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A microsaur from the Mississippian of illinois and a standard format for morphological characters

Published online by Cambridge University Press:  14 July 2015

R. Eric Lombard
Affiliation:
Department of Organismal Biology and Anatomy, University of Chicago, 1027 E. 57th St., Chicago, IL 60637
John R. Bolt
Affiliation:
Department of Geology, Field Museum of Natural History, Roosevelt Road at Lake Shore Drive, Chicago, IL 60605

Abstract

The oldest known microsaur is preserved in a nodule from the Kinkaid Formation (Mississippian; Elvirian) collected near Goreville, Illinois. At least eight individuals are represented: three by partial skulls plus vertebral column segments with associated limb elements, and five by postcrania only. Skulls are crushed, incomplete, and exposed mainly in palatal view. Palatal bones are denticulate and the palatine has in addition a single large tooth. The basipterygoid process is laterally directed and the basipterygoid joint is open. The atlas carries large articulating facets for proatlantes, a pair of which are identifiable in one specimen. These features have not been found previously in a microsaur. All vertebral segments are dominated by a biconcave pleurocentrum; sutures between the pleurocentrum and neural arch are visible in presacral vertebrae. Distinctive microsaurian intercentra occur between all presacral pleurocentra. Their presence reinforces the hypothesis that microsaur intercentra are homologous with those of other early tetrapods. Caudal vertebrae retain separate haemal arches and some have ribs.

Observed microsaur synapomorphies include: atlas with large median odontoid; atlas with concave lateral facets for occipital condyle; paired occipital condyles that are broad and concave; and thin, straplike intercentra. No observed features support a sister-group relationship with any other microsaur species, or placement within any higher level microsaur group. Because significant portions of the skeleton are missing or inaccessible, the Goreville microsaur is not formally named. A standardized, hierarchical format for skeletal characters is introduced that facilitates data sharing and comparison and fosters rapid archiving and retrieval.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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References

Carroll, R. L. 1991. Batropetes from the lower Permian of Europe—a microsaur, not a reptile. Journal of Vertebrate Paleontology, 11:229242.CrossRefGoogle Scholar
Carroll, R. L., and Chorn, J. 1995. Vertebral development in the oldest microsaur and the problem of “lepospondyl” relationships. Journal of Vertebrate Paleontology 15(1):3756.CrossRefGoogle Scholar
Carroll, R. L., and Gaskill, P. 1978. The order Microsauria. Memoirs of the American Philosophical Society, 126:1211.Google Scholar
Carroll, R. L., Bybee, P., and Tidwell, W. D. 1991. The oldest microsaur (Amphibia). Journal of Paleontology, 65:314322.CrossRefGoogle Scholar
Carroll, R. L., Bossy, K. A., Milner, A. C., Andrews, S. M., and Wellstead, C. F. 1998. LEPOSPONDYLI. Part I, Encyclopedia of Paleoherpetology. Ed. Wellnhofer, P.Verlag. Dr. Friedrich Pfeil, München, 216 p.Google Scholar
Clack, J. A., Lombard, R. E., and Bolt, J. R. 1995. The Paleozoic Tetrapod Project: An interactive World Wide Web site for systematic data. Journal of Vertebrate Paleontology, 15(Supplement: 41A).Google Scholar
Harland, W. B., Armstrong, R. L., Cox, A. V., Craig, L. E., Smith, A. G., and Smith, D. G. 1990. A Geologic Time Scale 1989. Cambridge University Press, Cambridge, New York, 263 p.Google Scholar
Hennig, W. 1966. Phylogenetic Systematics. University of Illinois Press, Urbana and London, 263 p.Google Scholar
Schultze, H.-P., and Bolt, J. R. 1996. The lungfish Tranodis and the tetrapod fauna from the Upper Mississippian of North America. Special Papers in Paleontology, 52:3154.Google Scholar
Schultze, H.-P., and Foreman, B. 1981. A new gymnarthrid microsaur from the Lower Permian of Kansas with a review of the tuditanid microsaurs (Amphibia). Occasional Paper of the Museum of Natural History, University of Kansas, 91:125.Google Scholar
Sumida, S. S. 1990. Vertebral morphology, alternation of neural spine height, and structure in Permo-Carboniferous tetrapods, and a reappraisal of primitive modes of terrestrial locomotion. University of California Publications in Zoology, 122:1129.Google Scholar