Abstract
AimThe influence of humans on large carnivores, including wolves, is a worldwide conservation concern. In addition, human‐caused changes in carnivore density and distribution might have impacts on prey and, indirectly, on vegetation. We therefore tested wolf responses to infrastructure related to natural resource development (i.e., human footprint).LocationOur study provides one of the most extensive assessments of how predators like wolves select habitat in response to various degrees of footprint across boreal ecosystems encompassing over a million square kilometers of Canada.MethodsWe deployed GPS‐collars on 172 wolves, monitored movements and used a generalized functional response (GFR) model of resource selection. A functional response in habitat selection occurs when selection varies as a function of the availability of that habitat. GFRs can clarify how human‐induced habitat changes are influencing wildlife across large, diverse landscapes.ResultsWolves displayed a functional response to footprint. Wolves were more likely to select forest harvest cutblocks in regions with higher cutblock density (i.e., a positive functional response to high‐quality habitats for ungulate prey) and to select for higher road density in regions where road density was high (i.e., a positive functional response to human‐created travel routes). Wolves were more likely to use cutblocks in habitats with low road densities, and more likely to use roads in habitats with low cutblock densities, except in winter when wolves were more likely to use roads regardless of cutblock density.Main conclusionsThese interactions suggest that wolves trade‐off among human‐impacted habitats, and adaptively switch from using roads to facilitate movement (while also risking encounters with humans), to using cutblocks that may have higher ungulate densities. We recommend that conservation managers consider the contextual and interacting effects of footprints when assessing impacts on carnivores. These effects likely have indirect impacts on ecosystems too, including on prey species.
Highlights
The influence of humans on large carnivore populations is a world‐ wide conservation concern
Wolves were more likely to select forest harvest cutblocks in regions with higher cutblock density and to se‐ lect for higher road density in regions where road density was high
Main conclusions: These interactions suggest that wolves trade‐off among human‐ impacted habitats, and adaptively switch from using roads to facilitate movement, to using cutblocks that may have higher ungulate densities
Summary
The influence of humans on large carnivore populations is a world‐ wide conservation concern. Human footprint can de‐ grade habitat by increasing wolf‐caused mortality on sensitive spe‐ cies such as woodland caribou (Rangifer tarandus), which are listed as Threatened under the Species at Risk Act in Canada (Fortin et al, 2017; Hervieux et al, 2013; Wittmer, Sinclair, & McLellan, 2005). This has led to the implementation of intensive wolf management in some areas of the boreal forest (Hervieux, Hebblewhite, Stepnisky, Bacon, & Boutin, 2014). Predicting how top carnivores, including wolves, respond to human‐induced changes to habitat at scales that are commensurate with the wide‐ranging land use changes under‐ way in the boreal forest is necessary for carnivore conser‐ vation, ecosystem management, and threatened species recovery
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