Integration of forage grasses with grain crops, such as maize, allows maintaining soil cover. The objective of this study was to evaluate the tensile strength, friability, and stability of soil aggregates in the maize and forage grass intercropping under no-tillage system. The study used a completely randomized block design with seven treatments and three replications. Undisturbed soil samples were collected in two seasons (2015 and 2016) at 0-0.10 m and 0.10-0.20 m soil depth. The following properties of soil aggregates were measured: tensile strength (TS), friability (F), gravimetric moisture (GM), weighted mean diameter (WMD), geometric mean diameter (GMD), and aggregate stability index (ASI). The intercropping of maize with Urochloa ruziziensis presented higher WMD and GMD at 0.10-0.20 m soil depth. Moreover, TS at 0.10-0.20 m soil depth was lower in maize without intercropping. The effects of the intercropping system on soil aggregates were better detected by aggregate stability than by TS or F. The intercropping of maize and U. ruziziensis improved soil aggregation to a higher extent than those systems with other forage grasses.
The objective of describing the scientific production on precision agriculture for soybean cultivation in southern Brazil. Integrative review developed in five stages: 1) to identify research problems: what is the scientific production on precision agriculture for the soybean economy in Brazil, 2) data collection, 3) data evaluation, 4) analysis and interpretation of data and 5) presentation of results. 19 articles appeared, published in the period from 2011 to 2019. All involve the study of soy, created in Latosol, Cambisolo and Argisolo; study areas ranging from 1.74 to 225 hectares; predominance of no-tillage carried out over ten years; crop rotation in summer and winter. As topics addressed: Physiological quality of soybean seeds; Sowing of soybeans; Chemical and physical attributes of the soil; Spectral indices during soybean growth; Weeds and pest control. There was greater emphasis on technologies: digital maps, machinery, tests, computer systems / programs, software, georeferencing, soil analysis, electronic meters, digital images, equipment and optical sensors. The tools used in precision agriculture are important for professional qualification, increased reduction, environmental impacts, sustainability, optimization of time and products and services, cost reduction.
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