Abstract
Pareiasaurs (Amniota, Parareptilia) were characterized by a global distribution during the Permian period, forming an important component of middle (Capitanian) and late Permian (Lopingian) terrestrial tetrapod biodiversity. This clade represents an early evolution of sizes over a ton, playing a fundamental role in the structure of middle and late Permian biodiversity and ecosystems. Despite their important ecological role and relative abundance around the world, our general knowledge of the biology of these extinct tetrapods is still quite limited. In this contribution we provide a possiblein vivoreconstruction of the largest individual of the speciesScutosaurus karpinskiiand a volumetric body mass estimate for the taxon, considering that body size is one of the most important biological aspects of organisms. The body mass ofScutosauruswas calculated using a 3D photogrammetric model of the complete mounted skeleton PIN 2005/1537 from the Sokolki locality, Arkhangelsk Region, Russia, on exhibit at the Borissiak Paleontological Institute, Russian Academy of Sciences (Moscow). By applying three different densities for living tissues of 0.99, 1, and 1.15 kg/1,000 cm3to reconstructed “slim,” “average” and “fat” 3D models we obtain average body masses, respectively, of 1,060, 1,160, and 1,330 kg, with a total range varying from a minimum of one ton to a maximum of 1.46 tons. Choosing the average model as the most plausible reconstruction and close to the natural condition, we consider a body mass estimate of 1,160 kg as the most robust value forScutosaurus, a value compatible with that of a large terrestrial adult black rhino and domestic cow. This contribution demonstrates that barrel-shaped herbivores, subsisting on a high-fiber diet and with a body mass exceeding a ton, had already evolved in the upper Palaeozoic among parareptiles, shedding new light on the structure of the first modern terrestrial ecosystems.
Highlights
Pareiasaurs comprise a monophyletic group of herbivorous parareptiles, which lived during the middle and the late Permian (Boonstra, 1969; Lee, 1993, 1994, 1997a,b) comprising at least 22 species (Liu and Bever, 2018; Van den Brandt, 2020; Van den Brandt et al, 2020), were relatively abundant and had a global distribution during the Permian period, forming an important component of middle (Capitanian) and late Permian (Lopingian) terrestrial tetrapod biodiversity
Pareiasaurs had a global distribution and have been described from several countries with the majority of species found in southern Africa, Russia, and China, and a few species from Niger, Morocco, Brazil, Scotland and Germany
Relatively little is known about the palaeobiology of middle and late Permian species and how they achieved global distribution
Summary
Pareiasaurs comprise a monophyletic group of herbivorous parareptiles, which lived during the middle and the late Permian (Boonstra, 1969; Lee, 1993, 1994, 1997a,b) comprising at least 22 species (Liu and Bever, 2018; Van den Brandt, 2020; Van den Brandt et al, 2020), were relatively abundant and had a global distribution during the Permian period, forming an important component of middle (Capitanian) and late Permian (Lopingian) terrestrial tetrapod biodiversity They represent an early evolution of sizes over a ton and made up an important component of middle and late Permian biodiversity and ecosystems (Lee, 1997a; Day, 2013; Day et al, 2015, 2018). All members possess labiolingually flattened (leaf-shaped) teeth specialized for herbivory (Lee, 1993, 1994, 1997a,b) and dermal body ossification (osteoderms or scutes) distributed in different patterns on different species (Boonstra, 1934a; Lee, 1994, 1997a; Scheyer and Sander, 2009; Boyarinova et al, 2019)
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