The roles of history, geography, and environment in shaping landscape genetic variation and its applied significance

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Authors

Galland, Lanie

Issue Date

2022

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Dissertation

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GEA offset , genomic variation , next generation DNA sequencing , population genetics , population gentetics , RADseq

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The decline and loss of species and genetic diversity as a result of anthropogenic change is occurring at an unprecedented rate, reshaping biodiversity and restructuring ecosystems. Population genetic variation is shaped by evolutionary processes and in turn determines the evolutionary potential of natural populations. Facilitated by recent improvements in DNA sequencing technologies, population genomic analyses can resolve patterns of genetic differentiation and evolutionary history, characterize the effects of evolutionary process on genome variation, and facilitate an understanding of how response to environmental variation may underlie local adaptation. Such analyses can inform conservation and restoration by establishing baseline patterns of genetic variation across the landscape, recognizing evolutionary significant units, sourcing propagules for restoration, and predicting species response to changing environmental conditions. Here, I applied high throughput DNA sequencing approaches to characterize the historical, spatial, and environmental factors shaping genetic variation in several systems of conservation and restoration significance. First, I investigated hierarchical genetic structure and evolutionary history of Hucho taimen (taimen, the world’s largest salmonid), listed as vulnerable by the International Union for Conservation of Nature (IUCN), across multiple river basins in Russia and Mongolia. Second, I characterized patterns of emergent population genetic structure of nonnative Oncorhynchus mykiss (rainbow trout) in the Lake Tahoe basin to inform reintroduction of the U.S. Endangered Species Act listed native cutthroat trout Oncorhynchus clarkii henshawi (Lahontan cutthroat trout). Rainbow trout have been widely introduced across the globe, stocked for >50 years into Lake Tahoe, and an understanding of population genetic structure may help inform strategies for successful native species reintroduction. Finally, I quantified spatial genetic structure, identified environmental variables potentially involved in local adaptation, and predicted variation in maladaptation under projected climate change across the range of Pinus muricata, a closed-cone pine occurring in a small number of isolated and disjunct stands along the coast of California, and also listed as vulnerable by the IUCN. Collectively, my research highlights the wide utility of population genomic analyses for taxa of conservation and restoration significance.

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