DIFFERENTIAL TOXICITY OF PYRETHROID AND ORGANOPHOSPHATE INSECTICIDES TO THE HONEY BEE, APIS MELLIFERA AND THE YELLOW FEVER MOSQUITO, AEDES AEGYPTI

Journal of the Florida Mosquito Control Association Pub Date : 2021-06-10 DOI:10.32473/JFMCA.V68I1.129102

H. Sánchez-arroyo

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引用次数: 4

Abstract

Six insecticide active ingredients (AIs) and five commercial insecticide formulations were applied by topical application and onto filter paper strips to determine differential toxicity to Aedes aegypti (L.) and Apis mellifera (L.), and to evaluate their potential use in future insecticide resistance monitoring surveys. For topical application, 0.1 or 1 µl of the technical insecticide solution was applied to the Ae. aegypti and A. mellifera thorax, respectively. For insecticide-impregnated strips the insecticide amount varied, according with the commercial formulation. By topical application deltamethrin was the most toxic AI (LD 50 = 0.057 µg/g) to Ae. aegypti and prallethrin was least toxic (LD 50 = 19.42 µg/g). For A. mellifera, the most toxic AIs were deltamethrin (LD 50 = 0.013 µg/g) and bifenthrin (LD50 = 0.156 µg/g); and the least toxic was chlorpyrifos (LD 50 = 3.246 µg/g). When the insecticide-impregnated papers method was used, Mosquitomist Two (chlorpyrifos 24.6%) was the most toxic insecticide for Ae. aegypti (LC50 = 0.024 µg/cm2 ), and Aqualuer (permethrin 20.6%, PBO 20.6%) was least toxic (LC50 = 0.408 µg/cm2 ). For A. mellifera the most toxic commercial insecticide formulations were Talstar (bifenthrin 7.9%; LC50 = 0.288 µg/cm2 ) and Mosquitomist Two (LC50 = 0.299 µg/cm2 ), with no significant differences, and the least toxic commercial formulation was Deltagard (deltamethrin 2.0%; LC50 = 15.084 µg/cm2 ). By topical application, more than 28 times of chlorpyrifos was needed to obtain the same mortality in A. mellifera as in Ae. aegypti. When using the insecticide-impregnated paper method, more than 206 times of Deltagard was needed to obtain the same mortality in A. mellifera as in Ae. aegypti. Even though Mosquitomist Two was the most toxic insecticide for both insect species, the honey bees were >12 times more tolerant to this insecticide, compared with the mosquitoes.

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拟除虫菊酯和有机磷杀虫剂对蜜蜂、蜜蜂和埃及伊蚊的不同毒性

采用外用和滤纸条分别应用6种杀虫剂有效成分和5种商业杀虫剂配方，测定对埃及伊蚊和蜜蜂的不同毒性，并评价其在未来杀虫剂耐药性监测调查中的应用潜力。外用时，将0.1或1µl技术杀虫剂溶液应用于伊蚊。埃及伊蚊和蜜蜂胸纹伊蚊。对于浸渍了杀虫剂的条条，杀虫剂的用量根据商业配方而变化。外用溴氰菊酯对姬螨毒性最大(ld50 = 0.057µg/g)。对埃及伊蚊和丙烯氰菊酯毒性最小(ld50 = 19.42µg/g)。对蜜蜂毒性最大的是溴氰菊酯(LD50 = 0.013µg/g)和联苯菊酯(LD50 = 0.156µg/g);毒死蜱毒性最小(ld50 = 3.246µg/g)。用浸渍纸法对伊蚊的毒力最强，毒死蜱2 (24.6%);埃及伊蚊(LC50 = 0.024µg/cm2)和阿奎勒蚊(氯菊酯20.6%，PBO 20.6%)毒性最小(LC50 = 0.408µg/cm2)。对蜜蜂毒性最大的商业杀虫剂配方为达司达(联苯菊酯)7.9%;LC50 = 0.288µg/cm2)和灭蚊2号(LC50 = 0.299µg/cm2)，无显著性差异，毒性最小的商业制剂为Deltagard(溴氰菊酯2.0%;LC50 = 15.084µg/cm2)。外用毒死蜱28倍以上才能使蜜蜂和白纹伊蚊的死亡率相同。蚊。采用浸渍纸法时，需用206倍以上的Deltagard才能使蜜蜂的死亡率与白纹伊蚊相同。蚊。尽管灭蚊剂2对两种昆虫来说都是最毒的杀虫剂，但蜜蜂对这种杀虫剂的耐受性是蚊子的12倍以上。

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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Journal of the Florida Mosquito Control Association

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