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Fossil Evidence for the Origin of Aquatic Locomotion in Archaeocete Whales

J. G. M. Thewissen, S. T. Hussain and M. Arif
Science
New Series, Vol. 263, No. 5144 (Jan. 14, 1994), pp. 210-212
Stable URL: http://www.jstor.org/stable/2882378
Page Count: 3
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Fossil Evidence for the Origin of Aquatic Locomotion in Archaeocete Whales
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Abstract

Recent members of the order Cetacea (whales, dolphins, and porpoises) move in the water by vertical tail beats and cannot locomote on land. Their hindlimbs are not visible externally and the bones are reduced to one or a few splints that commonly lack joints. However, cetaceans originated from four-legged land mammals that used their limbs for locomotion and were probably apt runners. Because there are no relatively complete limbs for archaic archaeocete cetaceans, it is not known how the transition in locomotory organs from land to water occurred. Recovery of a skeleton of an early fossil cetacean from the Kuldana Formation, Pakistan, documents transitional modes of locomotion, and allows hypotheses concerning swimming in early cetaceans to be tested. The fossil indicates that archaic whales swam by undulating their vertebral column, thus forcing their feet up and down in a way similar to modern otters. Their movements on land probably resembled those of sea lions to some degree, and involved protraction and retraction of the abducted limbs.

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