Habitat fragmentation in coastal southern C alifornia disrupts genetic connectivity in the cactus wren ( C ampylorhynchus brunneicapillus )

Achieving long‐term persistence of species in urbanized landscapes requires characterizing population genetic structure to understand and manage the effects of anthropogenic disturbance on connectivity. Urbanization over the past century in coastal southern C alifornia has caused both precipitous loss of coastal sage scrub habitat and declines in populations of the cactus wren ( C ampylorhynchus brunneicapillus ). Using 22 microsatellite loci, we found that remnant cactus wren aggregations in coastal southern C alifornia comprised 20 populations based on strict exact tests for population differentiation, and 12 genetic clusters with hierarchical B ayesian clustering analyses. Genetic structure patterns largely mirrored underlying habitat availability, with cluster and population boundaries coinciding with fragmentation caused primarily by urbanization. Using a habitat model we developed, we detected stronger associations between habitat‐based distances and genetic distances than E uclidean geographic distance. Within populations, we detected a positive association between available local habitat and allelic richness and a negative association with relatedness. Isolation‐by‐distance patterns varied over the study area, which we attribute to temporal differences in anthropogenic landscape development. We also found that genetic bottleneck signals were associated with wildfire frequency. These results indicate that habitat fragmentation and alterations have reduced genetic connectivity and diversity of cactus wren populations in coastal southern C alifornia. Management efforts focused on improving connectivity among remaining populations may help to ensure population persistence.