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ISSN 0303-2515

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FEBRUARY 1979

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VOLUME 77 PART 6

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BuLLouGH, W. S. 1960. Practical invertebrate anatomy. 2nd ed. London: Macmillan.

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FiscHER, P.-H., DuvAL, M. & Rarry, A. 1933. Etudes sur les échanges respiratoires des littorines. Archs
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Konun, A. J. 1960a. Ecological notes on Conus (Mollusca: Gastropoda) in the Trincomalee region of Ceylon.
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Konn, A. J. 19606. Spawning behaviour, egg masses and larval development in Conus from the Indian Ocean.
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THIELE, J. 1910. Mollusca: B. Polyplacophora, Gastropoda marina, Bivalvia. In: SCHULTZE, L. Zoologische
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ANNALS OF THE SOUTH AFRICAN MUSEUM
ANNALE VAN DIE SUID-AFRIKAANSE MUSEUM

Volume 77 Band
February 1979 Februarie
Part 6 Deel

CRETACEOUS FAUNAS FROM ZULULAND
AND NATAL, SOUTH AFRICA
THE AMMONITE SUPERFAMILY
HAPLOCERATACEAE ZITTEL, 1884

By
WILLIAM JAMES KENNEDY
&
HERBERT CHRISTIAN KLINGER

Cape Town Kaapstad

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CRETACEOUS FAUNAS FROM ZULULAND AND NATAL,
SOUTH AFRICA
THE AMMONITE SUPERFAMILY HAPLOCERATACEAE ZITTEL, 1884

By
WILLIAM JAMES KENNEDY
Geological Collections, University Museum, Oxford

&

HERBERT CHRISTIAN KLINGER
South African Museum, Cape Town

(With 20 figures)
LMS. accepted 18 October 1978]

ABSTRACT

Representatives of the superfamily Haplocerataceae Zittel, 1884, are locally common in
rocks of Barremian age in northern Zululand, where Sanmartinoceras (Sanmartinoceras)
africanum sp. nov. occurs at all stages of development from larval shells to discs which are still
septate at a diameter of 120 mm, and represent the largest known specimens of the genus.
Sanmartinoceras (Theganeceras) nodosum sp. nov., of Lower Aptian age, Sanmartinoceras
(Sinzovia) trautscholdi (Sinzow), and an Aconeceras sp. of Upper Aptian age are other repre-
sentatives of the Aconeceratidae, whilst the Binneyitidae are represented by specimens of
Borissiakoceras of Middle Cenomanian age. In addition to systematic descriptions, the
problems of recognizing dimorphism in these genera are discussed, and certain resultant
taxonomic problems noted, and an annotated list of species referred to the two families is
included.

CONTENTS

PAGE
Introduction . : ee 3 3 o>
Location of specimens : , : . 86
Field localities. : : 2 ; 86
Dimensions of specimens . ; : . 86
Suture terminology. . - F » 86
Systematic palaeontology . : , Si

Annotated list of species referred to the
Aconeceratidae and Binneyitidae . 5 lia
Acknowledgements. ; : , a alls
References. ; ; ; ; ‘ . 120

INTRODUCTION

The Haplocerataceae are the longest ranging of the Ammonitina, first
appearing in the Middle Jurassic (Bajocian) and ranging to the Upper Cretaceous
(Coniacian). As Casey has noted, two broad morphologies recur within the
superfamily: firstly, smooth platycones, typified by the Haploceratidae and
Binneyitidae, and secondly, variously ribbed or strigate oxycones with entire or

85

Ann. S. Afr. Mus. 77 (6), 1979: 85-121, 20 figs.

86 ANNALS OF THE SOUTH AFRICAN MUSEUM

crenulate keels, typified by the Oppeliinae, Strigoceratidae and Aconeceratidae
(Casey 1961a: 118). In the Cretaceous of Zululand both groups are represented,
in the Upper Barremian and Aptian the Aconeceratidae are not uncommon at
some levels, whilst the Binneyitidae occur as a great rarity in rocks 6f Middle
Cenomanian age. Although only a few species are represented in the authors’
collections, they are of some significance, for their specimens of Aconeceratidae
allow, for the first time, the description of the detailed ontogeny of the widely
occurring genus Sanmartinoceras Bonarelli, 1921, as well as clarifying some
aspects of its stratigraphic distribution, whilst the present records of the
binneyitid Borissiakoceras extend the known distribution of the group.

The following species are described below: Aconeceras sp., compared to
A. walshense (Etheridge); Sanmartinoceras (Sanmartinoceras) africanum sp. nov.;
Sanmartinoceras (Theganeceras) nodosum sp. nov.; Sanmartinoceras (Sinzovia)
trautscholdi (Sinzow); and Borissiakoceras sp.

To this is added an annotated list of genera, subgenera and species referred
to the two families.

LOCATION OF SPECIMENS

The following abbreviations are used to indicate the repositories of the
material studied:

BMNH British Museum (Natural History), London
GSM Institute of Geological Sciences, London
MNHP Muséum d’Histoire Naturelle, Paris

OUM = Oxford University Museum, Oxford

SAM South African Museum, Cape Town

SAS South African Geological Survey, Pretoria

FIELD LOCALITIES
Details of localities mentioned in the text are given by Kennedy & Klinger
(1975); fuller descriptions of sections are deposited in the Palaeontology
Department of the British Museum (Natural History), London; Geological
Survey, Pretoria; and South African Museum, Cape Town.

DIMENSIONS OF SPECIMENS
All dimensions given below are in millimetres:

D = diameter, Wb = whorl breadth, Wh = whorl height, U = umbilical
diameter.
Figures in parentheses are dimensions as a percentage of the total diameter.

SUTURE TERMINOLOGY
The suture terminology of Wedekind (1916), recently reviewed and dis-
cussed by Kullman & Wiedmann (1970) is followed here:

Is = Internal lobe with septal lobe, U = Umbilical lobe, L = Lateral lobe,
E = External lobe.

CRETACEOUS FAUNAS FROM SOUTH AFRICA 87

SYSTEMATIC PALAEONTOLOGY

Phylum MOLLUSCA
Class CEPHALOPODA Cuvier, 1797
Subclass AMMONOIDEA Zittel, 1884
Order AMMONITIDA Zittel, 1884
Suborder AMMONITINA Zittel, 1889
Superfamily HAPLOCERATACEAE Zittel, 1884
Family Aconeceratidae Spath, 1923

Discussion

The Aconeceratidae Spath, 1923, is a group of small to medium-sized,
compressed, involute, commonly oxycone ammonites with flat or convex sides
and a fastigiate to keeled venter. Ornament consists of weak to strong flexuous,
commonly biconvex ribs and growth striae and a keel which may be minutely
crenulate.

The following genera and subgenera have been placed in the family:

Genus Protaconeceras Casey, 1954, Hauterivian

Genus Aconeceras Hyatt, 1903, Barremian to Lower Albian

Genus Sanmartinoceras Bonarelli, 1921 (in Bonarelli & Nagera 1921),

Barremian to Lower Albian

Subgenus Sanmartinoceras s.s., Barremian to Aptian

Subgenus Sinzovia Sazonova, 1958, Aptian

Subgenus Theganeceras Whitehouse, 1926, Lower Aptian

Genus Doridiscus Casey, 1961, Aptian

Genus Nothodiscus Casey in Collignon, 1962, Aptian

Genus Gyaloceras Whitehouse, 1927, Upper Aptian.

Aconeceratids have a wide geographic distribution extending from
Greenland to Antarctica, although their occurrence is sporadic. In Europe at
least, they occur in enormous numbers in some clay facies as in southern
France, where the blue marls of the Fosse Vocontienne yield thousands of
Aconeceras and Casey (1961b: 122) regarded them as an open sea group which
invaded the neritic zone only in periods favourable for their growth. As will be
seen below, however, their local abundance in carbonaceous nearshore sand-
stones of the South African Barremian is scarcely compatible with such a
generalization.

The Haplocerataceae as a whole are characterized by striking dimorphism
(Makowski 1962, Callomon 1963, Kennedy & Cobban 1976 with references),
but within the Aconeceratidae our knowledge is such that it remains most
difficult to recognize dimorphic pairs. In Aconeceras itself, the many hundreds
of specimens from the French Aptian examined are all pyritic phragmocones
and it would appear that juveniles, at least, are most difficult to split into
dimorphs, as Palframan (1969) found in some Jurassic haploceratids. The
authors do know, however, of a few specimens referrable to the family in which

88 ANNALS OF THE SOUTH AFRICAN MUSEUM

apertures are preserved: the original material of S. (Sanmartinoceras)
groenlandicum Rosenkrantz, 1934 (in Bogvad & Rosenkrantz), illustrated here
as Figure 1A-C, is an obvious microconch with prominent lappets and a
rostrum. Equally, Gyaloceras smithi Whitehouse, 1927, appears to be a female
or macroconch. The specimen is reproduced here as Figure 2A. In most cases,
however, the shell ornament of aconeceratids (as opposed to apertural form)
gives little clue to dimorphism and a markedly biconvex growth line, indicating
a long rostrum and blunt lappets, occurs, in the present material at least, in both
small and large (if not mature specimens). The authors would, however, suggest
that the presence of a strong spiral depression may indicate the possible presence
of a long lappet (Figs 1A—B, 5C). The topic is returned to below under the
discussion of Sanmartinoceras.

Genus Aconeceras Hyatt, 1903
Type species
Ammonites nisus d’Orbigny, 1841.

Discussion

Aconeceras is represented by a single, poor specimen from the Aptian of
Zululand ; in consequence the reader is referred to Casey’s (19615: 123) extensive
remarks on the genus.

Occurrence

The genus ranges from Barremian to Lower Albian and is widely distributed
from western Europe and the U.S.S.R. to east Africa, Madagascar, Nepal,
Antarctica and eastern Australia.

Aconeceras sp.

Material

One specimen only, BMNH C80002, from the Makatini Formation,
Aptian III, locality 166, Mfongosi Spruit, northern Zululand.

Description

The specimen is an external mould of an oxycone individual with an
original maximum whorl height of over 20 mm. Coiling is very involute with a
small, pit-like steep-sided umbilicus. The whorl section is high, compressed with
the greatest breadth well below mid-fiank. The flanks are distinctly flattened and
the venter fastigiate.

The specimen is somewhat worn and there is no obvious trace of ornament
preserved.

Discussion

Although poorly preserved, this specimen is clearly referrable to the genus
Aconeceras. Amongst described species it is perhaps to be compared with the

89

CRETACEOUS FAUNAS FROM SOUTH AFRICA

‘TX = “(HEST) ZlURIUSSOY 32 peaseg Jo AdoDd “pest ‘zIUeIUASOY WINIIPUDIUIOAS (SDABIOUILADULUDG)) SDaIOUIJ ADDS)

[ ‘3hy

90 ANNALS OF THE SOUTH AFRICAN MUSEUM

pbs

mots
ai

Fig. 2. A. Gyaloceras smithi Whitehouse, 1926. B—D. Aconeceras walshense (Etheridge), 1892.
After Whitehouse (1926, 1927a). x1.

CRETACEOUS FAUNAS FROM SOUTH AFRICA 91

Fig. 3. A-C. Sanmartinoceras (Sanmartinoceras) fontinale (Hudleston), 1890.
D-G. Sanmartinoceras (Sanmartinoceras) olenae (Tenison-Woods), 1883. After Whitehouse
(1927a). x1.

92

ANNALS OF THE SOUTH AFRICAN MUSEUM

Ee

Fig. 4. Sanmartinoceras (Sanmartinoceras) africanum sp. nov., paratypes.
A. SAS H54/41/e. B-D. BMNH C79988. E-H. BMNH C79982. x1.

CRETACEOUS FAUNAS FROM SOUTH AFRICA 93

Australian Aconeceras walshense (Etheridge) (see Whitehouse 1927a: 114, pl. 16
(figs 2-3); text-figs 1, 6-7) (Fig. 2B—D herein).

Occurrence
Upper Aptian of Zululand.

Genus Sanmartinoceras Bonarelli, 1921 (in Bonarelli & Nagera 1921)

Type species
Sanmartinoceras patagonicum Bonarelli, 1921 (in Bonarelli & Nagera 1921).

Diagnosis

Stout oxycones, initially smooth, with falciform striae and ribs, the latter
weak on the inner flank, sometimes bunched, and strengthening into distinctive
concave ribs on the outer flank. Keel finely denticulate.

Discussion

Sanmartinoceras was originally based upon crushed specimens from the
Aptian of Lago San Martin, Argentina. Leanza (1970, text-fig. 14) (see Fig. SA-B
herein) has figured uncrushed topotypes, whilst Howarth (1958) and Thomson
(1974) have figured other material from the sub-Antarctic Islands. Specimens
are illustrated here as Figure SC—D. Specimens of S. patagonicum with apertures
preserved are unknown, but Rosenkrantz (in Bogvad & Rosenkrantz 1934: 20,
pl. 4 (fig. 3), pl. 5 (figs 1-5)) figured a species, S. groenlandicum Rosenkrantz,
with a distinctive rostrum and lappets. These features, indicative of a micro-
conch, have been incorporated into the generic diagnosis. Examination of these
examples shows that the lateral lappets are associated with a distinct spiral
groove (Fig. 1A—B). In the Antarctic specimens (Fig. 5C—D) similarly sized
individuals show this groove developed to varying degrees at the same diameter,
and the authors suspect it may prove a criterion for differentiation of immature
males and females at similar diameters, in the type species at least. In the case
of Australian Sanmartinoceras the problem is even more tantalizing. Whitehouse
(1926; 1927a) described four aconeceratids from the Aptian of Walsh River.
Two, Sanmartinoceras fontinale (Hudleston) (Fig. 3D-G, 7A-H) and S. olenae
(Tenison-Woods) (Fig. 3A—C) have strong falcoid ribs and prominent rostra.
The others are very feebly ornamented. Aconeceras walshense (Etheridge)
(Fig. 2B—D) has falcoid growth striae, whilst Gyaloceras smithi Whitehouse
(Fig. 2A) has an inflated whorl and fastigiate venter. 1he authors strongly
suspect that these species are dimorphs but again cannot resolve the problem
fully.

Within Sanmartinoceras, three subgenera have been recognized. In addition
to Sanmartinoceras sensu stricto, Theganeceras Whitehouse, 1926, was treated
as a subgenus by both Wright (1957) and Casey (19616). Only three species,
S. (T.) falcatum (von Koenen) (Fig. 6I-J) S. (T.) scalatum (von Koenen)
(Fig. 6H) from the Lower Aptian of northern Germany, and S. (T.) grande

94 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 5. Sanmartinoceras (Sanmartinoceras) paragonicum Bonarelli, 1921.
A-B. Topotype, after Leanza (1970). C. BMNH C49055. D. BMNH C49057.
C_D. from Alexander Land. x1.

CRETACEOUS FAUNAS FROM SOUTH AFRICA 95

Fig. 6. A. Sanmartinoceras (Sinzovia) aff. trautscholdi (Sinzow), 1870. B-—D. Sanmartinoceras

(Sinzovia) stolleyi Casey, 1961. BMNH C14365 and 14362, from the Upper Aptian of Bekum,

near Hildesheim, Germany. E-F. Sanmartinoceras (Sinzovia) trautscholdi (Sinzow), 1870.

Copy of Trautschold (1865). G. Sanmartinoceras (Theganeceras) grande Thomson, 1974.

After Thomson (1974). H. Sanmartinoceras (Theganeceras) scalatum von Koenen, 1902.

I-J. Sanmartinoceras (Theganeceras) falcatum von Koenen, 1902. H-J after von Koenen
(1902). All x1.

96 ANNALS OF THE SOUTH AFRICAN MUSEUM

Thomson (Fig. 6G) from the Aptian of Antarctica, have thus far been ascribed
to the subgenus, which Casey (19616: 132) diagnosed as lacking the smooth
juvenile stage of Sanmartinoceras sensu stricto and having finer, more numerous
dense ribs. As is described below, the single Zululand specimen referred to the
subgenus suggests that dimorphism may also present taxonomic problems.

The subgenus Sinzovia Sazonova, 1958, differs from Sanmartinoceras sensu
stricto (according to Casey 19616: 133) in having a very low keel and absence or
poor development of a spiral groove. It differs from Theganeceras in having a
longer juvenile smooth stage and greater tendency to smoothness on the lower
flank. The type species is illustrated here as Figure 6E-F, related German species
as Figure 6A—D, and the only South African representative, S. (S.) trautscholdi
(Sinzow), as Figure 7I-K.

Occurrence

Sanmartinoceras and its subgenera range from Upper Barremian to Aptian
and are known from Greenland, western Europe, the U.S.S.R., Zululand,
Madagascar, Nepal, Australia, Antarctica, Argentina and Papua.

Subgenus Sanmartinoceras sensu stricto

Sanmartinoceras (Sanmartinoceras) africanum sp. nov.

Figs 4A-H; 8A-F; 9A-I; 10A-F; 11A-B; 12A-C; 13A-F; 14A-C; 15F-J;
16-17; 19D-E

Sanmartinoceras Kennedy & Klinger 197: 274.

Types

The holotype is SAS H54; paratypes are BMNH C79977—C80001, SAS
H54/4la-d, SAS ZO(i), SAS LJE13la, SAS LJE112, SAS H54/17, SAS
H54/33, all from the Makatini Formation, Barremian I-II, locality 170,
Mlambongwenya Spruit, northern Zululand.

Diagnosis

A large (up to 120 mm diameter phragmocone) species of Sanmartinoceras
in which the inner ‘haft’ of the ribs is narrow, straight and prorsiradiate and the
outer ‘blade’ broad and markedly concave.

Dimensions

D Wb Wh Wb:Wh U
Holotype, SAS H54 —(—) 20,5(—) 42-5(—) 0,48 —(—)
C79985 aye J 27,3(100) 6,6(24) 14,8(54) 0,45 4,1(15)
C79978 ss .. 120,0(100) 28,8(24) 69,8(58) 0,41 730)

C79984 .. —.. —-115,0(100) 24,0(21) 65,5(57) 0.37. ~—«:11,3(9,8)

CRETACEOUS FAUNAS FROM SOUTH AFRICA 97

Fig. 7. Sanmartinoceras (Sanmartinoceras) fontinale (Hudleston), 1890. Holotype, BMNH
C5306, Upper Aptian, Primrose Springs, north of Lake Eyre, south Australia. A-D x1;
E-H x2. I-K. Sanmartinoceras (Sinzovia) trautscholdi (Sinzow, 1870). SAM-—PCZ5919. x1.

98 ANNALS OF THE SOUTH AFRICAN MUSEUM

D E F

Fig. 8. Sanmartinoceras (Sanmartinoceras) africanum sp. nov.
A-C. Holotype SAS 54; D-F paratype BMNH C79989. x1.

CRETACEOUS FAUNAS FROM SOUTH AFRICA

Fig. 9. Sanmartinoceras (Sanmartinoceras) africanum sp. nov., paratypes.
A-D. SAS H54/416. E-H. SAS H54/41a. I. BMNH C79996. All x2.

99

100 ANNALS OF THE SOUTH AFRICAN MUSEUM

Cc D E F

Fig. 10. Sanmartinoceras (Sanmartinoceras) africanum sp. nov., paratypes.
A-B. BMNH C79984. C-F. SAS H54/41c. A-B x1; C-F x2.

CRETACEOUS FAUNAS FROM SOUTH AFRICA 101

Fig. 11. Sanmartinoceras (Sanmartinoceras) africanum sp. nov., paratypes.
A. BMNH C79984. B. SAS H54/41d. A x1; B x2.

102 ANNALS OF THE SOUTH AFRICAN MUSEUM

Description

The barrel-shaped protoconch is succeeded briefly by rather stout whorls,
beyond which, up to a diameter of 0,5-0,8 mm, the shell is moderately involute,
slightly compressed, with flattened flanks and a rounded venter. All the available
specimens are partially or wholly exfoliated, and any ornament, if present, must
have been weak. A few specimens begin to show traces of a ventral ridge, but
not a keel at this diameter, although these features may be an artefact of
preservation.

From 0,8 mm onwards the shell is an oxycone, the coiling is very involute,
with a tiny, crater-like umbilicus. The umbilical wall is flat and subvertical, with
an abruptly rounded shoulder. The whorl section varies markedly; stout
individuals have a whorl breadth to height ratio of 0,6; in slender individuals the
figure is 0,4. Maximum whorl breadth is low on the flanks; the inner flanks are
flattened, the outer flanks convergent; a distinct ventrolateral shoulder is
developed, and there is a sharp keel which, when well preserved, can be seen to
be minutely crenulated (Fig. 9E-H).

Ornament varies greatly. In some individuals (Figs 11B, 13C—D) there are
only the finest growth striae. These arise at the umbilical seam, but are very
weak. They pass forwards across the inner flank, strengthening as they do so,
and sometimes splitting (Fig. 15G—J). They are at their maximum development
at mid-flank, where they flex gently backwards, giving rise to a clear concavity
which extends across the outer third of the flank (Fig. 13D). Striae decline on
the ventrolateral shoulder and project strongly forwards to meet the keel at an
acute angle. Individual striae correspond to individual crenulations on the keel.
In robust specimens, e.g. BMNH C79983, striae are accompanied by distant,
pronounced ribs, which are strongest at mid-flank; there is every intermediate
between.

Middle growth stages are also characterized by a wide range of variation
(Figs 4E-H, 8A-F). The holotype demonstrates the features of a strongly
ornamented individual. It is wholly septate (Fig. 8B) retaining traces of shell.
Coiling is very involute, with most of the inner whorls being covered. The tiny
umbilicus is deep, with a high, flat, subvertical wall, abruptly rounded shoulder,
and faint umbilical carina. The whorl section is compressed (breadth to height
ratio is 0,48) with faintly concave inner flanks, a weakly inflated mid-flank
region converging to distinct shoulders, clearly demarcated from a high,
septate ventral keel. In none of the medium-sized specimens does the keel bear
serrations. Ornament consists of fine, rectiradiate striae on the inner part of the
flank, effaced at a spiral mid-flank depression. The outer flank bears low, blunt,
concave ribs, declining at the ventrolateral shoulder, but projected forwards to
meet the keel.

The largest available specimens are up to 120 mm in diameter, and are still
wholly septate (Fig. 12A—C). In these, the whorls are quite robust, and ornament
consists of striae on the inner flank with blunt, concave ribs on the outer flank.
None of the present specimens has the aperture preserved. A few fragments show

103

CRETACEOUS FAUNAS FROM SOUTH AFRICA

‘IX ‘8L66L0 HNWa odAjered “aou ‘ds wnuvoisfo (spsav0ulADULUDG) SDADIOUIZADUUDS) “Z| “BIT

d

104 ANNALS OF THE SOUTH AFRICAN MUSEUM

F

Fig. 13. Sanmartinoceras (Sanmartinoceras) africanum sp. Nov., paratypes.
A-B, F. SAS Zo(i). C. SAS LJE 131a. D. SAS H54/41a. E. BMNH C79979.
A-D, E-F x1; C-D x2.

105

CRETACEOUS FAUNAS FROM SOUTH AFRICA

‘TX A-d ‘1X O-V ‘oT ‘ou
WOT}OB]JOD Jedoog *yY ‘WP “ds spsavoyviss1iog *J-C ‘TIT ALT SVS edAyered “Aou ‘ds wnupa14fo (spsad0uljADUUDG) SDABIOUIJADUUUDS' *D-Y “pT “BIT

V

106 ANNALS OF THE SOUTH AFRICAN MUSEUM

J

Fig. 15. A-E. Borissiakoceras sp., BMNH C80003. F-J. Sanmartinoceras (Sanmartinoceras)
africanum sp. nov., paratypes. F is SAS LJE 112; G—J is BMNH C79985.
A-E, G-J x2; F x1.

CRETACEOUS FAUNAS FROM SOUTH AFRICA 107

weak to strong strigations (Figs 4B—D, 13E). Where well preserved, this appears
to be a feature of the dorsal shell layer, and not of the original external shell
surface. That this occurs in some very large specimens suggests the species may
have reached diameters close to 200 mm.

The available specimens show the details of suture development to
advantage, as shown in Figure 16.

Mature sutures are deeply and intricately subdivided, as shown in Figure 17.

Discussion

The specimens show the ontogeny and range of intraspecific variation far
better than in any previously described Sanmartinoceras whilst the specimens
are the largest known for the genus. It is most unfortunate that none of the
specimens retains apertures, but the rather distinct spiral flank depression
present in the holotype suggests that it may be a microconch; the largest
individuals (Figs 1OA—B, 11A, 12A—D) are probably macroconchs.

Thomson (1974: 23) reviewed criteria used to differentiate species of
Sanmartinoceras as follows:

(i) strength and form of ribbing,
(ii) the way in which ribs appear (i.e. abruptly or increasing gradually in
strength),
(iii) the size of the individual at which ribs first appear.

In his discussion, however, he concluded that the form of the falcate ribbing
alone was sufficient to separate species. Figure 18 compares the line of ribs and
striae in the five described species; on this criterion alone it can be seen that the
straight ‘haft’ and form of ‘sickle’ of the present species are quite different from
the markedly biconcave rib of S. olenae, S. fontinale and S. patagonicum.
A straight ‘haft’ characterizes S. groenlandicum (Fig. 18), but here the ‘blade’
is much more deeply concave with the inner half almost straight. As noted
elsewhere, the authors do not regard the presence or absence of a lateral spiral
groove as of specific significance, whilst the present specimens vary greatly in
strength of ornament and growth stage at which it appears. The other feature
which separates S. africanum from other species is its great size, but this may
be no more than an artefact of preservation.

Occurrence
Upper Barremian of Zululand only.
Subgenus Theganeceras Whitehouse, 1927
Theganoceras nodosum sp. nov.
Figs 19A-C, 20
Holotype

SAM-PCZ5708 from the Makatini Formation, Aptian I, locality 170,
Mlambongwenya Spruit, northern Zululand.

108 ANNALS OF THE SOUTH AFRICAN MUSEUM

hy
M$

Fig. 16. Suture development in Sanmartinoceras (Sanmartinoceras) africanum sp. nov.
A-C. BMNH C79979. D-E. SAS H54/41A. All x 12,5.

109

CRETACEOUS FAUNAS FROM SOUTH AFRICA

“STIX “OTb/PSH SVS ‘Aou ‘ds wnupoisfo (SDAZIOUIJADUUDG) SDABIOUIJADUIUDG JO SOINNS Ine “LT “Si

110 ANNALS OF THE SOUTH AFRICAN MUSEUM

geen

A B

Vig

Fig. 18. Rib patterns in Sanmartinoceras (Sanmartinoceras) compared.
A. S. (S.) olenae. B-C. S. (S.) fontinale. D. S. (S.) africanum. E. S. (S.) groenlandicum.
F-G. S. (S.) patagonicum.

Diagnosis
A large species of Theganeceras with broad, flat, falcoid ribs on the inner

whorls which bear umbilical bullae and incipient ventral clavi. Outer whorls
ornamented by bullae, flexuous growth lines, folds and constrictions.

Description

The unique holotype of this species comprises a crushed body chamber and
a nucleus. Growth of calcite between shell and sedimentary infilling has
produced an unduly thick ‘shell’ of partly diagenetic origin.

The inner whorl, at a diameter of approximately 38 mm, bears fourteen to
sixteen closely spaced, low, broad, sickle-shaped ribs which are straight and
prorsiradiate on the inner flank, flexing backwards at mid-flank and becoming
markedly concave on the outer flank. The ribs are strong and well developed
down to the umbilicus where a distinct bulla is present, whilst on the ventro-
lateral shoulder they strengthen into an incipient clavus. The ribs themselves
and interspaces between bear dense striae, sometimes strengthened into riblets,
giving some ribs a bunched, fasciculate appearance. The venter is fastigiate, and
bears strongly projected striae.

CRETACEOUS FAUNAS FROM SOUTH AFRICA ay

B

Fig. 19. A-C. Sanmartinoceras (Theganeceras) nodosum sp. nov., holotype, SAM-PCZ5708. Sle
D-E. S. (Sanmartinoceras) africanum sp. nov., patatype, BMNH specimen. x1.

112 ANNALS OF THE SOUTH AFRICAN MUSEUM

The outer body whorl shows coiling to have been involute with a moderately
large, deep, crater-like umbilicus with a flat, outwards-sloping wall. The whorl
section is compressed, lanceolate, so that the overall shell form was an oxycone.
The whorl breadth to height ratio is estimated as approximately 0,38, the
greatest breadth being close to the angular umbilical shoulder. The preserved
fragment bears seven small, sharp, comma-shaped bullae at the shoulder.
These give rise to bundles of fine, dense, flexuous striae which, being crowded
close to the umbilicus, appear as ribs, which fade out at a short distance from
the bulla. The striae flex forwards to mid-flank, then backwards, to form the
very shallow blade of a sickle. They are strongly projected across the ventro-
lateral shoulder. Paralleling these striae are irregular, low folds and constrictions.

The imperfectly exposed suture is illustrated in Figure 20.

Discussion

The presence of well-developed ribs which extend to the umbilical shoulder
indicates this specimen to be a Theganeceras. It differs from all previously
described species in having broader, less markedly flexed ribs when young, as
well as possessing umbilical bullae, which feature is unique for the subgenus.
Only S. (Theganeceras) grande Thomson (1974, pl. 4 (fig. 9)) approaches this.
specimen in size; the unique holotype of that species is quite distinct, however,
lacking bullae and having strongly flexed ribs and striae (Fig. 6G).

Equally, no S. (Sinzovia) bears bullae, and the closest species, S. (S.) stolleyi
Casey (Fig. 6A—D), has ribs which efface on the inner flank. The presence of
bullae also distinguishes our specimen from described S. (Sanmartinoceras) at
comparable dimensions.

Occurrence

Lower Aptian I of northern Zululand only.

Subgenus Sinzovia Sazonova, 1958

Sanmartinoceras (Sinzovia) trautscholdi (Sinzow)
Figs 4I-K, 6E-F

Ammonites bicurvatus Trautschold (non Michelin), 1865: 22, pl. 3 (figs 17a-c).

Oppellia Trautscholdi Sinzow, 1870: 118, pl. A (figs 1, la—b only).

Sinzovia trautscholdi (Sinzow): Sazonova, 1958: 128, pl. 6 (fig. 2), pl. 8 (figs 1, 1a, 3-7),
pl. 10 (figs 4-5) (with synonymy). Druschchitz & Kudryavtseva, 1960: pl. 42 (figs 7a—b).
Collignon 1962: 31, pl. 229 (fig. 974).

? Sanmartinoceras (Sinzovia) sp. cf. trautscholdi (Sinzow): Casey 1961b: 136, pl. 26 (fig. 7).

Holotype

Trautschold’s original of his plate 3 (fig. 17a—c), from the Lower Aptian of
Simbirsk (now Polivna) in the Stalingrad area of Russia, on which Sinzow
(1870: 118) based his species. The original figures are reproduced here as
Figure 6E-F.

113

CRETACEOUS FAUNAS FROM SOUTH AFRICA

“STIX “SOLSZOd-INNVS ‘odAjofoy 9y3 Jo sinjns Jenszed “Aou ‘ds wnsopou (spsadauvsay [,) SDAQIOUIJADUUDS “QT ‘BIA

a

114 ANNALS OF THE SOUTH AFRICAN MUSEUM

Material

SAM-PCZ5919 from the Makatini Formation, Aptian IV at locality 152,
Mkuze Game Reserve, northern Zululand.

Description

The specimen is a beautifully preserved disc of which the last half of a
whorl is body chamber. It retains extensive areas of replaced shell, in consequence
of which the sutures are not fully decipherable. The dimensions are as follows:

D Wb Wh Wb: Wh U
43,0 10,0(23,3) 22,0(51,2) 0,45 —_-9,0(20,9)

Coiling is very involute, oxycone, with two-thirds of the previous whorl
being covered. The umbilicus is small and shallow (20% of diameter), with a
flat, subvertical wall. The umbilical shoulder is sharp and angular. The whorl
section is very compressed, with a breadth to height ratio of 0,45. The inner
flank is flattened to concave, with gently rounded, convergent outer flanks,
converging to an acute, delicately keeled venter.

The inner, concave part of the flank is virtually smooth where shell is
present, due to weathering. On the mould, however, there are delicate, concave,
prorsiradiate, bunched striae which sweep forwards to a distinct spiral ridge at
mid-flank and a parallel groove external to this. On the ridge and groove, the
striae flex backwards in a marked convex projection. On the outer flank, they
flex backwards to form a ‘blade’ corresponding to the bunches of ‘handles’ to
what is an overall sickle-like ornament. The blades are strong, concave, blunt
ribs, strong over most of the last whorl, although effacing on the venter, which
is smooth on either side of a narrow, sharp ventral keel.

The sutures cannot be seen.

Discussion

On the basis of weakness of inner flank ornament, and strength and style
of ribs on the outer flank, the authors would refer their single specimen to
Sinzow’s species. It is particularly close to the specimen from Ulyanovsk,
Russia, illustrated by Casey (1961), text-fig. 143 (1a—b)).

Sinzovia stolleyi Casey (19616, text-fig. 143(g)) is more distantly and
narrowly ribbed, as can be seen from Figure 6A—D herein.

Sinzovia aptianum (Sarasin) (1893: 155, pls 4-6 (fig. 12a—c); Casey 19615:
134, pl. 26 (fig. 6a—b)) has blunter, fewer ribs on the outer flank.

Sanmartinoceras ? (Sinzovia ?) sp. nov. of Casey (19615: 136, text-fig. 43(f))
is a Lower Albian species of uncertain affinity.

Occurrence

Lower Aptian of the U.S.S.R. and southern England; Upper Aptian of
Madagascar and Zululand.

CRETACEOUS FAUNAS FROM SOUTH AFRICA iS

Family Binneyitidae Reeside, 1927

The Binneyitidae are a family of micromorphs, characteristically platycone,
with much reduced sutures. Two genera, Borissiakoceras Arkhangelsky, 1916,
and Binneyites Reeside, 1927, were referred to the family by Wright (1957) who
suggested derivation from the Acanthocerataceae, but subsequent work has
revealed the presence of passage forms linking the family to the Aconeceratidae
via Falciferella Casey, 1954. This Middle to Upper Albian genus has a vestigal
keel when young and can be linked to the platycone but still feebly carinate
Aptian aconeceratids Doridiscus Casey, 1961, and Nothodiscus Casey, 1962
(in Collignon 1962). The evolutionary origins of the family thus involved a
change from oxycone to platycone with corresponding loss of keel, and sutural
simplification.

Genus Borissiakoceras Arkhangelsky, 1916

Type species
Borissiakoceras mirabile Arkhangelsky, 1916.

Diagnosis
Small, compressed, moderately involute to moderately evolute platycones.
Flanks typically smooth, sometimes bearing narrow, falcoid ribs. A few species

bear ventrolateral tubercles. Suture simple with narrow, bifid lobes and broader,
bifid or trifid saddles.

Discussion

Borissiakoceras is a distinctive genus, differing obviously from the later
(Coniacian) Binneyites Reeside, 1927, which has stronger lateral and ventro-
lateral ornament, sharp ventrolateral shoulders and more auxiliary elements in
the suture. Johnsonites Cobban, 1961, has a simpler suture and a flat or concave
venter.

Borissiakoceras is clearly descended from Falciferella, species of which
extend to the Upper Albian. It is the only binneyitid in which dimorphism has
been demonstrated (Kennedy & Cobban 1976: pl. 1 (figs 3-4)); males have
stronger, more markedly biconcave growth striae and ribs, reflecting a similar
aperture, with a short rostrum.

Occurrence

Borissiakoceras is best known from North America, ranging from Texas
(Stephenson 1952, 1955) to Kansas and Colorado (Morrow 1935). Other United
States occurrences are summarized by Cobban (1961). It also occurs in British
Columbia (Warren & Stelck 1958) and Alaska (Cobban & Gryc 1961). In these
regions it ranges from Middle Cenomanian to Lower Turonian. The type
species comes from Turkestan and is probably of late Cenomanian age;

116 ANNALS OF THE SOUTH AFRICAN MUSEUM

Bodylevsky & Shulinga (1958) record the genus from the Turonian—Coniacian
of the northern U.S.S.R., and Kennedy & Juignet (1973) record it from the
Middle Cenomanian of Normandy, whilst the present authors have seen a
fragment from the Lower Cenomanian of Sarthe (Sorbonne collections).
Wright (1963) records a doubtful species from the Middle Cenomanian of
northern Australia, and the Engonoceratidae gen. et sp. nov. of Henderson
(1973: 106, pl. 14 (fig. 8)) belongs here, as do the Middle Cenomanian specimens
from Zululand described below.

Borissiakoceras sp.

Figs 14D-F, 15A-E

Material

Two specimens, BMNH C80003, and no. 16 in M. R. Cooper’s collection,
University of Natal, Durban, both from the Middle Cenomanian (Cenomanian
III) Locality 62, the Skoenberg, Zululand.

Description

The specimens comprise a small phragmocone and a body chamber with a
maximum whorl height of 7,4 mm. Coiling is involute with a small, shallow
umbilicus comprising approximately 20 per cent of the diameter. The overall
form is platycone, the whorl breadth to height ratio being approximately 0,5,
with a low umbilical wall, flattened inner, and slightly convergent outer flanks,
abruptly and narrowly rounded ventrolateral shoulder, and somewhat flattened
venter. Both specimens are corroded, so that no trace of any original ornament
remains. The suture is poorly exposed, but much simplified, with such elements
as are visible resembling those of B. mirabile.

Discussion

Overall shell form and suture indicate these specimens to be Borissiakoceras,
the first representatives of the genus, and indeed the Binneyitidae, to be described
from Africa. Because of poor preservation it is not possible to identify them
fully. They most closely resemble feebly ornamented species such as B. mirabile
(see Kennedy & Juignet 1973) and B. orbiculatum (see Cobban, 1961: 750,
pl. 88 (figs 15-41), text-figs 5a-f).

Occurrence

Middle Cenomanian of Zululand.

CRETACEOUS FAUNAS FROM SOUTH AFRICA 117

ANNOTATED LIST OF SPECIES REFERRED TO THE
ACONECERATIDAE AND BINNEYITIDAE

Family Aconeceratidae Spath, 1923

Genus Protaconeceras Casey, 1954
Type species: Oppelia patagoniensis Favre, 1908, by original designation.
Protaconeceras patagoniense (Favre), 1908: 634, pl. 34 (fig. 7), pl. 37 (figs 3-5), text-fig. 6.
Lower Hauterivian of Patagonia.
Protaconeceras spp. nov. Casey, 1954: 270, pl. 7 (fig. 7), text-fig. 2. Upper Hauterivian,
England.

Genus Aconeceras Hyatt, 1903
(= Adolphia Stolley, 1907; Adolphites Hennig, 1932)

Type species: Ammonites nisus d’Orbigny, 1841, by monotypy.

Aconeceras nisus (d’Orbigny), 1841: 184, pl. 55 (figs 7-9). Casey 19616: 128. Upper Aptian of
western Europe, notably Gargasian clays of the Vocontian Trough. Also recorded from
Madagascar and elsewhere, although many records are dubious.

Aconeceras haugi (Sarasin), 1893: 156, pls 4-6, text-fig. lla—c. Lower Aptian of western
Europe, Nepal (Bordet et a/. 1971), and Madagascar (Collignon 1962) where it is said to
be of Upper Aptian age.

Aconeceras neonisoides Casey, 19616: 129, pl. 26 (figs 1, 9-10), text-fig. 41d—e. Lower Albian
of southern England and north Africa (Sornay 1955; Dubourdieu 1956).

Aconeceras australonisoides Brunnschweiler, 1959: 11, pl. 1 (fig. la—b). Aptian of western
Australia.

Aconeceras whitehousei Brunnschweiler, 1959: 12, pl. 1 (fig. 2a—b). Aptian of western Australia.

Aconeceras walshense (Etheridge), 1892: 493, pl. 42 (figs 10-11). Whitehouse 1926: 203, pl. 34
(fig. 1), pl. 37 (fig. 3); 1927a: 114, pl. 16 (figs 2-3), text-figs 1, 6-7. Aptian of Queensland.

Aconeceras nisoides (Sarasin), 1893: 155, pls 4-6 (fig. 10a—c), text-figs 3, 5. Lower Aptian of

western Europe.

Aconeceras luppovie (Sazonova), 1958: 130, pl. 8 (fig. 2). Aptian of the U.S.S.R.

Aconeceras saratoviensis (Sazonova), 1958: 130 (= Oppelia trautscholdi Sinzow, 1898, pl. A
(figs 4-5 only)). Lower Aptian of the U.S.S.R.

Genus Sanmartinoceras Bonarelli, 1921

Type species: Sanmartinoceras patagonicum Bonarelli, 1921, by monotypy.

Sanmartinoceras (Sanmartinoceras) patagonicum Bonarelli, 1921, in Bonarelli & Nagera 1921:
27, pl. 5 (figs 3-6). See also Howarth 1958: 5, pl. 1 (figs 6-10); Leanza 1970: 215, fig. 14;
Thomson 1974: 24, pl. 4b-f, text-fig. 7a. Aptian of Argentina and Antarctica. (See
Fig. 6A—D herein.)

Sanmartinoceras (Sanmartinoceras) groenlandium Rosenkrantz, 1934, in Bogvad & Rosen-
krantz 1934: 20, pl. 4 (fig. 3), pl. 5 (figs 1-5). Aptian of east Greenland. (See Fig. 1A—-C
herein.)

Sanmartinoceras (Sanmartinoceras) olenae (Tenison-Woods), 1883: 150, pl. 7 (fig. 8), pl. 8
(fig. 1). Whitehouse 1926: 205, pl. 41 (fig. 3); 1927a: 117, pl. 17 (fig. 6), text-figs 3, 4, 9.
Aptian of Australia. (See Fig. 3A—C herein.)

Sanmartinoceras (Sanmartinoceras) fontinale (Hudleston), 1890: 241, pl. 9 (fig. 1). Whitehouse,
1927a: 116, pl. 17 (figs 2-5). Aptian of Australia. (See Figs 3D-G, 7A-H herein.)

Sanmartinoceras (Sanmartinoceras) africanum Kennedy & Klinger, 1978 sp. nov. (See p. 96.)
Upper Barremian of Zululand.

Subgenus Sinzovia Sazonova, 1958

Type species: Ammonites trautscholdi Sinzow, 1870 (= Ammonites bicurvatus Trautschold,
1865 non Michelin, 1838) by original designation.

Sanmartinoceras (Sinzovia) trautscholdi (Sinzow), 1870: 118-119. See also Ammonites bicurvatus
Trautschold, 1865: 22, pl. 3 (fig. 17a—c) (non Michelin); Casey, 1961b: text-fig. 135a-c.
Lower Aptian of the U.S.S.R. and southern England; Upper? Aptian of Madagascar,
Upper Aptian of Zululand.

118 ANNALS OF THE SOUTH AFRICAN MUSEUM

Samartinoceras (Sinzovia) aptianum (Sarasin), 1893: 155, pls 4-6, fig. 12a—c. Casey 1961b:
134, pl. 26 (fig. 6a—b), text-fig. 43d—e. Aptian of France, southern England and elsewhere
in Europe; Nepal (Bordet et al. 1971). (See Fig. 6E-F herein.)

Sanmartinoceras (Sinzovia) stolleyi Casey, 1961b: 133, 136; text-fig. 135g—h. Upper Aptian of
Germany. (See Fig. 6A—D herein.)

Sanmartinoceras ? (Sinzovia ?) sp. nov. Casey, 1961b: 136, text-fig. 43f. Aptian of England.

vnon Sinzovia luppovie Sazonova, 1958: 130, pl. 8 (fig. 2) = S. luppovi Casey, 19616: 130.
Lower Aptian of the U.S.S.R. An Aconeceras according to Casey (19616: 133).

?non Sinzovia saratoviensis Sazonova, 1958 (= Oppelia trautscholdi Sinzow, 1898, pl. A
(figs 4-Sa only). Lower Aptian of the U.S.S.R. Also an Aconeceras according to Casey
(19615: 133).

Subgenus Theganeceras Whitehouse, 1926

Type species: Oppelia scalata von Koenen, 1902, by original designation.

Sanmartinoceras (Theganeceras) grande Thomson, 1974: 25, pl. 4g. Lower Aptian of Alexander
Island. (See Fig. 6G herein.)

Sanmartinoceras (Theganeceras) scalatum (von Koenen), 1902: 54, pl. 45 (fig. 6). Lower Aptian
of north Germany. (See Fig. 6H herein.)

Sanmartinoceras (Theganeceras) falcatum (yon Koenen), 1902: 48, pl. 45 (figs 7-8). See also
Casey 19616: 132, pl. 26 (fig. 2). Lower Aptian of north Germany and England. (See
fig. 6I-J.)

Sanmartinoceras (Theganeceras) (?) sp. Thomson, 1974: 26, pl. 4k. Lower Aptian of Alexander
Island.

Sanmartinoceras (Theganeceras) nodosum Kennedy & Klinger sp. nov. (See p. 107.) Lower
Aptian of Zululand.

Genus Gyaloceras Whitehouse, 1927

Type species: Gyaloceras smithi Whitehouse, 1927 by original designation.

Gyaloceras smithi Whitehouse, 1927a: 115, pl. 17 (fig. 1), text-fig. 8. Aptian of Australia.
(See Fig. 2A.)

Gyaloceras ibo Reyment, 1955: 15, pl. 2 (figs 1-3), text-figs 3-4. Upper Albian of Nigeria.

Casey (19616: 139) has suggested that this species is ‘a completely new development whose
relationship to the Aconeceratidae is doubtful. Possibly it is congeneric with the
Aconeceras ? described by Haas (1942: 165) from the Upper Albian of Angola’.

? Genus Eofalciferella Brunnschweiler, 1959
Type species: Eofalciferella condoni Brunnschweiler, 1959, by original designation.
Eofalciferella condoni Brunnschweiler, 1959: 13, pl. 1 (figs. 3-4). Aptian of Australia. The only
illustrations of this species are pencil sketches of the unique holotype, a crushed specimen
from the Windalia Radiolarite. The species and genus are best treated as nomen dubia;
Casey (19615: 131) implies in his discussion of the genus that its affinities may be with
Sanmartinoceras.

Family Binneyitidae Reeside, 1927

Genus Falciferella Casey, 1954
Type species: Falciferella milbournei Casey, 1954, by original designation.
Falciferella milbourni Casey, 1954: 274, pl. 7 (figs 1-5), text-fig. 3. Middle Albian of southern
England.
Falciferella malandiandrensis Collignon, 1962: 32, pl. 229 (fig. 975). Upper Aptian of
Madagascar. This species is keeled to a diameter of approximately 45 mm. It may be an
Aconeceras, although Collignon (1962) indicates that it has a Falciferella-like suture.

Genus Doridiscus Casey, 1961
Type species: Doridiscus rotulus Casey, 1961, by original designation.
Doridiscus rotulus Casey, 1961b: 139, pl. 26 (fig. 8a—b), text-fig. 44c-e. Low Upper Aptian of
southern England.
oe sp. noy. indet? Casey, 19615: 140, text-fig. 44f. Upper Lower Aptian of southern
ngland.

CRETACEOUS FAUNAS FROM SOUTH AFRICA 119

Genus Nothodiscus Casey in Collignon, 1962

Type species: Nothodiscus planus Casey, in Collignon, 1962, by original designation.
Nothodiscus planus Casey in Collignon, 1962: 32, pl. 229 (fig. 976). Upper Aptian of Madagascar.

Genus Borissiakoceras Arkhangelsky, 1916

Type species: Borissiakoceras mirabile Arkangelsky, 1916: 55, pl. 8 (figs 2-3), Lower Turonian
of Turkestan. Kennedy & Juignet, 1973: 900, text-figs 1-2, Middle Cenomanian of France.

Borissiakoceras compressum Cobban, 1961: 747, pl. 87 (figs 19-33); pl. 89 (figs 1-9), text-
fig. 4a-k. Middle Cenomanian of the United States Western Interior.

Borissiakoceras reesidei Morrow, 1935: 463, pl. 49 (fig. 7a—b), pl. 50 (fig. 5), text-fig. 8.
Cobban, 1961: 749, pl. 88 (figs 1-14), text-fig. 3h-k. Middle Cenomanian of the United
States Western Interior.

Borissiakoceras orbiculatum Stephenson, 1955: 64, pl. 6 (figs 1-4). Cobban, 1961: 750, pl. 88
(figs 15-41), text-fig. Sa-f. Middle/Upper Cenomanian of Texas and the United States
Western Interior.

Borissiakoceras cf. B. orbiculatum Stephenson, 1955; Cobban 1961: 753, pl. 89 (figs 10-14),
text-fig 5g, i. Uppermost Cenomanian of the Black Hills, United States Western Interior.

Borissiakoceras inconstans Cobban & Gryc, 1961: 187, pl. 38 (figs 30-37), text-fig. 21-1.
Latest ? Cenomanian of Alaska.

Borissiakoceras ashurkoffae Cobban & Gryc, 1961: 188, pl. 38 (figs 38-43), text-fig. 2j-k, m.
Lower Turonian of Alaska.

Borissiakoceras (?) sp. Wright, 1963: 602, pl. 89 (fig. 5). Middle Cenomanian of Bathurst
Island, Australia.

Borissiakoceras ? sp. Lower Cenomanian of Sarthe, France (Sorbonne collections).

Borissiakoceras sp. Kennedy & Klinger, 1978. (See p. 116.) Middle Cenomanian of Zululand.

Genus Johnsonites Cobban, 1961

Type species: Johnsonites sulcatus Cobban, 1961, by original designation.
Johnsonites sulcatus Cobban, 1961: 743, pl. 87 (figs 1-18), text-fig. 3a-g. Middle Cenomanian
of Wyoming and Colorado in the United States Western Interior.
? Johnsonites sp., the original of Stephenson’s (1952: 198, pl. 45 (figs 5-6)) Euhoplites ? sp.
from the Middle Cenomanian of Texas may also belong to this genus.
Genus Binneyites Reeside, 1927
Type species: Binneyites parkensis Reeside, 1927, by original designation.
Binneyites parkensis Reeside, 1927: 5, pl. 3 (figs 1-10). Cobban, 1961: 754, pl. 89 (figs 32-37),
text-fig. 5s, t. Coniacian of Wyoming and Utah in the United States Western Interior.
Binneyites carlilensis Cobban, 1961: 755, pl. 89 (figs 15-22), text-fig. 5h, j-m. Mid-Turonian
of South Dakota and Wyoming in the United States Western Interior.

Binneyites aplatus (Morrow), 1935: 465, pl. 49 (fig. 5), pl. 50 (fig. 6), text-fig. 7. Mid-Turonian
of Kansas in the United States Western Interior.

Binneyites rugosus Cobban, 1961: 756, pl. 89 (figs 26-31), text-fig. 5n—p.

The Engonoceratidae gen. et sp. nov. of Henderson, 1973: 106, fig. 14 (no. 8), text-fig. 15,
is either a Borissiakoceras or Binneyites of Turonian age.

ACKNOWLEDGEMENTS

We thank Dr H. W. Ball, Dr M. K. Howarth and Mr D. Phillips of the
British Museum (Natural History), Dr R. Casey and Mr C. J. Wood (Institute
of Geological Sciences), Mr C. W. Wright and Dr M. R. Cooper (Oxford), for
their advice and useful discussions. The assistance of the staff of the Geological
Collections at Oxford University Museum, and South African Museum,
Cape Town, is gratefully acknowledged as is the financial support of the Trustees
of the Sir Henry Strakosh Bequest, the Royal Society, and Natural Environment
Research Council.

120 ANNALS OF THE SOUTH AFRICAN MUSEUM

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6. SYSTEMATIC papers must conform to the /nternational code of zoological nomenclature
(particularly Articles 22 and 51).

Names of new taxa, combinations, synonyms, etc., when used for the first time, must be
followed by the appropriate Latin (not English) abbreviation, e.g. gen. nov., sp. nov., comb.
nov., syn. nov., etc.

An author’s name when cited must follow the name of the taxon without intervening
punctuation and not be abbreviated; if the year is added, a comma must separate author’s
name and year. The author’s name (and date, if cited) must be placed in parentheses if a
species or subspecies is transferred from its original genus. The name of a subsequent user of
a scientific name must be separated from the scientific name by a colon.

Synonymy arrangement should be according to chronology of names, i.e. all published
scientific names by which the species previously has been designated are listed in chronological
order, with all references to that name following in chronological order, e.g.:

Family Nuculanidae
Nuculana (Lembulus) bicuspidata (Gould, 1845)

Figs 14-15A
Nucula (Leda) bicuspidata Gould, 1845: 37.
Leda plicifera A. Adams, 1856: 50.
Laeda bicuspidata Hanley, 1859: 118, pl. 228 (fig. 73). Sowerby, 1871: pl. 2 (fig. 8a—b).
Nucula largillierti Philippi, 1861: 87.
Leda bicuspidata: Nicklés, 1950: 163, fig. 301; 1955: 110. Barnard, 1964: 234, figs 8-9.

Note punctuation in the above example:
comma separates author’s name and year
semicolon separates more than one reference by the same author
full stop separates references by different authors
figures of plates are enclosed in parentheses to distinguish them from text-figures
dash, not comma, separates consecutive numbers

Synonymy arrangement according to chronology of bibliographic references, whereby
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In describing new species, one specimen must be designated as the holotype; other speci-
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Holotype
SAM-—A13535 in the South African Museum, Cape Town. Aduit female from mid-tide region, King’s Beach
Port Elizabeth (33°51’S 25°39’E), collected by A. Smith, 15 January 1973.

Note standard form of writing South African Museum registration numbers and date.

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SMITHSONIAN INSTITUTION LIBRARIES
“UUM
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WILLIAM JAMES KENNEDY
&

HERBERT CHRISTIAN KLINGER

CRETACEOUS FAUNAS FROM ZULULAND
AND NATAL, SOUTH AFRICA

THE AMMONITE SUPERFAMILY
HAPLOCERATACEAE ZITTEL, 1884