Cotylorhynchus
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Cotylorhynchus Temporal range: Kungurian, 279.5–272 Ma |
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| Mounted skeleton of C. romeri | |
| Scientific classification | |
| Kingdom: | Animalia |
| Phylum: | Chordata |
| Clade: | †Caseasauria |
| Family: | †Caseidae |
| Genus: |
†Cotylorhynchus Stovall, 1937 |
| Type species | |
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†Cotylorhynchus romeri Stovall, 1937 |
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| Species | |
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Cotylorhynchus was a very large synapsid that lived in the southern part of what is now North America during the Early Permian period. It is the best known member of the synapsid clade Caseidae, usually considered the largest terrestrial vertebrates of the Early Permian, though they were possibly aquatic.
Cotylorhynchus was a heavily built animal with a disproportionately small head and a huge barrel-shaped body. Adults of the species C. romeri were about 3 m (9.8 ft) while those of the younger C. hancocki were around 20-25% larger in linear measurements, making it one of the largest synapsids of the early Permian.
Their skulls are distinctive in the presence of large temporal openings and very large nostril openings, which could have been utilized for better breathing or may have housed some sort of sensory or moisture conserving organ. Also they featured large pineal openings and a snout or upper jaw that overhangs the row of teeth to form a projecting rostrum. Rounded deep pits and possibly large depressions were present on the outer surface of the skull. Their teeth were very similar to those of iguanas with posterior marginal teeth that bore a longitudinal row of cusps.
Their skeletal features included a massive scapulocoracoid, humeri with large flared ends, stout forearm bones and broad, robust hands that had large claws. Certain features of their hands indicate that they were paddle-like in shape and structure, being used to swim in a manner much similar to that of modern turtles.
Their digits were believed to have a considerable range of motion and large retractor processes on the ventral surfaces of the unguals allowed them to flex their claws with powerful motions. Also, the articulatory surfaces of their phalanges were oblique to the bone's long axis rather than perpendicular to it. This allowed for much more surface area for the flexor muscles.
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