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DNA reveals high dispersal synchronizing the population dynamics of Canada lynx

Michael K. Schwartz (), L. Scott Mills, Kevin S. McKelvey, Leonard F. Ruggiero and Fred W. Allendorf
Additional contact information
Michael K. Schwartz: Wildlife Biology Program, School of Forestry, University of Montana
L. Scott Mills: Wildlife Biology Program, School of Forestry, University of Montana
Kevin S. McKelvey: USDA/USFS Rocky Mountain Research Station, 800 E. Beckwith
Leonard F. Ruggiero: USDA/USFS Rocky Mountain Research Station, 800 E. Beckwith
Fred W. Allendorf: University of Montana

Nature, 2002, vol. 415, issue 6871, 520-522

Abstract: Abstract Population dynamics of Canada lynx (Lynx canadensis) have been of interest to ecologists for nearly sixty years1,2,3,4. Two competing hypotheses concerning lynx population dynamics and large-scale spatial synchrony are currently debated. The first suggests that dispersal is substantial among lynx populations5, and the second proposes that lynx at the periphery of their range exist in small, isolated patches that maintain cycle synchrony via correlation with extrinsic environmental factors2. Resolving the nature of lynx population dynamics and dispersal is important both to ecological theory and to the conservation of threatened lynx populations: the lack of knowledge about connectivity between populations at the southern periphery of the lynx's geographic range delayed their legal listing in the United States6. We test these competing hypotheses using microsatellite DNA markers and lynx samples from 17 collection sites in the core and periphery of the lynx's geographic range. Here we show high gene flow despite separation by distances greater than 3,100 km, supporting the dispersal hypothesis. We therefore suggest that management actions in the contiguous United States should focus on maintaining connectivity with the core of the lynx's geographic range.

Date: 2002
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DOI: 10.1038/415520a

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