Abstract
Identifying how sympatric species belonging to the same guild coexist is a major question of community ecology and conservation. Habitat segregation between two species might help reduce the effects of interspecific competition and apex predators are of special interest in this context, because their interactions can have consequences for lower trophic levels. However, habitat segregation between sympatric large carnivores has seldom been studied. Based on monitoring of 53 brown bears (Ursus arctos) and seven sympatric adult gray wolves (Canis lupus) equipped with GPS collars in Sweden, we analyzed the degree of interspecific segregation in habitat selection within their home ranges in both late winter and spring, when their diets overlap the most. We used the K‐select method, a multivariate approach that relies on the concept of ecological niche, and randomization methods to quantify habitat segregation between bears and wolves. Habitat segregation between bears and wolves was greater than expected by chance. Wolves tended to select for moose occurrence, young forests, and rugged terrain more than bears, which likely reflects the different requirements of an omnivore (bear) and an obligate carnivore (wolf). However, both species generally avoided human‐related habitats during daytime. Disentangling the mechanisms that can drive interspecific interactions at different spatial scales is essential for understanding how sympatric large carnivores occur and coexist in human‐dominated landscapes, and how coexistence may affect lower trophic levels. The individual variation in habitat selection detected in our study may be a relevant mechanism to overcome intraguild competition and facilitate coexistence.
Highlights
One of the main objectives in community ecology and conserva‐ tion is to understand the mechanisms that allow the coexistence of species within the same guild
Sympatric species sharing similar resources should demonstrate some degree of niche overlap, which could lead to interspecific compe‐ tition (Chesson, 2000; Dufour et al, 2015; Hurlbert, 1978; Lotka, 1925)
Interspecific competition can generate differences in habitat selection, which has been observed for various taxa in ter‐ restrial (Holt, 1987) and aquatic realms (Wellborn, Skelly, & Werner, 1996)
Summary
One of the main objectives in community ecology and conserva‐ tion is to understand the mechanisms that allow the coexistence of species within the same guild. Gray wolves (Canis lupus) and brown bears (Ursus arctos) are two of the largest and most widely distributed apex predators in Eurasia and North America, where they are sympatric in a large part of their ranges (e.g. see IUCN maps; IUCN, 2010; IUCN SSC Bear Specialist Group, IUCN and IBA, 2017; Chapron et al, 2014) Both species are efficient predators of neonate ungulates (Barber‐Meyer, Mech, & White, 2008; Sand et al, 2008; Swenson et al, 2007), and the sharing of this common resource may fuel interspecific competition. The spatial effects of biotic interactions on spe‐ cies distributions have rarely been investigated (Araújo & Rozenfeld, FIGURE 1 A brown bear (Ursus arctos) and a wolf (Canis lupus) feeding on the same moose carcass (originally killed by wolves) in southcentral Sweden. Our study may advance current knowledge of the ecological mechanisms that drive interspecific interactions between apex pred‐ ators and allow their coexistence in human‐dominated landscapes
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