利用呋虫胺在家庭环境中对埃及伊蚊进行混淆、击倒和杀死:预防登革热传播的有力工具?
Confusion, knock-down and kill of Aedes aegypti using metofluthrin in domestic settings: a powerful tool to prevent dengue transmission?
机构信息
School of Public Health and Tropical Medicine and Rehabilitative Sciences, James Cook University, Cairns, Queensland 4870, Australia.
出版信息
Parasit Vectors. 2013 Sep 11;6(1):262. doi: 10.1186/1756-3305-6-262.
BACKGROUND
Dengue control methods are reliant upon control of the vector, primarily Aedes aegypti. Current adulticiding methods in North Queensland include treating premises with residual synthetic pyrethroid insecticides (interior residual spraying; IRS), a laborious, intrusive task. The vapor active synthetic pyrethroid metofluthrin might offer an efficient alternative as some studies indicate that it prevents biting and has strong knockdown effects. However, its expellant and/or irritant effects, longevity, residual activity and the speed with which biting behavior is disrupted have not yet been characterized.
METHODS
We exposed cohorts of Cairns colony (F2-4) Ae. aegypti to rooms (17-24 m3) treated with 5% and 10% AI metofluthrin emanators. Using free-flying and caged populations we measured biting (human landing rate), expulsion through unscreened windows, knockdown and death over periods ranging between a few minutes and 24 hrs. Observations of the behavior of single female Ae. aegypti exposed to metofluthrin were also made.
RESULTS
Female Ae. aegypti exposed to 5% or 10% metofluthrin formulations were almost entirely inhibited from biting. This was the result of rapid knockdown and mortality (80-90% in less than one hour) and to the behavioral impacts of exposure that, within minutes, caused female Ae. aegypti to become disoriented, stop landing on hosts, and seek resting sites. Exposed mosquitoes did not exhibit any increased propensity to exit treated rooms and the 10% AI resin remained fully active for at least 20 days.
CONCLUSION
The new, high-dose, resin formulations of metofluthrin act quickly to prevent biting and to knockdown and kill free-flying female Ae. aegypti in our experimental rooms. There was no evidence that metofluthrin induced escape from treated areas. Resin-based metofluthrin emanators show great potential as a replacement for labor intensive IRS for dengue vector control.
背景
登革热控制方法依赖于病媒的控制,主要是埃及伊蚊。北昆士兰州目前的成虫防治方法包括用残留合成拟除虫菊酯杀虫剂处理场所(内部残留喷洒;IRS),这是一项费力且侵入性的任务。蒸气活性合成拟除虫菊酯甲醚菊酯可能是一种有效的替代方法,因为一些研究表明它可以防止叮咬,并具有很强的击倒效果。然而,它的推进剂和/或刺激性、寿命、残留活性以及叮咬行为被打乱的速度尚未得到描述。
方法
我们将凯恩斯群体(F2-4)埃及伊蚊的虫群暴露于用 5%和 10%有效成分甲醚菊酯散发器处理的房间(17-24 m3)中。使用自由飞行和笼养种群,我们测量了在几分钟到 24 小时不等的时间内叮咬(人类降落率)、通过未屏蔽窗户排出、击倒和死亡。还观察了暴露于甲醚菊酯的单个雌性埃及伊蚊的行为。
结果
暴露于 5%或 10%甲醚菊酯制剂的雌性埃及伊蚊几乎完全无法叮咬。这是由于快速击倒和死亡(不到一小时内 80-90%)以及暴露的行为影响,几分钟内,雌性埃及伊蚊就会迷失方向,停止降落在宿主身上,并寻找休息地点。暴露的蚊子没有表现出任何增加的离开处理房间的倾向,10%有效成分的树脂在至少 20 天内保持完全有效。
结论
新的、高剂量的甲醚菊酯树脂配方能迅速阻止叮咬,并在我们的实验室内击倒和杀死自由飞行的雌性埃及伊蚊。没有证据表明甲醚菊酯诱导蚊子逃离处理区域。基于树脂的甲醚菊酯散发器显示出作为劳动密集型 IRS 替代物控制登革热媒介的巨大潜力。
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