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Multiple drivers of functional diversity in temperate forest understories: Climate, soil, and forest structure effects

In macroecology, shifting from coarse- to local-scale explanatory factors is crucial for understanding how global change impacts functional diversity (FD). Plants possess diverse traits allowing them to differentially respond across a spectrum of environmental conditions. We aim to assess how macro-...

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Published in:The Science of the total environment 2024-03, Vol.916, p.170258-170258, Article 170258
Main Authors: Chelli, Stefano, Bricca, Alessandro, Tsakalos, James L., Andreetta, Anna, Bonari, Gianmaria, Campetella, Giandiego, Carnicelli, Stefano, Cervellini, Marco, Puletti, Nicola, Wellstein, Camilla, Canullo, Roberto
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Language:English
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Summary:In macroecology, shifting from coarse- to local-scale explanatory factors is crucial for understanding how global change impacts functional diversity (FD). Plants possess diverse traits allowing them to differentially respond across a spectrum of environmental conditions. We aim to assess how macro- to microclimate, stand-scale measured soil properties, forest structure, and management type, influence forest understorey FD at the macroecological scale. Our study covers Italian forests, using thirteen predictors categorized into climate, soil, forest structure, and management. We analyzed five traits (i.e., specific leaf area, plant size, seed mass, belowground bud bank size, and clonal lateral spread) capturing independent functional dimensions to calculate the standardized effect size of functional diversity (SES-FD) for all traits (multi-trait) and for single traits. Multiple regression models were applied to assess the effect of predictors on SES-FD. We revealed that climate, soil, and forest structure significantly drive SES-FD of specific leaf area, plant size, seed mass, and bud bank. Forest management had a limited effect. However, differences emerged between herbaceous and woody growth forms of the understorey layer, with herbaceous species mainly responding to climate and soil features, while woody species were mainly affected by forest structure. Future warmer and more seasonal climate could reduce the diversity of resource economics, plant size, and persistence strategies of the forest understorey. Soil eutrophication and acidification may impact the diversity of regeneration strategies; canopy closure affects the diversity of above- and belowground traits, with a larger effect on woody species. Multifunctional approaches are vital to disentangle the effect of global changes on functional diversity since independent functional specialization axes are modulated by different drivers. [Display omitted] •Functional diversity of forest understory plants is susceptible to global changes.•Forest subcanopy temperature helps to unravel the effect of climate change.•Climate change reduces the diversity of plant strategies in forest understory.•Canopy closure affects the diversity of leaf-height-seed traits.•Soil acidification and eutrophication impact the diversity of regeneration strategies.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2024.170258