Food acquisition and predator avoidance in a neotropical rodent
Food acquisition and predator avoidance in a neotropical rodent
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.
Camera trapping, Daily activity patterns, Dasyprocta punctata, Foraging-predation trade-off, Leopardus pardalis, Optimal foraging, Predation pressure, Predator-prey interactions, Radiotelemetry, Risk allocation hypothesis
41-48
Suselbeek, Lennart
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Emsens, Willem Jan
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Hirsch, Ben T.
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Kays, Roland
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Rowcliffe, J. Marcus
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Zamora-Gutierrez, Veronica
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Jansen, Patrick A.
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1 February 2014
Suselbeek, Lennart
f2d3326c-9f7c-4045-93b2-b817f50f6d4a
Emsens, Willem Jan
8d0430b4-9f34-420a-a362-bbd5341baeda
Hirsch, Ben T.
64b5ed82-2b4e-45d7-a4d5-b6a3679ba404
Kays, Roland
2ddf282c-87ee-480f-8990-d41c7ad18526
Rowcliffe, J. Marcus
312889cb-766f-4dbc-a00d-dd00805dea5a
Zamora-Gutierrez, Veronica
17a6b9d9-3346-4df6-9438-026b7342e28a
Jansen, Patrick A.
21dc0d57-d0be-430e-a793-7b065bfab9c6
Suselbeek, Lennart, Emsens, Willem Jan, Hirsch, Ben T., Kays, Roland, Rowcliffe, J. Marcus, Zamora-Gutierrez, Veronica and Jansen, Patrick A.
(2014)
Food acquisition and predator avoidance in a neotropical rodent.
Animal Behaviour, 88, .
(doi:10.1016/j.anbehav.2013.11.012).
Abstract
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.
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Published date: 1 February 2014
Additional Information:
Funding Information:
We gratefully acknowledge field support from Meg Crofoot, Annemarie Winkelhagen, Torrey Rodgers, Matthew Mc Elroy, Sumana Serchan, Daniel Rasmussen and Jose Alejandro Silva, technical support with the ARTS system from Daniel Obando and Alejandro Ortega, and logistical support from Belkys Jimenez, Oris Acevedo and the Smithsonian Tropical Research Institute. We thank Ron Ydenberg, Peter Bednekoff, Andrew King and four anonymous referees for constructive comments. Financial support was provided by the National Science Foundation ( NSF-DEB-0717071 to R.K.) and the Netherlands Foundation for Scientific Research ( NWO-ALW 863-07-008 to P.A.J.). ARTS was supported by the Frank Levinson Family Foundation .
Publisher Copyright:
© 2013 The Association for the Study of Animal Behaviour.
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
Identifiers
Local EPrints ID: 486693
URI: http://eprints.soton.ac.uk/id/eprint/486693
ISSN: 0003-3472
PURE UUID: 66aeb131-5710-482b-b234-079b007ec93e
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Date deposited: 01 Feb 2024 17:47
Last modified: 18 Mar 2024 04:18
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Contributors
Author:
Lennart Suselbeek
Author:
Willem Jan Emsens
Author:
Ben T. Hirsch
Author:
Roland Kays
Author:
J. Marcus Rowcliffe
Author:
Veronica Zamora-Gutierrez
Author:
Patrick A. Jansen
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