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水氮协同对南疆冬小麦的生产效应

The Synergistic Production Effect of Water and Nitrogen on Winter Wheat in Southern Xinjiang.

作者信息

Lei Qingyuan, Tao Wanghai, Lin Shudong, Su Lijun, Deng Mingjiang, Wang Quanjiu, Yang Fan, Zhu Tao, Ma Liang

机构信息

State Key Laboratory of Eco-Hydraulic in Northwest Arid Region, Xi'an University of Technology, Xi'an 710048, China.

College of Water Conservancy and Civil Engineering, Xinjiang Agricultural University, Urumqi 830052, China.

出版信息

Plants (Basel). 2024 May 17;13(10):1391. doi: 10.3390/plants13101391.

DOI:10.3390/plants13101391
PMID:38794465
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11125035/
Abstract

Water and nitrogen management are crucial for food security and the efficient use of water and fertilizer, especially in arid regions. Three irrigation levels, namely, 80% crop water requirement () (W1), 100% (W2), and 120% (W3), and three nitrogen application levels, namely, 0 kg/ha (N1), 207 kg/ha (N2), and 276 kg/ha (N3), were used as the experimental treatments, and a control group, denoted as CK, was created. The results show that the maximum height achieved was 82.16 cm under W3N3. There was a single-peak variation trend throughout the growth stages of . It peaked at 58.44 under W3N3 and then at 27.9 under W2N2. The net photosynthetic and transpiration rates displayed bimodal peaks and the phenomenon of a "photosynthetic midday depression". And the prominent peaks in leaf water use efficiency occurred at 14:00 and 18:00, alongside noteworthy enhancements observed under the W3 treatment. Water and nitrogen and their interactions significantly affected the dry matter () of winter wheat, with the spike accounting for the highest percentage. The W2N2 treatment demonstrated superior effectiveness in enhancing winter wheat water use efficiency, offering the potential to decrease irrigation requirements by 20% and nitrogen application by 25%. Moreover, the maximum attained under W2N2 reached 60.13, representing a noteworthy 35.25% increase compared to the control group (CK), but the of the W2N2 treatment only reached 0.56. The highest was achieved with W3N2 (0.73), and the nitrogen application of 207 kg/ha was more conducive to obtaining a higher . The highest yield was achieved under W3N3 (13.599 t/ha), followed by W2N2 (12.447 t/ha), and the spike proportion exceeded 60% with W2N2, and its production cost and economic benefit ratio of under 0.31 were superior to those for other treatments. Multiple regression analysis revealed that the maximum yield reached 12.944 t/ha with an irrigation amount of 3420.1 m/ha and a nitrogen application of 251.92 kg/ha. Overall, our study suggests using an optimal water-nitrogen combination, specifically an irrigation level of 2829 m/ha and a nitrogen application rate of 207 kg/ha, leading to increased winter wheat yields and economic benefits. These research results provide a pragmatic technique for improving winter wheat production in southern Xinjiang.

摘要

水分和氮素管理对于粮食安全以及水和肥料的高效利用至关重要,特别是在干旱地区。设置了三个灌溉水平,即作物需水量的80%(W1)、100%(W2)和120%(W3),以及三个施氮水平,即0千克/公顷(N1)、207千克/公顷(N2)和276千克/公顷(N3)作为试验处理,并设置了一个对照组,记为CK。结果表明,在W3N3处理下达到的最大株高为82.16厘米。在整个生育期内呈现单峰变化趋势。在W3N3处理下峰值为58.44,然后在W2N2处理下为27.9。净光合速率和蒸腾速率呈现双峰,并有“光合午休”现象。叶片水分利用效率的显著峰值出现在14:00和18:00,且在W3处理下有明显提高。水分和氮素及其交互作用显著影响冬小麦的干物质,其中穗部所占比例最高。W2N2处理在提高冬小麦水分利用效率方面表现出卓越效果,有可能减少20%的灌溉量和25%的施氮量。此外,W2N2处理下达到的最大干物质量为60.13,相较于对照组(CK)显著增加了35.25%,但W2N2处理的收获指数仅为0.56。W3N2处理获得的最高收获指数为0.73,施氮量207千克/公顷更有利于获得较高的收获指数。W3N3处理下产量最高(13.599吨/公顷),其次是W2N2处理(12.447吨/公顷),W2N2处理的穗部比例超过60%,其生产成本和经济效益比低于0.31,优于其他处理。多元回归分析表明,灌溉量为3420.1立方米/公顷、施氮量为251.92千克/公顷时,最高产量达到12.944吨/公顷。总体而言,我们的研究建议采用最佳水氮组合,具体为灌溉水平2829立方米/公顷和施氮量207千克/公顷,可提高冬小麦产量和经济效益。这些研究结果为提高新疆南部冬小麦产量提供了实用技术。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/f144ada27101/plants-13-01391-g010.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/6bb198c3a804/plants-13-01391-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/e67bdc4c04f1/plants-13-01391-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/f144ada27101/plants-13-01391-g010.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/6bb198c3a804/plants-13-01391-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/612bdaf0ac90/plants-13-01391-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/68659f64838d/plants-13-01391-g003.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/954dc1c7cdd4/plants-13-01391-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/dc986cb78099/plants-13-01391-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/06f32a888786/plants-13-01391-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/548ac71a2081/plants-13-01391-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/e67bdc4c04f1/plants-13-01391-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39ac/11125035/f144ada27101/plants-13-01391-g010.jpg

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Improving Winter Wheat Photosynthesis, Nitrogen Use Efficiency, and Yield by Optimizing Nitrogen Fertilization.通过优化氮肥施用提高冬小麦光合作用、氮素利用效率及产量
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