Enhancing Wheat Growth on Calcareous, Sandy, and Clay Soils through Farmyard Manure and Spirulina Extract Applications for Sustainable Agriculture

International Journal of Plant & Soil Science Pub Date : 2024-08-09 DOI:10.9734/ijpss/2024/v36i84904

I. El-Akhdar, M. Shabana, K. El-Naqma, Tarek Alshaal

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Abstract

The main objective of this investigation was to boost wheat productivity by reinforce calcareous, sandy and clay soils properties, i.e., some physical and chemical properties of the study soils using organic farmyard manure and Spirulina platensis extract (SPE) for achieving the sustainable agriculture aspect. The field experiments conducted in Kafr El-Sheikh and El-Behera Governorates, Egypt. Yield of wheat crop, concentrations of macronutrient in grains and straw as well as total microbial count were determined. Application of organic farmyard manure (FYM) significantly improved the hydro-physical properties of tested soils, i.e., Bulk density (Mg m-3), Total porosity (%), EC dS.m-1, pH, organic matter, SAR, Cations (Na+, K+, Ca++, and Mg++ meqL-1), Anions (CO3=, HCO3-, Cl- and SO4= meqL-1) and chemical available macronutrient (NPK) compared to control (minerals fertilizer) in the cultivated soils during 2022 and 2023 seasons. Also, Application of Farmyard Manure (FYM), with rate of 10-ton ha-1 and foliar with SPE consisted of 2.4 L during the vegetative growth stages of wheat alone or together improved the yield content of grains and straw of wheat as well as concentrations of N, P, K and protein content during two separated seasons with all soil types under studied. Clay soil had the best effect with the treatments compared with minerals applied where the calcareous soil came in the second-order while the sandy soil came in the last order. Clay soil with the great number of total count. Also, results showed that clay soil was the best effected with FYM application compared with other soils. Thus, on a long- term, these treatments can replace partially N, P and K mineral fertilizers, which reduce production costs and conserve the environment from chemical pollution hazards on human and animal health. Also, will enhance soil propertied and wheat productivity in clay, calcareous and sandy soils.

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通过应用农家肥和螺旋藻提取物促进小麦在石灰质土、沙土和粘土上的生长，实现可持续农业

这项研究的主要目的是通过使用有机农家肥和螺旋藻提取物（SPE）来增强石灰质土壤、沙质土壤和粘土的特性，即研究土壤的一些物理和化学特性，从而提高小麦的产量，实现可持续农业。田间试验在埃及 Kafr El-Sheikh 和 El-Behera 省进行。实验测定了小麦作物的产量、谷物和秸秆中主要营养素的浓度以及微生物总数。施用有机农家肥（FYM）明显改善了测试土壤的水物理特性，即与对照组（矿物质肥料）相比，施用有机农家肥（FYM）明显改善了 2022 年和 2023 年两季种植土壤的水物理特性，即体积密度（Mg m-3）、总孔隙度（%）、EC dS.m-1、pH 值、有机质、SAR、阳离子（Na+、K+、Ca++ 和 Mg++ meqL-1）、阴离子（CO3=、HCO3-、Cl- 和 SO4= meqL-1）和化学可利用宏量养分（NPK）。此外，在研究的所有土壤类型中，在小麦的无性生长阶段单独或同时施用 10 吨/公顷的农家肥（FYM）和含 2.4 升 SPE 的叶面肥，可在两个不同季节提高小麦的谷物和秸秆产量以及氮、磷、钾和蛋白质含量。与施用的矿物质相比，粘质土壤的处理效果最好，石灰质土壤排在第二位，而沙质土壤排在最后一位。粘土的总计数最多。结果还显示，与其他土壤相比，粘土施用 FYM 的效果最好。因此，从长远来看，这些处理方法可以替代部分氮、磷和钾矿物肥料，从而降低生产成本，保护环境免受化学污染对人类和动物健康的危害。此外，还能提高粘土、石灰质土和沙壤土的土壤肥力和小麦产量。

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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International Journal of Plant & Soil Science

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