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Article: A ‘giant’ purgatoriid (Plesiadapiformes) from the Paleocene of Montana, USA: mosaic evolution in the earliest primates

Publication: Palaeontology
Volume: 58
Part: 2
Publication Date: March 2015
Page(s): 277 291
Author(s): Richard C. Fox, Craig S. Scott and Gregory A. Buckley
Addition Information

How to Cite

FOX, R.C., SCOTT, C.S., BUCKLEY, G.A. 2015. A ‘giant’ purgatoriid (Plesiadapiformes) from the Paleocene of Montana, USA: mosaic evolution in the earliest primates. Palaeontology 58, 2, 277–291.

Author Information

  • Richard C. Fox - Laboratory for Vertebrate Paleontology, Department of Biological Sciences, University of Alberta, Edmonton, Alberta, Canada (email: richard.fox@ualberta.ca)
  • Craig S. Scott - Royal Tyrrell Museum of Palaeontology, Drumheller, Alberta, Canada (email: craig.scott@gov.ab.ca)
  • Gregory A. Buckley - Lebanon Valley College, Annville, Pennsylvania, USA (email: buckley@lvc.edu)

Publication History

  • Issue published online: 5 MAR 2015
  • Article first published online: 1 DEC 2014
  • Manuscript Accepted: 5 NOV 2014
  • Manuscript Received: 10 AUG 2014

Funded By

Natural Science and Engineering Research Council of Canada (NSERC)

Online Version Hosted By

Wiley Online Library (Free Access)
Get Article: Wiley Online Library [Free Access]

Abstract

Ursolestes perpetior gen. et sp. nov. is a large purgatoriid plesiadapiform primate from the middle/late Puercan (earliest Paleocene) Simpson Quarry, Montana, USA. It differs from Purgatorius Van Valen and Sloan, 1965, the only other known purgatoriid and the oldest discovered primate, in its substantially larger body size as inferred from the dimensions of the known parts of its dentition, while resembling Purgatorius in possessing a large lower canine, unreduced p1, and in the upper molars, a protocone twist and weakly developed postprotocone fold; moreover, the m3 of U. perpetior possesses an expanded, plesiadapiform-like posterior lobe of the talonid that supports the hypoconulid. The large lower canine and the greater development of trenchant molar crests suggest that U. perpetior was more insectivorous, differing appreciably from the omnivorous niche long hypothesized for Purgatorius and purportedly marking the insectivore–primate transition. Hence, U. perpetior adds significant new knowledge regarding the breadth of the adaptive zone occupied by purgatoriids in their position at the very beginnings of primate evolution.

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