Anthropogenic influences such as hunting pressure and habitat fragmentation can alter the demographic and spatial patterns of wildlife populations. Understanding the consequences of these impacts is a challenge for natural resource managers, which can be overcome by investigations using spatial genetic techniques. We used spatial autocorrelation and landscape genetic analyses to compare the impacts of anthropogenic forces on the spatial genetic structure of two female black bear (Ursus americanus) populations in northern New Hampshire with similar bear densities but varying human densities, hunting pressure and sex ratios. We found evidence of an impact of hunting mortality on the spatial genetic structure of female black bears. The population with greater hunting pressure and a heavily male-biased sex ratio (Milan) exhibited greater spatial genetic structure represented by a pattern of isolation by distance, kin clustering, and reduced dispersal in comparison to the population with a balanced sex ratio (Pittsburg). We did not find a strong effect of fragmenting landscape features on female spatial structure. Major roads were correlated with spatial genetic structure, but only in the population with lower human density and development (Pittsburg). Slope and elevation were also correlated with spatial genetic structure, suggesting terrain plays a role in structuring seasonal female home range boundaries. Our study revealed the utility of using spatial genetic techniques to identify anthropogenic influences on female social organization. These findings highlight the importance of monitoring the impacts of harvest pressure not only on demographics but also the spatial genetic structure of animal populations.

• 出版日期2012-10