Add to ORKGHow soil microbes assimilate carbon-C, nitrogen-N, phosphorus-P and sulfur-S is fundamental for understanding nutrient cycling in terrestrial ecosystems. We compiled a global database of C, N, P and S concentrations in soils and microbes and developed relationships between them by using a power function model. The C:N:P:S was estimated to be 287:17:1:0.8 for soils and 42:6:1:0.4 for microbes. We found a convergence of the relationships between elements in soils and in soil microbial biomass across C, N, P and S. The element concentrations in soil microbial biomass follow a homeostatic regulation curve with soil element concentrations across C, N, P and S, implying a unifying mechanism of microbial assimilating soil elements. This correlatio...
Maintaining the stability of ecosystem functions to global change calls for a better understanding t...
Soil nutrient availability has a strong influence on the fate of soil carbon (C) during microbial de...
Microorganisms drive nutrient cycles in soil, and without this key activity, many essential elements...
How soil microbes assimilate carbon-C, nitrogen-N, phosphorus-P, and sulfur-S is fundamental for und...
International audienceNitrogen (N) and phosphorus (P) are associated with the life history of all or...
Variation in microbial metabolism poses one of the greatest current uncertainties in models of globa...
Soil microorganisms require a range of essential elements for their optimal functioning and store se...
phorus (C:N:P) ratios in planktonic biomass, and their importance in advancing our understanding of ...
Soil microorganisms require a range of essential elements for their optimal functioning and store se...
<div><p>Background</p><p>Variation in microbial metabolism poses one of the greatest current uncerta...
Marine studies have shown that the carbon:nitrogen:phosphorus (C:N:P) atomic ratio in planktonic org...
Variation in microbial metabolism poses one of the greatest current uncertainties in models of globa...
Soil microbes play key roles in driving and regulating nutrient cycling in terrestrial ecosystems. H...
The carbon use efficiency (CUE) of microbial communities partitions the flow of C from primary produ...
Inspired by the strict constraint ratio (relatively low variability) between carbon (C), nitrogen (N...
Maintaining the stability of ecosystem functions to global change calls for a better understanding t...
Soil nutrient availability has a strong influence on the fate of soil carbon (C) during microbial de...
Microorganisms drive nutrient cycles in soil, and without this key activity, many essential elements...
How soil microbes assimilate carbon-C, nitrogen-N, phosphorus-P, and sulfur-S is fundamental for und...
International audienceNitrogen (N) and phosphorus (P) are associated with the life history of all or...
Variation in microbial metabolism poses one of the greatest current uncertainties in models of globa...
Soil microorganisms require a range of essential elements for their optimal functioning and store se...
phorus (C:N:P) ratios in planktonic biomass, and their importance in advancing our understanding of ...
Soil microorganisms require a range of essential elements for their optimal functioning and store se...
<div><p>Background</p><p>Variation in microbial metabolism poses one of the greatest current uncerta...
Marine studies have shown that the carbon:nitrogen:phosphorus (C:N:P) atomic ratio in planktonic org...
Variation in microbial metabolism poses one of the greatest current uncertainties in models of globa...
Soil microbes play key roles in driving and regulating nutrient cycling in terrestrial ecosystems. H...
The carbon use efficiency (CUE) of microbial communities partitions the flow of C from primary produ...
Inspired by the strict constraint ratio (relatively low variability) between carbon (C), nitrogen (N...
Maintaining the stability of ecosystem functions to global change calls for a better understanding t...
Soil nutrient availability has a strong influence on the fate of soil carbon (C) during microbial de...
Microorganisms drive nutrient cycles in soil, and without this key activity, many essential elements...