伊朗疟疾流行地区不同地理株斯氏按蚊(双翅目:蚊科)对杀螟硫磷的基线敏感性
Baseline Susceptibility of Different Geographical Strains of Anopheles stephensi (Diptera: Culicidae) to Temephos in Malarious Areas of Irana.
作者信息
Soltani Aboozar, Vatandoost Hassan, Oshaghi Mohammad Ali, Enayati Ahmad Ali, Raeisi Ahmad, Eshraghian Mohammad Reza, Soltan-Dallal Mohammad Mehdi, Hanafi-Bojd Ahmad Ali, Abai Mohammad Reza, Rafi Fatemeh
机构信息
Department of Medical Entomology and Vector Control, School of Public Health and National Institute of Health Research, Tehran University of Medical Sciences, Tehran, Iran.
出版信息
J Arthropod Borne Dis. 2013 Apr 10;7(1):56-65. Print 2013.
BACKGROUND
Malaria still remains a public health problem in Iran. There are different vector control interventions such as insecticide spraying. The present study was carried out to determine the susceptibility status of Anopheles stephensi larvae to temephos as a national plan for monitoring and mapping of insecticide resistance.
METHODS
Eight different localities in two main malarious provinces were determined as field collecting sites. Mosquitoes were collected from the field and reared in an insectray. Susceptibility assays were carried out according to the WHO method. The laboratory reared susceptible Beech-Lab strain was used for comparison. Data were analyzed using Probit analysis to determine LC50 and LC90 values.
RESULTS
Susceptibility of An. stephensi to temephos indicated that the LC50 ranged from 0.0022 mg/l to 0.0141 mg/l. Although all field strains were susceptible to temephos, considerable variations in temephos resistance ratios of field strains were noticed from all the localities studied in comparison with the susceptible strain. A low level of resistance ratio was noticed in An. stephensi populations except for the Chabahar strain (RR= 4.27 fold). All field-collected An. stephensi populations exhibited homogeneity to the larvicide except for Bandar Abbas and Hormoodar village strains (P> 0.05%).
CONCLUSION
Due to intensive use of temephos in the neighboring countries and occurrence of resistant to this insecticide in the main malaria vector in the region, insecticide resistance gene may evolve in the populations of An. stephensi. If temephos be applied as a larvicide it should be used judiciously for resistance management, as rotation strategy.
背景
疟疾在伊朗仍然是一个公共卫生问题。有不同的病媒控制干预措施,如喷洒杀虫剂。本研究旨在确定斯氏按蚊幼虫对双硫磷的敏感性状况,作为杀虫剂抗性监测和绘图的国家计划。
方法
确定两个主要疟疾流行省份的八个不同地点为野外采集点。从野外采集蚊子并在昆虫饲养笼中饲养。根据世卫组织方法进行敏感性测定。使用实验室饲养的敏感比奇实验室菌株进行比较。使用概率分析来确定LC50和LC90值,对数据进行分析。
结果
斯氏按蚊对双硫磷的敏感性表明,LC50范围为0.0022毫克/升至0.0141毫克/升。虽然所有野外菌株对双硫磷敏感,但与敏感菌株相比,在所研究的所有地点的野外菌株中,双硫磷抗性比率存在相当大的差异。除恰巴哈尔菌株(RR = 4.27倍)外,斯氏按蚊种群的抗性比率较低。除阿巴斯港和霍尔穆达尔村菌株外,所有野外采集的斯氏按蚊种群对杀幼虫剂表现出同质性(P>0.05%)。
结论
由于邻国大量使用双硫磷,且该地区主要疟疾媒介对这种杀虫剂产生了抗性,斯氏按蚊种群中可能会进化出杀虫剂抗性基因。如果将双硫磷用作杀幼虫剂,应谨慎使用,作为抗性管理的轮换策略。
Zotero 插件