Getting a grip on the evolution of grasping in musteloid carnivorans: a three‐dimensional analysis of forelimb shape

Getting a grip on the evolution of grasping in musteloid carnivorans: a three‐dimensional analysis of forelimb shape

The ability to grasp and manipulate is often considered a hallmark of hominins and associated with the evolution of their bipedal locomotion and tool use. Yet, many other mammals use their forelimbs to grasp and manipulate objects. Previous investigations have suggested that grasping may be derived...

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Bibliographic Details
Published in:Journal of evolutionary biology Vol. 26; no. 7; pp. 1521 - 1535
Main Authors: Fabre, A.‐C., Cornette, R., Slater, G., Argot, C., Peigné, S., Goswami, A., Pouydebat, E.
Format: Journal Article
Language:English
Published: Switzerland Blackwell Publishing Ltd 01-07-2013
Wiley
Subjects:
Adaptation, Physiological
Animal behavior
Animals
Biodiversity and Ecology
Biological Evolution
Carnivory - physiology
ecomorphology
Environmental Sciences
Evolutionary biology
Forelimb - anatomy & histology
Forelimb - physiology
geometric morphometrics
grasping
Hand Strength
Locomotion
Mammals
Mustelidae - anatomy & histology
Mustelidae - physiology
musteloids
Radius - anatomy & histology
Ulna - anatomy & histology
Ulna - physiology
grasping
ecomorphology
musteloids
geometric morphometrics
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Summary:The ability to grasp and manipulate is often considered a hallmark of hominins and associated with the evolution of their bipedal locomotion and tool use. Yet, many other mammals use their forelimbs to grasp and manipulate objects. Previous investigations have suggested that grasping may be derived from digging behaviour, arboreal locomotion or hunting behaviour. Here, we test the arboreal origin of grasping and investigate whether an arboreal lifestyle could confer a greater grasping ability in musteloid carnivorans. Moreover, we investigate the morphological adaptations related to grasping and the differences between arboreal species with different grasping abilities. We predict that if grasping is derived from an arboreal lifestyle, then the anatomical specializations of the forelimb for arboreality must be similar to those involved in grasping. We further predict that arboreal species with a well‐developed manipulation ability will have articulations that facilitate radio‐ulnar rotation. We use ancestral character state reconstructions of lifestyle and grasping ability to understand the evolution of both traits. Finally, we use a surface sliding semi‐landmark approach capable of quantifying the articulations in their full complexity. Our results largely confirm our predictions, demonstrating that musteloids with greater grasping skills differ markedly from others in the shape of their forelimb bones. These analyses further suggest that the evolution of an arboreal lifestyle likely preceded the development of enhanced grasping ability.
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ISSN:1010-061X
1420-9101
DOI:10.1111/jeb.12161