Supplementary irrigation and reduced nitrogen application improve the productivity, water and nitrogen use efficiency of maize-soybean intercropping system in the semi-humid drought-prone region of China

IF 5.9 1区 农林科学 Q1 AGRONOMY Agricultural Water Management Pub Date : 2024-10-29 DOI:10.1016/j.agwat.2024.109126
Zhengxin Zhao , Zongyang Li , Yao Li , Lianyu Yu , Xiaobo Gu , Huanjie Cai
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Abstract

Maize-soybean intercropping systems are widespread in North China. However, the combined effects of supplementary irrigation and different nitrogen (N) application rates on the productivity, water use efficiency (WUE), and N use efficiency (NUE) of such systems remain unclear. A field experiment was conducted in a semi-humid drought-prone region in Northwest China in 2022 and 2023 to assess the interaction effects of supplemental irrigation and different N application rates on the crop yields, WUE, and NUE of a maize-soybean intercropping system and a monoculture system. Three cropping systems were used: maize-soybean intercropping, maize monoculture, and soybean monoculture, with two irrigation treatment scenarios (rainfed and supplementary irrigation at 30 mm) and three N fertilizer rates for maize (240, 180, and 120 kgN ha−1). The land equivalent ratio (LER), water productivity (WP), N harvest index (NHI), and N partial factor productivity (NPFP) of the maize-soybean intercropping system ranged from 1.06 to 1.11, 1.03–1.11, 1.17–1.34, and 1.16–1.28, respectively, demonstrating higher yields and resource of the intercropping system Supplementary irrigation significantly improved yield and resource use by improving the N complementarity effect and increased the economic by 17.24–31.16 %. A 25 % reduction in the N application rate (180 kgN ha−1) for maize increased the NPFP without decreasing the crop yield and WP whereas, a 50 % reduction (120 kgN ha−1) significantly decreased the crop yield and the economic benefits. In summary, supplementary irrigation can improve the productivity and resource use efficiency, and appropriate reduction of N fertilizer will not reduce the yield of intercropping system. This study provides practical insights for enhancing sustainable agriculture by improving water and N use efficiency in maize-soybean intercropping systems in the semi-humid arid-prone regions of China.
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补充灌溉和减少施氮提高中国半湿润干旱地区玉米-大豆间作系统的生产力和水氮利用效率
玉米-大豆间作系统在华北地区十分普遍。然而,补充灌溉和不同氮肥施用量对玉米-大豆间作系统的生产力、水分利用效率(WUE)和氮肥利用效率(NUE)的综合影响仍不清楚。2022 年和 2023 年,在中国西北半湿润干旱地区进行了一项田间试验,以评估补充灌溉和不同施氮量对玉米-大豆间作系统和单作系统的作物产量、水分利用效率和氮利用效率的交互影响。采用了三种种植系统:玉米-大豆间作、玉米单作和大豆单作,两种灌溉处理方案(雨水灌溉和 30 毫米补充灌溉)和三种玉米氮肥施用量(240、180 和 120 千克氮/公顷)。玉米-大豆间作系统的土地当量比(LER)、∆水分生产率(WP)、∆氮收获指数(NHI)和∆氮部分要素生产率(NPFP)分别为 1.06 至 1.11、1.03 至 1.11、1.17 至 1.34 和 1.16 至 1.28。补充灌溉通过改善氮互补效应显著提高了产量和资源利用率,经济效益提高了 17.24-31.16 %。玉米氮肥施用量减少 25%(180 千克氮/公顷-1)会增加氮磷钾互补效应,但不会降低作物产量和可湿性粉剂,而减少 50%(120 千克氮/公顷-1)则会显著降低作物产量和经济效益。总之,补充灌溉可提高生产力和资源利用效率,适当减少氮肥用量不会降低间作系统的产量。本研究为提高中国半湿润干旱地区玉米-大豆间作系统的水分和氮素利用效率,促进农业可持续发展提供了实用的启示。
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来源期刊
Agricultural Water Management
Agricultural Water Management 农林科学-农艺学
CiteScore
12.10
自引率
14.90%
发文量
648
审稿时长
4.9 months
期刊介绍: Agricultural Water Management publishes papers of international significance relating to the science, economics, and policy of agricultural water management. In all cases, manuscripts must address implications and provide insight regarding agricultural water management.
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