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Microbial trait multifunctionality drives soil organic matter formation potential

Author

Listed:
  • Emily D. Whalen

    (University of New Hampshire
    University of New Hampshire)

  • A. Stuart Grandy

    (University of New Hampshire
    University of New Hampshire)

  • Kevin M. Geyer

    (Young Harris College)

  • Eric W. Morrison

    (University of New Hampshire)

  • Serita D. Frey

    (University of New Hampshire
    University of New Hampshire)

Abstract

Soil microbes are a major source of organic residues that accumulate as soil organic matter, the largest terrestrial reservoir of carbon on Earth. As such, there is growing interest in determining the microbial traits that drive soil organic matter formation and stabilization; however, whether certain microbial traits consistently predict soil organic matter accumulation across different functional pools (e.g., total vs. stable soil organic matter) is unresolved. To address these uncertainties, we incubated individual species of fungi in soil organic matter-free model soils, allowing us to directly relate the physiological, morphological, and biochemical traits of fungi to their soil organic matter formation potentials. We find that the formation of different soil organic matter functional pools is associated with distinct fungal traits, and that ‘multifunctional’ species with intermediate investment across this key grouping of traits (namely, carbon use efficiency, growth rate, turnover rate, and biomass protein and phenol contents) promote soil organic matter formation, functional complexity, and stability. Our results highlight the limitations of categorical trait-based frameworks that describe binary trade-offs between microbial traits, instead emphasizing the importance of synergies among microbial traits for the formation of functionally complex soil organic matter.

Suggested Citation

  • Emily D. Whalen & A. Stuart Grandy & Kevin M. Geyer & Eric W. Morrison & Serita D. Frey, 2024. "Microbial trait multifunctionality drives soil organic matter formation potential," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-53947-2
    DOI: 10.1038/s41467-024-53947-2
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    References listed on IDEAS

    as
    1. Johannes Lehmann & Markus Kleber, 2015. "The contentious nature of soil organic matter," Nature, Nature, vol. 528(7580), pages 60-68, December.
    2. Luiz A. Domeignoz-Horta & Grace Pold & Xiao-Jun Allen Liu & Serita D. Frey & Jerry M. Melillo & Kristen M. DeAngelis, 2020. "Microbial diversity drives carbon use efficiency in a model soil," Nature Communications, Nature, vol. 11(1), pages 1-10, December.
    3. Cynthia M. Kallenbach & Serita D. Frey & A. Stuart Grandy, 2016. "Direct evidence for microbial-derived soil organic matter formation and its ecophysiological controls," Nature Communications, Nature, vol. 7(1), pages 1-10, December.
    4. Matthew E. Craig & Kevin M. Geyer & Katilyn V. Beidler & Edward R. Brzostek & Serita D. Frey & A. Stuart Grandy & Chao Liang & Richard P. Phillips, 2022. "Fast-decaying plant litter enhances soil carbon in temperate forests but not through microbial physiological traits," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    5. Kristina Witzgall & Alix Vidal & David I. Schubert & Carmen Höschen & Steffen A. Schweizer & Franz Buegger & Valérie Pouteau & Claire Chenu & Carsten W. Mueller, 2021. "Particulate organic matter as a functional soil component for persistent soil organic carbon," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    6. Feng Tao & Yuanyuan Huang & Bruce A. Hungate & Stefano Manzoni & Serita D. Frey & Michael W. I. Schmidt & Markus Reichstein & Nuno Carvalhais & Philippe Ciais & Lifen Jiang & Johannes Lehmann & Ying-P, 2023. "Microbial carbon use efficiency promotes global soil carbon storage," Nature, Nature, vol. 618(7967), pages 981-985, June.
    7. Gerrit Angst & Kevin E. Mueller & Michael J. Castellano & Cordula Vogel & Martin Wiesmeier & Carsten W. Mueller, 2023. "Unlocking complex soil systems as carbon sinks: multi-pool management as the key," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
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