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Microspectroscopic visualization of how biochar lifts the soil organic carbon ceiling

Author

Listed:
  • Zhe (Han) Weng

    (Wollongbar Primary Industries Institute
    University of New England
    La Trobe University
    The University of Queensland)

  • Lukas Zwieten

    (Wollongbar Primary Industries Institute
    Southern Cross University)

  • Ehsan Tavakkoli

    (Wagga Wagga Agriculture Institute
    The University of Adelaide)

  • Michael T. Rose

    (Wollongbar Primary Industries Institute)

  • Bhupinder Pal Singh

    (University of New England)

  • Stephen Joseph

    (University of Wollongong
    University of New South Wales)

  • Lynne M. Macdonald

    (CSIRO Agriculture & Food, Waite campus)

  • Stephen Kimber

    (Wollongbar Primary Industries Institute)

  • Stephen Morris

    (Wollongbar Primary Industries Institute)

  • Terry J. Rose

    (Southern Cross University)

  • Braulio S. Archanjo

    (Quality and Technology (INMETRO))

  • Caixian Tang

    (La Trobe University)

  • Ashley E. Franks

    (La Trobe University
    La Trobe University)

  • Hui Diao

    (The University of Queensland)

  • Steffen Schweizer

    (Technical University of Munich)

  • Mark J. Tobin

    (Australian Synchrotron, Clayton)

  • Annaleise R. Klein

    (Australian Synchrotron, Clayton)

  • Jitraporn Vongsvivut

    (Australian Synchrotron, Clayton)

  • Shery L. Y. Chang

    (University of New South Wales)

  • Peter M. Kopittke

    (The University of Queensland)

  • Annette Cowie

    (University of New England
    NSW Department of Primary Industries)

Abstract

The soil carbon (C) saturation concept suggests an upper limit to the storage of soil organic carbon (SOC). It is set by the mechanisms that protect soil organic matter from mineralization. Biochar has the capacity to protect new C, including rhizodeposits and microbial necromass. However, the decadal-scale mechanisms by which biochar influences the molecular diversity, spatial heterogeneity, and temporal changes in SOC persistence, remain unresolved. Here we show that the soil C storage ceiling of a Ferralsol under subtropical pasture was raised by a second application of Eucalyptus saligna biochar 8.2 years after the first application—the first application raised the soil C storage ceiling by 9.3 Mg new C ha−1 and the second application raised this by another 2.3 Mg new C ha−1. Linking direct visual evidence from one-, two-, and three-dimensional analyses with SOC quantification, we found high spatial heterogeneity of C functional groups that resulted in the retention of rhizodeposits and microbial necromass in microaggregates (53–250 µm) and the mineral fraction (

Suggested Citation

  • Zhe (Han) Weng & Lukas Zwieten & Ehsan Tavakkoli & Michael T. Rose & Bhupinder Pal Singh & Stephen Joseph & Lynne M. Macdonald & Stephen Kimber & Stephen Morris & Terry J. Rose & Braulio S. Archanjo &, 2022. "Microspectroscopic visualization of how biochar lifts the soil organic carbon ceiling," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-32819-7
    DOI: 10.1038/s41467-022-32819-7
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    References listed on IDEAS

    as
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    Cited by:

    1. Itamar A. Shabtai & Roland C. Wilhelm & Steffen A. Schweizer & Carmen Höschen & Daniel H. Buckley & Johannes Lehmann, 2023. "Calcium promotes persistent soil organic matter by altering microbial transformation of plant litter," Nature Communications, Nature, vol. 14(1), pages 1-13, December.

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