A camera trap‐based assessment of climate‐driven phenotypic plasticity of seasonal moulting in an endangered carnivore

Abstract For many species, the ability to rapidly adapt to changes in seasonality is essential for long‐term survival. In the Arctic, seasonal moulting is a key life‐history event that provides year‐round camouflage and thermal protection. However, increased climatic variability of seasonal events c...

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Bibliographic Details
Published in:Remote Sensing in Ecology and Conservation
Main Authors: Lucie Laporte‐Devylder, Kristine R. Ulvund, Lars Rød‐Eriksen, Ola Olsson, Øystein Flagstad, Arild Landa, Nina E. Eide, Craig R. Jackson
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2023
Subjects:
T
Online Access:https://doi.org/10.1002/rse2.304
https://doaj.org/article/d54e7fb614bc499c984f461cb051186a
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Summary:Abstract For many species, the ability to rapidly adapt to changes in seasonality is essential for long‐term survival. In the Arctic, seasonal moulting is a key life‐history event that provides year‐round camouflage and thermal protection. However, increased climatic variability of seasonal events can lead to phenological mismatch. In this study, we investigated whether winter‐white (white morph) and winter‐brown (blue morph) Arctic foxes (Vulpes lagopus) could adjust their winter‐to‐summer moult to match local environmental conditions. We used camera trap images spanning an eight‐year period to quantify the timing and rate of fur change in a polymorphic subpopulation in south‐central Norway. Seasonal snow cover duration and temperature governed the phenology of the spring moult. We observed a later onset and longer moulting duration with decreasing temperature and longer snow season. Additionally, white foxes moulted earlier than blue in years with shorter periods of snow cover and warmer temperatures. These results suggest that phenotypic plasticity allows Arctic foxes to modulate the timing and rate of their spring moult as snow conditions and temperatures fluctuate. With the Arctic warming at an unprecedented rate, understanding the capacity of polar species to physiologically adapt to a changing environment is urgently needed in order to develop adaptive conservation efforts. Moreover, we provide the first evidence for variations in the moulting phenology of blue and white Arctic foxes. Our study underlines the different intraspecific selective pressures that can exist in populations where several morphs co‐occur, and illustrates the importance of integrating morph‐based differences in future management strategies of such polymorphic species.