尼日利亚北部赤锈粉甲虫(Tribolium castaneum, Herbst 1797)对多种农药的抗性可能与代谢机制有关

M. Mukhtar, Muhammad A. Mustapha, M. Aliyu, S. Ibrahim
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引用次数: 0

摘要

铁锈红粉甲虫是破坏尼日利亚各地谷物和面粉的主要害虫,目前严重缺乏关于其农药抗性分子机制的信息,妨碍了以证据为基础的防治工作。本研究将尼日利亚卡诺的3个红粉甲虫种群鉴定为Tribolium castaneum (Herbst 1797),并对其抗性机制进行了研究。IRAC敏感性生物测定结果显示,NNFM、R/Zaki和Yankaba种群对氯氰菊酯产生抗性,lc50值为4.35 ~ 5.46 mg/mL。NNFM对DDT和马拉硫磷的lc50分别为15.32 mg/mL和3.71 mg/mL。3个种群对敌敌畏的lc50均为0.17 ~ 0.35 mg/mL,呈高敏感性。增效剂与胡椒酰丁氧酯的生物试验显著恢复了氯氰菊酯的敏感性,死亡率增加了近三倍,从1.5 mg/mL氯氰菊酯的24.8%增加到增效组的63.3% (p = 0.013),表明p450具有显著的作用。电压门控钠通道IIS4和IIS6片段中两个主要的低敲抗性(kdr)突变T929I和L1014F在活氯氰菊酯和死氯氰菊酯甲虫中均未检测到,提示靶位不敏感机制的作用较小。这些发现强调有必要探索这种害虫的替代控制工具和/或利用增效剂,如胡椒酰丁醇,作为农药配方中的附加化学物质,以提高其功效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multiple Pesticide Resistance in Rust-Red Flour Beetle (Tribolium castaneum, Herbst 1797) from Northern Nigeria Is Probably Driven by Metabolic Mechanisms
There is a severe lack of information about molecular mechanisms of pesticide resistance in the rust-red flour beetle, a major pest destroying grains and flour across Nigeria, hindering evidence-based control. Here, we identified to the species level three populations of the red flour beetle from Kano, Nigeria, as Tribolium castaneum (Herbst 1797) and investigated the mechanism driving their insecticide resistance. The IRAC susceptibility bioassays established cypermethrin resistance, with LC50s of 4.35–5.46 mg/mL in the three populations, NNFM, R/Zaki and Yankaba. DDT and malathion resistance were observed in NNFM, with LC50s of 15.32 mg/mL and 3.71 mg/mL, respectively. High susceptibility was observed towards dichlorvos in all three populations with LC50s of 0.17–0.35 mg/mL. The synergist bioassay with piperonylbutoxide significantly restored cypermethrin susceptibility, with mortality increasing almost threefold, from 24.8% obtained with 1.5 mg/mL of cypermethrin to 63.3% in the synergised group (p = 0.013), suggesting a preeminent role of P450s. The two major knockdown resistance (kdr) mutations, T929I and L1014F, in the IIS4 and IIS6 fragments of the voltage-gated sodium channel were not detected in both cypermethrin-alive and cypermethrin-dead beetles, suggesting a lesser role of target-site insensitivity mechanisms. These findings highlight the need to explore alternative control tools for this pest and/or utilise synergists, such as piperonyl butoxide, as additional chemistries in pesticide formulations to improve their efficacy.
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