Add to ORKGClimate-induced changes in soil microbial physiology impact ecosystem carbon (C) storage and alter the rate of CO2 flux from soils to the atmosphere (Allison et al., 2010). The direction and magnitude of these microbial feedbacks depend on changes in saprotrophic bacterial and fungal C allocation in response to altered temperature, precipitation, and nutrient availability. Soil microbes may differentially allocate C in changing environments by altering processes such as enzyme production, C use efficiency (CUE), or biomass stoichiometry (Figure (Figure1).1). However, because these mechanisms may operate simultaneously and interact, microbial physiological feedbacks on soil C storage are difficult to predict. For example, initial increases ...
Climatic, atmospheric, and land-use changes all have the potential to alter soil microbial activity,...
Global ecosystem models may require microbial components to accurately predict feedbacks between cli...
Soil microbial carbon utilization efficiency (CUE) is the efficiency with which microorganisms conve...
A commentary on Microbial response to multi-factor cli-mate change: effects on soil enzyme
In new microbial-biogeochemical models, microbial carbon use efficiency (CUE) is often assumed to de...
In new microbial-biogeochemical models, microbial carbon use efficiency (CUE) is often assumed to de...
Soils store more carbon than other terrestrial ecosystems 1,2. How soil organic carbon (SOC) forms a...
Soil microbes respond to environmental change by altering how they allocate carbon to growth versus ...
In new microbial-biogeochemical models, microbial carbon use efficiency (CUE) is often assumed to de...
Understanding how altered soil organic carbon (SOC) availability affects microbial communities and t...
Rising temperatures are expected to reduce global soil carbon (C) stocks, driving a positive feedbac...
Soil respiration, a process primarily driven by soil microbes, is the largest flux of carbon from te...
Microbial decomposers are responsible for the breakdown of organic matter (OM) and thus regulate soi...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
ABSTRACT The strategy that microbial decomposers take with respect to using substrate for growth ver...
Climatic, atmospheric, and land-use changes all have the potential to alter soil microbial activity,...
Global ecosystem models may require microbial components to accurately predict feedbacks between cli...
Soil microbial carbon utilization efficiency (CUE) is the efficiency with which microorganisms conve...
A commentary on Microbial response to multi-factor cli-mate change: effects on soil enzyme
In new microbial-biogeochemical models, microbial carbon use efficiency (CUE) is often assumed to de...
In new microbial-biogeochemical models, microbial carbon use efficiency (CUE) is often assumed to de...
Soils store more carbon than other terrestrial ecosystems 1,2. How soil organic carbon (SOC) forms a...
Soil microbes respond to environmental change by altering how they allocate carbon to growth versus ...
In new microbial-biogeochemical models, microbial carbon use efficiency (CUE) is often assumed to de...
Understanding how altered soil organic carbon (SOC) availability affects microbial communities and t...
Rising temperatures are expected to reduce global soil carbon (C) stocks, driving a positive feedbac...
Soil respiration, a process primarily driven by soil microbes, is the largest flux of carbon from te...
Microbial decomposers are responsible for the breakdown of organic matter (OM) and thus regulate soi...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
ABSTRACT The strategy that microbial decomposers take with respect to using substrate for growth ver...
Climatic, atmospheric, and land-use changes all have the potential to alter soil microbial activity,...
Global ecosystem models may require microbial components to accurately predict feedbacks between cli...
Soil microbial carbon utilization efficiency (CUE) is the efficiency with which microorganisms conve...