Abstract
The Yazoo Darter, Etheostoma raneyi (Percidae), is an imperiled freshwater fish species endemic to tributaries of the Yocona and Little Tallahatchie rivers of the upper Yazoo River basin, in northern Mississippi, USA. The two populations are allopatric, isolated by unsuitable lowland habitat between the two river drainages. Relevant literature suggests that populations in the Yocona River represent an undescribed species, but a lack of data prevents a thorough evaluation of possible diversity throughout the range of the species. Our goals were to estimate phylogenetic relationships of the Yazoo Darter across its distribution and identify cryptic diversity for conservation management purposes. Maximum likelihood (ML) phylogenetic analyses of the mitochondrial cytochrome b (cytb) gene returned two reciprocally monophyletic clades representing the two river drainages with high support. Bayesian analysis of cytb was consistent with the ML analysis but with low support for the Yocona River clade. Analyses of the nuclear S7 gene yielded unresolved relationships among individuals in the Little Tallahatchie River drainage with mostly low support, but returned a monophyletic clade for individuals from the Yocona River drainage with high support. No haplotypes were shared between the drainages for either gene. Additional cryptic diversity within the two drainages was not indicated. Estimated divergence between Yazoo Darters in the two drainages occurred during the Pleistocene (<1 million years ago) and was likely linked to repeated spatial shifts in suitable habitat and changes in watershed configurations during glacial cycles. Individuals from the Yocona River drainage had lower genetic diversity consistent with the literature. Our results indicate that Yazoo Darters in the Yocona River drainage are genetically distinct and that there is support for recognizing Yazoo Darter populations in the Yocona River drainage as a new species under the unified species concept.
Highlights
The southeastern United States has a globally significant amount of diversity among its freshwater fishes (Abell et al, 2008)
S6 and S7) indicated weakly supported and inconsistent phylogenetic relationships among individuals from the L.T.R. drainage, though samples from the Y.R. drainage composed a single clade with high support (95% bootstrap support and 0.97 posterior probability)
Our results indicate, (1) there is no evidence of cryptic diversity within each major river drainage; (2) genetic diversity is lower in the Y.R. drainage relative to the L.T.R. drainage; (3) consistent with the results from Powers & Warren Jr (2009), there is support for recognizing Yazoo Darter populations in the Y.R. drainage as a distinct species under the unified species concept; (4) Our estimates of time of divergence are similar to estimates for closely related snubnose darter species in Tennessee and Kentucky (Kozal et al, 2017), which supports the proposal in Powers & Warren Jr (2009) that the same vicariant events led to a late Pleistocene species radiation among snubnose darters in western Tennessee and Kentucky and northern Mississippi
Summary
The southeastern United States has a globally significant amount of diversity among its freshwater fishes (Abell et al, 2008). Etheostomatinae (Percidae), the darters (Jelks et al, 2008; Page & Burr, 2011). Though the group shows a wide variety of life history strategies and associated distributional patterns (Fluker, Kuhajda & Harris, 2014), many species of darters are range-limited (microendemics) (Page, 1983; Page & Burr, 2011) and share a suite of life history characteristics that are associated with limited dispersal (Turner & Trexler, 1998; Turner, 2001), including niche conservatism (Keck & Near, 2010). The discovery of microendemism in darters is occurring more frequently because, at least in part, the routine use of genetic tools is increasingly uncovering cryptic diversity (Hollingsworth Jr & Near, 2009; April et al, 2011; Echelle et al, 2015; Kozal et al, 2017; Matthews & Turner, 2019)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
