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Vulnerability of mineral-organic associations in the rhizosphere

Tobias Bölscher, Zoë G. Cardon, Mariela Garcia Arredondo, Stéphanie Grand, Gabriella Griffen, Rachel Hestrin, Josephine Imboden, Floriane Jamoteau, Emily M. Lacroix, Sherlynette Pérez Castro, Per Persson, W. J. Riley, Marco Keiluweit

2025Nature Communications34 citationsDOIOpen Access PDF

Abstract

The majority of soil carbon (C) is stored in organic matter associated with reactive minerals. These mineral-organic associations (MOAs) inhibit microbial and enzymatic access to organic matter, suggesting that organic C within MOAs is resistant to decomposition. However, plant roots and rhizosphere microbes are known to transform minerals through dissolution and exchange reactions, implying that MOAs in the rhizosphere can be dynamic. Here we identify key drivers, mechanisms, and controls of MOA disruption in the rhizosphere and present a new conceptual framework for the vulnerability of soil C within MOAs. We introduce a vulnerability spectrum that highlights how MOAs characteristic of certain ecosystems are particularly susceptible to specific root-driven disruption mechanisms. This vulnerability spectrum provides a framework for critically assessing the importance of MOA disruption mechanisms at the ecosystem scale. Comprehensive representation of not only root-driven MOA formation, but also disruption, will improve model projections of soil C-climate feedbacks and guide the development of more effective soil C management strategies.

Topics & Concepts

RhizosphereEcosystemEnvironmental scienceOrganic matterVulnerability (computing)Soil organic matterEnvironmental chemistrySoil scienceEcologyChemistryBiologySoil waterComputer scienceComputer securityBacteriaGeneticsSoil Carbon and Nitrogen DynamicsArsenic contamination and mitigationMicrobial Community Ecology and Physiology
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