Abstract
The widely successful use of synthetic herbicides over the past 70 years has imposed strong and widespread selection pressure, leading to the evolution of herbicide resistance in hundreds of weed species. Both target-site resistance (TSR) and nontarget-site resistance (NTSR) mechanisms have evolved to most herbicide classes. TSR often involves mutations in genes encoding the protein targets of herbicides, affecting the binding of the herbicide either at or near catalytic domains or in regions affecting access to them. Most of these mutations are nonsynonymous SNPs, but polymorphisms in more than one codon or entire codon deletions have also evolved. Some herbicides bind multiple proteins, making the evolution of TSR mechanisms more difficult. Increased amounts of protein target, by increased gene expression or by gene duplication, are an important, albeit less common, TSR mechanism. NTSR mechanisms include reduced absorption or translocation and increased sequestration or metabolic degradation. The mechanisms that can contribute to NTSR are complex and often involve genes that are members of large gene families. For example, enzymes involved in herbicide metabolism-based resistances include cytochromes P450, GSH S-transferases, glucosyl and other transferases, aryl acylamidase, and others. Both TSR and NTSR mechanisms can combine at the individual level to produce higher resistance levels. The vast array of herbicide-resistance mechanisms for generalist (NTSR) and specialist (TSR and some NTSR) adaptations that have evolved over a few decades illustrate the evolutionary resilience of weed populations to extreme selection pressures. These evolutionary processes drive herbicide and herbicide-resistant crop development and resistance management strategies.
Highlights
Plants that are not wanted at a particular time and/or place have been managed mostly with synthetic herbicides for more than 70 years
Such information will be useful in resistance management and in the design of herbicide molecules for which evolution of resistance is more problematic for weeds
We summarize the wide array of resistance mechanisms that weeds have evolved to survive the intense selection pressure imparted by commercial herbicides
Summary
The widely successful use of synthetic herbicides over the past 70 years has imposed strong and widespread selection pressure, leading to the evolution of herbicide resistance in hundreds of weed species Both target-site resistance (TSR) and nontarget-site resistance (NTSR) mechanisms have evolved to most herbicide classes. There are 26 molecular target sites of the more than 260 commercial herbicide active ingredients that are recognized by the Herbicide Resistance Action Committee, an industry organization that monitors herbicide resistance (Herbicide Resistance Action Committee (2020) HRAC Mode of Action Classification 2020 Map, https://hracglobal.com/tools/hrac-modeof-action-classification-2020-map; accessed April 22, 2020) Of these target sites, resistance has evolved globally (in 92 crops in 70 countries) to 167 herbicides representing about 23 of these targets, with 512 weed species evolving resistance to one of more herbicides Additional herbicides to which resistance has evolved are found in Heap, I. (2020) The international survey of herbicide resistant weeds; available at www.weedscience.com; accessed February 25, 2020
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