Physical-hydric quality of a Regosol under integrated and conventional crop production systems

IF 0.2 Q4 AGRONOMY

Revista Agrogeoambiental Pub Date : 2023-01-27 DOI:10.18406/2316-1817v14n120221721

Nabor Galvão de Figueiredo Neto, P. A. D. Silva, F. P. D. Oliveira, A. F. Martins, Danillo Dutra Tavares, Milton C C Campos

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Abstract

Sandy soils have gained increased attention due to the expansion of new agricultural frontiers in Brazil and worldwide, however, they are sensitive to land use changes. The objective was to evaluate the physical-hydric quality of a Regosols under integrated and conventional production systems in the climatic conditions of the semiarid domain of Paraíba, Brazil. The study was carried out in the municipality of Lagoa Seca/PB, Brazil (7°10’15” S, 53°51’43” W, and 640 m of altitude), on a Regosols with a sandy loam textural classification. The experiment was set up in an entirely randomized design, with five treatments and five repetitions. The treatments were composed of: 1) Mombaça grass (Panicum maximum Jacq.) + Maize (Zea mays L.) (M+M); 2) Urochloa decumbens (Stapf) R. D. Webster + Maize (U+M); 3) secondary forest (SF); 4) conventional agriculture area, cultivated with bean (Phaseolus vulgaris L.) (AGR); and, 5) area in regeneration stage (ARS). The following variables were analyzed: flocculation degree, clay dispersed in water, soil porosity (total, macroporosity, microporosity), aeration porosity in the macro pore domain, soil bulk density, hydraulic conductivity, and available water. According to the results, the physical-hydric quality of the soil between the integrated systems was not significant, but compared to the conventional system, it showed satisfactory results. On the other hand, it is concluded that the modification of soil structure in an agricultural area has reduced water availability to plants to 75.20% below what is considered adequate. Long-term studies should be conducted in order to verify the effect of integration systems on improving the physical and structural quality of sandy soils.

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综合和常规作物生产系统下雷戈索尔的物理水分质量

由于巴西和世界各地新农业边界的扩大，沙质土壤越来越受到关注，但它们对土地利用变化很敏感。目的是在巴西帕拉伊巴半干旱地区的气候条件下，在综合和常规生产系统下评估Regosols的物理水分质量。该研究在巴西拉戈亚-塞卡/PB市（南7°10'15“，西53°51'43”，海拔640米）进行，采用沙壤土质地分类的Regosols。该实验采用完全随机设计，共有五次治疗和五次重复。处理包括：1）Mombaça草（Panicum maximum Jacq.）+玉米（Zea mays L.）（M+M）；2）伞形花（Stapf）R.D.Webster+玉米（U+M）；3）次生林；4）常规农业区，种植蚕豆（Phaseolus vulgaris L.）（AGR）；和5）再生阶段（ARS）的面积。分析了以下变量：絮凝度、粘土在水中的分散度、土壤孔隙度（总孔隙度、大孔隙度、微孔孔隙度）、大孔隙区域的通气孔隙度、土壤容重、导水率和有效水。结果表明，集成系统之间的土壤物理水分质量并不显著，但与传统系统相比，显示出令人满意的结果。另一方面，得出的结论是，农业区土壤结构的改变使植物的水分可利用率降低到75.20%，低于所认为的充足水平。应进行长期研究，以验证整合系统对改善沙质土壤物理和结构质量的影响。

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Revista Agrogeoambiental AGRONOMY-

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53 weeks