Litcius/Paper detail

Metabolism-Based Herbicide Resistance, the Major Threat Among the Non-Target Site Resistance Mechanisms

Carlos Alberto Gonsiorkiewicz Rigon, Todd A. Gaines, Anita Küpper, Franck E. Dayan

2020Outlooks on Pest Management58 citationsDOI

Abstract

Evolution of resistance to pesticides is a problem challenging the sustainability of global food production. Resistance to herbicides is driven by the intense selection pressure imparted by synthetic herbicides on which we rely to manage weeds. Target-site resistance (TSR) mechanisms involve changes to the herbicide target protein and provide resistance only to herbicides within a single mechanism of action. Non-target site resistance (NTSR) mechanisms reduce the quantity of herbicide reaching the target site and/or modify the herbicide. NTSR mechanisms include reduced absorption and/or translocation, increased sequestration, and enhanced metabolic degradation. Of these diverse mechanisms contributing to NTSR, metabolism-based herbicide resistance represents a major threat because it can impart resistance to herbicides from varied chemical classes across any number of mechanisms of action.

Topics & Concepts

Resistance (ecology)Herbicide resistancePesticideSite of actionMechanism (biology)Selection (genetic algorithm)BiologyBiotechnologyAgronomyWeedComputer scienceEndocrinologyEpistemologyArtificial intelligencePhilosophyWeed Control and Herbicide ApplicationsInsect Resistance and GeneticsPesticide and Herbicide Environmental Studies