Behavioral “bycatch” from camera trap surveys yields insights on prey responses to human-mediated predation risk

Abstract Human disturbance directly affects animal populations but indirect effects of disturbance on species behaviors are less well understood. Camera traps provide an opportunity to investigate variation in animal behaviors across gradients of disturbance. We used camera trap data to test predict...

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Bibliographic Details
Main Authors: Burton, Cole, Beirne, Christopher, Sun, Catherine, Granados, Alys, Procko, Michael, Chen, Cheng, Fennell, Mitchell, Constantinou, Alexia, Colton, Christopher, Tjaden-McClement, Katie, Fisher, Jason, Burgar, Joanna
Language:unknown
Published: Borealis
Subjects:
Other
camera trap
wildlife
Alces alces
caribou
Rangifer tarandus
white-tailed deer
Odocoileus virginianus
moose
Oil sands
Online Access:https://doi.org/10.5683/SP3/01XS23
id ftborealisdata:doi:10.5683/SP3/01XS23
record_format openpolar
spelling ftborealisdata:doi:10.5683/SP3/01XS23 2023-05-15T13:13:06+02:00 Behavioral “bycatch” from camera trap surveys yields insights on prey responses to human-mediated predation risk Burton, Cole Beirne, Christopher Sun, Catherine Granados, Alys Procko, Michael Chen, Cheng Fennell, Mitchell Constantinou, Alexia Colton, Christopher Tjaden-McClement, Katie Fisher, Jason Burgar, Joanna https://doi.org/10.5683/SP3/01XS23 unknown Borealis https://doi.org/10.5683/SP3/01XS23 Other camera trap wildlife Alces alces caribou Rangifer tarandus white-tailed deer Odocoileus virginianus moose Oil sands ftborealisdata https://doi.org/10.5683/SP3/01XS23 2022-10-10T05:34:36Z Abstract Human disturbance directly affects animal populations but indirect effects of disturbance on species behaviors are less well understood. Camera traps provide an opportunity to investigate variation in animal behaviors across gradients of disturbance. We used camera trap data to test predictions about predator-sensitive behavior in three ungulate species (caribou Rangifer tarandus; white-tailed deer, Odocoileus virginianus; moose, Alces alces) across two boreal forest landscapes varying in disturbance. We quantified behavior as the number of camera trap photos per detection event and tested its relationship to predation risk between a landscape with greater industrial disturbance and predator abundance (Algar) and a “control” landscape with lower human and predator activity (Richardson). We also assessed the influence of predation risk and habitat on behavior across camera sites within the disturbed Algar landscape. We predicted that animals in areas with greater predation risk (more wolf activity, less cover) would travel faster and generate fewer photos per event, while animals in areas with less predation risk would linger (rest, forage), generating more photos per event. Consistent with predictions, caribou and moose had more photos per event in the landscape where predation risk was reduced. Within the disturbed landscape, no prey species showed a significant behavioral response to wolf activity, but the number of photos per event decreased for white-tailed deer with increasing line of sight (m) along seismic lines (i.e. decreasing visual cover), consistent with a predator-sensitive response. The presence of juveniles was associated with shorter behavioral events for caribou and moose, suggesting greater predator sensitivity for females with calves. Only moose demonstrated a positive association with vegetation productivity (NDVI), suggesting that for other species influences of forage availability were generally weaker than those from predation risk. Behavioral insights can be gleaned from camera ... Other/Unknown Material Alces alces caribou Rangifer tarandus Borealis
institution Open Polar
collection Borealis
op_collection_id ftborealisdata
language unknown
topic Other
camera trap
wildlife
Alces alces
caribou
Rangifer tarandus
white-tailed deer
Odocoileus virginianus
moose
Oil sands
spellingShingle Other
camera trap
wildlife
Alces alces
caribou
Rangifer tarandus
white-tailed deer
Odocoileus virginianus
moose
Oil sands
Burton, Cole
Beirne, Christopher
Sun, Catherine
Granados, Alys
Procko, Michael
Chen, Cheng
Fennell, Mitchell
Constantinou, Alexia
Colton, Christopher
Tjaden-McClement, Katie
Fisher, Jason
Burgar, Joanna
Behavioral “bycatch” from camera trap surveys yields insights on prey responses to human-mediated predation risk
topic_facet Other
camera trap
wildlife
Alces alces
caribou
Rangifer tarandus
white-tailed deer
Odocoileus virginianus
moose
Oil sands
description Abstract Human disturbance directly affects animal populations but indirect effects of disturbance on species behaviors are less well understood. Camera traps provide an opportunity to investigate variation in animal behaviors across gradients of disturbance. We used camera trap data to test predictions about predator-sensitive behavior in three ungulate species (caribou Rangifer tarandus; white-tailed deer, Odocoileus virginianus; moose, Alces alces) across two boreal forest landscapes varying in disturbance. We quantified behavior as the number of camera trap photos per detection event and tested its relationship to predation risk between a landscape with greater industrial disturbance and predator abundance (Algar) and a “control” landscape with lower human and predator activity (Richardson). We also assessed the influence of predation risk and habitat on behavior across camera sites within the disturbed Algar landscape. We predicted that animals in areas with greater predation risk (more wolf activity, less cover) would travel faster and generate fewer photos per event, while animals in areas with less predation risk would linger (rest, forage), generating more photos per event. Consistent with predictions, caribou and moose had more photos per event in the landscape where predation risk was reduced. Within the disturbed landscape, no prey species showed a significant behavioral response to wolf activity, but the number of photos per event decreased for white-tailed deer with increasing line of sight (m) along seismic lines (i.e. decreasing visual cover), consistent with a predator-sensitive response. The presence of juveniles was associated with shorter behavioral events for caribou and moose, suggesting greater predator sensitivity for females with calves. Only moose demonstrated a positive association with vegetation productivity (NDVI), suggesting that for other species influences of forage availability were generally weaker than those from predation risk. Behavioral insights can be gleaned from camera ...
author Burton, Cole
Beirne, Christopher
Sun, Catherine
Granados, Alys
Procko, Michael
Chen, Cheng
Fennell, Mitchell
Constantinou, Alexia
Colton, Christopher
Tjaden-McClement, Katie
Fisher, Jason
Burgar, Joanna
author_facet Burton, Cole
Beirne, Christopher
Sun, Catherine
Granados, Alys
Procko, Michael
Chen, Cheng
Fennell, Mitchell
Constantinou, Alexia
Colton, Christopher
Tjaden-McClement, Katie
Fisher, Jason
Burgar, Joanna
author_sort Burton, Cole
title Behavioral “bycatch” from camera trap surveys yields insights on prey responses to human-mediated predation risk
title_short Behavioral “bycatch” from camera trap surveys yields insights on prey responses to human-mediated predation risk
title_full Behavioral “bycatch” from camera trap surveys yields insights on prey responses to human-mediated predation risk
title_fullStr Behavioral “bycatch” from camera trap surveys yields insights on prey responses to human-mediated predation risk
title_full_unstemmed Behavioral “bycatch” from camera trap surveys yields insights on prey responses to human-mediated predation risk
title_sort behavioral “bycatch” from camera trap surveys yields insights on prey responses to human-mediated predation risk
publisher Borealis
url https://doi.org/10.5683/SP3/01XS23
genre Alces alces
caribou
Rangifer tarandus
genre_facet Alces alces
caribou
Rangifer tarandus
op_relation https://doi.org/10.5683/SP3/01XS23
op_doi https://doi.org/10.5683/SP3/01XS23
_version_ 1766256063767642112

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