The coupling of carbon and energy fluxes reveals anaerobiosis in an aerobic soil incubation with a Bacillota-dominated community
Author:
Funder
National Natural Science Foundation of China
Deutsche Forschungsgemeinschaft
Publisher
Elsevier BV
Reference85 articles.
1. Rapid increases in soil pH solubilise organic matter, dramatically increase denitrification potential and strongly stimulate microorganisms from the Firmicutes phylum;Anderson;PeerJ,2018
2. A physiological method for the quantitative measurement of microbial biomass in soils;Anderson;Soil Biology and Biochemistry,1978
3. Relationship between SIR and FE estimates of microbial biomass C in deciduous forest soils at different pH;Anderson;Soil Biology and Biochemistry,1997
4. Thymidine and leucine incorporation in soil bacteria with different cell size;Baath;Microbial Ecology,1994
5. Organic matter degradation in energy-limited subsurface environments—a bioenergetics-informed modeling approach;Bajracharya;Geomicrobiology Journal,2022
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