Minimizing predation risk in a landscape of multiple predators: effects on the spatial distribution of African ungulates

Author(s)Maria Thaker, Abi T. Vanak, Cailey R. Owen, Monika B. Ogden, Sophie M. Niemann and Rob Slotow
Year Published2011
Page Numbers398–407
Size1.48 MB

Studies that focus on single predator–prey interactions can be inadequate for understanding antipredator responses in multi-predator systems. Yet there is still a general lack of information about the strategies of prey to minimize predation risk from multiple predators at the landscape level. Here we examined the distribution of seven African ungulate species in the fenced Karongwe Game Reserve (KGR), South Africa, as a function of predation risk from all large carnivore species (lion, leopard, cheetah, African wild dog, and spotted hyena). Using observed kill data, we generated ungulate-specific predictions of relative predation risk and of riskiness of habitats. To determine how ungulates minimize predation risk at the landscape level, we explicitly tested five hypotheses consisting of strategies that reduce the probability of encountering predators, and the probability of being killed. All ungulate species avoided risky habitats, and most selected safer habitats, thus reducing their probability of being killed. To reduce the probability of encountering predators, most of the smaller prey species (impala, warthog, waterbuck, kudu) avoided the space use of all predators, while the larger species (wildebeest, zebra, giraffe) only avoided areas where lion and leopard space use were high. The strength of avoidance for the space use of predators generally did not correspond to the relative predation threat from those predators. Instead, ungulates used a simpler behavioral rule of avoiding the activity areas of sit-and-pursue predators (lion and leopard), but not those of cursorial predators (cheetah and African wild dog). In general, selection and avoidance of habitats was stronger than avoidance of the predator activity areas. We expect similar decision rules to drive the distribution pattern of ungulates in other African savannas and in other multi-predator systems, especially where predators differ in their hunting modes.

Keywords: African ungulates, Antipredator strategies, Conditional logistic regression, Habitat selection, Karongwe Game Reserve, South Africa, Large carnivore, Multi-predator–prey systems, Predator hunting mode, Spatial distribution, Utilization distribution

Authors: Maria Thaker, Abi T. Vanak, Cailey R. Owen, Monika B. Ogden, Sophie M. Niemann and Rob Slotow

Journal: Ecology

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