Abstract
Heavily urbanized areas can hinder dispersal and gene flow between amphibian populations. Given the growth potential of urbanization, it is important to examine how this specific environment shapes their genetic patterns at the local scale. The ability of the European green toad to successfully colonize large human settlements has been convincingly confirmed in the recent past, but little is known about its population genetics under these new conditions. In this study, we examined the effects of the environment on genetic variation, population structure, and the level of gene flow in populations of this amphibian in the city of Košice and the adjacent rural area (eastern Slovakia) using a set of neutral genetic markers. We found that urban populations had lower genetic variability than populations in adjacent rural areas; however, the degree of inbreeding was relatively low in all samples. Genetic differentiation was higher, and gene flow was more restricted in urban area, although geographic distances between sites were significantly less than in rural area (2–4 km versus 6–13 km). Our analyses suggested genetic isolation of urban populations at sites with less suitable habitat for green toads. In contrast, admixture of the population inhabiting the large city park, established on a former floodplain, with all rural populations was likely the result of an intense historical gene flow. The densely developed environment of the other urban sites likely presents a strong barrier to gene flow. The lack of suitable wetland habitat prior to development suggests that these sites were only recently colonized by a limited number of founders. Thus, we found differential effects of the city on the population structure of the green toad. Understanding current local genetic variation and structure is important for future conservation plans in urban environments.
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