Journal article
Shotaro Shiratsuru, E. Studd, S. Boutin, M. J. Peers, Y. Majchrzak, A. Menzies, R. Derbyshire, Thomas S. Jung, C. Krebs, R. Boonstra, D. Murray
Proceedings of the Royal Society B, 2023
Proceedings of the Royal Society B, 2023
Semantic Scholar
DOI
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APA
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Shiratsuru, S., Studd, E., Boutin, S., Peers, M. J., Majchrzak, Y., Menzies, A., … Murray, D. (2023). When death comes: linking predator–prey activity patterns to timing of mortality to understand predation risk. Proceedings of the Royal Society B.
Chicago/Turabian
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Shiratsuru, Shotaro, E. Studd, S. Boutin, M. J. Peers, Y. Majchrzak, A. Menzies, R. Derbyshire, et al. “When Death Comes: Linking Predator–Prey Activity Patterns to Timing of Mortality to Understand Predation Risk.” Proceedings of the Royal Society B (2023).
MLA
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Shiratsuru, Shotaro, et al. “When Death Comes: Linking Predator–Prey Activity Patterns to Timing of Mortality to Understand Predation Risk.” Proceedings of the Royal Society B, 2023.
BibTeX Click to copy
@article{shotaro2023a,
title = {When death comes: linking predator–prey activity patterns to timing of mortality to understand predation risk},
year = {2023},
journal = {Proceedings of the Royal Society B},
author = {Shiratsuru, Shotaro and Studd, E. and Boutin, S. and Peers, M. J. and Majchrzak, Y. and Menzies, A. and Derbyshire, R. and Jung, Thomas S. and Krebs, C. and Boonstra, R. and Murray, D.}
}
Abstract
The assumption that activity and foraging are risky for prey underlies many predator–prey theories and has led to the use of predator–prey activity overlap as a proxy of predation risk. However, the simultaneous measures of prey and predator activity along with timing of predation required to test this assumption have not been available. Here, we used accelerometry data on snowshoe hares (Lepus americanus) and Canada lynx (Lynx canadensis) to determine activity patterns of prey and predators and match these to precise timing of predation. Surprisingly we found that lynx kills of hares were as likely to occur during the day when hares were inactive as at night when hares were active. We also found that activity rates of hares were not related to the chance of predation at daily and weekly scales, whereas lynx activity rates positively affected the diel pattern of lynx predation on hares and their weekly kill rates of hares. Our findings suggest that predator–prey diel activity overlap may not always be a good proxy of predation risk, and highlight a need for examining the link between predation and spatio-temporal behaviour of predator and prey to improve our understanding of how predator–prey behavioural interactions drive predation risk.