[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index][Subject Index][Author Index]

[dinosaur] Poposaurus axial skeleton (free pdf)

Ben Creisler

A new paper in open access:

Candice M. Stefanic & Sterling J. Nesbitt (2018)
The axial skeleton of Poposaurus langstoni (Pseudosuchia: Poposauroidea) and its implications for accessory intervertebral articulation evolution in pseudosuchian archosaurs.Â
PeerJ 6:e4235
doi: https://doi.org/10.7717/peerj.4235

Dinosaurs and their close relatives grew to sizes larger than any other terrestrial animal in the history of life on Earth, and many enormous dinosaurs (e.g., Diplodocus, Spinosaurus, Tyrannosaurus) have accessory intervertebral articulations that have been suggested to support these large body sizes. Some pseudosuchian archosaurs have been reported to have these articulations as well, but few have been characterized in these taxa because of a lower abundance of complete, three-dimensional pseudosuchian vertebral material in relation to dinosaurs. We describe the axial column of the large (â4â5 m) poposauroid pseudosuchian Poposaurus langstoni from the Upper Triassic of Texas (TMM Locality 31025 of the Otis Chalk localities; Dockum Group, Howard County, TX, USA). P. langstoni was originally named from pelvic girdle elements and vertebrae; here we describe newly discovered and prepared presacral vertebrae and a presacral rib from the original excavation of the holotype in the 1940s. The well-preserved vertebrae have well-defined vertebral laminae and clear hypospheneâhypantrum intervertebral articulations, character states mentioned in pseudosuchians but rarely described. The new material demonstrates variation present in the hypospheneâhypantrum articulation through the vertebral column. We compared these morphologies to other pseudosuchians with and without the hypospheneâhypantrum articulation. Based on these careful comparisons, we provide an explicit definition for the hypospheneâhypantrum articulation applicable across Archosauria. Within Pseudosuchia, we find the hypospheneâhypantrum appeared independently in the clade at least twice, but we also see the loss of these structures in clades that had them ancestrally. Furthermore, we found the presence of large body sizes (femoral lengths >â300 mm) and the presence of the hypospheneâhypantrum is correlated in most non-crocodylomorph pseudosuchian archosaurs with a few exceptions. This result suggests that the presence of the hypospheneâhypantrum is controlled by the increases and decreases in body size and not strictly inheritance.

Virus-free. www.avg.com