Nitrate leaching has become a public issue worldwide, but little concern has been given to the intensive crop production system of the Guanzhong Plain in Shaanxi province of China, where excessive N would typically be applied coupled with high summer precipitation. The objectives of this study were to quantify the amount of nitrate leaching losses in croplands under conventional farmer practices and determine the characteristics of nitrate leaching as affected by water input and N fertilization. A consecutive 5-year lysimeter field experiment was conducted with a control (CK), conventional farmer N fertilization (CF-N) and optimum N fertilization (OPT-N) treatments. The results indicated that nitrate leaching mainly occurred after irrigation as well as after concentrated rainfalls in July-September, and varied noticeably between individual years. The annual nitrate leaching losses (ANLL) averaged 2.5(+/- 2.0) kg N hm(-2) y(-1) for the control, 15.8(+/- 5.6) kg N hm(-2) y(-1) the CF-N treatment, and 10.1(+/- 5.6) kg N hm(-2) y(-1) for the OPT-N treatment, respectively. The annual nitrate leaching factors (ANLF) averaged 2.82(+/- 1.03)% for the CF-N treatment and 2.30(+/- 1.61)% for the OPT-N treatment. In addition, both ANLL and ANLF showed weak correlations with annual rainfall, annual irrigation and even the sum of them. Actually, the ANLL and ANLF were just significantly correlated with the total water input in the months in which nitrate leaching occurred (P < 0.05), being only a small proportion of the annual total water input. Traditional N fertilization greatly exceeded the crop N uptake and inevitably resulted in massive nitrate leaching losses and low value of nitrogen (N) fertilizer use efficiency. In conclusion, optimal N fertilization management contributes to relatively high N use efficiency and reduced nitrate leaching loss, while maintaining high crop yields in this intensive wheat-maize production system.

• 出版日期2015-1-1
• 单位西北农林科技大学