Limb movements and locomotor function in the California sea lion (Zalophus californianus)

Arthur Wm. English

Department of Anatomy, University of Illinois at the Medical Center, Chicago, Illinois, U.S.A.

*Department of Anatomy, Emory University, Atlanta, Georgia 30322, U.S.A.Search for more papers by this author
First published: March 1976
Cited by: 32

Abstract

The peculiar amphibious mode of life of California sea lions suggests that their locomotor systems may contain adaptations both to life on land and in the water. Previous studies of their locomotor behaviour have been either superficial or based on inferences which were derived from limb structure. Limb movements associated with locomotor behaviour in California sea lions are described on the basis of frame‐by‐frame analysis of slow motion cinematography of typical aquatic and terrestrial locomotor sequences. Results are compared to reports of terrestrial and aquatic locomotor behaviour in fissiped carnivores, whose locomotor behaviour is presumed to reflect the framework from which the locomotor behaviour of sea lions was derived. The major distinction between sea lions and fissipeds in terms of aquatic locomotor behaviour involves the use of the forelimb in sea lions. Propulsive thrust is generated by medial rotation, adduction and retraction of the forelimbs in sea lions, in contrast to nearly pure limb retraction in fissipeds. The major features which distinguish terrestrial locomotor behaviour in sea lions from that of fissipeds are use of the manus as a transverse rather than sagittal propulsive lever and extensive use of posterior axial and head and neck movements rather than hindlimb movements. The biomechanical implications of these movements are used to elucidate their potentially adaptive features.

Number of times cited: 32

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