Cancilla nanostriatula, Harzhauser & Landau, 2021

Harzhauser, Mathias & Landau, Bernard, 2021, The Mitridae (Gastropoda: Neogastropoda) of the Miocene Paratethys Sea, Zootaxa 4983 (3), pp. 1-72 : 57-58

publication ID	https://doi.org/10.11646/zootaxa.4983.1.1
publication LSID	lsid:zoobank.org:pub:6A4778D6-195A-4AB1-AA1E-7D8000185B28
DOI	https://doi.org/10.5281/zenodo.5044189
persistent identifier	https://treatment.plazi.org/id/A82A87E9-8A2E-3874-FF4D-F9A8FCB7F85E
treatment provided by	Plazi (2021-06-10 00:51:57, last updated 2024-11-24 21:02:59)
scientific name	Cancilla nanostriatula
status	sp. nov.

Treatment

Cancilla nanostriatula View in CoL nov. sp.

Figs 15C View FIGURE 15 1 –C View FIGURE 1 2 View FIGURE 2 , D 1 –D View FIGURE 1 2 View FIGURE 2 , E 1 –E View FIGURE 1 2 View FIGURE 2 , F 1 –F View FIGURE 1 2 View FIGURE 2

Mitra striatula Brocc. — Hörnes 1852b: 102, pl. 10, figs 19–21 [non Lamarck, 1811].

[ Mitra View in CoL ] striatula Brocc. — Auinger 1871: 8 [non Lamarck, 1811].

Mitra (Tiara) substriatula d’Orbigny, 1852 —Kojumdgieva in Kojumdgieva & Strachimirov 1960: 157, pl. 42, fig. 2 [non d’Orbigny, 1852].

Mitra (Nebularia) scrobiculata var. bellardii Hoernes & Auinger, 1880 View in CoL — Strausz 1966: 365, pl. 26, figs 9–10 [non Hoernes & Auinger, 1880].

Type material. Holotype: NHMW 1846 View Materials /0037/0100, SL: 29.9 mm, MD: 8.9 mm, Baden ( Austria), illustrated in Hörnes (1852b, pl. 10, fig. 20), figs 15D 1 –D 2 . Paratypes: NHMW 2020 View Materials /0136/0002, SL: 28.5 mm , MD: 8.8 mm, Bad Vöslau ( Austria), figs 15C 1 –C 2 ; NHMW 1863 View Materials /0015/0622, SL: 23.7 mm , MD: 6.3 mm, Niederleis ( Austria), figs 15E 1 –E 2 ; NHMW 2020 View Materials /0136/0001, SL: 29.6 mm , MD: 9.2 mm, Baden ( Austria), figs 15F 1 –F 2 .

Additional material. NHMW 2013 View Materials /0078/0365, 7 specimens, Baden ( Austria) , NHMW 1855 View Materials /045/0869, 17 specimens, Bad Vöslau ( Austria) , NHMW 1862 View Materials /0001/0252, 6 specimens, Möllersdorf ( Austria) , NHMW 1867 View Materials /0019/0034, 3 specimens, Coşteiu de Sus ( Romania) .

The specimens from Baden ( Austria) illustrated in Hörnes (1852b, pl. 10, figs 19, 21) are lost.

Type locality. Baden ( Austria), Vienna Basin .

Type stratum. Clay of the Baden Formation.

Age. Middle Miocene, middle Badenian (Langhian).

Etymology. Referring to similarity with Cancilla substriatula and the relatively smaller size.

Diagnosis. Cancilla species of medium size, but small size for genus, moderately slender fusiform shell, with high slightly gradate spire, subcylindrical last whorl, spiral sculpture of three to four prominent spiral grooves in adapical third of whorls.

Revised description. Shell medium-sized, moderately slender fusiform with high, slightly gradate spire and faintly canaliculate suture. Protoconch conical of 3.5 moderately convex whorls. Teleoconch of ten whorls. Spire whorls subcylindrical with subobsolete/weak shoulder. Sculpture of first two teleoconch whorls of weak axial ribs, crossed in adapical third by two to four spiral grooves, resulting in cancellate sculpture. Subsequent whorls typically with three to four occasionally punctate spiral grooves on shoulder and adapical third of whorls, persisting on to last whorl. Number of spiral grooves variable due to secondary intercalations. Abapical part of whorls typically smooth, or less frequent with punctate spiral grooves of variable strength. Last whorl subcylindrical above periphery, moderately constricted with long base. Spiral cords on last whorl variable, usually reduced along periphery, prominent on base and fasciole. Growth lines may form cancellate pattern in spiral grooves. Aperture moderately narrow. Columellar callus broad, thin, sharply delimited. Columella with four oblique columellar folds, abapically decreasing in strength. Outer lip thin. Siphonal fasciole slightly twisted. Siphonal canal long, straight with deeply incised siphonal notch.

Shell measurements and ratios. SL = 16.0– 29.9 mm, MD: 5.1–9.2 mm, AA = 30–33°. SL/MD: 3.3–3.5, AL/ AW: 5.3–5.7, AH/S: 2.1–2.3.

Discussion. Glibert (1960) was the first to list Paratethyan occurrences of the species from Baden and Bad Vöslau ( Austria) as Mitraria substriatula ( d’Orbigny, 1852) . Kojumdgieva in Kojumdgieva & Strachimirov (1960) followed this position and included the specimen from Baden ( Austria) illustrated by Hörnes (1852b, pl. 10, fig 21) in her chresonymy of M. substriatula . Mitra substriatula was originally introduced by d’Orbigny (1852: 10) as new name for a specimens from the Burdigalian of Saint-Paul-lès-Dax ( France), described by Grateloup (1846) as Mitra striatula Brocchi. The syntype of Mitra substriatula (MNHN.F. A12983 View Materials , https://science.mnhn.fr/taxon/species/mitra/substriatula) differs from the Paratethyan specimens in its larger size, broader shell and convex last whorl. Its base is less constricted and the siphonal canal (although not fully preserved) seems to be shorter. The specimens from Saint-Jean-de-Marsacq (Burdigalian) and Saubrigues (Langhian) described by Peyrot (1928, pl. 9, figs 4, 10, 11, 53, 58), differ also from the syntype of Mitra substriatula in their higher subcylindrical spire whorls and elongate last whorl. Cancilla substriatula is also recorded from the Miocene of the North Sea Basin (Glibert 1852a; Janssen 1984). Janssen (1984, pl. 67, figs 2–4) considered Cancilla substriatula a polymorphic species with highly variable sculpture. This North Sea variety differs from the Paratethyan species in its much larger size (SL:> 45 mm) and its protoconch of 4.5 whorls. Moreover, its spiral grooves are more uniform, whereas the spiral grooves of Cancilla nanostriatula are distinctly more prominent along the shoulder than on the rest of the whorl.

Cancilla subtilestriata ( Peyrot, 1928) from the Langhian of Saubrigues ( France) is morphologically close to C. nanostriatula nov. sp. and attains a comparable size. It differs in its fewer, but more prominent spiral grooves, the less elongate last whorl, and less tapering siphonal canal (see Peyrot 1928: pl. 9, fig. 1).

Palaeoenvironment. The clay of the Baden Formation formed in middle to outer neritic settings with up to 250 m water depth ( Hohenegger et al. 2008).

Distribution in Central Paratethys. Badenian (middle Miocene): Vienna Basin: Baden, Möllersdorf, Niederleis, Steinebrunn, Vienna /Pötzleinsdorf ( Hörnes 1852b); Eisenstadt-Sopron Basin: Mattersburg, Forchtenau ( Austria) ( Hörnes 1852b), Pannonian Basin: Letkés ( Hungary) ( Strausz 1966); Dacian Basin: Urovene, Dobrusha ( Bulgaria) (Kojumdgieva in Kojumdgieva & Strachimirov 1960).

References

Auinger, M. (1871) Tabellarisches Verzeichnis der bisher aus den Tertiarbildungen der Markgrafschaft Mahren bekannt gewordenen fossilen Conchylien auf Grundlage der Sammlung des k. k. Hof-Mineralien-Cabinetes. Naturforschender Verein Brunn, Verhandlungen, 9, 1 - 27. [https: // opac. geologie. ac. at / ais 312 / dokumente / Auinger _ 1871 _ Tertiaerbildungen. pdf]

d'Orbigny, A. (1852) Prodrome de Paleontologie Stratigraphique Universelle des Animaux Mollusques & Rayonnes faisant suite au Cours Elementaire de Paleontologie et de Geologie Stratigraphique. Vol. 3. Victor Masson, Paris, 189 pp. [https: // www. biodiversitylibrary. org / item / 98989 # page / 9 / mode / 1 up]

Glibert, M. (1960) Les Volutacea fossiles du Cenozoique etranger des collections de l'Institut royal des sciences naturelles de Belgique. Memoires de l'Institut Royal des Sciences Naturelles de Belgique, Serie 2, Fasc. 61, 1 - 109. [https: // core. ac. uk / download / pdf / 35118093. pdf]

Grateloup, J. P. S. de (1846) Conchyliologie fossile des terrains tertiaires du Bassin de l'Adour, (environs de Dax). Tome Ier. Univalves. Atlas. Th. Lafargue, Bordeaux, pls. 1 - 45 (1840) + pp. i - xx + 1 - 12, pls. 46 - 48. [https: // archive. org / details / conchyliologief 00 gratgoog]

Hoernes, R. & Auinger, M. (1880) Die Gasteropoden der Meeres-Ablagerungen der ersten und zweiten Miocanen Mediterran- Stufe in der Osterreichisch-Ungarischen Monarchie. Abhandlungen der k. k Geologischen Reichsanstalt, 12, 53 - 112, pls. 7 - 12. [https: // opac. geologie. ac. at / ais 312 / dokumente / Hoernes % 20 und % 20 Auinger % 20 _ 1879 _ Gasteropoden. pdf] https: // doi. org / 10.5962 / bhl. title. 151405

Hohenegger, J., Andersen, N., Baldi, K., Coric, S., Pervesler, P., Rupp, C. & Wagreich, M. (2008) Palaeoenvironment of the Early Badenian Middle Miocene in the southern Vienna Basin Austria - multivariate analysis of the Baden-Sooss section. Geologica Carpathica, 59, 461 - 487. [http: // www. geologicacarpathica. com / browse-journal / volumes / 59 - 5 / article- 458 /]

Hornes, M. (1852 b) Die fossilen Mollusken des Tertiar-Beckens von Wien. Abhandlungen der K. K. Geologischen Reichsanstalt, 3, pp. 43 - 208, pls. VI - XX (1852). [https: // opac. geologie. ac. at / ais 312 / dokumente / Abh- 3 - GRA-gesamt. pdf]

Janssen, A. W. (1984) Mollusken uit het Mioceen van Winterswijk-Miste. Een inventarisatie, met beschrijvingen en afbeeldingen van alle aangetroffen soorten. Koninklijke Nederlandse Natuuhistorische Vereniging, Nederlandse Geologische Vereniging & Rijkmuseum van Geologie en Mineralogie, Amsterdam, 451 pp.

Kojumdgieva, E. M. & Strachimirov, B. (1960) Les fossiles de Bulgarie. VII. Tortonien. Academie des Sciences de Bulgarie, Sofia, 317 pp.

Lamarck, M. (1811) Sur la determination des especes parmi les animaux sans vertebres, et particulicrement parmi les mollusques testaces. Annales du Museum d'histoire naturelle, Paris, 17, 195 - 222. [https: // www. biodiversitylibrary. org / item / 93161 # page / 198 / mode / 1 up] https: // doi. org / 10.5962 / bhl. title. 11732

Peyrot, A. (1928) Conchologie neogenique de l'Aquitaine. Actes de la Societe Linneenne de Bordeaux, 79, 5 - 263. [https: // www. biodiversitylibrary. org / item / 192271 # page / 155 / mode / 1 up]

Strausz, L. (1966) Die Miozan-Mediterranen Gastropoden Ungarns. Akademiai Kiado, Budapest, 693 pp.

Figures

FIGURE 1. A. Map of central and south–eastern Europe, representing the area that was partly covered by the Central Paratethys Sea (for detailed maps with the localities mentioned in the text see Kroh (2005) and Nosowska (2020). The white insert corresponds to the area that is restored in the palaeogeographic map below. B. Palaeogeography of the Middle Miocene Paratethys Sea (modified from Harzhauser & Landau 2017) showing the most important sedimentary basins (NAFB: North Alpine Foreland Basin, E–Sopr B: Eisenstadt–Sopron Basin).

FIGURE 2. Measurements for shell morphology and whorl profiles. SL: shell length, MD: maximum diameter, AA: apical angle, LWH: last whorl height, AH: aperture height. AL: aperture length. AW: aperture width. S: length of siphonal canal.

FIGURE 15. A1–A2. Cancilla wagreichi nov. sp., holotype, NHMW 2020/0130/0001, Lăpugiu de Sus (Romania). B1–B2. Cancilla sismondai (Michelotti, 1847), NHMW 1865/0001/0171, Lăpugiu de Sus (Romania). C1–C2. Cancilla nanostriatula nov. sp., NHMW 2020/0136/0002, paratype, Bad Vöslau (Austria). D1–D2. Cancilla nanostriatula nov. sp., NHMW 1846/0037/0100, holotype, Baden (Austria). E1–E2. Cancilla nanostriatula nov. sp., NHMW 1863/0015/0622a, paratype, Niederleis (Austria). F1–F2. Cancilla nanostriatula nov. sp., paratype, Baden (Austria). G1–G2. Cancilla suballigata (Bellardi, 1887), NHMW 1847/0037/0044b, Vienna/Pötzleinsdorf. H1–H2. Cancilla suballigata (Bellardi, 1887), NHMW 2020/0137/0001, Bad Vöslau (Austria). I1–I2. Cancilla suballigata (Bellardi, 1887), NHMW 2020/0134/0001, Forchtenau (Austria).