The impact of past climate change on genetic variation and population connectivity in the Icelandic arctic fox |
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Authors: | Andrew Mellows Ross Barnett Love Dalén Edson Sandoval-Castellanos Anna Linderholm Thomas H McGovern Mike J Church Greger Larson |
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Institution: | 1.Department of Archaeology, Durham Evolution and Ancient DNA, Durham University, South Road, Durham DH1 3LE, UK;2.Department of Molecular Systematics, Swedish Museum of Natural History, Box 50007, Stockholm 10405, Sweden;3.Department of Zoology, Stockholm University, Stockholm 10405, Sweden;4.Hunter Bioarchaeology Laboratory, Hunter College CUNY, New York, New York 10021, USA |
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Abstract: | Previous studies have suggested that the presence of sea ice is an important factor in facilitating migration and determining the degree of genetic isolation among contemporary arctic fox populations. Because the extent of sea ice is dependent upon global temperatures, periods of significant cooling would have had a major impact on fox population connectivity and genetic variation. We tested this hypothesis by extracting and sequencing mitochondrial control region sequences from 17 arctic foxes excavated from two late-ninth-century to twelfth-century AD archaeological sites in northeast Iceland, both of which predate the Little Ice Age (approx. sixteenth to nineteenth century). Despite the fact that five haplotypes have been observed in modern Icelandic foxes, a single haplotype was shared among all of the ancient individuals. Results from simulations within an approximate Bayesian computation framework suggest that the rapid increase in Icelandic arctic fox haplotype diversity can only be explained by sea-ice-mediated fox immigration facilitated by the Little Ice Age. |
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Keywords: | island biogeography phylogeography ancient DNA approximate Bayesian computation |
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