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    Author(s): Michael E. Van Nuland; John B. Vincent; Ian M. Ware; Liam O. Mueller; Shannon L. J. Bayliss; Kendall K. Beals; Jennifer A. Schweitzer; Joseph K. Bailey
    Date: 2020
    Source: Ecology and Evolution
    Publication Series: Scientific Journal (JRNL)
    Station: Pacific Southwest Research Station
    PDF: Download Publication  (1.0 MB)

    Description

    Global change is widely altering environmental conditions which makes accurately predicting species range limits across natural landscapes critical for conservation and management decisions. If climate pressures along elevation gradients influence the distribution of phenotypic and genetic variation of plant functional traits, then such trait variation may be informative of the selective mechanisms and adaptations that help define climatic niche limits. Using extensive field surveys along 16 elevation transects and a large common garden experiment, we tested whether functional trait variation could predict the climatic niche of a widespread tree species (Populus angustifolia ) with a double quantile regression approach. We show that intraspecific variation in plant size, growth, and leaf morphology corresponds with the species' total climate range and certain climatic limits related to temperature and moisture extremes. Moreover, we find evidence of genetic clines and phenotypic plasticity at environmental boundaries, which we use to create geographic predictions of trait variation and maximum values due to climatic constraints across the western US. Overall, our findings show the utility of double quantile regressions for connecting species distributions and climate gradients through trait‐based mechanisms. We highlight how new approaches like ours that incorporate genetic variation in functional traits and their response to climate gradients will lead to a better understanding of plant distributions as well as identifying populations anticipated to be maladapted to future environments.

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    Citation

    Van Nuland, Michael E.; Vincent, John B.; Ware, Ian M.; Mueller, Liam O.; Bayliss, Shannon L. J.; Beals, Kendall K.; Schweitzer, Jennifer A.; Bailey, Joseph K. 2020. Intraspecific trait variation across elevation predicts a widespread tree species' climate niche and range limits. Ecology and Evolution. 10(9): 3856-3867. https://doi.org/10.1002/ece3.5969.

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    Keywords

    adaptation, climate range, ecological niche models, elevation gradient, functional traits, intraspecific variation, phenotypic plasticity, quantile regression

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https://www.fs.usda.gov/treesearch/pubs/60437