The Taihu Region in eastern China is one of China’s most intensive agricultural regions and also one of the economically most developed areas. High nitrogen balance surpluses in the summer rice-winter wheat double-cropping systems are leading to large-scale non-point source pollution of aquifers. In an interdisciplinary approach, four-year (1995-1998) field trials were carried out in two representative areas (Jurong County and Wuxi City) of the Taihu Region. Five farmers’ field sites were chosen in each of the 2 locations, with each site divided into “standard” (farmers’ practice) and “reduced” (by 30%-40%) N fertilization. For both fertilization intensities, N balance surpluses and monetary returns from grain sales minus fertilizer expenditures were calculated in an economic assessment. Based on the field trials, the mineral N fertilizer application rates reduced by about 10% for rice and 20%-30% for wheat were recommended in 1999. Since 1999, the research focused on the trends in N fertilizer applicat The Taihu Region in eastern China is one of China’s most intensive agricultural regions and also one of the economically most developed areas. High nitrogen balance surpluses in the summer rice-winter wheat double-cropping systems are leading to large-scale non-point source pollution of aquifers. In an interdisciplinary approach, four-year (1995-1998) field trials were carried out in two representative areas (Jurong County and Wuxi City) of the Taihu Region. Five farmers’ field sites were chosen in each of the 2 locations , with each site divided into “standard” (farmers’ practice) and “reduced ” (by 30% -40%) N fertilization. For both fertilization intensities, N balance surpluses and monetary returns from grain sales based on the field trials, the mineral N fertilizer application rates reduced by about 10% for rice and 20% -30% for wheat were recommended in 1999. Since 1999, the research focused on the trends in N fertilizer applicat