Bridging 20 Years of Soil Organic Matter Frameworks: Empirical Support, Model Representation, and Next Steps

Katherine S. Rocci, M. Francesca Cotrufo, Jessica Ernakovich, Erika Foster, Serita Frey, Katerina Georgiou, A. Stuart Grandy, Avni Malhotra, Peter B. Reich, Else P. Schlerman, William R. Wieder

Research output: Contribution to journalReview articlepeer-review

2 Scopus citations

Abstract

In the past few decades, there has been an evolution in our understanding of soil organic matter (SOM) dynamics from one of inherent biochemical recalcitrance to one deriving from plant-microbe-mineral interactions. This shift in understanding has been driven, in part, by influential conceptual frameworks which put forth hypotheses about SOM dynamics. Here, we summarize several focal conceptual frameworks and derive from them six controls related to SOM formation, (de)stabilization, and loss. These include: (a) physical inaccessibility; (b) organo-mineral and -metal stabilization; (c) biodegradability of plant inputs; (d) abiotic environmental factors; (e) biochemical reactivity and diversity; and (f) microbial physiology and morphology. We then review the empirical evidence for these controls, their model representation, and outstanding knowledge gaps. We find relatively strong empirical support and model representation of abiotic environmental factors but disparities between data and models for biochemical reactivity and diversity, organo-mineral and -metal stabilization, and biodegradability of plant inputs, particularly with respect to SOM destabilization for the latter two controls. More empirical research on physical inaccessibility and microbial physiology and morphology is needed to deepen our understanding of these critical SOM controls and improve their model representation. The SOM controls are highly interactive and also present some inconsistencies which may be reconciled by considering methodological limitations or temporal and spatial variation. Future conceptual frameworks must simultaneously refine our understanding of these six SOM controls at various spatial and temporal scales and within a hierarchical structure, while incorporating emerging insights. This will advance our ability to accurately predict SOM dynamics.

Original languageEnglish (US)
Article numbere2023JG007964
JournalJournal of Geophysical Research: Biogeosciences
Volume129
Issue number6
DOIs
StatePublished - Jun 2024

Bibliographical note

Publisher Copyright:
© 2024. The Author(s).

Keywords

  • aggregates
  • environmental limitation
  • microbial traits
  • mineral stabilization
  • plant quality
  • soil organic matter

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