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Resource availability enhances positive tree functional diversity effects on carbon and nitrogen accrual in natural forests

Author

Listed:
  • Xinli Chen

    (Zhejiang A&F University
    University of Alberta
    University of Michigan)

  • Peter B. Reich

    (University of Michigan
    University of Minnesota
    Western Sydney University)

  • Anthony R. Taylor

    (University of New Brunswick)

  • Zhengfeng An

    (University of Alberta)

  • Scott X. Chang

    (Zhejiang A&F University
    University of Alberta)

Abstract

Forests harbor extensive biodiversity and act as a strong global carbon and nitrogen sink. Although enhancing tree diversity has been shown to mitigate climate change by sequestering more carbon and nitrogen in biomass and soils in manipulative experiments, it is still unknown how varying environmental gradients, such as gradients in resource availability, mediate the effects of tree diversity on carbon and nitrogen accrual in natural forests. Here, we use Canada’s National Forest Inventory data to explore how the relationships between tree diversity and the accumulation of carbon and nitrogen in tree biomass and soils vary with resource availability and environmental stressors in natural forests. We find that the positive relationship between tree functional diversity (rather than species richness) and the accumulation of carbon in tree biomass strengthens with increasing light and soil nutrient availability. Moreover, the positive relationship between tree functional diversity and the accumulation of carbon and nitrogen in both organic and mineral soil horizons is more pronounced at sites with greater water and nutrient availabilities. Our results highlight that conserving and promoting functionally diverse forests in resource-rich environments could play a greater role than in resource-poor environments in enhancing carbon and nitrogen sequestration in Canada’s forests.

Suggested Citation

  • Xinli Chen & Peter B. Reich & Anthony R. Taylor & Zhengfeng An & Scott X. Chang, 2024. "Resource availability enhances positive tree functional diversity effects on carbon and nitrogen accrual in natural forests," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-53004-y
    DOI: 10.1038/s41467-024-53004-y
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    References listed on IDEAS

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    1. Xinli Chen & Anthony R. Taylor & Peter B. Reich & Masumi Hisano & Han Y. H. Chen & Scott X. Chang, 2023. "Tree diversity increases decadal forest soil carbon and nitrogen accrual," Nature, Nature, vol. 618(7963), pages 94-101, June.
    2. Ian J. Wright & Peter B. Reich & Mark Westoby & David D. Ackerly & Zdravko Baruch & Frans Bongers & Jeannine Cavender-Bares & Terry Chapin & Johannes H. C. Cornelissen & Matthias Diemer & Jaume Flexas, 2004. "The worldwide leaf economics spectrum," Nature, Nature, vol. 428(6985), pages 821-827, April.
    3. Marie Spohn & Sumanta Bagchi & Lori A. Biederman & Elizabeth T. Borer & Kari Anne Bråthen & Miguel N. Bugalho & Maria C. Caldeira & Jane A. Catford & Scott L. Collins & Nico Eisenhauer & Nicole Hagena, 2023. "The positive effect of plant diversity on soil carbon depends on climate," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    4. Markus Lange & Nico Eisenhauer & Carlos A. Sierra & Holger Bessler & Christoph Engels & Robert I. Griffiths & Perla G. Mellado-Vázquez & Ashish A. Malik & Jacques Roy & Stefan Scheu & Sibylle Steinbei, 2015. "Plant diversity increases soil microbial activity and soil carbon storage," Nature Communications, Nature, vol. 6(1), pages 1-8, November.
    5. Xinli Chen & Han Y. H. Chen & Eric B. Searle & Chen Chen & Peter B. Reich, 2021. "Negative to positive shifts in diversity effects on soil nitrogen over time," Nature Sustainability, Nature, vol. 4(3), pages 225-232, March.
    6. Peter B. Reich & Jean Knops & David Tilman & Joseph Craine & David Ellsworth & Mark Tjoelker & Tali Lee & David Wedin & Shahid Naeem & Dan Bahauddin & George Hendrey & Shibu Jose & Keith Wrage & Jenny, 2001. "Plant diversity enhances ecosystem responses to elevated CO2 and nitrogen deposition," Nature, Nature, vol. 410(6830), pages 809-810, April.
    7. Xinli Chen & Anthony R. Taylor & Peter B. Reich & Masumi Hisano & Han Y. H. Chen & Scott X. Chang, 2023. "Publisher Correction: Tree diversity increases decadal forest soil carbon and nitrogen accrual," Nature, Nature, vol. 620(7973), pages 16-16, August.
    8. David A. Wardle & Olle Zackrisson, 2005. "Effects of species and functional group loss on island ecosystem properties," Nature, Nature, vol. 435(7043), pages 806-810, June.
    9. Sandra Díaz & Jens Kattge & Johannes H. C. Cornelissen & Ian J. Wright & Sandra Lavorel & Stéphane Dray & Björn Reu & Michael Kleyer & Christian Wirth & I. Colin Prentice & Eric Garnier & Gerhard Böni, 2016. "The global spectrum of plant form and function," Nature, Nature, vol. 529(7585), pages 167-171, January.
    10. Georges Kunstler & Daniel Falster & David A. Coomes & Francis Hui & Robert M. Kooyman & Daniel C. Laughlin & Lourens Poorter & Mark Vanderwel & Ghislain Vieilledent & S. Joseph Wright & Masahiro Aiba , 2016. "Plant functional traits have globally consistent effects on competition," Nature, Nature, vol. 529(7585), pages 204-207, January.
    11. Akira S. Mori & Laura E. Dee & Andrew Gonzalez & Haruka Ohashi & Jane Cowles & Alexandra J. Wright & Michel Loreau & Yann Hautier & Tim Newbold & Peter B. Reich & Tetsuya Matsui & Wataru Takeuchi & Ke, 2021. "Biodiversity–productivity relationships are key to nature-based climate solutions," Nature Climate Change, Nature, vol. 11(6), pages 543-550, June.
    12. Peter B. Reich & Kerrie M. Sendall & Artur Stefanski & Roy L. Rich & Sarah E. Hobbie & Rebecca A. Montgomery, 2018. "Effects of climate warming on photosynthesis in boreal tree species depend on soil moisture," Nature, Nature, vol. 562(7726), pages 263-267, October.
    13. Peter B. Reich & Jean Knops & David Tilman & Joseph Craine & David Ellsworth & Mark Tjoelker & Tali Lee & David Wedin & Shahid Naeem & Dan Bahauddin & George Hendrey & Shibu Jose & Keith Wrage & Jenny, 2001. "Correction: Plant diversity enhances ecosystem responses to elevated CO2 and nitrogen deposition," Nature, Nature, vol. 411(6839), pages 824-824, June.
    14. Shan Luo & Richard P. Phillips & Insu Jo & Songlin Fei & Jingjing Liang & Bernhard Schmid & Nico Eisenhauer, 2023. "Higher productivity in forests with mixed mycorrhizal strategies," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
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