不同施氮水平和叶面喷施纳米锌对小麦(Triticum aestivum.PWB-373

Shashi Kumar Sah, A. A. David, N. Swaroop, T. Thomas, N. Toppo, Dinesh Kumar Yadav
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摘要

2023-24 年期间,我们在萨姆-希金博顿农业科技大学奈尼农业研究所土壤科学和农业化学系的研究农场进行了一项田间试验,以研究不同水平的氮和叶面喷施纳米锌对小麦(Triticum aestivum L.)土壤健康和产量的影响。我们采用随机区组设计法(RBD)设计了 10 个处理和 3 次重复的实验。结果表明,施用纳米肥料对各种土壤理化性质有明显影响。0-15厘米土层的体积密度为1.27-1.31毫克/立方米,0-15厘米和15-30厘米土层的体积密度为1.29-1.32毫克/立方米。颗粒密度在 0-15 厘米土层深度为 2.65 至 2.67 Mg m-³,在 15-30 厘米土层深度为 2.60 至 2.62 Mg m-³。孔隙度在 0-15 厘米深度为 47.09% 至 48.99%,在 0-15 厘米和 15-30 厘米深度为 47.09% 和 48.84%。持水量在 0-15 厘米深为 45.22% 至 46.64%,15-30 厘米深为 45.14% 至 46.89%。土壤 pH 值在 0-15 厘米深度为 6.98 至 7.04,在 15-30 厘米深度为 7.00 至 7.05。导电率(EC)在 0-15 厘米深为 0.13 dS m-¹ 至 0.19 dS m-¹,在 15-30 厘米深为 0.13 dS m-¹ 至 0.19 dS m-¹。有机碳含量在 0-15 厘米深为 0.423%-0.493%,在 15-30 厘米深为 0.261%-0.334%。氮磷钾和纳米锌的使用也对氮磷钾锌的可用性产生了显著影响。这些研究结果表明,纳米肥料能有效提高土壤健康和小麦产量。
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Response of Different Level of Nitrogen and Foliar Application of Nano Zinc on Physico-chemical Properties of Soil in Wheat (Triticum aestivum. L) Var. PWB-373
A field experiment was conducted during the of 2023-24 at the Research Farm, Department of Soil Science and Agricultural Chemistry, Naini Agriculture Institute, Sam Higginbottom University of Agriculture Technology and Sciences, to investigate the Response of different levels of Nitrogen and Foliar application of nano zinc on Soil Health and Yield of Wheat (Triticum aestivum L.). We designed the experiment using a Randomized Block Design (RBD) with 10 treatments and three replications. Results indicated that the application of nano fertilizers significantly influenced various soil physico chemical properties. Bulk density was 1.27Mg m⁻³ to 1.31 Mg m⁻³ at 0-15 cm soil depth, and 1.29 to 1.32 Mg m⁻³ at 0-15 and 15-30 cm soil depth. Particle density was 2.65 to 2.67 Mg m⁻³ at 0-15 cm depth, and from 2.60 to 2.62 Mg m⁻³ at 15-30 cm depth. Pore space was 47.09% to 48.99% at 0-15 cm depth and 47.09% and 48.84% at 0-15 and 15-30 cm depth. Water holding capacity varied between 45.22% and 46.64% at 0-15 cm depth, and 45.14% and 46.89% at 15-30 cm depth. Soil pH was 6.98 to 7.04 at 0-15 cm depth and from 7.00 to 7.05 at 15-30 cm depth. Electrical conductivity (EC) was 0.13 dS m⁻¹ to 0.19 dS m⁻¹ at 0-15 cm depth, and from 0.13 dS m⁻¹ to 0.19 dS m⁻¹ at 15-30 cm depth. Organic carbon content was 0.423%-0.493% at 0-15 cm depth and 0.261% to 0.334% at 15-30 cm depth. The use of NPK and nano zinc also significantly influenced the availability of available nitrogen, phosphorus, potassium, and zinc. These findings suggest that nano fertilizers can effectively enhance soil health and wheat productivity.
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