A Stereo -Atlas of Ostracod Shells
edited by J. Athersuch, D. J. Horne, D. J. Siveter,
and J. E. Whittaker
Volume 16, Part 1; 31st July, 1989
(
Published by the British Micropalaeontological Society, London
ISSN 0952-7451
Editors
Dr J. Athersuch, Stratigraphy Branch, The British Petroleum Co, BP Research Centre, Chertsey Road,
Sunbury-on-Thames, Middlesex TW16 7LN.
Dr D. J. Horne, School of Earth Sciences, Thames Polytechnic, Walburgh House, Bigland Street,
London El 2NG.
Dr David J. Siveter, Department of Geology, The University, Leicester LEI 7RH.
Dr J. E. Whittaker, Department of Palaeontology, British Museum (Natural History), Cromwell Road,
London SW7 5BD.
Editorial Board
Dr J.-P. Colin, Esso Production Research - European, 213 Cours Victor Hugo, 33321 Begles, France.
Dr P. De Deckker, Department of Geology, Australian National University, G.P.O. Box 4, Canberra,
Act 2601, Australia.
Dr D. van Harten, Universiteit van Amsterdam, Geologisch Instituut, Nieuwe Prinsengracht 130,
Amsterdam, The Netherlands.
Dr W. Hansch, Ernst-Moritz-Arndt Universitat, Sektion Geologische Wissenschaften, F.-L.-Jahnstr.
17a, 2200 Greifswald, German Democratic Republic.
Dr R. E. L. Schallreuter, Universitat Hamburg, Geologisch-Palaontologisches Institut, Bundesstrasse
55, D 2000 Hamburg 13, German Federal Republic.
Dr Zhao Yuhong, Nanjing Institute of Geology & Palaeontology, Academia Sinica, Chi-Ming-Ssu,
Nanjing, People’s Republic of China.
Officers of the British Micropalaeontological Society
Chairman Dr A. C. Higgins, BP Research Centre, Chertsey Road, Sunbury-on-Thames, Middlesex
TW16 7LN.
Secretary Dr J. B. Riding, British Geological Survey, Keyworth, Nottingham NG12 5GG.
Treasurer Dr J.E. Whittaker, Department of Palaeontology, British Museum (Natural History),
Cromwell Road, London SW7 5BD.
Journal Editor Dr. M. Keen, Department of Geology, The University of Glasgow G12 8QQ.
Newsletter Editor Dr D. J. Shipp, Robertson Research International, Ty’n-y-Coed, Llanrhos,
Llandudno, Gwynedd LL30 ISA.
Conodont Group Chairman Dr P. M. Smith, Department of Earth Sciences, University of Cambridge,
Downing Street, Cambridge CB2 3EQ.
Conodont Group Secretary Mr A. Swift, Geology Department, University of Nottingham NG7 2RD.
Foraminifera Group Chairman Dr A. A. H. Wonders, B.P. Research Centre, Chertsey Road,
Sunbury-on-Thames, Middlesex TW16 7LN.
Foraminifera Group Secretary Dr F. M. D. Lowry, Department of Geology (Micropalaeontology),
University College, Gower Street, London WC1E 6BT.
Microplankton Group Chairman Dr G. L. Eaton, B.P. Research Centre, Chertsey Road, Sunbury-on-
Thames, Middlesex TW16 7LN.
Microplankton Group Secretary Dr A. J. Powell, B.P. Research Centre, Chertsey Road, Sunbury-on-
Thames, Middlesex TW16 7LN.
Ostracod Group Chairman Dr J. Athersuch, B.P. Research Centre, Chertsey Road, Sunbury-on-
Thames, Middlesex TW16 7LN.
Ostracod Group Secretary Dr N. G. Fuller, Phillips Petroleum Company United Kingdom Limited,
Petroleum Products Division, Phillips Quadrant, 35 Guildford Road, Woking, Surrey GU22 7QT.
Palynology Group Chairman Dr D. J. Batten, Department of Geology, Marischal College, University of
Aberdeen, Aberdeen AB9 IAS.
Palynology Group Secretary Dr J. E. A. Marshall, Department of Geology, The University,
Southampton S09 5NH.
Calcareous Nannofossil Group Chairman Mr M. Jakubowski, Robertson Research International,
Ty’n-y-Coed, Llanrhos, Llandudno, Gwynedd LL30 ISA.
Calcareous Nannofossil Group Secretary Dr J. Crux, B.P. Research Centre, Chertsey Road,
Sunbury-on-Thames, Middlesex TW16 7LN.
Instructions to Authors
Contributions illustrated by scanning electron micrographs of Ostracoda in stereo-pairs are invited.
Format should follow the style set by the papers in this issue. Descriptive matter apart from illustrations
should be cut to a minimum; preferably each plate should be accompanied by one page of text only.
Blanks to aid in mounting figures for plates may be obtained from any one of the Editors or Editorial
Board. Completed papers should be sent to Dr David J. Siveter.
The front cover shows a female left valve (OS 13377) of Bromidella reticulata Harris from the Simpson
Group, middle Ordovician, Oklahoma, U.S.A. (see M. Williams & D. J. Siveter, Stereo-Atlas Ostracod
Shells, 16, 1-8, 1989).
Printed in the UK by BPCC Northern Printers Ltd., Stanley Road, Blackpool FY1 4QN
A Member of BPCC Ltd
Stereo-Atlas of Ostracod Shells 16(1) 1-8(1989) Bromidella reticulata ( lof8)
595.336.13 (113.312) (766: 162.097.34) 551.351 + 552.52
ON BROMIDELLA RETICULATA HARRIS
by Mark Williams & David J. Siveter
( University of Leicester, England)
Genus BROMIDELLA Harris, 1931
Type-species (by original designation): Bromidella reticulata Harris, 1931.
Diagnosis: Adductorial sulcus deep. Preadductorial node well developed. Distinct dorsal ridge (plica), in
lateral view extending along most of the dorsal surface to become confluent with anterior lobal
area, and to form posterodorsal margin of the posterior lobal area. Dolon very convex, extends
from anterior to ventral, or posteroventral region. Velum present as a narrow, subdued flange
surmounted by a row of spines which may be reduced.
Remarks: Species of the genus Eohollina (assigned to the Family Sarvinidae; R. E. L. Schallreuter,
Geologie , 15, 7, 861, 1966) have previously been assigned to Bromidella (see Kay 1940, op cit.).
Eohollinids show considerable differences in the nature of lobation, ornament, and lack the dorsal
plica. Bromidella linnarsoni Henningsmoen, 1948 (Bull. geol. Instn Univ. Uppsala , 32, 416, pi. 25,
fig. 11) lacks the dorsal plica, and has an anteriorly restricted dolon. It therefore should not be
assigned to the genus. Figured specimens of Bromidella ? parsinoda Kraft, 1962 (op. cit., pi. 15,
figs. 20, 21) appear to be the tecnomorphic valves of a Bromidella species.
The genus Bromidella most closely resembles Uhakiella Opik, 1937. In Bromidella, however,
the plica is continuous along the whole of the dorsal margin, unlike Uhakiella. In addition the
preadductorial node and adductorial sulcus of Bromidella are more pronounced.
Explanation of Plate 16, 2
Figs. 1-3, cT RV (OS 13379, 1.22mm long excluding spines): fig. 1, ext. lat.; fig. 2, ext. lat. obi.; fig. 3, ext. vent. Fig. 4, cf RV, ext.
lat. (MCZ 4630a, 1.32mm long excluding spines).
Scale A (200 /u.m; x48), figs. 1-3; scale B (200 ^.m; x45), fig. 4.
Stereo-Atlas of Ostracod Shells 16, 3 Bromidella reticulata (3 of 8)
Remarks (cont.): Bromidella is widespread, occurring in the middle Ordovician of North America and
Baltoscandia.
Bromidella reticulata Harris, 1931
1931 Bromidella reticulata n. sp., R. W. Harris, Okla. Geol. Surv. Bull., 55, 93, pi. 14, figs. 6a, b.
1934 Bromidella reticulata Harris; R. S. Bassler & B. Kellett, Geol. Soc. Am., Spec. Pap., no. 1, 223.
1936 Bromidella reticulata Harris; F. M. Swartz, J. Paleont., 10, no. 7, 548, pi. 78, figs. 12a, b.
1940 Bromidella reticulata Harris; G. M. Kay, J. Paleont., 14, no. 3, 263.
1950 Bromidella reticulata Harris; S. A. Levinson, /. Paleont., 24, 66, text-fig. 2.
1957 Bromidella reticulata Harris; V. Jaanusson, Bull. Geol. Inst. Univ. Upps., 37, 288, pi. 4, fig. 23.
1957 Bromidella reticulata Harris; R. W. Harris, Okla. Geol. Surv. Bull., 75, 236, pi. 8, fig. 3.
1962 Bromidella reticulata Harris; J. C. Kraft, Geol. Soc. Am. Mem., 86, 42.
1973 Bromidella reticulata Harris; R. E. L. Schallreuter Palaeontographica, (A), 144, (1/3), 86.
1982 Bromidella reticulata Harris; M. J. Copeland, Bull. Geol. Surv. Canada, 347, 10, pi. 2, figs. 20, 21.
Holotype: Museum of Comparative Zoology, Harvard University, U.S.A., no. 4630; female right valve.
Type locality: From Decker's zone 36 (see Harris 1957 op cit.). Bromide Formation (not the Tulip Creek
Formation as stated in Harris op. cit., see revised stratigraphy of R. Fay and A. Grafham, Univ.
Kansas Paleontol. contrib. Monograph, 1, 14, 1982), Simpson Group, middle Ordovician, U.S.
Highway 99, Sec. 11, T. Is, R3E, Arbuckle Mountains, Oklahoma, U.S. A.; approximately
latitude 34°35'N, longitude 96°41'W.
Figured specimens: Harvard Museum of Comparative Zoology, U.S. A. nos. MCZ 4630; (9 RV: PI. 16, 4, figs. 1-3,
PI. 16, 6, figs. 1, 5), MCZ 4630a; (c f RV: PI. 16, 2, fig. 4). British Museum (Nat. Hist.), nos. OS
13377; ($ LV: PI. 16, 4, fig. 4, PI. 16, 6, figs. 2, 4, PI. 16, 8, figs. 1, 2), OS 13378 (9 RV: PI. 16, 6,
fig. 3), OS 13379 (cf RV: PI. 16, 2, figs. 1-3, PI. 16, 8, fig. 4), OS 13380 (cf RV: PI. 16, 8, fig. 3).
All figured specimens from the Bromide Formation. MCZ4630 (holotype) from type horizon
and locality, MCZ4630a from Decker’s zone 35 (see Harris op. cit.) at the type locality. Specimens
Explanation of Plate 16, 4
Figs. 1-3, 9 RV (holotype MCZ 4630, 1.30mm long excluding spines): fig. 1, ext. lat. ; fig. 2, ext. lat. obi. ; fig. 3, ext. vent. Fig. 4, 9
LV, ext. lat. (OS 13377, 1.5 mm long excluding spines).
Scale A (200 /xm; x48), figs. 1-3; scale B (250 gm; x40), fig. 4.
Stereo-Atlas of Ostracod Shells 16.2 Bromidella reticulata ( 2 of 8)
Stereo- Atlas of Ostracod Shells 16,4 Bromidella reticulata (4 of 8)
Stereo-Atlas of Ostracod Shells 16, 5 Bromidella reticulata (5 of 8)
Figured specimens' OS 13377-79 collected approximately 55m below the top of the Bromide Formation at the type
(cont.): locality. Specimen OS 13380 collected approximately 70 m below the top of the Bromide
Formation, Rock Crossing, Criner Hills, Oklahoma, Sec. 35, T. 5s, R1E.
Diagnosis: Species of Bromidella in which the heteromorph has three distinct posterior spines, and a distinct
row of spines ventrally on the dolon, becoming larger posteriorly. Dolon tapers slightly
anterocentrally when viewed internally. Tecnomorphs with distinct, discrete spines occurring on
the weak, ridge -like velum from the anterior to posterior cardinal corners; spines occasionally
very long. Lobate area tuberculate throughout, sulci and dolonal surface are granulose.
Remarks: B. reticulata differs from B. sarvi (R. E. L. Schallreuter, Stereo-Atlas Ostracod Shells, 10, 25,
1983) principally by the reduced laterovelar furrow, by the more pronounced dorsal plica, by the
disposition of the spines, and by the extension of the dolon posteroventrally. B. spiveyi Harris,
1957, from the Mclish Formation of the Simpson Group, Oklahoma, is both smaller, less spinose,
and more weakly ornamented than B. reticulata. In addition to the deep adductorial sulcus, a
shorter preadductorial sulcus is present. This appears to be a feature of Bromidella , also observed
in B. sarvi (Schallreuter 1983, op. cit.). A short, punctate, supravelar (histial?) ridge is present
anterocentrally in heteromorphs of B. reticulata (PI. 16, 6, fig. 5) but is absent in tecnomorphs.
Levinson (1950, op. cit.,) suggested that the hingement of the left valve of B. reticulata (right
valve of Levinson = left valve herein) consisted of elongate cardinal sockets tapering to the centre
of the valve with a ridge between them. The same features have been noted in the material we
have examined. The hinge detail of the right valve was unknown to Levinson, but our material
shows no ridges which might correspond to the sockets of the left valve. This may be a factor of
preservation.
Distribution : B. reticulata is known only from the Tulip Creek and Bromide formations of the Simpson Group,
middle Ordovician, Arbuckle Mountains, Oklahoma, U.S.A.
Explanation of Plate 16, 6
Figs. 1,5 9 RV (holotype, MCZ 4630, 1.30mm long excluding spines): fig. 1, ext. vent, detail; fig. 5, ext. post. Figs. 2, 4 9 LV (OS
13377, 1.5 mm long excluding spines): fig. 2, ext. lat. detail of ventral spines): fig. 4, int. lat. Fig. 3, 9 RV, int. lat. (OS 13378,
1.4mm long).
Scale A (100 /am; x 75), fig. 2; scale B (100 /urn; x 110), fig. 1; scale C (200 /am; x 41), fig. 3; scale D (250 /am; X 34), fig. 4; scale E
(200 /am; x62), fig. 5.
Stereo-Atlas of Ostracod Shell 16, 7 Bromidella reticulata (7 of 8)
Acknowledgements : Dr J. Vannier (University of Leicester) for helpful discussion, and Dr J. Berdan (Smithsonian Institution,
Washington) for loan of the types.
r 1 -~r— r
\
Text-fig. 1. Summary stratigraphic column for location of samples
utilised in the population study of Text-fig. 2. Numbers also relate
to the sample localities of Text-fig. 3.
Text-fig. 2. Population study of specimens recovered from a
number of horizons in the Tulip Creek and Bromide formations
(see Text-figs. 1, 3). The graph illustrates the similar size of
specimens through time. Sample la shows two points which plot
well below the main group of points. These may represent
preadult dimorphism.
1200 1300
LENGTH (jlm)
Text-fig. 3. Location of sampling localities in the Bromide and
Tulip Creek formations, Simpson Group, middle Ordovician,
Oklahoma, from which B. reticulata has been recovered: 1,
Highway 99 section, S of Fittstown. 2, Spring Creek section N of
Woodford on the Arbuckle Ranch. 3, N Interstate 35 road
section. 4, Rock Crossing section, Criner Hills. 5, S Interstate 35
road section.
Explanation of Plate 16, 8
Figs. 1,2 9 LV (OS 13377, 1.5 mm long excluding spines): fig. 1, ext. lat. detail of sulci; fig. 2, ext. lat. detail of ornament. Fig. 3, cf
RV, int. lat. (OS 13380, 1.28 mm long excluding spines). Fig. 4, cf RV, ext. post. (OS 13379, 1.22mm long excluding spines).
Scale A (100 /am; x75), fig. 1; scale B (50 gm; xl50), fig. 2; scale C (250 /am; x41), fig. 3; scale D (150/am; x60), fig. 4.
Bromidella reticulata (8 of 8)
Stereo- Atlas of Ostracod Shells 16, 6
Bromidella reticulata (6 of 8)
Stereo-Atlas of Ostracod Shells 16, 8
Stereo-Atlas of Ostracod Shells 16(2)9-12(1989) Lophocypris shulanensis ( 1 of 4)
595.337.12 (116.331) (510: 161.127.44): 551.312 + 552.52
ON LOPHOCYPRIS SHULANENSIS ZHANG & ZHAO gen. et sp. nov
by Zhang Lijun & Zhao Yuhong
(Shenyang Institute of Geological and Mineral Resources, China & Nanjing Institute of
Explanation of Plate 16, 10
Fig. 1, car., RV, ext. lat. (paratype, SG130355, 720 pm long), fig. 2, car., vent, (holotype, SG130354, 700 pm long), fig. 3, LV, ext. lat.
(paratype, SG 130356, 670 /xm long).
Scale A (250 pm; xl00), figs. 1-3.
Stereo-Atlas of Ostracod Shells 16,11 Lophocypris shulanensis (3 of 4)
Fig. 1, RV, int. lat. (paratype, SG130359, 650 yu.m long), fig. 2, car., dor. (paratype, SG130358, 625 /am long), fig. 3, LV, int. lat
(paratype, SG130357, 650 yam long).
Scale A (250 yam; xlOO), figs. 1-3.
Stereo- Atlas of Ostracod Shells 16, 12
Lophocypris shulanensis (4 of 4)
Stereo- Atlas of Ostracod Shells 16, 10
Lophocypris shulanensis (2 of 4)
Stereo-Atlas of Ostracod Shells 16 (3) 13-16 (1989) Dabashanella retroswinga (1 of 4)
595.33 (phosphatocopida) (113.2) (510 : 161.107.32) : 551.351
ON DABASHANELLA RETROSWINGA HUO, SHU & FU
by Zhao Yuhong & Tong Haowen
( Institute of Geology & Palaeontology, Academia Sinica, Nanjing, China
& Department of Oceanogeosciences, Tongji University, Shanghai, China)
Dabashanella retroswinga Huo, Shu & Fu, 1983
1983 Dabashanella retroswinga sp. nov. Huo, Shu & Fu, in: Huo Shicheng et al., Jl. Northwest University, 40(3), 68-69, pi. 5, figs.
14-17, text-fig. Ill— 27.
1985 Xinjiangella venustois Jiang & Xiao in: Huo Shicheng et al., Cambrian Bradoriida of S China, 184-185, pi. 36, figs. 1-4,
Northwest University Pub. House, China.
1987 Dabashanella retroswinga Huo, Shu & Fu, 1983; Tong Haowen, Acta Micropalaeontologica Sinica, 4(4), 433-434, pi. 1, figs.
3-10; pi. 2, figs. 1-8.
Holotype: Department of Geology, Northwest University, Xian City, Shaanxi Province, People’s Republic of
China; coll. no. ZX001.
Type locality: Xiaoyang Section, Zhenba Town, Shaanxi Province, People’s Republic of China; approx, lat. 32°
29' N, long. 107° 56' E; Shuijingtuo Formation, early Cambrian.
Figured specimens: Department of Geology, Northwest University, Xian, Shaanxi Province, People’s Republic of
China, coll, nos: ZXOIOa (car.: PI. 16, 14, fig. 1), ZXOlOb (car.: PI. 16, 14, fig. 2), ZXOlOc (car.: PI.
16, 14, fig. 3), ZXOlOd (car.: PI. 16, 16, fig. 1), ZXOlOe (car.: PI. 16, 16, fig. 2) and ZXOlOf (car.:
PI. 16, 16, fig. 3). All from the type formation and locality.
Explanation of Plate 16, 14
Fig. 1, car., LV ext. lat. (ZXOIOa, 690 gm long); fig. 2, car. vent (ZXOlOb, 620 pm long); fig. 3, car., RV ext. lat. (ZXOlOc. 520 gm
long).
Scale A (200 /am; X 115), fig. 1; Scale B (200/am; x77), fig. 2; scale C (200/am; x 142), fig. 3.
Stereo-Atlas of Ostracod Shells 16, 15 Dabashanella retroswinga (3 of 4)
Diagnosis:
Remarks:
Distribution:
A cknowledgment:
Small to medium in size (500-700/xm long). In lateral view dorsum straight, ventral margin
somewhat semicircular. Single spines located at both cardinal corners. Height/length ratio of
0.5-0. 6. Carapace somewhat inflated (width). No hinge structure observed. Along the ventral
margin, there seems to be a weak marginal ridge. No internal structure observed (material consists
of carapaces).
This species is very similar to Dabashanella hemicyclica Huo, Shu & Fu, 1983 (Jl. Northwest
University, 40(3), 68-69, pi. 5, figs. 18-20, text-figs. Ill— 26), but in the latter the lateral view of
the shell outline is more semicircular (with height/length ratio of 0.6-0. 7) and the shell is not so
distinctly swollen. D. retroswinga is different from Vestrogothia spinata Muller, 1979 ( Lethaia ,
12(1), 4, fig. 1) in that it has no hinge structure, no long ventral spines and its margin is smoother.
D. retroswinga differs from Vestrogothia granulata Muller in that it has anterior and posterior short
dorsal spines, has a high height/length ratio of the shell, lacks surface ornamentation and has no
muscle scars. Compared with Hesslandona necopina Muller, 1979 ( Lethaia , 12(1), 6, figs. 7a-c),
D. retroswinga lacks a hinge structure. D. retroswinga is distinct from Falites fala Muller, 1979
(Lethaia, 12(1), 8, figs. lOa-c) in that the latter has a shorter dorsal margin.
More than 100 specimens (juveniles and adults) from Zhenba Town have been measured and
the statistics support that there were seven stages in the ontogeny of D. retroswinga.
Xiaoyang section of Zhenba Town, South Shaanxi Province and Wushi County, Xinjiang, China.
Early Cambrian in age.
Dr. M. Kontrovitz, Geosciences Department of Northeast Louisiana University, U.S.A., is
thanked for helping with the S.E.M. and for reading the text.
Explanation of Plate 16, 16
Fig. 1, car., LV ext. lat. (ZXOlOd, 480 /u,m long); fig. 2, car. dors. (ZXOlOe, 600 /xm long); fig. 3, car., RV ext. lat. (ZXOlOf, 540 /an
long). ! j
Scale A (200/u.m; x 125), fig. 1; scale B (200/xm; x95), fig. 2; scale C (200/u.m; x 115), fig. 3.
U
Stereo-Atlas of Ostracod Shells 16 (4) 17-20 (1989) Progonocythere levigata (1 of 4)
595.337.14 (116.222) (411 : 162.006.57 + 420 : 162.001.52) : 551.35 + 552.52
ON PROGONOCYTHERE LEVIGATA BATE
by Matthew I. Wakefield & David J. Siveter
(University of Leicester, England )
Progonocythere levigata Bate, 1967
1967 Progonocythere levigata sp. nov. R. H. Bate, Bull. Br. Mus. nat. Hist. ( Geol. ), 14, no. 2, 45-46, pi. 10, figs. 10-14, pi. 11, figs.
1-9.
1978 Progonocythere levigata Bate; R. H. Bate, in: R. H. Bate & E. Robinson (eds), A Stratigraphical Index of British Ostracoda,
Geol. J. Spec. Issue, 8, 228, pi. 12, figs. 10-12.
Holotype: British Museum (Nat. Hist.), no. Io 2419; 9 LV.
Type locality: Portland Cement Quarry, Ketton, Northamptonshire, England; National Grid Reference; SK 972
058; lat. 0°33' W, long. 52° 38' N, Bed 5 (of C. J. Aslin in: P. C. Sylvester-Bradley & T. D. Ford
(eds.), The Geology of the East Midlands , 224-225, table 14, 1968). Upper Estuarine Series,
Bathonian.
Figured specimens: British Museum (Nat. Hist.) nos. Io 2419 (holotype, 9 LV: PI. 16, 18, figs. 3, 7), lo 2420 (paratype
9 RV: PI. 16, 20, fig. 3), OS 13373 (9 RV: PI. 16, 20, figs. 4, 6), OS 13374 (cf car. : PI. 16, 20, figs.
1, 5), OS 13375 (Cf RV: PI. 16, 20, fig. 2), OS 13376 (9 car.: PI. 16, 18, figs. 1, 2, 5, 6). All
specimens except for the holotype and the paratype are from the basal 10cm of Bed 4 of J. E.
Andrews (Aspects of Sedimentary Facies and Diagenesis in Limestone -Shale Formations of the
Middle Jurassic Great Estuarine Group, Inner Hebrides, Unpubl. PhD Thesis, University of
Leicester, 1984.); Duntulm Formation, Great Estuarine Group, Bay River Section, Loch Bay
Inlier, Trotternish, Skye, lat. 5° 34' W, long. 57°29'N.
Explanation of Plate 16, 18
Fig. 1, 9 car., ant. (OS 13376, 881 /xm long); fig. 2, 9 car., ext lat. (OS 13376) ; fig. 3, 9 LV, int. lat. (holotype, Io 2419, 818 /am long);
fig. 4, 9 LV, ext. lat (Io 2419); fig. 5, 9 car., dors. (OS 13376); fig. 6, 9 car., vent. (OS 13376); fig. 7, 9 LV, ornament and sieve
pores (Io 2419). Scale A (250 /xm; X 85), figs. 1, 2, 4-6; scale B (100/am; x 200), fig. 3; scale C (10/am; x 1000), fig. 7.
Stereo-Atlas of Ostracod Shells 16, 19
Progonocythere levigata (3 of 4)
Diagnosis:
Remarks:
Progonocythere with subquadrate/elongate punctate carapace. Puncta contain well developed
sieve plates. Small marginal denticals may occur anteriorly at about mid-height (four) and also
posteroventrally (2-3) usually on the right valve only (modified from Bate 1967, op. cit.).
P. levigata displays sexual dimorphism. Adults of the Scottish specimens are consistently larger
than their English counterparts, particularly the males. The entomodont hinge has 6-7 teeth
posteriorly and 6-7 teeth anteriorly; occasionally teeth may be bifid. The median bar may have up
to five anterior teeth. The frontal scar in the female is lower and sited more anteriorly (Text-fig.
1), particularly in the English specimens studied. P. levigata resembles Progonocythere cristata
Bate, 1963 (Bull. Br. Mus. nat. Hist. (Geol.), 8, no. 4, 191-193, pi. 4, figs. 5-15, pi. 5, figs. 1-6)
but does not have the ventrolateral overhang of the latter. The type-species, Progonocythere stilla
Sylvester-Bradley, 1948 (see C. Mayes, Stereo-Atlas Ostracod Shells, 2, 173-180, 1975), is
distinguished by its truncated posterior margin (Bate 1967, op. cit.).
Distribution :
Acknowledgement :
Text-fig. 1. Central muscle scar complex of
P. levigata (from OS 13373 and OS 13375).
A marine to marginal marine species. Found in the middle Jurassic Procerites progracilis Zone
(not Procerites hodsoni zone as shown by Bate 1978, op. cit.) of the Upper Estuarine Series,
Ketton, Northamptonshire, England and the Duntulm and Kilmaluag formations. Great Estuarine
Group, Trotternish, Skye, Scotland (Wakefield in prep.).
M. I. Wakefield thanks NERC & BP for CASE studentship support.
Explanation of Plate 16, 20
Fig. 1, cf car., ext. lat. (OS 13374, 1018/xm long); fig. 2, cf RV, int. lat. (OS 13375, 1073 /xm long); fig. 3, 9 RV, int. lat. (paratype, Io
2420, 827 /xm long); fig. 4, 9 RV, int. lat. (OS 13373, 872 /xm long); fig. 5, cf car., eccentric sieve plate (OS 13374); fig. 6, 9 RV,
muscle scars (OS 13373).
Scale A (250 /xm; x 85); figs. 1, 2, 4; scale B (100/xm; x 200), fig. 3; scale C (1 /xm; x 4900), fig. 5; scale D (50 /xm; x 400), fig. 6.
Stereo- Atlas of Ostracod Shells 16, 18
Progonocythere levigata (4 of 4)
Progonocythere levigata (2 of 4)
Stereo-Atlas of Ostracod Shells 16, 20
Stereo- Atlas of Ostracod Shells 16 (5) 21-24 ( 1989) Bythoceratina gobanensis (1 of 4)
595.337.14 (116.333.3) (261.1 : 162.013.48) : 551.352
ON BYTHOCERATINA GOBANENSIS REYMENT & REYMENT sp. nov.
by Richard A. Reyment & Eva R. Reyment
(University of Uppsala, Sweden)
Bythoceratina gobanensis sp. nov.
Holotype:
Type locality:
Derivation of name:
Figured specimens:
Department of Historical Geology and Palaeontology, University of Uppsala; Palaeontological
Museum, specimen PM:ATLM-1, a right valve.
Subsurface of North Atlantic Ocean, Goban Spur, Site 548A of DSDP leg 80, lat. 48° 54.95' N,
long. 12° 09.84' W; Late Maastrichtian (zone of Globigerina mayaroensis).
From the type locality.
Palaeontological Museum, University of Uppsala, Sweden, nos. PM:ATLM-1 (holotype, RV:P1.
16, 22, fig. 1), PM:ATLM-2 (LV: PI. 16, 22, fig. 3), PM:ATLM-3 (LV: PI. 16, 22, fig. 2),
PM:ATLM-4 (LV: PI. 16, 24, fig. 2), PM:ATLM-5 (LV: PI. 16, 24, fig. 3), PM:ATLM-6 (LV: PI.
16, 24, fig. 4), P:ATLM-7 (RV: PI. 16, 24, fig. 1). All from the type locality; PM:ATLM-1, -6 and
-7 are from sample 64-65 cm, PM:ATLM-2 and -3 are from sample 85-86 cm and PM:ATLM-5
derives from sample 14-15 cm. These are the sample definitions used for designating levels in
DSDP borehole 548A.
Explanation of Plate 16, 22
Fig. 1, RV, ext. lat. (PM:ATLM-1, 675/am long); fig. 2, LV, ext. lat. (PM:ATLM-3, 530/^m long); fig. 3, juv. LV, dors.
(PM:ATLM-2, 355/un long).
Scale A (100/u.m; X85), figs. 1, 2; Scale B (50/u.m; x200), fig. 3.
Stereo-Atlas of Ostracod Shells 16, 23 Bythoceratina gobanensis (2 of 4)
Diagnosis:
Remarks:
Distribution:
A Bythoceratina with upwardly directed caudal process in adults. Stout ventrolateral spine
ornamented with concentrically arranged beads located along fine riblets. Surface of lateral lobes
bearing beaded, hexagonal ornamental pattern. Anteroventral area of both valves with beaded
hexagonally arranged riblets. Muscle-scar configuration typical of genus. Hinge-bar vaguely
crenulated to smooth. Line of concrescence deviating from anterior inner margin in most
specimens; more strongly so in right valves.
The relationship between Bythoceratina Hornibrook, 1953 and Monoceratina Roth, 1928 is not
clear. The main diagnostic feature said to separate these two genera is the presence of a crenulated
median ridge and terminal teeth in Bythoceratina; the hinge in the material referred to here is only
vaguely notched. Bythoceratina gobanensis sp. nov. differs from all species figured by Hornibrook
(Palaeontological Bulletin No. 18, Geological Survey of New Zealand, 62-65, 1953) in details of
the ornament. It is similar in general appearance to Bythoceratina umbonatoides (Kaye, 1964) as
illustrated by J. W. Neale (in: R. H. Bate & E. Robinson, (eds.) A Stratigraphical Index of British
Ostracoda, Geol. J. Spec. Issue , 8, pi. 14, figs. 2-6, 1978), but differs in the nature of its
concentric, beaded ornament. The genus Bythoceratina seems to have its main distribution in the
Southern Hemisphere.
Late Maastrichtian, North Atlantic, palaeodepth estimated at 500-600m.
Explanation of Plate 16, 24
Fig. 1, juv. RV, ext. lat. (PM:ATLM-7, 450/i.m long); fig. 2, juv. LV, hinge (PM:ATLM-4, 350/i.m long); fig. 3, juv. LV, detail of
ventral margin (PM:ATLM-5, 670/i.m long); fig. 4, juv. LV, ext. lat. (PM:ATLM-6, 440/u.m long).
Scale A (100/i.m; x85), figs. 1, 3; scale B (50/xm; x200), fig. 2; scale C (100/u.m; xllO), fig. 4.
Stereo-Atlas of Ostracod Shells 16 (6) 25-28 ( 1989) Fallaticella schaeferi (1 of 4)
595.33.11 (113.313) (485 : 161.018.53) : 551.351 + 552.55
ON FALLATICELLA SCHAEFERI SCHALLREUTER
by Roger E. L. Schallreuter
(University of Hamburg, German Federal Republic )
Genus FALLATICELLA Schallreuter, 1984
Type-species (by original designation): Fallaticella schaeferi Schallreuter, 1984
Diagnosis: Small to medium-sized (c. 1 mm long) beyrichiacean. Slightly preplete, domicilium subamplete.
Unisulcate, sulcus (S2) moderately long, comma-like; in its ventral half slightly above mid-height
an elliptical muscle-spot. Distinct preadductorial node and broad syllobium; syllobium at dorsal
margin weakly rounded. Small velar flange very close to contact plane, broadest anteroventrally.
Marginal sculpture as a similar but smaller flange in posterior half, with a row of puncta on its
lower side. Females with an elongate crumina in anteroventral region, not very distinctly separated
from lateral surface of domicilium. Crumina bordered by a ridge internally. Shell reticulate on
lateral surfaces of domicilium and crumina. Ventral surface of crumina weakly reticulate.
Remarks: Fallaticella is considered to display cruminal dimorphism and as such is the oldest known
cruminate (and, therefore, beyrichiacean) ostracod.
There are two existing models for the origin of the crumina. In Kesling's ( Contr . Mus. Paleont.
Univ. Mich., 14 (6), 1957) model the space of the crumina is of antral origin, whereas in
Martinsson’s explanation (Bull. geol. Instn Univ. Uppsala , 41, 1962) the cruminoid space marks a
‘new’ evolutionary event and is formed by an expanded tubule of the velum. In both models the
internal opening of the crumina originates by a secondary perforation. The conditions in
Fallaticella indicate another possible way of forming a crumina: the migration of the antral
opening, internally, over the free margin of the valve. The crumina in this model is of antral origin.
Explanation of Plate 16, 26
Figs. 1-5, $ RV (AGH 30/1, 955yu,m long): fig. 1, ext. lat. ; fig. 2, ext. ventrolat.; fig. 3, ext. ant.; fig. 4, ext. dors. (70°); fig. 5, ext.
vent., detail.
Scale A (lOOyiim; xlOO), figs. 1-3; scale B (lOOyum; x75), fig. 4; scale C (50/xm; x230), fig. 5.
Stereo-Atlas of Ostracod Shells 16, 27 Fallaticella schaeferi (3 of 4)
Remarks (cont.): In this derivation a secondary perforation to the crumina is not necessary but a new free margin in
that part of the valve is necessary, because the free margin is (in an evolutionary sense) ‘pushed’
into the domicilium, thus forming an inner ridge-like fence to the crumina (PI. 16, 28, fig. 2).
Fallaticella schaeferi Schallreuter, 1984
1984 Fallaticella schaeferi n. sp., R. E. L. Schallreuter, N. Jb. Geol. Palaont. Abh. 169 (1), 26, 27-28, figs. 3, 1—2.
1986 Fallaticella schaeferi Schallreuter; R. E. L. Schallreuter, in: U. von Hacht, Fossilien von Sylt , 2, pi. 6, fig. 2.
1989 Fallaticella schaeferi Schallreuter; R. E. L. Schallreuter, Geschiebekunde aktuell , 5 (1), 3-4, fig. 2.
Holotype:
Type locality:
Figured specimens:
Diagnosis:
Remarks:
Distribution :
University of Hamburg, Geologisch-Palaontologisches Institut und Museum, GPIMH 2800; right
tecnomorphic valve anteriorly incomplete.
Beach NW Haftings, Gotland (Baltic Sea), Sweden; approximately lat. 57° 53' N, long. 18° 37' E.
Ojlemyrflint erratic boulder (no. G7, Schallreuter coll.); Pirgu (Flc) or Porkuni state (F2), Ashgill
Series, late Ordovician. Area of origin: presumably the Baltic Sea N of Gotland.
University of Hamburg, Geologisch-Palaontologisches Institut und Museum, Archiv fiir
Geschiebekunde (AGH) nos. G30/1 ($ RV: PI. 16, 26, figs. 1-5), G30/2 ($ RV: PI. 16, 28, figs.
2-4), G30/3 (tecnomorphic LV : PI. 16, 28, fig. 1) and G30/4 (tecnomorphic LV : PI. 16, 28, fig. 5).
All specimens are from an Ojlemyrflint erratic boulder (no. Val-34, Schallreuter coll.), Isle of
Gotland (Baltic Sea), Sweden; Upper Ordovician.
Females c. 0.95 mm long. Shape (Gestalt) moderately high to moderately long, domicilium
moderately to rather long. Lumina of reticulation elongate parallel to free margin.
It is questionable whether the second species described by Schallreuter (1984, op. cit. : F. ? bulbata)
belongs to the same genus.
Until now known only from Ojlemyrflint (Upper Ordovician) erratic boulders of the Isles of
Gotland (Baltic Sea) and Sylt (N Sea).
Explanation of Plate 16, 28
Fig. 1, tecnomorphic LV, ext. lat. (AGH 30/3, 875 gm long); figs. 2-4, 9 RV (AGH 30/2, 940 gm long): fig. 2, int. obi.;
fig. 3, detail of posteroventral portion of contact margin; fig. 4, detail of lower side of marginal flange with row of
puncta; fig. 5, juv. LV, ext. lat. (AGH 30/4, 715 pm long).
Scale A (100 /urn; x 100), fig. 1; scale B (100 /xm; x 85), fig. 2; scale C (50 yu,m; x 200), figs. 3, 4; scale D (100 yu.m; x 75),
fig. 5.
Stereo- Atlas of Ostracod Shells 16, 26
Fallaticella schaeferi (2 of 4)
IK
■MM
mmmi
%Wmm
Stereo-Atlas of Ostracod Shells 16, 28
Fallaticella schaeferi (4 of 4)
■m
MMm
Ml
mmdim
'//yw
KH
mm
Wimm m
Stereo-Atlas of Ostracod Shells 16 (7) 29-34 (1989) Columatia variolata (1 of 6)
595.337.3 (113.331) (420 : 162.003.52) : 551.351 + 552.54
ON COLUMATIA VARIOLATA (JONES & HOLL)
by Robert F. Lundin & David J. Siveter
(Arizona State University, Tempe, USA & University of Leicester, England)
Genus COLUMATIA gen. nov.
Type-species: Primitia variolata Jones & Holl, 1865
Latin colum , sieve; referring to the punctate surface of the valves. Gender, feminine.
Punctate, laterally flattened ostracods with sharply impressed elongate to pit-like S2; right valve
overlapping left along entire free margin. Right valve with contact groove which is confluent with
hinge groove at posterior end of hinge. Hinge straight but shorter than carapace. Adductorial
sulcus distinctly represented interiorly in the form of a ridge. Hinge and contact margin of left
valve is represented by simple edge.
Columatia is related to (the ? platycope) Neckajatia Schallreuter, 1974 ( Geol . For. Stock. Fork.,
96, 278) but differs from it in being distinctly unisulcate. Neckajatia is essentially nonsulcate but
some species have an incipient adductorial sulcus (R. F. Lundin, in: T. Hanai et al. (eds.),
Evolutionary Biology of Ostracoda, Develop. Palaeont. Stratigr., Amsterdam , 11, 1055, 1988).
Columatia is reserved for species in which the adductorial sulcus is sharply impressed into the
lateral surface of the valves. Thus defined, the genus is known at present with certainty from the
Explanation of Plate 16, 30
Fig. 1 RV, int. lat. (ASU X-85, 808 gm long); fig. 2 car., ext. It. lat. (ASU X-105, 714 /urn long); fig. 3, LV, int. lat. (ASU X-84, 771/am
long).
Scale A (200 /am; x82), fig. 1; scale B (200 gm; x94), fig. 2; scale C (200 /am; x 83), fig. 3.
Stereo-Atlas of Ostracod Shells 16, 31 Columatia variolata (3 of 6)
Remarks (cont.): type-species and its subjective synonyms. Primitia humilis Jones & Holl, 1886 and Primitia
fabulina Jones & Holl, 1886 (both Ann. Mag. nat. Hist. , (5), 17) are not considered to be members
of the genus. However, the unrevised Primitia bonnemai Swartz, 1936 (/. Paleont., 10), from the
Wenlock Series Mulde Beds of Gotland, Sweden, is a potential member of the genus Columatia.
The genus occurs in the Silurian Wenlock and Ludlow series of the Welsh Borderland of
England.
Derivation of name:
Diagnosis:
Remarks:
Columatia variolata (Jones & Holl, 1865)
Primitia variolata , sp. nov. T. R. Jones & H. B. Holl, Ann. Mag. nat. Hist., (3), 16, 418, pi. 13, figs. 6a,, b. (= BMNH I 2073).
Primitia variolata , var. paucipunctata. T. R. Jones & H. B. Holl, Ann. Mag. nat. Hist., (3), 16, 419, pi. 13, figs. 6c, d (= BMNH
I 2090).
Primitia paucipunctata, Jones & Holl; T. R. Jones & H. B. Holl, Ann. Mag. nat. Hist. (5), 17, 409, pi. 14, figs. 3a, b (= BMNH
In 52421 and In 52420 respectively).
“Primitia" variolata Jones & Holl; R. F. Lundin, in: T. Hanai et al. (eds.). Evolutionary Biology of Ostracoda, Develop.
Palaeont. Stratigr., Amsterdam, 11, 1052, 1055, pi. 1, fig. 8, pi. 2, figs. 3, 5, 7, 9.
Lectotype: British Museum (Nat. Hist.) no. I 2073; left valve exposed on matrix. Lectotype designated
herein; from H. B. Holl collection. Specimen illustrated by Jones & Holl, 1865, pi. 13, figs. 6a, b.
Type locality: According to Jones & Holl (1865, 419) the type specimen is from the Silurian “Woolhope
Limestone, west of the Wych, Malvern”. However, for reasons given below (see Remar :s), we do
not believe that the lectotype is from the (basal Wenlock) Woolhope Limestone Formation.
British Museum (Nat. Hist.) register data for the lectotype is: “Woolhope Limestone, Malvern
Tunnel”.
Explanation of Plate 16, 32
Fig. 1, RV, ext. lat. (ASU X-107, 770 gm long); fig. 2, car., ext. dors. (ASU X-106, 902/am long); fig. 3, car., ext. vent. (ASU X-81,
789 pm long); fig. 4, RV, ext. lat. (BMNH I 2090, 1000 pm long); fig. 5, LV, ext. lat. (lectotype, BMNH I 2073, 760 /am long).
Scale A (200 /am; x 85), fig. 1; scale B (200 /xm; X73), fig. 2; scale C (200 /am; x84), fig. 3; scale D (200 /am; x64), fig. 4; scale E
(200 /am; x84), fig. 5.
1865
1865
1886
1988
Stereo- Atlas of Ostracod Shells 16, 32
Columatia variolata (4 of 6)
Stereo-Atlas of Ostracod Shells 16, 30
Columatia variolata (2 of 6)
Stereo-Atlas of Ostracod Shell 16, 33 Columatia variolata (5 of 6)
Figured specimens: Arizona State University (ASU), Department of Geology nos. X-85 (RV: PI. 16, 30, fig. 1), X-105
(car.: PI. 16, 30, fig. 2), X-84 (LV: PI. 16, 30, fig. 3), X-107 (RV: PI. 16, 32, fig. 1), X-106 (car.:
PI. 16, 32, fig. 2), X-81 (car.: PI. 16, 32, fig. 3). British Museum (Nat. Hist.) nos. I 2090 (RV
exposed: PI. 16, 32, fig. 4), I 2073 (lectotype, LV exposed: PI. 16, 32, fig. 5).
X-81, 84. 85. 106 and 107 are from the Much Wenlock Limestone Formation at Lincoln Hill
near Ironbridge, Shropshire, England; appox. lat. 52°38'N, long. 2°30'W. X-105 is from the
Farley Member, Coalbrookdale Formation at Harley Hill, 1.2 km W of Much Wenlock, Shrop-
shire; approx, lat. 52° 36' N, long. 2° 34' W. I 2090 ( = Jones & Holl 1865, op. cit. , pi. 13, figs. 6c, d)
is reported from “Woolhope Limestone, west of the Wych, Malvern” and I 2073 from “Woolhope
Limestone, Malvern Tunnel” (see Remarks); approx, lat. 52° 05' N, long. 2° 20' W; both Hereford
& Worcester. All specimens Wenlock Series, Silurian.
Diagnosis: As for the genus. Columatia is currently monotypic. For dimensions see Text-fig. 1.
Remarks: The size, depth and number of puncta on the lateral surface of the valve is variable. In some cases
this variation is due to factors of preservation. Valve height-length ratio also is variable but is not
obviously sex-related.
Jones & Holl (1865, op. cit.) reported this species from the “Woolhope Limestone, west of the
Wych, Malvern”, Hereford & Worcester. However, we believe that their collections must have
come from the Much Wenlock Limestone Formation of that area because dozens of our samples
from the lower Wenlock strata of the Welsh Borderland, including the Woolhope Limestone
Formation in the Malvern Hills area and its coeval equivalents throughout the Welsh Borderland,
have not yielded a single specimen of this species. On the other hand, the species is common in the
Much Wenlock Limestone Formation both in Shropshire and other samples of upper Wenlock
strata from numerous localities in the Malvern Hills area of the Welsh Borderland.
The specimens of C. variolata figured under Primitia paucipunctata Jones & Holl by Jones &
Holl in 1886 (op. cit. , pi. 14, figs. 3a, b) are British Museum (Nat. Hist.) specimens In 52421 and In
52420 respectively.
Stereo-Atlas of Ostracod Shells 16, 34 Columatia variolata (6 of 6)
Known from numerous samples from many Silurian localities throughout the central and northern
Welsh Borderland area. Found in the upper part of the Coalbrookdale Formation and the Much
Wenlock Limestone Formation; Homerian Stage, Wenlock Series. Also ranges into the overlying
Lower Elton Formation, Ludlow Series.
The authors gratefully acknowledge NATO support for their collaborative research programme.
R. F. Lundin also thanks the College of Liberal Arts and Science, Arizona State University for its
support.
0.5
lb
aj
K 0.4
0.6 0.7 0.8 0.9
Length, mm
Text-fig. 1. Size dispersion diagram of 44 left valves of C. variolata from a single ^mple (RFL no. 13, ASU X-108), from Lincoln
Hill, near Ironbridge, Shropshire, England.
Distribution:
Acknowledgements :
Stereo-Atlas of Ostracod Shells 16 (8) 35-38 (1989) Microcheilinella distorta (1 of 4)
595.337.11 (113.5) (772 : 162.086.38) : 551.351 + 552.54
ON MICROCHEILINELLA DISTORTA (GEIS)
by Robert F. Lundin
(Arizona State University, Tempe, U.S.A.)
Genus MICROCHEILINELLA Geis, 1933
Type-species (by original designation): Microcheilus distortus Geis, 1932
Diagnosis: Bairdiacean genus with distinctly asymmetrical carapace, left valve overlaps right along entire free
margin; maximum width posterior, width nearly as great or greater than height. Shell without
tubules. Hinge straight and essentially parallel to longitudinal axis of carapace.
Remarks: Lundin (in: T. Hanai et al. (eds.), Evolutionary Biology of Ostracoda, Develop. Palaeont.
Stratigr., Amsterdam , 11, 145-157, 1988) has discussed in detail the difference between
Microcheilinella and Tubulibairdia Swartz, 1936. Whether species with calcified inner lamellae are
members of Microcheilinella, as reported by Gramm (Paleont. J., 9, 354-360, 1975), is a question
of taxonomic significance placed on that particular character. In contrast to what Shaver (in : R. C.
Moore (ed.). Treatise Invert. Paleontol., Pt. Q (3), 387, 1961) thought, the type-species of
Microcheilinella does not have calcified inner lamellae.
Microcheilinella distorta (Geis, 1932)
1932 Microcheilus distortus sp. nov.; H. L. Geis, J. Palaeont., 6. 182, pi. 25, figs. 15a, b.
1933 Microcheilinella distorta (Geis); H. L. Geis, J. Paleont., 7, 112.
1934 Microcheilinella distorta (Geis); R. S. Bassler & B. Kellett, Geol. Soc. Amer. Spec. Paper, 1, 42, fig. 20:5.
1960 Microcheilinella distorta (Geis); I. G. Sohn, U.S. Geol. Surv. Prof. Paper, 330-A. 75, pi. 5, fig. 13.
1961 Microcheilinella distorta (Geis); R. H. Shaver, in: R. C. Moore (ed.). Treatise Invert. Paleontol.. Pt. Q (3), 387, figs. 310A:3,
310B:3.
1988 Microcheilinella distorta (Geis); R. F. Lundin, in: T. Hanai et al. (eds.). Evolutionary Biology of Ostracoda, Develop. Palaeont.
Stratigr., Amsterdam, 11, 152, pi. 2, figs. 1-10, 17, 18, 22.
Explanation of Plate 16, 36
Fig. 1, 2 (holotype, UI M366, 675/um long); fig. 1, car., ext. rt. lat. ; fig. 2, car., ext. It. lat. Figs. 3, 4 (paratype, UI M367a, 675p.m
long); fig. 3, car., ext. rt. lat.; fig. 4, car., ext. It. lat. Scale (200p.m; x89), figs. 1-4.
Stereo-Atlas of Ostracod Shells 16, 37 Microcheilinella distorta (3 of 4)
Holotype:
Type locality:
Figured specimens:
Diagnosis:
Remarks:
Distribution :
Acknowledgements :
Department of Geology, University of Illinois, Urbana, Illinois (UI), U.S.A. no. M366; carapace.
[Paratypes: Three known; two are illustrated herein (M367a and M367b), the third has been
sectioned (see Lundin, op. cit., pi. 2, figs. 6-10, 17)].
Railroad cut at Spergen Hill, Norris, Washington County, Indiana, U.S.A.; approximately lat. 38°
36' N, long. 86° 00' W. Salem Limestone, Visean Series, Carboniferous.
Department of Geology, University of Illinois, Urbana (UI), nos. M366 (holotype, car.: PI. 16, 36,
figs. 1, 2), M367a (paratype, car.: PI. 16, 36, figs. 3, 4; PI. 16, 38, fig. 1), M367b (paratype, car.:
16, 38, figs. 2-5). All topotype specimens.
Microcheilinella species with dorsum and venter essentially parallel as viewed laterally. Small,
width greater than height, maximum width distinctly posterior to midlength. Hinge channel poorly
developed; bow-shaped projection poorly to moderately developed. Surface smooth; tubules and
calcified inner lamellae not present. Muscle scars unknown.
Lundin’s (op. cit.) discussion is pertinent to our understanding of the shell structure and contact
margin features of the species.
Known only from the type locality and three others in that area (Geis 1932, op. cit.).
Support of the College of Liberal Arts and Sciences, Arizona State University and from NATO is
gratefully acknowledged.
500 r
500 i—
Text-fig. 1 Size dispersion diagrams for 18 carapaces
and one left valve of M. distorta.
I I —
500 600 700
Length, pm
i i_
500 600 700
Length, pm
□ Holotype.
A Paratypes.
• Topotype carapaces.
* Topotype left valve.
O Carapaces from Old
Cleveland Quarry,
Harrodsburg, Monroe
County, Indiana, U.S.A.
Explanation of Plate 16, 38
Fig. 1, car., ext. ant. (paratype, UI M367a, 400 pm wide). Figs. 2-5 (paratype, UI M367b 700 /am long): fig. 2, car., ext. rt. lat.; fig. 3,
car., ext. dors.; fig. 4, car., ext. vent.; fig. 5., ext. post.
Scale A (200 gm; x90), figs. 1, 5; 'scale B (200 gm; x85), fig. 2; scale C (200 /urn; x87), figs. 3, 4.
Microcheilinella distorta (2 of 4)
Stereo-Atlas of Ostracod Shells 16, 36
Stereo-Atlas of Ostracod Shells 16, 38
Microcheilinella distorta (4 of 4)
Stereo-Atlas of Ostracod Shells 16 (9) 39-42 ( 1989) Sinessites hispanicus (1 of 4)
595.336.14 (113.45) (460 : 162.005.43) : 551.351 + 552.54
ON SINESSITES HISPANICUS BECKER
by Gerhard Becker
( University of Frankfurt, German Federal Republic)
Genus SINESSITES Becker, 1981
Type-species (by original designation): Sinessites hispanicus Becker, 1981
Diagnosis: Unilobate amphissitid genus with distinct subcentral node, but without dorsal surface (“dorsal
shield”) or lateral structures (shoulders, lateral carinae). 1-2 adventral structures developed; in
lateral view the velum curves above the dorsum at both cardinal angles.
Distribution: Western Europe; Frasnian, Upper Devonian.
Sinessites hispanicus Becker, 1981
1981 Sinessites hispanicus sp. nov. G. Becker, Palaeontographica, A, 173, 30, tab. 2, pi. 2, figs. 13-24.
1982 Sinessites hispanicus Becker; G. Becker, Palaeontographica, A, 178, tab. 2.
Holotype: Forschungs-Institut Senckenberg, Frankfurt am Main, German Federal Republic, no. SMF Xe
11191; an adult RV.
Explanation of Plate 16, 40
Fig. 1, adult RV, ext. lat. (holotype, SMF Xe 11191, 1070 ;u.m long). Figs. 2, 3, adult LV (paratype, SMF Xe 11195, 890 /am long): fig.
2, adductor muscle scar; fig. 3, int. lat.
Scale A (300/u.m; x80), figs. 1, 3; scale B (100/am; x 190), fig. 2.
Stereo-Atlas of Ostracod Shells 16, 41 Sinessites hispanicus (3 of 4)
Type locality:
Figured specimens:
Diagnosis:
Remarks:
Distribution :
Natural outcrop at unnamed pass, S “Summit 1839m”, about 4km SW of Posada de Valdeon,
Monto Region, Cantabrian Mountains, Provincia de Leon, N Spain; lat. 43° 04' N, long. 04° 54'
W. Gray marls with limestone nodules, upper Cardano Formation (do I), Frasnian, Upper
Devonian.
Forschungs-Institut Senckenberg (SMF), Frankfurt am Main, German Federal Republic, nos.
SMF Xe 11191 (adult RV, holotype: PI. 16, 40, fig. 1, PI. 16, 42, figs. 1, 2), SMF Xe 11195 (adult
LV, paratype: PI. 16, 40, figs. 2, 3).
All of the figured specimens are topotype material.
Thin-shelled, weakly reticulated Sinessites species with a small subcentral node. Inner carina only
developed mid-ventrally. Lateral surface of the carapace has scattered papillae. Adductor muscle
scar a distinct pit.
Sinessites hispanicus resembles those species of Amphissites Girty, 1910 (= Amphissitidae Knight,
1928, Kirkbyacea Ulrich & Bassler, 1906, Palaeocopida Henningsmoen, 1953) with a comparative-
ly small and ornamented subcentral node and which are abundant in the Upper Devonian and
Lower Carboniferous of Central Europe. However, the lateral valve structures and the dorsal
surface characteristics of Amphissites are lacking in Sinessites.
S. hispanicus is considered to be a benthic or perhaps even a nectobenthic species.
Southern Cantabrian Mountains, N Spain; Upper Cardano Formation, Frasnian, Upper
Devonian.
Explanation of Plate 16, 42
Figs. 1, 2, adult RV (holotype, SMF Xe 11191, KHO^am long): fig. 1, ext. vent, obi.; fig. 2, ext. dors. obi.
Scale (300/um; x80), figs. 1, 2.
Stereo-Atlas of Ostracod Shells 16, 40
Sinessites hispanicus (2 of 4)
Stereo-Atlas of Ostracod Shells 16, 42
Sinessites hispanicus (4 of 4)
Stereo-Atlas of Ostracod Shells 16 (10) 43-46 (1989) Kullmannissites kullmanni (1 of 4)
595.336.14 (113.45) (460 : 162.005.43) : 551.351 + 552.54
ON KULLMANNISSITES KULLMANNI BECKER
by Gerhard Becker
( University of Frankfurt , German Federal Republic)
Genus KULLMANNISSITES Becker, 1981
Type-species: (by original designation): Kullmannissites kullmanni Becker, 1981
Diagnosis: Unilobate amphissitid genus with comparatively small subcentral node and antero- and
posterodorsal more or less conspicuous spines. 1-2 adventural structures (velum, carina)
developed.
Distribution: Western and Central Europe; Frasnian-Famennian, Upper Devonian.
Kullmannissites kullmanni Becker, 1981
1981a Kullmannissites kullmanni sp. nov. G. Becker, Palaeontographica, A, 173, 31, 32, tab. 2, pi. 4, figs. 11-18.
1981b Kullmannissites kullmanni Becker; G. Becker, Senckenberg. leth., 62, 181, text-fig. 3.
1982 Kullmannissites kullmanni Becker; G. Becker, Palaeontographica , A, 178, tab. 2.
Holotype: Forschungs-Institut Senckenberg, Frankfurt am Main, German Federal Republic, no. SMF Xe
11204; an adult LV.
Explanation of Plate 16, 44
Fig. 1, adult LV, ext. lat (holotype, SMF Xe 11204, 1270 /um long). Figs. 2, 3, adult RV, (paratype, SMF Xe 11210, 1260 yum long): fig.
2, adductor muscle scar; fig. 3, int. lat.
Scale A (300 /u.m; x60), figs. 1, 3; scale B (100 /am; x 150), fig. 2.
Stereo -Atlas of Ostracod Shells 16, 45 Kullmannissites kullmanni (3 of 4)
Type locality:
Figured specimens:
Diagnosis :
Remarks:
Distribution :
Natural outcrop at E side of “Collado de Anzo", about 4 km SW of Posada de Valdeon, Monto
Region, Cantabrian Mountains, Provincia de Leon, N Spain; lat. 43°04'N, long. 04°54'W.
Yellowish marls with limestone nodules, Vidrieros Formation (do III-IV), Famennian, Upper
Devonian.
Forschungs-Institut Senckenberg (SMF), Frankfurt am Main, German Federal Republic, nos.
SMF Xe fl204 (adult LV, holotype: PI. 16, 44, fig. 1; PI. 16, 46, figs. 1, 2), SMF Xe 11210 (adult
RV, paratype: PI. 16, 44, figs. 2, 3). Geologisch-Palaontologisches Institut, Frankfurt am Main
(GPIF), no. GPIF Cr 14/12 (adult RV, paratype: PI. 16, 46, fig. 3).
All of the figured specimens are topotype material.
Thin-shelled, weakly reticulate Kullmannissites species. Subcentral node indistinct and flat,
button-like. Only velar structure developed and posterodorsally confluent with large spine; also a
large anterior spine. Site of muscle scar represented externally by a deep pit.
Kullmannissites kullmanni Becker, 1981 belongs to the family Amphissitidae Knight, 1928
(Kirkbyacea Ulrich & Bassler, 1906, Palaeocopida Henningsmoen, 1953). The nearest related
species are Limbatula [= Kullmannissites ] mediocera Blumenstengel, 1965, with a spinose node,
and Amphissites [= Kullmannissites ] bispinosus Blumenstengel, 1965^with an inner carina. Both
are from the Upper Devonian (do I and do III, respectively) of the Thuringian Schiefergebirge,
Germany. Also similar but having only a posterodorsal spine is Kullmannissites ? solus Becker,
1981, from do III— V of the S Cantabrian Mountains, N Spain, and most probably from do V of
Moravia, Czechoslovakia.
K. kullmanni is considered to be a nectobenfhic species.
Cantabrian Mountains, N Spain; Vidrieros Formation, Famennian, Upper Devonian.
Explanation of Plate 16, 46
Figs. 1, 2, adult LV (holotype, SMF Xe 11204, 1270 p.m long): fig. 1, ext. vent. obi. ; fig. 2, dors. obi. Fig. 3, adult RV, dors, (paratype,
GPIF Cr 14/12, 1350^™ long).
Scale (300 /am; x60), figs. 1-3.
Stereo-Atlas of Ostracod Shells 16. 44
Kullmannissites kullmanni (2 of 4)
Stereo-Atlas of Ostracod Shells 16 (11) 47-50 (1989) Vitissites comtei (1 of 4)
595.336.14 (113.45) (460 : 162.006.42) : 551.351 + 552.54
ON VITISSITES COMTEI BECKER
by Gerhard Becker
(University of Frankfurt , German Federal Republic)
Genus VITISSITES Becker, 1981
Type-species (by original designation): Vitissites comtei Becker, 1981.
Diagnosis: Bilobate amphissitid (?) genus with inflated subcentral node on transversely broadened base and
elongated, less conspicuous posteroventral node; only velar structure developed.
Distribution: W Europe; Upper Emsian, Lower Devonian.
Vitissites comtei Becker, 1981
1981 Vitissites comtei sp. nov. G. Becker, Senckenberg. leth ., 62, 179, 180, text-fig. 2, pi. 1, figs. 1-9.
Holotype: Forschungs-Institut Senckenberg, Frankfurt am Main (SMF), German Federal Republic, no. SMF
Xe 12204; an adult carapace.
Type locality: Road cut 1km E the village of La Vid, upper Esla Valley, S Cantabrian Mountains, Provincia de
Leon, N Spain; lat. 42° 50' N, long. 5° 38' W. Dark grey marls, La Vid Formation (unit 2), Upper
Emsian, Lower Devonian.
Explanation of Plate 16, 48
Fig. 1, adult car., rt. lat. (holotype, SMF Xe 12204, 1380 /am long); fig. 2, juv. RV, ext. lat. (paratype, GPIF Cr 15/la, 890 /am long);
fig. 3, juv.? RV, ext. lat. (paratype, SMF Xe 12206, 1170/am long).
Scale A (300/am; X48), figs. 1-3.
Stereo- Atlas of Ostracod Shells 16, 49 Vitissites comtei (3 of 4)
Figured specimens:
Diagnosis:
Remarks:
Distribution :
Forschungs-Institut Senckenberg (SMF), Frankfurt am Main, German Federal Republic, nos.
SMF Xe 12204 (adult car., holotype: PI. 16, 48, fig. 1), SMF Xe 12206 (juv.? RY, paratype: PI. 16,
48, fig. 3), SMF Xe 12211 (adult RV, paratype: PI. 16, 50, figs. 1-5). Geologisch-
Palaontologisches Institut Frankfurt (GPIF), Frankfurt am Main, no. GPIF Cr 15/la (juv. RV,
paratype: PI. 16, 48, fig. 2). All of the figured specimens are topotype material.
Thick-shelled, smooth (?), preplete Vitissites species with an asymmetrical subcentral node on
posteriorly elongated base and a comparatively low, long and curved posteroventral node; muscle
scar a weak, smooth spot.
Vitissites comtei Becker, 1981 was previously placed in the family Amphissitidae Knight, 1928
(Kirkbyacea Ulrich & Bassler, 1906, Palaeocopida Henningsmoen, 1953) by Becker (1981, 178)
because of the transversely elongated, subcentrally situated node and (therefore) the lack of an S2.
The orientation of the carapace seems a little difficult, but the higher end must be anterior
(preplete outline) and the subcentral node is (as in Amphissitidae) situated in front of the valve
mid-length.
The most closely related species is believed (Becker 1981, 178, 180) to be “Kegelites”
polonicus Olempska, 1979 from the Middle Devonian (Givetian) of the Polish Mittelgebirge. The
binodal nature of the carapace may reveal binodicopid (bolliid) ancestors. V. comtei is believed to
be a benthic species.
Cantabrian Mountains; La Vid Formation, Upper Emsian, Lower Devonian.
Explanation of Plate 16, 50
Figs. 1-5, adult RV (paratype, SMF Xe 12211, 1310/u.m long): fig. 1, vent, obi.; fig. 2, vent.; fig. 3, dors.; fig. 4, ext. lat.; fig. 5, ext.
lat. obi.
Scale A (300 /xm; x48), figs. 1-5.
Stereo-Atlas of Ostracod Shells 16, 48
Vitissites comte i (4 of 4)
Vitissites comtei (2 of 4)
Stereo-Atlas of Ostracod Shells 16, 50
Stereo-Atlas of Ostracod Shells 16 (12) 51-54 (1989) Rishona epicypha (1 of 4)
595.337 (113.44) (774 : 162.084.45) : 551.35 (26.01) + 552.52
ON RISHONA EPICYPHA (KESLING & KILGORE)
by Gerhard Becker & Franciszek Adamczak
( University of Frankfurt, German Federal Republic
& University of Stockholm, Sweden)
Genus RISHONA Sohn, 1960
Type-species (by original designation): Bairdia gibbera Kesling & Kilgore, 1952 [non Morey, 1935] = Bairdia epicypha
Kesling & Kilgore, 1955.
Diagnosis: Thin-shelled, smooth and inequivalved podocopid (?) genus with long straight hinge and more or
less convex free margin; left valve larger and overlapping right valve, especially mid-ventrally with
large bow-shaped projection.
Distribution: Arctic and W Canada;? late upper Emsian, Lower Devonian; early Eifelian and Givetian. Middle
Devonian. Michigan, U.S.A.; upper Eifelian, Middle Devonian. Holy Cross Mountains, Poland;
early Eifelian, Middle Devonian. New South Wales, Australia; early Emsian, Lower Devonian.
Rishona epicypha (Kesling & Kilgore, 1955)
1952 Bairdia gibbera sp. nov. R. V. Kesling & J. E. Kilgore, Contr. Mus. Paleont. Univ. Mich., 10, 1, 14, pi. 4, figs. 9-17.
1955 Bairdia epicypha nom. nov. R. V. Kesling & J. E. Kilgore, J. Paleont., 29, 189.
1960 Rishona epicypha (Kesling & Kilgore); G. Sohn, U.S. Geol. Surv. prof. Paper, 330-A, 79, pi. 5, figs. 22-26.
1973 Rishona epicypha (Kesling & Kilgore); F. Adamczak & M. Weyant, Senckenberg. leth., 53, 527-528, 532, pi. 2, fig. 2,
text-figs. 6-7.
Explanation of Plate 16, 52
Fig. 1, adult car., rt. lat. (holotype, MPUM 28024, 1900 yum long); fig. 2, juv. car., rt. lat. (paratype, MPUM 28020, 1470/um long); fig.
3, adult car., rt. lat. (paratype, MPUM 28021, 1970/um long).
Scale A (300/um; x35), figs. 1-3.
Stereo-Atlas of Ostracod Shells 16, 53 Rishona epicypha (3 of 4)
Holotype:
Type locality:
Figured specimens:
Diagnosis:
Remarks:
Distribution :
Museum of Paleontology, University of Michigan, Ann Arbor, Michigan, U.S. A., no. 28024; an
adult carapace.
Road cut and ditch. West Long Lake Road, 0.5 mile S of LeRoy’s Resort, Presque Isle County,
Michigan, U.S. A.; lat. 45° 13' N, long. 83° 29' W. Dark gray shales, Cyrtina umbonata alpensis
beds, Genshaw Formation, upper Eifelian, Middle Devonian.
Museum of Paleontology, University of Michigan (MPUM), Ann Arbor, Michigan, U.S. A., nos.
MPUM 28024 (adult car., holotype: PI. 16, 52, fig. 1; PI. 16, 54, figs. 5-6), MPUM 28020 (juv.
car., paratype: PI. 16, 52, fig. 2; PI. 16, 54, fig. 3), MPUM 28021 (adult car., paratype: PI. 16, 52,
fig. 3; PI. 16, 54, fig. 4), MPUM 28023 (adult car., paratype: PI. 16, 54, figs. 1-2).
All topotype material.
Rishona species with carapace outline subtrapezoidal in lateral view, anterior margin gently
rounded, posterior part of the carapace acuminate.
Adamczak & Weyant (1973, op. cit.) gave an alternative, reversed (dorsal-ventral) orientation of
the carapace, indicating the strong overlap of valves as being ventral in position (also other
Podocopida, e.g. Pachydomellidae).
In R. tumida (Lower or Middle Devonian, Canadian Arctic Archipelago) Adamczak &
Weyant reported vascular markings and domiciliar sexual dimorphism (1973, text-fig. 2, pi. 2, figs.
3, 4). The former had been believed to be (probable) blood canals, which interpretation was called
in question by Sohn {J. Res. U.S. geol. Surv., 2, 6, 725, 1974).
The true systematic position of Rishona is not known (? Podocopida, incertae superfamily).
Ecologically, R. epicypha is presumably a pelagic or at least a nectobenthic species.
Canadian Arctic Archipelago, Ellesmere Island; Blue Fiord Formation, late upper Emsian or
early Eifelian, Lower or Middle Devonian. Michigan, U.S. A.; Genshaw Formation, upper
Eifelian, Middle Devonian.
Explanation of Plate 16, 54
Figs. 1-2, adult car. (paratype, MPUM 28023, 1730 /urn long): fig. 1, vent.; fig. 2, post.; fig. 3, juv. car., vent, (paratype, MPUM
28020, 1470/um long); fig. 4, adult car., vent, (paratype, MPUM 28021, 1970/um long); figs. 5-6, adult car. (holotype, MPUM
28024, 1900 /xm long): fig. 5,- vent.; fig. 6 ant.
Scale A (300/u.m; x35), figs. 1-6.
Stereo-Atlas of Ostracod Shells 16, 52
Rishona epicypha (2 of 4)
Stereo-Atlas of Ostracod Shells 16, 54
Rishona epicypha (4 of 4)
Stereo-Atlas of Ostracod Shells 16 (13) 55-58 (1989) Chinocythere curvispinata (1 of 4)
595.337.14 (118.22/119.1) (510 : 161.108.22) : 551.312
ON CHINOCYTHERE CURVISPINATA SU sp. nov.
by Su Deying
(Chinese Academy of Geological Sciences, Beijing, China & University of Hull, England)
Chinocythere curvispinata sp. nov.
Holotype:
Type locality:
Derivation of name:
Figured specimens:
Diagnosis:
Institute of Geology, Chinese Academy of Geological Sciences, Beijing, no. 8.22; adult LV.
Beihuai Borehole X5 (Nanning No. 2), Nanning, Guangxi Province, S China (lat. 22° 50' N, long.
108° 19' E), depth 55-56m. Plio-Pleistocene, non-marine.
A reference to the prominent curved spines on the surface of the carapace.
Institute of Geology, Chinese Academy of Geological Sciences, Beijing, nos. 8.22 (holotype, LV:
PI. 16, 56, figs. 3, 4; PI. 16, 58, fig. 1), 8.23 (RV: PI. 16, 56, figs. 1, 2; PI. 16, 58, figs. 2, 3).
No. 8.22 is from the type locality and horizon; no. 8.23 from Borehole X8 (Yongning No. 2),
Yongning, Guangxi Province (lat. 22°45'N, long. 108° 26' E), depth 63-64 m (Plio-Pleistocene).
Carapace elongate rounded-triangular in lateral view, tapering strongly posteriorly; dorsal margin
straight, marked anterior cardinal angle; posterior margin rounded, anterior margin rounded with
infracurvature. Each valve with three curved, hollow spines, reticulate surface and shallow
anterodorsal and centrodorsal sulci.
Explanation of Plate 16, 56
Figs. 1, 2, RV, (8.23, 550 /am long): fig. 1, ext. lat.; fig. 2, dors.; figs. 3, 4, LV, (holotype, 8.22, 570 gm long): fig. 3, dors.; fig. 4, ext.
lat.
Scale A (100 /am; xll5), figs. 1-4.
Stereo-Atlas of Ostracod Shells 16, 57 Chinocythere curvispinata (3 of 4)
Remarks:
Distribution :
Acknowledgements :
The genus Chinocythere Li & Lai, 1978, described from Eocene to Oligocene deposits of the
coastal region of Bohai, is similar to Limnocythere Brady, 1868, but differs in having a hinge which
in the right valve has two conical or peg-like teeth separated by a groove (this accommodates the
margin of the left valve which forms a bar that expands slightly at each end (PI. 16, 58, fig. 1)). In
lateral view the valves taper more than in Limnocythere and tend to be thicker. The muscle scar
pattern shows the vertical row of four adductors typical of the Limnocytheridae. The Cretaceous
genus Vlakomia Gramm, 1966 agrees well in hinge structure but is much less elongate and has the
tuberculate ornamentation concentrated in the ventral part of the valve.
The present species is probably closest to C. validispinata Hou & Shan, 1978 (In: Bojie (ed.),
Early Tertiary Ostracode Fauna from the Coastal Region of Bohai, Science Press, Beijing, 151, pi.
71, figs. 2-5) in its hinge structure and general shape, but the latter differs in its small cone-shaped
spine in the posterior part of the valve, two small short spines centroventrally and in the posterior
sulcus extending to below mid-height. C. curvispinata also has some affinity with C. quadrinodosa
Geng & Shan, 1978 (In : Bojie, op. cit. , 161, pi. 78, fig. 3) in hinge structure and number of spines,
but Geng & Shan’s species has a subrectangular shell in side view, the posterior sulcus extends
ventrally to below mid-height, there is a short spine at the anterior cardinal angle, two thick spines
centroventrally and a few weakly-developed anterior marginal denticles.
Plio-Pleistocene of Guangxi Province, S China; non-marine.
I wish to express my sincere gratitude to the K. C. Wong Foundation for providing a Royal Society
Fellowship which enabled me to study in Hull.
Explanation of Plate 16, 58
Fig. 1, LV, int. lat. (holotype, 8.22, 570 gm long); figs. 2, 3, RV (8.23, 550 pm long): fig. 2, detail of muscle scar pattern; fig. 3, int.
lat.
Scale A (100 /am; X115), figs. 1, 3; scale B (50 /am; x350), fig. 2.
Stereo-Atlas of Ostracod Shells 16, 56
Chinocythere curvispinata (2 of 4)
Stereo-Atlas of Ostracod Shells 16, 58
Chinocythere curvispinata (4 of 4)
Stereo-Atlas of Ostracod Shells 16 (14) 59-62 (1989) Chinocythere shajingensis (1 of 4)
595.337.14 (118.22/119.1) (510 : 161.108.22) : 551.312.
ON CHINOCYTHERE SHAJINGENSIS SU sp. nov.
by Su Deying
(Chinese Academy of Geological Sciences , Beijing, China & University of Hull, England)
Chinocythere shajingensis sp. nov.
Holotype:
Type locality:
Derivation of name:
Figured specimens:
Diagnosis:
Institute of Geology, Chinese Academy of Geological Sciences, Beijing, no. 8.17; adult 9RV.
Borehole X8 (Yongning No. 2), Yongning, Guangxi Province, S China (lat. 22° 45' N, long. 108°
26' E) depth 61 -62m. Plio-Pleistocene, non-marine.
From its abundant occurrence in boreholes in the vicinity of Shajing village near the town of
Nanning.
Institute of Geology, Chinese Academy of Geological Sciences, Beijing, nos. 7.20 (9 LV: PI. 16,
60, fig. 3), 7.21 (juv. car.: PI. 16, 62, fig. 2), 8.13 (§ car.: PI. 16, 62, fig. 3), 8.14 (9 RV: PI. 16, 62,
fig. 4), 8.15 (9 LV: PI. 16, 62, fig. 1), 8.17 (holotype, 9 RV: PI. 16, 60, fig. 1), 8.19 (cf LV: PI. 16.
60, fig. 2).
All from Borehole X8 (Yongning No. 2) (lat. 22° 45' N, long. 108° 26' E); 61-62m (8.17,
holotype), 63-64m (8.19), 88-89m (7.20, 7.21, 8.13, 8.14); Plio-Pleistocene.
Reticulate Chinocythere with well-developed, sausage-like ventral ridge, large upright posterodor-
sal tubercle immediately behind the median sulcus and smaller, round tubercle between the
median and anterodorsal sulci. Strong sexual dimorphism, presumed males being more elongate
and much rarer than the females.
Explanation of Plate 16, 60
Fig. 1, 9 RV, ext. lat. (holotype, 8.17, 590 gm long); fig. 2, cf LV, ext. lat. (8.19, 710/xm long); fig. 3, 9 LV, ext. lat. (7.20, 600 gm
long).
Scale A (100/luti; x 100), figs. 1-3.
Stereo-Atlas of Ostracod Shells 16, 61
1
Chinocythere shajingensis (3 of 4)
Remarks:
Distribution :
Acknowledgements :
C. shajingensis is closest to C. alata Shan & Zhao as figured by Hou et al. (In: Bojie, (ed.), Early
Tertiary Ostracode Fauna from the Coastal Region of Bohai, Science Press, Beijing, 167, pi. 65,
figs. 10-12, 1978) in hinge and ornamentation but is much more elongate, the anterior margin is
more broadly rounded, it tapers posteriorly and the ventral swelling does not affect the outline. It
also has some affinity with Phacocythere inflata Guan, 1978 ( Paleontological Atlas of Central South
China 4. Micropalaeontology , Geological Publishing House, Beijing, 278, pi. 73, figs. 4-7) in its
general pattern of ornamentation but differs from the latter in tapering strongly posteriorly whilst
in Guan’s species the height is maintained at the posterior cardinal angle and it only has one sulcus
anteromedianly. C. shajingensis is also reminiscent of Limnicythere? williamsi Swain, 1947 ( J .
Paleont., 21, 527, pi. 77, figs. 30-33) from the Upper Tertiary of Utah in general ornamentation,
but in Swain’s species the median sulcus extends ventrally to below mid-height, the anterior
margin is more evenly rounded and in lateral view the shell does not taper so strongly posteriorly.
Plio-Pleistocene in boreholes in Guangxi Province, S China: X4 (Nanning no. 1), X5 (Nanning no.
2), X6 (Nanning no. 3), X7 (Yongning no. 1), X8 (Yongning no. 2); non-marine.
I wish to express my sincere gratitude to the K. C. Wong Foundation for providing a Royal
Society Fellowship which enabled me to study in Hull.
Explanation of Plate 16, 62
Fig. 1, 9 LV, int. lat. (8.15, 620 /xm long); fig. 2, juv. car., dors. (7.21, 440 /urn long); fig. 3, 9 car., dors. (8.13, 610pim long); fig. 4, 9
RV, int. lat. (8.14, 570/u.m long).
Scale A (100/zm; x 100), figs. 1-4.
Chinocythere shajingensis (2 of 4)
Stereo-Atlas of Ostracod Shells 16. 60
Stereo-Atlas of Ostracod Shells 16, 62
Chinocythere shajingensis (4 of 4)
Stereo-Atlas of Ostracod Shells 16(15)63-66(1989) Chinocythere tuberculata ( 1 of 4)
595.337.14 (118.22/119.1) (510 : 161.108.22) : 551.312
ON CHINOCYTHERE TUBERCUEATA SU sp. nov.
by Su Deying
( Chinese Academy of Geological Sciences, Beijing, China & University of Hull, England )
Chinocythere tuberculata sp. nov.
Institute of Geology, Chinese Academy of Geological Sciences, Beijing, no. 7.11; 9 RV.
Borehole X8 (Yongning No. 2), Yongning, Guangxi Province, China (lat. 22°45'N, long.
108°26'E), depth 99-100m. Plio-Pleistocene, non-marine.
In reference to the prominent tubercles developed on the valve surface.
Institute of Geology, Chinese Academy of Geological Sciences, Beijing, nos. 7.11 (holotype, 9 RV:
PI. 16, 64, figs. 1,2; PI. 16, 66, fig. 4), 7.12 (cf LV: PI. 16, 64, figs. 4, 5; PI. 16, 66, fig. 1), 7. 13 (9 car.:
PI. 16, 64, fig. 3; PI. 16, 66. fig. 3), 7.16 (cf LV: PI. 16, 66, fig. 2).
No. 7.11 from the type locality and horizon; nos. 7.12, 7.13 and 7.16 from Beihuai Borehole X5
(Nanning No. 2), Guangxi Province (lat. 22°50'N, long. 108° 19' E), depths 50-58m; Plio-
Pleistocene, non -marine.
Chinocythere with reticulate surface, four cone-shaped tubercles dorsally, one elongate rib and one
columnar tubercle ventrally. Muscle scar pattern consists of a slightly oblique vertical row of four
undivided adductor scars located at mid-length of the shell, two mandibular scars and at least four
dorsal scars (see PI. 16, 66, fig. 1).
Explanation of Plate 16, 64
Figs. 1, 2, 9 RV, (holotype, 7.11, 470 /u,m long): fig. 1, ext. lat.; fig. 2, dors.; fig. 3, 9 car., It. lat. (7.13, 450 /am long); figs. 4, 5, Cf LV,
(7.12, 475 /am long): fig. 4, ext. lat.; fig. 5, dors.
Scale A (100/am; x 135), figs. 1-5.
Stereo-Atlas of Ostracod Shells 16, 65 Chinocythere tuberculata (3 of 4)
Holotype:
Type locality:
Derivation of name:
Figured specimens:
Diagnosis:
Remarks:
Distribution :
A cknowledgements :
In January 1978 Li & Lai described the new genus Chinocythere , with C. xinzhenensis as the type
species (In : Bojie, (ed.). Early Tertiary Ostracode Fauna from the Coastal Region of Bohai, Science
Press, Beijing, 149, pi. 70, figs. 1-4; pi. 82, figs. 2, 3; pi. 83, figs. 1, 2). In February 1978, Guan
published the new genus Tuberocythere (type species T. tunliensis) from Oligocene deposits in the
Nanning area (Guan et al.. Paleontological Atlas of Central South China 4. Micropalaeontology ,
Geological Publishing House, Beijing, 275-6, text-fig. 66, pi. 72, figs. 19-20; pi. 73, figs. 1-3, 1978).
It has not been possible to establish valid differences between these two genera and so the present
species is referred to Chinocythere which has priority by one month.
C. tuberculata agrees well in hinge structure with T. nanningensis Guan, 1978 (op. cit. , 276-7, pi. 72,
fig. 18) except that in Guan’s species the valve surface is smooth, the posterior sulcus extends ventrally
to below mid-height and there are three elongate tubercles centroventrally with fine spines on the top
of the tubercles. There are no other species of close affinity.
Plio-Pleistocene of Guangxi Province, S China; non -marine.
I wish to express my thanks to the K.C. Wong Foundation who kindly provided a Royal Society
Fellowship for me to study in Hull.
Explanation of Plate 16, 66
Fig. 1, cf LV, int. lat. (7.12, 475 gm long); fig. 2, cf LV, int. lat. (7.16, 425 /am long); fig. 3, 9 car., dors. (7.13, 450 gm long); fig. 4, 9 RV,
int. lat. (holotype, 7.11, 470 /u,m long).
Scale A (100 /am; xl35), figs. 1-4.
Stereo-Atlas of Ostracod Shells 16, 64
Chinocythere tuberculata (2 of 4)
Chinocythere tuberculata (4 of 4)
Stereo-Atlas of Ostracod Shells 16, 66
Stereo-Atlas of Ostracod Shells 16(16)67-72(1989) Tuberoloxoconcha tuberosa ( 1 of6)
595.337.14 (119.9) (44 : 161.003.42) : 551.351.
ON TUBEROLOXOCONCHA TUBEROSA (HARTMANN)
by David J. Horne
(Thames Polytechnic, England)
Genus TUBEROLOXOCONCHA Hartmann, 1974
Type-species (by original designation): Eoxoconcha tuberosa Hartmann, 1954.
1974 Tuberoloxoconcha gen. nov. G. Hartmann, Annls Speleol., 28 (for 1973), 426.
Diagnosis: Small loxoconchid genus (carapace <400/xm long), ovate to subrectangular in lateral view,
ornamented with concentrically arranged pits and ribs. In dorsal view, anterior and posterior
extremities pointed, greatest width around mid-length. Sieve pores flush with the external surface
of the valves. Hinge smooth henodont: in RV, an elongate posterior tooth and a median to
anterior groove; in LV, a posterior socket and a smooth median bar, thickening and faintly
notched anteriorly. Inner lamella broad, particularly anteriorly; anterior inner margin with an
almost straight section. Anterior and posterior vestibula present; marginal pore canals moderate in
number (about 10-20 anteriorly), simple or branching. Four adductor muscle scars in a vertical
row, a U-shaped frontal scar and a prominent circular fulcral point. Weakly dimorphic: male
carapace smaller than female. Appendages slender; antennula with six podomeres, of which 4 and
5 are fused and together are longer than 6, bearing thin, flexible setae; antenna with two terminal
chelate setae; branchial plate on maxillula with a single reflexed seta; setal formulae of basal
podomeres of legs: (l + l:l(or 2?):1), (1 + 1:1:1), (1 + 1:1:1).
Explanation of Plate 16, 68
Figs. 1-3, § ( 1989.538, 320 yarn long): fig. 2, LV, ext. lat. ; fig. 3, LV, ext. lat., detail of anteroventral region; fig. 3, RV, ext. lat. : figs.
4, 5, c f RV (1989.539, 290/u.m long): fig. 4, ext. lat.; fig. 5, detail of posteroventral region.
Scale A (lOOyarn; x200), figs. 1, 3, 4; scale B (10/am; x750), figs. 2, 5.
Stereo-Atlas of Ostracod Shells 16, 69 Tuberoloxoconcha tuberosa (3 of 6)
Remarks: Tuberoloxoconcha belongs to the subfamily Pseudolimnocytherinae (erected as a family by G.
Hartmann & H. S. Puri, Mitt. hamb. zool. Mus. Inst., 70, 29, 1974) of the family Loxoconchidae
Sars, 1926. The closely related genus Pseudolimnocythere Klie, 1938 (Zool. Anz., 123, 150, 151)
(type species P. hypogea Klie, 1938; op. cit. , 151-155, figs. 7-16) has a similar henodont hinge (D.
L. Danielopol, Bijdr. Dierk., 50, 243-291, 1980) but differs in having a shorter posterior hinge
tooth in the right valve, an evenly concave anterior inner margin, sunken or recessed sieve pores,
and an antennula with podomere 6 longer than 4 and 5 together (for further discussion of their
affinities see Danielopol, op. cit.). Both genera are interstitial, but species of Pseudolimnocythere
inhabit freshwater, while those of Tuberoloxoconcha are apparently confined to marine-brackish
conditions.
Tuberoloxoconcha tuberosa (Hartmann, 1954)
1954 Eoxoconcha tuberosa sp. nov. G. Hartmann, Vie Milieu, 4 (for 1953), 248, 250, figs. 5a-i.
non 1967 Eoxoconcha tuberosa Hartmann; F. E. Caraion, Fauna Republicii Socialiste Romania, 4, Crustacea, 10 ( Ostracoda ),
109-111, fig. 31A-I, Bucarest.
71971 Hirschmannial sp.; P. J. Barbeito-Gonzalez, Mitt. hamb. zool. Mus. Inst., 67, 310, pi. 34, figs, lj, 2j.
71972 Loxoconchal tuberosa Hartmann; H. Uffenorde, Gottinger Arb. Geol. Paldont., 13, 86, pi. 3, fig. 9.
1974 Tuberoloxoconcha tuberosa (Hartmann); G. Hartmann, Annls Speleol., 28, 426.
Syntypes: Universitat Hamburg Zoologisches Institut und Zoologisches Museum no. K-28145 (several
decalcified carapaces with appendages), K-28145A (cf appendages dissected and illustrated
herein).
Type locality: Banyuls-sur-mer, S France (lat. 42° 29' N, long. 3° 08' E); marine, littoral, interstitial. Recent.
Figured specimens: British Museum (Nat. Hist.) nos. 1989.538 (9; LV, PL 16, 68, figs. 1, 2; PL 16, 70, figs. 1, 2;
Text-fig. lb, lc; RV: PL 16, 68, fig. 3), 1989.539 (cf ; RV: PL 16, 68, figs. 4, 5; PL 16, 70, figs. 5, 6;
LV: Text-fig. la), specimen lost subsequent to photography (9: PI- 16, 70, figs. 3, 4). Universitat
Explanation of Plate 16, 70
Figs. 1, 2, 9 LV (1989.538, 320 yam long): fig. 1, int. lat.; fig. 2, detail of anterior hinge; figs. 3, 4, 9 (specimen lost, 320 yam long): fig.
3, car. dors.; fig. 4, car. vent.; figs. 5, 6, Cf RV (1989.539, 290 yam long): fig. 5, int. lat.; fig. 6, detail of posterior hinge.
Scale A (lOOyarn; X200), figs. 1, 3, 4, 5; scale B (lOyarn; x 1000), figs. 2, 6.
Stereo-Atlas of Ostracod Shells 16, 70 Tuberoloxoconcha tuberosa (4 of 6)
Stereo-Atlas of Ostracod Shells 16. 71 Tuberoloxoconcha tuberosa (5 of 6)
Hamburg Zoologisches Institut und Zoologisches Museum no. K-28145A (syntype, cf appen-
dages: text-fig. Id— 1) .
Universitat Hamburg specimen from K-28145 (syntypes), kindly provided by Prof. Dr. G.
Hartmann. All others collected from littoral sand at the type locality on 25th July 1981 by D. L.
Danielopol, who subsequently recorded a salinity of 40 o/oo there in May 1985.
Diagnosis: Carapace subrectangular, L/H ratio approx. 1.8; anterior and posterior margins evenly rounded;
dorsal margin almost straight, ventral margin weakly sinuous; dorsal and ventral margins slightly
convergent towards the posterior; posteroventral margin strongly compressed. Lateral outline in
dorsal view rounded with pointed extremities, the anterior more acutely so, and almost straight
sections medianly. External ornament of rounded, obliquely indented fossae on the marginal
surfaces of the valves, arranged along the inner edges of concentric ribs; dorsally the fossae are
confined to the upper third of the valves; median surfaces smooth except for sieve pores. 15-20
marginal pore canals anteriorly, of varying length and irregularly branching, particularly in the
anteroventral quadrant. Male copulatory appendage moderately broad with a curved, beak-like
distal process.
Remarks: The species illustrated by Barbeito-Gonzalez {op. cit.) from the eastern Mediterranean and by
Uffenorde {op. cit.) from the Adriatic resemble T. tuberosa in valve shape and details of the
vestibula and marginal pore canals, but cannot be confidently assigned to that species since in
neither case were external ornament or the male copulatory appendages illustrated. At least two
other (as yet undescribed) species live in the Mediterranean (D. L. Danielopol, pers. comm.) and
a third, T. atlantica Horne {Stereo-Atlas Ostracod Shells , 16, 73-76, 1989) occurs on N Atlantic
coasts; all three may be distinguished from T. tuberosa by carapace outline, surface ornament and
the shape of the male copulatory appendage. The species illustrated by Caraion {op. cit.) from the
Black Sea is more elongate than T. tuberosa and has a differently shaped male copulatory
appendage; it may be conspecific with Tuberoloxoconcha nana (Marinov, 1962) (see E. I.
Schornikov, in: F. D. Mordukhai-Boltovskoi (ed.). Identification key to the fauna of the Black and
Azov Seas , 2: Free living invertebrates. Crustacea, 200, pi. 26, fig. 3, Kiev: “Naukova Dumka”).
Distribution: Recent: western Mediterranean, marine, littoral, interstitial.
Stereo-Atlas of Ostracod Shells 16, 72
Tuberoloxoconcha tuberosa (6 of 6)
Text-fig. 1: a, d" LV, int. lat. , viewed in
transmitted light (1989.539); b, $ LV,
int. lat., viewed in transmitted light
(1989.538); c, central muscle scars, 9
LV (1989.538); d — 1 , cf appendages
(K-28145A; setae indicated with broken
lines not observed, but added by refer-
ence to Hartmann’s original descrip-
tion): d, antennula; e, antenna: f, man-
dible; g, maxillula (inner two endites
broken off during dissection); h, first
leg; j, second leg; k, third leg; 1,
copulatory appendage.
Scale A = 100 /xm (a, b) scale B = 25 /xm
(c), scale C = 25/xm (d-1).
Stereo-Atlas of Ostracod Shells 16 ( 17) 73-76 ( 1989) Tuberoloxoconcha atlantica (1 of 4)
595.337.14 (119.9) (411 : 162.007.55 + 744 : 162.071.42) : 551.351
ON TUBEROLOXOCONCHA ATLANTICA HORNE sp. nov.
by David J. Horne
(Thames Polytechnic, England)
Tuberoloxoconcha atlantica sp. nov.
Holotype:
Type locality :
Derivation of name:
Figured specimens:
Diagnosis:
British Museum (Nat. Hist.) no. 1989.540; 9 RV and appendages.
[Paratypes: 1989.541-546.]
Beach N of Carragh an t-Sruith, Isle of Jura, W Scotland (lat. 55° 55' N, long. 6° 07' W); marine
intertidal algae with considerable quantities of trapped sand, Recent.
Referring to the occurrence of this species on both sides of the N Atlantic.
British Museum (Nat. Hist.) nos. 1989.540 (holotype, 9 RV: PI- 16, 74, fig. 3), 1989.541
(paratype, cf RV: PI. 16, 74, fig. 1), 1989.542 (paratype, 9 car.: PI. 16, 74, fig. 2), 1989.543
(paratype, cf car.: PI. 16, 76, fig. 2), 1989.544 (paratype, cf LV: PI. 16, 76, fig. 3), 1989.545
(paratype, cf LV : Text-fig. la), 1989.546 (paratype, cf appendages: Text-fig. lb, lc). Universitat
Hamburg Zoologisches Institut und Zoologisches Museum no. K-32169 (9 RV: PI. 16, 76, fig. 1).
The holotype was collected by J. E. M. Horne at the type locality in September 1981, the
paratypes by the author in August 1980; a salinity of 33%c was recorded by the author in
September 1987. K-32169, from Canoe Beach, Nahant, Massachusetts, USA (lat. 42° 26' N, long.
70°53'W) was kindly provided by Prof. Dr G. Hartmann.
Carapace subovate, L/H ratio approx. 1.6; anterior and posterior margins evenly rounded; dorsal
margin gently arched, ventral margin weakly sinuous; dorsal and ventral margins slightly
convergent towards the posterior; posteroventral margin strongly compressed. Outline in dorsal
view evenly rounded laterally with pointed extremities, the anterior more acutely so. External
Explanation of Plate 16, 74
Fig. 1, cf RV, ext. lat. (paratype, 1989.541, 300 /xm long); fig. 2, 9 car., dors, (paratype, 1989.542, 340 /xm long); fig. 3, 9 RV, ext.
lat. (holotype, 1989.540, 310/xm long).
Scale A (100 /xm; x200), figs. 1-3.
Stereo-Atlas of Ostracod Shells 16, 75 Tuberoloxoconcha atlantica (3 of 4)
Diagnosis ( cont .): ornament of rounded, shallow fossae arranged concentrically around the marginal surfaces of the
valves, with faint concentric ribs anteriorly and posteroventrally ; in the dorsomedian region the
fossae extend almost halfway down the valves, elsewhere the median surfaces are smooth except
for sieve pores. 15-20 marginal pore canals anteriorly, of varying length, the majority
concentrated in the anteroventral quadrant. Male copulatory appendange rather narrow with a
curved, beak-like distal process.
Remarks: T. atlantica is less elongate than T. tuberosa (Hartmann, 1954) (see D. J. Horne, Stereo-Atlas
Ostracod Shells , 16, 67-72, 1989) and the two also differ in details of ornament and the shape of
the male copulatory appendage. A further possible difference is in the shape of the anterior
vestibulum: in the type specimens of T. atlantica it is broader, and the marginal pore canals
correspondingly shorter, in the anteroventral quadrant (e.g., Text-fig. la), while in T. tuberosa it
is narrowest anteroventrally. However, specimens of T. atlantica from Kennedy’s Pass, near
Ballantrae, SW Scotland (lat. 55°12'N, long. 4° 55' W) (collected in April 1974 by M. C. Keen)
include one or two individuals in which the anterior vestibulum is more like that of T. tuberosa ;
this might be a variable feature in species of Tuberoloxoconcha , as it is in at least one species of the
closely related Pseudolimnocythere Klie, 1938 (see D. L. Danielopol, Bijdr. Dierk., 50, fig. 20,
1980).
Text-fig. 1: a, cf LV, int. lat. viewed in
transmitted light (paratype, 1989.545); b,
c, cf copulatory appendages (paratype,
1989.546). Scale A = 100 /xm (a); scale B =
25 /am (b, c).
Distribution: Recent: marine, littoral, interstitial, eastern and western N Atlantic; so far known only from two
localities in W Scotland and one in Massachusetts, USA (detailed herein).
Explanation of Plate 16, 76
Fig. 1, 9 RV, ext. lat. (K-32169, 300 /xm long); fig. 2, cf car., dors, (paratype, 1989.543, 290 /xm long); fig. 3, cf LV, int. lat.
(paratype, 1989.544, 300 /xm long).
Scale A (100/xm; x200), figs. 1-3.
Stereo- Atlas of Ostracod Shells 16, 74
Tuberoloxoconcha atlantica (2 of 4)
Stereo- Atlas of Ostracod Shells 16, 76
Tuberoloxoconcha atlantica (4 of 4)
Stereo-Atlas of Ostracod Shells 16 (18) 77 (1989)
595.337.14 (118.21) (437 : 161.016.49) : 551.35 + 552.52
Buntonia brunensis (1 of 1)
ON BUNTONIA BRUNENSIS RIHA
by Jaroslav Riha
( Moravian Museum, Brno, Czechoslovakia )
Buntonia brunensis Riha, 1985
1985 Buntonia brunensis sp. nov. J. Riha, Cas. morav. Mus. Brne, 70, 61-65, text-figs. 1-5, pi. 1, figs. 2-6, pi. 2, figs. 7-12, pi. 3,
figs. 1-4.
1988 Butonia brunensis Riha sp. nov. (sic); J. Riha, Stereo-Atlas Ostracod Shells, 15, 133-136.
Remarks: The author wishes to point out that since this species was originally described by him in 1985 ( op .
cit.), his 1988 (op. cit.) citation of it as “sp. nov." was in error, and acf? RV (MM VI-13-1/3) was
incorrectly referred to as holotype (it is, in fact, a paratype). The originally designated holotype, a
carapace (MM VI-13-1/1), was not illustrated in the 1988 paper. The opportunity is also taken here
to correct the mis-spelling of the generic name in the latter publication.
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Stereo-Atlas of Ostracod Shells: Vol. 16, Part 1
16 (1) 1-8
16 (2) 9-12
16 (3) 13-16
16 (4) 17-20
16 (5) 21-24
16 (6) 25-28
16 (7) 29-34
16 (8) 35-38
16 (9) 39-42
16 (10) 43-46
16 (11) 47-50
16 (12) 51-54
16 (13) 55-58
16 (14) 59-62
16 (15) 63-66
16 (16) 67-72
16 (17) 73-76
16 (18) 77
CONTENTS
On Bromidella reticulata (Harris); by M. Williams & D. J. Siveter
On Lophocypris shulanensis Zhang & Zhao gen. et sp. nov.; by Zhang Lijun
& Zhao Yuhong
On Dabashanella retroswinga Huo, Shu & Fu; by Zhao Yuhong & Tong
Haowen
On Progonocythere levigata Bate; by M. I. Wakefield & D. J. Siveter
On Bythoceratina gobanensis Reyment & Reyment sp. nov.; by R. A.
Reyment & E. R. Reyment
On Fallaticella schaeferi Schallreuter ; by R. E. L. Schallreuter
On Columatia variolata (Jones & Holl); by R. F. Lundin & D. J. Siveter
On Microcheilinella distorta (Geis); by R. F. Lundin
On Sinessites hispanicus Becker; by G. Becker
On Kullmannissites kullmanni Becker; by G. Becker
On Vitissites comtei Becker; by G. Becker
On Rishona epicypha (Kesling & Kilgore); by G. Becker & F. Adamczak
On Chinocythere curvispinata Su sp. nov.; by Su Deying
On Chinocythere shajingensis Su sp. nov.; by Su Deying
On Chinocythere tuberculata Su sp. nov.; by Su Deying
On Tuberoloxoconcha tuberosa (Hartmann); by D. J. Horne
On Tuberoloxoconcha atlantica Horne sp. nov.; by D. J. Horne
On Buntonia brunensis Riha; by J. Riha
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