4.5 Article

Increased hydraulic risk in assemblages of woody plant species predicts spatial patterns of drought-induced mortality

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NATURE ECOLOGY & EVOLUTION
卷 7, 期 10, 页码 1620-1632

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NATURE PORTFOLIO
DOI: 10.1038/s41559-023-02180-z

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This study integrates information on the edaphoclimatic niches, phylogeny, and hydraulic traits of woody plants to model the hydraulic risk globally. It finds that local assemblages with higher hydraulic risk have a higher probability of mortality. The methodology presented in this study improves our ability to predict potential global change impacts on vegetation by mapping functional trait distributions and elucidating global macro-evolutionary and biogeographical patterns.
Predicting drought-induced mortality (DIM) of woody plants remains a key research challenge under climate change. Here, we integrate information on the edaphoclimatic niches, phylogeny and hydraulic traits of species to model the hydraulic risk of woody plants globally. We combine these models with species distribution records to estimate the hydraulic risk faced by local woody plant species assemblages. Thus, we produce global maps of hydraulic risk and test for its relationship with observed DIM. Our results show that local assemblages modelled as having higher hydraulic risk present a higher probability of DIM. Metrics characterizing this hydraulic risk improve DIM predictions globally, relative to models accounting only for edaphoclimatic predictors or broad functional groupings. The methodology we present here allows mapping of functional trait distributions and elucidation of global macro-evolutionary and biogeographical patterns, improving our ability to predict potential global change impacts on vegetation.

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