Add to ORKGInternational audienceThe effects of global change on below-ground processes of the nitrogen (N) cycle have repercussions for plant communities, productivity and trace gas effluxes. However, the interacting effects of different components of global change on nitrification or denitrification have rarely been studied in situ. 2. We measured responses of nitrifying enzyme activity (NEA) and denitrifying enzyme activity (DEA) to over 4 years of exposure to several components of global change and their interaction (increased atmospheric CO2 concentration, temperature, precipitation and N addition) at peak biomass period in an annual grassland ecosystem. In order to provide insight into the mechanisms controlling the response of NEA and DEA to gl...
Ecological communities are increasingly confronted with multiple global change factors, which can ha...
We assessed the response of soil microbial nitrogen (N) cycling and associated functional genes to e...
In this century, increasing concentrations of carbon dioxide (CO2) and other greenhouse gases in the...
The effects of climate change on nitrogen turnover processes in soils are still not completely under...
Responses of soil nitrogen (N) cycling to simultaneous and potentially interacting global environmen...
Nitrification is a fundamental process in terrestrial nitrogen cycling. However, detailed informatio...
International audienceDespite increasing interest in the effects of climate change on soil processes...
The cycling of nutrients, such as nitrogen (N), is arguably one of the most critical ecosystem servi...
Shifts in nitrogen (N) cycling rates, especially N mineralization and nitrification, due to global e...
Changes in frequency and intensity of drought events are anticipated in many areas of the world. In ...
Plant diversity effects on ecosystem functioning can potentially interact with global climate by alt...
Ongoing climate change will lead to more extreme weather events, including severe drought periods an...
Nitrogen management in soils has been considered as key to the sustainable use of terrestrial ecosys...
Long-term responses of terrestrial ecosystems to the combined effects of warming and elevated CO 2 (...
Plant diversity effects on ecosystem functioning can potentially interact with global climate by alt...
Ecological communities are increasingly confronted with multiple global change factors, which can ha...
We assessed the response of soil microbial nitrogen (N) cycling and associated functional genes to e...
In this century, increasing concentrations of carbon dioxide (CO2) and other greenhouse gases in the...
The effects of climate change on nitrogen turnover processes in soils are still not completely under...
Responses of soil nitrogen (N) cycling to simultaneous and potentially interacting global environmen...
Nitrification is a fundamental process in terrestrial nitrogen cycling. However, detailed informatio...
International audienceDespite increasing interest in the effects of climate change on soil processes...
The cycling of nutrients, such as nitrogen (N), is arguably one of the most critical ecosystem servi...
Shifts in nitrogen (N) cycling rates, especially N mineralization and nitrification, due to global e...
Changes in frequency and intensity of drought events are anticipated in many areas of the world. In ...
Plant diversity effects on ecosystem functioning can potentially interact with global climate by alt...
Ongoing climate change will lead to more extreme weather events, including severe drought periods an...
Nitrogen management in soils has been considered as key to the sustainable use of terrestrial ecosys...
Long-term responses of terrestrial ecosystems to the combined effects of warming and elevated CO 2 (...
Plant diversity effects on ecosystem functioning can potentially interact with global climate by alt...
Ecological communities are increasingly confronted with multiple global change factors, which can ha...
We assessed the response of soil microbial nitrogen (N) cycling and associated functional genes to e...
In this century, increasing concentrations of carbon dioxide (CO2) and other greenhouse gases in the...