Differences in spatial niche of terrestrial mammals when facing extreme snowfall: the case in east Asian forests

Abstract Background Recent climate changes have produced extreme climate events. This study focused on extreme snowfall and intended to discuss the vulnerability of temperate mammals against it through interspecies comparisons of spatial niches in northern Japan. We constructed niche models for seve...

Full description

Bibliographic Details
Main Authors: Hiroto Enari, Haruka S. Enari, Tatsuhito Sekiguchi, Motohisa Tanaka, Sohsuke Suzuki
Format: Article
Language:English
Published: BMC 2024-02-01
Series:Frontiers in Zoology
Subjects:
Online Access:https://doi.org/10.1186/s12983-024-00522-6
Description
Summary:Abstract Background Recent climate changes have produced extreme climate events. This study focused on extreme snowfall and intended to discuss the vulnerability of temperate mammals against it through interspecies comparisons of spatial niches in northern Japan. We constructed niche models for seven non-hibernating species through wide-scaled snow tracking on skis, whose total survey length was 1144 km. Results We detected a low correlation (r s < 0.4) between most pairs of species niches, indicating that most species possessed different overwintering tactics. A morphological advantage in locomotion cost on snow did not always expand niche breadth. In contrast, a spatial niche could respond to (1) drastic landscape change by a diminishing understory due to snow, possibly leading to changes in predator-prey interactions, and (2) the mass of cold air, affecting thermoregulatory cost and food accessibility. When extraordinary snowfall occurred, the nonarboreal species with larger body sizes could niche shift, whereas the smaller-sized or semi-arboreal mammals did not. In addition, compared to omnivores, herbivores were prone to severe restriction of niche breadth due to a reduction in food accessibility under extreme climates. Conclusions Dietary habits and body size could determine the redundancy of niche width, which may govern robustness/vulnerability to extreme snowfall events.
ISSN:1742-9994