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Improving Wheat Yield and Water-Use Efficiency by Optimizing Irrigations in Northern China

Xin Zhang, Jianheng Zhang, Jiaxin Xue, Guiyan Wang

2023Sustainability11 citationsDOIOpen Access PDF

Abstract

Achieving the goal of increasing both crop yield and water-use efficiency with a better irrigation regime is a major challenge in semi-arid areas. In this study, we presented a two-season field experiment (October 2018–June 2019 and October 2019–June 2020) that considered drought stresses, i.e., no irrigation (W0), irrigated in jointing (W1), both in jointing and flowering (W2) after re-greening, and wheat varieties (S086; J22). The results showed that a 45.5% excess of irrigation water input did not promote wheat yield (W1 vs. W2). S086 was beneficial for the usage of soil water consumption under a low amount of irrigation water in both seasons. In addition, irrigation positively affected the activities of superoxide dismutase and catalase in flag leaves (p < 0.05). A decrease in irrigation helped to increase the concentrations of soluble sugar and proline and decrease the amount of malondialdehyde content for S086. For the water- and irrigation-water-use efficiency, W1 was significantly increased by 20.6–21.7% and 38.3–39.3% in 2018–2019 and 23.4–24.4% and 43.8–44.7% in 2019–2020, respectively, as compared to W2. Additionally, a higher yield for S086 than J22 was found under deficit irrigation. Consequently, our study suggested that the S086 variety combined with a total amount of irrigation water of 165 mm might be recommended to meet the win–win goal of high crop yields and water-use efficiency for reducing ground water depletion in the future.

Topics & Concepts

IrrigationWater-use efficiencyAgronomyEnvironmental scienceDeficit irrigationYield (engineering)Water useSurface irrigationIrrigation managementBiologyMetallurgyMaterials scienceIrrigation Practices and Water ManagementPlant Water Relations and Carbon DynamicsRice Cultivation and Yield Improvement