Food acquisition and predator avoidance in a Neotropical rodent

Animal Behaviour

Volume 88, February 2014, Pages 41–48

• Lennart Suselbeek^{a, b, ,} ,
• Willem-Jan Emsens^{a, b, c},
• Ben T. Hirsch^{b, d},
• Roland Kays^{b, e, f},
• J. Marcus Rowcliffe^g,
• Veronica Zamora-Gutierrez^{a, b, h},
• Patrick A. Jansen^{a, b, i}

 

doi:10.1016/j.anbehav.2013.11.012

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Highlights

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We quantified prey and predator activity levels using camera traps and telemetry.

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Timing of agouti kills by ocelots was disproportionate to agouti activity levels.

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Agoutis woke up later and went to sleep earlier as food availability was higher.

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Agoutis avoided activity at high-risk times more strongly as access to food was higher.

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This study provides quantitative empirical evidence of the trade-off between food and fear.

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Foraging activity in animals reflects a compromise between acquiring food and avoiding predation. The risk allocation hypothesis predicts that prey animals optimize this balance by concentrating their foraging activity at times of relatively low predation risk, as much as their energy status permits, but empirical evidence is scarce. We used a unique combination of automated telemetry, manual radiotelemetry and camera trapping to test whether activity at high risk times declined with food availability as predicted in a Neotropical forest rodent, the Central American agouti, Dasyprocta punctata. We found that the relative risk of predation by the main predator, the ocelot, Leopardus pardalis, estimated as the ratio of ocelot to agouti activity on camera trap photographs, was up to four orders of magnitude higher between sunset and sunrise than during the rest of the day. Kills of radiotracked agoutis by ocelots during this high-risk period far exceeded expectations given agouti activity. Both telemetric monitoring of radiotagged agoutis and camera monitoring of burrow entrances indicated that agoutis exited their burrows later at dawn, entered their burrows earlier at dusk and had lower overall activity levels when they lived in areas with higher food abundance. Thus, agoutis avoided activity during the high-risk period more strongly when access to food was higher. Our study provides quantitative empirical evidence of prey animals concentrating their activity at times of relatively low predation risk.

Keywords

• camera trapping;
• daily activity patterns;
• Dasyprocta punctata;
• foraging–predation trade-off;
• Leopardus pardalis;
• optimal foraging;
• predation pressure;
• predator–prey interactions;
• radiotelemetry;
• risk allocation hypothesis

Correspondence: L. Suselbeek, Department of Environmental Sciences, Wageningen University, PO Box 47, 6700 AA Wageningen, The Netherlands.

Copyright © 2013 The Association for the Study of Animal Behaviour. Published by Elsevier Ltd. All rights reserved.