Nitrogen (N) is the most widely used fertilizer nutrient, and its application has increased substantially in recent decades in China. N loss through leaching has been recognized as one of the most common agricultural sources of groundwater contamination. Thus, prediction of N leaching from cropland is crucial for preventing groundwater pollution. This paper quantifies nitrogen leaching from China's croplands, identifies its spatial distribution under current cropping systems at national scale, and finally puts forward some policies or strategies to reduce rates of N leaching. A computer process simulation model of carbon and nitrogen biogeochemistry in agro-ecosystems (DNDC) was applied to predict nitrogen leaching in the soil layer of agri...
Surface nitrogen (N) balances for China's crop production systems were estimated using statistical d...
In this study, a spatial dynamic model was developed, to simulate nitrogen dynamics in Van Hoi commu...
A large amount of nitrogen (N) fertilizers applied to the winter wheat-summer maize double cropping ...
Nitrogen (N) is the most widely used fertilizer nutrient, and its application has increased substant...
Agricultural soils account for more than 50% of nitrogen leaching (L-N) to groundwater in China. Whe...
Agricultural soils account for more than 50% of nitrogen leaching (L-N) to groundwater in China. Whe...
The water movement and soil nitrogen cycle of the Baiyangdian Basin were simulated, and the risk of ...
© 2002 Dr. Yong LiComputer simulation models are widely used in studies to address the problem that ...
Estimating regional soil nitrogen (N) balance in croplands is critical to improve management practic...
The Bohai Rim region is one the most important bases for commodity grain production in China. With t...
Agricultural pollution, which has a direct impact on the water, soil and air quality, is a common bu...
Better water and nitrogen (N) management requires better understanding of soil water and N balances ...
Better water and nitrogen (N) management requires better understanding of soil water and N balances ...
Nitrogen use efficiency (NUE, defined as the fraction of N input harvested as product) is an importa...
There is a growing concern about excessive nitrogen (N) and water use in agricultural systems in Nor...
Surface nitrogen (N) balances for China's crop production systems were estimated using statistical d...
In this study, a spatial dynamic model was developed, to simulate nitrogen dynamics in Van Hoi commu...
A large amount of nitrogen (N) fertilizers applied to the winter wheat-summer maize double cropping ...
Nitrogen (N) is the most widely used fertilizer nutrient, and its application has increased substant...
Agricultural soils account for more than 50% of nitrogen leaching (L-N) to groundwater in China. Whe...
Agricultural soils account for more than 50% of nitrogen leaching (L-N) to groundwater in China. Whe...
The water movement and soil nitrogen cycle of the Baiyangdian Basin were simulated, and the risk of ...
© 2002 Dr. Yong LiComputer simulation models are widely used in studies to address the problem that ...
Estimating regional soil nitrogen (N) balance in croplands is critical to improve management practic...
The Bohai Rim region is one the most important bases for commodity grain production in China. With t...
Agricultural pollution, which has a direct impact on the water, soil and air quality, is a common bu...
Better water and nitrogen (N) management requires better understanding of soil water and N balances ...
Better water and nitrogen (N) management requires better understanding of soil water and N balances ...
Nitrogen use efficiency (NUE, defined as the fraction of N input harvested as product) is an importa...
There is a growing concern about excessive nitrogen (N) and water use in agricultural systems in Nor...
Surface nitrogen (N) balances for China's crop production systems were estimated using statistical d...
In this study, a spatial dynamic model was developed, to simulate nitrogen dynamics in Van Hoi commu...
A large amount of nitrogen (N) fertilizers applied to the winter wheat-summer maize double cropping ...