Range-wide comparisons of northern leatherside chub populations reveal historical and contemporary patterns of genetic variation

Abstract

Patchily distributed species are those taxa whose populations occupy geographically insular habitats and their conservation often depends on an understanding of the relationship among disjunct populations. The objective of our study was to use molecular data and analytical techniques to separate the effects of historical and contemporary processes influencing the distribution of a high-desert minnow, the northern leatherside chub (Lepidomeda copei). Individuals from 23 populations were sequenced for 1,140 base pairs of the cytochrome B gene of the mitochondrial genome and genotyped at seven nuclear microsatellite loci. We estimated gene flow and examined population structure using both microsatellite and mtDNA data. Low sequence divergence and the distribution of shared haplotypes in multiple watersheds suggest historical connectivity between populations over a large geographic area. In contrast, patterns of microsatellite diversity indicate that populations of leatherside chub are isolated from one another with low levels of contemporary gene flow between populations. Our results suggest that populations of leatherside chub were historically more widely inter-connected and have recently been isolated, likely through a combination of natural and anthropogenic habitat fragmentation. As populations become increasingly isolated, they are more vulnerable to extirpation as a result of stochastic events. For northern leatherside chub, recent isolation and lack of gene flow among populations may affect their long-term survival in the arid landscapes of the Great Basin and surrounding watersheds because of widespread and increasing habitat alteration and fragmentation.