Assessing Soil Quality, Wheat Crop Yield, and Water Productivity under Condition of Deficit Irrigation

Plants Pub Date : 2024-05-24 DOI:10.3390/plants13111462

Mohamed Emran, Omar M. Ibrahim, A. Wali, Khaled M. Darwish, Rasha M. Badr Eldin, Maryam M. Alomran, Amira M. El-Tahan

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Abstract

Wheat is one of the most important cereal crops in Egypt and all over the world. Its productivity is adversely affected by drought due to deficient irrigation to provide nutrients required for plant growth. In a field experiment, silicon foliar applications at concentrations of 0, 200, and 400 mg L−1 were performed at different irrigation rates ranging from 1000 to 4000 m3 ha−1 to assess water irrigation productivity and wheat crop yield in a calcareous soil under arid climate conditions. Increased irrigation rates led to a significant increase in soil nutrient dynamics, as well as in the number and weight of grains per spike, leaf area index, grain yield, straw yield, and biological yield, with the exception of the weight of 1000 grains. Spraying with sodium silicate had a significant impact on grain yield and harvest index but did not significantly impact the other traits. Furthermore, the interaction between irrigation and silicate application rates showed significance only for grain yield, the number of spikes/m2, and the harvest index. Applying three times irrigation could produce the highest nutrient retention, wheat yield, and water irrigation productivity. No significance was observed between 3000 m3 ha−1 and 4000 m3 ha−1 irrigation, indicating a saving of 25% of applied irrigation water. It can be concluded that applying irrigation at 3000 m3 ha−1 could be a supplemental irrigation strategy. High wheat grain yield can be achieved under deficit irrigation (3000 m3 ha−1) on the northwestern coast of Egypt with an arid climate by spraying crops with sodium silicate at a rate of 400 mg L−1.

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评估缺水灌溉条件下的土壤质量、小麦产量和水分生产率

小麦是埃及乃至全世界最重要的谷类作物之一。由于灌溉不足无法提供植物生长所需的养分，小麦的产量受到干旱的不利影响。在一项田间试验中，在 1000 至 4000 立方米/公顷的不同灌溉速率下，对浓度为 0、200 和 400 毫克/升-1 的硅进行了叶面喷施，以评估干旱气候条件下石灰性土壤的水灌溉生产力和小麦作物产量。提高灌溉率可显著提高土壤养分动态以及每穗粒数和粒重、叶面积指数、谷物产量、秸秆产量和生物产量，但千粒重除外。喷洒硅酸钠对谷物产量和收获指数有显著影响，但对其他性状没有显著影响。此外，灌溉和硅酸盐施用量之间的交互作用只对谷物产量、穗数/平方米和收获指数有显著影响。三次灌溉可产生最高的养分保持率、小麦产量和水灌溉生产率。灌溉水量为 3000 m3 ha-1 和 4000 m3 ha-1 之间没有显著差异，这表明灌溉用水可节省 25%。由此可以得出结论，3000 立方米/公顷的灌溉水量可以作为一种补充灌溉策略。在气候干旱的埃及西北海岸，通过向作物喷洒 400 mg L-1 的硅酸钠，可在亏缺灌溉（3000 m3 ha-1）条件下实现小麦高产。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Plants

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