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3 February 2020 Particle drift potential of glyphosate plus 2,4-D choline pre-mixture formulation in a low-speed wind tunnel
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Abstract

The introduction of 2,4-D–resistant soybean and cotton provided growers a new POST active ingredient to include in weed management programs. The technology raises concerns regarding potential 2,4-D off-target movement to sensitive vegetation, and spray droplet size is the primary management factor focused on to reduce spray particle drift. The objective of this study was to investigate the droplet size distribution, droplet velocity, and particle drift potential of glyphosate plus 2,4-D choline pre-mixture (Enlist Duo®) applications with two commonly used venturi nozzles in a low-speed wind tunnel. Applications with the TDXL11004 nozzle had larger DV0.1 (291 µm), DV0.5 (544 µm), and DV0.9 (825 µm) values compared with the AIXR11004 nozzle (250, 464, and 709 µm, respectively), and slower average droplet velocity (8.1 m s-1) compared with the AIXR11004 nozzle (9.1 m s-1). Nozzle type had no influence on drift deposition (P = 0.65), drift coverage (P = 0.84), and soybean biomass reduction (P = 0.76). Although the TDXL11004 nozzle had larger spray droplet size, the slower spray droplet velocity could have influenced the nozzle particle drift potential. As a result, both TDXL11004 and AIXR11004 nozzles had similar spray drift potential. Further studies are necessary to understand the impact of droplet velocity on drift potential at field scale and test how different tank solutions, sprayer configurations, and environmental conditions could influence the droplet size and velocity dynamics and consequent drift potential in pesticide applications.

Nomenclature: 2,4-D; glyphosate; soybean, Glycine max (L.) Merr.; cotton, Gossypium hirsutum L.

© Weed Science Society of America, 2020.
Bruno C. Vieira, Thomas R. Butts, Andre O. Rodrigues, Jerome J. Schleier III, Bradley K. Fritz, and Greg R. Kruger "Particle drift potential of glyphosate plus 2,4-D choline pre-mixture formulation in a low-speed wind tunnel," Weed Technology 34(4), 520-527, (3 February 2020). https://doi.org/10.1017/wet.2020.15
Received: 15 August 2019; Accepted: 17 January 2020; Published: 3 February 2020
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