Add to ORKGAnnually, half of all plant-derived carbon is added to soil where it is microbially respired to CO2. However, understanding of the microbiology of this process is limited because most culture-independent methods cannot link metabolic processes to the organisms present, and this link to causative agents is necessary to predict the results of perturbations on the system. We collected soil samples at two sub-root depths (10-20 cm and 30-40 cm) before and after a rainfall-driven nutrient perturbation event in a Northern California grassland that experiences a Mediterranean climate. From ten samples, we reconstructed 198 metagenome-assembled genomes that represent all major phylotypes. We also quantified 6,835 proteins and 175 metaboli...
Soil- and litter-borne microorganisms vitally contribute to biogeochemical cycles. However, changes ...
Soil microorganisms such as Bacteria and Archaea play important roles in the biogeochemical cycling ...
Bacteria isolated from soils are major sources of specialized metabolites, including antibiotics and...
Annually, half of all plant-derived carbon is added to soil where it is microbially respired to CO2....
Soil microbial activity drives the carbon and nitrogen cycles and is an important determinant of atm...
Soil microbes, and the proteins they produce, are responsible for a myriad of soil processes which a...
The functioning, health, and productivity of soil is intimately tied to the complex network of inter...
The functioning, health, and productivity of soil are intimately tied to a complex network of intera...
Microbes control the decomposition of soil organic matter, a key biogeochemical process significant ...
Soil microbes play an important role in terrestrial carbon (C) cycling, but their functional respons...
BackgroundThe transformation of plant photosynthate into soil organic carbon and its recycling to CO...
Microorganisms play key roles in terrestrial system processes, including the turnover of natural org...
Soil microbes play an important role in terrestrial carbon (C) cycling, but their functional respons...
Abstract Background The transformation of plant photosynthate into soil organic carbon and its recyc...
We lack a predictive understanding of the environmental drivers determining the structure and functi...
Soil- and litter-borne microorganisms vitally contribute to biogeochemical cycles. However, changes ...
Soil microorganisms such as Bacteria and Archaea play important roles in the biogeochemical cycling ...
Bacteria isolated from soils are major sources of specialized metabolites, including antibiotics and...
Annually, half of all plant-derived carbon is added to soil where it is microbially respired to CO2....
Soil microbial activity drives the carbon and nitrogen cycles and is an important determinant of atm...
Soil microbes, and the proteins they produce, are responsible for a myriad of soil processes which a...
The functioning, health, and productivity of soil is intimately tied to the complex network of inter...
The functioning, health, and productivity of soil are intimately tied to a complex network of intera...
Microbes control the decomposition of soil organic matter, a key biogeochemical process significant ...
Soil microbes play an important role in terrestrial carbon (C) cycling, but their functional respons...
BackgroundThe transformation of plant photosynthate into soil organic carbon and its recycling to CO...
Microorganisms play key roles in terrestrial system processes, including the turnover of natural org...
Soil microbes play an important role in terrestrial carbon (C) cycling, but their functional respons...
Abstract Background The transformation of plant photosynthate into soil organic carbon and its recyc...
We lack a predictive understanding of the environmental drivers determining the structure and functi...
Soil- and litter-borne microorganisms vitally contribute to biogeochemical cycles. However, changes ...
Soil microorganisms such as Bacteria and Archaea play important roles in the biogeochemical cycling ...
Bacteria isolated from soils are major sources of specialized metabolites, including antibiotics and...