Soybean productivity under different grazing heights of Brachiaria ruziziensis in an integrated crop-livestock system

The behavior of individual leaves, stems and pods under different straw mulches was similar to that observed in the accumulation of total dry matter, in which plants grown under

In the 0.00–0.05 m depth, the Integrated Crop- Livestock System with continuous pasture grazing (ICL + P) showed the greatest soil bulk density value, which indicates the effect

Soil mass distribution as water-stable aggregates diameter in different layers in a Red Latosol under integrated crop-livestock system under no-tillage under different

Management induced changes in soil physical properties for crop-livestock systems compared to soil physical properties for the NV were also reported by Santos et al.. These data are

Table 6 - Period of time after sowing of Brachiaria ruziziensis required for beginning, stabilization and average time of seedling germination in the field under different amounts

In a summer season affected by drought, the crop-livestock system under intensive winter grazing, with pasture height up to 0.20 m, results in lower soil moisture, when compared

Weighted means of soil layers identified by Visual Evaluation of Soil Structure due to the grazing intensity (light or heavy) in the integrated crop-livestock system and under

Abstract − The objective of this work was to evaluate the quality of the soil and its relation with soybean (Glycine max) yield in an integrated crop-livestock system (ICLS),