Unveiling trade-offs in resource selection of migratory caribou using a mechanistic movement model of availability

Unveiling trade-offs in resource selection of migratory caribou using a mechanistic movement model of availability

Habitat selection is a multi-level, hierarchical process that should be a key component in the balance between food acquisition and predation risk avoidance (food–predation trade-off). However, to date, studies have not fully elucidated how fine- and broad-scale habitat decisions by individual prey...

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Veröffentlicht in:Ecography (Copenhagen) 2015-10, Vol.38 (10), p.1049-1059
Hauptverfasser: Bastille-Rousseau, Guillaume, Potts, Jonathan R., Schaefer, James A., Lewis, Mark A., Ellington, E. Hance, Rayl, Nathaniel D., Mahoney, Shane P., Murray, Dennis L.
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Animal behavior
Caribou
Habitats
Predation
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container_end_page 1059
container_issue 10
container_start_page 1049
container_title Ecography (Copenhagen)
container_volume 38
creator Bastille-Rousseau, Guillaume
Potts, Jonathan R.
Schaefer, James A.
Lewis, Mark A.
Ellington, E. Hance
Rayl, Nathaniel D.
Mahoney, Shane P.
Murray, Dennis L.
description Habitat selection is a multi-level, hierarchical process that should be a key component in the balance between food acquisition and predation risk avoidance (food–predation trade-off). However, to date, studies have not fully elucidated how fine- and broad-scale habitat decisions by individual prey can help balance food versus risk. We studied broad-scale habitat selection by Newfoundland caribou Rangifer tarandus, focusing on trade-offs between predation risk versus access to forage during the calving and post-calving period. We improved traditional measures of habitat availability by incorporating fine-scale movement patterns of caribou into the availability kernel, thus enabling separation of broad and fine scales of selection. Remote sensing and field surveys served to create a spatio-temporal model of forage availability, whereas GPS telemetry locations from 66 black bears Ursus americanus and 59 coyotes Canis latrans provided models of predation risk. We then used GPS telemetry locations from 114 female caribou to assess food–predation trade-offs through the prism of our refined model of caribou habitat availability. We noted that migratory movements of caribou were oriented mainly towards habitats with abundant forage and lower risk of bear and (to a lesser extent) coyote encounter. These findings were generally consistent across caribou herds and would not have been evident had we used traditional methods instead of our refined model when estimating habitat availability. We interpret these findings in the context of stereotypical migratory behaviour observed in Newfoundland caribou, which occurs despite the extirpation of wolves Canis lupus nearly a century ago. We submit that caribou are able to balance food acquisition against predation risk using a complex set of factors involving both finer and broader scale selection. Accordingly, our study provides a strong argument for using refined habitat availability estimates when assessing food–predation trade-offs.
doi_str_mv 10.1111/ecog.01305
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source Wiley Online Library Journals Frontfile Complete; JSTOR; EZB Electronic Journals Library
subjects Animal behavior
Caribou
Habitats
Predation
title Unveiling trade-offs in resource selection of migratory caribou using a mechanistic movement model of availability
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