Optimizing water-nitrogen productivity in rain-fed summer maize production in semi-humid and drought-prone area: Sustainable approach by integrating straw mulching and suitable fertilization depth
文献类型: 外文期刊
第一作者: Chen, Guangzhou
作者: Chen, Guangzhou;Zhang, Jinshan;Shi, Shubing;Chen, Guangzhou;Cai, Tie;Wang, Junying;Ren, Liangqi;Wang, Yuhao;Yang, Qingxuan;Zhang, Peng;Jia, Zhikuan;Chen, Guangzhou;Cai, Tie;Wang, Junying;Ren, Liangqi;Wang, Yuhao;Yang, Qingxuan;Zhang, Peng;Jia, Zhikuan;Chen, Guangzhou;Zhao, Kainan;Wang, Junying
作者机构:
关键词: Fertilization depths; Rain-fed summer maize; Water-nitrogen utilization; Yield; Net economic benefit
期刊名称:FIELD CROPS RESEARCH ( 影响因子:6.4; 五年影响因子:6.6 )
ISSN: 0378-4290
年卷期: 2025 年 327 卷
页码:
收录情况: SCI
摘要: Context or problem: Achieving high yields and efficient water-nitrogen utilization while increasing net economic benefits is crucial for sustainable agricultural production. Objective or research question: The deep placement of fertilizer is considered an effective strategy for improving crop growth and yield formation. However, it is still not clear how water-nitrogen utilization and economic benefits respond to fertilization depths under different planting methods in summer maize fields. Methods: A three-year field experiment was conducted in a semi-humid and drought-prone area to assess the effects of different fertilizer placement depths of 5 cm (D5, conventional fertilization), 15 cm (D15), 25 cm (D25), and 35 cm (D35) under two planting conditions (straw mulching (S) and bare land planting (N)) on the soil water, mineral nitrogen (NH4+-N and NO3--N) and root distribution, leaf photosynthetic rate, yield formation, resource utilization, and economic benefits of summer maize. Results: Compared with bare land planting, straw mulching improved the soil water content and spatiotemporal distribution, thereby affecting water storage and moisture preservation. Compared with other fertilization depths, D15 improved the mineral nitrogen content and distribution in the soil to promote root growth and nitrogen absorption (4.9-12.5 %). In addition, D15 increased the nitrogen content and photosynthetic rate of summer maize leaves to promote increases in the grain filling rate (3.7-10.0 %) and yield (6.6-18.6 %). Moreover, the combination of straw mulching and D15 significantly improved the nitrogen utilization efficiency (0.7-11.3 %), water utilization efficiency (6.2-36.6 %), net economic benefit (233.5-981.2 $ ha-1), and input-output ratio (2.4-67.9 %) in summer maize. Conclusions: These results clearly indicate that in the semi-humid and drought-prone area of China, a fertilization depth of 15 cm combined with straw mulching is beneficial for improving the yield, resource utilization, and economic benefits of rain-fed summer maize. Implications or significance: This management approach can replace the traditional fertilization depth under bare land planting to achieve high yields and effective resource utilization in the semi-humid and drought-prone area, and thus promote the sustainable development of rain-fed agriculture.
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