Haaf Klaus-Bernhard, Peters Olaf, Laber Bernd, Lange Gudrun, Gatzweiler Elmar, Geibel Sven, Passon Daniel, Endler Anne, Lange Sylvia, Kahlau Sabine, Eroschenko Tatjana, Waldraff Petra, Lümmen Peter
Research & Development, Weed Control, Division Crop Science, Bayer AG, Industriepark Höchst, Frankfurt am Main, Germany.
Targenomix GmbH, Potsdam, Germany.
Pest Manag Sci. 2025 May;81(5):2652-2661. doi: 10.1002/ps.8415. Epub 2024 Sep 19.
Without controlling weeds, it is estimated that about one third of global crop yields would be lost. Herbicides remain the most effective solution for weed control, but they face multiple challenges, such as the emergence and growth of resistant weed populations. Consequently, there is an urgent need for either herbicides with new modes of action or at least novel chemistries within established modes of action, with outstanding efficacy but without showing cross-resistance to the herbicides present in the prospective markets.
Icafolin-methyl is a novel herbicide with a unique biological profile. It is hydrolyzed in planta to the carboxylic acid icafolin. After post-emergence application icafolin-methyl and icafolin both show high efficacy against the most relevant competitive weeds in cold and warm season cropping systems at low application rates, including resistant black-grass and rye-grass biotypes. Biochemical and genetic evidence is provided that icafolin-methyl and icafolin inhibit plant tubulin polymerization probably by binding to ß-tubulins.
Icafolin-methyl is a novel non-selective herbicide with an established mode of action, but with a superior potency and spectrum, specifically after foliar application. This makes icafolin-methyl fundamentally different from existing tubulin polymerization inhibiting herbicides. It complements the farmers weed control toolbox, particularly with respect to resistance management. © 2024 Society of Chemical Industry.
据估计,如果不控制杂草,全球约三分之一的作物产量将会损失。除草剂仍然是控制杂草最有效的解决方案,但它们面临多重挑战,例如抗药性杂草种群的出现和生长。因此,迫切需要具有新作用模式的除草剂,或者至少是现有作用模式下的新型化学药剂,这些药剂要有出色的效果,同时对潜在市场中现有的除草剂不表现出交叉抗性。
甲基艾卡氟灵是一种具有独特生物学特性的新型除草剂。它在植物体内水解为羧酸艾卡氟灵。苗后施用后,甲基艾卡氟灵和艾卡氟灵在低施用量下对冷季和暖季种植系统中最主要的竞争性杂草均表现出高效,包括抗药性黑麦草和黑麦草生物型。提供了生化和遗传学证据,表明甲基艾卡氟灵和艾卡氟灵可能通过与β-微管蛋白结合来抑制植物微管蛋白聚合。
甲基艾卡氟灵是一种具有既定作用模式的新型非选择性除草剂,但具有更高的效力和更广的谱,特别是在叶面施用后。这使得甲基艾卡氟灵与现有的抑制微管蛋白聚合的除草剂有根本区别。它完善了农民的杂草控制工具箱,特别是在抗性管理方面。© 2024化学工业协会。
