Herbicide Drift from Genetically Engineered Herbicide-Tolerant Crops

Stephen M. Sharkey; Brent J. Williams; Kimberly M. Parker

doi:10.1021/acs.est.1c01906

Herbicide Drift from Genetically Engineered Herbicide-Tolerant Crops

Stephen M. Sharkey, Brent J. Williams, Kimberly M. Parker

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

In recent years, off-target herbicide drift has been increasingly reported to lead to damage to nontarget vegetation in the U.S. These reports have coincided with the widespread adoption of genetically modified crops with new herbicide-tolerance traits. Planting crops with these traits may indirectly lead to increased drift both by increasing the use of the corresponding herbicides and by facilitating their use as postemergence herbicides later in the season. While extensive efforts have aimed to reduce herbicide drift, critical uncertainties remain regarding the physiochemical phenomena that drive the entry of herbicides into the atmosphere as well as the atmospheric processes that may influence short- and long-range transport. Resolving these uncertainties will support the development of effective approaches to reduce herbicide drift.

Original language	English (US)
Pages (from-to)	15559-15568
Number of pages	10
Journal	Environmental Science and Technology
Volume	55
Issue number	23
DOIs	https://doi.org/10.1021/acs.est.1c01906
State	Published - Dec 7 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021 American Chemical Society

Keywords

2,4-D
Dicamba
herbicide drift
herbicide volatilization
herbicide-tolerant crops

Publisher link

10.1021/acs.est.1c01906

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title = "Herbicide Drift from Genetically Engineered Herbicide-Tolerant Crops",

abstract = "In recent years, off-target herbicide drift has been increasingly reported to lead to damage to nontarget vegetation in the U.S. These reports have coincided with the widespread adoption of genetically modified crops with new herbicide-tolerance traits. Planting crops with these traits may indirectly lead to increased drift both by increasing the use of the corresponding herbicides and by facilitating their use as postemergence herbicides later in the season. While extensive efforts have aimed to reduce herbicide drift, critical uncertainties remain regarding the physiochemical phenomena that drive the entry of herbicides into the atmosphere as well as the atmospheric processes that may influence short- and long-range transport. Resolving these uncertainties will support the development of effective approaches to reduce herbicide drift.",

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AU - Williams, Brent J.

AU - Parker, Kimberly M.

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AB - In recent years, off-target herbicide drift has been increasingly reported to lead to damage to nontarget vegetation in the U.S. These reports have coincided with the widespread adoption of genetically modified crops with new herbicide-tolerance traits. Planting crops with these traits may indirectly lead to increased drift both by increasing the use of the corresponding herbicides and by facilitating their use as postemergence herbicides later in the season. While extensive efforts have aimed to reduce herbicide drift, critical uncertainties remain regarding the physiochemical phenomena that drive the entry of herbicides into the atmosphere as well as the atmospheric processes that may influence short- and long-range transport. Resolving these uncertainties will support the development of effective approaches to reduce herbicide drift.

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KW - herbicide drift

KW - herbicide volatilization

KW - herbicide-tolerant crops

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Herbicide Drift from Genetically Engineered Herbicide-Tolerant Crops

Abstract

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Keywords

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