ABSTRACT
Upper and lower tritylodontid postcanine teeth from the Middle Jurassic (Bathonian) Itat Formation of the Berezovsk coal mine, Krasnoyarsk Territory, Russia, are referred to Stereognathus sp. The genus Stereognathus Charlesworth, 1855 (Polistodon He and Cai, 1984, Xenocretosuchus Tatarinov and Mashenko, 1999, and Montirictus Matsuoka et al., 2016, are new synonyms), is similar to Bocatherium and differs from all other tritylodontids in having an upper postcanine cusp formula of 2:2:2. It differs from Bocatherium in the quadrangular shape of the upper postcanine teeth. Stereognathus also differs from all other tritylodontids in having a more elaborate interlocking system in the upper postcanine teeth, each of which bears a mesial cingulum connecting cups B0, M0, and L0. Stereognathus shares with Bienotheroides single-rooted lower postcanine teeth, and these two genera are closely related. Discovery of Stereognathus in the Itat Formation underlines the similarity of the vertebrate assemblage from this stratigraphic unit to the British Bathonian vertebrate assemblages and the Early Cretaceous vertebrate fauna from the Ilek Formation in Siberia. The presence of Stereognathus during an ∼40 Ma time interval in Siberia suggests a long stasis in the evolution of the vertebrate faunas of this region.
Citation for this article: Averianov, A. O., T. Martin, A. V. Lopatin, J. A. Schultz, P. P. Skutschas, R. Schellhorn, and S. A. Krasnolutskii. 2017. A tritylodontid synapsid from the Middle Jurassic of Siberia and the taxonomy of derived tritylodontids. Journal of Vertebrate Paleontology DOI: 10.1080/02724634.2017.1363767.
ACKNOWLEDGMENTS
We thank E. Panciroli (University of Edinburgh, Edinburgh, United Kingdom) for sharing photographs of the holotype of Stereognathus ooliticus. We thank A. Martinelli and for helpful comments. For assistance in the field and/or picking the concentrate, we thank I. Danilov, T. Engler, D. Grigoriev, O. Grigorieva, R. Hielscher, S. Ivantsov, K. Jäger, J. Könen, I. Kuzmin, A. Lang, B. Peters, D. Rohkamp, M. Scheske, A. Schwermann, L. Schwermann, E. Syromyatnikova, and A. Valeev. Financial support was provided by the Deutsche Forschungsgemeinschaft (DFG) (grant MA 1643/14-1-3), the Board of the President of the Russian Federation (MD-802.2009.4), the Russian Foundation for Basic Research (projects 07-04-00393, 10-04-01350, 13-04-01401, and 11-04-91331-NNIO), the Tomsk State University Competitiveness Improvement Program, 2015–2017, and the Program of the Presidium of the Russian Academy of Sciences ‘Origin of the Life and Establishment of Biosphere.’ The work is performed according to the Russian Government Program of Competitive Growth of Kazan Federal University.
Handling editor: Guillermo Rougier.