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Calcium promotes persistent soil organic matter by altering microbial transformation of plant litter

Itamar Shabtai, Roland C. Wilhelm, Steffen A. Schweizer, Carmen Höschen, Daniel H. Buckley, Johannes Lehmann

2023Nature Communications225 citationsDOIOpen Access PDF

Abstract

Abstract Calcium (Ca) can contribute to soil organic carbon (SOC) persistence by mediating physico-chemical interactions between organic compounds and minerals. Yet, Ca is also crucial for microbial adhesion, potentially affecting colonization of plant and mineral surfaces. The importance of Ca as a mediator of microbe-mineral-organic matter interactions and resulting SOC transformation has been largely overlooked. We incubated 44 Ca labeled soils with 13 C 15 N labeled leaf litter to study how Ca affects microbial transformation of litter and formation of mineral associated organic matter. Here we show that Ca additions promote hyphae-forming bacteria, which often specialize in colonizing surfaces, and increase incorporation of litter into microbial biomass and carbon use efficiency by approximately 45% each. Ca additions reduce cumulative CO 2 production by 4%, while promoting associations between minerals and microbial byproducts of plant litter. These findings expand the role of Ca in SOC persistence from solely a driver of physico-chemical reactions to a mediator of coupled abiotic-biotic cycling of SOC.

Topics & Concepts

LitterOrganic matterAbiotic componentChemistryPlant litterEnvironmental chemistrySoil organic matterBiomass (ecology)Chemical transformationSoil carbonSoil waterEcosystemEcologyBiologyOrganic chemistrySoil Carbon and Nitrogen DynamicsMicrobial Community Ecology and PhysiologyGut microbiota and health
Calcium promotes persistent soil organic matter by altering microbial transformation of plant litter | Litcius