First 3D reconstruction and volumetric body mass estimate of the tapinocephalid dinocephalian Tapinocaninus pamelae (Synapsida: Therapsida)

Dinocephalians were the earliest large terrestrial tetrapods from Gondwana, making this group crucial in understanding body mass (BM) evolution in basal synapsids, but no detailed weight determinations are available for the clade. Here we present the first BM estimate for a dinocephalian on the basis of the remarkably well preserved and complete skeleton of the basal tapinocephalid Tapinocaninus pamelae from the lowermost Beaufort Group of South Africa. We reconstructed three 3D models of Tapinocaninus using mounted skeletons of the dinocephalians Moschops and Ulemosaurus to reconstruct the missing elements. Applying a density range between 0.9 and 1.15 Kg/1000 cm(3) for living tissue to the model we reconstructed an average BM of 892.63 Kg for the taxon. Classic regression formulae, based on humerus and femur circumference, provide higher values of 1694.5 Kg and 2015.8 Kg, with an overestimation of 90% and 126% respectively. The study confirms that volumetric BM estimates are more precise, and are recommended if relatively complete skeletons are available. The 'intermediate' posture recognized for Tapinocaninus, more upright with respect to the sprawling condition characterizing sphenacodontid 'pelycosaurs', could represent a response to a large BM, which, for the first time in synapsids, reaches weights close to a tonne.

Automated summary

This study provides the first body mass estimate for a dinocephalian species based on a well-preserved skeleton, highlighting the importance of volumetric body mass estimates over traditional regression formulae. The findings suggest that the upright posture of Tapinocaninus may be a response to its large body mass, which reaches weights close to a ton for the first time in synapsids.