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First published online November 19, 2007
Journal of Experimental Biology 210, 4179-4197 (2007)
Published by The Company of Biologists 2007
doi: 10.1242/jeb.006163

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Relationships among running performance, aerobic physiology and organ mass in male Mongolian gerbils

Mark A. Chappell^*, Theodore Garland, Jr, Geoff F. Robertson and Wendy Saltzman

Department of Biology, University of California, Riverside, CA 92521, USA

^* Author for correspondence (e-mail: chappell{at}ucr.edu)

Accepted 17 September 2007

Relationships among individual variation in exercise capacity, resting metabolism and morphology may offer insights into the mechanistic basis of whole-animal performance, including possible performance trade-offs (e.g. burst versus sustainable exercise, resting `maintenance' costs versus maximal power output). Although there have been several studies of correlations between performance, metabolism and morphology in fish, birds and squamate reptiles, relatively little work has been done with mammals. We measured several aspects of forced and voluntary locomotor performance in Mongolian gerbils (Meriones unguiculatus), along with minimal and maximal aerobic metabolic rates and organ sizes (mainly visceral organs and the musculoskeletal system). Maximal sprint and aerobic speeds and maximal oxygen consumption (_O2max) during forced exercise were similar to those of other small rodents; basal metabolic rate was below allometric predictions. At all tested speeds, voluntary running had a lower energy cost than forced treadmill running, due primarily to a higher zero-speed intercept of the speed-versus-power (oxygen consumption) relationship during forced running. Incremental costs of transport (slopes of speed-versus-power regressions) were slightly higher during voluntary exercise. Few of the correlations among performance variables, or between performance and organ morphology, were statistically significant. These results are consistent with many other studies that found weak correlations between organismal performance (e.g. _O2max) and putatively relevant subordinate traits, thus supporting the idea that some components within a functional system may exhibit excess capacity at various points in the evolutionary history of a population, while others constitute limiting factors.

Key words: energetics, individual variation, locomotion, maximum oxygen consumption, Meriones unguiculatus, metabolic rate, rodent, symmorphosis