Litcius/Paper detail

Herbicide Drift from Genetically Engineered Herbicide-Tolerant Crops

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

2021Environmental Science & Technology32 citationsDOI

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.

Topics & Concepts

Herbicide resistanceEnvironmental scienceSowingGenetically modified cropsAgronomyGenetically modified organismVegetation (pathology)Genetically engineeredAgricultural engineeringBiologyBiotechnologyTransgeneWeed controlEngineeringBiochemistryPathologyMedicineGeneWeed Control and Herbicide ApplicationsAtmospheric chemistry and aerosolsPlant responses to elevated CO2