Zanno, Lindsay E.Drymala, SusanNesbitt, Sterling J.Schneider, Vincent P.2019-01-282019-01-282015-03-192045-23229276http://hdl.handle.net/10919/87054Triassic predatory guild evolution reflects a period of ecological flux spurred by the catastrophic end-Permian mass extinction and terminating with the global ecological dominance of dinosaurs in the early Jurassic. In responding to this dynamic ecospace, terrestrial predator diversity attained new levels, prompting unique trophic webs with a seeming overabundance of carnivorous taxa and the evolution of entirely new predatory clades. Key among these was Crocodylomorpha, the largest living reptiles and only one of two archosaurian lineages that survive to the present day. In contrast to their existing role as top, semi-aquatic predators, the earliest crocodylomorphs were generally small-bodied, terrestrial faunivores, occupying subsidiary (meso) predator roles. Here we describe Carnufex carolinensis a new, unexpectedly large-bodied taxon with a slender and ornamented skull from the Carnian Pekin Formation (similar to 231 Ma), representing one of the oldest and earliest diverging crocodylomorphs described to date. Carnufex bridges a problematic gap in the early evolution of pseudosuchians by spanning key transitions in bauplan evolution and body mass near the origin of Crocodylomorpha. With a skull length of >50 cm, the new taxon documents a rare instance of crocodylomorphs ascending to top-tier predator guilds in the equatorial regions of Pangea prior to the dominance of dinosaurs.6application/pdfen-USCreative Commons Attribution 4.0 Internationalearly evolutionherbivorous dinosaursarchosaursradiationorigindrivenbiogeographyanatomychinaEarly crocodylomorph increases top tier predator diversity during rise of dinosaursArticle - RefereedScientific Reportshttps://doi.org/10.1038/srep09276525787306