2022
DOI: 10.1017/wsc.2022.49
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Evaluation of potassium borate as a volatility-reducing agent for dicamba

Abstract: Dicamba was labeled in dicamba-resistant cotton (Gossypium hirsutum L.) and soybean [Glycine max (L.) Merr.] in 2017, resulting in a record number of off-target complaints. To address off-target movement via volatilization, experiments were conducted to evaluate the effectiveness of potassium tetraborate tetrahydrate (KBo) as a volatility-reducing agent (VRA) with dicamba. Low-tunnel experiments examined: 1) whether KBo functions as a dicamba VRA, 2) the relationship between KBo concentration and dicamba volat… Show more

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Cited by 3 publications
(7 citation statements)
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“…According to the results of this research, to minimize dicamba volatility, the addition of a VRA and the removal of glyphosate from the solution with dicamba substantially reduced the concentration of dicamba in air samples following application, and the impact to soybean bioindicator, particularly injury, and distance of lateral movement determined until 5% injured plants, regardless to surface treatment. These findings agree with those of previous research that reported that glyphosate enhanced dicamba volatility while the buffering activity of VRAs reduced its volatility by up to 89% (Castner et al 2022; Glenn 2022).…”
Section: Resultssupporting
confidence: 93%
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“…According to the results of this research, to minimize dicamba volatility, the addition of a VRA and the removal of glyphosate from the solution with dicamba substantially reduced the concentration of dicamba in air samples following application, and the impact to soybean bioindicator, particularly injury, and distance of lateral movement determined until 5% injured plants, regardless to surface treatment. These findings agree with those of previous research that reported that glyphosate enhanced dicamba volatility while the buffering activity of VRAs reduced its volatility by up to 89% (Castner et al 2022; Glenn 2022).…”
Section: Resultssupporting
confidence: 93%
“…The reduction in dicamba emissions was expected by including VRA, as its main component (acetate) scavenged protons in the solution, reducing the conversion of dicamba salt to the acid form of the herbicide, with a high volatility potential (Abraham 2018). This research used potassium acetate-based VRA (VaporGrip Xtra), which was comparable with the formulation used in previous studies that measured the of potassium carbonate-based VRA (commercially known as Sentris) and experimental potassium borate-based VRA on dicamba volatility (Castner et al 2022; Mueller et al 2022). The pH measurements of solutions used in this experiment were similar to those mentioned above.…”
Section: Resultsmentioning
confidence: 99%
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“…Research has shown off-target dicamba movement to occur via primary drift, secondary movement, and tank contamination (Cundiff et al 2017; Jones et al 2019b; Maybank et al 1978; Teske et al 2002). Research has shown that one of the main sources of the secondary movement of dicamba is volatility (Castner et al 2022; Egan and Mortensen 2012; Jones et al 2019b; Mueller and Steckel 2019b, 2021; Oseland et al 2020b; Soltani et al 2020; Zaccaro-Gruener et al 2022), and characteristics of the compound are important to consider for this type of transport.…”
Section: Introductionmentioning
confidence: 99%