Finite element analysis of ursid cranial mechanics and the prediction of feeding behaviour in the extinct giant 'Agriotherium africanum'

Historically, predicting ursid feeding behaviour on the basis of morphometric and mechanical analyses has proven difficult. Here, we apply three-dimensional finite element analysis to models representing five extant and one fossil species of bear. The ability to generate high bite forces, and for th...

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Bibliographic Details
Main Authors: Oldfield, C C, McHenry, C R, Clausen, P D, Chamoli, U, Parr, W C H, Stynder, D D, Wroe, Stephen, School of Environmental and Rural Science, orcid:0000-0002-6365-5915
Format: Article in Journal/Newspaper
Language:English
Published: Wiley-Blackwell Publishing Ltd 2012
Subjects:
Animal Structure and Function
Palaeontology (incl Palynology)
polar bear
Online Access:https://hdl.handle.net/1959.11/14727
Description
Summary:Historically, predicting ursid feeding behaviour on the basis of morphometric and mechanical analyses has proven difficult. Here, we apply three-dimensional finite element analysis to models representing five extant and one fossil species of bear. The ability to generate high bite forces, and for the skull to sustain them, is present in both the giant panda and the gigantic extinct 'Agriotherium africanum'. Bite forces for 'A. africanum' are the highest predicted for any mammalian carnivore. Our findings do not resolve whether 'A. africanum' was more likely a predator on, or scavenger of, large terrestrial vertebrates, but show that its skull was well adapted to resist the forces generated in either activity. The possibility that 'A. africanum' was adapted to process tough vegetation is discounted. Results suggest that the polar bear is less well-adapted to dispatch large prey than all but one of the five other species considered.

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