Add to ORKGMicrobial transformations of nitrogen (N) largely determine whether N is retained in ecosystems via net primary productivity or lost via gaseous emissions and leaching. The controls on soil N cycling are often studied at single locales, making it difficult to predict N cycling at regional to global scales. We hypothesized that contemporary soil properties exhibit consistent relationships with instantaneous gross N cycling rates across diverse biomes that create a continuum in these properties. We measured ex situ gross N cycling rates and soil properties at 33 study sites representing five biome classifications in California including deserts, grasslands, shrublands, forest, and wetlands. Desert soils had significantly lower total N, organi...
Human alteration of the carbon (C) and nitrogen (N) cycles is having profound detrimental impacts on...
Southern California native plant communities, such as coastal sage scrub (CSS) and chaparral, are su...
The production of dinitrogen (N2) and emission to the atmosphere returns reactive nitrogen (N) speci...
Microbial transformations of nitrogen (N) largely determine whether N is retained in ecosystems via ...
The cycling of nutrients, such as nitrogen (N), is arguably one of the most critical ecosystem servi...
Southern California's geography and expanding population have caused an\ud increasing amount of atmo...
Sporadic summer rainfall in semi-arid ecosystems can provide enough soil moisture to drastically inc...
There is growing recognition that physical characteristics of landscapes influence nitrogen (N) cycl...
Soil nitrogen (N) mineralization is crucial for the sustainability of available soil N and hence eco...
Soil microbial communities and pools of carbon (C) and nitrogen (N) play an important role in ecosys...
Shifts in plant community structure in shrub and grass-dominated ecosystems are occurring over large...
Biological soil crusts (cyanobacteria, mosses and lichens collectively) perform essential ecosystem ...
Nitrogen (N) cycling in drylands under changing climate is not well understood. Our understanding of...
Biological soil crusts (cyanobacteria, mosses and lichens collectively) perform essential ecosystem ...
Nitrogen (N) biogeochemical cycling entails close networking between soil nutrients, plant species a...
Human alteration of the carbon (C) and nitrogen (N) cycles is having profound detrimental impacts on...
Southern California native plant communities, such as coastal sage scrub (CSS) and chaparral, are su...
The production of dinitrogen (N2) and emission to the atmosphere returns reactive nitrogen (N) speci...
Microbial transformations of nitrogen (N) largely determine whether N is retained in ecosystems via ...
The cycling of nutrients, such as nitrogen (N), is arguably one of the most critical ecosystem servi...
Southern California's geography and expanding population have caused an\ud increasing amount of atmo...
Sporadic summer rainfall in semi-arid ecosystems can provide enough soil moisture to drastically inc...
There is growing recognition that physical characteristics of landscapes influence nitrogen (N) cycl...
Soil nitrogen (N) mineralization is crucial for the sustainability of available soil N and hence eco...
Soil microbial communities and pools of carbon (C) and nitrogen (N) play an important role in ecosys...
Shifts in plant community structure in shrub and grass-dominated ecosystems are occurring over large...
Biological soil crusts (cyanobacteria, mosses and lichens collectively) perform essential ecosystem ...
Nitrogen (N) cycling in drylands under changing climate is not well understood. Our understanding of...
Biological soil crusts (cyanobacteria, mosses and lichens collectively) perform essential ecosystem ...
Nitrogen (N) biogeochemical cycling entails close networking between soil nutrients, plant species a...
Human alteration of the carbon (C) and nitrogen (N) cycles is having profound detrimental impacts on...
Southern California native plant communities, such as coastal sage scrub (CSS) and chaparral, are su...
The production of dinitrogen (N2) and emission to the atmosphere returns reactive nitrogen (N) speci...