ISSN 1003-8280 CN 10-1522/R 中国疾病预防控制中心 主办
Chinese Journal of Vector Biology and Control >
Activity of meperfluthrin and other three insecticides against Culex pipiens pallens and Musca domestica under laboratory conditions
Received date: 2014-12-24
Online published: 2015-06-20
Objective To evaluate the toxic and knockdown activity of meperfluthrin, dimefluthrin, transfluthrin and prallethrin, against Culex pipiens pallens and Musca domestica. Methods The dipping method was applied to determine the LC50 of the 4th instar larvae of Cx. pipiens pallens. The 28 m3 simulated site method was used to determine the KT50 of four - day old adults post - emergence of Cx. pipiens pallens, which were non - blood fed. Musca domestica larvae were bioassayed with feeding method and the effect was determined by LC50. For female M. domestica adults, the KT50 were determined by vaporizing mat method (quadrate box method). Results The LC50 of meperfluthrin, dimefluthrin, transfluthrin and prallethrin against Cx. pipiens pallens larvae were 0.94, 2.28, 3.10 and 54.00 μg/L, respectively, and the KT50 were 21.80, 26.89, 53.96, >60 min against Cx. pipiens pallens adults, respectively. The LC50 of meperfluthrin, transfluthrin, dimefluthrin and prallethrin were 4.20, 5.81, 9.92, 146.96 μg/g against M. domestica larvae, respectively, and the KT50 were 7.22, 5.05, 7.97, 13.02 min against female M. domestica adults, respectively. Conclusion Meperfluthrin is an active insecticide against larval M. domestica and Cx. pipiens pallens, and is more active than dimefluthrin, transfluthrin and prallethrin. The activity of meperfluthin against M. domestica adults is slightly less than transfluthrin.
Key words: Meperfluthrin; Insecticides; Culex pipiens pallens; Musca domestica
LI Qing-feng, GAO Ju-fang, GU Yin-fang, HUANG Jian-bo, ZHANG Teng-teng, YUAN Jian-zhong . Activity of meperfluthrin and other three insecticides against Culex pipiens pallens and Musca domestica under laboratory conditions[J]. Chinese Journal of Vector Biology and Control, 2015 , 26(3) : 254 -257 . DOI: 10.11853/j.issn.1003.4692.2015.03.009
[1] Tao LM,Yuan JZ,Zhuang PJ,et al. Effect of a mixture of iprobenfos and malathion on the development of malathion resistance in the mosquito Culex pipiens pallens Coq[J]. Pest Manag Sci,2006,62(1):86-90.
[2] Goddard LB,Roth AE,Reisen WK,et al. Vertical transmission of West Nile virus by three California Culex (Diptera: Culicidae)species[J]. J Med Entomo,2003,40(6):743-746.
[3] 牟广思,胡景芳,潘风纯,等. 锦州地区家蝇带菌情况调查[J]. 医学动物防制,1986,2(1):12-17.
[4] 经宝隆. 沙眼可由家蝇感染[J]. 国际眼科纵览,1981(4):236.
[5] 朱圣山,潘心悟. 家蝇携带的肠道寄生虫卵[J]. 生物学通报, 1965(3):19.
[6] Sasaki T,Kobayashi M,Agui N. Epidemiological potential of excretion and regurgitation by Musca domestica (Diptera: Muscidae)in the dissemination of Escherichia coli O157:H7 to food[J]. J Med Entomol,2000,37(6):945-949.
[7] 吴彤宇,张咏梅,张静,等. 天津市2010年蚊蝇抗药性监测[J]. 中国媒介生物学及控制杂志,2012,23(2):122-124.
[8] 黄臻,朱庆. 卫生用拟除虫菊酯杀虫剂的开发与应用[J]. 上海农业学报,2003,19(1):71-75.
[9] 戚明珠,周景梅,姜友法,等. 氯氟醚菊酯的开发及其应用研究[J]. 中华卫生杀虫药械,2010,16(3):172-174.
[10] 贾炜,赵鹏,唐定龙,等. 氯氟醚菊酯在液体蚊香剂型中的应用研究[J]. 中华卫生杀虫药械,2013,19(4):278-281.
[11] World Health Organization. Instructions for determining the susceptibility or resistance of mosquito larvae to insecticide[R]. Geneva:WHO,1981:1-4.
[12] Abbott WS. A method of computing the effectiveness of an insecticide[J]. J Econ Entomol,1925,18(2):265-267.
[13] 中华人民共和国质监局,中国国家标准化管理委员会. GB/T 13917.10-2009 农药登记卫生用杀虫剂室内药效试验及评价. 模拟现场[S]. 北京:中国标准出版社,2009.
[14] 中华人民共和国质监局,中国国家标准化管理委员会. GB/T 13917.5-2009 农药登记卫生用杀虫剂室内药效试验及评价. 电热蚊香片[S]. 北京:中国标准出版社,2009.
[15] 胡效斌. 氯氟醚菊酯的开发及其应用研究[Z]. 中国农药工业年鉴,2010:74-76.
[16] 刘文华,蔡松武,吴军,等. 4种不同液体蚊香在野外对流行性乙型脑炎媒介控制效果研究[J]. 中国媒介生物学及控制杂志,2009,20(6):505-506.
[17] Xue RD,Qualls WA,Phillips JD,et al. Insecticidal activity of five commercial mosquito coils against Anopheles albimanus, Aedes albopictus,and Culex quinquefasciatus[J]. J Amer Mosqu Control Assoc,2012,28(2):131-133.
[18] 何建国,黄琼,林海,等. 致倦库蚊对常用卫生杀虫剂抗药性的研究[J]. 中华卫生杀虫药械,2011,17(5):364-365.
[19] 何上虹,梁铁麟,梁箴理. 新拟除虫菊酯杀虫剂:四氟苯菊酯[J]. 上海预防医学杂志,2000,12(11):518-519.
/
| 〈 |
|
〉 |