Excessive use of N fertilizer in intensive agriculture can increase crop yield and at the same time cause high carbon (C) emissions. This study was conducted to determine optimized N fertilizer application for high grain yield and lower C emissions in summer corn (Zea mays L.). Afield experiment, including 0 (NO), 75(N75), 150 (N150), 225 (N225), and 300 (N300) kg N ha(-1) treatments, was carried out during 2010-2012 in the North China Plain (NCP). The results showed that grain yield, input energy, greenhouse gas (GHG) emissions, and carbon footprint (CF) were all increased with the increase of N rate, except net energy yield (NEY). The treatment of N225 had the highest grain yield (10364.7 kg ha(-1)) and NEY (6.8%), but the CF (0.25) was lower than that of N300, which indicates that a rate of 225 kg N ha(-1) can be optimal for summer corn in NCR Comparing GHG emision compontents, N fertilizer (0-51.1%) was the highest and followed by electricity for irrigation (19.73-49.35%). We conclude that optimazing N fertilizer application rate and reducing electricity for irrigation are the two key measures to increase crop yield, improve energy efficiency and decrease GHG emissions in corn production.
