Department of Entomology and Plant Pathology, North Carolina State University, Raleigh, NC.
W.M. Keck Center for Behavioral Biology, North Carolina State University, Raleigh, NC.
J Econ Entomol. 2019 Sep 23;112(5):2295-2301. doi: 10.1093/jee/toz120.
Despite limited efficacy data, do-it-yourself (DIY) insecticide products often promise low-cost alternatives to professional pest control. Total release foggers (TRFs, 'bug bombs'), which are prominent DIY products, were recently shown to be ineffective at reducing German cockroach (Blattella germanica L.) infestations, in contrast to highly effective baits. However, the reason(s) for TRF failure remain unknown. Therefore, we investigated insecticide resistance of apartment-collected cockroaches from homes where TRFs failed. In topical (direct) application assays, resistance to cypermethrin (a common active ingredient in TRFs) was 202 ± 33 times that of a laboratory insecticide-susceptible population (based on LD50 ratios), while resistance to fipronil, a common bait active ingredient, was considerably lower at 14 ± 2 times that of the laboratory insecticide-susceptible population. The addition of PBO, a P450 inhibitor that synergizes pyrethroids, enhanced the efficacy of cypermethrin, but only at high doses of cypermethrin. Additionally, >96% of screened cockroaches possessed at least one copy of the L993F mutation in the voltage-gated sodium channel, known to confer resistance to pyrethroids (knockdown resistance, kdr). Because TRF treatments killed insecticide-susceptible sentinel cockroaches but failed to kill apartment-collected cockroaches, these results suggest that pyrethroid resistance is a major factor contributing to the failure of TRFs. Multiple mechanisms of resistance, including metabolic detoxification of the pyrethroids and kdr mutations that confer target-site insensitivity, suggest that TRFs would lack efficacy against German cockroaches in residential settings, where high levels of pyrethroid resistance have been documented globally.
尽管 DIY 杀虫剂产品的疗效数据有限,但它们经常承诺提供低成本的替代方案,以替代专业的虫害控制。总释放烟雾剂(TRFs,“臭虫炸弹”)是一种突出的 DIY 产品,最近被证明在减少德国蟑螂(Blattella germanica L.)的侵扰方面无效,与高效的诱饵相比。然而,TRF 失败的原因仍不清楚。因此,我们研究了来自 TRF 失败家庭的公寓收集的蟑螂对杀虫剂的抗药性。在局部(直接)应用测定中,对氯菊酯(TRFs 中常见的活性成分)的抗性是实验室杀虫剂敏感种群的 202 ± 33 倍(基于 LD50 比值),而对氟虫腈(一种常见的诱饵活性成分)的抗性则低得多,仅为实验室杀虫剂敏感种群的 14 ± 2 倍。添加 PBO(一种协同增效拟除虫菊酯的 P450 抑制剂)可增强氯菊酯的功效,但仅在高剂量氯菊酯时有效。此外,筛选出的蟑螂中有超过 96%的蟑螂至少携带一个电压门控钠离子通道中的 L993F 突变,该突变已知会导致对拟除虫菊酯的抗性(击倒抗性,kdr)。由于 TRF 处理杀死了对杀虫剂敏感的哨兵蟑螂,但未能杀死公寓收集的蟑螂,这些结果表明,拟除虫菊酯抗性是 TRF 失败的一个主要因素。多种抗性机制,包括对拟除虫菊酯的代谢解毒和导致靶标不敏感的 kdr 突变,表明 TRFs 在住宅环境中对德国蟑螂的效果不佳,因为全球范围内已经记录到高水平的拟除虫菊酯抗性。