利用沸石和蚯蚓堆肥改良剂提高北尼罗河三角洲低质水灌溉小麦的水分生产力

T. Khalifa, M. Ramadan, Mona S. M. Eid
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引用次数: 2

摘要

目的:从长远来看,在埃及的农业部门直接或混合淡水后再利用低质量的水来弥补供水限制可能对植物和土壤有害。因此,必须考虑适当的管理。为此,Sakha农业公司于2018/2019和2019/2020冬季进行了一项田间试验。埃及Kafr El-Sheikh Gov的Res. Station农场。本研究旨在评估沸石和蚯蚓堆肥及其组合对缓解低质水对粘土土壤理化性质和小麦生产力的影响。研究设计:完全随机区组设计,有3个重复。结果:施用2.40 Mg zha -1对土壤性质和植物生长最有效。该处理降低土壤EC、Na+、Ca2+、Mg2+、Cl-、SO42-和ESP值最多(分别为52.90%、83.21%、30.43%、6.04%、91.82%、19.83%和70.73%),K+值增加32.47%。在株高、千粒重、籽粒和秸秆产量方面,与未处理土壤相比,分别提高了35.92%、9.60%、42.77%和25.61%。当VC ha-1含量为2.40 Mg时,堆密度、总孔隙度和CEC的变化最大(分别为- 9.23%、9.30%和10.54%)。1.80 Mg Z + 0.6 Mg VC ha-1和0.6 Mg Z ha-1 + 1.80 Mg VC ha-1处理土壤含水量、疏水孔(DP)和持水孔(WHP)增加幅度最大。此外,0.6 Mg Z配以1.80 Mg VC ha-1显著提高了土壤速效氮、磷和钾。添加2.4吨氮/公顷提高了小麦的水分利用率,从而获得了具有较高经济吸引力的小麦。结论:应用Z和VC是缓解非生物胁迫、促进小麦生长的新策略。施用Z比VC更有效地改善土壤理化性质和提高水分生产力,实现低质水灌溉小麦的高经济吸引力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using Zeolite and Vermicompost Amendments to Improve Water Productivity of Wheat Irrigated by Low-quality Water in the Northern Nile Delta
Aims: In the long run, reusing low-quality water in Egypt's agricultural sector directly or after mixing with fresh water to compensate for water supply constraints can be hazardous to plants and soil. As a result, some appropriate management must be considered. For this reason, a field experiment was implemented in winter seasons 2018/2019 and 2019/2020 at Sakha Agric. Res. Station Farm, Kafr El-Sheikh Gov., Egypt. This study aims to assess the impacts of zeolite and vermicompost as well their combinations on alleviation of low-quality water impacts on physicochemical properties of clayey soil and wheat productivity. Study Design:  complete randomized block design with three replicates. Results: The application of 2.40 Mg Z ha-1 was found to be the most effective on soil properties and plant growth. This treatment reduced soil EC, Na+, Ca2+, Mg2+, Cl-, SO42-, and ESP values the most (52.90 percent, 83.21 percent, 30.43 percent, 6.04 percent, 91.82 percent, 19.83 percent, and 70.73 percent, respectively), while increasing the K+ value by 32.47 percent. It also achieved the highest increases in plant height, 1000-grain weight, grain, and straw yields (35.92%, 9.60%, 42.77%, and 25.61%, respectively) when compared to untreated soil. With 2.40 Mg VC ha-1, the greatest changes in bulk density, total porosity, and CEC (-9.23, 9.30, and 10.54 percent, respectively) were obtained. The applications of 1.80 Mg Z with 0.6 Mg VC ha-1 and 0.6 Mg Z ha-1 with 1.80 Mg VC ha-1, on the other hand, resulted in the greatest increases in soil moisture content, drainable pores (DP), and water holding pores (WHP). Furthermore, 0.6 Mg Z combined with 1.80 Mg VC ha-1 significantly increased the available N, P, and K in the soil. The addition of 2.4 tons Z/ha increased the WP and resulted in a high economically appealing wheat. Conclusion: It could be concluded that the application of Z and VC is a new strategy for alleviating abiotic stress and improving wheat growth. Z application was more effective than VC on improving soil physicochemical properties and improving the water productivity and achieve high economical attractiveness wheat irrigated by low-quality water.
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