Abstract
Since weed management is such a critical component of agronomic crop production systems, herbicides are widely used to provide weed control to ensure that yields are maximized. In the last few years, herbicide-resistant (HR) crops, particularly those that are glyphosate-resistant, and more recently, those with dicamba (3,6-dichloro-2-methoxybenzoic acid) and 2,4-D (2,4-dichlorophenoxyacetic acid) resistance are changing the way many growers manage weeds. However, past reliance on glyphosate and mistakes made in stewardship of the glyphosate-resistant cropping system have directly led to the current weed resistance problems that now occur in many agronomic cropping systems, and new technologies must be well-stewarded. New herbicide-resistant trait technologies in soybean, such as dicamba-, 2,4-D-, and isoxaflutole- ((5-cyclopropyl-4-isoxazolyl)[2-(methylsulfonyl)-4-(trifluoromethyl)phenyl]methanone) resistance, are being combined with glyphosate- and glufosinate-resistance traits to manage herbicide-resistant weed populations. In cropping systems with glyphosate-resistant weed species, these new trait options may provide effective weed management tools, although there may be increased risk of off-target movement and susceptible plant damage with the use of some of these technologies. The use of diverse weed management practices to reduce the selection pressure for herbicide-resistant weed evolution is essential to preserve the utility of new traits. The use of herbicides with differing sites of action (SOAs), ideally in combination as mixtures, but also in rotation as part of a weed management program may slow the evolution of resistance in some cases. Increased selection pressure from the effects of some herbicide mixtures may lead to more cases of metabolic herbicide resistance. The most effective long-term approach for weed resistance management is the use of Integrated Weed Management (IWM) which may build the ecological complexity of the cropping system. Given the challenges in management of herbicide-resistant weeds, IWM will likely play a critical role in enhancing future food security for a growing global population.
Highlights
Weed management is a critical component of crop production systems throughout the world.Herbicides are the primary tool used for weed control in modern agricultural crop production systems, their misuse and overuse has led to rapid evolution of herbicide-resistant weeds [1].Genetically-modified glyphosate-resistant crops have enabled farmers to use glyphosate in broadcast post-emergence applications in soybean (Glycine max (L.) Merr.), corn (Zea mays L.), cotton (Gossypium hirsutum L.), canola (Brassica napus L.), sugar beet (Beta vulgaris L.), and alfalfa (Medicago sativa L.) to control problematic weeds without damaging the crop [2]
This review provides an overview of the reliance on herbicide-resistant (HR) crops, the weed resistance issues that resulted from their mismanagement, the new herbicide trait technologies developed to better manage weed resistance, and some issues resulting from the field implementation of these new technologies
Next-generation HR crops have been engineered for resistance to additional herbicide groups and active ingredients; resistance traits for glufosinate and glyphosate are being combined with resistances to acetyl CoA carboxylase inhibitors (chemical family: arloxyphenoxypropionates (FOPs)), plant growth regulators, acetolactate synthase inhibitors, hydroxyphenylpyruvyldioxygenase inhibitors
Summary
Weed management is a critical component of crop production systems throughout the world. Agriculture 2019, 9, 180 crops has made glyphosate the most widely used herbicide in the world; due to the widespread use of glyphosate, numerous cases of weed resistance have been reported in many different countries [3]. This evolution of weed resistance to glyphosate has imposed new challenges in many agronomic cropping systems, and new technologies have been developed to deal with this resistance. This review provides an overview of the reliance on herbicide-resistant (HR) crops, the weed resistance issues that resulted from their mismanagement, the new herbicide trait technologies developed to better manage weed resistance, and some issues resulting from the field implementation of these new technologies
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