Endocranial Volume of Mid-Late Eocene Archaeocetes (Order: Cetacea) Revealed by Computed Tomography: Implications for Cetacean Brain Evolution

Authors

Lori Marino, Emory UniversityFollow
Mark D. Uhen, Cranbook Institute of Science
Bruno Frohlich, The Smithsonian Institution
John Matthew Aldag, Emory University
Caroline Blane, University of Michigan
David Boshaka, University of Michigan
Frank C. Whitmore Jr., Smithsonian Institution

Document Type

Article

Publication Date

6-2000

Abstract

The large brain of modern cetaceans has engendered much hypothesizing about both the intelligence of cetaceans (dolphins, whales, and porpoises) and the factors related to the evolution of such large brains. Despite much interest in cetacean brain evolution, until recently there have been few estimates of brain mass and/or brain–body weight ratios in fossil cetaceans. In the present study, computed tomography (CT) was used to visualize and estimate endocranial volume, as well as to calculate level of encephalization, for two fully aquatic mid-late Eocene archaeocete species, Dorudon atrox and Zygorhiza kochii. The specific objective was to address more accurately and more conclusively the question of whether relative brain size in fully aquatic archaeocetes was greater than that of their hypothesized sister taxon Mesonychia. The findings suggest that there was no increase in encephalization between Mesonychia and these archaeocete species.

Recommended Citation

Marino, L., Uhen, M. D., Frohlich, B., Aldag, J. M., Blane, C., Bohaska, D., & Whitmore, F. C. (2000). Endocranial volume of mid-late Eocene archaeocetes (Order: Cetacea) revealed by computed tomography: implications for cetacean brain evolution. Journal of Mammalian Evolution, 7(2), 81-94.