Litcius/Paper detail

Soil carbon formation is promoted by saturation deficit and existing mineral-associated carbon, not by microbial carbon-use efficiency

Alison E. King, Noah W. Sokol

2025Science Advances34 citationsDOIOpen Access PDF

Abstract

Mineral-associated organic carbon (MAOC) is the largest terrestrial pool of organic carbon, yet controls on its formation remain unresolved. Existing MAOC is thought to preclude additional C storage on minerals, but this perspective is difficult to reconcile with observations that MAOC stacks in multilayers, suggesting that existing MAOC could promote greater C retention. Here, in a manipulative experiment using 118 soils from 15 agricultural sites across the United States, we show that MAOC formation is promoted by both existing MAOC and its counterpart-MAOC saturation deficit. The positive effect of existing MAOC on the formation of new MAOC persists after accounting for soil physicochemical properties that covary with MAOC. In contrast with current theory, we found that MAOC formation was not clearly influenced by microbial carbon-use efficiency (CUE). Our findings demonstrate that existing MAOC and saturation deficit, not microbial CUE, are key to determining new MAOC formation in agricultural soils.

Topics & Concepts

Carbon fibersSaturation (graph theory)Soil carbonEnvironmental chemistryEnvironmental scienceMineralTotal organic carbonCarbon fluxSoil scienceChemistryEcologySoil waterBiologyMaterials scienceEcosystemMathematicsComposite numberComposite materialCombinatoricsSoil Carbon and Nitrogen DynamicsClay minerals and soil interactionsBioenergy crop production and management