Biochar built soil carbon over a decade by stabilizing rhizodeposits

Weng, Zhe (Han); Van Zwieten, Lukas; Cozzolino, Daniel; Araujo, Joyce R.; Archanjo, Braulio S.; Cowie, Annette; Singh, Bhupinder Pal; Tavakkoli, Ehsan; Joseph, Stephen; Macdonald, Lynne M.; Rose, Terry J.; Rose, Michael T.; Kimber, Stephen W. L.; Morris, Stephen

Title: Biochar built soil carbon over a decade by stabilizing rhizodeposits
Creator: Weng, Zhe (Han); Van Zwieten, Lukas; Cozzolino, Daniel; Araujo, Joyce R.; Archanjo, Braulio S.; Cowie, Annette; Singh, Bhupinder Pal; Tavakkoli, Ehsan; Joseph, Stephen; Macdonald, Lynne M.; Rose, Terry J.; Rose, Michael T.; Kimber, Stephen W. L.; Morris, Stephen
Relation: Nature Climate Change Vol. 7, Issue 5, p. 371-379
Publisher Link: http://dx.doi.org/10.1038/NCLIMATE3276
Publisher: Nature Publishing Group
Resource Type: journal article
Date: 2017
Description: Biochar can increase the stable C content of soil. However, studies on the longer-term role of plant–soil–biochar interactions and the consequent changes to native soil organic carbon (SOC) are lacking. Periodic ¹³CO₂ pulse labelling of ryegrass was used to monitor belowground C allocation, SOC priming, and stabilization of root-derived C for a 15-month period—commencing 8.2 years after biochar (Eucalyptus saligna, 550 °C) was amended into a subtropical ferralsol. We found that field-aged biochar enhanced the belowground recovery of new root-derived C (¹³C) by 20%, and facilitated negative rhizosphere priming (it slowed SOC mineralization by 5.5%, that is, 46 g CO₂-C m⁻² yr⁻¹). Retention of root-derived ¹³C in the stable organo-mineral fraction (<53 μm) was also increased (6%, P < 0.05). Through synchrotron-based spectroscopic analysis of bulk soil, field-aged biochar and microaggregates (<250 μm), we demonstrate that biochar accelerates the formation of microaggregates via organo-mineral interactions, resulting in the stabilization and accumulation of SOC in a rhodic ferralsol.
Subject: Biochar; soil carbon; stabilizing rhizodeposits; native soil
Identifier: http://hdl.handle.net/1959.13/1351596
Identifier: uon:30741
Identifier: ISSN:1758-678X
Language: eng
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