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Fast-decaying plant litter enhances soil carbon in temperate forests but not through microbial physiological traits

Matthew E. Craig, Kevin M. Geyer, Katilyn V. Beidler, Edward Brzostek, Serita D. Frey, A. Stuart Grandy, Chao Liang, Richard P. Phillips

2022Nature Communications319 citationsDOIOpen Access PDF

Abstract

Conceptual and empirical advances in soil biogeochemistry have challenged long-held assumptions about the role of soil micro-organisms in soil organic carbon (SOC) dynamics; yet, rigorous tests of emerging concepts remain sparse. Recent hypotheses suggest that microbial necromass production links plant inputs to SOC accumulation, with high-quality (i.e., rapidly decomposing) plant litter promoting microbial carbon use efficiency, growth, and turnover leading to more mineral stabilization of necromass. We test this hypothesis experimentally and with observations across six eastern US forests, using stable isotopes to measure microbial traits and SOC dynamics. Here we show, in both studies, that microbial growth, efficiency, and turnover are negatively (not positively) related to mineral-associated SOC. In the experiment, stimulation of microbial growth by high-quality litter enhances SOC decomposition, offsetting the positive effect of litter quality on SOC stabilization. We suggest that microbial necromass production is not the primary driver of SOC persistence in temperate forests. Factors such as microbial necromass origin, alternative SOC formation pathways, priming effects, and soil abiotic properties can strongly decouple microbial growth, efficiency, and turnover from mineral-associated SOC.

Topics & Concepts

Soil carbonAbiotic componentEnvironmental scienceCarbon cycleBiogeochemistryLitterPlant litterSoil organic matterCarbon fibersSoil qualityEcologyEcosystemBiologySoil scienceSoil waterMathematicsAlgorithmComposite numberSoil Carbon and Nitrogen DynamicsForest Ecology and Biodiversity StudiesSoil and Water Nutrient Dynamics
Fast-decaying plant litter enhances soil carbon in temperate forests but not through microbial physiological traits | Litcius