黄花菊成为第一个在出生前和出生前对茚地夫兰产生抗性的杂草。

IF 3.8 1区农林科学 Q1 AGRONOMY

Pest Management Science Pub Date : 2025-09-08 DOI:10.1002/ps.70214

Joshua Wa Miranda,Todd A Gaines,Marcelo L Moretti

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引用次数: 0

摘要

除草剂抗性进化是农业面临的重大挑战。黄花草（Poa annua L.）是一种分布在全球的具有遗传多样性的杂草，由于其遗传可塑性和快速的生命周期，对多种除草剂的作用位点产生了抗性。在一些农业生态系统中，Indaziflam被广泛用于控制稻瘟病菌，有报称出现了稻瘟病菌出苗期后的抗性，也有几例对出苗期前应用产生抗性的确诊病例。本研究调查了来自俄勒冈榛子园的P. annua对indaziflam的疑似抗性。结果8个品种的全株剂量反应试验证实，它们对吲唑氟的抗性是敏感品种的2.5 ~ 51倍，致死剂量为1.0 ~ 3.4 g ha-1的50%。抗性随植物发育阶段的增加而增加，在出苗期早期施用时最为明显，一些品种在树坚果果园的成活率为标记率的2至4倍（50-95 g ha-1）。田间试验证实，当达195克/公顷时，达唑氟在出苗前和出苗后早期的效果有所下降。在空气温度为9°C:1°C（白天/晚上）时，茚兹弗拉姆的功效在所有材料中显著下降，与25°C:12°C（白天/晚上）相比，LD50值在所有材料中增加了8倍。以酶抑制剂种子为基础的细胞色素P450和谷胱甘肽转移酶抑制剂试验没有逆转耐药，这表明除了代谢增强外，可能还涉及耐药途径。结论本研究首次证实了稻花羽化前和羽化后早期对吲唑氟仑产生田间进化抗性的病例。在较低温度和羽化后使用时，抗性最为严重，突出了环境和发育对吲唑氟活性的影响。©2025作者。由John Wiley & Sons Ltd代表化学工业协会出版的《害虫管理科学》。

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Poa annua becomes the first weed to evolve resistance to indaziflam applied preemergence and early-postemergence.

BACKGROUND Herbicide resistance evolution is a major challenge in agriculture. Poa annua L., a globally distributed and genetically diverse weed, has repeatedly evolved resistance to multiple herbicide sites of action due to its genetic plasticity and rapid life cycle. Indaziflam is widely used for P. annua control in several agroecosystems, with reports of postemergence resistance and a few confirmed cases of resistance to preemergence application. This study investigated suspected resistance to indaziflam in P. annua accessions from Oregon hazelnut orchards. RESULTS Whole-plant dose-response assays confirmed indaziflam resistance in eight accessions ranging from 2.5- to 51-fold relative to susceptible accessions, which had a lethal dose to 50% of the accession (LD50) of 1.0-3.4 g ha-1. Resistance increased with plant developmental stage and was most pronounced when indaziflam was applied early-postemergence, with some accessions surviving two- to four-fold the labeled rate in tree nut orchards (50-95 g ha-1). Field experiments confirmed reduced efficacy of preemergence and early-postemergence indaziflam treatments up to 195 g ha-1. Indaziflam efficacy declined significantly across all accessions at air temperatures 9 °C:1 °C (day/night), with LD50 values increasing up to eight-fold across accessions compared to 25 °C:12 °C (day/night). Enzyme inhibitor seed-based assays with cytochrome P450 and glutatione transferase inhibitors did not reverse resistance, suggesting resistance pathways other than enhanced metabolism may be involved. CONCLUSION This study provides the first confirmed cases of field-evolved resistance to indaziflam applied both preemergence and early-postemergence in P. annua. Resistance was most severe under cooler temperatures and postemergence use, highlighting environmental and developmental effects on indaziflam activity. © 2025 The Author(s). Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

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来源期刊

Pest Management Science 农林科学-昆虫学

CiteScore

7.90

自引率

9.80%

发文量

553

审稿时长

4.8 months

期刊介绍： Pest Management Science is the international journal of research and development in crop protection and pest control. Since its launch in 1970, the journal has become the premier forum for papers on the discovery, application, and impact on the environment of products and strategies designed for pest management. Published for SCI by John Wiley & Sons Ltd.