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Disentangling the effects of region, forest-management intensity and plant diversity on litterfall quantity, quality and turnover in temperate forests
Disentangling the effects of region, forest-management intensity and plant diversity on litterfall quantity, quality and turnover in temperate forests
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Disentangling the effects of region, forest-management intensity and plant diversity on litterfall quantity, quality and turnover in temperate forests
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Disentangling the effects of region, forest-management intensity and plant diversity on litterfall quantity, quality and turnover in temperate forests
Disentangling the effects of region, forest-management intensity and plant diversity on litterfall quantity, quality and turnover in temperate forests

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Disentangling the effects of region, forest-management intensity and plant diversity on litterfall quantity, quality and turnover in temperate forests
Disentangling the effects of region, forest-management intensity and plant diversity on litterfall quantity, quality and turnover in temperate forests
Journal Article

Disentangling the effects of region, forest-management intensity and plant diversity on litterfall quantity, quality and turnover in temperate forests

2024
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Overview
Purpose Simultaneous effects of more than one global change driver on ecosystem functioning have rarely been assessed. Methods We disentangled the effects of region encompassing climatic and edaphic conditions, forest-management intensity and community plant diversity on litterfall quantity, quality and turnover in 27 temperate forests across an environmental gradient. Results Region significantly influenced litterfall and organic layer mass and chemical quality and litter and element turnover. After accounting for the influence of region, increasing forest-management intensity (ForMI) significantly decreased litterfall mass, N, P and K concentrations and nutrient fluxes and slowed down litter and nutrient turnover. Because increasing ForMI reflected the man-made contributions of coniferous trees, these results can partly be attributed to the lower litterfall at our study sites and slower litter turnover of coniferous than deciduous trees. After accounting for the influences of region and ForMI, increasing diversity of the vascular plant community on the study plots measured as species richness or Shannon index significantly increased C and decreased N, P and S concentrations in litterfall. Together with the significantly decreased N and P concentrations in the organic layer with increasing plant diversity, these results indicated an increased within-stand nutrient-use efficiency and a more complete soil nutrient use with increasing plant diversity. Conclusions Our results demonstrate that increasing ForMI, which is associated with increasing conifer shares, leaves element stocks in the organic layer unchanged but slows down C turnover and thus increases temporary C storage in soil organic layers. Moreover, community vascular plant diversity helps close nutrient cycles.