The contemporary genetic pattern of European moose is shaped by postglacial recolonization,bottlenecks, and the geographical barrier of the Baltic Sea |
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| Authors: | Magdalena Niedzia?kowska Kris J Hundertmark Bogumi?a J?drzejewska Vadim E Sidorovich Hanna Zalewska Rauno Veeroja Erling J Solberg Sauli Laaksonen Håkan Sand Vyacheslav A Solovyev Andrey Sagaydak Juha Tiainen Rimvydas Ju?kaitis Gundega Done Vadim A Borodulin Evgenii A Tulandin Krzysztof Niedzia?kowski |
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| Institution: | 1. Mammal Research Institute, Polish Academy of Sciences, Bia?owie?a, Poland;2. Institute of Arctic Biology and Department of Biology and Wildlife, University of Alaska, Fairbanks, AK 99775‐7000, USA;3. Institute of Zoology, Scientific and Practical Centre for Biological Resources, National Academy of Sciences of Belarus, Minsk, Republic of Belarus;4. Department of Zoology, Institute of Ecology and Earth Science, University of Tartu, Tartu, Estonia;5. Norwegian Institute for Nature Research, Trondheim NO‐7485, Norway;6. Finnish Food Safety Authority Evira, Helsinki, Finland;7. Grims? Research Station, Swedish University of Agricultural Sciences, Riddarhyttan, Sweden;8. Department of Animal Ecology, B. 9. M. Zhitkov Russian Research Institute of Game Management and Fur Farming, Kirov, Russia;10. Mizhrichynskyi Regional Landscape Park, Otrokhy, Kozelets Raion, Chernihiv Oblast, Ukraine;11. Natural Resources Institute Finland, Helsinki, Finland;12. Institute of Ecology, Nature Research Centre, Vilnius, Lithuania;13. Latvian State Forest Research Institute ‘Silava’, Salaspils, Latvia;14. Inter‐regional Non‐governmental Organization ‘Leningrad Association of Hunters and Fishermen’, Sankt Petersburg, Russia;15. Non‐commercial Partnership ‘Union of Gamekeepers of the Kostroma Region’, Kostroma, Russia |
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| Abstract: | To investigate genetic diversity and the population structure of the European moose (Alces alces), we analyzed 14 microsatellite loci for 694 samples collected across 16 localities. The highest genetic diversity was detected in Belarus and Russia and the lowest was found in Scandinavia. Two major genetic clusters existed, Scandinavian and continental, and some further spatial structure was detected. There was high concordance between the spatial distribution of microsatellite clusters analyzed in the present study and previously recognized mitochondrial DNA clades of moose. The split of genetic lineages calculated using approximate Bayesian computation (ABC) occurred at the beginning of the Last Glacial Maximum: approximately 29 000 and 28 000 years BP. A range‐wide bottleneck detected by ABC took place 1800–1200 years BP, although a more recent decline in moose numbers was also documented in the 18th to early 20th Century. Genetic differentiation in European moose increased with geographical distance, and the Baltic Sea appeared to be a barrier to gene flow. We conclude that isolation in different glacial refugia, postglacial colonization, and declines of range and numbers in Holocene shaped the present pattern of genetic diversity of European moose. Based on genetic divergence and a lack of apparent gene flow, the contemporary Scandinavian and continental subpopulations should be treated as separate management units. |
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| Keywords: | approximate Bayesian computation bottleneck concordance between mtDNA and microsatellites isolation‐by‐distance Last Glacial Maximum microsatellite DNA |
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