Add to ORKGIn many ecosystems, global changes are likely to profoundly affect microorganisms. In Southern California, changes in precipitation and nitrogen deposition may influence the composition and functional potential of microbial communities and their resulting ability to degrade plant material. To test whether such environmental changes impact the distribution of functional groups involved in leaf litter degradation, we determined how the genomic diversity of microbial communities in a semi-arid grassland ecosystem changed under reduced precipitation or increased N deposition. We monitored communities seasonally over a period of 2 years to place environmental change responses into the context of natural variation. Fungal and bacterial communitie...
International audienceThe consequences of predicted climate change on ecosystem processes is difficu...
Clipping, removal of aboveground plant biomass, is an important issue in grassland ecology. However,...
Climate change can influence soil microorganisms directly by altering their growth and activity but ...
In many ecosystems, global changes are likely to profoundly affect microorganisms. In Southern Calif...
Bacteria and fungi drive the decomposition of dead plant biomass (litter), an important step in the ...
Bacteria and fungi drive the decomposition of dead plant biomass (litter), an important step in the ...
Because microorganisms have different abilities to utilize nitrogen (N) through various assimilatory...
Rates of ecosystem processes such as decomposition are likely to change as a result of human impacts...
Global changes such as increased drought and atmospheric nitrogen deposition perturb both the microb...
Global and regional environmental changes often co-occur, creating complex gradients of disturbance ...
Terrestrial ecosystem models assume that microbial communities respond instantaneously, or are immed...
Microbial decomposers mediate the return of CO2 to the atmosphere by producing extracellular enzymes...
Anthropogenic changes in climatic conditions, such as the timing and amount of rainfall, can have pr...
A central goal of global change biology is to predict the impact of environmental change on ecosyste...
Aims Bacteria and fungi are two primary groups of soil microbes, and their stability determines the ...
International audienceThe consequences of predicted climate change on ecosystem processes is difficu...
Clipping, removal of aboveground plant biomass, is an important issue in grassland ecology. However,...
Climate change can influence soil microorganisms directly by altering their growth and activity but ...
In many ecosystems, global changes are likely to profoundly affect microorganisms. In Southern Calif...
Bacteria and fungi drive the decomposition of dead plant biomass (litter), an important step in the ...
Bacteria and fungi drive the decomposition of dead plant biomass (litter), an important step in the ...
Because microorganisms have different abilities to utilize nitrogen (N) through various assimilatory...
Rates of ecosystem processes such as decomposition are likely to change as a result of human impacts...
Global changes such as increased drought and atmospheric nitrogen deposition perturb both the microb...
Global and regional environmental changes often co-occur, creating complex gradients of disturbance ...
Terrestrial ecosystem models assume that microbial communities respond instantaneously, or are immed...
Microbial decomposers mediate the return of CO2 to the atmosphere by producing extracellular enzymes...
Anthropogenic changes in climatic conditions, such as the timing and amount of rainfall, can have pr...
A central goal of global change biology is to predict the impact of environmental change on ecosyste...
Aims Bacteria and fungi are two primary groups of soil microbes, and their stability determines the ...
International audienceThe consequences of predicted climate change on ecosystem processes is difficu...
Clipping, removal of aboveground plant biomass, is an important issue in grassland ecology. However,...
Climate change can influence soil microorganisms directly by altering their growth and activity but ...