Data from: Roads elicit negative movement and habitat-selection responses by wolverines (Gulo gulo luscus)

Wildlife behavior when crossing roads is likely to mirror natural responses to predation risk including not responding, pausing, avoiding, or increasing speed during crossing. We generated coarse-scale behavioral predictions based on these expectations that could be assessed with GPS radiotelemetry....

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Bibliographic Details
Main Authors: Scrafford, Matthew A., Avgar, Tal, Heeres, Rick, Boyce, Mark S., Scrafford, Matthew A, Boyce, Mark S
Format: Dataset
Language:unknown
Published: Dryad 2022
Subjects:
boreal forest
industry
step selection
oil extraction
roads
traffic volume
Life sciences
medicine and health care
geo
info
Start Point
Gulo gulo
Online Access:https://doi.org/10.5061/DRYAD.44PP0.1
https://doi.org/10.5061/dryad.44pp0.2
https://doi.org/10.5061/dryad.44pp0
Description
Summary:Wildlife behavior when crossing roads is likely to mirror natural responses to predation risk including not responding, pausing, avoiding, or increasing speed during crossing. We generated coarse-scale behavioral predictions based on these expectations that could be assessed with GPS radiotelemetry. We evaluated our predictions using an integrated step-selection analysis of wolverine (Gulo gulo luscus) space use in relation to spatially and temporally dynamic vehicle traffic on industrial roads in northern Alberta. We compared support for alternative models of road avoidance, increased speed near roads, and road avoidance and increased speed near roads. We predicted that wolverines would avoid roads and increase their speed near roads and that these behaviors would increase with traffic volume. We found that vehicle traffic was relatively low (0 – 30 vehicles/12 hours) but important for explaining wolverine space use. Top winter and summer models indicated that wolverines avoided and increased speed near roads. Wolverine movement but not avoidance increased with traffic volume. We suggest that movement is a fine-scaled response that is more responsive to vehicle traffic than habitat selection. We show that roads, regardless of traffic volume, reduce the quality of wolverine habitats and act as barriers to movement and that higher-traffic roads might be most deleterious. We suggest that wildlife behavior near roads should be viewed as a continuum and that accurate modeling of behavior when near roads requires quantification of both movement and habitat selection. Mitigating the effects of roads on wolverines would require clustering roads, road closures, or access management. Wolverine traffic and GPS dataSteps from wolverine GPS data in northern Alberta. Steps are lines connecting sequential GPS relocations. “Start” refers to the start point of the step and “End” refers to the end point of the step. For example, “traffic_end” is the traffic volume on the road closest to the end point of the step. The distances ...

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