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Abstract
After decades, even centuries of persecution, large carnivore populations are widely recovering in Europe. Considering the recent recovery of the wolverine (Gulo gulo) in Finland, our aim was to evaluate genetic variation using 14 microsatellites and mtDNA control region (579 bp) in order (1) to determine whether the species is represented by a single genetic population within Finland, (2) to quantify the genetic diversity, and (3) to estimate the effective population size. We found two major genetic clusters divided between eastern and northern Finland based on microsatellites (FST = 0.100) but also a significant pattern of isolation by distance. Wolverines in western Finland had a genetic signature similar to the northern cluster, which can be explained by former translocations of wolverines from northern to western Finland. For both main clusters, most estimates of the effective population size Ne were below 50. Nevertheless, the genetic diversity was higher in the eastern cluster (HE = 0.57, AR = 4.0, AP = 0.3) than in the northern cluster (HE = 0.49, AR = 3.7, AP = 0.1). Migration between the clusters was low. Two mtDNA haplotypes were found: one common and identical to Scandinavian wolverines; the other rare and not previously detected. The rare haplotype was more prominent in the eastern genetic cluster. Combining all available data, we infer that the genetic population structure within Finland is shaped by a recent bottleneck, isolation by distance, human-aided translocations and postglacial recolonization routes.
Highlights
Conservation of large carnivores represents a challenging issue especially due to the conflicts arising from their interaction with human activities
We assessed putatively neutral genetic variation in a population of wolverines that is recovering from a recent population bottleneck
We identified two major genetic clusters of wolverines in Finland, a northern (CCPA North-West) and eastern cluster (CCPA East)
Summary
Conservation of large carnivores represents a challenging issue especially due to the conflicts arising from their interaction with human activities. Large carnivores have suffered from considerable declines globally (Prugh et al 2009; Ripple et al 2014), but recent conservation efforts have aided the recovery of several populations in Europe (Chapron et al 2014). With extensive home range requirements and natural low densities, large carnivores are sensitive to habitat fragmentation and limited connectivity between the patches (Crooks 2002; Crooks et al 2011). Isolation can result in a fragmented genetic population structure, a decline of genetic diversity and increased inbreeding, followed by a decrease in reproductive potential and survival of the population (Frankham et al 2010). Assessing the genetic status is an important objective in predicting the sustainability of large carnivore populations (Frankham 2005).
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