Disentangling impacts of multiple global changes on terrestrial carbon cycling is important, both in its own right and because such impacts can dampen or accelerate increases in atmospheric CO2 concentration. Here we report on an eight-year grassland experiment, TeRaCON, in Minnesota, United States, that factorially manipulated four drivers: temperature, rainfall, CO2 and nitrogen deposition. Net primary production increased under warming, elevated CO2 and nitrogen deposition, and decreased under diminished summer rainfall. Treatment combinations that increased net primary production also increased soil CO2 emissions, but less so, and hence ecosystem carbon storage increased overall. Productivity, soil carbon emissions and plant carbon stoc...
Since terrestrial ecosystems store approximately 3 times more carbon (C) than the atmosphere, they h...
Experiments show that elevated atmospheric CO2 (eCO(2)) often enhances plant photosynthesis and prod...
Responses of grassland carbon (C) cycling to climate change and land use remain a major uncertainty ...
Direct quantification of terrestrial biosphere responses to global change is crucial for projections...
NEWS COVERAGE: A news release based on this journal publication is available online: http://news.ric...
Whether the terrestrial biosphere will continue to act as a net carbon (C) sink in the face of multi...
The concentration of carbon dioxide (COx) in the atmosphere represents the balance between COx uptak...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
In recent years, increased awareness of the potential interactions between rising atmospheric CO2 co...
In this century, increasing concentrations of carbon dioxide (CO2) and other greenhouse gases in the...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
<div><p>In this century, increasing concentrations of carbon dioxide (CO<sub>2</sub>) and other gree...
1. Grasslands cover similar to 30% of the Earth's terrestrial surface and provide many ecosystem ser...
In this century, increasing concentrations of carbon dioxide (CO2) and other greenhouse gases in the...
Since terrestrial ecosystems store approximately 3 times more carbon (C) than the atmosphere, they h...
Experiments show that elevated atmospheric CO2 (eCO(2)) often enhances plant photosynthesis and prod...
Responses of grassland carbon (C) cycling to climate change and land use remain a major uncertainty ...
Direct quantification of terrestrial biosphere responses to global change is crucial for projections...
NEWS COVERAGE: A news release based on this journal publication is available online: http://news.ric...
Whether the terrestrial biosphere will continue to act as a net carbon (C) sink in the face of multi...
The concentration of carbon dioxide (COx) in the atmosphere represents the balance between COx uptak...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
In recent years, increased awareness of the potential interactions between rising atmospheric CO2 co...
In this century, increasing concentrations of carbon dioxide (CO2) and other greenhouse gases in the...
The flux of carbon dioxide (CO2) between terrestrial ecosystems and the atmosphere may ameliorate or...
<div><p>In this century, increasing concentrations of carbon dioxide (CO<sub>2</sub>) and other gree...
1. Grasslands cover similar to 30% of the Earth's terrestrial surface and provide many ecosystem ser...
In this century, increasing concentrations of carbon dioxide (CO2) and other greenhouse gases in the...
Since terrestrial ecosystems store approximately 3 times more carbon (C) than the atmosphere, they h...
Experiments show that elevated atmospheric CO2 (eCO(2)) often enhances plant photosynthesis and prod...
Responses of grassland carbon (C) cycling to climate change and land use remain a major uncertainty ...