Reduction in the spray drift of 2,4-D in tomato using hydraulic nozzles with air induction and LI-700 adjuvant

João De Deus Godinho Júnior,Vinícius Ribeiro Faria,Alberto Carvalho Filho,Renato Adriane Alves Ruas,Marcelo Rodrigues Dos Reis

doi:10.1590/1983-40632018v4851416

João De Deus Godinho Júnior, Vinícius Ribeiro Faria + Show 3 more

Open Access

https://doi.org/10.1590/1983-40632018v4851416

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Abstract

ABSTRACT The drift of hormonal effect herbicides is a major problem for agriculture, because, even in small amounts, it may cause high losses in crops with plants that are sensitive to their action mechanism. This study aimed to evaluate the efficiency of hydraulic spray nozzles with air induction, as well as the use of the LI-700 adjuvant, in the reduction of the 2,4-D herbicide drift, in tomato crop. A complete randomized split-plot experimental design, with eight replications, was used. Two herbicide solutions were assigned in the plots (with or without the use of adjuvant) [2,4-D (670 g ha-1) and 2,4-D (670 g ha-1) + LI-700 (712.88 g ha-1)], and, in the subplots, five nozzle models [simple fan (JSF11003), simple fan with air induction (AD-IA11003), dual fan with air induction (AD-IA/D11003), simple hammer fan with air induction (TTI11003-VP) and empty cone with air induction (CV-IA10003). The treatments were applied in a wind tunnel, under a pressure of 300 kPa. In a laser analyzer, applying only water, the volumetric median diameter, the relative amplitude and the percentage of drops with diameter lower than 150 µm were measured for all nozzle models. The CV-IA10003 and TTI11003-VP hydraulic nozzles outstand by reducing the 2,4-D herbicide drift and decreasing the damage to tomato plants. The addition of the LI-700 adjuvant to the 2,4-D syrup, independently of the nozzle model, reduces the drift of this herbicide and its effects on the tomato plant root. However, even when adopting these technologies, the application of the 2,4-D herbicide near the tomato crop should be avoided.

Highlights

The spray drift of pesticides in crops is a major problem for agriculture, and its control is essential to reduce financial and environmental damage, as well as protecting the health of living organisms
The drift of hormonal herbicides, such as 2,4-D, is even more harmful, because, even in low quantities, they may cause high losses in crops where plants are sensitive to their action mechanism (Egan et al 2014)
The greater relative amplitude of the drops population (SPAN) of TTI11003-VP explains the fact that it showed the highest average to volumetric median diameter, but not the smallest one to percentage of small drops (PRD)

Summary

Introduction

The spray drift of pesticides in crops is a major problem for agriculture, and its control is essential to reduce financial and environmental damage, as well as protecting the health of living organisms. The 2,4-D herbicide, an auxin agonist, is used worldwide in weed control, besides being an alternative to the use of glyphosate, in the case. Reduction in the spray drift of 2,4-D in tomato using hydraulic nozzles with air induction and LI-700 adjuvant 135 of dicotyledon weeds resistant or tolerant to this herbicide (Robinson et al 2012, Craigmyle et al 2013, Spaunhorst & Bradley 2013). The recent development and release of cultivars resistant to 2,4-D will increase even more the use of this herbicide in rural properties (Mortensen et al 2012) and, the possible problems with drift

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