Abstract
Identifying processes that promote or limit gene flow can help define the ecological and evolutionary history of a species. Furthermore, defining those factors that make up “species boundaries” can provide a definition of the independent evolutionary trajectories of related taxa. For many species, the historic processes that account for their distribution of genetic variation remain unresolved. In this study, we examine the geographic distribution of genetic diversity for two species of Louisiana Irises, Iris brevicaulis and Iris fulva. Specifically, we asked how populations are structured and if population structure coincides with potential barriers to gene flow. We also asked whether there is evidence of hybridization between these two species outside Louisiana hybrid zones. We used a genotyping-by-sequencing approach and sampled a large number of single nucleotide polymorphisms across these species' genomes. Two different population assignment methods were used to resolve population structure in I. brevicaulis; however, there was considerably less population structure in I. fulva. We used a species tree approach to infer phylogenies both within and between populations and species. For I. brevicaulis, the geography of the collection locality was reflected in the phylogeny. The I. fulva phylogeny reflected much less structure than detected for I. brevicaulis. Lastly, combining both species into a phylogenetic analysis resolved two of six populations of I. brevicaulis that shared alleles with I. fulva. Taken together, our results suggest major differences in the level and pattern of connectivity among populations of these two Louisiana Iris species.
Highlights
Evolutionary model systems abound, each holding their own promises and pitfalls dependent on the research regime, but many of these systems lack information regarding patterns of genetic diversity within natural populations beyond the reporting of estimates based on a handful of molecular markers
Ecology and Evolution published by John Wiley & Sons Ltd
We address the following questions regarding I. brevicaulis and I. fulva: (1) How is genetic diversity partitioned and how are populations structured? (2) Does population structure coincide with potential geographic barriers to gene flow, such as the Mississippi River? (3) Is there evidence of hybridization between these species beyond the hybrid zones defined in the state of Louisiana?
Summary
Evolutionary model systems abound, each holding their own promises and pitfalls dependent on the research regime, but many of these systems lack information regarding patterns of genetic diversity within natural populations beyond the reporting of estimates based on a handful of molecular markers. With current advances in genomic approaches, examining such geographic patterns of genetic variation has become possible (e.g., see June 2013 Molecular Ecology Special Issue: Genotyping By Sequencing in Ecological and Conservation Genomics) (Rieseberg 2013). Understanding these patterns is important because of the influence past geological events and genetic drift play on the demography and genetics of populations and species (Hewitt 2000). Ecology and Evolution published by John Wiley & Sons Ltd. Ecology and Evolution published by John Wiley & Sons Ltd
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