Physical Attributes of an Irrigated Oxisol after Brassicas Crops under No-Tillage System

Physical Attributes of an Irrigated Oxisol after Brassicas Crops under No-Tillage System

In no-tillage areas, cover crops are a continuous supply of organic matter and other positive improvements to the soil’s structural quality. We evaluated soil physical attributes in area cultivated with brassica crops on residues of cover crops cultivated under no-tillage. Six cover crops coverages...

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Bibliographic Details
Published in:Agronomy (Basel) Vol. 12; no. 8; p. 1825
Main Authors: Torres, José Luiz Rodrigues, Mazetto Júnior, José Carlos, de Souza Silveira, Bruna, Loss, Arcângelo, dos Santos, Gilsonley Lopes, de Assis, Renato Lara, Lemes, Ernane Miranda, da Silva Vieira, Dinamar Márcia
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-07-2022
Subjects:
Agricultural industry
Agricultural practices
Agricultural production
Brachiaria
Brassica
Cluster analysis
Compacted soils
Cover crops
Crop residues
Crops
Cultivation
Density
Fabaceae
Farm machinery
Hemp
Macroporosity
Microorganisms
Microporosity
Millet
Moisture effects
Moisture resistance
No-till cropping
No-tillage
Organic matter
Penetration resistance
Poaceae
soil aggregation
Soil compaction
Soil density
Soil depth
Soil layers
Soil moisture
soil porosity
Soil quality
Soil resistance
soil resistance to penetration
Soil stability
Soil structure
Soils
Tillage
winter crops
Brazil
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Summary:In no-tillage areas, cover crops are a continuous supply of organic matter and other positive improvements to the soil’s structural quality. We evaluated soil physical attributes in area cultivated with brassica crops on residues of cover crops cultivated under no-tillage. Six cover crops coverages [1-Brachiaria (B), 2-Sunn hemp (S), 3-Pearl millet (M), 4-S + B; 5-B + M; 6-S + M] and a native area (Cerrado biome), were evaluated for soil resistance to penetration (RP), soil density (SD), soil macroporosity, microporosity, volumetric moisture (VM), weighted mean diameter, geometric mean diameter, and aggregate stability index. RP and VM differed among treatments; no compacted soil layer was observed at up to 0.4 m soil depth; Low RP and SD were observed for Brachiaria and Pearl millet (Poaceae) compared to Sunn hemp (Fabaceae) in deeper soil layers; The principal components and cluster analysis indicated B + M as the most promising coverage for deep soil structuring. The soil physical quality indicators showed that millet in isolated cultivation or intercropped with another cover was the culture that presented the best results for most of the evaluated characteristics. The best indices of soil aggregation were observed where the species of the Poaceae Family were being cultivated in isolation or intercropped with each other.
ISSN:2073-4395
2073-4395
DOI:10.3390/agronomy12081825