Canada lynx (Lynx canadensis) gene flow across a mountain transition zone in western North America-Reference-Cited by-同舟云学术

Canada lynx (Lynx canadensis) gene flow across a mountain transition zone in western North America

Published:2021-02 Issue:2 Volume:99 Page:131-140
ISSN:0008-4301
Container-title:Canadian Journal of Zoology
language:en
Short-container-title:Can. J. Zool.

Author:

Watt C.M.¹,Kierepka E.M.²,Ferreira C.C.¹³,Koen E.L.⁴,Row J.R.⁵,Bowman J.⁴,Wilson P.J.¹,Murray D.L.¹

Affiliation:

1. Biology Department, Trent University, Trent University DNA Building, 2140 East Bank Drive, Peterborough, ON K9J 7B8, Canada.

2. North Carolina Museum of Natural Sciences, North Carolina State University, Department of Forestry and Environmental Resources, Raleigh, NC 27601, USA.

3. UFZ-Helmholtz Centre for Environmental Research, Department of Conservation Biology, Permoserstr, 15, 04318 Leipzig, Germany.

4. Ontario Ministry of Natural Resources, Trent University DNA Building, 2140 East Bank Drive, Peterborough, ON K9J 7B8, Canada.

5. Minnow Environmental Inc., Queen’s University, Georgetown, ON L7G 3M9, Canada.

Abstract

Mountain ecotones have the potential to cause multiple patterns in divergence, from simple barrier effects to more fundamental ecological divergence. Most work in mountain ecotones in North America has focused on reinforcement between refugial populations, making prediction of how mountains impact species that are not restricted to separate glacial refugia remains difficult. This study focused on the Canada lynx (Lynx canadensis Kerr, 1792), a highly mobile felid considered to be a habitat and dietary specialist. Specifically, we used 14 microsatellite loci and landscape genetic tools to investigate if the Rocky Mountains and associated climatic transitions influence lynx genetic differentiation in western North America. Although lynx exhibited high gene flow across the region, analyses detected structuring of neutral genetic variation across our study area. Gene flow for lynx most strongly related to temperature and elevation compared with other landscape variables (terrain roughness, percent forest cover, and habitat suitability index) and geographic distance alone. Overall, genetic structure in lynx is most consistent with barrier effects created by the Rocky Mountains rather than ecological divergence. Furthermore, warmer temperatures had a measurable impact on gene flow, which suggests connectivity may further decrease in peripheral or fragmented populations as climate warms.

Publisher

Canadian Science Publishing

Subject

Animal Science and Zoology,Ecology, Evolution, Behavior and Systematics

Link

https://cdnsciencepub.com/doi/pdf/10.1139/cjz-2019-0247

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