A comparison of genetic structuring of Yellowcheek Darters (Etheostoma moorei) using AFLPs and allozymes

The goals of this study were to characterize the genetic structure of 6 populations of Etheostoma moorei (Yellowcheek Darter), endemic to the Little Red River watershed of central Arkansas, to estimate the levels of gene flow within isolated streams, and to compare AFLP genetic diversity and distance data to our previously published allozyme data. The Yellowcheek Darter is a candidate species for listing under the Endangered Species Act. This darter is found in previously connected headwater streams presently isolated and partially inundated downstream by Greers Ferry Reservoir. AFLP data for the Yellowcheek Darter was concordant with previous work utilizing allozymes (rs = 0.682; p < 0.01), yet genetic differences among populations were greater in magnitude. Genetic diversity (polymorphism = 92.7; heterozygosity = 0.496) is higher for the Yellowcheek Darter than would be expected for a species in decline, and greater for AFLP versus allozyme data. Genetic structuring among streams was also more evident using AFLP data. Gene flow levels are indicative of a metapopulation structure within streams (FST = 0.003 − 0.010), with genetic structuring indicating distinct populations among streams.