Estratégias fisiológicas e de história de vida de um grande fóssil mamífero num ambiente de limitados recursos

Physiological and life history strategies of a fossil large mammal in a resource-limited environment

Meike Köhler 1,2 and Salvador Moyà-Solà 1

- Author Affiliations

Catalan Institute for Research and Advanced Studies, Catalan Institute of Paleontology, Autonomous University of Barcelona, 08193 Bellaterra, Spain

↵1M.K. and S.M.-S. contributed equally to this work.

Edited by Paul E. Olsen, Columbia University, Palisades, NY, and approved October 2, 2009 (received for review January 2, 2009)

Abstract

Because of their physiological and life history characteristics, mammals exploit adaptive zones unavailable to ectothermic reptiles. Yet, they perform best in energy-rich environments because their high and constant growth rates and their sustained levels of resting metabolism require continuous resource supply. In resource-limited ecosystems such as islands, therefore, reptiles frequently displace mammals because their slow and flexible growth rates and low metabolic rates permit them to operate effectively with low energy flow. An apparent contradiction of this general principle is the long-term persistence of certain fossil large mammals on energy-poor Mediterranean islands. The purpose of the present study is to uncover the developmental and physiological strategies that allowed fossil large mammals to cope with the low levels of resource supply that characterize insular ecosystems. Long-bone histology of Myotragus, a Plio-Pleistocene bovid from the Balearic Islands, reveals lamellar-zonal tissue throughout the cortex, a trait exclusive to ectothermic reptiles. The bone microstructure indicates that Myotragus grew unlike any other mammal but similar to crocodiles at slow and flexible rates, ceased growth periodically, and attained somatic maturity extremely late by ≈12 years. This developmental pattern denotes that Myotragus, much like extant reptiles, synchronized its metabolic requirements with fluctuating resource levels. Our results suggest that developmental and physiological plasticity was crucial to the survival of this and, perhaps, other large mammals on resource-limited Mediterranean Islands, yet it eventually led to their extinction through a major predator, Homo sapiens.

islands artiodactyl paleohistology growth rate metabolism

Footnotes

2To whom correspondenceshould be addressed. E-mail: meike.kohler@icrea.es

Author contributions: M.K. designed research; M.K. performed research; M.K. and S.M.-S. analyzed data; and M.K. wrote the paper.

The authors declare no conflict of interest.

This article is a PNAS Direct Submission.

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