Biology:Amphicotylus

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Short description: Extinct genus of reptiles

Amphicotylus
Temporal range: Late Jurassic, Tithonian
Goniopholis skull.JPG
Skull (OMNH 2392) of Amphicotylus stovalli from Oklahoma
Scientific classification e
Missing taxonomy template (fix): Archosauria/Reptilia
Clade: Pseudosuchia
Clade: Crocodylomorpha
Clade: Crocodyliformes
Family: Goniopholididae
Genus: Amphicotylus
Cope, 1878
Type species
Amphicotylus lucasii
Cope, 1878
Species[2]
  • A. felix (Marsh, 1877)
  • A. gilmorei? (Holland, 1905)
  • A. lucasii Cope, 1878
  • A. stovalli (Mook, 1964)
  • A. milesi Yoshida et al., 2021[1]

Amphicotylus is an extinct genus of goniopholidid mesoeucrocodylian from the Tithonian of Colorado, Wyoming, and Oklahoma.[3][4] It was described in 1878.[5]

Discovery and species

Amphicotylus was first described by Edward Drinker Cope in 1878 based on dorsal and lumbar vertebrae, ribs and osteoderms. Based on these remains, found in the same locality as Camarasaurus supremus, Cope determined the animal to have been smaller in size than the extant American Alligator and named the species A. lucasii after Superintendent Lucas who initially made the discovery.[5] Cope also collected skull material from the same locality and level, however did not refer it to Amphicotylus. The cranial material was examined by Charles C. Mook in 1942 who referred it to the type species not only on the basis of its locality, but also its matching size, general morphological characters and the absence of any other crocodilian remains from the area.[6] Mook furthermore uses this skull to establish a provisional neotype to account for the fragmentary nature of the original material described by Cope.

Mounted skeleton of Amphicotylus milesi at the Gunma Museum of Natural History

In the 1930s the Works Progress Administration discovered further remains in Oklahoma which were initially investigated by J. W. Stovall, noting similarities to Amphicotylus gilmorei. The remains were officially described by Mook in 1964 as a species of Goniopholis, Goniopholis stovalli. In 2012 Eric Randall Allen argued that the goniopholidids found in the Morrison Formation differ significantly from their European counterparts in the anatomy of the palate, with the choanae fully splitting the palatines unlike in the taxa from the UK and mainland Europe. Consequently, Allen reasons that Goniopholis should exclusively refer to European forms while Amphicotylus should serve as a constituent for Morrison goniopholidids previously referred to Goniopholis, such as "Goniopholis" felix. Furthermore, it is noted that there are no significant differences between A. lucasii and the only known material of A. gilmorei, with the only notable morphological character being artificially created by breakage, rendering it a junior synonym of the genus' type species.[7]

Excavations in the East Camarasaurus Quarry, Wyoming, in 1993 yielded the largest and most complete goniopholidid skeleton found to date. Since 1996 the fossil has been exhibited and stored in the Gunma Museum of Natural History in Japan [8] before it was described by Yoshida et al. in 2021 as Amphicotylus milesi, in honor of Clifford Miles for his contribution to the excavation and museum curation.[1]

Description

Amphicotylus had a roughly triangular, platyrostral skull similar in shape to that of modern crocodilians. They differ from European goniopholidids in several morphological characters, most notably the anatomy of the palate. In members of Amphicotylus, the palatines are completely separated from one another by the choana while in Goniopholis the palatines make broad contact prior to the choana. This trait is shared by Eutretauranosuchus.[7] Amphicotylus milesi is the largest species with a skull length of 43 cm.[1]

Crocodilian respiratory system in Alligator sinensis

The anatomy of the palate and hyoid in A. milesi show similar adaptations to extant crocodilians, with the anterior portion of the elongated choana possibly being covered in soft tissue similar to the state observed in embryos of American alligators. Based on the morphology of the hyoid apparatus and its muscle attachments, A. milesi would have been able to raise the ventral fold of the gullar valve, separating narial and oral passages. This adaptation for semi-aquatic life would have allowed Amphicotylus and other Neosuchians to completely cut out the oral cavity from respiration, giving it the ability to open its mouth underwater while continuing to breathe as long as the nares are above the surface. This pushes the development of a crocodilian-like respiratory system to the beginnings of Neosuchian evolution in the Jurassic period.[1]

Phylogeny

Studies have repeatedly found Amphicotylus to be nested deep within Goniopholididae, typically located just outside the clade that contains most European members of the group.[1][3][4] Denazinosaurus, a late Cretaceous member of Goniopholididae, was recovered as a sister taxon to Amphicotylus by Puértolas-Pascual et al. 2015, but as part of the "European clade" by Yoshida et al. 2021. Yoshida et al. also include Sunosuchus thailandicus without following the revisions by Martin et al. 2013 that found it to be a distinct genus of pholidosaurid, Chalawan thailandicus. The phylogenetic tree recovered by Yoshida et al. is depicted below.

Goniopholididae

Calsoyasuchus

Eutretauranosuchus

Sunosuchus junggarensis

Sunosuchus miaoi

Sunosuchus thailandicus

Siamosuchus phuphokensis

Siamosuchus

Amphicotylus lucasii

Amphicotylus stovalli

Amphicotylus milesi

Nannosuchus

Goniopholis baryglyphaeus

Goniopholis simus

Goniopholis kiplingi

Hulke goniopholidid

Dolloa goniopholidid

Anteophthalmosuchus hooleyi

Denazinosuchus

References

  1. 1.0 1.1 1.2 1.3 1.4 Yoshida, J.; Hori, A.; Kobayashi, Y.; Ryan, M.J.; Takakuwa, Y.; Hasegawa, Y. (8 December 2021). "A new goniopholidid from the Upper Jurassic Morrison Formation, USA: novel insight into aquatic adaptation toward modern crocodylians". The Royal Society 8 (12). doi:10.1098/rsos.210320. PMID 34909210. 
  2. Pritchard, A. C.; Turner, A. H.; Allen, E. R.; Norell, M. A. (2013). "Osteology of a North American Goniopholidid (Eutretauranosuchus delfsi) and Palate Evolution in Neosuchia". American Museum Novitates (3783): 1–56. doi:10.1206/3783.2. https://zenodo.org/record/5364787. 
  3. 3.0 3.1 Marco Brandalise de Andrade; Richard Edmonds; Michael J. Benton; Remmert Schouten (2011). "A new Berriasian species of Goniopholis (Mesoeucrocodylia, Neosuchia) from England, and a review of the genus". Zoological Journal of the Linnean Society 163 (s1): S66–S108. doi:10.1111/j.1096-3642.2011.00709.x. 
  4. 4.0 4.1 Puértolas-Pascual, E.; Canudo, J.I.; Sender, L.M. (2015). "New material from a huge specimen of Anteophthalmosuchus cf. escuchae (Goniopholididae) from the Albian of Andorra (Teruel, Spain): Phylogenetic implications". Journal of Iberian Geology 41 (1): 41–56. doi:10.5209/rev_JIGE.2015.v41.n1.48654. 
  5. 5.0 5.1 E. D. Cope. 1878. Descriptions of new extinct Vertebrata from the Upper Tertiary and Dakota Formations. 'Bulletin of the United States Geological and Geographical Survey of the Territories, 4(2):379-396
  6. Mook, C.C. (2 April 1942). "Skull Characters of Amphicotylus lucasii Cope". American Museum Novitates (1165). 
  7. 7.0 7.1 Allen, E.R. (2012). "Analysis of North American goniopholidid crocodyliforms in a phylogenetic context". M.C. thesis, University of Iowa. 
  8. "水中適応では最古...ワニ祖先の新種 福島県立博物館のグループ". 9 December 2021. https://www.minyu-net.com/news/news/FM20211209-672260.php. 

Wikidata ☰ Q4748233 entry



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