首页> 外文期刊>Agriculture, Ecosystems & Environment: An International Journal for Scientific Research on the Relationship of Agriculture and Food Production to the Biosphere >A 5-year lysimeter monitoring of nitrate leaching from wheat-maize rotation system: Comparison between optimum N fertilization and conventional farmer N fertilization
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A 5-year lysimeter monitoring of nitrate leaching from wheat-maize rotation system: Comparison between optimum N fertilization and conventional farmer N fertilization

机译:小麦-玉米轮作系统中硝酸盐浸出的渗漏计5年监测:最佳氮肥施肥与常规农民氮肥施肥之间的比较

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摘要

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. (C) 2014 Elsevier B.V. All rights reserved.
机译:硝酸盐浸出已成为世界范围内的公共问题,但很少有人关注中国陕西省关中平原的集约化作物生产系统,在该系统中,通常会施用过量的氮,并伴随着夏季的高降水量。这项研究的目的是量化常规农民实践下农田中硝酸盐淋失的数量,并确定受水和氮肥影响的硝酸盐淋失的特征。使用对照(CK),常规农户氮肥(CF-N)和最佳氮肥(OPT-N)处理进行了连续5年的溶渗仪田间试验。结果表明,硝酸盐浸出主要发生在灌溉期间以及7月至9月的集中降雨之后,并且在不同年份之间变化显着。对照的年硝酸盐浸出损失(ANLL)平均为2.5(+/- 2.0)kg N hm(-2)y(-1),对照组为15.8(+/- 5.6)kg N hm(-2)y(-1) )CF-N处理,而OPT-N处理则分别为10.1(+/- 5.6)kg N hm(-2)y(-1)。 CF-N处理的年硝酸盐浸出因子(ANLF)平均为2.82(+/- 1.03)%,OPT-N处理的年平均硝酸盐浸出因子为2.30(+/- 1.61)%。此外,ANLL和ANLF与年降水量,年灌溉量甚至二者之和的相关性均较弱。实际上,在发生硝酸盐浸出的月份中,ANLL和ANLF与总水输入量显着相关(P <0.05),仅占年度总水输入量的一小部分。传统的氮肥大大超过了作物的氮素吸收量,不可避免地导致大量的硝酸盐淋失和氮肥利用率低。总之,在这种集约化的小麦-玉米生产系统中,最佳的氮肥管理有助于提高氮素的利用效率并减少硝酸盐的淋失,同时保持较高的农作物产量。 (C)2014 Elsevier B.V.保留所有权利。

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