Differentiation and levels of genetic variation in northern European lynx (Lynx lynx) populations revealed by microsatellites and mitochondrial DNA analysis |
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| Authors: | Linda Hellborg Christopher W Walker Eli Knispel Rueness John E Stacy Ilpo Kojola Harri Valdmann Carles Vilà Barbara Zimmermann Kjetill S Jakobsen Hans Ellegren |
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| Institution: | (1) Department of Evolutionary Biology, Uppsala University, Norbyvägen 18D, SE-752 36 Uppsala, Sweden;(2) DNA Laboratory for Ecology, Systematics and Evolution, Division of General Genetics, Department of Biology, University of Oslo, Box 1031, N-0316 Blindern, Norway;(3) Oulu Game and Fisheries Research, Finnish Game and Fisheries Research Institute, Tutkijantic 2A, FIN-90570 Oulu, Finland;(4) Institute of Zoology and Hydrobiology, Tartu University, EE2400, Vanemuise 46, Estonia;(5) Department of Forestry and Wilderness Management, Hedmark College, Evenstad, Koppang, N-2480, Norway |
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| Abstract: | The European lynx (Lynx lynx) hasexperienced significant decline in populationnumbers over large parts of its formerdistribution area in central and northernEurope. In Scandinavia (Sweden and Norway), thespecies has been subject to intense hunting and inthe early 20th century the population size mayhave been as low as about 100 animals. Duringthe rest of the century there have beenalternating periods of restricted hunting andtotal protection. Future management of theScandinavian lynx population will requireinsight into what effects demographicbottlenecks may have had on genetic variabilityand structure. For this purpose, 276 lynxesfrom Sweden, Norway, Finland, Estonia andLatvia were analysed for polymorphism at 11feline microsatellite loci and at themitochondrial DNA (mtDNA) control region.Scandinavian lynxes were found to be fixed fora single mtDNA haplotype, while this and threeadditional haplotypes were seen in Finland andthe Baltic States (Estonia and Latvia); thehaplotypes were all very similar, onlydiffering at 1–4 sites within a 700 bp regionsequenced. Microsatellite variability wasmoderate (He = 0.51–0.62) with lowerheterozygosity and fewer alleles in Scandinaviathan in Finland and the Baltic States together,though significant so only for the latter.Heterozygosity data in Scandinavia wereconsistent with a recent population bottleneck.Various analyses (e.g. Fst, individual-basedtree, assignment test) revealed distinctgenetic differentiation between Scandinavianlynxes and animals from Finland and the BalticStates. Some structure was evident withinScandinavia as well, suggesting an isolation bydistance. The observed partition of geneticvariability between Scandinavia and the easterncountries thereof indicates that lynxpopulations from the two regions may need to beseparately managed. We discuss what factors canhave contributed to the population geneticstructure seen in northern European lynxpopulations of today. |
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| Keywords: | bottleneck drift genetic variation mtDNA population structure |
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