Add to ORKGN additions increased NEE by enhancing light interception, RUE, and extending growing seasons. Different N application methods (PF versus GF) caused differential seasonal dynamics of LAI, NEE and RUE due to their different N supply doses during different growth periods. N fertilization stimulated evapotranspiration primarily by extending growing season. N fertilization enhanced photosynthesis more than evapotranspiration, causing higher ecosystem WUE. Different fertilization methods changed the seasonal dynamics of WUE due to their differential effects on gross ecosystem photosynthesis.Little is known about how climate warming, land-use change and N fertilization/deposition affect ecosystem carbon (C), nitrogen (N) and water cycles. By redu...
Shifts in nitrogen (N) cycling rates, especially N mineralization and nitrification, due to global e...
The concentration of carbon dioxide (COx) in the atmosphere represents the balance between COx uptak...
The cycling of nutrients, such as nitrogen (N), is arguably one of the most critical ecosystem servi...
Climate change and increases in nitrogen deposition impact ecosystems globally. Projected atmospheri...
Climate warming and increased atmospheric nitrogen deposition may substantially influence biosphere ...
The effects of global environmental changes on soil nitrogen (N) pools and fluxes have consequences ...
Responses of soil nitrogen (N) cycling to simultaneous and potentially interacting global environmen...
Responses of soil nitrogen (N) cycling to simultaneous and potentially interacting global environmen...
Simulation models indicate that the nitrogen (N) cycle plays a key role in how other ecosystem proce...
Canopy radiation and water use efficiencies (RUE and WUE), soil respiration and interannual availabi...
We used the terrestrial ecosystem model “Century” to evaluate the relative roles of water and nitrog...
Nitrogen (N) is an essential nutrient for plant growth that constrains the fixation and storage of c...
Shifts in nitrogen (N) cycling rates, especially N mineralization and nitrification, due to global e...
Changes in water and nitrogen (N) availability due to climate change and atmospheric N deposition co...
Continuing changes in climate, nitrogen availability, and biological invasions are projected to alte...
Shifts in nitrogen (N) cycling rates, especially N mineralization and nitrification, due to global e...
The concentration of carbon dioxide (COx) in the atmosphere represents the balance between COx uptak...
The cycling of nutrients, such as nitrogen (N), is arguably one of the most critical ecosystem servi...
Climate change and increases in nitrogen deposition impact ecosystems globally. Projected atmospheri...
Climate warming and increased atmospheric nitrogen deposition may substantially influence biosphere ...
The effects of global environmental changes on soil nitrogen (N) pools and fluxes have consequences ...
Responses of soil nitrogen (N) cycling to simultaneous and potentially interacting global environmen...
Responses of soil nitrogen (N) cycling to simultaneous and potentially interacting global environmen...
Simulation models indicate that the nitrogen (N) cycle plays a key role in how other ecosystem proce...
Canopy radiation and water use efficiencies (RUE and WUE), soil respiration and interannual availabi...
We used the terrestrial ecosystem model “Century” to evaluate the relative roles of water and nitrog...
Nitrogen (N) is an essential nutrient for plant growth that constrains the fixation and storage of c...
Shifts in nitrogen (N) cycling rates, especially N mineralization and nitrification, due to global e...
Changes in water and nitrogen (N) availability due to climate change and atmospheric N deposition co...
Continuing changes in climate, nitrogen availability, and biological invasions are projected to alte...
Shifts in nitrogen (N) cycling rates, especially N mineralization and nitrification, due to global e...
The concentration of carbon dioxide (COx) in the atmosphere represents the balance between COx uptak...
The cycling of nutrients, such as nitrogen (N), is arguably one of the most critical ecosystem servi...