Effects of silage production with different mechanized sets on soil physical attributes

Pub Date : 2023-06-01 DOI:10.1590/1983-21252023v36n222rc

S. P. Jasper, G. G. Zimmermann, L. L. Kmiecik, D. Savi

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Abstract

ABSTRACT The evaluation of the physical attributes of the soil in cultivated areas is essential for understanding the impacts of agricultural operations, especially those with intense machine traffic. Therefore, the present study aimed to evaluate the physical attributes of the soil submitted to silage with different mechanized sets. A randomized block design was adopted with three treatments: forage harvester with a one-row cutting platform (T1), forage harvester with a three-row cutting platform (T2), and T2 with a forage harvester with a conveyor wagon. Before ensiling and 24 hours after the operation, intact samples of soil classified as Latossolo Vermelhoamarelo álico, intact, were collected to determine the micro, macro, and total porosity, soil density, and volumetric soil water content according to the methodology proposed by the Brazilian Agricultural Research Corporation (Embrapa). After ensiling, the resistance to soil penetration was measured with an electronic manual penetrometer, before and after ensiling, at the A horizon of the soil in the layers of 0.0-0.2 m and 0.2-0.4 m. We analyzed the data by establishing the confidence interval using the t-test at 10% probability. The sets reduce the macroporosity and total porosity of the soil in the 0.0-0.2 m and 0.2-0.4 m soil layers. T2 promoted greater total density in the 0.0–0.2 m layer. The silage increased the resistance to soil penetration to a depth of 0.15 m.

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不同机械化装置青贮生产对土壤物理属性的影响

对耕地土壤物理属性的评估对于理解农业经营的影响至关重要，特别是那些机械交通密集的农业经营。因此，本研究旨在评价不同机械化装置青贮土壤的物理特性。采用随机区组设计，设置3个处理:牧草收割机带单排割台(T1)、牧草收割机带三排割台(T2)和牧草收割机带传送车(T2)。青贮前和青贮后24小时，收集分类为Latossolo Vermelhoamarelo álico的完整土壤样品，按照巴西农业研究公司(Embrapa)提出的方法测定土壤微观、宏观和总孔隙度、土壤密度和土壤体积含水量。青贮后，在青贮前0 ~ 0.2 m和0.2 ~ 0.4 m土层A层，用电子手动贯深仪测定青贮前后土壤的抗渗透能力。我们使用10%概率的t检验建立置信区间来分析数据。在0 ~ 0.2 m和0.2 ~ 0.4 m土层中降低了土壤的宏观孔隙度和总孔隙度。T2促进了0.0-0.2 m层的总密度增大。青贮使土壤抗渗透深度增加到0.15 m。

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