Demographic response of tundra small mammals to a snow fencing experiment

Frederic Bilodeau, Donald Reid, Gilles Gauthier, Charles Krebs, D Berteaux, Alice Kenney

    Research output: Contribution to journalArticle

    13 Citations (Scopus)

    Abstract

    Snow cover is a key environmental component for tundra wildlife that will be aff ected by climate change. Change to the snow cover may aff ect the population dynamics of high-latitude small mammals, which are active throughout the winter and reproduce under the snow. We experimentally tested the hypotheses that a deeper snow cover would enhance the densities and winter reproductive rates of small mammals, but that predation by mustelids could be higher in areas of increased small mammal density. We enhanced snow cover by setting out snow fences at three sites in the Canadian Arctic (Bylot Island, Nunavut, and Herschel Island and Komakuk Beach, Yukon) over periods ranging from one to four years. Densities of winter nests were higher where snow depth was increased but spring lemming densities did not increase on the experimental areas. Lemmings probably moved from areas of deep snow, their preferred winter habitat, to summer habitat during snow melt once the advantages associated with deep snow were gone. Our treatment had no eff ect on signs of reproduction in winter nests, proportion of lactating females in spring, or the proportion of juveniles caught in spring, which suggests that deep snow did not enhance reproduction. Results on predation were inconsistent across sites as predation by weasels was higher on the experimental area at one site but lower at two others and was not higher in areas of winter nest aggregations. Although this experiment provided us with several new insights about the impact of snow cover on the population dynamics of tundra small mammals, it also illustrates the challenges and diffi culties associated with large-scale experiments aimed at manipulating a critical climatic factor.
    Original languageEnglish
    Pages (from-to)1167-1176
    Number of pages10
    JournalOikos (Malden)
    Volume122
    DOIs
    Publication statusPublished - 2013

    Fingerprint

    tundra
    small mammal
    small mammals
    snow
    demographic statistics
    snowpack
    snow cover
    winter
    experiment
    nest
    predation
    nests
    population dynamics
    mustelid
    Nunavut
    Mustela
    lactating females
    Yukon Territory
    fences
    habitat

    Cite this

    Bilodeau, F., Reid, D., Gauthier, G., Krebs, C., Berteaux, D., & Kenney, A. (2013). Demographic response of tundra small mammals to a snow fencing experiment. Oikos (Malden), 122, 1167-1176. https://doi.org/10.1111/j.1600-0706.2012.00220.x
    Bilodeau, Frederic ; Reid, Donald ; Gauthier, Gilles ; Krebs, Charles ; Berteaux, D ; Kenney, Alice. / Demographic response of tundra small mammals to a snow fencing experiment. In: Oikos (Malden). 2013 ; Vol. 122. pp. 1167-1176.
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    abstract = "Snow cover is a key environmental component for tundra wildlife that will be aff ected by climate change. Change to the snow cover may aff ect the population dynamics of high-latitude small mammals, which are active throughout the winter and reproduce under the snow. We experimentally tested the hypotheses that a deeper snow cover would enhance the densities and winter reproductive rates of small mammals, but that predation by mustelids could be higher in areas of increased small mammal density. We enhanced snow cover by setting out snow fences at three sites in the Canadian Arctic (Bylot Island, Nunavut, and Herschel Island and Komakuk Beach, Yukon) over periods ranging from one to four years. Densities of winter nests were higher where snow depth was increased but spring lemming densities did not increase on the experimental areas. Lemmings probably moved from areas of deep snow, their preferred winter habitat, to summer habitat during snow melt once the advantages associated with deep snow were gone. Our treatment had no eff ect on signs of reproduction in winter nests, proportion of lactating females in spring, or the proportion of juveniles caught in spring, which suggests that deep snow did not enhance reproduction. Results on predation were inconsistent across sites as predation by weasels was higher on the experimental area at one site but lower at two others and was not higher in areas of winter nest aggregations. Although this experiment provided us with several new insights about the impact of snow cover on the population dynamics of tundra small mammals, it also illustrates the challenges and diffi culties associated with large-scale experiments aimed at manipulating a critical climatic factor.",
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    Bilodeau, F, Reid, D, Gauthier, G, Krebs, C, Berteaux, D & Kenney, A 2013, 'Demographic response of tundra small mammals to a snow fencing experiment', Oikos (Malden), vol. 122, pp. 1167-1176. https://doi.org/10.1111/j.1600-0706.2012.00220.x

    Demographic response of tundra small mammals to a snow fencing experiment. / Bilodeau, Frederic; Reid, Donald; Gauthier, Gilles; Krebs, Charles; Berteaux, D; Kenney, Alice.

    In: Oikos (Malden), Vol. 122, 2013, p. 1167-1176.

    Research output: Contribution to journalArticle

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    AU - Kenney, Alice

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    AB - Snow cover is a key environmental component for tundra wildlife that will be aff ected by climate change. Change to the snow cover may aff ect the population dynamics of high-latitude small mammals, which are active throughout the winter and reproduce under the snow. We experimentally tested the hypotheses that a deeper snow cover would enhance the densities and winter reproductive rates of small mammals, but that predation by mustelids could be higher in areas of increased small mammal density. We enhanced snow cover by setting out snow fences at three sites in the Canadian Arctic (Bylot Island, Nunavut, and Herschel Island and Komakuk Beach, Yukon) over periods ranging from one to four years. Densities of winter nests were higher where snow depth was increased but spring lemming densities did not increase on the experimental areas. Lemmings probably moved from areas of deep snow, their preferred winter habitat, to summer habitat during snow melt once the advantages associated with deep snow were gone. Our treatment had no eff ect on signs of reproduction in winter nests, proportion of lactating females in spring, or the proportion of juveniles caught in spring, which suggests that deep snow did not enhance reproduction. Results on predation were inconsistent across sites as predation by weasels was higher on the experimental area at one site but lower at two others and was not higher in areas of winter nest aggregations. Although this experiment provided us with several new insights about the impact of snow cover on the population dynamics of tundra small mammals, it also illustrates the challenges and diffi culties associated with large-scale experiments aimed at manipulating a critical climatic factor.

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