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Tree diversity increases decadal forest soil carbon and nitrogen accrual

Xinli Chen, Anthony R. Taylor, Peter B. Reich, Masumi Hisano, Han Y. H. Chen () and Scott X. Chang ()
Additional contact information
Xinli Chen: University of Alberta
Anthony R. Taylor: University of New Brunswick
Peter B. Reich: University of Michigan
Masumi Hisano: The University of Tokyo
Han Y. H. Chen: Lakehead University
Scott X. Chang: University of Alberta

Nature, 2023, vol. 618, issue 7963, 94-101

Abstract: Abstract Increasing soil carbon and nitrogen storage can help mitigate climate change and sustain soil fertility1,2. A large number of biodiversity-manipulation experiments collectively suggest that high plant diversity increases soil carbon and nitrogen stocks3,4. It remains debated, however, whether such conclusions hold in natural ecosystems5–12. Here we analyse Canada’s National Forest Inventory (NFI) database with the help of structural equation modelling (SEM) to explore the relationship between tree diversity and soil carbon and nitrogen accumulation in natural forests. We find that greater tree diversity is associated with higher soil carbon and nitrogen accumulation, validating inferences from biodiversity-manipulation experiments. Specifically, on a decadal scale, increasing species evenness from its minimum to maximum value increases soil carbon and nitrogen in the organic horizon by 30% and 42%, whereas increasing functional diversity enhances soil carbon and nitrogen in the mineral horizon by 32% and 50%, respectively. Our results highlight that conserving and promoting functionally diverse forests could promote soil carbon and nitrogen storage, enhancing both carbon sink capacity and soil nitrogen fertility.

Date: 2023
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Citations: View citations in EconPapers (5)

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DOI: 10.1038/s41586-023-05941-9

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