and
from there as under-gardener to Carr Manor, Meanwood, then the
home of Dr. Clifford Allbutt. Later he moved to York, where he
came under the influence of John Hawkins, a member of the York
City Police and an excellent naturalist. Hawkins led him into both
ranks: for Sowden joined the City Police in 1891 and the York
and District Field Naturalists’ Society in 1902. Like so many
hundreds more it was as a collector of butterflies and moths that
Sowden commenced as a naturalist; but, turning to conchology,
he built up a magnificent collection of the British Non-marine
Mollusca. He became Recorder for Conchology to the York and
District Field Naturalists’ Society in 1916 and discharged this duty
till his death, with the special care to record the work of others. In
1917 Sowden joined the Conchological Society of Great Britain
and Ireland, and in November, 1925, the Yorkshire Conchological
Society, becoming its President in 1928. ‘The Report of the York-
_ shire Philosophical Society for 1929 records Sowden’s appointment
as honorary Curator for Conchology to the Society.

Sowden’s own additions to the recorded molluscan fauna of this
district were : —

1896. Arianta arbustorum, var. baylet, Bishopthorpe.
1898. Arianta arbustorum, var. hypnicola, Bishopthorpe.
1910. Helix aspersa, var. exalbida, Heslington Road.
1917. Vallonia costata, by the Multangular 'Tower.
1919. Testacella scutulum, in Canon Watson’s garden.

The following papers were published by Sowden: ‘ Abnormal
Land and Freshwater Shells”? (Fourn. of Conch., Vol. XIX, July,
1931, pp- 142-4, and plate iv); and ‘‘ The Mollusca of the
Pocklington Canal, near York” (North-Western Naturalist,
December, 1935, pp- 332-4).

He was indefatigable as a teacher, recommending books, apparatus
and giving specimens or material to encourage beginners. Of the
many appreciations which have reached me since his death perhaps
the best was the retort to the lament: ‘“‘ He has taken much know-
ledge with him ”’—“ He has left some with me.”

292
SOME RADULA PROBLEMS.

By A. J. PEmLe.

(Presidential Address delivered at the Annual Meeting, 10th October, 1936.)

THREE of my predecessors in office have taken radule as the subject
of their presidential address.

In 1914 Professor H. M. Gwatkin spoke on “‘ Some Molluscan
‘Radulz’’, describing the forms found in the Pulmonata with a
special discourse on those of the Ancylide.

In 1920 Dr. A. H. Cooke discussed “‘ Evolution in the Molluscan
Radula.”’

In 1932 Dr. E. W. Bowell spoke on “ Radulze”’ with special
reference to preparing them for scientific examination and touching
on their use in classification.

I cannot hope to compete with such authorities on their own
ground. Still, regarding the radula as a piece of apparatus, I venture
to submit a few of the ideas which have occurred to one whose
training has been more in mechanical than biological subjects. I
hope particularly that my speculations will provoke criticism and
stimulate research.

What’s in a name? The word Radula, meaning a scraper, may
be quite a good name for the apparatus used by certain browsing ~
snails, but as we shall see, it 1s questionable whether it is equally
suitable for the corresponding organ in many other molluscs.
Perhaps because the name suggests the function we find in literature
general statements such as the following :—

‘The function of the radula is to tear or scratch, not to bite;
the food passes over it and is carded small’ (Cooke, 1895).

The same author, however, in 1921, after speculating on the
evolution of the radula, leads us on a broader if not less rocky
path towards a wider view. In the final paragraph of his presidential
address to this Society he says :—

“Tf the conditions of life, the habits, not at one stage of life only,
and the food staples of the mollusca are more carefully studied,
valuable information bearing on the development and modification
of the radula cannot fail to be acquired.”

Vice versa, if we study the radulz of species whose feeding habits
are known we shall be better qualified to envisage the possible
functions of the radule in other cases.

Perhaps the most obvious cases of the use of a scraper are to be
found among the herbivorous Pulmonates, both land and fresh-
water, whose radula consists of a large number of small teeth
generally more or less pointed and often furnished with cusps, used

PEILE : SOME RADULA PROBLEMS. 293

in conjunction with a jaw in the roof of the buccal opening.
Observation of the forward and upward movement of the front of
the radula of a snail can be easily made. Examination of a radula
will show that the foremost rows of teeth are distinctly worn.
particularly the marginals. But I would suggest that there is no
evidence to be got from the radulz regarding any further ‘‘ carding ”’
of the food stuff. The middle rows of the radula would appear to
function merely as a carrier belt to convey the food to the
cesophagus, while the hindmost rows are in reserve.

Gwatkin divides the arboreal snails into two groups. In the first
the teeth have somewhat similar broad cutting edges, though they
belong to families which are separated both systematically and
geographically. Amphidromus, Drymaeus, etc.

In the second the teeth are clove-shaped with denticles like the
fingers of a half-closed human hand. Achatinella, etc., in the
Pacific region.

In both cases the teeth denote adaptation to special uses, and it
may be significant that the marginal teeth of some of the Succineidz
resemble those of Achatinella, as evidence not of relationship but
of use for a similar purpose.

I venture to suggest that the broad teeth of the first group are
used for biting green leaves or mosses, while those of the second are
more suited to deal with secondary vegetation such as lichens and
moulds.

It is to be hoped that some day we shall get an account of the
habits of Brachypodella, which will help to explain the use of its
highly specialized and very peculiar radula (Crosse and Fischer).

The radula of many slugs and snails is composed of elements
which in the centre lines resemble those of the herbivorous species,
while the marginal teeth tend to resemble somewhat the teeth of the
carnivores. ‘I'he jaw in such species is reduced to a minimum. Many
of the species so equipped avoid green food and eat lichens and
fungi, and some of them are omnivorous, including animal matter
in their diet. But we must not jump to conclusions. In our own
fauna Arion hortensis, Milax sowerbyi and Agriolimax agrestis,
which have similar aculeate marginal teeth to those of the other
species in their respective families, are, nevertheless, guilty of attacks
on garden produce. In radulz of this type the front rows of marginals
will be found to have been subjected to most wear.

93

1 In the following accounts the word ‘‘ wear ’”’ implies damage such as
obliteration of cones and cusps. ‘‘ Use” implies slight blunting of the
tips of teeth or of minor cusps. We must not overlook the possibility that
the radula under examination is from an animal that has just shed its
worn teeth.

204 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

In Daudebardia and the Oleacinide the teeth are so highly
specialized for carnivorous diet as to resemble those of the Agnatha.

In the highly specialized Testacella, the use of the barbed teeth
for the capture of earthworms is well known. There appears to be
no question of chopping up the prey which is swallowed whole
and at considerable leisure.

The Agnathous land carnivores have aide furnished with large
aculeate teeth without cusps. Where the teeth differ in size they
increase from the centre line outwards. The largest teeth are some-
times half-way towards the margin and sometimes as in the highly
specialized Natalina caffra, which has only five laterals on each side,
the outermost is the largest. In this species there are also some
minute marginals on each side of the radula, which may be vestigial—
their possible use is obscure.

The large aculeate teeth are excellently suited for tearing the
flesh from the prey and one often finds an area of battered teeth in
the front part of the radula, suggesting contact with hard substances
such as shell or perhaps bone in the case of species that may feed
on carrion. I am convinced that, as in the case of other carnivorous
animals, there is no need for mastication, and that the pieces torn
off by the foremost teeth are swallowed forthwith. I have actually
found in the body of Schizzoglossa from New Zealand the undamaged
radula of an Endodont snail, identified as a Phenacohelix and now in
my collection of radulz. I suggest that the method of swallowing
is similar to that employed by snakes, the teeth on the two sides
of the radula working alternately, one side pulling and the other
holding.

As regards the Opisthobranchs I have little evidence to offer. The
many different forms found in the Nudibranchs indicate adaptation
for special purposes. See Alder and Hancock for accounts of habits,
food and radulae and Sars for figures of radule.

For Aplysia we have an account by Eales: “‘ Seaweeds are grasped
by the lips and jaws and particles are scraped off by the radula.
The food is then stored up in the crop; it is finally dealt with by
teeth in the gizzard to which it passes in small quantities at a time.”’

In the extracted radula we find that many of the smaller cusps
are obliterated in the front rows.

In genera such as Tvicla, where the animals possess powerful
gizzard plates, it is probable that the strong curved lateral teeth
of the radula are used as pincers for capturing the prey, which is
swallowed whole.

In the Scaphopoda the form of the radula suggests that it is used
like a nut-cracker for breaking up the shells of. crustacea or small
bivalves.

PEILE : SOME RADULA PROBLEMS. 295

In certain marine families on another branch of the molluscan
tree, evidence for scraping action is well documented for Patella
and Haltotis.

Davis and Fleure observe that—

‘ Patella feeds in two ways:

“1. By scraping alge from rock surfaces, the radula being
moved from behind forwards.

‘““2. By gripping pieces of weed with the outer lips, aided by
the dorsal palate and then scraping off fragments by rasping.
‘While the tip of the radula is scraping food from the rock,
another part is working against the jaw or palatal plate and thus
grinding the food already obtained. ‘This working continues after
feeding has ceased and the cesophageal pouches retain the food
till this is completed, when the food is passed to the crop.”

We have evidence of the scraping and carding but these actions
are performed by the front of.the radula only.

Examination of the extracted radule does not as a rule reveal
signs of much wear in the front rows of teeth, which, though large
are very susceptible to damage when handling the radula. This is
probably because worn teeth are quickly discarded after use. There
is ample provision for replacement in the very long radula. Mr. R.
Winckworth has exhibited a radula of Cellana testudinaria, from
Port: Blair, 32°5 cm. im length;

Haliotis is described by Coates as “‘ feeding on minute encrusting
algze and fragments and surfaces of larger sea weeds scraped off
by the radula which has strong lateral teeth for rasping. ‘The
numerous marginals are obviously too delicate to tear. The food
is scraped by the harrow-shaped laterals and to a less extent by the
gouge-shaped central. A chewing action of the radula against the
jaws probably continues after the rasping has stopped. The
marginal teeth probably serve as cogs to help food fragments along
and aid the jaws in providing a non-skid surface to ensure the passage
of food. In addition they act as combs to prevent entrance of large
fragments. This is necessary because there is no triturating
apparatus in the remainder of the digestive system.” In the extracted
radula the big laterals are blunted in the foremost rows.

The Fissurellide probably follow the method of Haltotis and the
evidence of the radula is the same. In the Trochide and Turbinidz
one will expect to find differences in the functions of the radula
according to the presence or absence of jaws. Umbontum is worthy
of special mention. It lives in sand where possibility of scraping is
most unlikely. Examination of the radula shows that though the
inner teeth are almost obsolete, the inner marginals are comparatively

296 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

large. I have no doubt they are used to sweep food particles into
the radula. In the Neritide and Helicinide the large capituliform
teeth are well suited for cutting or scraping the food, they generally
show signs of use in the front rows of the radula. The centrals are
degenerate, but are probably efficient as food conveyers. —

It may be of some significance that in the Rhipidoglossa we usually
find some rows of marginals in advance of the foremost inner teeth.
I would suggest that the marginals, in addition to preventing the
entrance of large particles, may serve, like the whalebone in Cetacea,
to retain small particles while permitting the escape of water. Note
the mention by Gwatkin of the ‘“ whirlpool motion ”’ observed in
the radula of Margarites helicinus.

Passing to the Tznioglossa, one of the first problems that provokes
the inquiring mind is how a radula can be employed by a sessile
animal like Crepidula or an immobile creature like Vermetus. ‘This
problem is satisfactorily solved by Orton (1912), whose account may
be thus shortly paraphrased: ‘‘ In Crepidula fornicata the radula
is used for grasping, not rasping. A current set up by the gills
causes food to collect in a food pouch in front of the mouth. The
radula is shot out with marginals spread apart; these close in on
the food mass and the radula is retracted, the action being repeated
until a length of food mass is detached. The detached piece is then
swallowed. The mandibles which are very weak and lie in the dorsal
surface of the buccal cavity help in retaining the food in the pharynx.
Calyptrea chinensis feeds in exactly the same way. Capulus ungaricus
has no food pouch but the lips have become elongated in the form
of a grooved proboscis which appears to collect food from the tips
of the gills.”

Pelseneer credits Vermetus gigas with secreting a sini ‘ voule ”’
to capture small organisms, the whole being then absorbed. He also
refers to the demonstration of a ciliary action in V. nove hollandiz.

In the light of the above information, let us examine the radulz.

In Crepidula fornicata and Calyptrza chinensis the inner teeth
show practically no signs of wear, the marginals in the front rows
are slightly blunted.

In Capulus ungaricus the teeth are slightly blunted in a few of the
front rows.

In Amalthea australis, also sessile, usually on the shells of other
molluscs, the teeth are furnished with an elaborate assortment of
cusps none of which show any signs of use; well-developed, oval
jaws with fringed edges are present.

In Vermetus, which has somewhat similar jaws, the teeth show
but slight signs of use in the front of the radula. In all the above,
therefore, we may sum up the function of the radula as grasping,

PEILE : SOME RADULA PROBLEMS. 297

not rasping. Swallowing naturally results, as usual in mollusca,
from the chain saw motion of the backward pointing teeth. Further,
it would appear that the better developed the jaws the less wear
on the radula.

In Strombus and its allies, including Terebellum, on examining the
dead animal we find the radula and a pair of oval jaws at the anterior
end of a long snout well in advance of the tentacles and eye-stalks.
The whole arrangement would appear suitable for rooting in the
_ sand on which these animals live, though Woodward makes the
statement that they are carrion feeders. Examination of the mouth
parts suggests that they function like those of Crepidula. A bolus of
gritty matter is found between the jaws and the radula, while the
latter is filled with a column of the same substance which continues
into the esophagus. There is no sign of trituration by the radula,
which is evidently acting as a conveyer belt. The only sign of use
in the smaller species is a slight blunting of the centre cusp of the
rhachidian. ‘The small denticles, even those on the marginals,
appear unaffected, and this in spite of the rough nature of the
material ingested.

The radula of S. galeatus, which by virtue of its larger size may
be assumed to deal with still coarser material, shows considerable
wear of all the teeth in some of the front rows.

The Cyprxidz would probably provide the subject for a special
study. In the absence of jaws we should expect some wear in the
radula, and the amount of it would depend on the nature of the food.
Taking two species at random, in C. turdus the front nine or ten
rows are blunted, while in C. tigris even the front two rows are
little damaged. ‘These radulz are generally rather long.

In Trivia, a genus with moderately developed oval jaws, the radula
is not worn in T. monacha. ‘That of T. arctica shows a little wear
in the two front rows.

Passing to those Tznioglossa with large serrated jaws we find no
wear in Cymatium tranquebaricum or in Cassis achatina, though the
teeth of the latter, particularly the admedians, are elaborately cusped.

In Galeodea rugosa the radula is worn in the front rows. Surely
here we have an interesting field for observation of food and habits.

For the Taentoglossa of freshwater Prashad gives an illuminating
account of the feeding habits of Pila. These animals have a pair of
almost circular jaws, of which the opposed edges are irregularly and
bluntly serrate. He says :—

“The chain-saw movements of the radula are very limited. The
jaws, by downward and backward movements, cut up the leaves of
aquatic plants. ‘The flattened radula is brought to the mouth opening
with cusps of the teeth pointing forwards and outwards and, by

298 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

forward and backward movements, pulls the food backwards into
the buccal cavity. ‘The radula does not seem to perform any
rasping function.”

I have examined the radulz of species taken at random and found
no signs of wear in Pila dalyi, Turbinicola saxea, Saulea vitrea, and
Pomacea peristomata. In a radula of Lanistes olivaceus some of the
front admedians are a little worn. This suggests similar habits in
the whole of the group.

In the following British species, taken at random, the radule
show no wear. Vuziviparus fasciatus, V. viviparus, and Bithynia
tentaculata. |

In the Cyclophoride, land herbivores, with large serrate jaws,
the radulz of several species, taken at random, show no signs of
wear, even in the front of the radula.

In the land families Pomatudz and Chondropomidz, which have
no jaws, the outer marginals, which are very broad, are often
advanced a few rows in front of the inner marginals with the central
and admedians a little farther back. I would suggest a possibility
that the advanced broad marginals may assist in collecting food
within reach of the inner teeth which then convey the food to the
cesophagus. The teeth never show any signs of wear so it is unlikely
that they perform any abrasive duty.

The Littorintide, in which the jaws are undeveloped, would seem
to browse on vegetable growths. ‘The radula is subjected, therefore,
to a degree of wear depending on the surface attacked, and it is
interesting to note that in such species as L. scabra, which are found
on mangrove-trees, the radula, though long enough to make ample
provision for replacement, is far and away surpassed in length by
that of such species as L. ziczac, which frequent hard limestone
rock. I have a Bermuda specimen of the latter species, in which an
animal with a shell of altitude 20.3 mm. possessed a radula
167 mm. long. :

The Naticide are perhaps the most puzzling group to understand.
They are possessed of well-developed, serrated jaws, yet the radule
generally show signs of hard work in the foremost rows. It has been
claimed by some authors that these animals perforate the shells of
bivalves, and Jeffreys says that NV. aldert has been observed boring
in captivity. But the form of the radula seems to preclude its use
for such a purpose, at any rate if we compare it with those of such
Rhachiglossa as are well known to be borers. Schiemenz (quoted by
Fischer) imputes perforation to acid secreted by an organ below
and behind the mouth, which he calls bohrdrise. He says that a
regular cavity is bored by the acid and the bottom of the cavity is
then pierced by the radula. Pelseneer (1935, p. 104) advances the

PEILE : SOME RADULA PROBLEMS. 299

opinion that Natica asphyxiates the bivalve by holding it in a fold
of its foot or, with Mya, by closing the syphons. In such cases, once
the food has been broken up by the front rows of teeth there does
not seem any reason for any action by the rest of the radula except
as a carrier belt, and the wear which undoubtedly occurs is
unexplained.

The Rhachiglossa, all carnivores, have radulz variously modified,
generally with three lines of teeth. In Marginella and some of the
Volutidz, laterals are not present.

In the first place we have the borers such as Ocenebra, Urosalpinx,
and Nucella. ‘The method of boring into shells by a rotary motion
of the projecting part of the radula has been well established. See
Fischer and Orton (1927). The radula suffers accordingly and will
be found to have lost most of its cusps in the front portion ; some of
the teeth are often worn quite smooth.

The Nassaridz are credited with boring, though the teeth do not
appear particularly suited to the purpose. Certainly, in many species
the front teeth are chipped and battered but not worn smooth as in
Ocenebra. Considerable variation in the form of the laterals is found
in this family (Peile, 1936), and it is curious that in N. krausstanus,
in which the smaller cone of the lateral has a row of inward-pointing
denticles, it is this part of the lateral which shares the wear with the
central, while the longer outer cone is comparatively uninjured
so that it is still available to assist in hauling. I have noticed similar
cases in other genera whose laterals have two cones, for instance in
Busycon. In Vasum, on the other hand, the whole lateral may be
found blunted. Some species of Lezodomus, allied to Nassarius,
are certainly carrion feeders. I have seen the sand at Port Elizabeth
swarming with L. rhodostoma advancing on dead horses lying near
high water mark.

The habits of Buccinum are described by Dakin. It is omnivorous
and dead (but fresh) and living organisms are equally acceptable.
It is capable of piercing the carapace of crabs or the skin of fish
caught in nets; the radula teeth are not worn down as against
a hard substance, but broken irregularly.

Babylonia, which to my recollection is a carrion feeder, has very
large cones on both central and laterals, which show no signs of
wear in three out of four examples examined, suggesting that their
use is to tear off and shovel in masses of soft food. When wear occurs
it is to the central and inner side of the lateral.

The Mitride present us with a few problems. First the occurrence
in the two subfamilies of two very different types of radula: in the
Mitrine it is usually very broad, with lozenge-shaped central and
comb-like laterals, the latter adnate to the supporting membrane ;

300 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

in the Vexilline we find an arcuate multicuspid central (tricuspid
in Pusia) and curved aculeate laterals which can be folded over the
central. For figures of various forms of radulz see Cooke, 1920,
and Peile. |

Examination of the radulze of many species of Mitrinz detects
in many cases no sign of wear. When wear does occur it is on the
front few rows of centrals and the inner ends of the adjoining
laterals. So it is clear that the whole is not used as a rasp.

The likeness of the laterals in Vewxilline to those in genera like
Murex has suggested a similarity in habits. Examination of the radula
does not support this view. I have found no signs of wear on the cusps
of the centrals of Vexillum and Pusia, but a few front lines of laterals
are generally wanting. This suggests that these radulz may function
like those of some of the Tznioglossa.

Fic. 1.—Peristernia leucothea Melv. Port Shepstone.
5 rows from radula. X 200.

This is not all. Certain species, e.g. Cancilla circula, have radule
with a central very like that of Vexillum, while the laterals are
appressed combs similar to those of Mitra s.s. Altogether con-
siderable variety in habits is suggested for the family.

_ The radula of Pertsternia calls for remark. It has a family

resemblance to that of Fasctolaria, but the laterals are much shorter
combs with fewer teeth. The outstanding peculiarity of the genus
is that in all the species of which the radula is known the laterals
are not only asymmetrical to one another but the larger cusps and
intermediate denticles that arm them do not follow the same
sequence in either line, nor does the sequence appear to follow any
law, except that the total number of cusps plus denticles seems pretty
constant. ‘The specimen figured has ten on one side and eleven on
the other (Fig. 1). The result is that the two laterals together form

PEILE : SOME RADULA PROBLEMS. 301

a rasp irregularly studded with cusps and denticles. The whole
arrangement points to some peculiarity in habits which remains to
be investigated. In a radula of P. leucothea, having 196 rows of teeth,
we find the laterals of the front twenty-one rows worn quite smooth
(parts of them in lines 15, 16, and 19 obliterated) the following
fifteen rows in succession showing less and less wear. The bluntly
tricupsid centrals which lie in a lower plane are practically unworn.

The radula of the Pyrenidz is peculiar in having an obsolescent (?)
central with no cusps and it is very long, which generally suggests
provision to replace wear. In specimens examined I have not seen
any signs of wear even on the small stout bilobed laterals. The fact
remarked on by Cooke that the same form of radula is found through-
out the whole family points not only to its antiquity but to a
similarity in habits in all existing species.

The Toxoglossa have an apparatus for which the name radula is
quite inappropriate.

For a general account of the anatomy of Conus see Shaw. The
animal has a rostrum provided with sense organs, through which a
muscular proboscis can be protruded. The teeth lie in an elbowed
sac on the right-hand side of the body, formed up in two lines
(formula 1.0.1). The teeth that are ready for action point towards
an opening into the cesophagus, while the remainder, with the
nascent teeth, point in the other direction in the hinder arm of the
sac. For guidance as to further details I am indebted to
Dr. L. C. D. Hermitte, who is at present engaged in a thorough
investigation of this group of animals, following on the severe
muscular paresis of a patient who was stung by C. geographus.
For other records of stings see Iredale. The hollow teeth are com-
posed of a rolled up plate, as pointed out by Troschel; the
barbs and serrations, when present, are formed by indentations
on the sides of the plate, verified by myself recently for teeth of
C. miles and C. zonatus. 'To prepare for action, one tooth is detached
from the bunch, enters the pharynx and is held, projecting, in the
end of the proboscis. I have seen this myself in dead specimens of
C. striatus, C. terebra, and C. geographus. It is probable that this
result is attained by the complete invagination of the proboscis,
which then seizes a tooth by the barbed end. The proboscis
when everted would hold the tooth in the required position.

A hollow muscular bulb (called by previous authors the poison
gland) is connected to an opening in the pharynx by a very long
convoluted tube (called previously the poison duct), the highly
specialized epithelium of which, in Hermitte’s opinion, actually
secretes the poison. At the moment of attack, by contraction of the
bulb, poison is driven through the proboscis into the tooth, which

302 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I0, MARCH, 1937.

enters the prey and probably remains there by virtue of its barbs.
Pelseneer says that Conus feeds principally on annelids. It seems to
me as not too fanciful.to suppose that the worm is immobilized by
a tooth shot like an arrow into its burrow or other habitation from
which it is then extracted by the proboscis of the cone.

Many forms of teeth are found, and some are figured by
Troschel and by Thiele. Some of them have a projection on
the base of the shaft which appears designed to retain the
tooth in the proboscis. I have quite recently found a complete
nereid worm in the body of Conus aurora, which has teeth of
this type. It is probable that each type of tooth is. used
against some particular kind of prey. A gaping bivalve might be
killed and its flesh ingested when decomposed and the statement
made by A. Adams of the “‘ Samarang’”’ (quoted by Tryon) may
be founded on fact. He says: ‘‘ They lead a predatory life boring
into the shells of other molluscs for the purpose of sucking the juice
from their bodies.’”? We must, of course, discount the idea of boring.

Many Terebra radule have teeth very like those of some of the
Cones, and their poison apparatus is as figured by Troschel.

In the Turride we have several types of radula to consider. In
the simplest form the arrangement of the teeth is as in Conus, with
formula 1.0.1 and they are evidently employed in the same way.
An excellent figure by Sars of the anatomy of Bela exarata shows
a shaft in situ in the proboscis. The long and very slender teeth of
Lora turricula‘ are distinctly reminiscent of the wire instruments
used by dentists for probing the nerve channels in the roots of
human teeth. It seems more than probable that they are used for
attacking creatures living in minute burrows.

But in many species there is a central tooth, often minute, but
sometimes quite well developed. It is difficult to visualize the
employment of such apparatus and still more difficult in the type of
radula represented by that of the Northern Spzrotropis, but not
confined to that genus. It is found in several tropical species
assigned by Thiele to Drillza.

Here we have five lines of teeth (formula 1.1.1.1.1), the centrals
insignificant, the laterals broad plates with serrated edges, and the
marginals long and pointed but not rolled. As figured by Sars the
radula is not situated by the side of the esophagus, as in Bela and
Conus, but in prolongation of it, the poison duct entering near the
front of the radula.

Cooke suggests that we see in Spzrotropts the primitive toxoglossate
radula, and it is tempting to believe with him that we can trace the

1 Cooke; 1395, fig. 213.

PEILE : SOME RADULA PROBLEMS. 303

evolution of the teeth of Conus therefrom by the shedding of all but
the marginals. But I see difficulties. For instance, the rolled up
teeth of Conus are more likely to have evolved from a form of plate,
like the lateral, than from a tube, like the marginal of Spzrotropis
even if we allow that some Turrids of the second type could have
evolved from the third by the loss of the lateral.

As to the radula of Cancellaria, also included in the Toxoglossa,
the long and very slender blades are probably used, like the teeth
of Lora, to penetrate minute burrows.

SES

Fic. 2.—Octopus vulgaris Lam. Guernsey.
Eight central teeth and one set of laterals (marginal plates omitted). Xx ‘55.

In conclusion let us glance at some Cephalopods. In Sepia
officinalis the radula is composed of fifty rows of strong, pointed
teeth, five in each row, suitable for tearing flesh from prey held by
the jaws and conveying the pieces to the cesophagus. The cesophagus
is also furnished with spiny processes which further ensure the
passage of food to the stomach. In the front end of the extracted
radula the teeth are found to be blunted.

The radula of Octopus vulgaris, which is more elaborate than that
of Sepia, will provide our last and not least interesting problem.
It is much longer, having twice as many rows of teeth arranged in

304 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

nine lines, if we include the unarmed marginal plates. ‘The central
tooth is furnished with a prominent sharp mesocone ; the line of
centrals seen through the open beaks resembles the teeth of a circular
saw, and doubtless its purpose is that of finishing the work, begun
by the beaks, of carving crustaceans. ‘The two inner lines of laterals
are armed with large cusps while the outer line consists of long
conical teeth resembling the teeth of Sepza.

When we examine the extracted radula we find signs of very
hard wear in the front portion, greatest on the central teeth, which
are often worn quite flat, but also severe on the laterals.

In the unworn part of the radula we notice that the cusps on the
central teeth are not symmetrically placed, and that their position
differs in the successive rows, the succession following a law by
which, in any row, the cusp is lower than in the row in front of it
(Robson). Such an arrangement is peculiar to certain genera of
Octopodidz. I venture to suggest that it is of advantage in varying
the depth of bite in the food material (Fig. 2).

The other side of the problem, concerning the development of
such teeth, I present to Cytologists, together with the problem of
the cusps in Pertsternia.

WoRKS QUOTED.

In addition to those mentioned in the Introduction.

ALDER, J.. AND Hancock, A. 1845-1855. British Nudibranch Mollusca.

Cooke, A. H. 1895. Cambridge Natural History.

1920. P.Z.S., ‘‘ The Radula of the Mitride.”’

Crorts, D. R. 1929. Liverpool Marine Biology Committee Memoirs, xxix,
* Haliotis.” }

Crosse, FH. and Vischer, (FP: HH. 1870... %. Comciwl. xvilly- p. 5,
** Cylindrellide.”’

Davis, J. R. A., and FLeure, H. J. 1903. Liverpool M.B.C. Memoirs, x,
** Patella.’ )

Dakin, W.J. 1912. Liverpool M.B.C. Memoirs, xx, ‘“‘ Buccinum.”’

Eaues, N. B. 1921. Liverpool M.B.C. Memoirs, xxiv, ‘‘ Aplysia.”

FiscHeR, P. H. 1922. F. Conchyl., Ixvii, ‘“‘ Sur les Gastéropodes
Perceurs.”’

IREDALE, T. 1935. #. Conchol., xx, p. 166, ‘“‘ Fatal Sting by a Cone.”

JEFFREYS, J. G. 1862-9. British Conchology.

OrTON, J. H. 1912. Fournal Marine Biological Association, ix, ‘‘ Crepidula.”’

1927. Nature, p. 653. ‘“‘ Murex erinaceus.”’

PEILE, A. J. 1922. Proc. Malac. Soc., xv, “‘ The Radula of some Mitride.”

1936. Proc. Malac. Soc., xxii, “‘ Radula Notes.”

PELSENEER, P. 1935. Essai d’Ethologie d’aprés l’étude des Mollusques.

PrasHaD, B. 1932. Indian Zoological Memoirs, iv, ‘‘ Pila.”’

Rosson, G. C. 1925. #. Linn. Soc. (Zool.), xxxvi, ‘“ Cephalopod Radula.”

1929. Monograph Recent Cephalopoda, i, ‘‘ Octopodine.”’

Sars, G.O. 1878. Moll. Regionis Arcticze Norvegiz.

SHaw, H.O.N. 1914. Q.F. Microscopical Sc., ‘‘ Conus.”

THIELE, J. 1929-35. Handbuch.

"TROSCHEL, F. H. 1856-1863. Das Gebiss der Schnecken.

Tryon, G. W. 1883-4. Manual, vol. vi, ‘‘ Conus.”

Woopwarp, 8S. P. 1890. Manual of the Mollusca, reprint of 4th edition.

395
DREDGING IN LOCH LINNHE.
By W. FOWLER.

(Read before the Society, 12th December, 1936.)

Miss GaFFNEY and I spent September and October last at Onich,
on Loch Linnhe, near Fort William, and for six weeks dredged the
Rev. G. A. F. Knight’s ground of 1891.

We certainly have made several additions to his list, but this is
not surprising, seeing that Knight did all his work single-handed
with no one in the boat to help, and the dredge he then used was a
very small and light one, weighing only g lb. We had an excellent
new dredge, weighing over 30 lb., and in addition an excellent
boatman and dredger, John MacGregor, the best man I have come
across anywhere in the past eight years ; it is chiefly due to his skill
and knowledge that we did as well as we did, while we had also the
best six weeks of calm weather that I have ever experienced. I am
not mentioning many of the commoner species, but among things
we got alive are the following, which Knight either did not get at
all or only found in a fragmentary condition : Cuspidaria abbreviata
Fbs. (one) ; Pecten maximus L.; Chlamys nivea Macg., white form
only, at Oban we found one mottled with purple; C. opercularis
L., septemradiata Miill., tigerina Miill., striata Miill., similis Laskey ;
Nuculana minuta Mill.; Nucula sulcata Bronn; Astarte elliptica
Brown ; Glossus humanus L. (two small living and one large dead) ;
Puncturella noachina L.; Mangelia attenuata Mont.; Tonicella
marmorea F. (mostly small); Lepeta fulva Mill.; Turbonilla
crenata Brown; Odostonia umbilicaris Malm; and Capulus
ungaricus L.

Other living species, which Knight also got, included: Cusp.
cuspidata Brown, fairly common; Astarte montagut Dillwyn,
common in one spot; Lyonsia norwegica Gm. ; Cultellus pellucidus
Penn., common and fine, but the dredge broke many; Abra alba
Wood, and nitida Miill.; Velutina velutina Mill.; Cylchna
cylindracea Pennant; Lora turricula Mont.; and Mangelia
brachystoma Phil.

The best catch that we had by shore-collecting was Thracta
villostuscula Macg., but it was very scarce and digging for them at
Cuilchenna at three separate tides only produced about a dozen
altogether. With them we also found Mya truncata L.. and Coch-
lodesma praetenue Mont. |

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308

MOLLUSCA OF THE SHEEP PONDS ON THE |
EASTBOURNE DOWNS.

By G. SHRUBSOLE.

(Read before the Society, 8th February, 1936.)

A PAPER on these ponds was read before the Society in November,
1934, and since that time observation has been continued.

If a map of the Downs is taken and the ponds marked on it, it will
be seen that the colonized ponds occur all over the ground; they
are not confined to particular parts. The distribution has been very
general. Possibly all the ponds at some period or other have con-
tained mollusca, for where a pond is now barren, in practically
every case it is now, or is known to have been, in a condition which
would kill off any snails it might have held.

The fact that the distribution has been so general appears to be
against the theory that ducks and other wading birds, with possibly
water-beetles (Dytzscus), can have effected the transfer of the
mollusca from the marshes to the ponds.

There is no evidence to show that ducks, coots, or water-hens
have ever frequented these ponds. They and the ground around
them can never have been attractive to such birds. It is difficult
to believe that coots or water-hens would ever attempt the flight,
and if an occasional duck did drop on a pond the chance of that
pond being colonized would be most remote, and of a general
colonization practically zl. |

The opinion of four or five local naturalists who have known
the Downs for many years has been asked, and all agree that they
have never seen one of these birds on the Downs, nor found any of
their feathers near a pond. Moreover, if ducks did use the ponds
one would expect they would select the more remote and quietest,
yet we find that the farm ponds and others close to cottages contain
snails. It is difficult to imagine that snails, especially L. peregra could
survive in a cement pond frequented by ducks. There is no weed
for cover and the snails generally are clearly visible.

Although Clement Reid in his paper ‘‘ The Natural History of
Isolated Ponds ”’ does not consider human agency has played much
part in the transport of weeds and animals to these ponds, giving as
his reason the rarity of strangers or traffic visiting these Downs who
might act as conveyers, there are other ways in which it may have
acted which he does not discuss.

All these ponds are artificial ; originally made to supply water
when the farmers on the lower slopes sent their sheep up to graze.
From all the farms tracks ran on to the Downs and up these would be

SHRUBSOLE : MOLLUSCA ON THE EASTBOURNE DOWNS. 309

taken the materials for constructing the ponds. The old puddled
ponds were usually made with five or six layers of different materials,
of which straw was one. Any water required for the puddling
must have been brought up also, there being none on the top, and
this water coming from the lowlands could scarcely fail to contain
snails in most cases. When more ponds were needed, water from
those first made might be used, probably containing snails, and in
this way from its original making every pond had a good chance
of being colonized by mollusca. But there was yet another way in
which human agency could colonize these ponds or replenish their
stock of mollusca. 3

Droughts occur on the Downs fairly frequently. In recent years

there were droughts in 1887, 1893, 1911, 1921, 1933, 1934, and 1935.

These dry periods bave been recurring as long as ponds have
been on the Downs. At such times the ponds get very low and
there is a shortage of water for the stock. Vegetation is dried up and
water is a necessity.

During the drought of 1935 Eastbourne Corporation, which
now owns Black Robin and Bullock Down Farms, was supplying
both and some of the ponds with water, sent up in the town’s motor
water-cart. ‘This may have been the case in 1933 and 1934 also.

But before these modern supplies were available (water is now
laid on at Friston) farms had to cart water up, and the nearest
supply would be ponds or large ditches at the foot of the Downs,
all of which contain mollusca.

Beckett, in Spirit of the Downs, records in the drought of 1893
at Toy Farm, south of Firle, two or three hundred gallons of water
had to be carted to the farm pond every day for the use of the stock
during a period of seven weeks. From the map the nearest water
appears to be the Ouse marshes. Toy Farm is only a little over
4 miles from these Downs, where no doubt the same shortage
would be experienced.

The shepherd on Beachy Head, when asked how the farms
managed in the past for water during droughts, replied : ‘‘ They had
to fetch water up; stock cannot do without it.” The task is not
so great as it may appear at first sight, as each farm would deal with
Its own supply according to the stock it had on the Downs. Formerly
when sheep-grazing was more flourishing water was probably
taken up at several points round the Downs, and may have assisted
in making the distribution of mollusca general.

It may be asked, if the mollusca have been introduced into these
ponds by the use of marsh-water, why are only two species found
in them now? At least a dozen species are equally common in
such water. It is probably a case of survival. These ponds are now

310 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

concrete or cement. Usually there is little or no weed; food is
limited in quantity and variety. It appears to be largely in the nature
of alge, and S. lacustre finds something when mud is present.
In dry summers the water gets low. JL. peregra survives under
these conditions up to a point. The question of food probably
eliminates other common species. There are still two puddled
ponds on these Downs. They contain six and four species
respectively. ,

It is reasonable to believe that human agency, in the ways
mentioned, rather than ducks, has stocked these ponds with
mollusca. If ducks had frequented these ponds it is likely there
would have been no snails, for with hard sides and bottom and
only a comparatively small deposit in the middle of the ponds,
snails could not have survived.

311

PROCEEDINGS OF THE
CONCHOLOGICAL SOCIETY OF GREAT BRITAIN & IRELAND

636th Meeting (the Sixtieth Annual Meeting) held in the Rooms of the
Royal Society, roth October, 1936.

The President (Lieut.-Col. A. J. Peile) in the chair.

Present: Drs. A. E. Boycott, H. E. Quick, Stanley erased and J. W.
Jackson, Messrs. J. G. Dalgliesh, R. A. R. Priske, A. E. Salisbury, E. D.
Bostock, H. E. J. Biggs, G. Shrubsole, A. P. Gardiner, A. Blok, J. R. le B.
Tomlin, D. C. Thomas, G. C. Spence, J. D. Dean, R. Winckworth, J. E.
Cooper, C. Oldham, A. E. Ellis, C. Diver, J. E. Forrest, A. Wrigley, H. W.
Worsfold, Mrs. Peile, Mrs. Morehouse, Mrs. Bowell, Miss Nora Fisher,
Miss J. D. Robertson, Miss K. M. White, Mr. and Mrs. R. H. Moses, Mr.
and Mrs. H. C. Fulton, Mr. and Mrs. A. S. Kennard, Mr. and Mrs. W. J.
Davey, Mr. and Mrs. G. L. Wilkins, and the Rev. H. Purefoy Fitzgerald.

Of those present, two, the Rev. H. Purefoy Fitzgerald and Mr. E. D.
Bostock, had been members since 1884, and one, Mr. J. R. le B. Tomlin,
since 1886.

Alteration in the Rules.

Immediately prior to the General. Meeting a Special Meeting was held,
and, on behalf of the Council, the Hon. Secretary moved that Rule 8 be
altered to read: ‘‘ The Presidency shall not be tenable for more than two
years in succession, and the President is expected to give, at least, one
address.”” ‘The remainder of the rule remains in force.

The motion was carried unanimously.

Appointment of Scrutineers.
Messrs. A. E. Salisbury and R. A. R. Priske were elected Scrutineers.

Appointment of Auditors.
Messrs. C. H. Moore and A. K. Lawson were re-elected Auditors.

Candidate Proposed for Membership.

Stanley Colyer, M.D., Westhill, Mayfield, Sussex (introduced byt, BR,
le B. Tomlin and J. W. Jacks on).

Members Deceased.
Dr. L. Faustino, James A. Grieg, H. Sowden, and R. J. Welch.

Papers Read in Title.

“Apparent Disappearance of Lymnza peregra from Friston Pond,
Eastbourne Downs,” by G. Shrubsole.

“Occurrence of Hydrobiq jenkinst Smith on Beachy Head,” by
G. Shrubsole.

“Infant Mortality of Mollusca,” by L. E. Adams.

Annual Reports.

The Annual Report of the Council ; the Reports of the London, Leeds,
and North Staffs. Branches ; the Reports of the Curator, and of the Recorders
for Marine and Non- Marine Mollusca, were presented and adopted.

312 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

Election of Officers and Council for 1936-7.

The Scrutineers reported that the Officers and Council for the year
1936-7, as nominated by the Council, had been unanimously elected.
(See p. 289.)

President’s Address.

Lieut. -Col. A. J. Peile gave his Presidential Address on ‘‘ Some Radula
Problems ”’.

On the motion of Dr. A. E. Boycott, seconded by Mr. A. E. Salisbury,
a cordial vote of thanks was passed to Lieut.-Col. Peile for his address.

A vote of thanks was also passed to the authorities of the Royal Society
and the Manchester Museum for the use of rooms for the meetings of the
Society.

The members and their friends were then entertained to tea by the
President and Mrs. Peile.

Exhibits.

By Mr. A. E. Salisbury: Cyprza hiraset Roberts, from Kii, Japan ;
marine shells recently collected in Guernsey, including a series of Trivia
monachus da Costa to show growth of shell; Nassarius incrassatus Strém,
up to 18 X 10 mm. in dimensions ; Philbertia purpurea Mont., a specimen
19 mm. in length ; Patelloida virginea Miller, a large form, one measuring
16 X 13°5 mm.

By Mr. G. L. Wilkins: Series of Oliva, showing variations especially in
Oliva irisans Lam. and O. oliva L.; Nucella lapillus L., from Jersey; a
model of Ficus taken from the figure in the Voyage of the Samarang.

By Mr. J. Digby Firth: Helicella obvia Htm., A. arbustorum L., and
Clausilia biplicata Mont., from Innsbruck ; Arion ater var. oculata from
Cookridge, Leeds.

By Mr. H. J. Armstrong: A brown example of Arion ater from
Cookridge, Leeds.

By Dr. W. F. Buckle: Fry of Crepidula fornicata L., on a shell of
Neptunea antiqua L. from Walton-on-Naze.

By Mr. J. G. Dalgliesh: Japanese mollusca; specimens showing
adaptations of marine forms to fresh water.

By Mr. J. E. Cooper: Series of Pleurodonte, including seven species of
the section [someria and twelve of Labyrinthus.

By Colonel H. C. Winckworth: Photos and shells (1) Tvidacna
ground—live and dead coral ; (2) Tridacna crocea Lam. in burrows ; (3)
T. squamosa Lam. in situ ; all taken in South Andaman in March, 1936.

By Mrs. Morehouse: Marine shells from Jersey.

By Mr. J. R. le B. Tomlin : ‘Two examples of Cyprea fultoni Sow.., faa
deep water off the Natal coast ; a number of species of Ancilla ; scalariform
H. nemoralis from Bundoran ; reversed and other monstrosities of Hi.
aspersa ; two Eremina zittel Boettger from Bir Kanyas in North Africa.

By the President: Three new species of land shells from Mauritius ;
radule of the following: Natalina caffra Fér., Crepidula fornicata L..,
Macrochlamys glauca Pfr., Peristernia leucothea Melvill, Octopus vulgaris
Lam., Spirotropis carinata Ph., Conus dictator Melvill, Conus betulinus L., C.
striatus L., and the following Mitride : M. fusca Sow., Imbricaria acuta
Sow., Chrysame mariz A. Adams, Scabricula circula Kiener, and Vexillum
exasperatum Gmelin.

By Mr. A. S. Kennard: Very large D pesseneees anatina from Stackpole
Ponds, Pembrokeshire ; Retinella petronella Ch., from Holocene at Calf
Close, Brickhills Farm, Broughton, Brigg (first English record); Unio
auricularius, specimen dredged in River Thames at Barn Elms (extinct in
England); dredged in River Oise at L’Isle Adam, Seine-et-Oise (locally
extinct), from coll. Abbé Breuil ; U. lttoralis Cuv., from some locality and
collection, showing differences between recent and fossil shells.

PROCEEDINGS. 313

ANNUAL REPORT, 1935-6.

Tuis is the Sixtieth Annual Report of the Society, which was founded on
12th October, 1876. Therefore, this year we celebrate our sixtieth
anniversary almost to the very day. A short history of the Society by the
Hon. Secretary is printed in Volume 18, January, 1927, p. 65. This was read
at the Jubilee Meeting on 16th October, 1926. Since that meeting there have
been many changes. John W. Taylor, one of the two remaining founders,
has passed away, and other prominent members have died.

Since our last Annual Meeting eight members have died, one has resigned,
and two have been struck off the list. Eight new members have been elected.
The membership now stands at 210, including three Honorary Members.

The deceased members are C. H. Schill, H. Coates, Rev. R. W. Nevill,
G. H. Weaver, Dr. Leopoldo Faustino, James A. Grieg, H. Sowden, and
R. J. Welch.

Among the recipients of H.M. the King’s Birthday Honours is one of
our members, and a past President, viz. E. W. Swanton, who is now M.B.E.
(Civil Division).

Five ordinary meetings have been held at the Manchester Museum by the
continued permission of the authorities. In addition, on 2nd November, a
joint meeting with the Yorkshire Conchological Society was held at Leeds.
There was a good attendance, and Mr. H. J. Armstrong gave an interesting
talk on *‘ Shell Money ”. Many specimens were shown by the lecturer and
others. On 4th April a similar joint meeting took place at the Manchester
Museum, and again there was a good attendance and an excellent display
of specimens. ‘The President, Lieut.-Col. A. J. Peile, who was in the chair,
exhibited a series of land shells found in Bermuda, but of exotic origin, and
gave a short account of the conditions affecting their introduction. He also
read a short note on “‘ Some Tristram Types ”’ (see p. 254).

Two Special Exhibits were held during the year, these being ‘“‘ Lancashire
and Cheshire Marine Mollusca’? and “‘ British Non-Marine Mollusca
illustrating attacks by various enemies ”’.

Twelve notes and papers were read during the year. ‘Three numbers of
the Fournal have been issued to members since the last Annual Meeting,
viz. Vol. 20, no. 6, 4th December, 1935, with 32 pages of text and two
text-figures ; Vol. 20, no. 7, 24th March, 1936, with 32 pages of text,
2 plates, and 5 text-figures ; and Vol. 20, no. 8, rst July, 1936, with 32 pages
of text and 1 text-figure.

Additions to the Library have been received from Dr. A. Mozley,
Miss Nora Fisher, Mr. G. C. Spence, Miss 'T. van B. Jutting, Messrs. R. J.
Weick, iene, 37.) Weelackson, C... Oldhans, OQ: Fridthiot,” and
H. Schlesch.

Additions to the Cabinet have been received from Dr. A. E. Boycott.
(voucher specimens from Raasay taken by G. H. Harrison) ; Chas. Oldham
us specimens’ from Salop, Cheshire, and other places); and Hans

chlesch.

RECORDER’S REPORT (Non-Marine Mollusca).

SINCE the last report (Vol. 20, p. 187) sixty new records have been
authenticated for the census. ‘The most important is the discovery by G. H.
Harrison of Planorbis dilatatus in Loch a Mhuilinn in the Isle of Raasay,
near Skye (v.c. 104), where it has every appearance of being a native (Scot.
Nat., 1936, p. 82) ; this American species has hitherto been known in Britain
only as an introduction to the Lancashire canals, where it was first found by
T. Rogers in 1869. Helix hispida was also found in a wild part of the same
island, which makes it more likely that the dead shells of uncertain age
found near buildings in N. Uist (v.c. 110) by A. R. Waterston in 1933,
and then taken by A. W. Stelfox at Stromness in Orkney (Vol. 15, p. 224),
were something more than casual introductions.

314 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

Cornwall, W. (1). Vertigo edentula (P. B. Mason).

Devon, S. (3). Acme lineata (R. Sheppard coll.).

Wilts, N. (7). Milax gracilis (A. E. Boycott), Paludestrina jenkinst,
Pisidium personatum (C. Oldham).

Dorset, (9). Planorbis glaber (J. J. Lavis).

Essex, S. (18). Segmentina nitida (J. Pickering).

Gloucester, E. (33). Agriolimax laevis (A. E. B.).

Gloucester, W. (34). Agriolimax laevis (A. E. B.).

Monmouth (35). Limax cinereoniger, L. tenellus, Zonttoides excavatus,
Vitrina major, Helix caperata caperata, Vallonia excentrica, Valvata
cristata (C. O. and A. E. B.).

Shropshire (40). Planorbis corneus, Physa heterostropha(C.O.and A.E.B.).

Radnor (43). Planorbis glaber, Pisidium hibernicum (C: O. and A. E. B.).

Carmarthen (44). Agriolimax laevis, Zonitoides mtidus, Z. excavatus, Phytia
myosotis, Planorbis complanatus (H. E. Quick).

Montgomery 47). Muilax sowerbu, Zonitoides ntidus, Bithinia leachi (C. O.
and A, Bb. 1.),

Denbigh (50). Paludina vivipara, Unio tumidus (C. O. and A. E. B.).

Cheshire (58). Pseudanodonta (C. O. and A. E. B.).

Durham (66). Testacella haliotidea (B. R. Lucas: the record entered in the

: wee is of ‘‘ JT. haliotidea var. scutulum’”’ in 1884; see this Fournal,
Vol. 345).

Kirkcudbright (73). Phytia myosotis, Planorbis fontanus (D. K. Kevan).

Berwick (81). Vallonia pulchella (A. R. Waterston).

Edinburgh (83). Planorbis fontanus (D. K. K.).

Linlithgow (84). Anodonta anatina (D. K. K.).

Fife and Kinross (85). Pistdium henslowanum (D. K. K.).

Perth, W. (87). Limnza glabra (A. R. W. and D. K. K.).

Ebudes, Mid. (103). Vertigo edentula, Planorbis vortex, Pl. nautileus, Pisidium
cinereum, P. obtusale (G. H. Harrison).

Ebudes, N. (104). Milax gagates, Zonitoides excavatus, Helix virgata, H.
caperata caperata, H. hispida, Succinea pfetfferi, Planorbis albus, Pl.
dilatatus (G. H. H.).

Ross, E. (106). Pisidium personatum (D. K. K.).

Mayo, E. (137). Arion subfuscus, A. circumscriptus (D. Oldham), Hyalinia
radiatula, Ancylus fluviatilis, Physa fontinalis, Neritina fluviatilis,
Pisidium pulchellum (C. O.). !

MARINE RECORDER’S REPORT.

DuRING the past year copies of Winckworth’s map of the British area have
been printed. ‘This map may be seen in a past number of the Journal of
Conchology. A map has been devoted to each species, except in the cases of.
a very few nearly related forms.

The areas in which an animal occurs have been marked in red, while
in the margins, made wide for the purpose, the observer’s name, and where
possible the exact situation and other points of interest, have been inserted.

On behalf of the Society and students in general of the mollusca the
recorder thanks the following for great assistance since the last general
meeting.

JF. E. Cooper.—Lists for the East of England and for many other places.

Dr. N. B. Eales and Miss K. White —Bangor.

Miss Nora Fisher —A very full list of records for nudibranchs, including
not only her own, but those from a large number of sources. Her paper,
“'The Marine Mollusca of Magilligan, Co. Derry,’ has been of great use,
especially as information from Ireland has been scanty.

W. Fowler —Much valuable information of an cecological nature as well
as lists for Oban, Scilly Islands, Salcombe, Penzance, and Anglesea.

Mrs. E. Morehouse.—Lists for Tenby district, Robin Hood’s Bay, and
Jersey.

PROCEEDINGS. 315

Dr. H. E. Quick —South coast of Wales.

Robert Rendall——A few records for Orkney.

F. Simpson ——Marine Conchology of Dee and other lists for East Scotland.
Rare mollusca of the North Sea and Faroe Channel.

G. C. Spence-—North Wales and Anglesea.

R. Winckworth——Full information of British Loricata and several other
groups. His paper on the marine mollusca of Sussex made it possible to
treat that part of the coast in a very satisfactory manner.

Miss K. White—A very full list and many interesting facts for the Isle
of Man.

The “‘ Plymouth Marine Fauna ”’ has helped to make the lists for Devon
and Cornwall far fuller than those of most other areas.

It. is hoped that conchologists will remember that records in Jeffreys,
Forbes, and.Hanley, and other old works, although of much interest, cannot
take the place of the results of present-day observers. Even Patella vulgata
cannot be marked for a particular area without recent evidence. It is
necessary to know where the animals are, not where they were ; for example
has anyone found Caecum imperforatum or glabrum alive during the past
twenty years ?

Instances are numerous of the disappearance of many species from several
places, Cantharidus exasperatus used to be thrown up in hundreds at
Porthcurnow Cove, but I have failed to find one in my last dozen visits.

It has been found impossible to pronounce records to be new in the
majority of cases; one of the very few is that of Facelina elegans for
Co. Antrim by Miss Fisher. The finding of species new to a place is of
frequent occurrence, but not for an area.

Ireland and the East Coast of England are the places about which
information, of even the common species, is most needed.

Spirit specimens, or better still, animals alive in damp weed, of Berthella
plumula (Montagu), from which the new Berthellina engeli has been
separated, are urgently needed. W. Fowler has sent a large number of
specimens from Scilly, but otherwise the appeal for these has met with
little response.

CURATOR’S REPORT.

J. W. Taytor collection : During the past twelve months the work on the
above has been continued. ‘The freshwater specimens in the right-hand
tier of the smaller cabinet are now arranged and listed and also the slugs
and fossils. "The carded land shells in the left-hand tier of the larger cabinet
have been arranged and listed.

Some valuable specimens of Cochlostyla, etc., in the Musham collection
having been found to be attacked by fungus, all these shells have been
individually washed with benzine and are now in a much brighter and cleaner
condition. ‘The same treatment has been adopted with the whole of the
carded land shells of the J. W. Taylor collection.

- Several donations to the Library and Voucher Collections have been made
during the past twelve months, as per the Hon. Secretary’s report.

ANNUAL REPORT OF THE YORKSHIRE CONCHOLOGICAL SOCIETY.

At the last Annual Meeting held in Leeds on 12th October, 1935, the
following officers were elected: President: J. D. Firth ; Vice-Presidents :
Miss K. Morehouse and A. Smith ; Hon. Treasurer, J. R. Dibb ; Council :
As before ; Hon. Secretary: E. Dearing ; Recorder: H. J. Armstrong.

The first meeting of the new session was devoted to short papers and
exhibits. The February meeting being cancelled, the March one was
allotted to the President’s remarks and general exhibits ; seven members
attended.

316 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

Only three of our members attended the joint meeting at Manchester
Museum in April. ‘This was well attended by members of the parent
society, and was presided over by Lieut.-Col. Peile.

An excursion to Halifax to investigate the local museums proved
successful, although only five members attended.

The June meeting was at York for Askham Bogs, being a joint meeting
with York Field Naturalists’ Club and Y.N.U. Conchological Section.

Three members attended an excursion to Cridling, Staffs. There were no
new records. This was a joint meeting with Doncaster Scientific Society
and Y.N.U. Conchological Section.

In September four members attended a ramble to Adel Moor, Leeds.

There are three more meetings to be held to complete the syllabus :
The annual meeting in October; a joint meeting with the parent Society
in Leeds in November ; and a final general exhibits meeting in December.
Membership is now 23.

E. Dearinc, Hon. Secretary.

ANNUAL REPORT OF THE LONDON BRANCH.

NINE meetings have been held with a good average attendance, Mr. A. 5S.
Kennard again occupying the chair. An extremely varied programme has
been worked through with every success. Such items as “‘ Mollusca of
Isolated Ponds’’, ‘‘ Sale Catalogues,’’ ‘‘ Reversed Shells,’ ‘‘ Opercula,”’
and “‘ Sight, Smell, and Hearing of the Mollusca ”’ have helped to make the
meetings of interest to all members, irrespective of those items dealing with
particular genera and species, of which there were several on the syllabus.
These included land shells of Lord Howe Island, Cantharidus and Bankivia,
Stomatella and Gena, and Clavagella.

Some of the subjects were dealt with in a general way, and others by
individual members ; thus at the November meeting Mr. R. Winckworth
gave notes upon Nudibranchs, and again in January on “ Larval Forms of
Marine Gastropods ”’. In March Lieut.-Col. Peile described the Annulariide
of Jamaica, and in February the President and Mr. Blok dealt in a similar
manner with the land shells of Norfolk Island.

Altogether I may safely say a good year, although the membership still
remains disconcertingly low. ,
Guy L. WILKINS, Hon. Secretary.

ANNUAL REPORT OF THE NORTH STAFFORDSHIRE BRANCH.

Ir gives me much pleasure to report that W. E. Alkins, D.Sc., has been
unanimously elected President of this branch. Dr. Alkins is well known in
conchological circles, and we feel sure that during his period of office he
will prove a stimulus to our activities. Many rambles in search of mollusca
have been made by members during the year. Messrs. J. and W. Hill report
a thriving colony of H. striolata at Leek Canal Wharf, where the var. alba
has been quite common. On a hedge bank at Basford, near Leek, three
examples of the rare var. fascialba of H. nemoralis were taken. "The shells
have a broad white calcified band round the body whorl, except near the lip,
where the normal black band is strongly developed ; it is a very striking
variety.

On 1oth September between Cheddleton and Wall Grange an unusual
var. of H. nemoralis, var. sexfasciata was taken, having six bands ; formula
according to Taylor’s monograph is 123 X45, the extra band round the
body whorl is very fine.

In the same locality two H. nemoralis var. castanea were obtained. They
are beautiful shells, the colour of horse-chestnut. This is the first time we
have taken this var., except on the limestone, where, of course, it is common,
but the two shells mentioned are much richer in colour. Along this length of

PROCEEDINGS. o17

the canal bank at Cheddleton the normal five-banded shell is not at all
common, most of the shells being 00300 or o0000.

From Messrs. H. Emmett and J. H. Goodson, I have the following notes :
fH. nemoralis var. undulata, very common in Ricklow Dale, so plentiful, in
fact, that this variety appeared to be the prevailing type there. Both H.
lapicida and H. itala were much in evidence and very active at 4 a.m. on
one visit to Ricklow Dale, 21st June. At Lathkill Dale, near Bakewell, we
were interested to find A. fluviatilis approaching the very white var. alba
of Dovedale, but these Lathkill ones were a little greyer, more of an inter-
mediate between type and the Dovedale var. alba. 8B. tentaculata ;
exceptionally well developed specimens in plenty in canal basin at Stanley.

Some years ago I introduced a few specimens of MM. gagates in my garden
at Normacot. ‘They have multiplied exceedingly ; both the type and var.
plumbea are now common.

B. Bryan, Hon. Secretary.

637th Meeting (Joint Meeting with the Yorkshire Conchological Society)
held at Leeds, 14th November, 1936.

Mr. J. Digby Firth, F.L.S., F.R.E.S., President of the Yorkshire Society,
in the chair.

Members present: Messrs. J. W. Jackson, E. Dearing, G. F. Sheand,
A. K. Lawson, C. H. Moore, J. C. North, H. J. Armstrong, G. C. Spence,
Mrs. Morehouse, and Miss K. M. Morehouse.

Election of New Member.
Dr. Stanley Colyer.

Candidates Proposed for Membership.

George Ivor Crawford, M.A., 1 Dryburgh Road, Putney, London, S.W. 15
(introduced by Lieut.-Col. A. J. Peile and J. R. le B. Tomlin).

E. H. Madge, M.B., B.Sc. (Lond.), M.R.C.S. (Eng.), Victoria Hospital,
Quatre Bornes, Mauritius (introduced by Lieut.-Col. A. J. Peile and Dr. A.
Tindell Hopwood).

John Henry Goodson, 67 Eaton Street, Hanley, Stoke-on-Trent (intro-
duced by B. Bryan and J. Wilfrid Jackson).

Zodlogisch Museum (Professor Beaufort, Director), Plantage Middenlaan
53, Amsterdam C., Holland (introduced by J. R. le B. Tomlin and
Miss 'T. van Benthem Jutting).

Papers Read.

‘““ An Unusual Habitat of Helicella caperata,’’ by C. Oldham.

** Nucella lapillus at Knott End, Fleetwood,” by C. H. Moore.

‘““'The Nomenclature of the British Nudibranch Mollusca,” by Miss K.
White.

‘“* Mollusca destroyed by Frost,” by J. R. le B. Tomlin.

Exhibits.

By Mr. G.C. Spence: A large series of Achatina and Limicolaria. These
were fully described by Mr. Spence, who gave an interesting talk on their
systematic features and their general distribution.

By Mrs. Morehouse: Achatina fulica Fér. (rich in colour) from Calcutta
and the Federated Malay States ; also series of Clausilia.

By Mr. A. K. Lawson: Anodonta cygnea L. and Anodonta sp. from Lymm
Dam, Cheshire.

By Mr. C. H. Moore: Interesting specimens from the J. W. Taylor
collection, including Lymnza auricularia from Kircholm; sections of

318 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

Vivipara vivipara and contecta ; Lymnezxa pereger (sinistral form) from pond
near Leeds ; hybrid Lymnza stagnalis X auricularia. Also Nucella lapillus
from Knott End to illustrate his note; MHelicella caperata and distorted
form, Vitrea lucida and Vertigo pusilla from Grange-over-Sands ; Clausilia
bidentata, slender form, from Lakeside Road, Windermere; Lymnza
pereger with reflexed lip from Dewsbury, also photographs of the same ;
Bulinus braztert (the host of the liver fluke) from New South Wales.

By Mr. H. J. Armstrong: North American shell-money from an old
Indian grave, Connecticut ; shell-money discs from ancient China (140-
86 B.c.); also African and other shells.

By Dr. J. W. Jackson: Neptunea despecta (L.) var. subantiqua M. & R.,
one specimen, dredged Tromso, 30-50 fms. (Stirrup coll. ex Karl
Pettersen) ; one specimen, Gioesvoer, Nord Cap (Stirrup coll.) ; four
specimens, Porsanger Fjord, Nord Cap (Darbishire coll.). Neptunea
sintstrorsa (Desh.), two specimens, Vigo Bay, Spain (Darbishire coll. ex |
McAndrew) ; one specimen, Malta (Darbishire coll.). Neptunea contraria
(L.), many specimens, including giant gerontic examples, from Red Crag
localities in East Anglia, for comparison with the last (Darbishire coll.).
Neptunea antiqua (1..), sinistral specimens from the mouth of the Thames
(Darbishire coll.). All the above from the Manchester Museum collections.
Also Scutus anatinus (Donovan) (= Parmophorus australis Lam.) from
_ §.E. Australia. It was pointed out that a smaller form of this Patella-like
shell, figured by Rumphius in 1741 from Amboyna, was named Patella
unguis by Linne in 1758. ‘This was later erroneously referred to the
Brachiopod genus Lingula by several authors and has led to much confusion.

638th Meeting, held at the Manchester Museum, 12th December, 1936.
Mr. G. C. Spence in the chair.
The Librarian reported a number of additions to the Library.

Election of New Members.

G.I. Crawford, Dr. E. H. Madge, J. H. Goodson, Zodlogisch Museum of
Amsterdam.

Member Resigned.
John R. Dibb.
Papers Read.

‘* Mollusca dredged at Onich on Loch Linnhe,”’ by W. Fowler.
“Obituary of Harry Sowden,” by Dr. J. S. Gayner.
‘“ Mysticoncha, a new generic name for Caledoniella,” by J. D. Dean.

‘““ Note on a letter from George Humphrey to W. Swainson, 1815,” by
Dr. J. W. Jackson.

Exhibits.

By Mr. F. Taylor: Shells from Jamaica collected by Mr. and Mrs. John
Armitage ; two specimens of Thelidomus aspera (Fér.) taken alive on bananas
at Oldham; a number of interesting shells from Droylsden district,
Lancashire, including many specimens of Ammnicola taylorit (Smith) ;
Trochoidea elegans (Gmel.), from Chaldon, Surrey ; Vallonia costata (Mill.)
and Vallonia sp. from South Coulsdon, Surrey ; large examples of Helicella
virgata (da C.) from Norbreck, near Blackpool, Lancashire ; Paludestrina
jenkinst (Smith) and var. carinata from the Boating Lake, Alexandra Park,
Oldham, and Clausilia biplicata (Mont.) from Purfleet, Essex.

By Mr. G. C. Spence: Nucella lapillus (L.) from many localities.

By Dr. J. W. Jackson : Giant specimen of Neptunea antiqua (L.) from off
Aberdeen (Darbishire coll.) : Neptunea antiqua (L.) var. striata Jeff., from
the Smalls, Pembrokeshire, and from off the S.W. of Ireland (= N.

PROCEEDINGS. 319

despecta of some lists) (both J. Kidson Taylor coll.). The above are in the
Manchester Museum ;

By Miss Fisher (on behalf of Liverpool Museum) Nucella lapillus (L.)
from many localities, including a very large specimen from Rush, Co.
Dublin (coll. A. W. Stelfox, May, 1936); Rhoscollyn Bay, Anglesey (var.
imbricata, ex coll. Eyton); White Bay, N. of Moville, Co. Donegal
(coll. R. MacDonald). Monodonta lineata (da C.) from Killowen, Co. Down
(coll. Fisher) ; Balbriggan, Co. Dublin (coll. Stelfox and Fisher) ; Holyhead
(Stelfox). Large series of Littorina saxatilis (Oliv.) from many localities
(mainly coll. Fisher).

There was a special exhibit of ‘‘ Favourite Species ’’ and many interesting
examples were shown.

639th Meeting, held at the Manchester Museum, oth January, 1937.
Mr. G. C. Spence in the chair.

Candidate Proposed for Membership.

Robert B. Janson, F.R.E.S., 44 Great Russell Street, London, W.C.1
(introduced by J. W. Jackson and G. C. Spence).

Member Resigned.
1... Hann.

Papers Read.

“On Distinguishing the Shell of Anodonta cygnea from that of A.
anatina,’’ by H. H. Bloomer, F.L.S.

‘* Some New Australian Thersites,’? by W. J. Clench and A. F. Archer.

‘“ Notes on Potadoma graptaconus Pils. and Beq.,” by G. C. Spence.

Exhibits.

By Mr. G. C. Spence: Specimens to illustrate his paper.

By Mr. C.H. Moore: Series of Clausilia.

By Miss Nora Fisher : A large form of Nucella lapillus (1..) from Penarth,
Glamorgan (coll. W. R. Ll. James).

By Mr. J. Davy Dean: Series of shells of Cyprxa, Trivia, Conus, Oliva,
Olivella, Nerita, and Ellobium, sectioned to show the internal structure, and,
in some cases, the partial or complete absorption of the internal coils.

By Dr. J. W. Jackson (on behalf of the Manchester Museum): Shell-
sections of similar groups, prepared by the late Robert Standen. ‘These
shells had been rubbed down more completely than those of Mr. Dean,
and the whole internal structure was exposed right back to the initial whorl
in cases where absorption had not taken place.

The special exhibit was West Indian Non-Marine Shells.

na nn ee,

EDITORIAL NOTES.

IT is with the greatest regret that we record the death of J. Davy Dean, a
recent President of our Society and for years a regular and enthusiastic
contributor to the Journal.

Dean’s Presidential Address on ‘‘ Conchological Cabinets of the Last
Century ”’ was only published last July (supra, p. 225), and I might here
print an additional note which he sent me subsequently :—

PHILPOTT AND GORE COLLECTIONS. SWINDON.

Miss A.S. Philpott, of Clapton, London, N.E., bequeathed to the Swindon
Museum a collection of British and exotic shells contained in five cabinets.
She was interested in this Museum and in the work done on the British

320 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 10, MARCH, 1937.

Mollusca by Mr. Charles Herbert Gore, Hon. Curator. The Gore
Collection, commenced over 50 years ago, is exhibited in two large table-
cases, the Nudibranchs being represented by a carefully executed series of
coloured drawings.

Miss van Benthem Jutting writes to point out that in a note on p. 286 we
misinterpreted the notation on the cover of Fauna van Nederland.

The part referred to is the second dealing with Mollusca; the first part,
containing Gastropods, Prosobranchs, and Pulmonates, appeared in 1933.
It is an equally admirable handbook of 387 pages, by Miss van Benthem
Jutting, with 300 text-figures, and the nomenclature is completely up to
date.

We can only repeat what we said on p. 286 that such handbooks are much
to be desired on our own marine shells. One can only regret one’s inability
to make adequate use of this series, owing to ignorance of the language in
which it is written !

Mr. W. Fowler in litt. mentions the occurrence of Odost. eulimoides
Hanley living on ears of Chlamys striata Miller, in about 30 f. in Kerrera
Sound, and of a dead Myrtea spinifera Mont. measuring 13%; in. X Ig in.
These dimensions exceed those given by Jeffreys. Marshall says that the
latter’s are too large.

Dr. Quick, in the Proc. Swansea Sci. and F. Nat. Soc., vol.i, pt. 9, records
the wide and frequent occurrence of Cecilioides in Gower, in various sub-
terranean situations. The paper is accompanied by several figures and gives
exact details of habitat, food, and life-history. We are able by personal
experience to confirm his details of the Llanmadoc colony, which we found
quite easily from Dr. Quick’s directions.

A paper of great interest to us appeared in vol. i, no. 4, pp. 64-74, of the
new Dutch malacological periodical, Basteria, last year, written by C. O.
van Regteren Altena, of the Amsterdam Zool. Laboratory.

It is written in English and is a most exhaustive account of the continental
Hydrobia steintti Mts. as compared with H. taylort Smith. As long ago as
1904 Messrs. Jackson and F. Taylor pointed out the close resemblance
between taylori and steinii (this Journal, Vol. XI, pp. 9-10, where it is spelt
steent), but considered that differences existed sufficient to warrant specific
segregation. Altena says that he is unable to find shell differences or “‘ any
difference in any organ’’, and that the two species are absolutely
synonymous : the living steinii are said to tally in every detail with Smith’s
original account of taylori, even to the sulphur spot above each eye to which
Smith draws special attention.

Both steinit and taylori are oviparous. Reasons are given against their
assignment to either Hydrobia or Bythinella, and a new genus Marstontopsis
is founded with H. steinizt Mts. as genotype.

As an instance of the richness of the marine fauna of Hawaii one may cite
a paper on the Cyprezide in the current number of the Nautilus by
W. M. Ingram.

After eliminating the species which have been falsely assigned to these
islands he enumerates twenty-nine which are truly indigenous. The only
cormmon one is caput-serpentis L., while tigris L. is probably the rarest.
Five are endemic, viz. sulcidentata Gray, semiplota Mighels, tessellata Sw.,
ostergaardi Dall, and madagascariensis Gmelin. He points out that Roberts’s
remark, in the monograph of Cyprea, Man. Conch., vol. vii, p. 194, that
helvola from the Sandwich Is., “‘ are often pale yellow, faintly spotted, with
a whitish base and extremities,’’ only applies to the faded dead shells which
were dredged in vast quantities from Honolulu harbour at various times.
In Hawaii the species is rarely taken alive.

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Vor. 20] 27TH MAY, 1937. __ [No. 11

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| CONCHOLOGY

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CONTENTS. Le uke
On distinguishing the Shell of Anodonta cygnea from
that. of 4. anatina.—H. H. Bioomer, F.L.S. . Ber

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JOURNAL OF CONCHOLOGY,

Vie 2. 27th MAY, 1937. No. 11

ON DISTINGUISHING THE SHELL OF ANODONTA CYGNEA
FROM THAT OF A. ANATINA.

By H. H. Bioomer, F.L.S.

(Read before the Society, 9th January, 1937.)

WHILST engaged upon the study of the Anodontas many specimens
have passed through my hands, and knowing the difficulty sometimes
experienced in distinguishing the shell of A. cygnea from that of
A. anatina | am venturing upon an attempt to describe, from my
point of view, how they can be identified, and in doing so shall
treat each species in the widest sense without regard to varieties
or forms ; moreover, by adopting the somewhat infrequent method

Toweecvened. ~ K-54,

2. anating. =X *75.

of describing and comparing under common headings the characters
of both species, together with the aid of illustrations, I hope my
object will be achieved.

21

a22 JOURNAL OF CONCHOLOGY, VOL. 20, NO. II, MAY, 1937.

(1) Shape of the shell.

(a) The dorsal border of cygnea is either straight even when
ascending ! posteriorly, or anteriorly to the apex of the shell it may
curve a little downwards instead of continuing in a straight direction ;
in some shells it may be curved in the posterior part as well, also
be a little irregular. In anatina the dorsal edge is more or less
ascending in passing from the anterior to the posterior end, some-
times in a straight line, but frequently more or less curved, especially
in the posterior part of it, where it may be irregular too as in cygnea.

(b) The anterior margin of cygnea usually has a broad curve,
whilst in anatina it is generally comparatively narrow and slopes
a little abruptly ventrally, when anatina would appear to have
relatively a greater width (dorso-ventral measurement) a little
posteriorly to the middle of the shell than is usually observed in
cygnea. In both species the outline of the shell is very variable.

(2) Ligament.—In cygnea the ligament is long and moderately
large, and more or less exposed to view. In anatina, though perhaps
not so long as in cygnea, it is comparatively broader and may be
more exposed.

Usually in both species the shell would cover the greater part of
the sides of the ligament if in this region the shell were not broken
or worn away, and the extent of exposure in a large measure depends
upon environment and the age of the animal, hence the older the
animal the greater may be the exposure.

BuO EUCAs X12: Ao ANGUNG <2:

(8) Umbonal rugee.—These are elevations of the shell or ridges
near its apical part, but distinct from the concentric lines of growth
of the shell. In cygnea they follow the concentric lines of growth,

1 'The word “‘ ascending ”’ is used in the sense of diverging from the long
axis of the animal, the latter being considered approximately in the same
plane as a line passing from the centre of the anterior adductor to the centre
of the posterior adductor muscle.

BLOOMER : DISTINGUISHING ANODONTA CYGNEA FROM A. ANATINA. 323

whilst in anatina they run more or less in a wavy and discontinuous
course and only partly in the trend of their general direction do they
seem to approximate to the concentric lines of growth. In some
specimens of both species they may vary ; also they may bifurcate.
The umbonal ruge are usually plainly seen in smaller shells, but
unfortunately in large ones this portion of the shell is very often
more or less eroded and the ruge are only partly discernible or may
be obliterated altogether.

(4) Outer surface of the shell.—The shell of cygnea shows at
intervals a number of close concentric growth lines, more elevated
than the intervening growth lines, and these elevated growth lines
may be more intensely or differently coloured than the intervening
parts, thus forming raised concentric colour bands; whereas in
anatina, particularly in some forms, the interspersed series of
elevated lines of growth may not be so numerous and not so
prominent, although there may be a difference in colouring as in
cygnea; furthermore, the outer surface of the shell of anatina is
probably more frequently smoother, and may have a more polished
appearance : this condition applies particularly to the upper central
part, sometimes to the whole of the central portion, of the shell. In
addition anatina often has a tendency to be ventricose; cygnea
seldom so except in large shells: size for size anatina is usually
fuller in the upper middle part than cygnea.

(5) Colour of the shell.—Yellow or yellowish green is more
prevalent in cygnea and green or olive green, often of a dark shade,
especially in the posterior part, in anatina. In some waters cygnea
and anatina are similarly coloured. Coloration, however, would
appear to be a very variable factor and subject to environmental
influences.

(6) Thickness of the shell.—The shell of cygnea, which usually
is relatively thin, has generally an even thickness throughout, but
in anatina the shell is thicker in the anterior than in the posterior
part, and in the anterior portion, radiating from the umbonal region,
becomes increasingly thicker in passing ventrally towards the edge
of the shell, near to which it diminishes again : moreover, in some
instances, especially in older animals, there may be a still greater
thickness between the pallial muscular scar and the edge of the
shell. Occasionally the deepness of the pallial muscular scar causes
a diminution in thickness before being followed by increased
thickness. Sometimes in younger animals (about 2 inches long),
as well as in what appear to be normally thin-shelled anatina, the
increase in thickness, being only slight, is not readily ascertained by

324 JOURNAL OF CONCHOLOGY, VOL. 20, NO. II, MAY, 1937.

an external examination of the shell. The examination is facilitated,
in all cases for that matter, by cutting a section of a valve from the
dorsal edge through the umbonal portion to the ventral margin of
the shell.1 Then it will be observed in anatina that from below the
umbonal region until near the ventral edge of the shell there is a
eradual increase in thickness, though it may be only a little, whereas
cygnea, in a similar section, shows a uniform thickness all the way
down, except occasionally for a slight increase in those places where
occur the elevated growth lines and near the ventral edge where it
may thin off.?

The following series of sections will serve to illustrate the feature
of thickness.

(5) (6) (7) (8) (9) (10)

5. cygnea. Canal, Chichester (near var. zellensis) (11°5).2 X 1.
6. anatina. West Drayton Canal, moderately large shell (9-7). X 1.

7, cygnea. Pool near Holmwood Station, Surrey, a very large shell
(UG). X75:
8. anatina. Newdigate Park, Surrey, a large shell (12:0). X °+71.

9. cygnea. Beam Brook, Surrey, a thin shell (6:5). X 1°35.

10. anatina. Beam Brook, Surrey, a thin shell (6:5). X 1°35.

1 A section can easily be cut by using carefully a fine fret saw.

2 Pseudanodonta elongata and P.rothomagensis both have an even thickness
of shell similar to cygnea.

3 Antero-posterior measurement of shell in cm.

BLOOMER: DISTINGUISHING ANODONTA CYGNEA FROM A. ANATINA. 325

Te PCV Seas i,

12. a@natina. <1.

Figures 11 and 12 are examples of relatively young cygnea and
anatina from Beam Brook that are thin-shelled and in outward
appearance seem to be somewhat similar to each other, yet on
scrutiny reveal much of their respective specific characteristics.

(7) The inner surface of the shell.—'The concentric grooves found
on the inner surface of cygnea are to some extent complementary to
the series of concentric elevated growth lines seen on the outer
surface ; the muscular scars are more or less indistinct, whilst the
colour is generally a steely-blue to bluish-white ; in large shells it
may be quite white. In anatina the concentric grooves usually are
only faintly and partly shown, though a little more so in the posterior
and, ina lesser degree, the ventral parts, and the muscular scars are

326 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I1, MAY, 1937.

3. CVSnNEA. xX -* 53.

TA. QNGHNGA, —X< “53.

deeper and more clearly defined, especially in the anterior part :
the colour is generally a milky white, this also being more evident
in the anterior part ; even in thin-shelled anatina the milky white
appearance may be traced, although not nearly so distinctly.

Both cygnea and anatina are very variable shells, and an
examination of the shape and ligament may at times seem incon-
clusive in identifying the species; then there is the difficulty in
ascertaining the arrangement of the umbonal rugz consequent on the
erosion that the umbonal part of the shell is so frequently subject ;
furthermore there may be some hesitation in deciding from the
condition of the inner surface of the shell ; but whether or not these
characters either separately or collectively fail to convince as to the
specific rank of the mussel there is one test that the writer has found
to be consistently reliable and that is the one of thickness as shown
in cutting a section of one of the valves.

BLOOMER : DISTINGUISHING ANODONTA CYGNEA FROM A. ANATINA. 327

Notwithstanding what is above stated there are sometimes to be
met with shells that appear to be abnormal, and it should also be
remembered there is the possibility of hybridization having
occurred ; neither of these cases is considered here.

The reproduced photographs illustrating this paper are from shells
kindly sent to me at various times by P. Arnold, L. Haig, J. W.
Jackson, C. Oldham, and A. S. Kennard, whom I also wish to thank

for correspondence.

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JOURNAL

_— OF —

‘CONCHOLOGY

FOUN DED 1874.

BEING THE ORGAN OF THE ‘CONCHOLOGICAL
_ SOCIETY UF PREAY BRITAIN ANY IRELAND.

Hon. Editor : Hom Secretary: : po Theasuver’

J.R.leB. TOMLIN, M.A.,| J. W. JACKSON, D.Sc.. | C. OLDHAM, F.L.S.
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CONTENTS. © } sien

Ones Notice:- R. J. Welch—Dr. J. W. Taesciol , 329 |
A Letter from George Humphrey to William Swainson,

| 1815--Dr. J. W. JACKSON. wee gag
Obituary Notice: J. D. Dean—Co.in MatHEson | Chega
Clausilia dubia Drap——R.H. Moses. ago.
Notes on Potadoma graptoconus P. & B.—G. c. SPENCE . oe Tao
Orkney L. and F.\Wé Shells—J.R.LE B. Tomi. Ay Saga
Infant Mortality of Mollusca—L. E. ADAMs i) i ae

Mollusca of the Iranian Plateau—-H. E.J. Bigcs . 342.

Enemies of the L. and F.W. Moll. of the: British Tales

S.V. Witp and A..K. Lawson ©. pasa

Nucella lapillus VL. at Knott End near F leetwood—C. H. f
- Moore 361
Notes on British Opisthobrarichs, T: The Ecology. of Archidoris

‘ flammea (A. and H.)-—N. FisHer . : i 362 :

_ An Unusual Habitat of H. caperata—C, OLDHAM - . 369

The Genus Xymorus Gebler—H. A. REHDER 370. |
Proceedings: 13th Feb., 1 a March, 3rd ei 8th h May, 1037 379,

Index Ae aa : : 393

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THE

JOURNAL OF CONCHOLOGY.

VoL. 20. 23rd SEPTEMBER, 1937. No. 12

OBITUARY NOTICE :
ROBERT JOHN WELCH.
By J. Witrrip Jackson, D.Sc., F.G.S.
(Read before the Society, 3rd April, 1937.)
THE death of Robert John Welch on 28th September, 1936, removed

from our midst a charming personality and a man of many-sided
activities and interests. He was an indefatigable worker, a mine of
scientific knowledge, and a man who possessed the rare faculty
of creating enthusiasm in others. In addition to many other pursuits
he was a keen conchologist, specializing mainly in the land and
freshwater shells. This side of his life merits some reference in this
‘Fournal.

Welch was born at Strabane, Co. Tyrone, on 22nd July, 1859.
He was the second son of a family of eight. His father, David Welch,
hailed from Kincardineshire; his mother from Tyrone. David
Welch—the father—was a landscape photographer to the Lord-
Lieutenant of Ireland, the first Duke of Abercorn. He died in
1875 at Bangor, whither he had come from Carlow to add Northern
views to his already fine series of the scenery and antiquities of
Southern Ireland. The father’s talents and tastes for the study of
natural history and for photography were inherited by Robert.

When only eight years old Welch had his first lessons in geology
and marine zoology from his father among the fossiliferous shales
and the famous purple urchin rock-pools at Bundoran. Educated
first in private schools in Enniskillen and Newry, Welch later
attended the Model School, Newry, where he was taught as extras
various natural sciences, such as sound, light and heat, magnetism
and electricity, and physiology, by the headmaster, Mr. Watt. At
the same school he also had special lessons in water-colour painting
in a small class under a Cork artist named O’Brien.

Soon after coming to Belfast in 1875 Welch joined the science
classes taught by Robert Barklie, and obtained a number of Queen’s
prizes in such subjects as chemistry, magnetism and electricity, and

22

330 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

geology. He had thus every training for his life work. Before com-
mencing a business of his own, in 1883, he worked as technical
photographic assistant to E. T. Church of Donegal Place, Belfast.
During his life he had: many large industrial orders, and for many
years was photographer to Harland and Wolff, Ltd., Shipbuilders,
of Belfast, to the Board of Public Works, and to the Northern Irish
Railways.

Welch joined the Belfast Naturalists’ Field Club in 1880, oe was
an active member of the committee for some forty years. He was
Honorary Secretary in 1908-1909, President in 1909-1910, and
was elected an honorary member in 1922.

About 1893 Welch was asked by the then Keeper of the Dublin
Museum, Dr. R. F. Scharff, to collect, where possible, non-marine
mollusca and, later, isopods and leeches. It was this collecting that
led to his specializing in the land and freshwater shells. At this early
date he was brought into close contact with several English con-
chologists, and we find Robert Standen reporting in the Irish
Naturalist, vol. iii, 1894 (p. 261) upon shells collected by Welch
in Co. Donegal. Later, in July, 1895, during the joint excursion of
the Irish Field Clubs to Galway, Welch greatly assisted R. Standen
and E. Collier in the study of the mollusca of that region (see reports
by Standen in Irish Naturalist, vol. 4, 1895, pp. 264-270).

Welch became a member of the Conchological Society in
September, 1895, being introduced by Robert Standen and Edward
Collier. He was elected a member of the Council in October, 1898,
being the first representative for Ireland, and again served on the
Council in later years. In October, 1922, he was made President,
and his Address given at the Annual Meeting in Manchester in
October, 1923, was listened to with very great interest. His subject
was “‘ Some differences between the British and Irish Non-Marine
Mollusca and their Habitats’, and this was illustrated by some sixty
of his superb slides. The Address was never written up for publica-
tion, very much to the regret of the members. Though a member of
the Society for over forty years, he contributed little to the Journal
but left the writing of reports to others. He was a frequent attendant
at the Annual Meetings and invariably brought much Irish material
for exhibition and distribution among his friends. His cheery
presence was always welcome, and the members lingered long after
the meetings to listen to his entrancing talks about his collecting
experiences and other matters. When in England he usually stayed
with Standen and his visits were always combined with trips to
Derbyshire and other places in search of shells or for the purpose
of adding photographs to his lantern-slides and view series. Through
contact with Standen and others Welch had his attention drawn to

4

JACKSON : ROBERT JOHN WELCH. © 331

the accumulations of small shells collected by the wind into hollows
in the sand-dunes in various places. Later he became a specialist
in the study of these ‘ shell-pockets”’ and collected quantities of
material for his numerous friends (see papers by Welch in Irish
Naturalist, vol. 7, 1898, and Fournal of Conchology, vol. 10, 1903).
Some idea of his work in this direction may be gathered from
Kennard and Woodward’s exhaustive report on the “‘ Post-Pliocene
Non-marine Mollusca of Ireland’”’, published in 1917.

In 1900 Welch was appointed photographer in natural history and
archeology to Queen Victoria. In 1905 he was elected a life member
of the Royal Irish Academy, mainly for his scientific photo-survey
work.

From February, 1911, to December, 1915, Welch was joint-
editor of the Irish Naturalist, and again acted in that capacity from
June, 1922, to the cessation of that magazine in December, 1924.
He contributed numerous notes and papers on a variety of subjects
to its pages. These are noted in the indices, vols. 1 to 25, in vol. 25,
1916, and vols. 26 to 33, in vol. 33, 1924. Several of the notes deal
with Irish mollusca, and one is of particular interest in recording
Bythinia leach Sheppard for the first time in Ireland (see Irish
Naturalist, vol. 17, 1908). In addition to the foregoing Welch made
the first discovery of Irish examples of another freshwater species,
Hydrobia jenkinst Smith, in 1893, near the mouth of the River Bann,
Co. Derry. ‘These were recorded by that veteran conchologist,
Lionel E. Adams, in 1898 (see Irish Naturalist, vol. 6, 1898, p. 234).

In 1925 Welch received the honorary degree of Master of Science
from Queen’s University, Belfast. In presenting the candidate
to the Marquess of Londonderry, K.G., Chancellor of the University,
Professor Gregg Wilson said: ‘‘I have the honour of presenting
to you for the degree of Master of Science (honoris causa) Mr. Robert
J. Welch, M.R.I.A., Past-President of the Conchological Society of
Great Britain, and one of the editors of the Irish Naturalist.
Mr. Welch has many claims for such an honour. He has con-
tributed largely to the advancement of our knowledge of archzology,
geology, botany, and zoology. He is an acknowledged master in the
domain of scientific photography, and his name is known all over
the world in connection with the illustration of natural phenomena.
He has taken a prominent part in several biological surveys, and in
particular in the exhaustive exploration of Lambay Island and Clare
Island, undertaken by the Fauna and Flora Committee of the Royal
Irish Academy. He has published valuable natural history papers—
chiefly on Land and Freshwater Mollusca—in the Irish Naturalist,
the Fournal of Conchology, the Proceedings of the Royal Irish
Academy, and the Proceedings of the Belfast Naturalists’ Field Club.

332 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

But perhaps even more remarkable than the influence he has
exerted by his publications has been the stimulus he has given by
his enthusiasm to those whom he has personally guided in the
pursuit of scientific knowledge. He has inspired by his own zeal
many surveying parties of workers from our own neighbourhood
and from England and elsewhere; and he has helped to make
famous the best collecting grounds of Ulster. He has been un-
sparing in his efforts to train the young naturalists of Belfast, so
that the cherished reputation of our city for field work may be
maintained. No naturalist was ever more unselfish in his work.
As an example of his generosity I may mention that he has to his
credit the fact that he has collected and presented to the museums
of Great Britain and Ireland approximately one million shells. For
all these reasons I have pleasure in asking you to confer the degree
of Master of Science.” | |

In 1927 Welch was awarded the first civil pension granted by the
Government of Northern Ireland. |

The Conchological Society was represented at his funeral by
Miss Nora Fisher and Mr. Ranald Macdonald. Like many others,
both these young naturalists are indebted to Welch for much kindly
advice and guidance. They were present along with Mr. and Mrs.
A. H. Davison, of Belfast, and myself at Welch’s last natural history
excursion to Portstewart, Co. Derry, in September, 1935.

Further tributes to Welch will be found in the Memorial Number
of the Irish Naturalists’ Fournal, vol. 6, November, 1936.

A LETTER FROM GEORGE HUMPHREY TO
WILLIAM SWAINSON, 1815.

By J. Witrrip Jackson, D.Sc., F.G.5.

TuE following letter was, with an incomplete copy of Humphrey
and Da Costa’s Natural History of Shells, 1770, presented to the
Manchester Museum by Dr. W. H. Dobie, of Chester, shortly
before his death. A small collection of shells, said to be part of
the Swainson Collection, was also donated. It is stated in one of
Dr. Dobie’s letters that the book and shell collection came to him
from Mr. Swainson’s daughter, a Mrs. Longueville,t in 1868. The
book contains twelve coloured plates (i to xii), two pages of preface
(i to ii), and twenty-four pages of text (3 to 26), in English and

French, describing plate i to plate v, fig. 2 (part only). There is
1 Mrs. Longueville, of the Parsonage at Hoylake, Wirral, is mentioned

in the preface and pages 47 and 51 of Hume’s Ancient Meols, 1863, as
having a collection of antiquities from the Wirral coast.

JACKSON : LETTER FROM G. HUMPHREY TO WILLIAM SWAINSON. 333

no title-page. It is bound in half-morocco and lettered on the
back ‘“‘ Humphrey’s Patella, etc.” As to the authorship of this
work I would refer readers to the notes by T. Iredale, in Proc.
Malac. Soc., vol. xi, 1915, pp. 307-9. In Iredale’s opinion, Da Costa
was the author. The latter refers many times to the “ Anonymous
Conchology ” in his ‘‘ Historia naturalis Testaceorum Britanniz ’’,
1778 (see pp. 1-24), but certain comments in the following letter
suggest Humphrey as the author. He speaks of “the Patella
published by me”, and refers to several misidentifications by
Da Costa (=D.C.), presumably in the latter’s “‘ Hist. nat. Test.
Brit.”, 1778. Perhaps they started the thing together and fell
out later.

With regard to the shell collection donated with the book, a few
of the specimens bear stuck-on labels with printed numbers which
agree with those in the “‘ Museum Calonnianum”’, 1797. There
are also occasional tickets in Humphrey’s handwriting giving the
name of the species, the locality, and reference to the ‘‘ Museum
Calonnianum”’, such as “ Pectunculus nodulosus 5. M.C. 897.
Warty Clam. E. Indies.” :

The letter is as follows :—

“Dear Sir,

On Saturday I sent to the George and the Blue Boar Inn, in Holborn,
a small box, directed to you, at the Custom House, Liverpool. Under-
standing that the coach went off about five in the afternoon, I sent it at
four o'clock, which proved too late as the coach set off at three. It was
therefore left to go by the coach next day, and before this reaches you
I hope it will have arrived safe. I hope to hear that you, Mrs. Swainson,
Mr. Commissary, and Miss S. have all reached Home in safety. You
just set off in time to get down before the Frost took place. In respect
to the Patella published by me, I inform you as follows.

Pl. 1, fig. 5. Umbrella Limpet, add the Country Amboyna.

» 9», 6. Painted Net. Country W. Indies.

3 as Oe. Black. Limpet.. Country Guinea.

» >» 9. Zebra Limpet. Country E. Indies only.

5» 59, 10. Kermes. I have lately discovered that this is the Upper Valve
of Anomia craniolaris Linn. But I cannot think it belongs to
that Genus, having neither perforation nor internal structure.
It rather belongs to the Ostreze, the Under or Inner Valve
being constantly attached to the Rock, whereas the Anomia
never adhere by their shells. I received mine from Elbe,
attached to Coral. !

» 11. I call this, not ‘ Balano patella’’, but parasitica from its
being found on, and eating into other shells. Comes also
from the S. Sea.

Pl. 2, fig.2. Is a Bivalve Shell. Solander places it with the Mytili, but

Rumphius says it lives under the sea sand, which the Mussels
do not. I think it of a new Genus.

5» 99 3+ Scabrosa. Rough. Country Mediterranean. Da Costa has

omitted this in his Description.

» » 4 This is Patella granatina Linn. not granularis which name

appertains to Pl. 3, fig. 13, and D C. quotes the last name
for that.

d

334
PI, 2,

JOURNAL OF CONCHOLOGY, VOL. 20, NO. I2, SEPTEMBER, 1937.

fig. 5. [he lower figure is the papyrace of Davila, and I am inclined
to think it a distinct species. It came from Cape. Horn.
The upper figure 5 is the ‘ Bronze’, and comes from Falkland
Isles. - The Conic one DC. mentions, is a distinct kind,
which I call the Conic Bronze. It is sometimes radiated,
which the other Bronzes never are.

» 6. Patella petasus. Mus. Calonn. 52.

» 7. Is not a Limpet but a Scoop. See Note at MC. 59. The
country is Peru and Chili.

» 8. The ‘Beauty’. ’Tis the red ones are the faded shells, the
grey brown are the perfect ones. MC. 2

,, 10. The brown striated of the Cape.

», 12. The Hand Limpet.

fig.2. The brown iis from the Cape of Good Hope. Not the
W. Indies. :

» 3. The mottled white Limpet. W. Indies.

» 4. The small E. India Auricula.

» 5. The Endive Limpet. It is a species tho’ DC. doubts it.

,0&15. Are different varieties of the little pied or protheus Limpet
of the W. Indies. Very common. Patella protea.

» 9. The Mussel Limpet. Falkland Isles.

,, 10. ‘The middle figure is a red variety of Pat. vulgaris. "The other
two are the Marygold. ‘The European Auricula is another
species. "The Marygold is from the Coast of Barbary. DC.
confounds it with the Common Limpet and European Auri-
cula.

,, 13. Patella granularis. 'The Granulated Limpet of the Cape.
How DC. came to call it the Thorny I can’t conjecture.

,, 14. The nine-rayed W. India Limpet.

fig.2. The long W. India cracked Limpet, which DC. confounds
with the English and other species. I never saw any from
Falkland Isles but a very small one, which is perforated
at top, like the English fissurated Mask, and is figured pl. 7,
fig. 8.

», 3+ The red rayed fissurated Limpet, from the E. Indies. There
are IO or 12 species of these Cracked Limpets.

4.4. The upper the blue rayed, the lower the horny Limpet.
D.C. puts them as one, but they are distinct and inhabit
different places.

», 6. Should have been called the flied:

5, bs gee 8s oT know nothing. of.

, 12. The Humming Bird. Cape of Good Hope.

» 14. The Lady’s Cap. W. Indies. Not from the Mediterranean
same as pl. 1, fig. 14. | : .

» 17. A bad figure. Caztillus fluviatilis. Montagu says is almost
the only shell found to inhabit rapid Rivers and
Torrents. It has been found on the Starlings of London
Bridge. H.

Mr. Lyonet had two, one of which he gave to M. de Calonne.
See MC. 84.

The Wheatsheaf. E. Indies.

Plumose. E. Indies.

Shirt Button. W. Indies.

Umbrella, same as pl. 1, fig. 5, but a better figure.

Little Hairy. W. Indies.

Lapland Cap. W. Indies.

Magpie. S. Sea?

Done from that which was in the Porlnod Cabinet, which
was much better than the one figured Ra 2. Ho. 7 Dut. 1s

“not a Limpet.

S
oi
Ke)

© CONT DUB W H

JACKSON : LETTER FROM G. HUMPHREY TO WILLIAM SWAINSON. 335

Pl. 5, fig. 10. Brown Auricula. Mediterranean.
»> 99 I1- Duck’s Bill. Amboyna. Now much larger from New 5S.
Wales.
5» 5») 12. Minute Beaked Limpet. Rimini. See Gualtieri, from which
this is copied.
»» 59, 14. Changeable Limpet. Barbary.
ss oy 13. Radiated. “EE. indies.
5» 5» 15. Monk’s Cowl. Gallapagos. Done from the Portland one,
brought by Sr. Fr. Drake.
» », 16. Smooth pied Limpet. From the Portland Cabinet. Unknown
whence. Supposed E.I.
99 17. Striated White. E. Indies.
18. Green Hair-streak. Portland Cabinet. Unknown whence.
ys. oy BOs) “Radiated. MEC “47... Cape: G. Hope.
» 9, 20. Reticulated. Supposed E.I.

Pl. 6, fig. 1. Echinated Crypia. W.I.
ik ee teged Galerus:. A:
3. White oval Slipper. EI.

4. Catillus numidica. EL. MC. 1052.
5. Crypta maculata. M C. 68.

iy, . Calvpid cormeaia. NTC. 71.” AL.
7. Crypta punctata. Florida.
8. Calyptra striata. E. Indies.

ee ABs i foliacea. Amboyna.
ae ate 5 " sulcata. EI.

of ate Galerus. + fal.

Cea pa ae im sulcatus. ‘Tinian I.

> 99 13. Crypta nautarum. MC.69. N. America.

Pl. 7, fig. 1. Great-hole Mask. Cape of G. Hope.
2. Curved Mask. English.
3. Larva machroschima. M C. 62.
4 so RUD OSE. WE OR WN k.
x » radiata. MC.66. Falkland I.
ed eget) Me ,, vtridis. Green. W. Indies,
91 taperculata, NIC. 642 7 Wl.
8 », fissurata. Falkland Isles.
9 Cefeellaia. “NEC 6s. Wel,
10

mee ng 4 A Mottled. W.I.

Reece Ge » rubra. Red (key-hole) Mask. W.I.

ange eae ,, truncata. Cut (key-hole) Mask. W.I.
Sees 3 - Little black rayed M. W.I.

on aa Ay a ' Little green rayed M. W.I.

Pi ae iota ~ feticulata. Thin netted, ‘W.1.

ae oie RTOs “ Rayed Mask. Mediterranean.

= 17, Me W. Indies.

Ti op ies. th, 7,22, 14. Haliotis vulgata. M C. 324.
ys Ha BRIS) Ay Bye. One: dad tapes... "DEC gag.
sata tig TO/11, Hal. levis. Smooth. Mediterranean.

6. Hal. patula. Broad Ear. China. Uncoated.
I had not a complete one to engrave from when
this plate was done.

ee A Hal. gvacilis. Wi C. 326.

2 Hal. sinata. MC. 322.
A ,, carinata. Keeled. MC. 320.
aera ce 5 pulchra. Beauty. Commodore Byron’s
: K. George’s Island, S. Sea.
6 ,, tuberculata. MC. 321.
*y gc aorragata, NIC. 327,
I

nae Oscillum lignaria. Wood-piercing Worm.

336

JOURNAL OF

Pl. 10, fig. 3.

CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

Oscillum lignaria. to shew the semi-chambered
structure.
», Wood pierced by ditto. 7 ‘eredo navalts
Linn.
Serpula fuscata. Brown spiral anne) Worm.
50 eperalies ML GC, 4.
» cochteania. . WiC. s,
» lumbricalis. MC.15. Vermicularis of
Pennant & Ellis.
,, tubularia. Montagu 14. JIntricata
Pennant, who refers to his fig. Tab. 91,
157 instead of 158. 157 is triquetra.
Serpula.
Serpula cancellata. Brown chequered.
W. Indies.
Serpula.
Serpula filaris. ‘Thread Worm. Europe.
Caduceum echinata. E. Indies. 4 is the best
figure. The colour of all should have been dark
violet. 1 and 2 done from bad ones.
Caduceum rosea. Rose coloured fissurated Worm,
or Rod. Coast of Guinea.

4a or Upper fig. 4. Serpula contorta. Great twisted Worm.

5-

16, 17, 58%

Supposed E.I. Unique from Mus. Portland.
Oscillum gigantea. Sumatra, Amboyna, etc.
Fig. copied from Rumphius, but he is wrong
in dividing into two branches, and it should
have terminated where the fork begins. ‘The
truth is, this species has two channels, which
proceed from the narrow end, or mouth, a little
way down the shell, and from which channels
proceed the tentaculi which branch out from
the shell. They inhabit in swamps, buried in
the mud, all but the mouth. Some are 5 ft. lo.
Serpula spirorbis. Montagu 1.
Serpula. |
Serpula. Rugose ridged Worm. W.I.
Serpula.
Serpula.
Serpula parasitica. Parasite Worm. W.I.
Serpula. A kind of parasite Worm imbedding
or eating into shells. E.I. The lower one is
on a Clamp shell. 7
Serpula serrata. Saw-edged. On the bottom
of the inside of a Balanus.
Coast of Guinea.
,, wvtolacea. Violet Worm. E. Indies.
Dentalium ventricosum. Bellied. E.I. D. gadus
Montagu 3. Hakes teeth of Mariners.
» e€lephantinum. Elephant Tusk.

», rubrum. Red striated. Minorca.

», album. White fluted. E. Indies. M C.16.

5, striatum. Green striated. MC. 17.

», sulcatum. Green fluted. M C. 18.

Lobster’s Horn, fossil, France.

Harpagium. Unfurbelowed Watering- -pot. MC.
72

» Furbelowed Watering-pot. M C. 13.
Lituus spiralis. MC. 76.

JACKSON : LETTER FROM G. HUMPHREY TO WILLIAM SWAINSON. 337

Pl. 12, figs. 19 to 27. Different kinds of Orthoceratite or Straight
Nautili, copied from Gualtieri, found on the
sea shores near Remini. See also Planeus and
Breynius.

I have gone through the different plates as well as I could at present.
The Serpulz and Dentalia are not sufficiently known, and I have not been
able as yet to define the species. The remarks on the four first plates
you will find necessary.

The Box and this Letter have been retarded by the unhappy circum-
stance of Mr. Lochee’s Death, of the dreadful circumstances attending
which you have no doubt been informed by the public Prints, and which
so disconcerted us for some days that we could think of nothing else.
I had occasion to consult him about a sale I have to come on in a short
time, and went to him on Tuesday. I found him in bed, but he appeared
very cheery, said he should be in the room next day, and that he only kept
his bed from having taken a second dose of James’s powders. On Thursday
I sent some goods, but my son brought them back, as the Clerk he said
refused to admit them, as Mr. Lochee he said was dead. You may guess
our surprise on the occasion. Owing to our confusion your Pectunculus
aculeatus M C. 894 was forgot to be packed up with the rest. I shall send
it you the first opportunity. With all our best respects to you, Mrs S.,
Mr William, Miss Eliza and the rest of your good family, I remain,

Dear Sir,
Your obliged & m. ob. serv.

GEORGE HUMPHREY.
Lonpon. ‘Tuesday.
12th Dec. 1815.

This letter is but single & the Post Office return for a Cover that is not
written on within.”

The M C. in above letter is Museum Calonnianum, published
in 1797. The copy of this work in the Manchester Museum has
the following inscription, in ink, under the headline of the title-page
—“ drawn up by Mr. Humphrey.” The handwriting is old. The
following alterations in the same handwriting also occur: p. 5,
Genus VIII, Pedum is altered to Lituus; p. 22, Genus XXX,
Auris Mustelz is altered to Myosota; p. 53, Genus XXI, Lacinia
is altered to Gryphus, and ‘‘ Beaked or’”’ is added to Furbelowed ;
p. 62, Genus V, Lituus is deleted. 7

Gryphus Megerle von Muhlfeldt 1811 (non Humphrey) is now
the recognized name for the brachiopod genus Liothyrina Oehlert,
1887, the genotype of which is Anomia vitrea Born., 1778.

The Kermes of the above letter (pl. 1, fig. 10, of aes Nat. Hist. of
Shells) belongs also to the Brachiopoda, and to the genus Crania
in particular. Whether the name is valid is doubtful.

The fig. 2 of plate ii of the above work is that of the brachiopod
Lingula, i.e. lingua (Sol.), 1786. ‘The specimen is said to be in ~
the British Museum, No. 3715.

338

OBITUARY NOTICE:
J. DAVY DEAN, F.R.ES.

By CoLin Matueson, M.A., B.Sc.
(Read before the Society, 3rd April, 1937.)

CoNcHOoLocy has suffered a severe loss by the death, on 27thJanuary,
at his home, Heathwaite, Heath Park Avenue, Cardiff, of J. Davy
Dean. The son of Thomas Dean, a linen-draper, of Manchester, he
was born in that city on the 30th of October, 1876. From his earliest
years he had a strong artistic bent, which determined him in the
choice of his original profession and also led him, through an
appreciation of their beauty, to the study of the shells of molluscs.
He received his early education at the Manchester Grammar School,
and from there, having won one of three scholarships offered, he
passed to the Manchester School of Art.

On the completion of his training, he was engaged for many
years as a designer in stained glass in Manchester and Lancaster.
During this period he was also actively prosecuting his conchological
activities ; he became a member of the Conchological Society as
far back as 1897, and for forty years thereafter he was a regular
contributor to this fournal. Between thirty and forty papers and
notes, mostly under his own name and one or two in collaboration
with others, appeared in the Fournal over this period, several of them
dealing with the Clausiliide, a family which he made peculiarly
his own.

The year 1915, when he came to Cardiff, marked an important
changing-point in his career. He came there to follow his original
profession, but soon the late Dr. W. Evans Hoyle, director of the
National Museum of Wales, engaged him to arrange the shell
collections in that institution. In 1918 Dean was appointed Assistant
Keeper in the Department of Zoology, a post which he held till his
death. In the same year he married Miss H. Lillian Tassell, daughter
of W. H. Tassell, of Newport, Mon. There were two children of the
marriage, both of whom, with his wife, survive him.

In his new post, though the Mollusca continued to be his principal
interest, Dean was also occupied with other branches of natural
history. He was responsible, in 1926, for the preparation of a Guide
to the Griffith and Vivian Lepidoptera, two large and comprehen-
sive series of Lepidoptera in the Museum collections ; while a paper
by him entitled ‘“‘ An Analysis of certain Records relative to the
Migration of Agrius (= Sphinx) convolvuli Linné”’, in the
Entomologist’s Monthly Magazine, 1931, was recognized as a valuable

MATHESON : J. DAVY DEAN. 339

contribution to the study of insect-migration, a subject which at
the present time is receiving a greatly increased degree of attention.

His artistic abilities also found an outlet in the arrangement of
various exhibits in the Museum; in this connection the writer
would especially acknowledge the work done by him in painting the
background for a large habitat group in the zoological galleries,
depicting ‘* Wild Life in Early Wales ”’

His election to the Chair of the Corenol sical Society for the
session 1934-5 was a fitting recognition of many years of useful
work ;_ his Presidential Address embodied a large amount of pains-
taking investigation on ‘‘ Conchological Cabinets of the Last
Century’. Printed in Vol. 20 of the Journal, it formed his last
contribution to that publication, though it is hoped that it will be
possible to prepare for publication a considerable quantity of data
which he had subsequently accumulated on the same subject.

Dean’s work was concerned with many aspects of the Mollusca,
with the ecology of the living animal as well as with conchology ;
one of his earlier papers, in collaboration with Rankin and Kendall,
dealt with the ecology of the Cheshire land Mollusca, while his last
paper, published only a few months before his death in the first
volume of a comprehensive County History of Glamorgan, treated,
on ecological as well as systematic lines, of the land and freshwater
Mollusca of the county.

Throughout his career he retained his interest in art; he often
exhibited in water-colours and oils at Manchester, while in Cardiff
he was for many years an active member of the Committee of the
South Wales Art Society and exhibited at their annual exhibitions.

The writer, who was in close contact with Dean for fifteen years,
shares with many the deep regret felt at his passing. He combined
with indefatigable industry an unvarying cheerfulness and good
nature which remained unimpaired till the last.

Clausilia dubia Drap.—When living in Dover between 1900 and 1905
I discovered a colony of dubia on the chalky slopes of the Castle Hill,
situated on the right-hand side of the Deal Road and about two-thirds of
the way up. The shells were near the Castle walls and plentiful, together
with C’.. laminata and C. rugosa. On revisiting Dover in August, 1936, I was
unable to find a single specimen, although I hunted carefully over the old
ground, which, however, has been tidied up by the authorities, and in place
of the rough rank herbage i is mostly covered with short grass. The shells
may, of course, have migrated, owing to being disturbed, to some other part
of the slopes which are extensive and cover several acres——R. H. Mossgs.
(Read before the Society, 13th March, 1937.)

340

NOTES ON POTADOMA GRAPTOCONUS, PILS. & BEQ.
By Gro. C. SPENCE.
(Read before the Society, 9th January, 1937.)

A SERIES of some sixty of above Potadoma has been submitted to
me by Herr Schlesch, collected in October, 1931, by the Rev. A.
Unsgaard from a river 50 kilometres south of Indo-Sibiti, French
Congo. The shells comprise seventeen in live condition, twelve
dead but good, and the remainder very dead or merely broken
fragments. The figured type! is decollate, retains five whorls,
and measures 33 mm. by 15.3 mm. A complete adult before me
terminates in an acute apex, consists of eleven whorls, and measures
33 by 13 mm. The nepionic portion has the initial whorl intorted,
is smooth, whitish, with a brown zone developing on the upper
portion of the second whorl, which zone widens progressively,
so that on the fourth whorl the light streak has disappeared. The
operculum is paucispiral as described and figured in the case of
Potadoma liricincta walikalensis P. & B.?

In the above locality the shells do not appear to suffer severely
from erosion. The live ones are but slightly affected, and that
only at the extreme apex. Dead shells are also well covered, and it is
only in the case of the very dead that the shell substance is crumbling,
with the epidermis in ribbons or entirely gone. In two examples
only has sufficient of the apex disappeared to compel the animal to
plug the resultant aperture. Many have a roughly circular hole at
the back of the last whorl. An examination of the broken edges
shows that the injury was not caused at the time of collection, but
some time previously, and was, I should judge, caused by chemical
erosion. ‘The injury is not necessarily fatal, as in one case the
damage has been repaired.

* Pilsbry and Bequaert, Aquatic Mollusks of the Belgian Congo, pl. xx,
fig. 10,

4 Ibid., p. 272, fis. 45),

341

ORKNEY LAND AND FRESHWATER SHELLS.
By J. R. te B. Tomtin. |
(Read before the Society, 13th February, 1937.)

THE following island records are the result of desultory collecting
in the Orkneys in the summers of 1935 and of 1936.

Land and freshwater shells are scarce there and want a good deal
of finding. Until quite recently they were in the happy condition
of lacking even Helix aspersa, but that traveller managed to gain
unobserved entry a few years ago attached to Norwegian timber,
and now occurs in some of the Kirkwall gardens.

Papa WeEstTrAyY.—I saw Arion hortensis and A. circumscriptus
several times last July in the garden of Holland.

Westray.—Lauria cylindracea and Vitrina pellucida, both
moderately common on the links at the back of Pierowall in sandy
hollows which are dug to hold seaweed. . .

Hoy.—Arion hortensis in cultivated ground; Succinea pferffert,
Lymneza truncatula and Retinella radiatula sparingly on more or
less marshy heather ground. ;

MAINLAND.—Spherium corneum, Theodoxus fluviatilis, Hydrobia
jenkinsi, and Lymnza peregra in Loch of Harray, near the Standing
Stones; Arion hortensis, A. circumscriptus, Agriolimax agrestis,
- Milax gagates, Oxychilus alliarius, Lauria cylindracea, all fairly
common at the foot of Black Craig, on the Stromness side ; Pupilla
muscorum scarce on herbage on the shore between the above locality
and Stromness.

For other notes on some of the above, see this Journal, Vol. XX,

pp. 199 and 273.

Infant Mortality of Mollusca.—Professor A. E. Boycott in his masterly
paper ? on “‘ The Habitats of Freshwater Mollusca in Britain’, says: “ In
nature there is an immense ‘ infant mortality ’.”’ A recent example of this
may be worth recording. I had been keeping under observation a male and
two female Palmated Newts in my aquarium, and at the end of May several
tadpoles appeared. There were also in the aquarium several Lymnza
peregra, the offspring of which thickly besprinkled the glass sides. Early in
July I noticed the tadpoles eating the young peregra off the glass, and from
two to four young shells could be clearly seen in the translucent bodies of
the tadpoles. Before the end of July not a single young peregra was left.
If I had not taken the precaution of removing the adult newts on the arrival
of the tadpoles probably they too would have disappeared. Seven or eight
young frog-tadpoles put into the aquarium with the adult newts disappeared
in a few days. These happenings were, of course, not in natural conditions,
but they serve to show what is likely to happen to the common inhabitants
of a pond.—Lionzt E. Apams. (Read before the Society, 1oth October, 1936.)

1 F¥ournal of Animal Ecology, May, 1936.

342

MOLLUSCA OF THE IRANIAN PLATEAU.
By H. E. J. Biaes.

Tue Iranian Plateau is poor in mollusca. The following notes
are the result of collecting during the years 1922-8 and 1931-5,
mostly in localities over 4,000 feet in the dry deserts and moun-
tains. Some areas have been worked fairly well, such as the districts
of Kerman and Isfahan, but the most interesting species were found
while travelling by car or caravan, when a halt has given time for
search. ne

The following list will, I think, show that the fauna is distinctly
Palearctic. Unfortunately I have not been able to visit Persian
Baluchistan. A few freshwater mollusca were given me by an
Iranian friend who had seen military service on the border, and
notes are included below. More collecting in this area would
show how far the Oriental influence extends into Iran if at all.

Isolation tends to make species vary and we see this very clearly
in the case of Melanopsis doriz Issel: some of the named species
may, on further investigation, turn out to be only local variations
of well-known Palearctic species. The Iranians have a method
of irrigation peculiar to them, namely by “ ganats’’. ‘These are
made by digging a series of wells from the mountains where water
is found, to the middle of the plain where water is required, and
then connecting the bottoms so as to form an underground canal.
These ganats are only a few feet wide. Water is thus conserved,
little being lost by evaporation. There is normally no connection
between these water systems and any other. In July, 1932, heavy
rain fell in Kerman causing floods. Many of these qanats were
destroyed by surface water carrying sand down into them and
filling them up. Thus a ganat at Jelalabad, where M. doriz was
always to be found in abundance, was wiped out. When I left
in November, 1935, this had not been cleared. If it is ever reopened,
as it may be should money be forthcoming, it will be interesting
to see if it again supports a molluscan fauna, and to speculate as
to its origin. As the main road into Kerman crosses the open
end of the qanat it should be easy for any untrained observer to
look out for the coming of new life. |

In the mountains isolated ponds occur and in one a very large
form of L. truncatula Miller was the only species found.

1. Agriolimax sp.

Ten specimens found under stones in a damp grassy patch at
Deh Bala, west of Yezd, 9,000 feet. Slugs are rare on the plateau
and I have only found them in one other place, the oak forests

BIGGS : MOLLUSCA OF THE IRANIAN PLATEAU. 343

near Shiraz amongst dead leaves of Quercus persicus J.and S. The
two specimens taken there decomposed before I could get spirit.

2. Parmacella sp.

Three dead shells in rock crevices at Pul-i-Agineh, south of
Karzerun, 3,000 feet. P. oliviert Cuv. occurs near Resht on the
Caspian coast.

3. Vitrina (Oligolimax) annularis Stiider var. persica Bttg.
Zool. fahrb., iv, p. 935, pl. xxvi, f. 4 a-c, 1890.

A fairly common shell at Seguch, 30 miles east of Kerman at
9,000 feet; at Deh Bala at 9,500 feet, and on the lower slopes of
Shir Kuh (near Yezd) at 10,500 feet. It occurs in débris round the
roots of bushes and under stones in damp places. The variety
was described by Boettger from specimens collected at Shahrud
in the north of Iran.

4.. Monacha syriaca Ehrbg.

Helix syriaca Ehrenberg. Symb. Phys. Moll., i, No. 8, 1831.

A few dead shells taken under bushes at Jaru, 49:31 E. by
31°33 N., at 1,326 feet. This species does not occur higher up
on the plateau.

5. Monacha iranica sp. nov.

Shell subglobose, irregularly striate, somewhat malleate on body —
whorl, narrowly umbilicate, translucent, horn-coloured, dull;
mouth three-fourths of a circle, oblique, margin sharp with strong
submarginal rib; rather faint peripheral cream band; suture
somewhat depressed, spire slightly depressed ; 54-6 whorls.

Holotype.—Alt., g mm.; diam., 13 mm. (in my collection).

Average for eleven paratypes: Alt., 8-6 mm.; diam., 12-2 mm.

The type locality for this species is the banks of the Zeyandeh
Rud at Isfahan, but it is also common in gardens and other well--
watered places in the neighbourhood. A form which is generally
a little smaller and thicker occurs at Bagh-i-Garvart near Isfahan.

6. Helicella millepunctata Bttg.
Zool, Fahrb., iv, p. 948, pl. xxvii, f. 13 a-c, 1890.

The commonest land mollusc on the plateau. It occurs in gardens
at Isfahan, Kerman, Seguch, Deh Bala, Dilijan, Shahdad (Khabis),
and Bam. ‘The species varies in size, of 165 specimens measured
the largest had diam. 16-8 mm. X alt. 11-6 mm., and the smallest,
io mm. X 6:4 mm. The average ratio diam./alt. is about 1-5, but
conoid forms with a ratio 1°37 have been taken, while depressed
forms with a ratio as high as 1°74 are not uncommon. Boettger

344 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

described the species from Shahrud. Amongst the hundreds
which have passed through my hands several varieties have been
found.

(a) var. depressa nov.—Shell as type but depressed spire and
having a ratio diam./alt. more than 1°65.

(6) var. castaneoradiata nov.—Shell small, with dark brown
markings from the suture to near the peripheral band. Six specimens
taken from Bagh-i-Shahzded near Kerman.

(c) var. hyalopunctata nov.—Shell pure white, punctuations and
peripheral band transparent. Isfahan, November, 1926. |
One scalariform specimen taken in a garden at Isfahan in 1934.
The holotype of each of these varieties is in my collection.

H. millepunctata seems able to stand a great deal of heat and on
very hot days in summer may be found securely fastened to the
fruit trees in gardens up to 6 or 7 feet from the ground, but usually
lower. At the beginning of the wet season it can always be found
depositing eggs in crevices in damp ground, i.e. during November,
but as early as October if the rains have started.

7. Helicella derbentina Kryn.
Bull. Soc. Nat. Moscou, ix, p. 192, 1836.

A few specimens found zstivating on a thorny bush near a stream
by the road between Arabkafer and Gazeen at about 1,000 feet.
These two places lie on the old caravan route from Mohammerah
to Isfahan and the shells were taken about midday when I had
dismounted from my mule and was walking off the beaten track.

8. Helicella (Candidula) sp.

A number of shells found under stones on the Dukhtar Pass,
west of Shiraz, at about 4,000 feet. This is the only spot where
I have found this, as yet, undetermined shell. The radiator of
the old lorry in which I was travelling up this very steep pass
boiled and the cap blew off. This delay of about a quarter of
an hour gave me time to'collect three fresh species of shells, many
beetles and a few plants. |

9g. Jacosta tuberculosa Conrad.

Carocolla tuberculosa. Lynch, Office Rept. U.S. Exp. Dead Sea,
p. 220, pl, xxul, fie. 999: (1835.

Between the British Residency at Sabzabad, near Bushire, and
the seashore is some flat arable land. Under stones, which are
exposed to the hot sun, this species was found in dozens sealed
fast to the stones, sometimes in masses, and to one another. ‘They
were in all stages of growth (7th May, 1935).

BIGGS : MOLLUSCA OF THE IRANIAN PLATEAU. 345

1o. Ena (Subzebrina) oxiana Ms var. schahrudensis Bttg.
Bulimus (Petrzus) oxtana, Marts. 1876, var. schahrudensis.
Boettger, Zool. fahr., iv, p. 954, pl. xxvi, f. 15 a-c, 1890.
Abundant under stones and in débris in the clefts in the rocks near
Seguch. I only took this species in one place, a ridge of slaty rock
running north and south, and about a mile and a half due north
of Seguch village. It occurs only at about 7,500 feet ; lower down
exactly similar habitats were examined but no trace Pd On the
opposite side of the valley at about the same height on the lower —
slopes of Jupar Mt. dead shells of this species were found.

11. Ena (Napeeus) potaninianus Ancey.
Le Nat., 8° année, No. 34, p. 270, 15th May,
Buliminus potaninianus | 1886.
Bull. Soc. Mal. Fr., iti, p. 44, 4th July, 1886.
A number of this species found on 22nd March, 1935, in crevices
in cretaceous limestone on the north side of the Urchini Pass, 20 miles
south of Isfahan on the road to Shiraz. Many alive and active
crawling on the bare face of the rocks near the ground. Again in
the hills east of Maiar, 30 miles south of Isfahan, many more
specimens in a similar habitat.

12. Ena (Petreeus) alepensis Pfr.

Bulimus alepensis Pfr. Symb., 1, p. 45, 1841.

Two dead shells of this species found in a bowl in a rock on
the Dukhter Pass west of Shiraz. Evidently they had been washed
in by the rain so there was no indication of their habitat and search
in likely places revealed nothing.

13. Ena sp.

This undetermined species occurs in two places. Six specimens
were found under a tree in débris in the valley above Seguch,
south-east of Kerman and at about 7,500 feet. The following year
I collected a few dead shells, apparently of the same species, in
a valley in the mountains quite close to Kerman. It occurs in
association with Granopupa granum Drap., and while collecting
in the field may easily be taken for a long form of this species.

14. Chondrula bayeri Pfr.
Bulimus bayert Pfr. Malak. Bl., v, p. 240, 1858.

Abundant in gardens near Isfahan, especially those bordering
on the Zeyandeh Rud River. On 1st December, 1926, I took
103 Specimens in one garden, and on 8th March over 120, most of
them living. Three pairs were taken in cottu. Most were covered
with mud which renders them difficult to find at first.

23

346 JOURNAL OF CONCHOLOGY, VOL. 20, NO. I2, SEPTEMBER, 1937.

15. Granopupa granum Drap

Pupa granum Drap. Tab. Moll. France, p. 59, 1801.

Common amongst vegetable débris in rock crevices in mountains
east of Kerman. In April, 1932, found ezstivating firmly attached
to stones. Occurs also at Seguch, where many found estivating
in July of the same year, and at various heights up to 9,000 feet.
Ground very dry.

16. Pupilla (Primipupilla) signata Mousson.
Pupa signata Mousson. }. de Conch., xxi, p. 211, pl. viii,
ry 107, ee

Abundant in situations similar to the foregoing.

17. Pupilla muscorum Linn.

Turbo muscorum Linn. Syst. Nat., ed. x, p. 767, 1758.

I have only found this widely distributed species in one place
in Iran, a water-logged patch on a barren mountainside near the
top of Deh Bala valley, west of Yezd, at 9,500 feet. It was found
under stones and in association with Vitrina annularis var. persica
and Vallonia adela var. mionecton.

18. Pupoides (Pupoides) csenopictus Hutton var. persicus
Schlesch.

Arch. fur Moil,,. 66,9: 45; p). 5, 1. 5 -and..6,..1934-

This little shell was found in abundance in a palm garden at
Shahdad (Khabis) east of Kerman. I took over three hundred in
a few hours. They were attached to débris round the base of the
trees and in the axils of the palm leaves. Altitude about 1,800 feet.
Herr Hans Schlesch informs me that this is the first record for
the species in S. Iran.

1g. Pupoides sp.
One dead shell found amongst débris under a bush at Seguch
in July, 1932, at 8,000 feet.

20. Pupoides sp.
Two dead shells with the above but clearly of a different species.

21. Vallonia adela West. var. mionecton Bttg.

Zool. Fahr., iv, p. 941, pl. xxvi, f. 11 a-d, 1890.

Common in the Consulate garden in Kerman, Bagh-i-Shahzdeh,
in copses by the Zeyandeh Rud at Isfahan and on water-logged
ground under stones at 9,500 feet above Deh Bala. ‘The variety
was described by Boettger from Transcaspia at the height of
g-10,000 feet. The lowest altitude at which I have found it is
Isfahan, about 5,100 feet.

BIGGS : MOLLUSCA OF THE IRANIAN PLATEAU. 347

22. Cecilioides acicula Miill.
Buccinum acicula Mill. Verm. Hist., 1, 150, 1774.
A very few found buried in clods of earth round palm trees at

Shahdad.
23. Opeas gracile Hutton.

Bulimus gracilis Hutton. F.A.S. Bengal., vol. 3, p. 84, 1834.
Three dead shells found in palm garden at Shahdad.

24. Cyclotus (Caspicyclotus) biggsi Schlesch.

Arch. fiir Moll., 66, p. 45, pl. 5, f. 1-2, 1934. )

The only locality at present known for this species is the mountains
east of Kerman, where I found it in March, 1932. ‘These mountains
are composed of hippuritic limestone and biggsi is found at about
6,000 feet on the lichens which come to life when the snow melts
and forms little trickles over the rocks. The active life of this
species can only be about three or four months each year. For
the rest it remains sealed to the rock, but as it is only found on the
side facing north, is not exposed to the full glare of the sun, getting
only the late afternoon and evening sun in the summer months.
On 6th February, 1933, I took forty-two specimens. The shell
is held high when moving, and the foot of an adult specimen is
about 5°5 mm. when fully extended. Unfortunately I have not
been able to find out much of the breeding habits of this species,
in spite of many trips to the mountains in early spring. The young
shells zstivate with the adults.

25. Succinea pfeifferi Rossm.

Icon. Land-u.-Siissw. Mholl., i, p. 96, f. 46, 1853.

Very abundant in copses on the north bank of the Zeyandeh Rud |
at Isfahan. Occurs also at Qohrud, 72 miles north of Isfahan at
about 7,000 feet. A fossil shell found in a recent deposit at Bam
(borders of Persian Baluchistan) is probably to be referred to this
species.

26. Melanopsis preemorsa Linn.

Buccinum premorsum Linn. Syst. Nat., ed. x, p. 740, 1758.

The shells which I have tentatively referred to this species are
found in a ganat at Aqda, a village on the Isfahan—Yezd road. ‘The
adults are much eroded round the spire. The young specimens
bear a close resemblance to the young of premorsa, but in the adult
specimens there is a flattening of the body whorl not found in this
species. Up to the present I have not found any shells to compare
with these in any other part of Iran. If the determination is correct
it means that a colony of premorsa exists in the middle of an area

occupied by M. doriz Issel.

348 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

27. Melanopsis dorize Issel.

Mem. R. Acc. Sc. Torino (2), xxiii, p. 16, 1865.

The type of this species was described from Kerman, where I have
taken many specimens. It occurs also at Nain, Erjenun, Kerman-
shahan, Anar, Qasemabad, and Shahdad. It is one of the most
widely distributed species in S. Iran and varies considerably, for
all the habitats are more or less isolated. At Anar, a village on the
Yezd-Kerman road, they are small and pale, some being cream
coloured. At Kermanshahan only very large forms are found. The
average height for thirteen specimens taken at random is 27°03 mm.
(largest 30-00 mm.), while the average for twenty specimens taken
from the type locality is 21-0g mm. (largest 27-5 mm.). I have a
short series taken at Khash (= Kwash or Vasht), in Persian
Baluchistan, which are referable to this species. Melanopsis deserticola
Ann. & Prashad described from this latter district seems to bear
some resemblance to doriz. The small study I have been able to
make of this species inclines me to speak of the “‘ dori# complex ”
rather than species.

I have also taken the following varieties near Kerman :—

(a) var. nigra Biggs. F. of C., Vol. 20, p. 60, 1934. Since describing
this variety I have taken specimens at Hutk, a small village about
20 miles north of Kerman. They are very small specimens.

(b) var. fasciata nov. Characters generally as type but with a
distinct chestnut peripheral band. Holotype, from a ganat (now
dry) at Jelalabad, near Kerman, in my collection.

(c) var. earinata nov. Shell strongly keeled. Holotype, from
Jelalabad, in my collection. Two specimens also found at Nain,
east of Isfahan.

28. Melanoides tuberculata Mill.

Nerita tuberculata O. F. Miller. Hist. Verm., vol. 2, p. 191, 1774.

Widely distributed. I have it from Kilekuh and Hajjiabad
Deraga on the road between Bunder Abbas and Kerman, most of
the ganats near Kerman itself, near Rafsanjan, Chah-i-Noh, Anar, ©
and from Meimeh, 70 miles north of Isfahan. Again we have a
species that should be called a complex, as many of those I have
collected seem to be varieties or incipient species.

29. Melanoides scabra Miill.

Buccinum scabrum O. F. Miller. Hist. Verm., vol. 2, p. 136, 1774.

Several specimens taken in a muddy stream at Hajjiabad Daraga
in November, 1931. I have passed this spot on three occasions since
then but failed to find any trace of the species.

BIGGS : MOLLUSCA OF THE IRANIAN PLATEAU. 349

30. Hydrobia sp.

One dead shell from a ganat at Nain, 84 miles east of Isfahan.

31. Bythinella uzielliana Issel.
Mem. Acc. R. Sc., Torino (2), xxiii, p. 19, 1865.

Very common in a stream at Taherabad, near Kerman, the type
locality. Also found at Aqda and Erjenun on the Yezd—Kerman
road, climbing on stones in the ganats.

32. Amnicola (Alocinma) ejecta Mousson.

Bythinia ejecta J. de C., xxii, p. 46, 1874.

Common in a ganat at Nagur, a small village in the mountains
between Nain and Isfahan.

33. Pseudamnicola ? raddei Bttg.

Zool. Fahrb., iv, p. 970, pl. xxvi, f. 6 a-c, 1890.

Found in a stream at Kushkuh, 85 miles east by north of Kerman,
January, 1923. Some dead shells found at Isfahan and Nain
probably belong to this species.

34. Theodoxus dorize Issel.

Mem. R, Acc. Se. Torino (2), xxaii,.p-22;:. 3865.

Occurs at Robat, 30 miles west of Kerman, Aqda, Erjenun, and
Nain. At Aqda a black form of this species is found ;_ the beautiful
zigzag markings can just be seen when the shell is held to the light
but are very obscure. I therefore suggest the varietal name obscura
for this form. Holotype in my collection, taken 23rd November,
1934. The variety is fairly common and there are some specimens
collected at Nain.

35. Lymnea persica Sowerby iii.

Conch. Icon., xviii, Limnza, pl. xiv, sp. 92 a, 5, Bre,

Taken in a pa os the roadside at Bambiz, an isolated village
4 miles south of Nain.

36. Lymneea lagotis Schrank.

~Buccinum lagotis Schrank. Fauna Boica, 3, 287, 1803.

A well-known and widely distributed species. I have taken it
at Kerman, Qasemabad, and Nagur.

37. Lymneea truncatula Mill.

Buccinum truncatulum Mill. Hist. Verm., 2, p. 130, 1774.

I have taken this species from the following localities in Iran
—Bam, Kerman, Baiaz, Deh Bala, Isfahan, Soh, Shalamzar, and
Rai. The var. major is the only form found in a tiny isolated pond

350 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

on the mountains near Soh, north of Isfahan. At Rai (ancient
Rages) I took it in a fast flowing stream and near Deh Bala at
10,000 feet on damp moss and grass where a little water oozes
out of the barren mountain. On the opposite side of the valley,
on the lower slopes of Shir Kuh, it lives in a stream at 10,500 feet
and almost certainly would have been found higher up had I had
time to climb and look for it.

38. Planorbis sp.

This undetermined species was common under stones in a pond
at Dasht Arjan, west of Shiraz.

39. Planorbis persicus Ancey.

Nautilus, xiv, p. 84, 1900.

Common in a stream at Deh Lur about 50 miles north of Isfahan
at 6,500 feet, and at Nachaft about 15 miles further north.

40. Planorbis subangulatus Philippi.

Enum. Moll. Sictliz, vol. 2, p. 119, pl. xxi, f. 6 (var.), 1844.
A few specimens in a pond 2 miles west of the Manun Bridge
over the Zeyandeh Rud at Isfahan. One dead shell from Nain.

41. Corbicula ? cor Lam.
Cyrena cor. Lam. Hist. Nat. An. s. Vert., v, 552, 1818.

Multitudes of dead shells in an irrigation canal at Isfahan, but
only a few living specimens taken.

42. Pisidium cinereum Alder.

Ir. Nat. Hist. Soc. Northumberland, ii, 341, 1838.

Three specimens found in damp ground amongst grass on the
lower slopes of Shir Kuh, east of Yezd at 10,500 feet. Mr. Oldham,
who has kindly determined this species for me, reports that one
specimen has the teeth reversed, all those proper to the right valve
being found in the left valve and vice versa. The large quantities
of Pistdium living in a stream at Kerman are near to cinereum. Mr. B.
Prashad has, however, included them in his P. persicum (Rec.
Indian Mus., xxxv, p. 7, 1933).

In conclusion I should like to record my gratitude to Mr. Tomlin
for his patient work in determining so many of the species enumerated
here.

351

ENEMIES OF THE LAND AND FRESHWATER MOLLUSCA
: OF THE BRITISH ISLES.

By S. V. Witp, M.Se. Teeh.; A:1-C., -and
A. K. Lawson, F.R.Met.Soc.
(Read before the Society, 14th March, 1936.)

THE following list of the known enemies of the land and fresh-
water mollusca of the British Isles makes no pretence of being
exhaustive. The writers, whilst reading various works have, from
time to time, come across scattered references to the destruction
of Mollusca by various creatures, but have not been able to trace
any attempt to bring these records together in a handy form. The
lists here given are intended to form a basis only and contain
such records as have been available to the writers. It is freely
acknowledged that many more records probably exist in works to
which the writers have not had access. Man, and all domestic
animals and birds have been excluded.

References have been made as concise as possible, and not more
than two or three have been given in cases where numerous refer-
ences to one enemy have been found. A bibliography is included
in this paper. No order of priority has been adopted.

Many references are to a genus only and these are included
under the generic name. In some instances enemies are only
referred to in general terms, e.g. ‘‘ Mice”’ and ‘‘ Worms ’”’, and in
such cases more accurate information is desirable.

Some enemies listed are possibly parasites only, but definite
information is lacking as to whether their activities are fatal to
molluscan life, and they are, therefore, included in the hope that
further research may definitely establish their status.

The nomenclature followed is that adopted in the Census of
British Land and Freshwater Mollusca by the late W. D. Roebuck,
in this fournal, Vol. XVI, pp. 165-212.

In conclusion we would tender our thanks to Miss Fisher,
Dr. Jackson, Messrs. C. H. Moore, G. C. Spence, R. MacDonald,
and others who have assisted us in n collecting data.

BIBLIOGRAPHY.

Practical Handbook of British Birds. Edited by H. F. Witherby, 1920-4.
Fournal of Conchology.

The Nature Book. M. V. Clarke, vol. 6.

The Food of Some British Wild Birds. W. E. Collinge, 1924-7.
Animal Life of the British Isles. E. Step, 1921.

Cambridge Natural History: Mollusca. A. H. Cooke, 1895.

Journal of Ecology. A. E. Boycott, 1934, Xxil.

Shell Life. E. Step, 1901.

The Birds of the British Isles and their Eggs. 'T. A. Coward, 1920.

“HO mBOOwP

352 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

K. The North-Western Naturalist.

L. The Biology of Birds. J. A.'’Thomson, 1923.

M. Monograph of the Land and Freshwater Mollusca of the British Isles.
J. W. Taylor.

N. D. Keilin (in Parasitology), 1919.

O. British Birds Magazine.

Testacella.
Worms. A small Wireworm. M.2.5.

Limax.

Birds, frogs, toads, take adult and young. Wood Ant and several flies
take the eggs. C.1068. M. V. Clarke. M.2.32. |

Hedgehog. M.2.32. Coot. -M.2::32.

Blindworm. M.2.32. Quail. M.2.32.

Frog. (Vi.2. 32. Oyster-catcher. M.2.32.

‘Poad.: Wi 443. Redwing. A.1.406.

Blackbird. M.2.32. Golden Plover. A.2.533.

A hrush 3 Whee 32. Landrail. 2A..2: 3829.5; Mi .2. 32:
Chaffinch. M.2.32. Isospora rara (Gregarine). M.2.32.
Starling.” “Wi-2 632. Davainea proglottina (during one
Plover. M.2. 32. : phase of life history). M.2.32.
Curlew. M.2.32. : Ascarioides .limacis (Nematode
Woodcock. M.2.32. worm) infests the eggs. M.2.32.

“Whinchat. M.2.32.
L. maximus L.

In addition to enemies of the group (given above) this species is infested
by Leptodera flexilis (Nematode), M.2.39, and L. angiostoma (Nematode),
M. 2.30.

L.. flavus Li. :
: Larva of Drilus flavescens. M.2.82.

L. arborum Bouch. |
“A species of Carabus.’ M.2.93.

Agriolimax.
A. agrestis L.
Hedgehog. M.2.110. Blindworm (Slow-worm). B.9.
Lapwing. A.2.549; D.235. 161 ; “E1442. 410:
Red Grouse. D.298. Nematode Worms (Rhabditis). F.3.
Little Owl. D.201. 61.
Wood Pigeon. A.2.479. Nematode (Ascarioides limacis) in-
Tawny Owl. A.2.94. fests even the eggs. M.2.110.
Whimbrel. A.2.667. Albertia vermicularis (Rotifer).
Rook. M.2.110. Mg, £00.
Pheasant. M.2.110. Mermis nigrescens (Hair Worm).
Quail. M.2.110. M.2.110.
Fieldfare. M.2.110.
Milax.

M. sowerbyi (Fér.). |
Testacella mauget. B.20.149.

Vitrina.
V. pellucida (Mill.).
Golden Plover. A.2.533; O.29.183.

WILD : ENEMIES OF MOLLUSCA OF THE BRITISH ISLES. 253

Hyalinia.
Glow Worm larva (L. noctiluca). G.22.5.
Ay. crystallina (Miill.).
Ants. B.16.127.

. Blackbird. M.3.35.
Starling. M.3.35.

Hy. cellaria (Mill.).
‘Thrush. | JV. 3.35.

Ay. mtidula (Drap.).
Stockdove. M.3.71.

Zonitoides.

Bank Vole. B.9.161.
Water Rail. A.2.842.

Shrew. B.9.161.
Common Vole. B.9.161.

Arion.

Redwing. A.1.406. Common Crane. A.2.825.
Nematode Worms (Rhabditis). F.3.61.

Arion ater (L.).
Hedgehog. G.22.5. Badger. G.22.5.
‘Parush. <G.22-8, Brown Owl. G.22.5
Leptodera appendiculata and two other Leptodera not named. Ila 2.173.

A. subfuscus Drap.
“In addition to the ‘general enemies’ of the Mollusca, numerous
intestinal worms as yet unidentified.’ M.2.197.

A. hortensis Fér.
Lapwing. D.235. Red Grouse. D.298.

Carabus violaceus. B.20.85.

Pyramidula.
P. rotundata Miill.
Stockdove. M.3.475. Song Thrush. M.3.475.

Ants... B. 16.727:

Helicella.
H. virgata Da Costa.
Mole. B.16.226.
“Mice.” ME.Pt:24 150-1.

Herring Gull—Seen devouring
virgata, 'Tenby, Sep., 1935.—

Rock Dove. A.2.485 ; M.Pt.24.

150-1.
Stock Dove. M.Pt.24.150-1.
“Pigeons generally.”
150-1.
Red Grouse. D.298.
Lapwing. M.Pt.24.150-1.
Wheatear. M.Pt.24.150-1.
Pheasant. M.Pt.24.150-1.
Fieldfare. M.Pt.24.150-1.
Redwing. M.Pt.24.150-1.
Starling. M.Pt.24.150-1.

Song Thrush. M.Pt.24.150-1.
H. itala L.

Rabbit... Bs9, 161.> 18327.

Field Mice. M.Pt.24.120-1.

Thrush.
120-1.

H. pisana Mill. H.358.

Ocypus olens (Devil's Coach
Horse). H.360;
120-1.

WL Pt. 24.

Ce... NL. Pt 24.

M.Pt.24.

ei Kooks

Glow Worm larva (L. noctiluca).
Ga22. 6,

Melinda cognata Meig. M.Pt.24.
sy * oN. xh, 1927.

M. gentilis (R-D) Verrall. M.Pt.
24.150-1; N.xt1. 1919.

Sarcophaga migriventris Meig. N.
x1. 1919.

S. crassimargo Pand. N.xi.1919.

Engyzops pecchiolii Rond. N.xiii.
1921.

Rock Dove. A.2.485 ; M.Pt.24.
120-1.

Whimbrel. A.2.667; M.Pt.24.
120-1.

Drilus flavescens. M.Pt.24.121.

Sarcophaga nigriventris Meig.
M.Pt.24..121 7 Nixt. toro.

354. JOURNAL OF CONCHOLOGY, VOL. 20, NO. I2, SEPTEMBER, 1937.

H. caperata Mont. 3
Wood Pigeon. B.9.160. Golden Plover. O.29.183.

Trochula.

T. elegans Miill.
Larva of Drilus flavescens. H.230.

Cochlicella.
C’. barbara (L.).

Golden Plover. O.29.183. Rock Dove. A.2.485.
Ringed Plover. O.29.183.
Sarcophaga setipennis Rond. N.xi.1919.

Theba.

I. cantiana Mont.
Mice, M. Pt 23:34. Song Thrush. B.13.323.
Thrushes. G.22.5; 3.10.27; M.Pt.23. 34.
Glow Worm larva (L. noctiluca). Observ od at F olkestone, August, 1931.
—A. K, L.* M.Pt. 23-84.
Sarcophaga teretirostris Pand. N.xi.1919.

T. cartusiana Mill.

Coleopteron—Phosphuga levigata. M.Pt.23.100.
Zonites algirus. M.Pt.23.100.

Ashfordia.

A. granulata Alder.
“ Mice. =< NE-Rt 2374.

Hygromia.
H. hispida L. |
House Sparrow. B.9.160; M.Pt.22.22.
Landrail. Mi. Pt.22.23. ‘Pheush. JV. Pt. 22.22.
H. striolata Pfeiffer.
‘Thrushes=> G.220e3° H. 355
“No doubt Game birds.’ "—J. Ree. Masefield, B.9.161.

H. limbata Drap.
Thrushes. G.22.5.

H. fusca Mont.
Bank Vole. M.Pt.22.50.

Arianta.
A. arbustorum L.
Bank Vole. M.3. 422-3. Woodlice. M.3.488.
Thrushes. G.22.5 ; M.3.422-3. Phora bergenstammt Mik. N.xi.
Song Thrush. les ; 16.264. I9QI9Q
Blackbird. M.3.422-3. Phora bohemani Becker. N.xi.1919
Newts. M.3.488. Phora immaculata Strobl. N.xi.
Leeches.. M.3.488. IgIgQ.
Helix.
Shrew. B.9.161. Common Snipe. A.2.677.
Bank Vole. B.9.161. — Jack Snipe. A.2.681.
Common Vole. B.9.161. Herring Gull. A.2.752.
Reed Warbler. = - S48: Landrail. A.2.829.
Wheatear. J.1.4 Water-rail. A.2.842.

Kentish Plover. ne 2. 27, , Silpha quadripunctata. F.3.58.

WILD > ENEMIES OF MOLLUSCA OF THE BRITISH ISLES. 355

Helix pomatia L. ;
Thrush. G; 2.5. Discomyza incurva Fallen. N.xi.
Phora bergenstammi Mik. N.x1. 1919.
_Aphiochaeta rufipes Meig. N.xi.

191g.
- Phora bohemant Becker. N.xi. 1919.
IQIQ. Homalomyia canicularis L. N.xi.
Phora immaculata Strobl. N.x1. IgIQ.
IQIQ. Cercaria pomatiz Vaney and

Conte. M.3.218.
H. aspersa Mill.

Rabbit.. -B.9,161 : 16.100 3:19, Drilus, Staphylinus, Silpha. M.3.
190; Ml .3 248. 248-9.
Rats. IM. 3,248. Phora maculata Meig. M.3.248-
Moles. M.3.248. 9; N.xi.1919.
Hedgehogs. M.3.248. Phora unispinosa Zett. N.xi.1919.
Field Vole. M.3.248. Phora bergenstamm. Mik. N.xi.
Eel (Common Freshwater). K.8. _ 191g.
$27. Phora bohemani Becker. N.xi.
Redwing. A.1.406. : 19IQ.
Thrush. 1.365 5. B-18.345; Phora immaculata Strobl. N.xi.
M.3.248. 1g19Q.
Blackbird H. 365; M.3:248.. es canicularis L. Nx.
Curlew. A.2.664.
Ayalima lucida Drap. G.22.5. Ashe rufipes Meig. N.xi.
Glow Worm (L. noctiluca). H.365. IQIQ.

H. nemoralis L.
Rapbit. B.9.161 * 12.268: Mi. Drilus flavescens. G.22.5; M.3.

2.201: 281-2.
Rats. M.3.281. Homalomyia canicularis L. N.x1.
Field Mice. M.3.281. 1QIQ.
Voles. M.3.281. Aphtocheta rufipes Meig. N.xi.
Hedgehog. M.3.281. IQIQ.
Song Thrush. K.364; B.72. Phora bergenstammi Mik. N.x1.
92%: 16: 264 3) 18.6303) Ma. IQIQ.
Z51. Phora bohemani Becker. N.xi.
Wood Pigeon. B.16.227. 1919.
Curlew. A.2.664. | Phora immaculata Strobl. N.xi.
Pheasant. B.16.227. 1919
Blackbird. M.3.281-2. Phora pressata Becker. N.xi.1919.
Glow Worm (L. Rechiies B.16.
82 3: °M.7, 281.

Eggs destroyed i Ants, Centipedes, Mollusca, and Dipterous larve.
M.3.281-2. |

H. hortensis Mill.

Rats. M.3.333-4. Sarcophaga hemorrhoa Meig. N.
Mice.. M3. 333-4. x1. I1QIQ.
Hedgehogs. M.3.333-4. Homalomyia canicularis L. N.xi.
Rabbits. M.3.333-4. 1919.
Eel (Common Freshwater). K.8. Aphiochzxta rufipes Meig. N.x1.
at, 1919.
ri cach: M.3.333-4; G.22,8; Phora bergenstammt Mik. N.xi.
B.16.264. 191g.
Blackbird. M.3.333-4. Phora bohemani Becker. N.x1.
Wood Pigeon. B.16.264. 1919.
Pheasant. B.16.227. Phora immaculata Strobl. N.xi.
Drilus flavescens. G.22.5; M.3. IgIQ.

333-4.

356 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937-

Euparypha.
E. pisana (Miill.).

Hedgehog. M.3.488.- Testacella devours the young.
Mediterranean Black-headed Gull. M.3.488.

A.2.740. Coleoptera (Carabids and Lampy-
Kestrel. M.3.376. rids). M.3.488.
Wild Duck. M.3.376. Salticella fasciata Meigen... N.xi.
Crows. M.3.488. IQIQ.
Magpies. M.3.488. Helicobasca muscaria Meigen.
Owls. M.3.488. (Found larval in dead snails).

N.xi. 1919.
Ena.

E. obscura (Miill.).
“Birds. 11.370.

Cochlicopa.
C. lubrica (Miill.).
House Sparrow. B.9.160.

Pupa.
Bearded Titmouse. A.1.259. ~ Insects.” 1.373.
Balea.
B. perversa (L.).
: Wall Creeper. A.1.220. (One record only.)
Clausilia.

“ Beetles and Birds.’ H.374~-5. Norwegian Bluethroat. A.1.474.
C.. bidentata Strom.
Tits. B.9.374. (Observed mutilating shells.)

Succinea.

Bearded Titmouse. A.1.259. Wood Pigeon. A.2.479.
Black-winged Stilt. A.2.649.

S. putris (L.).

Wagtail. H.381. Blackbird. H.381.
Thrush: 1 -387. Bearded Titmouse. F.3.58.
Ancylus.
Dipper. “D.156. : Little Crake. A.2.837.
A. fluviatilis Mill.
Dipper. B.9.161. “The Waders.” B.9.161.:
Water Rail. B.9.161. Fish.’ AB 29s On)
Moorhen. B.9.161. Grey Wagtail. J.1.106.
Coot. B.9.161.
Limneza.
Rat. F.3.58. Common Eider. D.224.
Grey Wagtail. J.1.106. Little Grebe. A.2.464.
Glossy Ibis. A.2.197. Red-necked Phalarope. A.2.644.
Tufted Duck. A.2.324. Spotted Crake. A.2.832.

L. auricularia (L.).
Kingfisher. D.176.
L. pereger (Miull.).

Dipper. D.156. Ringed Plover. O.29.183.
Kingfisher. D.176. Red Grouse. D.2098.
Goldeneye. A.2.335. Song Thrush. O.29.243.

Lapwing. D.235. Dytiscus marginalis. F.3.59.

WILD :

L.. palustris (Mill.).

Kingfisher. D.176.
L. truncatula (Mill.).
Pied Wagtail. L.88. Lapwing. D.235.
Moorhen. D.278.
L. stagnalis (L.).
Brown Rat. B.16.144. Goldeneye. A.2.335.
Water Vole. B.18.327. Dytiscus marginals. Fi. 342.
Dipper. D.156. E950: :
Kingfisher. D.176.
(ie Hi, cen presidential address to Tayetneel Naturalists’ Field
Club, 1891, 14.)
Planorbis.
Bats. B.9.162. Slavonian Grebe. A.2.455.
Aquatic Warbler. A.1.351. Little Grebe. A.2.464.
Dipper. D.156. Broad-billed Sandpiper. A.2.600.
Kingfisher. D.176. ~Greenshank. A.2.633.
Glossy Ibis. A.2.197. Common Snipe. A.2.677.
Garganey. A.2.290. Little Crake. A.2.837.
Pintail. A.2.303. Water Rail. A.2.842.
Shoveler. A.2.309. Pheasant. D.285.
P. corneus (L.). ;
Water Vole. B.18.327. Song Thrush. O.29.243.
P. carinatus (Mill.).
Red Grouse. D.298.

P. leucostoma (Mullet).

ENEMIES OF MOLLUSCA OF THE BRITISH ISLES.

o57

Natterjack Toad. B.9.161.

Physa.
Dipper...B.9 161. Moorhen. B.9.161.
Golden-eye. A.2.335. Cots. \ia wee TOT.
_Lapwing. A.2.549. “The Waders.” B.9.161.
Black-winged Stilt. A.2.649. ish. By Ge arer.
Water Rail. B.9.161.
Paludestrina.
British Golden Plover. A.2.533 Knot; And .833:

Grey Phalarope.

P. jenkinsi (Smith).

Aud; 641,

Scaup.” B2610;4to. Perch... B.717 215.
Care) 1 tis: Roach. B.11.15.
Dace. B.11.15.
Bithynia.
Little Grebe. A.2.464. Spotted Crake. A.2.832.
Lapwing. A.2.549. Little Crake. A.2.837.
Curlew. A.2.664. Water Rail. A.2.842.
Paludina.
Batic, 3 138, Sheld-duck. A.2.262.
‘Bats, ~ B29 .162. Little Grebe. A.2.464.
P. contecta (Millet).
Perch. -B.117.15. Minnow. B.11.15.
Valvata.
Dipper: _B.9. 267. Moorhen. B.9.161.
Little Grebe. A.2.464. Coot. Beos10r.

358 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

Little Crake.. A.2.837. “The Waders.” B.9.161.
Water Rail. B.9.161. Seen. B.9.161.

V. piscinalis (Miull.).
Eel (Common Freshwater). B.9.162.

Dreissensia.
D. polymorpha (Pallas).
Water Vole. B.9.161. | Rat. B.9.161.
Anodonta.
Bats. B.9.162. Rook. L.88.
Otter. E.61; B.10.306. Jackdaw. B.9.161. :
Water Vole. E.61. Heron. A.2.202 - "B10. 300...
«Rat, Boo. 16r, Common Eider. D.224.

Common Scoter. A.2.372.
A. cygnea (L.).
Mute Swan. B.11.318.
Otter |
Brown Rat poneus in the J. W. Taylor Collection.

Common Heron

A. anatina (L.).
Rats. Shells in J. W. Taylor Collection.

Sphzrium.
Water Shrew. B.9.161. Golden Plover. A.2.533.
Pisidium.
Common Pochard. A.2.317. Scaup Duck. A.2.330.
Tufted Duck. A.2.324. Jack Snipe. A.2.681.

Water Rail. A.2.842.
P. casertanum Poli.
Scaup Duck. B.16.319.

P. subtruncatum Malm.
Scaup Duck. B.16.319.

ALPHABETICAL List OF MOLLUSCAN ENEMIES.

In the following classified lists names have been included which
are recorded as ‘‘ preying on mollusca”’ but, no specific species
of mollusc having been given, such enemies do not appear in the
foregoing molluscan list.

Mammals.
Badger Rat, Black
Bats Rat, Brown
Fox Shrew, Common
Hedgehog Shrew, Water
Mole Vole, Bank
Mouse, Field Vole, Common or Field
Otter Vole, Water
Rabbit

Birds.

The following birds are definitely noted as taking “land”’
and/or ‘“‘ freshwater’’ mollusca or their eggs, including those
where the genus and/or species of mollusca is given.

WILD: ENEMIES OF MOLLUSCA OF THE BRITISH ISLES. 359

Bittern, Little . Phalarope, Grey
Blackbird Phalarope, Red-necked
Bluethroat, Norwegian Pheasant

Bunting, Yellow Pigeon, Wood
Chaffinch Pintail

Coot Pipit, Meadow
Courser, Cream-coloured | Pipit, Red-throated
Crake, Little Plover, Southern Golden
Crake, Spotted Plover, Grey

Crane, Common Plover, Kentish
Creeper, Wall Plover, Ringed
Curlew, Common Pochard, Common
Dipper, British Quail

Dove, Rock Rail, Land-

Dove, Stock Rail, Water-

Duck, Buffel-headed : Redshank, Spotted
Duck, Scaup Redwing

Duck, Sheld Rook

Duck, Tufted Ruff

Egret, Little Sandpiper, Broad-billed
Eider, Common Sandpiper, Green
Fieldfare Sandpiper, Marsh
Garganey | Sandpiper, Wood
Godwit, Black-tailed ! Scoter, Common
Golden-eye Shoveler

Grebe, Great-crested Smew

Grebe, Little Snipe, Common
Grebe, Slavonian Snipe, Jack
Greenshank Sparrow, House
Grouse, British Red Starling

Gull, Herring Stilt, Black-winged
Gull, Mediterranean Black-headed Stone-Curlew |
Heron, Common Swan, Mute

Heron, Great White Swan, Whooper

Ibis, Glossy Teal

Jackdaw Thrush, British Song
Kingfisher Titmouse, Bearded
Knot Wagtail, Grey
Lapwing Wagtail, Pied
Magpie Warbler, Aquatic
Mallard Warbler, Reed
Merganser, American Hooded Wheatear

Moorhen Wheatear, Greenland
Owl, British Tawny Whimbrel

Owl, Little Woodcock

Oyster Catcher

Birds definitely noted as taking ‘‘slugs’”’ and/or “ snails’’ or
their “‘ eggs’ which, from their usual habitats, probably take land
and/or freshwater species.

Accentor, Alpine Dunlin, Southern
Bunting, Corn Dunlin, Lapland
Bunting, Ortolan Gull, Black-headed
Bustard, Great Gull, Common
Bustard, Eastern Little Hedge Sparrow, British
Bustard, Macqueen’s Heron, Night

Buzzard, Honey Jay, British

Cuckoo Lark, Sky

Cuckoo, American Yellow-billed Lark, Wood

360 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

Ouzel, Alpine Ring-
Partridge, Common
Partridge, Red-legged
Pipit, Rock

Pipit, Scandinavian Rock
Pipit, Water

Pipit, American Water-
Robin, British ™
Robin, Continental
Sandpiper, Spotted

Birds noted as taking ‘‘ Moliusca’’ and from the usual habitat
of which, it is probable that land and/or freshwater species are

taken :—

Bunting, Reed
Buzzard, Common
Chough

Crake, Baillon’s
Crake, Carolina

Crow, Carrion

Crow, Hooded
Curlew, Eskimo
Curlew, Slender-billed
Dipper, Irish

Dotterel

Duck, Ferruginous
Duck, Ruddy Sheld-
Gadwall

Godwit, Bar-tailed
Goosander

Grebe, Black-necked
Gull, Great Black-backed

Gull, British Lesser Black-backed

Snipe, Great

Thrush, Mistle

Thrush, Continental Song
Thrush, Hebridean Song
Warbler, Cetti’s

Warbler, Icterine

Warbler, Great Reed

Warbler, Sedge

Wheatear, Eastern Black-eared

Nuthatch, British

Oriole, Golden

Ouzel, Ring

Plover, Asiatic Golden
Plover, Northern Golden
Plover, Semi-palmated Ringed
Pochard, Red-crested

Raven

Redshank, Common
Sandpiper, Common
Sandpiper, Curlew
Sandpiper, Solitary
Spoonbill

Stork, White

Thrush, Rock

Titmouse, British Great
Titmouse, Continental Great
Wagtail, Blue-headed
Wagtail, Yellow

Heron, Squacco Whinchat
Kite, Black
Fish.
Bream, Common Minnow
Bream, White Perch
Caras “Betioas. Pollan —
Char Roach
Dace. 6.17.15. Ruffe
Eel Tench
Grayling Trout
Gudgeon
(See Freshwater Fishes of the British Isles. C. Tate Regan, 1911.)
Reptiles.
Slow-worm Viper
Amphibia.

Frog, Common

Toad, Natterjack

‘Toad, Common ““ Newts.”’
Crustacea.
Crayfish Woodlice

WILD : ENEMIES OF MOLLUSCA OF THE BRITISH ISLES. 361

Ascarioides limacts
Leptodera angiastoma
Leptodera appendiculata
Leptodera flextls

Euparypha ptsana
HAyalinia alliaria

Worms, etc.

Mermis nigrescens
Nematode worms (Rhabditis)
“* Leeches.”’

Mollusca.

Hyalinia rogersi
Limas maximus

Hyalinia cellaria Muilax gagates
Hyalinia lucida Testacella haliotidea
Ayalima ntidula T. mauget
Hyalinia radiatula

Vitrina sp.

(See A. E. Boycott, Journal of Ecology, 22, 3.4.5.)

Ants, Red and Wood
Aphtocheta rufipes Meigen
Carabus, A species of
Discomyza tncurva Fallen
Drilus flavescens—larva of
Dytiscus marginalis and larva
Engyzops pecchiolu Rond.
Helicobosca muscaria Meigen
Homalomyta canicularis L.
Lampyris noctiluca, larva of
Melinda cognata, Meig.
Melinda gentilis (R—D) Verrall
Ocypus olens

Albertia vermicularis (Rotifer)
Centipedes.
Davainea proglottina

Insects.

Phora bergenstammi Mik.
Phora bohemani Becker

_Phora immaculata Strobl

Phora maculata Meigen
Phora pressata Becker

Phora untspinosa Zett.
Salticella fasciata Meigen
Sarcophaga crassimargo Pand.
Sarcophaga hemorrhoa Meig.
Sarcophaga nigriventris Meig.
Sarcophaga setipennis Rond.
Sarcophaga teretirostris Pand.

Various.

Isospora rara (Gregarine)
Phosphuga lzvigata (Coleopteron)
‘“ Small wireworm.”’

Nucella lapillus at Knott End, near Fleetwood.—During the month of
August, 1904, some members of the Conchological Society obtained from
the side of the breakwater at Knott End, Fleetwood, a number of specimens
of Nucella lapillus, then known as Purpura lapillus. (See Journal, Vol. 11,
1904, p. 115.) This year, wishing to see if the colony still existed, I went
across the ferry and out on the breakwater. Where the colony formerly
existed on the stones of the breakwater there were no signs of the shells ;
but after some time spent in hunting under loose stones, a few were found
adhering to the under-surfaces of the same. The locality, however, seemed
to be confined to a small area of about 5 yards square, and is apparentl y
dwindling, probably on account of sewage, signs of which were noticed.
It would be interesting to obtain the experiences of other collectors with
respect to this and other similar localities —C. H. Moore. (Read before the
Society, 14th November, 1936.)

24

362

NOTES ON BRITISH OPISTHOBRANCHS. 1. THE ECOLOGY
OF ARCHIDORIS FLAMMEA (A. & H.).

By Nora FISHER.

THE Nudibranch Archidoris flammea (A. & H.) appears to be a rare
species and little is known of its ecology. Details of the Greenisland
(Co. Antrim) specimens upon which the following account is based
are as follows :—

No. Specs. Length

Date of Capture. Colouring. taken. (extended).
A. 4-II-1934. Pure scarlet. Rhinophores I 3° mm.
orange with scarlet
lamelle.
B. 30-12-1934. Scarlet, mottled with small I 33 mm.

purple spots. Branchiz
edged dull purple. Rhino-
phores uniform scarlet.

C. 31-12-1934. Pure scarlet. : i I 10mm.

D. 16— 2-1935. Scarlet, blotched _ pale I 27 mm.
purple.

E-F. 18-2-1935. Scarlet, blotched pale 2 Io-I2 mm.
purple.

Habitat.—According to Eliot (1), p. 21, A. flammea “lives on
red sponge’’, but although a bright red sponge, Hymentacidon
sanguinea, is abundant between tidemarks at Greenisland, repeated
searches during the spring, summer, and autumn of 1934, 1935,
and 1936 yielded no A. flammea. Winter proved more profitable.

_A was found at low water crawling on a bare reef of ‘Trias, where
the bright scarlet mollusk was a highly conspicuous object on the
dull-red marl. The nearest patch of Hymeniacidon was about
100 yards distant. This specimen was sent to Mr. R. Winckworth,
who kindly confirmed my tentative identification of it. B was
found resting on a pale yellow sponge, Halichondria fibrosa
(Fristedt) under a stone near L.W.M. There were patches of the
Hymentacidon only a few inches away. C occurred in a most unlikely
habitat. The marl which is visible in places on the Greenisland shore
is easily split, and a foot-square slab about 2 inches thick levered
off the parent-mass revealed the following assortment of animals
beneath it: Sagartia sp., several; a large green-and-pink Nereid
worm; Curratulus cirratus (O. F. Miiller), several; Porcellana
platycheles Pennant, two; Paphia saxatilis (Fleuriau), several, and
one small Archidoris flammea. No Hymeniacidon within 50 feet
of the spot. D was found beneath a stone lying on a marl-bed at

a about half-tide mark, where the nearest Hymeniacidon was quite

NORA FISHER : NOTES ON BRITISH OPISTHOBRANCHS. 363

500 yards distant. And finally E and F were obtained beneath stones
at L.W.M.; the nearest Hymeniacidon was in one case about
50 feet and in the other about 20 feet distant.

Food.—Eliot (1), p. 5, footnote, states that A. flammea eats red
sponges, and Garstang (2), p. 444, found it feeding ‘“‘on a red
Desmacidon-like sponge ”’ at Plymouth, but no more definite informa-
tion was available. Therefore the two specimens, B and C, were
used to test the animal’s taste in food. Both were active, and
appeared perfectly normal and healthy in every way. On 30th
December B was given some pieces of the pale yellow sponge,
Halichondria fibrosa, upon which it had been resting when found,
but although watched closely for some hours that evening it made
no attempt to eat the Halichondria. When the yellow sponge was
removed and some of the red Hymeniacidon substituted the mollusk
at once crawled on to it, and in about two hours had eaten out a
semi-circular piece about 9 mm. across. Next the red sponge was
removed and Archidoris left fasting until the following morning,
when some of the common yellow Halichondria panicea (Pallas)
was given to it. But even when the nudibranch was placed actually
on top of the sponge it always crawled off again at once. For several
hours it was watched closely, and during that time did not eat any
of the yellow sponge, and, if placed on it, at once moved off again.
Specimen C was not tested with the red sponge, but when tried
with the yellow Halichondria panicea behaved as B did, and ignored
it. Another specimen (E) was placed with some Hymeniacidon
and also some Halichondria panicea, but although I watched carefully
for some hours it paid no attention to either sponge. This negative
result may have been due to the mollusk having been captured only
a few hours earlier, but unfortunately lack of time prevented me
from repeating the experiment.

Breeding Habits.—I have been unable to trace any reference to the
breeding habits of this species. ‘The six Greenisland specimens
were each kept for a few days in captivity, but none spawned, nor
could I find spawn on the shore. The specimen, apparently adult,
taken 30th December, 1934, was in breeding condition. In
captivity it repeatedly crawled to just above the water-level, and then
raised the right side of its mantle, revealing the dilated genital
aperture. Sauvage (3), p. 27, has noted this habit among the
Doridids, and I have noticed that A. britannica (Johnston) behaves
in this way just before pairing.

Eliot (1), p. 27, states that Nudibranchs “ probably take little
nourishment during the breeding season’ and that “ in the period
immediately before spawning the stomach is found to be empty ”’.
If this is so, then some time must elapse between pairing and

364. JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

deposition of the spawn, for the Greenisland Archidoris flammea B
ate greedily of Hymentacidon, yet appeared eager to mate.
Nothing definite is known of the periodic movements (if such
exist) for breeding or other purposes of A. flammea, and the following
conclusions must be regarded as tentative only. |
It is perhaps significant that the only specimens obtained at
Greenisland during nearly a dozen years’ collecting are the six
mentioned in this paper. ‘They were collected 4th November-
18th February, a period during which I had been able to do very
little collecting in previous years. A fortnight later, during the March
spring tides, a vain effort was made to find further specimens ; on
the other hand, A. britannica, which through the autumn and winter
of 1934-5 had been absent, reappeared in great numbers. From
March, 1935, until April, 1936, no more A. flammea were obtained,
though frequently searched for. The unusual severity of the weather
may perhaps have been responsible, or was its appearance in the
winter of 1934-5 due to the unusual warmth of the summer of 1934 ?
Perhaps this mid-winter appearance of A. flammea between tide-
marks may be related to some particular phase of development of
its food-animal, the sponge Hymentacidon sanguinea. Dr. M. Burton
tells me that ‘‘ Growth [of the Hymeniacidon] appears to be greatest
during the winter months, and it is probable that maximum develop-
ment is obtained at this period also’. At Greenisland it is common
between tidemarks, and appears to be more abundant during the
winter. Possibly, therefore, Archidoris flammea migrates inshore
during the winter, feeds for some time on the Hymentacidon, then
pairs and spawns. Unfortunately this otherwise plausible theory
does not account for the presence of the three small specimens
(C, E, and F), unless such small specimens are sexually mature
and breed? Also, presuming that the young A. flammea live in
waters beyond L.W.M., as their absence from the shore during the
summer would suggest, on what do they feed? Because, according
to Stephens (19, p. 68), Hymentacidon sanguinea is ‘‘ not found,
or is, at least, very rare in even shallow water dredgings off the
Irish coast, but, with Halichondria panicea, it is the commonest
sponge between tidemarks round our shores.”’ Does another equally
suitable red sponge replace Hymentacidon sanguinea beyond tide-
marks at Greenisland ?
Elsewhere Archidoris flammea appears to occur at all seasons ;
the records I have collected show that it has been found during the
following months: February, Kilkee; April, Plymouth (a);
June, Plymouth (b) and Lamlash; August, Ballaugh, Isle of Man,
and Valentia (b); July-September, Valentia (a); ‘‘ Summer,”

* No further specimens found during the winters 1935—6 and 1936-7.

NORA FISHER : NOTES ON BRITISH OPISTHOBRANCHS. 365

Jersey, Guernsey, and Herm; November, Plymouth (d). All these
records (except the Kilkee and Channel Island ones) refer to
dredged specimens.

A. flammea is always rare and only taken singly or very sparingly
(the Channel Island records are exceptional).

Variation.—This species appears to vary but little. Alder &
Hancock (4, p. 330) describe the type-specimens as “‘ bright orange-
scarlet ; occasionally blotched with purple. Dorsal tentacles orange,
with bright scarlet lamellz. Length nearly an inch, breadth one-
half as much’’. One of the types was pure scarlet, the other.
‘scarlet, with a few blotches of purple on the back, and a pale
purple or lilac margin to the branchial plumes”. Forbes (10, p. 103)
describes his two Manx specimens as ‘‘ most vivid orange-red,
with lighter specks on the back. Ten branchiz, bright red edged
blackish-green’’. As regards size few data are available. Vayssiere
(20, p. 317) gives “‘ Longueur 24.mm., sur 11 mm. de largeur ’,
and apart from the Greenisland specimens the following dimensions
are recorded (for convenience all measurements have been reduced
to mm.) :—

Locahty. Date of Capture. Size. No. Taken.
Kilkee, Co. Clare. I5—2—1909. 26 mm. I
(shore, half-tide).
Plymouth, 4-5 fm. April, 1890. ca. 20 by 13 mm. I
De. De; Early June, 1890. 12-13 mm. I
Ballaugh, Isleof Man. Aug., 1838. ~ Larger, 38 by ca. 2
20 mm.

‘“ Formule radulaire 36, 0, 36’ (Vayssieére, loc. cit.).

Protective Colouration.—Garstang (2, pp. 444-5) suggests that the
close similarity in both colour and texture of Archidoris flammea
to the sponge Hymentacidon upon which it feeds is a case of protective
resemblance, and he instances his difficulty in “ spotting’’ the
mollusk when on the sponge. Eliot (i, p. 21) also mentions this
protective resemblance. A consideration of all available records
causes one to doubt this statement ; the mollusc is usually associated
with the sponge, but does not by any means always occur on the
sponge, where alone its ‘‘ protective colouration’’ would be of
service. Except when actually on the Hymentacidon Archidorts
flammea is a conspicuous object. ‘The eagerness shown by one
captive specimen to get on to the Hymeniacidon appeared to be due
to hunger, and not to any desire for concealment, and an attempt to
make another specimen ‘‘ choose’”’ between red Hymeniacidon and
yellow Halichondria gave only a negative result.

Geographical Distribution ——Archidoris flammea is at present
known to occur only in the British Isles and at Wimereux, North
France.

12, SEPTEMBER, 1937.

JOURNAL OF CONCHOLOGY, VOL. 20, NO.

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367

NOTES ON BRITISH OPISTHOBRANCHS.

NORA FISHER

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368 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

Abraham (5, p. 204) doubtfully identifies the French Doris argus
of Bouchard-Chantereaux with A. flammea, but Sauvage (3, p. 26)
states: “‘ Le véritable Doris argus a une couleur rouge et est voisin
du Doris flammea A. & H.: il habite la Méditerranée,” and Iredale
& O’Donoghue (6, p. 238) give no continental synonyms of A.
flammea.

The table on pp. 366-7 gives all the data which could be obtained
concerning all records of A. flammea; from this it will be seen that
its British range is mainly south and south-west, and coincides
roughly with the area in which Hymentacidon sanguinea is abundant.
Dr. H. O. Bull tells me that on the Northumberland—Durham coast
Hymentacidon is rare and A. flammea appears to be absent.

CONCLUSION.

(1) Although Archidoris flammea (A. & H.) is usually associated
with the red sponge Hymentacidon sanguinea (Grant), upon which
it feeds, the colour-similarity does not appear to be protective.

(2) ‘wo captive specimens were experimented with; both
showed a definite dislike for the yellow sponge Halichondria panicea
and refused either to eat or even to remain on it. The red sponge,
Hymentacidon sanguinea, was eagerly devoured by the one mollusk
to which it was offered.

(3) Archidoris flammea is only known to occur in the British Ee
and at Wimereux, near Boulogne, Northern France; its Britannic
range is mainly south and south-west. It occurs in areas where
Hymeniacidon sanguinea is abundant and the limiting factor of its
distribution appears to be the presence of this sponge.

My thanks are due to the following for information concerning
some of the records of A. flammea: Mr. J. R. Bruce, Dr. H. O.
Bull, Dr. R. Elmhirst, Dr. M. V. Lebour, Dr. C. H. O’ Donoghue,
Professor L. P. W. Renouf, and Mr. J. R. le B. Tomlin. I would
also like to thank Dr. M. Burton who kindly named the sponges and
gave me much information regarding them, and Mr. R. Winckworth
for encouragement and help.

BIBLIOGRAPHY.

(1) Eviot. Mon. Bnit. Nud. Moll., pt. 8 (Suppl.), 1910.
(2) Garstanc. “‘A Complete List of the Opisthobranchiate Mollusca
found at Plymouth,” 7. Mar. Biol. Ass., i, 399-456, 1890.

(3) SauvaceE. ‘ Catalogue Nudibranches des cétes du Boulonnais, dressés
d’aprés les notes de Bouchard-Chantereaux,” ¥. Conchyl., XX,
25-36, 1873.

(4) ALDER & Hancock. “‘ Description Pterocheilus, a new genus of Nudi-
branchiate Mollusca, and two new species of Doris,’ Ann. Mag.
N.H. 1844, pp. 329-331.

(5) ApRaHaM. “ Rev. Anthobranchiate Nudibranchiate Mollusca,” P.Z.S.,
1877, pp. 196-269.

NORA FISHER: NOTES ON BRITISH OPISTHOBRANCHS. 369

(6) IREDALE & O’DonocHuE. “ List Brit. Nudibranchiate Mollusca,’’ Proc.
Malac. Soc., xv, 195-233, 1923.
(7) Plymouth Marine Fauna, ed. 2 (1931).
(8) Cocks. ‘‘ Contributions to the Fauna of Falmouth,’ Ann. Rept. Roy.
Cornwall Polytechnic Soc., xvii, pp. 38-101, 1849.
(9) Victoria History of Cornwall, Zoology, Marine,’ by Professor J. Clarke,
pp. 113-159, 1906.
(10) Forpes. ‘‘ On some New and Rare British Mollusca,” Ann. Mag. N.H.,
1840, pp. 102-8.
(11) ReNour. “ Preliminary Work of a New Biological Station ’’ (Lough
Ine, Co. Cork, 1.F.S.), 7. Ecology, xix, 410-438, 1037.
(12) Wricut & GREENE. “‘ Rept. Marine Fauna South and West Coasts of
Ireland,’ Rept. Brit. Ass. for 1858, pp. 176-181, 1859.
(13) Browne, and Others. “‘ Fauna and Flora of Valencia Harbour on the
West Coast of Ireland,’ Proc. Roy. Irish Acad. (3), v, 667-854,

1900.

(14) Cotcan. ‘“ Doris flammea from the Clare Coast,” Irish Nat., xviii,
99, 1909.

(15) NICHOLS. “List Marine Mollusca of Ireland,’ Proc. Roy. Irish Acad.,
(3), V, 477-662, 1900.

(16) Norman. “ Mollusca Firth of Clyde,’ Zoologist, 1860, p. 7242.

(17) LANDSBOROUGH. Excursions to Arran, etc., 1851.

(18) KoEHLER. ‘‘ Contribution 4 l'étude de la faune littorale des iles Anglo-
Normandes (Jersey, Guernsey, Herm et Sark),’’ Ann. Sci. Nat.
(6), xx, no. 4, 1885. English transl. in Ann. Mag. N.H., 1886,
pp. 229-243, 290-307, and 351-3 67.

(19) STEPHENS. ' Sponges of the Coasts of Ireland. II: The 'Tetraxonida
(concluded),’’ Fisheries, Ireland. Sct. Invests., 1920, ii, 1921.

(20) VayssiERE. ‘‘ Mollusques de la France et des Régions voisines,’’ tome i
(publ. as pt. of the Encyclopédie Scientifique), 1913.

An Unusual Habitat of Helicella caperata.—The North Breakwater at
Fishguard stretches from an area of waste land and railway sidings east-
ward into the bay. On its northern—and seaward—side is a stone balcony
or terrace some 30 feet in width which is flanked by a stone wall 15 feet in
height. Tucked in under the southern side and skirting the harbour is a
railway track. On the terrace at 120 to 150 yards from its western—and
landward—end, some clinkers and sand have accumulated in shallow patches
from 5 to 10 feet long, probably blown along the terrace from the railway
sidings. These patches have been colonized by scurvy grass and sea
plantain, and there in June, 1936, were many living and some dead Helicella
caperata, mature and part grown. The mature shells suggested that the
snails were neither pioneers nor sojourners, but settled residents. ‘They—
or more probably their progenitors—may have been blown along the terrace
like the clinkers and sand, or may have crawled along the terrace from the
waste ground, or, which seems less likely, may have scaled the 15 ft. wall
from the railway track on its southern side. However that may be, the snails,
like the beetles, mites, and other animals living in the clinker patches, are
subject to frequent deluging by sea-water in rough weather. H. caperata
lives in mats of sea campion on the shifting shingle of storm beaches on the
coast of Norfolk (Trans. Norf. and Norw. Nat. Soc., xiii, p. 453), a habitat
even more austere one would think than the breakwater, but in Norfolk
it has two spartan associates, whilst at Fishguard no other snail has obtained
a footing on the meagre oases of the clinker patches——CuHas. OLDHAM.
(Read before the Society, 14th November, 1936.)

37°

THE GENUS XYMORUS GEBLER.
By H. A. REHDER.
(Read before the Society, 8th May, 1937.)

THE institution of this genus is to be found, according to the “‘ Index
Animalium”’, in the Bulletin Soc. Imp. Nat. Moscou, vol. i, 1839,
p. 51. Sherborn got this reference from Porro (Not. Bibl. Malac.,
1840, p. 36), adding that he was unable to find this genus in the
place quoted. :

Interested in correctly placing this genus, which Porro put in
the Bulimidz, I looked up the matter and was successful in locating
it. It appears in volume i of the above mentioned periodical, which,
however, appeared in 1829, and not in 1839. On pages 51 to 59
Gebler has an article on the Museum at Barnaul, near Tomsk,
Siberia (‘‘ Notice sur le Musée de Barnaoul en Sibirie’’), and gives
on page 55 a list of the mollusks found in that region. In a second
article (pp. 184-6) he repeats the list (p. 185), with some corrections
to which Ehrenberg, who was visiting the region with von Humboldt,
had called his attention. Here we find the name Xymorus
auricularius, which in the previous article had been written B. [ulimus]
auricularis [sic]. This is without doubt the shell now known as
Radix auricularia L., and Xymorus Gebler, 1829, becomes, therefore,
an exact synonym of Radix, Montfort, 1810. Middendorff (Szbzrische
Reise, vol. 2, pt. 1, 1851, p. 293) mentions the presence of this
species at Barnaul. The correct reference will therefore be:
Xymorus Gebler, Bull. Soc. Imp. Nat. Moscou, vol. i, 1829, p. 185.

PROCEEDINGS OF THE |
CONCHOLOGICAL SOCIETY OF GREAT BRITAIN & IRELAND.

640th Meeting, held at the Manchester Museum, 13th February, 1937.
Mr. G. C. Spence in the chair.

Election of New Member.
Robert B. Janson.

Candidate Proposed for Membership.

Mrs. J. E. Whitmore, 124 South Broadway, Redondo Beach, California,
U.S.A. (introduced by Mrs. Morehouse and Mrs. Mellor).

Member Deceased.
John Davy Dean.

Papers Read.

‘i Ancylus fluviatilis in Aquaria,’ by Ernest Dearing.
Notes on Northern Mollusca: I,’’ by Hans Schlesch.

PROCEEDINGS. 371

““ Some Zoogeographical Corrections,’ by Holger Madsen.
‘“ Orkney Land and Freshwater Shells,’ by J. R. le B. Tomlin.

Exhibits.
By Mr. C. H. Moore: Planorbis corneus var. major Pascal (33°5 mm.)
from Bohemia. 3
There was a special exhibit of Land Shells of Ceylon.

641st Meeting, held at the Manchester Museum, 13th March, 1937.
Mr. G. C. Spence in the chair.

Election of New Member.
Mrs. J. E. Whitmore. :

Candidate Proposed for Membership.

Brian Seymour Vesey-Fitzgerald, 200 Watford Way, London, N.W. 4
(introduced by C. Oldham and J. W. Jackson).

Paper Read.
Clausitlia dubia Drap., by R. H. Moses.

Exhibits.

By Mr. G. C. Spence: Afripomus and Viviparus spp. from Albert
Nyanza.

By Mr. A. K. Lawson: Photographs of land shells in natural habitats.

By Mr. F. Taylor: Fry of Hydrobia jenkinsi Smith from Boating Lake
at Alexandra Park, Oldham.

By Miss Fisher: Sets of the following species to illustrate adults and
juveniles : Pecten maximus (L.), Valentia, Co. Kerry (Miss M. J. Delap) ;
Spisula solida (L.), Magilligan, Co. Londonderry (Miss Fisher); Spisula
subtruncata (da Costa), Southport, Lancs. (W. H. Heathcote) ; Abra tenuts
(Mont.), Ballycarry, Larne Lough (Miss Fisher) ; Hiatella gallicana (Lam.),
juveniles from Dunseverick, Co. Antrim (R. J. Welch), adults from Green-
island (Miss Fisher); Cardium scabrum Phil., Ballycarry, Larne Lough
(Miss Fisher). Also Chlamys varia (L.) and Chlamys nivea (Macgillivray),
from various localities.

There was a Special Exhibit of ‘‘ Marine Mollusca illustrating attacks
by enemies ”’.

642nd Meeting (Joint Meeting with the Yorkshire and North Staffs Branches),
held at the Manchester Museum, 3rd April, 1937.

The President (Lieut.-Col. A. J. Peile) in the chair.

Present: Mrs. and Miss Morehouse, Mr. and Mrs. G. C. Spence, Mr.
and Mrs. J. C. North, Messrs. W. Thurgood, C. H. Moore, H. Emmett,
B. Bryan, and Drs. J. W. Jackson and L. C. D. Hermitte.

Election of New Member.
B.S. Vesey-Fitzgerald.

Papers Read.

““ Obituary Notice: Robert John Welch,” by J. Wilfrid Jackson.
“Obituary Notice: John Davy Dean,” by Colin Matheson.

Exhibits.

The Special Exhibit was Gulella, and the President, who takes a special
interest in this group, exhibited a fine series of some 166 species and
varieties ; also the radula of Gulella ugandensis Sm. He gave a most
interesting and informative talk on the group. Exhibits in the same group

372 JOURNAL OF CONCHOLOGY, VOL. 20, NO. 12, SEPTEMBER, 1937.

were made by Mr. G. C. Spence and the Manchester Museum. Other
exhibits were :— :

By Mr. G. C. Spence: Land Operculates. Also a water-colour drawing
of Malham Cove by the late J. Davy Dean.

By Mrs. Morehouse: Truncatella stimpsonit Stearns, Malaga Cove,
California, T. pulchella Pfr., and T. caribzensis Sow., Coxiella badgerensis
Johnston, and C’.. confusa Johnston, Corrong, S. Australia, Cyprea subviridis
Reeve, S. Australia, Trivia oryza Lam., Philippines, T. globosa K., Port
Blair, Pustularia nucleus L., and P. cicercula 1.., Oshima, Japan, Erato
vitellina Hinds, La Jolla, California.

By Mr. B. Bryan: Lymnza pereger (Miill.), Longton, Staffs. Also
other species of Lymnza from the same locality, Clausilia rugosa, with
curious mouth, and Vertigo antivertigo from Staffs.

By Mr. C. H. Moore: Selection from the John Brazier Collection
(Conchological Society's Cabinet) recently mounted in glass-topped boxes.

By Dr. J. Wilfrid Jackson: British Marine shells from Argyllshire (coll.
Rev. R. W. Nevill), including Littorina littorea (L.), L. saxatilis (Oliv.),
L. hittoralis (L.), Calliostoma ziziphinum conuloide (Lam.), Patella vulgata
L., Cyprina islandica (L.), Cardium edule 1.. (large examples), Chlamys
opercularis (L.), and Chlamys nivea (Macg.), all from Appin ; also Buccinum
undatum L., Glycymeris glycymeris (L.), Mytilus edulis L.., Modiolus modiolus
(L.), Pecten maximus (L.), Phacoides borealis (L.), Cardium crassum Gmel.,
Dosima exoleta (L.) (51 X 52mm.), Venus casina L., Venus striatula (da
Costa), Paphia pullastra (Mont.), Paphia decussata (L..) (51 X 65 and
48 X 63:5 mm.), Tellina crassa Penn. (40 X 48:5 mm.), Scrobicularia plana
(da Costa), Gari depressa (Penn.) (39 X 66 and 35 X 61mm.), Pharus
legumen (L.), Ensis ensis (Lu.), Ensis siliqua (Li.), Solen marginatus Mont.,
Lutraria lutraria (L.), Mya arenaria L., all from Loch Moidart. Also,
Chlamys varia (L.), very large examples from the Firth of Clyde (coll.
F. G. Pearcey), and Ensis siliqua (L.), large examples (36 X 233 mm.)
from Rams Bay, Cumbrae (coll. F. G. Pearcey).

643rd Meeting, held at the Manchester Museum, 8th May, 1937.
Mr. G. C. Spence in the chair. |

Resignation.
P. Vlasto.

Papers Read.

“ The Genus Xymorus Gebler,” by H. A. Rehder.
“ Investigation of the Scallop Fishery off Digby,” by J. A. Stevenson.

Exhibits.

By Mr. G. C. Spence: Achatinas showing disparity in size and shape in
the same species. Sketches of living Ligatella insularis Pfr., from East
London.

By Mrs. Morehouse: Series of Pteropods including H. tridentata Forsk.
from the stomach of a hawk-billed turtle.

By Mr. C.H. Moore: Bulimus (Borus) ovatus Miiller, very large and heavy
compared with normal specimens. Epiphragmophora fidelis Gray, very
high-spired specimen and normal examples.

IN DE. xX

page
Acanthinula aculeata new to
Easterness ‘ : ‘ 28
— —-— Somerset N. . eg FOOT
Accounts. s 20; 927,220,300
Achatina fulica (Fér.) in the
Netherlands E. Indies presi
Acme lineata new to Devon S. 314
— — — Kildare . 28

— — — Northumberland Ne 57
Adams, L. E., Giant Form of

P. corneus BT
— — Helicella acutainland . 16 i:
— — Infant Mortality of Mol-

lusca ‘ fae
Address, Changes of 98, 194, 290
Aglaja iwasai sp.nov. . 258
Agriolimax levis new to Car-

marthen . ‘ Peet |
— — — Ebudes eee ei 28
——— Glos. E.andW. . 314
— — — Hebrides ‘ eer 28
— — — Roxburgh : eh 88
Albinaria greent sp. nov. si £64
Alderia modesta (Lovén) : 16
Allen, C., Self-fertilization . 126
Amnicola taylort Smith in

Scotland . oe
Amphipeplea glutinosa new to

Donegal E. ‘ ‘ sis BO
— — — Kildare . ‘ 2) EOD
Amroth, Collecting at . { 76
Ancylus fluviatilis new to Mayo

| ; ‘ ‘ 5 iin OA
— lacustris new to Berwick . 28
seni ROTATE 188
Anodonta in E. Kent, oe E.

Cooper . 290
— anatina new to ‘Cornwall E, 27
— — — Dorset . ‘ ‘ ay
— — — Fife : : en £88
—-—w— Linlithgow . eGTA
—-— -— Montgomery . 188
— cygnea, Shell of, distin-

guished from that of A.

anatina . : : owe Rest
Aplexa hypnorum new to

Hebrides 28
Archidorts britannica (John-

ston) } “i 2s
— flammea (A. & H. Yr a 908
Arion circumscriptus new to

Mayo E. , aad:
— minimus new to Giles, Be ojos
— — — Roxburgh ; 188
— subfuscus new to Mayo E. 314
— — — Sutherland W. eo RS

Armenica (Crentclavts) eu es
sp. Nov...

Ashfordia granulata new to
Easterness F

— — — Kerry 5S. :

Assiminea grayana new to
Norf. E. and W. F

Azeca tridens new to Kent E.

— — — Northumberland N.

Barnard, Dr. K. H., Cephalo-.

pods from the C.G.H.

— — New Gontodoris from S.
Africa : F a ‘

Beachy Head, Hydrobia
jenkinst on

Bequaert, J., and W. a: Clench,
Studies of African L. and
F.W. Moll.—Edentulina,
with Descriptions of New
Spp.

—_— — Studies of African Tes
and F.W. Moll.—Gonaxis,
with Description of a New
Sp. ‘ : : ;

Berthellina engeli g. and sp.
nov. Be a, : :

Biggs, H. E. J., Mollusca of
the Iranian Plateau . :

—— New Clausilia from
Asia Minor .

— — New Var. of M. lorize
Issel

Bionomics of a Nudibranch,
Dr. Pelsener

Birdlip Woods, Fauna of

Bithynia leachii new to Mont-
gomery ; ;

——in Scotland. ‘

— tentaculata new to North-
umberland N.

Bligh Collection .

Bloomer, H. H., On Distin-
guishing the Shell of A.
cygnea from that of A.
anatina . ‘ i ;

Bowell, Ernest W. (1872-
1935)

Boycott, ie E., Colonization
of Land Shells

— — Ernest W. Bowell (Q 872-
1935)

ee Mhabite ee) young H.
pomatia

—— N, fluviatilis in Orkney

British Moll., Names of

— — Type Localities of

373

204

263
198
342
253

60

54
85

314
55

157
154

R27
IOI
224.
IOI

224
199

- 9, SI

176

374. JOURNAL OF CONCHOLOGY, VOL, 20, NO. 12, SEPTEMBER, 1937.
page
Cecilioides acicula new to Cooper, J. E., Anodonta in
Devon S. 187 E. Kent
— — — Middlesex 27 | — — Oldhaven and Thanet
==-— —. Warwick 187 Sand Moll. of Herne Bay
Carychium minimum new to Crepidula fornicata (L.) :
Elgin 28 | Cyprxa vinosa Gm. in a Saxon
— — — Ross E. 188 Grave :
— — — Sutherland W. . 188 | Cypreide, Recto aes | in
Cecilioides acicula, Abundance — of Hawaii
(clase : ; : . 152 | Cyprus, New Albinaria from
Cepzxa nemoralis, Early Occur- Dalgliesh, J. G., Mactra stul-
rence Gb >. 255 torum L. and ’ Pinnotheres :
Cephalopods from S. Aftica | . 44 |.Dean, J. D., Conchological
— of the Yorkshire Coast Cabinets of the Last ean
102; 420; 257 tury 225,
Cheatum, E. P., Rumina decol- — — Type Localities of Brit.
lata (L.) in the New World 84 Moll. :
Cheshire, Whitehead’s Early — — Obituary Notice ‘ 310,
Records for : . 275 | Dillwyn’s Diary : :
Clarke, W. J., he i: A. Dimorphism in Zonitoides,
— Stevenson, Yorkshire Genital
Cephalopods . 129, 257 | Disappearance of L. peregra
Claustlia hes new to from Friston Pond :
Herts 187 | — Canth. exasperatus from
— cravenensis new to North- Porthcurnow .
umberland S. 28 | Doridigitata sticta I. and O. D;
— dubia Drp. 339 a Brit. species . :
— laminata new to Essex 187 | Dredging .
— rugosa new to Ross E. . 188 | Durham, Non- Marine Depo-
Clench, W. J., New Hyridella sits in
from Australia 8q | Eastonia rugosa in 1 Portugal :
== -— and Ri oe. McLean, Edentulina Pfr., Notes on
Description of a new Macro- — ulugurensis n. sp.
callista 201 | — usambarensisn.sp. .
— — see also under Editorial Notes 92, 98, 154, 286,
de ee Ena obscura new to Clyde Is..
Coates, Henry 262 | —- — — Easterness
Cochlicella barbara new to Enemies of Brit. L. and F.W.
Kent W. 156 Moll. :
Cockerton (Durham), Depo- Engel’s. Paper on English
Sits «at = 4 88 Pleurobranchidze .
Collections of Last Century Euconulus fulvus new to
225, 319 Hebrides 3
Colonization of Land Shells 224 | Eulimide, Genera of the
Columella edentula new to Eulota fruticum new to Kent
Aberdeen S... i 188
—- = + Cornmeal VW. 314 Euphallic Condition
—> =~ Dorset: 187 | Eusptra Ag. vice Lunatia Gray
+—-— == Ebudes Mid 314 | Extinct Marine Moll. at Port-
—— —- =~ Kent W. 187 stewart .
=e = Pembroke 156 | Facelina drummondi fe “& H. )
“> a ee RSs io. 188 Habitat of. :
Conchological Cabinets ‘of last Falmouth
Century. - 225, 319 | Fisher, Miss N., Archidoris
Conchologist, two. editions of britannica (Johnston).
vol. i 192 | —— and Dr. Jackson, Early
Cone, Fatal Sting by a 166 Records of Lancs and Chesh.
Conus hopwoodi nom. nov. . 254 Moll. by J. W. Whitehead
—— Mechanism of the Radula 301 | — — Habitat of Facelina drum-
Cooke, Rev. Dr. A. H. ear monai (A. and H.)

page

290

4
163

46
222
320
164

_ Fisher, Miss N., Locally Extinct

3 Marine Moll. at Portstewart
— — Marine Moll. of Magil-
ligan

— — Monodonta lineata (da
C.) in N. Wales :

— — Notes on Brit. Opistho-
branchs, I. Ecology of Arch.
flammea(A.&H.)

— — Preference of Patina Hale
lucida (L.) for L. digitata .

— — see also under Tomlin,

J. R. le B.
Flood-Débris in Poland, A.
Jankowski : :
Forbes and Hanley’s. s Brit.

Moll., Dates of

Fowler, W., Dredging in n Loch
Linnhe ; ‘

Frost, Moll. Destroyed by

Galeodea Link vice Cassidaria
Lam.

Gardiner, AP. , Engel’ S - Paper
on English Pleurobranchide

— — The Littoral Zone d

Gayner, Dr. J. 3., Obit.
Notice, H. Sowden é

Giant Form of Plan. corneus

Gonaxis "Taylor, Notes on

— (Macrogonaxts) es <P:
nov. :

Goniodoris ovata n. sp.

Grensted, L. W., Fauna of
Birdlip Woods . :

Helicella acuta

— caperata new to Ayr

— — — Berwick .

— — — Ebudes N.

— — — Hebrides

— — — Kerry S.

— — — Monmouth

— — — Roxburgh

— — — Stirling .

— — — Tipperary N. and .

— — — Waterford :

— — Unusual Habitat of

— heripensis new to Durham .

——-—J.of Wight .

— — — Northumberland N..

— — — Roscommon ;

— itala new to Devon S.

— virgata new to Ebudes N. .

Helix arbustorum new to Easter-
ness :

— — — Essex ais

— aspersa, Reputed Smooth
Variety of

— minuscula Binney

— nemoralis new to Easterness

— pomatia, Habits of young .

INDEX.
page
Hemiphallic Condition .
117 | Herne Bay, Geology of .
Hirase, Shintaro, New Aglaja
168 from Japan.
Holocene Deposit in Co. ‘Down
224 | Humphrey, G., Letter from
Hyalinia alliaria new to King’s
| Cow:
362 | — cellaria new to Sutherland
W.
83 | — crystallina new to Ross E,
— — — Shetland :
— — — Sutherland W.
— nitidula new to Orkney
152 | — — — Sutherland W.
— pura new to Ross E. :
150 | — radiatula new to Mayo E..
— — — Sutherland E..
305 | — rogerst new to Worcester .
273 | Hydrobia jenkinst on Beachy
Head : ; : :
9 | —taylori Smith and _ steiniz
Mts. :
195 | Hygromia oiled new to Kent
65 Ww. :
— hispida new to Hebrides .
291 | — striolata new to Berwick .
57 | Hyridella bardwelli sp. nov.
263 | Infant Mortality of Mollusca
Iranian Plateau, Moll. of
271 | Iredale T., Fatal Sting by a
2 Cone
Jackson, Dr. J: W., Cypreea
85 vinosa Gm. ina Saxon grave
165 in Somerset . j
188 | —-— Collection of Brit.
28 Moll. i :
314. | — — seealso imide: Fisker, N.
28 | —— Letter from G. Hum-
189 phrey to W. Swainson
314 | —— Obit. Notice—R. J.
188 Welch .
188 | Jankowski, A., Flood- Débris in
189 Poland
189 | Jersey, Collecting in
369 | Jutting, Miss Tera van B.,
188 Achatina fulica (Fér.) in the
189 Netherlands E. Indies :
#88 | Kennard,’ A..5., and’ B: RF,
189 Lucas, Non-Marine Deposits
a7 in Yorks and Durham
314 | Kevan, D. K., Limapontia
depressa (A. and H .) var. nov.
28 in Scotland
187 | — — L. pereger var. maritima
Jeff. at Gullane Point, Firth
48 of Forth
281 | — — Vallonia costata monstr.
188 from E. Lothian
224 | Kirby Fleetham, Deposits at

376

JOURNAL OF CONCHOLOGY, VOL.

page
Lancashire, Whitehead’s Early

Records for

Latiaxis, Catalogue of ‘Recent

Lawson, A. K., see under
Wild, SIV:

Letter from G. Humphrey to
W. Swainson .

Limapontia depressa (A. “& H. )
var. pellucida Kevan .

oS Bionomics of .

— nigra Bate :

Limax arborum new to ic nae

— cinereoniger new to Glos. E.

— — — Monmouth

— maximus new to Hebrides.

— tenellus new to Glos. E.

— — — Monmouth :

Limnza aurieularia acuta new
to Perth W.

— glabra new to Essex S.

— — — Pembroke

— — — Perth W.

— — — Suffolk E. :

— involuta new to Sutherland

o. SeLO Ts
— palustris new to Aberdeen

— — — Donegal ‘E

— — — Easterness

-— — — Galway N.E.:

— — — Hebrides

— peregra var. maritima Jeff.
in Firth of Forth

— stagnalis new to Denbigh .

— truncatula new to Easter-
ness .

— — — Mectericc: :
Littoral Zone, The, A. P.
Gardiner

Lloyd. James, W. Ba "Early
Occurrence of C. nemoralis

Loch Linnhe, Dredging in

Lucas, B. R., see under Ken-
nard, A. S.

275
180

65

255
3°95

Lucina odontotis, new species 58, 93

MacDonald, R., Distribution
of P. corneus in Ulster

— — New Holocene Menvelt
in Co. Down .

Macrocallista bardwelli n. sp..

— nioba nom. nov.

Magilligan, Marine Moll. of.

Margaritana margaritifera new
to Queen’s Co. .

Matheson, C., Obit. Notice—
J: ). Men
MeLean, R, A.,
Clench, W. J.
Melanopsis doriz Issel var.

nigra nov.

see ‘gador

194
gI
202

201
168

157
338

60

20, NO. 12, SEPTEMBER, 1937.
age
Milax gagatesnewtoEbudesN. 314
— — — Hebrides : 189
— — — Pembroke 28
— — — Yorks M.W. . 188
— gracilis new to Brecon 156
— — — Herts 27
— — — Pembroke . 28
— — — Somerset N. 187
— — — Wilts N. 314
'— sowerbit new to Brecon 156
— — — Dorset . : 156
— — — Montgomery . 254
— — — Oxford . 187
= Se Sullolk W. 27
Monachaitranican. sp. - 343
Monodonta lineata (da C.) in
N. Wales : 224
Monstrosities : Cypreide 222
— C. nemoralis . 286
— L. peregra va. maritima . 60
— Vallonia costata . 82
— — pulchella (sinistral) 152
Moore, C. H., Slug and Beetle 85
— — N. lapillus L., at Knott
End. ; : ; OEY es:
Moses, R. H., Claus. dubia
Drap ; 339
Mullet, ‘Snails of the : Re AG.
Names of Brit. Mollusca II . 9
——-— | i 51
Neptunea versus Chrysodomus 15
Neritina fluviatilis in Orkney
199, 273
— — new to Cheshire . <4; 950
.— — — Kent W. _ 187
— — — Kildare . 189
— — — Mayo E. 314
Nucella lapis L., Coloura-
tion of . 61
— — at Knott End 361
Oban, Collecting at 73
Obituary Notices :—
E. W. Bowell 98, IOI
H. Coates e202
Rev. Dr. A. H. Cooke a Oo
P. Dautzenberg 154
J. D. Dean 2705.336
L. Faustino 286
Dr. M. Grabham 154
J. A. Grieg 286
Mrs. Longstaff (née Donald) 98
Dro RoAPe Schartt 70, 92
H. Sowden 5. LOE
R. J. Welch 286, 329
W. J. Wintle ‘ 92
Ocenebra Leach . 14
Officers and Seats List of
3107). 193;.209
Oldham 22. ae in
W. Sutherland . 161

INDEX.
7 page
Oldham, .C.,. Notes on the Pisidium amnicum new to
Snails of the Mullet . 146 Berwick .
— — Pisid. vincentianum in = Edinburgh
Kentish Pleistocene . 167. | ys oe ana.
— — Reputed smooth- shelled — cinereum new to Ebudes Mid
var. of H. aspera... 48 | — — — Kirkcudbright
—— Unusual Habitat of H. — — — Wigtown
caperata . P 369 | — conventus new to Easterness
Oldhaven Beds . 4 | — henslowanum new to Dum-
Orkney Mollusca 199, 273, 283, 341 fries
Oxney Fields, Deposits at OFF ae Fife :
Paludestrina jenkinsi new to — — — Haddington
Hebrides 28 | — — — Perth W.
aa. Kaineardine 188 | — hibermcum new to Elgin
=. Montgomery: : 188 | — — — Hebrides
meee co Wilts IN. 314. | — — — Kirkcudbright
— — — Yorks N.W. 156 | — — — Perth W. :
— stagnalis new to Durham . 157 | —— — Radnor .
== == + Hastermess 188 | —— — Ross W..
— — — Ebudes N. 28 | — — — Roxburgh
— — — Hebrides : 28 | — — — Wigtown
— ventrosa new to Denbigh . 188 | — llljeborgi new to Ayr
—-—-— Down . 189 | —-—- — Berwick .
— — — Hebrides 28 | — — — Elgin
+_ —- — Norfolk E. 187 | '\— — — Hebrides
— — — Suffolk E. 187 | — — — Kirkcudbright
Paludina vivipara new to Den- — + — Roxburgh
bigh S948 | ee VV torn.
Pandora and Calopodium 52 | — milium new to Ayr .
Patelloida vice Acmza . 1 | —~-—~ — Berwick .
Patina pellucida L. on Lamin- — — — Dumfries
~ aria : 830) —-- — Hebrides
Pecten of Osbeck . 51 | ~~——— Kent W.
Peile, A. J., Helix minuscula — — — Kirkcudbright
Binney 281 | —— — Roxburgh
—-—Some Tristram "Types 254 | —--—~-—- Salop
—-— Some Radula Problems 292 | — — — Selkirk .
Pelseneer, Dr. Paul, Bionomics — — — Wigtown
of a Brackish-Water Nudi- — nitidum new to Ayr .
branch, Limapontia depressa 54 | —- — — Berwick .
Pendine, Collecting ate. 90: | eo Elgin
Phatlios, R.A. Vert; genesii —— — — Hebrides
Gredler in Central Ireland 142 | — — — Kirkcudbright
Physa fontinalis new to Aber- — — — Ross W. :
deen S. . , . 188 | —— — Roxburgh
— — — Mayo :.. 314 | —— — Selkirk .
Sa ene new to Devon —-—- — Wigtown
, 156 | — obtusale new to Berwick
—_— — — Salop ; 314 | — — — Dumfries
— — — Yorks S.W. 28° | -nie - Ebudes, Mid
Phytia myosotis new to Car- ——-—Elgin.
marthen . 314 | —— — ir aaabright
— —— Devons. (var. ringens) 27 | — — — Wigtown
— — — J. of Wight 187 | — personatum new to Cam-
— — — Kilkenny : 189 bridge
——— ee ee 31d | = Dumfries
— — — Ross E. 188 | —- — — Easterness
—_——— Waterford 189 | ——— Ross E..
Pinnotheres pisum in M, stul- — — — Wigtown
torum | 81 | — — — Wilts N.

378

Pisidium pulchellum new to
Dumfries

— — — Durham

— — — Kirkcudbright

Mayo E.

— — — Northants :

— — — Northumb. N. and =.

— — — Perth E. ‘

— — — Radnor

—-——-—Salop .

— — — Selkirk .

— — — Wigtown ;

— subtruncatum new to Ayr .

—- — — Berwick .

—~ — — Dumfries

— -~— — Hebrides :

—— — — Kirkcudbright

—-+— — Roxburgh

=+=— —- Wistown

— vincentianum
Pleistocene :

Planorbts albus new to Donegal

le aintich

in

— Eudes N

— carinatus new to Donegal E.

— — — Kent W.

—— —- — Salop

— oe new to Car-
marthen .

— — — Fife _

— — — Selkirk .

— contortus new to Galway S.E.

=~ = —— Monteomery :

— — — Northumberland Ni

— corneus in Down :

— — in Ulster ;

— — new to Devon S.

=~ + —— Montgomery: *.

— — — Salop

— — Giant Form

— dilatatus new to Ebudes N.

— fontanus new to Edinburgh

———+ — Kirkcudbright

— — — Selkirk .

— glaber new to Dorset.

—-———— Orkney .

— — — Pembroke

— — -— Radnor .

— —— — Stafford .

.—- — — Westmeath

— nautileus new to Beswick -

— — — Epbudes Mid

— — — Northumberland N.

— — — Sutherland W. .

— spirorbis new to Berwick

— — — Easterness

“= Permanaan

— — — Hebrides

— vortex new to Ebudes Mid

ie =! Kirkeudbrigie

JOURNAL OF CONCHOLOGY, VOL.: 20, NO.

page

I2, SEPTEMBFR, 1937.
page
Pleurobranchidez, English 195
Ponds on Eastbourne Downs,
Moll. of FFO, 217, 290, 308
Portstewart, Locally Extinct
Marine Moll. at try
Portuguese Mollusca 162
Potadoma graptoconus, P & B. 340

- Proceedings ,
25,94, 155, 184, 218, 256, 288, 310,
37°

Pseudanodonta new to Cheshire 314
— — — Salop eee
Punctum pygmxeum new to
Elgin : 28
— — — Norfolk W. 187
— eaee@ss Ie; 188
— — — Selkirk . 188
Pupa anglica new to Easter-
ness 188
25. Eades: 188
| ——— Northumberland N.. 188
— marginata new to Hebrides 28
—-— — Orkney : 189
— secale new to Kent E. 187
— umbilicata new to Easterness 28
Pyramidula rupestris new to
Kent W. : Roe ee C7)
Quick, Dr. H. E., Isidorella
pyramidata (Sow.), A cor- |
rection 50

Radula Problems, Some, A. -
Peile ; 292
Rehder, H. A., The Genus

_ Xymorus . 370
Rendall, R., Simnia ‘patula
(Penn.) in " Orkney 283
Reputed Smooth- shelled
Variety of H. aspersa. 48
Réunion Amicale at Paris 154
Ritchie, J., H. Coates 262
Rumina decollata sales in the
New World ce Se
Salcombe Estuary 67
Salisbury, A. E., New Species
of Lucina : 58
Scala Brug. 53
Scharff, De.-R: iF 79
Schilder, Dr FA. Monstro-
sities in Cypraide 222
Schlesch, H., Crepidula forni-
cata é.) in Schleswig and
Denmark . : 163
Scotland, Species new ‘to 5 5, 314
Segmentina nitida new to
Essex S.. : 314
Self-fertilization . 126
Shell Disease 92, 99

Shrubsole, G. , Apparent Dis-
appearance ’ of L. peregra

from Friston Pond 217

INDEX.

7 page
Shrubsole, G., H. jenkinsit on

Beachy Hea, 290
— — Moll. of the Ponds on
Eastbourne Downs . 130, 308
Simnia patula (Pennant) in
Orkney ; ee.
Slug and Beetle 85, 165
Sowden, Harry —. 2 aor
Spence, G. C., Notes on
Potadoma graptoconus P. &B. 340
Spherium ovale new to Mid-—
dlesex 187
— rivicola new to ‘Devon S. 187
— — — Essex 58. 187
— — — Hereford 187
— — — Sussex W. : 156
Stevenson, J. A., The Cepha-
lopods of the Yorks Coast 102
— — seealsounder Clarke, W.J.
Stubbs, A. G., Testacella
eating Milax : 149
Succinea arenaria new to Tip-
perary N. 157
— pferffert new to Aberdeen S. 188
— — — Donegal E. . - 389
— — — Easterness F p28
—— —- —— Ebudes N. eee BZ
— — — Hebrides d on 28
— — — Kerry S. 189
— — — Lanark . 188
— ——Ross E.. 188
— — — Roxburgh ‘ 188
— — — Sutherland W. 188
— putris new to Northumber-
land N. 188

Syncera, status of . : 1a
Testacella haliotidea new to

Durham . 314
— maugei new to Sussex W. 156

— in Sussex 145
— eating Milax ; ae
Thanet Sand : 4
Tomlin, J. R. le B., Catalogue

of Recent Latiaxis 180
— — Conus gracilis Sow. 254
— — and N. Fisher, Dates of

Publication of Forbes and

Hanley’s Hist. Brit. Moll. . 150

— — Dr. R. F. Scharff ; 79

— — Moll. Destroyed by Frost 273
— — New Albinaria from

Cyprus... 164
— — Orkney L. and F. W.,

Shells ; at
— — Rev. Dr. A. ace Cooke ; 77
— — Slug and Beetle . 165
— — Testacella in Sussex 145
—-—and N. Fisher, Two

Editions of vol. i of The

Conchologist ; age cs |

379
page
Trigonodesma vice Fossularca . 9
Tristram Types . Pee cc
Truncatellina cylindrica 1 new to
Durham 188
—--— — Norfolk W. 187
Ulster, Plan. corneus in. 194
Unio tumidus new to Denbigh 314
Valloma costata new to
Hebrides 189
— — monstr. : 82
— excentrica new to Durham 1 54
——— — Fife 188
— — — Kincardine 188
——~— — Monmouth 314
— — — Northumberland 5. 157
— — — Peebles 188
— — — Sutherland W. 188
— pulchella new to Berwick
188, 314
— — — Durham : ar pees
— —-— Haddington . ‘ 28
— — — Mayo W. ; pon as
——-—Norfolk E.: . 187
—_—— — Se deeb od Mae 57
Valvata cristata new to Ber-
wick ; ‘ ee.
— — — Monmouth 314
— — — Perth W. 188
— — — Selkirk . 188
— eae: new to Donegal
: 189
—_— — Northumberland N. oe
— — — Selkirk . F ; > 188
— — — Sutherland W. 188
Vertigo antivertigo new to
Durham 188
— — — Easterness ec FOS.
— — — Hebrides ‘ > ae
— — — Kent W. 187
— — — Kildare . 189
— — — Perth W. 188
— — — Selkirk . 188
— — — Sutherland W. 188
— genesit new to Galway N. E.
and S.E. 189
— — — Queen’s Co. 189
— — — Tipperary N. 189
— lilljeborgit new to Aberdeen
Bes 188
—— Cle 189
— — — Easterness 188
— — — Ebudes N. 188
— — — Galway S.E. ae co
— — — Hebrides 5 eee
— — — Roxburgh . 588
— moulinsiana new to Clare . 189
— — — Tipperary N.. 189
— — — Wexford 189
— pusilla new to Essex S. 187
— — — Kincardine 188

380

Whitehead’s Early Records for
Lancs. and Cheshire

JOURNAL OF CONCHOLOGY, VOL. 20, NO.

page
Vertigo pygmza new to Elgin 28
— — — Essex N. Bees C027)
— — — Hebrides 28
— — — Ross E. 188
_—— — Sutherland Ww. 188
— substriata new to Berwick 28
— — — Easterness 28
— — — Elgin 28
— -—-— Hants 8. 187
— — — Kent W. 187
— — — Lanark . 188
—— -— Northumberland S.. 1 57
— — — Ross E. ; 188
—— — Selkirk | : 188
— — — Sussex W. 187
==> = DUtherand W. i 788
Vitrina major new to Mon-
mouth 314
Waterston, R., Occurrence of
Amnicola taylori and B.
leachti in Scotland . 55
Watson, Hugh, Genital Dimor-
phism in Zonitoides . 32
Welch, R. J., Plan. corneus in
co. Down : 81
— — Obit. Notice 286, 329

275

12, SEPTEMBER, 1937.
page
Wild, S. V., and A. K. Lawson,
Enemies of the L. and F.W.
Moll. of the Brit. Isles 351

Wilkins, G. L., Colouration of
N. lapillus ae 61
Winckworth, H. C. and Re
Eastoma rugosa Helb. and
other Portuguese Moll. .
—R., Names of Brit. Moll. II 9

——— Ill 51

Xymorus Gebler, “The Genus 370

Yorks (N. Riding), Non-
Marine Deposits in . 86

— Coast, Cephalopods of the
£02, 120,257
Zonttoides excavatus new to

Carmarthen 314
——— —= lasterness 188
— — — Ebudes N. Jo ote
— — — Kent W. : Rate 5)
— — — Monmouth 314
— nitidus new to Carmarthen 314
— — -— Haddington . poo as
——-— Montgomery . Sain
— — — Perth Mid fe ; 28
— — — Ross E. 188
— Genital Dimorphism i in, H.

Watson . ‘ 33

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