Do xeric landscapes increase genetic divergence in aquatic ecosystems?

Abstract

Summary: 1. Previous investigations of the ecological genetics among amphipods in south‐western U.S.A. suggested a xeric landscape promoted genetic divergence among passively dispersed freshwater invertebrates, thereby enhancing speciation events. We predicted that less divergence would occur among amphipod populations across similar geographic distances in mesic regions.2. EightHyalella aztecapopulations were sampled along a 200‐km transect in western Oregon, U.S.A. Genetic distances among populations were estimated from randomly amplified polymorphic DNA (RAPD). Genetic analyses indicated much less divergence among Oregon populations than among Arizona populations in an arid environment.3. Behavioural observations support the genetic data: Oregon populations exhibit little differentiation in swimming behaviour, whereasHyalellapopulations in Arizona exhibit extremes in swimming behaviour.4. These results provide preliminary support for the hypothesis that a xeric landscape promotes genetic and behavioural divergence among amphipods. Many aquatic invertebrates classified as panmictic populations may encompass genetically distinct groups; those isolated by a xeric landscape are especially prone to diversification.