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Article
Survival Rates Indicate that Correlations Between Community-Weighted Mean Traits and Environments can be Unreliable Estimates of the Adaptive Value of Traits
Ecology Letters
  • Daniel C. Laughlin, University of Wyoming
  • Robert T. Strahan, Southern Oregon University
  • Peter B. Adler, Utah State University
  • Margaret M. Moore, Northern Arizona University
Document Type
Article
Publication Date
1-22-2018
Abstract
Correlations between community-weighted mean (CWM) traits and environmental gradients are often assumed to quantify the adaptive value of traits. We tested this assumption by comparing these correlations with models of survival probability using 46 perennial species from long-term permanent plots in pine forests of Arizona. Survival was modeled as a function of trait-by-environment interactions, plant size, climatic variation, and neighborhood competition. The effect of traits on survival depended on the environmental conditions, but the two statistical approaches were inconsistent. For example, CWM specific leaf area (SLA) and soil fertility were uncorrelated. However, survival was highest for species with low SLA in infertile soil, a result which agreed with expectations derived from the physiological tradeoff underpinning leaf economic theory. CWM trait-environment relationships were unreliable estimates of how traits affected survival, and should only be used in predictive models when there is empirical support for an evolutionary tradeoff that affects vital rates.
Citation Information
Daniel C. Laughlin, Robert T. Strahan, Peter B. Adler and Margaret M. Moore. "Survival Rates Indicate that Correlations Between Community-Weighted Mean Traits and Environments can be Unreliable Estimates of the Adaptive Value of Traits" Ecology Letters (2018)
Available at: http://works.bepress.com/peter_adler/132/