Abstract
Water magnetization and geoprocessing are increasingly utilized tools in weed management. Our objective was to study the influence of water magnetization on herbicide efficiency and to verify whether there is a relationship between control scores and the normalized difference vegetation index (NDVI). In the laboratory experiment, water was subjected to magnetization and evaluated with respect to four characteristics. In the field experiment, plots of Brachiaria grass were subjected to treatments in a factorial scheme (6 × 2 + 1). Six herbicidal factors (doses of glyphosate and glyphosate + 2,4-D) and the magnetization or absence of magnetization of the spray solution were evaluated and compared against the control treatment (without spraying). Weed control assessments were carried out six times. Images were obtained using an embedded multispectral camera to determine the NDVI values. Data related to water characteristics were analyzed using the t test. Weed control and NDVI data were subjected to analysis of variance and are presented in regression graphs. Dispersion analysis of NDVI data was performed according to the control scores. The magnetization process decreased the pH of the water and increased the surface tension, but it did not influence the control scores or the NDVI. As the glyphosate dose was increased, the control scores were higher and the NDVI values were lower. Magnetized water did not affect the biological efficiency of the herbicides, and there was a strong correlation between the control scores and the NDVI values.
Highlights
Herbicides are the most important phytosanitary products in agriculture
There was no effect of the water magnetization process on the plant control scores
The highest normalized difference vegetation index (NDVI) values were determined in the plots that received the lowest dose of glyphosate and glyphosate + 2,4-D (868 + 670 g ha-1) (Figure 3)
Summary
Herbicides are the most important phytosanitary products in agriculture. The main herbicides used in Brazil are glyphosate and dichlorophenoxyacetic acid (2,4-D), which are commonly applied together, since they have a synergistic effect when applied as a tank mix (Beckie, 2011). Glyphosate is registered for several operations, including post-emergent control in genetically modified crops, cleaning of areas, desiccation for no-till, and control between the lines of perennial crops. As an additive to glyphosate, 2,4-D is used in area cleaning operations and in pre-planting desiccation; in addition, it is registered for weed control in pasture areas. Water has some disadvantages, such as evaporation and high surface tension. Techniques have been studied to improve the deposition of the spray solution on the target. In this sense, water magnetization can improve aspects of the application technology. The use of magnetized water in agriculture is related to the efficient use of pesticides (Hozayn et al, 2013; Doklega, 2017)
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