Sinosaurosphargis

Sinosaurosphargis
Temporal range: Middle Triassic, 243 Ma
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Family: Saurosphargidae
Genus: Sinosaurosphargis
Li et al., 2011
Type species
Sinosaurosphargis yunguiensis
Li et al., 2011

Sinosaurosphargis is an extinct genus of a basal marine reptile, saurosphargid, known from the Middle Triassic (Anisian age) Guanling Formation of Yunnan and Guizhou Provinces, southwestern China. It contains a single species, Sinosaurosphargis yunguiensis.[1]

Discovery

Saurosphargis is known from several individuals, all of which were collected from Member II of the Guanling Formation, dating to the Pelsonian substage of the latest Anisian stage of the early Middle Triassic, about 243 million years ago. The holotype IVPP V 17040 and paratype IVPP V 16076 are housed at the Institute of Vertebrate Paleontology and Paleoanthropology in Beijing, and represent a nearly complete articulated skeleton and skull, and a partial disarticulated postcranial skeleton including dorsal vertebra, ribs, with osteoderms and gastral rib fragments, respectively. ZMNH M 8797, an incomplete postcranial skeleton showing a very well preserved right forelimb housed at the Zhejiang Museum of Nature History of Hangzhou, was also referred to Saurosphargis in its original description. The holotype and ZMNH M 8797 were collected at Yangmazhai of Luoping County, Yunnan Province, while the paratype came from Yangjian of Pan County, Guizhou Province.[1] Additional uncatalogued LPV specimen was also referred to S. yunguiensis. These specimens all came from the Lagerstätte discovered during a 2007 geological mapping project with a diverse record of marine life called Luoping Biota, that yielded, apart from Sinosaurosphargis, various invertebrates, fish, basal ichthyosaurs, Atopodentatus, the basal saurosphargid Largocephalosaurus, and several species of eosauropterygian, including both pachypleurosaurs and nothosaurids.[2]

Etymology

Sinosaurosphargis was first described and named by Chun Li, Olivier Rieppel, Xiao-Chun Wu, Li-Jun Zhao and Li-Ting Wang in 2011 and the type species is Sinosaurosphargis yunguiensis. The generic name is derived from Greek sino, meaning "China", sauros, meaning "lizard", and sphargis, the old genus name for the leatherback turtle, in reference to the many similarities Sinosaurosphargis shares with Saurosphargis, a taxon whose holotype was lost and was thus considered a mystery. Like the name of Saurosphargis itself, it also refers to Sinosaurosphargis' dorsal osteoderm "body armor" and broadened ribs forming a closed chest rib basket - traits which are seemingly transitional between turtles and other reptiles. The specific name yunguiensis is derived from the names of the neighboring Yunnan and Guizhou Provinces, where the fossils were found.[1]

Description

Sinosaurosphargis is a basal marine reptile, closely related to Saurosphargis from the Lower Muschelkalk of southwestern Poland and eastern Netherlands. Sinosaurosphargis possesses retracted external nostrils, and shows closed upper temporal fenestrae, and a ventrally open cheek. Its trunk region is short and rounded, and covered by a shield composed of small osteoderms, just like its neck and the proximal portions of all four limbs. Its back vertebrae show elongated, distally expanded transverse projections. The chest ribs are broadened and flat, contacting one another along their length, and forming a closed chest rib basket.[1] Li et al. (2014) found some of these traits to be shared with all saurosphargids, while others are exclusive to Saurosphargis and Sinosaurosphargis. These genera have broader and flatter rib baskets than basal saurosphargids like Largocephalosaurus, and also transverse projections of back vertebrae and proximal portions of chest ribs that are much more robust, being much wider than the spacing between them.[3]

Phylogeny

The following cladogram is simplified after the phylogenetic analysis of Li et al. (2011) and shows the placement of Sinosaurosphargis within Sauria. Ichthyopterygia was removed from the tree, as it caused a less resolved topology. Saurosphargis was coded solely based on the holotype, as the Netherlands material remains unprepared.[1]



Lepidosauromorpha



Testudines

Odontochelys




Proganochelys



Chelydra







Helveticosaurus



Eusaurosphargis




Sauropterygia

Placodontia



Eosauropterygia






Thalattosauriformes


Saurosphargidae

Saurosphargis



Sinosaurosphargis









Li et al. (2014) presented an updated version of the analysis above, showing interrelationships of all known Saurosphargidae species. The removal / inclusion of Ichthyopterygia was found to affect the topology the most - switching the positions of the Eusaurosphargis+Helveticosaurus and Thalattosauriformes clades, and altering the positions of several taxa within Eosauropterygia, which are not shown.[3]

Sauria 

Archosauromorpha



Lepidosauromorpha



Testudines




Ichthyopterygia




Thalattosauriformes





Helveticosaurus zollingeri



Eusaurosphargis dalsassoi




 Sauropterygia 

Placodontia



Eosauropterygia



 Saurosphargidae 


Largocephalosaurus polycarpon



Largocephalosaurus qianensis





Saurosphargis volzi



Sinosaurosphargis yunguiensis









References

  1. 1 2 3 4 5 Li, Chun; Olivier Rieppel; Xiao-Chun Wu; Li-Jun Zhao; Li-Ting Wang (2011). "A new Triassic marine reptile from southwestern China". Journal of Vertebrate Paleontology 31 (2): 303–312. doi:10.1080/02724634.2011.550368.
  2. Jun Liu, Shi-xue Hu, Olivier Rieppel, Da-yong Jiang, Michael J. Benton, Neil P. Kelley, Jonathan C. Aitchison, Chang-yong Zhou, Wen Wen, Jin-yuan Huang, Tao Xie and Tao Lv (2014). "A gigantic nothosaur (Reptilia: Sauropterygia) from the Middle Triassic of SW China and its implication for the Triassic biotic recovery". Scientific Reports 4: Article number 7142. doi:10.1038/srep07142.
  3. 1 2 Chun Li, Da-Yong Jiang, Long Cheng, Xiao-Chun Wu and Olivier Rieppel (2014). "A new species of Largocephalosaurus (Diapsida: Saurosphargidae), with implications for the morphological diversity and phylogeny of the group". Geological Magazine 151 (1): 100–120. doi:10.1017/S001675681300023X.
This article is issued from Wikipedia - version of the Wednesday, September 02, 2015. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.