Abstract
Research on large predator-prey interactions are often limited to the predators’ primary prey, with the potential for prey switching in systems with multiple ungulate species rarely investigated. We evaluated wolf (Canis lupus) prey selection at two different spatial scales, i.e., inter- and intra-territorial, using data from 409 ungulate wolf-kills in an expanding wolf population in Scandinavia. This expansion includes a change from a one-prey into a two-prey system with variable densities of one large-sized ungulate; moose (Alces alces) and one small-sized ungulate; roe deer (Capreolus capreolus). Among wolf territories, the proportion of roe deer in wolf kills was related to both pack size and roe deer density, but not to moose density. Pairs of wolves killed a higher proportion of roe deer than did packs, and wolves switched to kill more roe deer as their density increased above a 1:1 ratio in relation to the availability of the two species. At the intra-territorial level, wolves again responded to changes in roe deer density in their prey selection whereas we found no effect of snow depth, time during winter, or other predator-related factors on the wolves’ choice to kill moose or roe deer. Moose population density was only weakly related to intra-territorial prey selection. Our results show that the functional response of wolves on moose, the species hitherto considered as the main prey, was strongly dependent on the density of a smaller, alternative, ungulate prey. The impact of wolf predation on the prey species community is therefore likely to change with the composition of the multi-prey species community along with the geographical expansion of the wolf population.
Highlights
The concept of prey selection has been central for describing the effects of predation on prey population dynamics and density [1, 2]
The current study expanded the range of available prey species as compared to previous studies [5, 33, 34, 36] by including wolf territories that offered an important alternative prey species to moose such as roe deer
Our findings indicate density-dependent prey switching in Scandinavian wolves, they do not support true prey switching sensu Murdoch [1969], with the relationship between the proportions of prey species killed versus available close to a 1:1 ratio
Summary
The concept of prey selection has been central for describing the effects of predation on prey population dynamics and density [1, 2]. Predator kill rate will be largely dependent on prey density and mainly rely on encounter rates [3]. For generalist predators living in multiple prey systems, changes in prey species density may have strong implications for their pattern of selection. True switching in the selection by the predator between prey species sensu Murdoch [1] will reduce predation rate on a particular species at PLOS ONE | DOI:10.1371/journal.pone.0168062. University of Agricultural Sciences, Carl Tryggers Foundation, Marie-Claires Cronstedts Foundation, and the Swedish Carnivore Association True switching in the selection by the predator between prey species sensu Murdoch [1] will reduce predation rate on a particular species at PLOS ONE | DOI:10.1371/journal.pone.0168062 December 28, 2016
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