Weyerella molaris ( Vöhringer, 1960 )
publication ID |
https://doi.org/ 10.5852/ejt.2023.882.2177 |
publication LSID |
lsid:zoobank.org:pub:67C909E4-C700-4F8D-B8CE-5FD9B2C5D549 |
DOI |
https://doi.org/10.5281/zenodo.8184502 |
persistent identifier |
https://treatment.plazi.org/id/03EA5C14-CA91-85D4-FDF1-FC23FAEF8385 |
treatment provided by |
Felipe |
scientific name |
Weyerella molaris ( Vöhringer, 1960 ) |
status |
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Weyerella molaris ( Vöhringer, 1960) View in CoL
Figs 8B View Fig , 10D View Fig , 91–93 View Fig View Fig View Fig ; Tables 89–90 View Table 89 View Table 90
Gattendorfia molaris Vöhringer, 1960: 158 View in CoL , pl. 5 fig. 1, text-fig. 33.
Gattendorfia molaris View in CoL – Weyer 1976: 845, text-fig. 5. — Korn 1994: 74, text-figs 65e–g, 66i–j, 67e, 68d.
— Korn & Weyer 2003: 96, pl. 1 figs 13–14, pl. 2 figs 18–19. — Sprey 2002: 53, text-fig. 18d. Weyerella molaris View in CoL – Korn 2006: text-fig. 3h.
non Gattendorfia molaris View in CoL – Ruan 1981: 83, pl. 20 figs 1–26. — Sheng 1989: 116, pl. 34 figs 3–5.
Diagnosis
Species of Weyerella with a conch reaching 30 mm diameter. Conch at 15 mm dm thickly discoidal, subevolute (ww/dm ~0.50; uw/dm ~0.40). Whorl profile at 15 mm dm weakly depressed (ww/wh ~1.35); coiling rate low (WER ~1.70). Venter rounded, umbilical margin narrowly rounded. Growth lines fine, wide-standing, with convex course. With moderately deep constrictions on the shell surface; with moderately coarse internal shell thickenings. Suture line with narrowly lanceolate external lobe and lanceolate adventive lobe.
Material examined
Holotype
GERMANY • Rhenish Mountains, Oberrödinghausen , railway cutting ; Hangenberg Limestone , bed 3c ; Vöhringer Coll.; illustrated by Vöhringer (1960: pl. 5 fig. 1) and Korn (1994: text-fig. 65e); re-illustrated here in Fig. 91A View Fig ; GPIT-PV-63930.
Paratypes
GERMANY • 6 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 2; Vöhringer Coll.; GPIT-PV-63928–GPIT-PV-63929, GPIT-PV-63931, GPIT- PV-63960–GPIT-PV-63961, GPIT-PV-64003 .
Additional material
GERMANY • 1 specimen; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone; Schmidt 1921 Coll.; BGR X4643 View Materials • 1 specimen; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone; Schindewolf 1925 Coll.; MB.C.4687 • 3 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 1; Vöhringer Coll.; MB.C.31178.1–3 • 2 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 2; Vöhringer Coll.; MB.C.31179.1–2 • 2 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 3b; Vöhringer Coll.; MB.C.31180.1–2 • 2 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 3c; Vöhringer Coll.;MB.C.31181.1–2 • 3specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 3d; Vöhringer Coll.; MB.C.31182.1–3 • 2 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 3e; Vöhringer Coll.; MB.C.31183.1–2 • 1 specimen; Rhenish Mountains , Oberrödinghausen, west of railway cutting; Hangenberg Limestone, loose material; Korn 1977 Coll.; MB.C.31184 • 1 specimen; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 2; Weyer 1993–1994 Coll.; MB.C.31185 • 2 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 3a; Weyer 1993– 1994 Coll.; MB.C.31186.1–2 • 2 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 3b; Weyer 1993–1994 Coll.; MB.C.31187.1–2 • 23 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 3d1; Weyer 1993–1994 Coll.; MB.C.31188.1–23 • 41 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 3d1b; Weyer 1993–1994 Coll.; MB.C.31189.1–41 • 13 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 3d2; Weyer 1993–1994 Coll.; MB.C.31190.1–13 • 15 specimens; Rhenish Mountains , Oberrödinghausen, railway cutting; Hangenberg Limestone, bed 3e; Weyer 1993–1994 Coll.; MB.C.31191.1–15 • 9 specimens; Rhenish Mountains , Hasselbachtal ; Hangenberg Limestone, bed 57; Weyer 1993–1994 Coll.; MB.C.5240.8, MB.C.5240.21–28 • 1 specimen; Rhenish Mountains , Oese, old quarry; Hangenberg Limestone, bed 28; Weyer & Korn 2000 Coll.; MB.C.5260.2 • 1 specimen; Rhenish Mountains , Oese, old quarry; bed interval V; Paproth Coll.; MB.C.5284 .
Description
Holotype GPIT-PV-63930 is a fairly well-preserved specimen almost completely covered with shell material; it has a conch diameter of almost 20 mm ( Fig. 91A View Fig ). It is thinly discoidal and subinvolute (ww/ dm = 0.40; uw/dm = 0.29) with a low coiling rate (WER = 1.70). The whorl profile is almost circular. It can be clearly seen that during the last whorl there is increasing overlap upon the preceding whorl; therefore, the uw/dm ratio decreases considerably within a short growth interval. The ornament consists of fine growth lines, with a convex arch on the flank and extend in backward direction, to form a deep ventral sinus ( Fig. 93I View Fig ). In addition, very weak constrictions can be seen on the shell surface; they are restricted to the middle of the flank.
Paratype GPIT-PV-63928 ( Fig. 91B View Fig ) has almost the same size (19 mm conch diameter), but differs from the holotype in the shape of wider umbilicus (uw/dm = 0.34). It differs from the holotype probably owing to a longer pre-adult ontogenetic stage. While the holotype has just reached the stage in which the umbilical width is being reduced by increasing overlap the uw/dm ratio is reduced when compared with paratype GPIT-PV-63928. Both specimens are very similar in their strongly convex course of the growth lines and the presence of shell constrictions.
Paratype GPIT-PV-63960 with about 22 mm conch diameter also shows a strong umbilical overlap upon the preceding whorl ( Fig. 91C View Fig ). The specimen allows an insight into the course of internal shell thickening in the adult stage. This course is almost linear and slightly biconvex, in contrast to the growth lines, which run with a convex curve ( Fig. 93J View Fig ).
Many additional, well-preserved specimens are available. Two of them (MB.C.31189.1, MB.C.31190.1) are illustrated here ( Fig. 92 View Fig ); they supplement the material from the type series and show largely the same morphological characters.
The suture line of paratype GPIT-PV-63961 shows a lanceolate external lobe and an almost identically shaped, approximately symmetrical adventive lobe. Both are separated by a nearly symmetrical, inverted U-shaped ventrolateral saddle ( Fig. 93H View Fig ).
A series of sectioned specimens ( Fig. 93A–G View Fig ) shows the variation of the species in terms of the different pace in the ontogenetic development of their conch morphology. In specimen BGR X4643 ( Fig. 93A View Fig ) a stronger overlap of the umbilicus with a conch diameter of 19 mm is not yet recognisable; however, half a volution later, at 22 mm in diameter, the overlap is very prominent and a shallow dorsolateral depression can be recognised.
Paratype GPIT-PV-63961 ( Fig. 93B View Fig ) and specimen MB.C.31179.1 ( Fig. 93C View Fig ) already show an incipient flattening of the whorl profile in the dorsolateral area at a conch diameter of 18 mm and a beginning of a stronger overlap upon the umbilicus. In contrast to this, in the specimens MB.C.31181.1 ( Fig. 93D View Fig ) and MB.C.31181.2 ( Fig. 93F View Fig ), such a tendency is not yet recognisable at all at a conch diameter of 15 mm.
Remarks
Weyerella molaris differs from W. reticulum in the absence of spiral lines. Weyerella lenis has a much more slender conch (ww/dm ~0.32 at 15 mm conch diameter in contrast to W. molaris with 0.50).
Species with similar conch morphology of the genus described from Guizhou have either a broader conch ( W. discoides with ww/dm ~0.60) or a more slender conch ( W. popanoides and W. mimica with ww/dm ~0.40) than W. molaris (ww/dm ~0.50). The material described by Ruan (1981) as W. molaris differs by the narrower umbilicus (uw/dm ~0.30) from the type material (uw/dm ~0.40) at 15 mm conch diameter. Therefore, it cannot be placed in this species.
Weyerella protecta from the Anti-Atlas is similar, but shows a narrowing of the umbilicus starting at a larger diameter. At 20 mm conch diameter, the uw/dm ratio is about 0.30 in W. molaris , but still about 0.38 in W. protecta .
Gattenpleura concava has similar juvenile whorls, but closes the umbilicus in the adult stage and possesses a conspicuous dorsolateral groove, which in W. molaris is only very incipiently developed.
BGR |
Bundesanstalt fur Geowissenschaften und Rohstoffe |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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SubOrder |
Tornoceratina |
SuperFamily |
Prionoceratoidea |
Family |
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SubFamily |
Gattendorfiinae |
Genus |
Weyerella molaris ( Vöhringer, 1960 )
Korn, Dieter & Weyer, Dieter 2023 |
Gattendorfia molaris
Sheng H. 1989: 116 |
Ruan Y. 1981: 83 |
Gattendorfia molaris
Korn D. 2006: 153 |
Korn D. & Weyer D. 2003: 96 |
Sprey A. M. 2002: 53 |
Korn D. 1994: 74 |
Weyer D. 1976: 845 |
Gattendorfia molaris Vöhringer, 1960: 158
Vohringer E. 1960: 158 |