Measuring the effects of reduced snow cover on Australia's alpine arthropods |
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Authors: | Rachel A. Slatyer Michael A. Nash Ary A. Hoffmann |
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Affiliation: | 1. School of Biosciences, University of Melbourne, Parkville, Victoria, Australia;2. Department of Entomology, University of Wisconsin‐Madison, Madison, Wisconsin, USA;3. School of Agriculture, Food and Wine, University of Adelaide, Urrbrae, South Australia, Australia |
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Abstract: | Snow is one of the most important factors in the ecology of alpine ecosystems. In Australia, both the depth and duration of snow cover have declined significantly in recent decades and this trend is projected to continue with global warming. Many small arthropods remain active throughout the winter, within a space beneath the snowpack (subnivean) where the snow's insulation creates a thermally stable environment. Using field surveys and experimental manipulation of snow depth at two locations in the Australian alpine region, we explored the diversity of winter‐active arthropods and their response to reduced snow. Individuals from 18 arthropod Orders were detected beneath the snow during winter, with Collembola, Araneae, Acari and Coleoptera accounting for 95–98% of the individuals collected. The subnivean taxa represented a distinct subset of those active outside the winter months. Removal of the snow layer increased daily temperature fluctuations, increased the number of days below freezing and raised the mean surface temperatures. Community composition was altered by snow removal, driven by changes in the numbers of two abundant springtail taxa at each location. We found a strong reduction in the abundances of both taxa at one study site, and contrasting responses (one strong positive and one strong negative) to snow removal at the second study site. Subnivean arthropod communities in Australia thus appear sensitive to snow conditions at small spatial scales. |
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Keywords: | alpine arthropods climate change snow winter |
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