Shifts in trait means and variances in North American tree assemblages: species richness patterns are loosely related to the functional space |
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| Authors: | Irena ?ímová Cyrille Violle Nathan J B Kraft David Storch Jens‐Christian Svenning Brad Boyle John C Donoghue II Peter Jørgensen Brian J McGill Naia Morueta‐Holme William H Piel Robert K Peet Jim Regetz Mark Schildhauer Nick Spencer Barbara Thiers Susan Wiser Brian J Enquist |
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| Institution: | 1. Center for Theoretical Study, Charles Univ. in Prague and Academy of Sciences of the Czech Republic, Praha, Czech Republic;2. Centre d'Ecologie Fonctionnelle et Evolutive, UMR 5175, CNRS, Montpellier, France;3. Dept of Biology, Univ. of Maryland, College Park, USA;4. Dept of Ecology, Faculty of Science, Charles Univ., Praha 2, Czech Republic;5. Section for Ecoinformatics and Biodiversity, Dept of Bioscience, Aarhus Univ., Aarhus C, Denmark;6. Dept of Ecology and Evolutionary Biology, Univ. of Arizona, Tucson, USA;7. The iPlant Collaborative, Thomas W. Keating Bioresearch Building, Tucson, USA;8. Missouri Botanical Garden, PO Box 299, St Louis, USA;9. School of Biology and Ecology/Sustainability Solutions Initiative, Univ. of Maine, Orono, USA;10. Yale‐NUS College, Singapore;11. Dept of Biology, Univ. of North Carolina, Chapel Hill, USA;12. National Center for Ecological Analysis and Synthesis, Univ. of California Santa Barbara, Santa Barbara, USA;13. Landcare Research, Lincoln, New Zealand;14. New York Botanical Garden, Bronx, USA;15. The Santa Fe Inst., Santa Fe, USA |
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| Abstract: | One of the key hypothesized drivers of gradients in species richness is environmental filtering, where environmental stress limits which species from a larger species pool gain membership in a local community owing to their traits. Whereas most studies focus on small‐scale variation in functional traits along environmental gradient, the effect of large‐scale environmental filtering is less well understood. Furthermore, it has been rarely tested whether the factors that constrain the niche space limit the total number of coexisting species. We assessed the role of environmental filtering in shaping tree assemblages across North America north of Mexico by testing the hypothesis that colder, drier, or seasonal environments (stressful conditions for most plants) constrain tree trait diversity and thereby limit species richness. We assessed geographic patterns in trait filtering and their relationships to species richness pattern using a comprehensive set of tree range maps. We focused on four key plant functional traits reflecting major life history axes (maximum height, specific leaf area, seed mass, and wood density) and four climatic variables (annual mean and seasonality of temperature and precipitation). We tested for significant spatial shifts in trait means and variances using a null model approach. While we found significant shifts in mean species’ trait values at most grid cells, trait variances at most grid cells did not deviate from the null expectation. Measures of environmental harshness (cold, dry, seasonal climates) and lower species richness were weakly associated with a reduction in variance of seed mass and specific leaf area. The pattern in variance of height and wood density was, however, opposite. These findings do not support the hypothesis that more stressful conditions universally limit species and trait diversity in North America. Environmental filtering does, however, structure assemblage composition, by selecting for certain optimum trait values under a given set of conditions. |
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