Using the Distinct Population Segment (DPS) Concept to Protect Fishes with Low Levels of Genomic Differentiation: Conservation of an Endemic Minnow (Hitch)

Abstract

In the United States, the Endangered Species Act (ESA) of 1973 was enacted to conserve species that are endangered or threatened throughout all or a portion of their range. The definition of “species” includes subspecies and distinct population segments (DPSs). Among freshwater fishes, the use of DPS designations has largely been restricted to salmonids, although the DPS concept is increasingly applied to other fishes as well. As more taxa approach threatened status, the difficult question becomes what to do when genetic evidence does not strongly support formal taxonomic designations (full species or subspecies). We examine the potential application of the DPS concept to protect fishes by using the example of the Hitch Lavinia exilicauda, a cyprinid fish that is endemic to California. The Hitch is divided into three formally described, geographically separate subspecies (the Sacramento, Monterey, and Clear Lake Hitches). However, genomic studies (i.e., restriction site-associated DNA sequencing), presented here with three independent analyses using a large data set, only weakly supported subspecies designations. Results suggested population structure but not subspecies structure. Nevertheless, conventional taxonomic methods, strong contemporary isolation, the importance of protecting genetic diversity, and high cultural value still qualify all three designated subspecies for DPS status and demonstrate how taxa such as the Clear Lake Hitch can warrant protection under the ESA.