Mechanisms of herbicide resistance in weeds

Korean Journal of Agricultural Science Pub Date : 2017-03-01 DOI:10.7744/KJOAS.20170001

A. B. Bo, O. Won, H. T. Sin, Jeung Joo Lee, K. Park

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引用次数: 20

Abstract

In major field crops, synthetic herbicides have been used to control weeds worldwide. Globally, herbicide resistance in weeds should be minimized because it is a major limiting factor for food security. Cross resistance can occur with herbicides within the same or in different herbicide families and with the same or different sites of action. Multiple resistance refers to evolved mechanisms of resistance to more than one herbicide (e.g., resistance to both ALS-inhibitors and ACCase-inhibitors) and this resistance was brought about by separate selection processes. Target site resistance could occur from changes at the biochemical site of action of one herbicide. Non target site resistance occurs through mechanisms which reduce the number of herbicide molecules that reach the herbicide target site. There are currently 480 unique cases (species × site of action) of herbicide resistance globally in 252 plant species (145 dicots and 105 monocots). To date, resistance in weeds has been reported to 161 different herbicides, involving 23 of the 26 known herbicide sites of action. Finally, it can be concluded that we can protect crops associated to herbicide resistant weeds by applications of biochemical, genetic and crop control strategies.

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杂草抗除草剂机理研究

在主要的大田作物中，合成除草剂已在世界范围内用于控制杂草。在全球范围内，应尽量减少杂草的除草剂抗性，因为它是粮食安全的主要限制因素。交叉抗性可以发生在相同或不同除草剂家族的除草剂之间，也可以发生在相同或不同的作用位点。多重抗性是指对一种以上除草剂的抗性进化机制(例如，对als抑制剂和accase抑制剂的抗性)，这种抗性是通过单独的选择过程产生的。靶点抗性可以由一种除草剂作用位点的生化变化引起。非靶点抗性是通过减少到达靶点的除草剂分子数量的机制发生的。目前，全球共有252种植物(145种双子叶植物和105种单子叶植物)出现480例除草剂抗性(种×作用位点)。迄今为止，据报道，杂草对161种不同的除草剂具有抗性，涉及26种已知除草剂作用位点中的23种。因此，我们可以通过生物化学、遗传和作物控制等策略来保护与抗除草剂杂草相关的作物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Korean Journal of Agricultural Science

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