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Evaluation of Microbe-Driven Soil Organic Matter Quantity and Quality by Thermodynamic Theory

Jianwei Zhang, Youzhi Feng, Meng Wu, Ruirui Chen, Zhongpei Li, Xiangui Lin, Yong‐Guan Zhu, Manuel Delgado‐Baquerizo

2021mBio27 citationsDOIOpen Access PDF

Abstract

Microbial communities are known to be important drivers of organic matter (OM) accumulation in terrestrial ecosystems. However, despite the importance of these soil microbes and processes, the mechanisms behind these microbial-SOM associations remain poorly understood. Here, we used the principles of thermodynamic theory and novel Fourier transform ion cyclotron resonance mass spectrometry techniques to investigate the links between microbial communities and dissolved OM (DOM) thermodynamic quality in soils across a 1,000-km gradient and comprising contrasting nutrient and C contents. Our region-scale study provided evidence that soils with a larger amount of readily accessible resources (i.e., lower Gibbs free energy) supported higher levels of microbial diversity and larger SOM content. Moreover, we created a novel phylotype-level microbial classification based on the associations between microbial taxa and DOM quantities and qualities. We found two contrasting clusters of bacterial taxa based on their level of association with thermodynamically favorable DOM and SOM content. Our study advances our knowledge on the important links between microbial communities and SOM. Moreover, by identifying the associations between microbial phylotypes of different life strategies and OM qualities and quantities, our study indicates that thermodynamic theory can act as a proxy for the relationship between OM and soil microbial communities. Together, our findings support that the association between microbial species taxa and substrate thermodynamic quality constituted an important complement explanation for soil organic matter preservation.

Topics & Concepts

Soil organic matterOrganic matterEnvironmental chemistrySoil waterMineralization (soil science)EcosystemDissolved organic carbonEnvironmental scienceSoil qualityEcologyMicrobial population biologyPhylotypeChemistrySoil scienceBiologyBacteriaPhylogenetic treeBiochemistryGeneticsGeneMicrobial Community Ecology and PhysiologySoil Carbon and Nitrogen DynamicsGenomics and Phylogenetic Studies
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