TY - JOUR
T1 - Response of wildebeest (Connochaetes taurinus) movements to spatial variation in long term risks from a complete predator guild
AU - Dröge, Egil
AU - Creel, Scott
AU - Becker, Matthew
AU - Christianson, David
AU - M'Soka, Jassiel
AU - Watson, Fred
N1 - Funding Information:
We thank the Department of National Parks and Wildlife in Zambia, African Parks Zambia and the Barotse Royal Establishment for their collaboration, support and permission and facilitation to conduct this research. WWF-Netherlands, African Parks Zambia, National Science Foundation Behavior Program (IOS-1145749) and Painted Dog Conservation Inc. from Australia and a PhD Dissertation Completion Award from the Graduate School of Montana State University provided funding for this research. We thank A. Brennan, S. Brennan, A. Chinga, D. Hafey, A. Liseli, J. M'soka, T. Mukula, D. Mutanga, F. Corry, V. Hoffmann, Graeme Ellis and D. Smit for fieldwork assistance and three anonymous reviewers for their constructive feedback.
Funding Information:
We thank the Department of National Parks and Wildlife in Zambia, African Parks Zambia and the Barotse Royal Establishment for their collaboration, support and permission and facilitation to conduct this research. WWF-Netherlands , African Parks Zambia , National Science Foundation Behavior Program ( IOS-1145749 ) and Painted Dog Conservation Inc. from Australia and a PhD Dissertation Completion Award from the Graduate School of Montana State University provided funding for this research. We thank A. Brennan, S. Brennan, A. Chinga, D. Hafey, A. Liseli, J. M'soka, T. Mukula, D. Mutanga, F. Corry, V. Hoffmann, Graeme Ellis and D. Smit for fieldwork assistance and three anonymous reviewers for their constructive feedback.
Publisher Copyright:
© 2019 Elsevier Ltd
PY - 2019/5
Y1 - 2019/5
N2 - Many studies have shown that behavioral responses to the risk posed by predators can carry costs for prey by reducing fecundity or survival, with consequent effects on population dynamics. Responses to risk include increased vigilance and reduced foraging, movement to safe habitats, increases or decreases in group size, and changes in patterns of movement. While we know that prey can detect and respond to both long term (LT) and short term (ST) variation in risk, field studies have only recently begun to consider how these responses might differ. Here, we hypothesize that prey movement patterns should respond differently to cues of LT and ST variation in risk. Specifically, cues of elevated LT risk might lead to decreased movement to improve the assessment of ST risk, while elevated ST risk might favor increased movement to reduce the proximity or duration of risks that are already assessed to be acute. We further hypothesize that decreases in movement are likely to be a general response to LT risk, while responses to ST risk are likely to vary in a manner that depends on the type of predator. In Liuwa Plain National Park, we found that wildebeest movements responded to the local intensity of predator use (LT risk), after controlling for other seasonal, diurnal and bottom-up effects. Speed decreased considerably and turning angles increased considerably, combining to markedly decrease linear movements. In contrast, immediate encounters with predators (ST risk) typically provoked fast, linear flight, and this effect was stronger for encounters with coursing predators. The effect of long term risk was to cause wildebeest to move more slowly and less linearly, i.e. to slow down and turn around, as part of a suite of behavioral responses, which also includes increased vigilance, that promote cautious assessment of ST risks when in locations with high levels of LT risk. This result has broad implications of understanding the influence of predation risk on foraging patterns of ungulates as this relationship is much more complex than simple avoidance of areas of ‘high risk’.
AB - Many studies have shown that behavioral responses to the risk posed by predators can carry costs for prey by reducing fecundity or survival, with consequent effects on population dynamics. Responses to risk include increased vigilance and reduced foraging, movement to safe habitats, increases or decreases in group size, and changes in patterns of movement. While we know that prey can detect and respond to both long term (LT) and short term (ST) variation in risk, field studies have only recently begun to consider how these responses might differ. Here, we hypothesize that prey movement patterns should respond differently to cues of LT and ST variation in risk. Specifically, cues of elevated LT risk might lead to decreased movement to improve the assessment of ST risk, while elevated ST risk might favor increased movement to reduce the proximity or duration of risks that are already assessed to be acute. We further hypothesize that decreases in movement are likely to be a general response to LT risk, while responses to ST risk are likely to vary in a manner that depends on the type of predator. In Liuwa Plain National Park, we found that wildebeest movements responded to the local intensity of predator use (LT risk), after controlling for other seasonal, diurnal and bottom-up effects. Speed decreased considerably and turning angles increased considerably, combining to markedly decrease linear movements. In contrast, immediate encounters with predators (ST risk) typically provoked fast, linear flight, and this effect was stronger for encounters with coursing predators. The effect of long term risk was to cause wildebeest to move more slowly and less linearly, i.e. to slow down and turn around, as part of a suite of behavioral responses, which also includes increased vigilance, that promote cautious assessment of ST risks when in locations with high levels of LT risk. This result has broad implications of understanding the influence of predation risk on foraging patterns of ungulates as this relationship is much more complex than simple avoidance of areas of ‘high risk’.
KW - Anti-predator responses
KW - Landscape of fear
KW - Predator-prey interactions
KW - Risk-effects
KW - Spatio-temporal scale
UR - http://www.scopus.com/inward/record.url?scp=85062320237&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85062320237&partnerID=8YFLogxK
U2 - 10.1016/j.biocon.2019.02.031
DO - 10.1016/j.biocon.2019.02.031
M3 - Article
AN - SCOPUS:85062320237
SN - 0006-3207
VL - 233
SP - 139
EP - 151
JO - Biological Conservation
JF - Biological Conservation
ER -