Characterization of insecticide resistance and their mechanisms in field populations of the German cockroach (Blattodea: Ectobiidae) in Taiwan under different treatment regimes.

Panida Kruaysawat, Mei-Er Chen, Shao-Hung Lee, Chow-Yang Lee, Kok-Boon Neoh
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Abstract

This study investigated how management strategies influence resistance profiles in German cockroach (Blattella germanica (L.)) populations and their impact on the performance of commercial gel baits containing fipronil, imidacloprid, and indoxacarb. Field populations from premises managed under 3 different strategies: Baiting, random insecticide (RI) used, and insecticide rotation (IR) were tested. Almost all populations under RI and IR were resistant to deltamethrin, but low to moderate resistance was observed under the Baiting approach. Cytochrome P450 monooxygenases (P450) were involved in deltamethrin resistance in these resistant populations. All individuals under Baiting and RI were homozygous for the L993F mutation, but the populations under IR lacked homozygous-resistant individuals. Eighty-three percent of field populations with complete homozygosity for the Rdl mutation displayed low mortality upon exposure to 3× LD95 fipronil. The effect of P450 and the Rdl mutation conferred high fipronil resistance in populations under the Baiting approach, recording moderate performance indices (PI) of 44-67 in fipronil bait. By contrast, those populations under RI and IR, in which involve glutathione S-transferases in fipronil resistance, had high PIs of 78-93. Almost 80% of populations exhibited over 90% mortality at 3× LD95 indoxacarb treatment, accompanied by high PIs of 90-100 in indoxacarb bait. Partial mortality from 1× LD95 imidacloprid occurred across all field populations due to the involvement of P450. PIs of imidacloprid bait ranged 5-57 and 20-94 in populations under RI and IR, respectively. Field populations demonstrate different resistance profiles depending on the treatment regimes, and the resistance mechanisms involved influenced gel bait's effectiveness.

台湾德国小蠊(Blattodea: Ectobiidae)田间种群在不同处理制度下的杀虫剂抗药性特征及其机制。
本研究调查了管理策略如何影响德国蟑螂(Blattella germanica (L.))种群的抗药性特征,以及它们对含有氟虫腈、吡虫啉和茚虫威的商用凝胶毒饵性能的影响。田间种群来自采用 3 种不同策略管理的场所:对诱饵、随机使用杀虫剂(RI)和杀虫剂轮换(IR)三种不同策略下的田间种群进行了测试。几乎所有使用随机杀虫剂和轮换杀虫剂的种群都对溴氰菊酯产生了抗药性,但在诱杀法下观察到了低到中等程度的抗药性。在这些抗性种群中,细胞色素 P450 单氧化酶(P450)参与了溴氰菊酯抗性的产生。投饵法和 RI 法下的所有个体都是 L993F 突变的同源个体,但 IR 法下的种群缺乏同源抗性个体。在具有 Rdl 基因完全同源突变的田间种群中,83%的种群在接触 3× LD95 氟虫腈后死亡率很低。P450 和 Rdl 基因突变的作用使采用诱饵法的种群具有较高的氟虫腈抗性,在氟虫腈诱饵中的表现指数(PI)为 44-67,处于中等水平。相比之下,RI 和 IR 方法(谷胱甘肽 S-转移酶参与氟虫腈抗性)下的种群具有 78-93 的高 PI。在 3× LD95 的茚虫威处理下,几乎 80% 的种群死亡率超过 90%,茚虫威诱饵的 PI 值高达 90-100。由于 P450 的参与,所有田间种群在 1× LD95 吡虫啉处理下均出现部分死亡。在 RI 和 IR 条件下,吡虫啉饵料的 PI 分别为 5-57 和 20-94。田间种群表现出不同的抗性特征,这取决于处理制度,其中涉及的抗性机制影响了凝胶诱饵的效果。
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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