Granulolabium Cossmann, 1889

Thivaiou, Danae, Harzhauser, Mathias & Koskeridou, Efterpi, 2019, Early Miocene Gastropods from the Felli Section (Proto-Mediterranean Sea NW Greece), Geodiversitas 41 (8), pp. 323-366 : 331-332

publication ID	https://doi.org/10.5252/geodiversitas2019v41a8
publication LSID	urn:lsid:zoobank.org:pub:A2760279-BE3E-4730-9688-9AB777F3A357
DOI	https://doi.org/10.5281/zenodo.3705767
persistent identifier	https://treatment.plazi.org/id/65316246-1555-5277-FC02-FA65FDDDFAE3
treatment provided by	Valdenar (2020-03-06 17:19:50, last updated 2024-11-29 09:49:35)
scientific name	Granulolabium Cossmann, 1889
status

Treatment

Genus Granulolabium Cossmann, 1889 View in CoL

TYPE SPECIES. — Cerithium plicatum Bruguière, 1792 ; by original designation. Early Miocene, France.

Granulolabium plicatum ( Bruguière, 1792) View in CoL (Fig. 4 View FIG B1-B3)

Cerithium plicatum Bruguière, 1792: 488 . — Hörnes 1856: 400, pl. 42, fig. 6.

Granulolabium plicatum – Sacco 1895a View in CoL , div. var.: 58, pl. 3, fig. 45. — Lozouet 1986: 171, fig. 2 a-d; 2001: 28, pl. 8., figs 1a-b, 2a-c, 3a c. — Harzhauser & Kowalke 2001: 27, pl. 8, figs 1-3. — Harzhauser 2002: 73, pl. 1, fig. 17-20; 2004: 120, pl. 5, figs 1-4. — İslamoğlu 2008: 266, fig. 6-P. — Esu & Girotti 2010: 159, pl. 5, figs 10-13. — Moths et al. 2010: 32, pl.10, fig. 6, pl. 34, fig. 8. — Lozouet & Maestrati 2012: 278, figs 180/4-6. — Cluzaud et al. 2014: 226, fig. 171I. — Kovács & Vicián 2016: 247, pl. 1, fig. 5.

Cerithium (Granulolabium) plicatum – Schaffer 1912 , div. var.: 151, pl. 51, fig. 36-40.

Pirenella plicata – Cossmann & Peyrot 1921: 267, pl. 5, fig. 99-101, pl. 6, fig. 42-44. — Báldi 1973: 259, pl. 29, fig. 3.

MATERIAL EXAMINED. — Sample F1: AMPG ( IV) 2072-2088 (17 specimens); sample F2: 2089-2138 (50 specimens); sample F3: AMPG ( IV) 2139-2166 (28 specimens) ; sample F7: AMPG ( IV) 2167-2226 (60 specimens) ; sampleF8: AMPG ( IV) 2227-2236 (ten specimens) ; sample F10: AMPG ( IV) 2237-2238 (two specimens) .

DIMENSIONS. — Maximum height: 35.0 mm.

DISTRIBUTION. — Oligocene. NE Atlantic, Paratethys, North Sea Basin ( Harzhauser 2004); Western Tethys-Proto-Mediterranean Sea: Greece, Turkey ( Harzhauser 2004; İslamoğlu 2008).

Early Miocene. NE Atlantic ( Lozouet et al. 2001); Proto-Mediterranean Sea: Greece, Turkey ( Harzhauser 2004); Paratethys ( Schaffer 1912; Mandic et al. 2004); North Sea Basin (Harzhauser 2002; Harzhauser 2004; Büyükmeriç 2017).

REMARKS

Granulolabium plicatum View in CoL has been discussed in depth and compared to similar species by Lozouet (1986) in an effort to clarify the differences between various potamidid and batillariid species. In Lozouet et al. (2001), an extensive list of the French literature is presented with the many different names attributed to G. plicatum View in CoL , thus noting the confusion of the authors due to the morphological variability of the species.

The specimens from Felli show some residual colouration patterns that consists of darker and lighter spiral lines that coincide with the ornamentation (the spiral threads are darker and give a brighter colour under UV light).

Granulolabium View in CoL species are able to withstand variations in salinity and they are known to characterize lagoonal or littoral environments ( Latal et al. 2006; Esu & Girotti 2010). In the Paratethys (Korneuburg Basin, Austria) the Granulolabium View in CoL - Agapilia biofacies represents slightly energetic conditions of an outer tidal flat ( Zuschin et al. 2014).

References

BALDI T. 1973. - Mollusc Fauna of the Hungarian Upper Oligocene (Egerian); Studies in Stratigraphy, Palaeoecology, Palaeogeography and Systematics. Akademiai Kiado, Budapest, 511 p.

BRUGUIERE J. G. 1792. - Encyclopedie methodique ou par ordre de matieres. Histoire naturelle des vers. Panckoucke, Paris, vol. 1: 345 - 757. https: // doi. org / 10.5962 / bhl. title. 8638

BUYUKMERIC Y. 2017. - Molluscan biostratigraphy of early Miocene deposits of the Kale-Tavas and Acipayam basins (Denizli, SW Turkey). Bulletin of the Mineral Research and Exploration 155: 49 - 73. https: // doi. org / 10.19111 / bulletinofmre. 305166

CLUZAUD A., LESPORT J. - F., CAHUZAC B. & JANSSEN A. 2014. - Mollusques, in LONDEIX L. (ed.), Stratotype Aquitanien. Museum national d'Histoire naturelle, Paris and Biotope, Meze: 223 - 232 (Patrimoine geologique; 5).

COSSMANN M. & PEYROT A. 1921. - Conchologie neogenique de l'Aquitaine. Actes de la Societe linneenne de Bordeaux 73: 5 - 321. https: // biodiversitylibrary. org / page / 31662049

ESU D. & GIROTTI O. 2010. - The late Oligocene molluscan fauna from Otranto (Apulia, Southern Italy): An example of alternating freshwater, lagoonal and emerged environments. Palaeontology 53 (1): 137 - 174. https: // doi. org / 10.1111 / j. 1475 - 4983.2009.00923. x

HARZHAUSER M. & KOWALKE T. 2001. - Early Miocene brackishwater Mollusca from the Eastern Mediterranean and from the central Paratethys - a faunistic and ecological comparison by selected faunas. Journal of the Czech Geological Society 46 (3): 353 - 374.

HARZHAUSER M. 2004. - Oligocene gastropod faunas of the eastern Mediterranean (Mesohellenic Trough / Greece and Esfahan-Sirjan Basin / Central Iran). Courier Forschungsinstitut Senckenberg 248: 93 - 181.

HORNES M. 1856. - Die fossilen Mollusken des Tertiar-Beckens von Wien. Abhandlungen der Kaiserlich-Koniglichen Geologischen Reichsanstalt 3: 461 - 736.

ISLAMOGLU Y. 2008. - Molluscan biostratigraphy and paleoenvironmental reconstruction of Oligocene deposits in the Denizli and Kale-Tavas subbasins (SW Turkey). Geodiversitas 30 (2): 261 - 285.

KOVACS Z. & VICIAN Z. 2016. - A new Egerian (Upper Oligocene - Lower Miocene) gastropod fauna from the Esztergom Bsain (NE Transdanubia, Hungary). Foldtani Kozlony 146 (3): 233 - 256.

LATAL C., PILLER W. E. & HARZHAUSER M. 2006. - Small-scaled environmental changes: indications from stable isotopes of gastropods (Early Miocene, Korneuburg Basin, Austria). International Journal of Earth Sciences 95: 95 - 106. https: // doi. org / 10.1007 / s 00531 - 005 - 0510 - 3

LOZOUET P. 1986. - Redefinition des genres Potamides et Pirenella (Gastropoda, Prosobranchia) a partir des especes actuelles et fossiles: implications phyletiques et biogeographiques. Annales de Paleontologie 72 (3): 163 - 210.

LOZOUET P., LESPORT J. F. & RENARD P. 2001. - Revision des Gastropoda (Mollusca) du Stratotype de l'Aquitanien (Miocene Inf.): site de Saucats Lariey , Gironde, France. Cossmanniana h. s.: 1 - 189.

LOZOUET P. & MAESTRATI P. 2012. - Le contenu paleontologique. Mollusques, in LOZOUET P. (ed.) Stratotype Stampien. Museum national d'Histoire naturelle Paris, Biotope, Meze: 239 - 297 (Patrimoine geologique; 4).

MANDIC O., HARZHAUSER M., SCHLAF J., PILLER W. E., SCHUSTER F., WIELANDT- SCHUSTER U., NEBELSICK J. K., KROH A., ROGL F. & BASSANT P. 2004. - Palaeoenvironmental reconstruction of an epicontinental flooding - Burdigalian (Early Miocene) of the Mut Basin (Southern Turkey). Courier Forschungsinstitut Senckenberg 248: 57 - 92.

MOTHS H., ALBRECHT F. & STEIN G. 2010. - Die Molluskenfauna (Hemmoorium, Untermiozan) aus der Kiesgrube Krinke bei Werder (Nordwest-Niedersachsen). Palaeofocus 3: 1 - 155.

SACCO F. 1895 a. - I molluschi dei terreni terziari del Piemonte e della Liguria, 17. (Cerithiidae, Triforidae, Cerithiopsidae e Diastomidae). Bollettino dei Musei di Zoologia ed Anatomia comparata della Reale Universita di Torino 10 (197): 71 - 74. https: // biodiversitylibrary. org / page / 12934950

SCHAFFER F. X. 1912. - Das Miocan von Eggenburg. Die Fauna der ersten Mediterranstufe des Wiener Beckens und die gologischen Verhaltnisse der Umgebung des Manhartsberges in Niederosterreich. Abhandlungen der Kaiserlich-Koniglichen Geologischen Reichsanstalt 22: 127 - 193. https: // biodiversitylibrary. org / page / 51319455

ZUSCHIN M., HARZHAUSER M., HENGST B., MANDIC O. & ROTZEL R. 2014. - Long-term ecosystem stability in an Early Miocene estuary. Geology 42 (1): 7 - 10. https: // doi. org / 10.1130 / G 34761.1

Figures

FIG. 4. — A1-A3, Bittium larrieyense Vignal, 1911: A1, AMPG(IV) 1891 (SEM image); A2, A3, AMPG(IV) 1646; B1-B3, Granulolabium plicatum (Bruguière, 1792): B1, AMPG(IV) 2089 (SEM image); B2, B3, AMPG(IV) 2167; C1-C3, Gibborissoia varicosa (de Basterot, 1825): C1, AMPG(IV) 2239 (SEM image); C2, C3, AMPG(IV) 2240; D, Mesohalina margaritacea (Brocchi, 1814), AMPG(IV) 2294 (SEM image); E1-E3, Terebralia lignitarum (Eichwald, 1830), AMPG(IV) 2304; F1-F3, Terebralia subcorrugata d’Orbigny, 1852, AMPG(IV) 2306; G1-G4, Finella perpusilla (Grateloup, 1827): G1, G2, AMPG(IV) 2308; G3, AMPG(IV) 2309 (SEM image); G4, AMPG(IV) 2309, protoconch (SEM image); H1-H4, Turritella turris de Basterot,1825:H1, H2, AMPG(IV) 2404;H3, AMPG(IV) 2405 (SEM image); H4, AMPG(IV) 2405, protoconch (SEM image). Scale bars: A1, C2, C3, G1, G2, H1-H3, 500 µm; A2, A3, D, 1 mm; B1, G3, C1, 400 µm; B2, B3, 5 mm; E1-E3, 10 mm; F1-F3, 2 mm; G4, H4, 200 µm.