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Protypotherium Locomotion:
CROFT & ANDERSON

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Abstract
Introduction
Geologic Setting
Material and Methods
Appendicular Morphology
Multivariate Analyses
Discussion
Conclusions
Acknowledgements
References
Appendix

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LOCOMOTION IN THE EXTINCT NOTOUNGULATE PROTYPOTHERIUM

ABSTRACT

This study characterizes the primary locomotor habit of Protypotherium, an interatheriid notoungulate from the early Miocene of Santa Cruz, Argentina. Locomotor habit was assessed both qualitatively (i.e., by noting osteological features correlated with specific locomotor habits in extant mammals) and quantitatively (i.e., by using multivariate analyses to compare limb element lengths, widths, and ratios to those of extant mammals). Because the body mass of Protypotherium has been estimated at 5-10 kg, its locomotor habit was evaluated relative to mammals of similar size and known locomotor habit; the comparative dataset included 39 genera of artiodactyls, carnivorans, caviomorph rodents, hyraxes, and lagomorphs. For each genus, 11 limb bone variables and eight indices (ratios) were measured; these were analyzed using principal components analysis and discriminant function analysis. Qualitative and quantitative analyses indicate that Protypotherium was most likely a generalized terrestrial mammal tending toward cursoriality. Proximal and distal limb elements of Protypotherium mostly resemble those of cursorial mammals in qualitative characters, but intermediate elements are more similar to those of arboreal and semifossorial mammals. Multivariate analyses generally group Protypotherium with arboreal and/or semifossorial mammals, but this is likely a phylogenetic effect, possibly attributable to fossorial habits in ancestral interatheriids and/or notoungulates. The postcranial adaptations of Protypotherium are intermediate between those of more basal interatheriids and the middle Miocene interatheriid Miocochilius. In conjunction with this study, investigations of other interatheriids would permit a detailed analysis of the evolution of locomotor habits within this highly successful clade.

Darin A. Croft. Department of Anatomy, Case Western Reserve University School of Medicine, 10900 Euclid Ave., Cleveland, Ohio 44106-4930, U.S.A.
Leah C. Anderson. Department of Anatomy, Case Western Reserve University School of Medicine, 10900 Euclid Ave., Cleveland, Ohio 44106-4930, U.S.A.

KEY WORDS: locomotion; Mammalia; morphology, functional; Notoungulata; paleoecology; South America

PE Article Number: 11.1.1A
Copyright: Paleontological Society March 2008
Submission: 24 August 2007. Acceptance: 13 December 2007

 

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Protypotherium Locomotion
Plain-Language & Multilingual  Abstracts | Abstract | Introduction | Materials and Methods
Appendicular Morphology | Multivariate Analyses | Discussion | Conclusions
Acknowledgements | References | Appendix

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