The state of the art on deficit irrigation in soybean

IF 1.6 4区农林科学 Q2 AGRONOMY Irrigation and Drainage Pub Date : 2023-11-22 DOI:10.1002/ird.2903

Francesco Morbidini, Wilfredo Barrera Jr., Giampaolo Zanin, Leonardo Verdi, Carlo Camarotto, Graziano Ghinassi, Carmelo Maucieri, Anna Dalla Marta, Maurizio Borin

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Abstract

Deficit irrigation (DI) could be an important strategy to achieve the goal of reducing irrigation water consumption. This review aims to identify the impact of different DI strategies on grain yield, water use efficiency (WUE) and oil and protein content in soybean seeds. A total of 25 articles were considered and then divided into DI throughout the whole cycle (standard deficit irrigation, StDI) and DI only at certain stages of the cycle (regulated deficit irrigation, RDI). In StDI, yield reductions were approximately 20% when the replacement of the crop water requirement was between 70% and 90%. For RDI, yield reductions ranging from 9% to 30% were observed depending on the phenological stage at which the crop evapotranspiration (ET_c) deficit was imposed. StDI always increased WUE compared to full irrigation, whereas for RDI, the response in terms of WUE changed considering the stressed phenological stage. Few studies have reported the effects on oil and protein content, showing high variability and contrasting results. In general, the application of a reduced amount of water led to a decrease in yield and an increase in WUE, with a magnitude significantly influenced by the stage at which the stress was imposed.

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大豆亏缺灌溉技术现状

缺水灌溉（DI）是实现减少灌溉用水量目标的重要策略。本综述旨在确定不同缺水灌溉策略对大豆籽粒产量、水分利用效率（WUE）以及油脂和蛋白质含量的影响。共研究了 25 篇文章，然后将其分为整个灌溉周期的直接灌溉（标准亏缺灌溉，StDI）和仅在灌溉周期特定阶段的直接灌溉（调节亏缺灌溉，RDI）。在标准亏缺灌溉中，当作物需水替代率在 70%至 90%之间时，减产约 20%。对于调亏灌溉，根据作物蒸散（ETc）亏缺所处的物候期，减产幅度从 9% 到 30%不等。与完全灌溉相比，StDI 总能增加 WUE，而对于 RDI 而言，WUE 的响应会因受压物候期而变化。很少有研究报告了对油分和蛋白质含量的影响，结果显示差异很大，且对比强烈。总的来说，减少灌溉水量会导致产量下降和水分利用效率提高，其幅度受施加胁迫的阶段影响很大。

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来源期刊

Irrigation and Drainage 农林科学-农艺学

CiteScore

3.40

自引率

10.50%

发文量

107

审稿时长

3 months

期刊介绍： Human intervention in the control of water for sustainable agricultural development involves the application of technology and management approaches to: (i) provide the appropriate quantities of water when it is needed by the crops, (ii) prevent salinisation and water-logging of the root zone, (iii) protect land from flooding, and (iv) maximise the beneficial use of water by appropriate allocation, conservation and reuse. All this has to be achieved within a framework of economic, social and environmental constraints. The Journal, therefore, covers a wide range of subjects, advancement in which, through high quality papers in the Journal, will make a significant contribution to the enormous task of satisfying the needs of the world’s ever-increasing population. The Journal also publishes book reviews.

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