Influence of geomorphology and surface features on the genetic structure of an important trogloxene,the secret cave cricket (<Emphasis Type="Italic">Ceuthophilus secretus</Emphasis>)

Cave ecosystems supporting a variety of endemics depend on the carbon, nitrogen, and nutrients brought into caves by trogloxenic species, such as the secret cave cricket (Ceuthophilus secretus). Surface movements of trogloxenes may comprise the strongest ecological connections among caves. Our objective was to better understand dispersal patterns in C. secretus in order to inform management of this species and the cave endemics that depend upon them. We used microsatellite loci to estimate gene flow and genetic diversity among 42 karst features supporting C. secretus on the Fort Hood Military Reserve, Texas, USA. This sampling was used to assess the influences of karst topography and other landscape features on genetic diversity and population structure. Cave populations did not exhibit evidence of recent bottlenecks and genetic diversity was similar among sites, with the exception of one sample from an isolated cave. Samples exhibited a strong pattern of isolation by distance, but karst topology was also influential, with genetic differentiation being much higher between samples from separate ridges than among those on the same ridge. It appears that co-location on a ridge was an important factor facilitating dispersal among karst features. There was little evidence that other surface features such as forest cover, roads or streams influenced gene flow and genetic differentiation. The low genetic connectivity among ridges suggests that isolated caves on ridges where cricket habitat is uncommon or degraded might not be easily recolonized after extinction events, with potentially negative consequences for associated cave communities.