Abstract
ABSTRACT It is a well-known fact that the application of pesticides can be improved using an electrostatic spray due to the reduction of the application rate and increase in deposition on plant targets. However, little information exists on the use of such technology in maize crops. Thus, this study is aimed to evaluate the spray deposition on maize resulting from spray application using an electrostatic sprayer in combination with low application rates and different spray compositions. A field experiment was conducted in a randomized block having a 2×2×2 factorial design with two application rates (95 and 52 L ha-1), with or without the spray electrification, and with or without the synthetic adjuvant. The droplet electrification ability, interference of the electrical conductivity of the spray solution, losses of spray solution to the soil, and spray deposition on maize plants were evaluated for two cases of insecticide applications. The Faraday cage method was used to determine the spray electrification ability of the equipment. The spray deposition on plants and the losses to the soil were analyzed using a tracer (food coloring dye) added to the spray solution that was subsequently detected by spectrophotometry. It was seen that the electrostatic sprayer improved the spray application efficiency, which responded positively to the increase in the electrical conductivity of the spray solution. The deposition of the electrified spray solution on the upper third canopy of maize was found to be higher; the spray solution electrification also reduced the losses to the soil, regardless of the application rate.
Highlights
Maize (Zea mays L.) is one of the most important cereals produced worldwide
The first was performed to determine the electrical conductivity of the spray solutions used; the second was intended to determine the ability of an electrostatic sprayer to electrify the droplets of each spray solution, and the third test was to evaluate the electrostatic spray application of each spray solution
The use of the insecticide or adjuvant resulted in changes to the electrical conductivity of the spray solutions (Table 2)
Summary
Maize (Zea mays L.) is one of the most important cereals produced worldwide. During its cultivation, several factors may compromise the potential yield, such as insects, pests, diseases, and weeds. Despite the widespread use of hybrids with resistance to lepidopterans (Lourenção & Fernandes, 2013), the cultivation of maize still presents severe problems with pest infestations by the fall armyworm The multiplication of S. frugiperda is strongly affected by the weather conditions, especially during the hottest and humid periods of the year, and the presence of volunteer plants from previous harvests. These are favorable conditions for the reproduction and spreading of S. frugiperda (Sarmento et al, 2006). Successive cultivations of the same crop and the indiscriminate use of pesticides have considerably increased the problems with insect pest resistance (Dal Pogetto et al, 2012)
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