Low vulnerability of Arctic fox dens to climate change-related geohazards on Bylot Island, Nunavut, Canada

Climate change increases the risk of severe alterations to essential wildlife habitats. The Arctic fox (Vulpes lagopus (Linnaeus, 1758)) uses dens as shelters against cold temperatures and predators. These dens, needed for successful reproduction, are generally dug into the active layer on top of pe...

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Bibliographic Details
Published in:Arctic Science
Main Authors: Florence Lapierre Poulin, Daniel Fortier, Dominique Berteaux
Format: Article in Journal/Newspaper
Language:English
French
Published: Canadian Science Publishing 2021
Subjects:
vulpes lagopus
vulnerability
geohazards
climate change
permafrost
geo
envir
Arctic
Bylot Island
Canada
Nunavut
Arctic Fox
Climate change
Vulpes lagopus
Online Access:https://doi.org/10.1139/as-2019-0007
https://doaj.org/article/4b0494f00df142f9a3c7bfc7003cab71
Description
Summary:Climate change increases the risk of severe alterations to essential wildlife habitats. The Arctic fox (Vulpes lagopus (Linnaeus, 1758)) uses dens as shelters against cold temperatures and predators. These dens, needed for successful reproduction, are generally dug into the active layer on top of permafrost and reused across multiple generations. We assessed the vulnerability of Arctic fox dens to the increasing frequency of geohazards (thaw settlement, mass movements, and thermal erosion) that is arising from climate change. On Bylot Island (Nunavut, Canada) we developed, and calculated from field observations, a qualitative vulnerability index to geohazards for Arctic fox dens. Of the 106 dens studied, 14% were classified as highly vulnerable, whereas 17% and 69% had a moderate and low vulnerability, respectively. Vulnerability was not related to the probability of use for reproduction. Although climate change will likely impact Arctic fox reproductive dens, such impact is not a major threat to foxes of Bylot Island. Our research provides the first insights into the climate-related geohazards potentially affecting Arctic fox ecology in the next decades. The developed method is flexible and could be applied to other locations or other species that complete their life cycle in permafrost regions.

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