在作物-牲畜综合系统中,动物踩踏促进土壤压实的建模和量化

Pub Date : 2023-08-28 DOI:10.5433/1679-0359.2023v44n3p1179
Lucas Freitas do Nascimento Júnior, Aline Borges Torino, Luciana Maria da Silva, Kátia Aparecida de Pinho Costa, Ubirajara Oliveira Bilego, Carlos Cesar Evangelista de Menezes, Eduardo da Costa Severiano
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引用次数: 1

摘要

在临界水平上,动物践踏会使土壤发生物理退化,导致农业生产的可持续性丧失。因此,有必要对土壤压实势进行建模和量化。在此背景下,目的是评估作物-牲畜一体化系统(ICL)中动物踩踏导致土壤压实的发生情况。这项研究是在农业淡季期间在巴西戈亚斯州里奥佛得市的Centro Tecnológico da Comigo的一个领域进行的。试验区面积1.97 ha,平均分为8个围场。在放牧阶段前和四个放牧周期后采样土壤。通过确定预固结和临界压力来评估土的压缩行为。结果表明,14.59%的样品在放牧第一个循环中出现了额外的压实。在评估区域未观察到临界压实。在研究条件下,动物踩踏不是造成作物-牲畜一体化系统中结构性土壤退化传播的原因,而可能有助于生物土壤松动导致的物理改善。
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Modeling and quantification of soil compaction promoted by animal trampling in an integrated crop–livestock system
At critical levels, animal trampling can physically degrade soil, leading to the loss of sustainability of agricultural production. Therefore, it is becomes necessary to model and quantify the soil compaction potential. In this context, the objective was to evaluate the occurrence of soil compaction promoted by animal trampling in crop-livestock integration system (ICL). The study was conducted in a field at Centro Tecnológico da Comigo in the municipality of Rio Verde, Goias state, Brazil, during the agricultural off-season. The experimental area was composed of 1.97 ha, which was equally divided into eight paddocks. Soil was sampled before the grazing phase and after each of four grazing cycles. The compressive behavior of the soil was evaluated by determining the pre-consolidation and critical pressures. The results showed that only the first cycle of grazing showed additional compaction in 14.59% of samples. No critical compaction was observed in the evaluated area. Animal trampling under the studied conditions is not responsible for the dissemination of structural soil degradation in crop-livestock integration systems and may contribute to physical improvement resulting from biological soil loosening.
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