Salanyella cf. costulata Missarzhevsky, 1981

Kouchinsky, Artem, Bengtson, Stefan, Landing, Ed, Steiner, Michael, Vendrasco, Michael & Ziegler, Karen, 2017, Terreneuvian stratigraphy and faunas from the Anabar Uplift, Siberia, Acta Palaeontologica Polonica 62 (2), pp. 311-440 : 357-359

publication ID

https://doi.org/ 10.4202/app.00289.2016

persistent identifier

https://treatment.plazi.org/id/03AD87A8-FFB5-6D17-FCCF-FAD7639585A6

treatment provided by

Felipe

scientific name

Salanyella cf. costulata Missarzhevsky, 1981
status

 

Salanyella cf. costulata Missarzhevsky, 1981 View in CoL

Figs. 29A–C, E–H, 30.

Material.—About 50 phosphatic internal moulds, including figured SMNH Mo160414, 182314–182316, 182318–182321, and a single partially preserved phosphatized conch with internal mould, SMNH Mo182322, from samples 1/29.2 (section 1, Fig. 4 View Fig ), 3/12, 3/12.2, 3/22.5, K2/25, and K2/26 (section 3, Fig. 3), from the Medvezhya Formation, western flanks of the Anabar Uplift, Siberian Platform, Russia. Correlated with the uppermost Fortunian Stage.

Description.—Moderately expanding, short conical shell curved up to 45º, with broadly oval, straight aperture. Apical

→ Fig. 24. Molluscs Barskovia hemisymmetrica Golubev, 1976 (A–C, F, G) and Philoxenella spiralis Vostokova, 1962 (D, E), internal moulds (G, internal mould with partly phosphatized shell), from early Cambrian Medvezhya Formation, western Anabar Uplift (A–F) and unnamed formation, NE Tajmyr (G), northern Siberia, Russia; sample K1a/76A (A), section 2; K2/21 (B) and K2/52 (D), section 3; 1/29.2 (C, E, F), section 1; 1571/2 (G), NE Tajmyr. A–G. SMNH Mo182284–182290, respectively. A 1 –F 1, adapical side; A 2, oblique adapical; G 1, adapical; B 2 –G 2, apertural views; G 4, calcium phosphate cast of canals through the wall and outer shell surface; G 3, cast of canals enlarged. Scale bar 25 μm (G 3), 100 μm (G 4), and 500 μm (A–F, G 1, G 2).

region blunt, rounded, not clearly separated from the rest of the shell. Outer shell surface smooth, with thin closely spaced growth lines ( Fig. 30B View Fig 1, B 2).

Remarks.—Moulds are covered with tiny, densely arranged, rounded bumps near the aperture and larger, round to elongate bumps on the adapical surface (Fig. 29E 2). Similar forms were described under the monospecfic genus Lenoconus Vasil’eva, 1990, as Lenoconus sulcatus Vasil’eva, 1990, from the Dockidocyathus regularis Zone of the Tommotian Stage (upper part of Cambrian Stage 2) on the lower reaches of the Lena River at the Ulakhan-Ald’yarkhaj section. The type specimen of L. sulcatus designated by Vasil’eva (1990: pl. 2: 3, 4) has a hooked apical part. It is twice as large as Lenoconus sp. from the Tommotian Stage on the Aldan River (Vasil’eva 1990: pl. 2: 7), which likely represents a juvenive form of the same species. The apical part of the latter is not so curved.

Lenoconus is synonymized herein with Salanyella . The specimens described herein are generally similar in shape and treated as growth stages probably of a single species reported herein as Salanyella cf. costulata . A likely similar form is reported without illustration as S. costulata from the Anabar Uplift and elsewhere on the Siberian Platform by

→ Fig. 26. Mollusc Ceratoconus striatus Chen and Zhang, 1980 , internal moulds, from early Cambrian Medvezhya Formation, Kotuj River, western Anabar Uplift, Siberia, Russia; samples 1/46 (A, B, E), section 1; 3/12.2 (C, F) and K2/25 (D), section 3. A–F. SMNH Mo182297–182302, respectively. A 1 –C 1, E 1, F 2, lateral; A 2 –C 2, D, E 2, F 3, subapical; A 3, C 3, E 3, F 1, supra-apical; B 3, apertural views. Scale bar 500 μm.

Khomentovsky and Karlova (2005). Phosphatized shells of S. costulata Missarzhevsky, 1981 , from Cambrian Stage 2 of western Mongolia have, however, numerous thin transverse ribs not present on the internal moulds from the Anabar Uplift (Figs. 29, 30A). The outer surface of the S. cf. costulata shell is preserved as a phosphatic crust ( Fig. 30B View Fig ) that has regularly spaced growth lines, although they are less distinct than the ribs in the topotype material from western Mongolia. In addition, steinkerns from western Mongolia bear a regular, transverse, pustulouse ornament, which is probably a result of diagenetic phosphatisation of shell pores.

An apical tuft of acicular elements present between the phosphatized shell and internal mould (Figs. 29F 1, 30B 4) probably represents phosphatic casts of early diagenetic crystals of fibrous aragonite that grew in spaces between the inner surface of the shell and its sediment infill. Similar casts are observed in other parts of the internal moulds where they may have a different orientation, either parallel to or inclined to the surface of the mould. Such features are observed on internal moulds of maikhanellids (Fig. 32B 1, 34A 1, A 4), septa of hyoliths replicated by phosphate ( Fig. 53I View Fig ), as well as on the internal moulds of chancelloriid sclerites from Siberia and Laurentia (Kouchinsky et al. 2015a: fig. 34A).

SMNH

Department of Paleozoology, Swedish Museum of Natural History

Kingdom

Animalia

Phylum

Mollusca

Family

Scenellidae

Genus

Salanyella

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