Vilaneide Lopes Costa de Oliveira, Jessica Neves de Carvalho, Luiz Antonio Cestano, J. J. Souza
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引用次数: 0
摘要
水土流失是气候变化和人类活动对旱地造成的最危险影响之一。控制水土流失、减少土壤和养分流失对维持陆地生态系统至关重要。有关巴西半干旱地区土壤脆弱性的研究数据很少。本研究旨在测量土壤的抗侵蚀能力。对十个土壤剖面进行了描述和分类,以代表植被覆盖和地质多样性。无论骨料的等效直径如何,水稳骨料(WSA)的含量变化很大。阿伦诺索尔(Arenosol)和索洛涅茨(Solonetz)的 A 和 E 层的水稳骨料含量最低。梭罗内茨的 Plinthosol 和 argic 地层以及 Luvisol 的土壤流失量最低。大集料和细集料呈现出不同的稳定机制。植被覆盖率、粘土和砂的含量会影响大于 1 毫米的团聚体的稳定性。土壤反应性、Al3+ 含量和海拔高度对小于 1 毫米的团聚体非常重要。政府和农村小生产者应采取有利于覆盖和保持土壤水分和有机残留物的保护措施,以尽量减少对人类环境的影响。
Soil erosion is one of the most dangerous impacts of climate change and anthropic disturbance in drylands. Its control and reduction of soil and nutrient loss are essential to maintaining terrestrial ecosystems. Rare studies present data about soil fragility in the Brazilian semiarid. This study aimed to measure soil resistance to erosion. Ten soil profiles were described and classified to represent vegetation cover and geological diversity. The water-stable aggregates (WSA) content is highly variable, regardless of the equivalent diameter of the aggregates. The lowest levels of WSA were recorded by Arenosol and A and E horizons of Solonetz. Plinthosol and argic horizon of Solonetz and Luvisol recorded the lowest levels of soil loss. Large and fine aggregates presented different stability mechanisms. Vegetation cover, clay, and sand contents intermediate the stability of aggregates larger than 1 mm. Soil reactivity, Al3+ content, and altitude are important for aggregates smaller than 1 mm. Conservation practices that favor coverage and maintenance of soil moisture and organic residues should be induced by the government and applied by small rural producers to minimize human environmental effects.
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