1. Alternatives to genetic affinity as a context for within-species response to climate
- Author
-
Megan Mueller, Mackenzie R. Jeffress, Adam B. Smith, Kurt E. Galbreath, Chris MacGlover, Charles L. Hayes, Angie Schmidt, Kerry R. Foresman, L. Embere Hall, Beth Pratt, Tom Manning, Jim Jacobson, Mitch East, Leona K. Svancara, Shannon L. Hilty, Martin Nugent, Kristina A. Ernest, Liesl P. Erb, Mary Rasmussen-Flores, Kevin C. Rowe, Brian Fauver, Mark Edwards, Gail H. Collins, Karen M. C. Rowe, Lucas Moyer-Horner, Thomas J. Rodhouse, Hillary L. Robison, Ken Goehring, Michael A. Russello, Christopher Daly, Joan C. Hagar, Vicki Saab, Peter D Billman, Clinton W. Epps, Aaron N. Johnston, Jennifer L. Wilkening, Chris Curlis, Joseph A. E. Stewart, Hayley C. Lanier, John D. Perrine, Matthew D. Waterhouse, Bryce A. Maxell, Marie L. Westover, Philippe Henry, Chris Ray, Jason Brewer, Anna D. Chalfoun, James N. Stuart, Corrie McFarland, April Craighead, Kimberly A. Hersey, Amy E. Seglund, Aimee Elizabeth Kessler, Julie Timmins, Jessica A. Castillo Vardaro, Toni Lyn Morelli, Daniel F. Doak, Will Thompson, Johanna Varner, Rob Klinger, Rayo McCollough, Eric Miskow, Amy Masching, Erik A. Beever, Tom H. Rickman, Leah H. Yandow, Gretchen Blatz, Arthur Rodriguez, and Gregg Treinish
- Subjects
American pika ,biology ,Ecology ,Lineage (evolution) ,Biogeography ,Climate change ,Context (language use) ,Environmental Science (miscellaneous) ,biology.organism_classification ,Intraspecific competition ,Ecoregion ,Geography ,Conservation biology ,Social Sciences (miscellaneous) - Abstract
Accounting for within-species variability in the relationship between occurrence and climate is essential to forecasting species’ responses to climate change. Few climate-vulnerability assessments explicitly consider intraspecific variation, and those that do typically assume that variability is best explained by genetic affinity. Here, we evaluate how well heterogeneity in responses to climate by a cold-adapted mammal, the American pika (Ochotona princeps), aligns with subdivisions of the geographic range by phylogenetic lineage, physiography, elevation or ecoregion. We find that variability in climate responses is most consistently explained by an ecoregional subdivision paired with background sites selected from a broad spatial extent indicative of long-term (millennial-scale) responses to climate. Our work challenges the common assumption that intraspecific variation in climate responses aligns with genetic affinity. Accounting for the appropriate context and scale of heterogeneity in species’ responses to climate will be critical for informing climate-adaptation management strategies at the local (spatial) extents at which such actions are typically implemented. Intraspecies response to climate change is expected to align with genetic affinity. Using the American pika as a case study suggests that divisions of species distributions best explain intraspecific heterogeneity in climate relationships.
- Published
- 2019
- Full Text
- View/download PDF