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Seasonal variation in the resting metabolic rate of male wood mice Apodemus sylvaticus from two contrasting habitats 15 km apart.

Corp, N.; Gorman, M.L.; Speakman, J.R.

Authors

M.L. Gorman

J.R. Speakman



Abstract

Diurnal and nocturnal resting metabolic rates of winter- and summer-acclimatized adult male wood mice Apodemus sylvaticus from two adjacent populations, 15 km apart, were measured. One population lived in deciduous woodland, and experienced a narrower daily range of temperatures than the second population, which inhabited maritime sand-dunes. Ambient temperature and body mass had significant effects on the resting metabolism of mice, excluding winter-acclimatized sand-dune animals where only temperature explained significant amounts of the observed variation. Only in this latter group could a thermoneutral zone be determined, with a lower critical temperature of ca. 25 °C and resting metabolism of 0.155 W. Nocturnal resting metabolic rates were significantly greater than diurnal levels. Winter acclimatization was associated with reductions in thermal conductance and resting metabolism, thus minimizing energy expenditure at rest. Site differences in thermoregulatory strategies were only found in winter, thermal conductances remained similar but mice from the sand-dunes had significantly lower metabolic rates than those from the woodland. Winter acclimatization in wood mice was influenced by factors in addition to photoperiod. Intra-specific and individual variations in resting metabolism, as shown in this study, potentially have a pronounced effect on the daily energy expenditure of a free-living animal.

Citation

Corp, N., Gorman, M., & Speakman, J. (1997). Seasonal variation in the resting metabolic rate of male wood mice Apodemus sylvaticus from two contrasting habitats 15 km apart. Journal of Comparative Physiology B, 167, 229–239. https://doi.org/10.1007/s003600050069

Journal Article Type Article
Publication Date 1997-04
Deposit Date Apr 19, 2024
Journal Journal of Comparative Physiology B
Print ISSN 0174-1578
Publisher Springer Verlag
Peer Reviewed Peer Reviewed
Volume 167
Pages 229–239
DOI https://doi.org/10.1007/s003600050069
PMID 9151433