Abstract
Especially in urbanized landscapes, habitat fragmentation and increasing numbers of infrastructural features may limit genetic exchange among wildlife populations. Yet, whether this results in genetic differentiation among individuals in different habitat fragments will depend on both the species studied and the composition of the landscape. European pine martens (Martes martes) show clear spatial structure at a Europe-wide scale, but whether gene flow among habitat patches can be maintained at a more local scale in intensively urbanized areas remained unclear. Here, we analysed genotypic data from 270 pine martens sampled from locations scattered across the Netherlands, one of the most densely populated areas in the world. Using Bayesian clustering models we show that most likely maximum two large subpopulations exist in the Netherlands. We observed relatively low levels of genetic differentiation and genetic evidence of regular long-distance dispersal by juveniles that must have crossed one or multiple major highways. Our results suggest that genetic exchange among Dutch pine martens has, until 2010, not been impacted severely by the countries’ dense infrastructural network. Furthermore this species seems to have maintained its genetic diversity despite a recent demographic bottleneck. These conclusions support the idea that the effects of habitat fragmentation may strongly differ between (groups of) species, and that prioritization and optimization of management decisions thus requires direct study of the targeted species.
Highlights
Forested areas are becoming increasingly fragmented as a result of land exploitation and the development of infrastructural features such as railways and highways
Especially in urbanized landscapes, habitat fragmentation and increasing numbers of infrastructural features may limit genetic exchange among wildlife populations. Whether this results in genetic differentiation among individuals in different habitat fragments will depend on both the species studied and the composition of the landscape
Our results suggest that genetic exchange among Dutch pine martens has, until 2010, not Electronic supplementary material The online version of this article contains supplementary material, which is available to authorized users
Summary
Forested areas are becoming increasingly fragmented as a result of land exploitation and the development of infrastructural features such as railways and highways. Fragmentation and loss of natural habitat forms the most important threat for wild species (Vitousek et al 1997). Effects on biodiversity may be especially severe in strongly urbanized areas like north-western Europe (Mortelliti et al 2010). Decreased size of forest patches may reduce habitat quality and maximum local population sizes of forest dwelling animals, which may increase extinction risks due to both demographic and genetic effects (Fahrig 2003). Larger distances between patches or the presence of dispersal barriers may reduce connectivity and thereby opportunities for gene flow (Frankham et al 2010).
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