Doctor of Philosophy (PhD), Ohio University, 2023, Biological Sciences (Arts and Sciences)

Gene flow and geography are critically influential factors in shaping the genetic history of a species. Gene flow can have beneficial effects on a population that may allow for new adaptations to occur, such as increasing genetic variation. However, gene flow may also result in negative consequences for populations if their fitness is decreased through the introduction of non-optimized traits or through selection resulting in a reduction of locally adapted individuals. Asymmetrical gene flow can even prevent local adaptation in edge populations when gene flow from central populations adapted to central conditions swamps locally adapted populations. This phenomenon can prevent a species from expanding its range, as it is unable to adapt to local conditions at the range edges. Thus, patterns of gene flow can determine the extent to which gene flow slows or promotes adaptation. Gene flow can also create problems for the inference of species relationships, because it is a source of gene tree-species tree discordance. While speciation is commonly modeled as a finite event, divergence is a process. Even after divergence, hybridization is common, and neglecting to account for it can lead to incorrect species tree inference. Nonetheless, the development of species tree inference methods that account for gene flow remains in its infancy. Even with the addition of more loci from genomic-scale data, gene flow misleads phylogenetic reconstruction. Thus, it is vital to account for gene flow with phylogenetic networks when inferring species relationships. This dissertation examines the role of gene flow in constraining adaptation in the Cumberland Plateau Salamander, Plethodon kentucki, a cryptic species with respect to the sympatric Northern Slimy Salamander, Plethodon glutinosus. After its description in 1983 by Highton and MacGregor using allozyme data, its taxonomic status was unclear, as the authors reported extreme levels of genetic differentiatio (open full item for complete abstract)

Committee: Shawn Kuchta (Advisor); John Schenk (Committee Member); Diego Alvarado-Serrano (Committee Member); Susan Williams (Committee Member) Subjects: Biology; Evolution and Development