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000885506 1001_ $$00000-0003-0085-4535$$aPuglielli, Giacomo$$b0$$eCorresponding author
000885506 245__ $$aGlobal patterns of biomass allocation in woody species with different tolerance of shade and drought: evidence for multiple strategies
000885506 260__ $$aOxford [u.a.]$$bWiley-Blackwell$$c2021
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000885506 520__ $$aThe optimal partitioning theory predicts that plants of a given species acclimate to different environments by allocating a larger proportion of biomass to the organs acquiring the most limiting resource. Are similar patterns found across species adapted to environments with contrasting levels of abiotic stress?We tested the optimal partitioning theory by analysing how fractional biomass allocation to leaves, stems and roots differed between woody species with different tolerances of shade and drought in plants of different age and size (seedlings to mature trees) using a global dataset including 604 species.No overarching biomass allocation patterns at different tolerance values across species were found. Biomass allocation varied among functional types as a result of phenological (deciduous vs evergreen broad-leaved species) and broad phylogenetical (angiosperms vs gymnosperms) differences. Furthermore, the direction of biomass allocation responses between tolerant and intolerant species was often opposite to that predicted by the optimal partitioning theory.We conclude that plant functional type is the major determinant of biomass allocation in woody species. We propose that interactions between plant functional type, ontogeny and species-specific stress tolerance adaptations allow woody species with different shade and drought tolerances to display multiple biomass partitioning strategies
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000885506 7001_ $$00000-0003-2215-7298$$aLaanisto, Lauri$$b1
000885506 7001_ $$0P:(DE-Juel1)129384$$aPoorter, Hendrik$$b2
000885506 7001_ $$00000-0002-3078-2192$$aNiinemets, Ülo$$b3
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