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Climate-Driven Selection Results In Powerful Geographic Framework For Predicting Phenotype, Alexandra Neild
Climate-Driven Selection Results In Powerful Geographic Framework For Predicting Phenotype, Alexandra Neild
Masters Theses
Our ability to prepare for and mitigate the likely ecological and evolutionary impacts of climate change largely depends upon our ability to predict the phenotypic responses of organisms that allow them to persist, adapt, and migrate along environmental stress gradients. Using fifteen populations of cottonwoods, a dominant riparian forest tree, that are distributed along elevation gradients and represent three genetic provenances, we hypothesized and show that: 1) populations within a provenance demonstrate parallel evolutionary responses to climatic gradients associated with elevation; and 2) the evolutionary effects of elevation on bud-break phenology varied by provenance. Across all populations, we find strong …