Author:
Gomez Kevin Leonel,Pérez-Moreno Agustín,Meso Jorge Gustavo,Bellardini Flavio,Baiano Mattia Antonio,Pol Diego,Garrido Alberto,Kaluza Jonatan,Muci Luciana,Pittman Michael
Abstract
AbstractThe Portezuelo Formation preserves an outstanding record of the upper Turonian – lower Coniacian. Despite the discovery of a significant quantity of sauropod fossil material from the formation, only two species have been formally described to date: Malarguesaurus florenciae and Futalognkosaurus dukei. Here we present new sauropod material mostly composed of non-articulated caudal vertebrae (MCF-PVPH 916 and 917) that belong to two titanosauriforms on the basis of the following features: anterior caudal vertebrae with procoelous-opisthoplatyan articulations, transverse processes that reach the posterior articular face of the centrum and neural spines with a transverse width of around 50% of their anteroposterior length; anterior and middle caudal vertebrae with the neural arch restricted to the anterior half of the centrum; middle caudal centra with circular cross-section. Phylogenetic analysis recovers the new material in close relation to Malarguesaurus within a monophyletic clade at the base of Somphospondyli. This clade shares large pedicel height with a vertical anterior border on the middle caudal vertebrae, a vertical orientation of the neural spines on the distalmost middle caudal vertebrae and proximalmost posterior caudal vertebrae, and subequal relative lengths of the proximal ulnar condylar processes. The specimens presented here are distinct not only from Futalognkosaurus, but also from other indeterminate titanosaurian remains from the same formation. However, there are no significant differences between the specimen MCF-PVPH 917 and Malarguesaurus, but there are differences between the posterior caudal vertebrae of MCF-PVPH 916 and Malarguesaurus, so they could be considered different species. Whilst we err on the side of caution in not naming new taxa here, the two specimens significantly expand what we know about sauropods in the Turonian–Coniacian ecosystems of Patagonia, which will continue to do so as more material is discovered.
Publisher
Springer Science and Business Media LLC
Reference96 articles.
1. Benson RBJ, Campione NE, Carrano MT, Mannion PD, Sullivan C, Upchurch P, et al. Rates of dinosaur body mass evolution indicate 170 million years of sustained ecological innovation on the avian stem lineage. PLOS Biol. 2014;12:e1001853–1001853.
2. Bates KT, Mannion PD, Falkingham PL, Brusatte SL, Hutchinson JR, Otero A et al. Temporal and phylogenetic evolution of the sauropod dinosaur body plan. R Soc Open Sci. 2016;3.
3. Carballido JL, Pol D, Otero A, Cerda IA, Salgado L, Garrido AC, et al. A new giant titanosaur sheds light on body size evolution amongst sauropod dinosaurs. Proc R Soc Lond B Biol Sci. 2017;284:20171219.
4. Hummel J, Clauss M. Sauropod feeding and digestive physiology. In: Klein N, Remes K, Gee CT, Sander PM, editors. Biology of the sauropod dinosaurs - understanding the life of giants. Bloomington: Indiana University Press; 2011. pp. 11–33.
5. Carballido JL, Martin Sander P. Postcranial axial skeleton of Europasaurus holgeri (Dinosauria, Sauropoda) from the Upper Jurassic of Germany: implications for sauropod ontogeny and phylogenetic relationships of basal Macronaria. J Syst Palaeontol. 2014;12:335–87.