Allometry and adaptation in the long bones of a digging group of rodents (Ctenomyinae)

Previous studies of rodent appendicular morphology suggest that digging activity induces changes in long bones, producing shorter and thicker structures. Subsequent hypotheses have been tested in Ctenomyinae, a group of octodontid rodents globally adapted to subterranean life. Slopes of the equation...

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Bibliographic Details
Published inZoological journal of the Linnean Society Vol. 107; no. 2; pp. 107 - 115
Main Authors Casinos, A., Quintana, C., Viladiu, C.
Format Journal Article
LanguageEnglish
Published Elsevier Science Ltd 01.02.1993
Subjects
Mammalia - Rodentia - fossil - morphametrics
Mammalia - Rodentia - fossil - morphametrics
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Summary:Previous studies of rodent appendicular morphology suggest that digging activity induces changes in long bones, producing shorter and thicker structures. Subsequent hypotheses have been tested in Ctenomyinae, a group of octodontid rodents globally adapted to subterranean life. Slopes of the equations calculated for extant animals and their corresponding confidence intervals agree with expectations in almost all cases. Results on fossil taxa are less clear, but suggest a morphocline from a plesiomorphic condition of the appendicular skeleton, present in the fossil genera, departing little from that of the current epigeous rodents, to a more derived long bone design in the species of the living genus Ctenomys, in accordance with their digging activity.
ISSN:0024-4082
1096-3642
DOI:10.1006/zjls.1993.1007