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Phylogenetic analysis of the ecology and evolution of mammalian sleep

Capellini, Isabella; Barton, Robert A.; McNamara, Patrick; Preston, Brian T.; Nunn, Charles L.

Authors

Isabella Capellini

Robert A. Barton

Patrick McNamara

Brian T. Preston

Charles L. Nunn



Abstract

The amount of time asleep varies greatly in mammals, from 3 h in the donkey to 20 h in the armadillo. Previous comparative studies have suggested several functional explanations for interspecific variation in both the total time spent asleep and in rapid-eye movement (REM) or "quiet" (non-REM) sleep. In support of specific functional benefits of sleep, these studies reported correlations between time in specific sleep states (NREM or REM) and brain size, metabolic rate, and developmental variables. Here we show that estimates of sleep duration are significantly influenced by the laboratory conditions under which data are collected and that, when analyses are limited to data collected under more standardized procedures, traditional functional explanations for interspecific variation in sleep durations are no longer supported. Specifically, we find that basal metabolic rate correlates negatively rather than positively with sleep quotas, and that neither adult nor neonatal brain mass correlates positively with REM or NREM sleep times. These results contradict hypotheses that invoke energy conservation, cognition, and development as drivers of sleep variation. Instead, the negative correlations of both sleep states with basal metabolic rate and diet are consistent with trade-offs between sleep and foraging time. In terms of predation risk, both REM and NREM sleep quotas are reduced when animals sleep in more exposed sites, whereas species that sleep socially sleep less. Together with the fact that REM and NREM sleep quotas correlate strongly with each other, these results suggest that variation in sleep primarily reflects ecological constraints acting on total sleep time, rather than the independent responses of each sleep state to specific: selection pressures. We propose that, within this ecological framework, interspecific variation in sleep duration might be compensated by variation in the physiological intensity of sleep.

Citation

Capellini, I., Barton, R. A., McNamara, P., Preston, B. T., & Nunn, C. L. (2008). Phylogenetic analysis of the ecology and evolution of mammalian sleep. Evolution, 62(7), 1764-1775. https://doi.org/10.1111/j.1558-5646.2008.00392.x

Journal Article Type Article
Publication Date Jul 1, 2008
Deposit Date Nov 13, 2014
Journal Evolution
Print ISSN 0014-3820
Publisher Wiley
Peer Reviewed Peer Reviewed
Volume 62
Issue 7
Pages 1764-1775
DOI https://doi.org/10.1111/j.1558-5646.2008.00392.x
Keywords NREM; Phylogeny; REM; Sleep architecture
Public URL https://hull-repository.worktribe.com/output/464253
Contract Date Nov 13, 2014