Abstract
Identifying factors that contribute to the risk of wildlife‐vehicle collisions (WVCs) has been a key focus of wildlife managers, transportation safety planners and road ecologists for over three decades. Despite these efforts, few generalities have emerged which can help predict the occurrence of WVCs, heightening the uncertainty under which conservation, wildlife and transportation management decisions are made. Undermining this general understanding is the use of study area boundaries that are incongruent with major biophysical gradients, inconsistent data collection protocols among study areas and species‐specific interactions with roads. We tested the extent to which factors predicting the occurrence of deer‐vehicle collisions (DVCs) were general among five study areas distributed over a 11,400‐km2 region in the Canadian Rocky Mountains. In spite of our system‐wide focus on the same genus (i.e., Odocoileus hemionus and O. virginianus), study area delineation along major biophysical gradients, and use of consistent data collection protocols, we found that large‐scale biophysical processes influence the effect of localized factors. At the local scale, factors predicting WVC occurrence varied greatly between individual study areas. Distance to water was an important predictor of WVCs in three of the five study areas, while other variables had modest importance in only two of the five study areas. Thus, lack of generality in factors predicting WVCs may have less to do with methodological or taxonomic differences among study areas than the large‐scale, biophysical context within which the data were collected. These results highlight the critical need to develop a conceptual framework in road ecology that can unify the disparate results emerging from field studies on WVC occurrence.
Highlights
Roads, highways and railways are pervasive features of human-occupied landscapes, occurring in the cities, rural areas and remote areas of most nations (Davenport and Davenport 2006)
We tested the extent to which factors predicting the occurrence of deer-vehicle collisions (DVCs) were general among five study areas distributed over a 11,400-km2 region in the Canadian Rocky Mountains
In spite of our system-wide focus on the same genus (i.e., Odocoileus hemionus and O. virginianus), study area delineation along major biophysical gradients, and use of consistent data collection protocols, we found that large-scale biophysical processes influence the effect of localized factors
Summary
Highways and railways are pervasive features of human-occupied landscapes, occurring in the cities, rural areas and remote areas of most nations (Davenport and Davenport 2006) This infrastructure and the vehicles on them can have pronounced impacts on the abiotic (e.g., chemical effluents, hydrology, land forms) and biological processes in nearby ecosystems (Forman et al 2003). Population density was the most important factor explaining moose (Alces alces)-vehicle collisions in Norway, but not Newfoundland (Joyce and Mahoney 2001, Rolandsen et al 2011). These idiosyncrasies highlight the urgent need for road ecologists to identify the contextdependent processes giving rise to WVCs in different study areas and for different species
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