Bukhari Tullu, Knols Bart G J
Laboratory of Entomology, Wageningen University and Research Centre, Wageningen, The Netherlands.
Am J Trop Med Hyg. 2009 May;80(5):758-63.
Monomolecular films are used for mosquito control because of their asphyxiating effect on larvae and pupae. Compared with other films, Aquatain mosquito formulation (AMF) has an improved spreading ability and flexibility on a water surface. In the laboratory, AMF showed larvicidal, pupicidal, and oviposition deterrent effects against the malaria vectors Anopheles stephensi and An. gambiae. At a dose of 1 mL/m(2), the median lethal time to death for late larval instars was 3.02 (95% confidence interval [CI] = 2.76-3.25) and 0.98 (95% CI = 0.75-1.20) days for An. stephensi and An. gambiae, respectively. None of the treated larvae pupated. Pupal mortality reached 100% within two hours for both species. AMF repelled gravid females from ovipositing in treated oviposition cups. Without the choice of an untreated cup, the lowered water surface tension caused most females to drown while attempting to oviposit. This physical control method has the potential to become a safe, cost-effective, and resistance-proof malaria vector control tool.
单分子膜由于对幼虫和蛹具有窒息作用而被用于蚊虫控制。与其他膜相比,Aquatain蚊虫制剂(AMF)在水面上具有更好的铺展能力和柔韧性。在实验室中,AMF对疟疾媒介斯氏按蚊和冈比亚按蚊显示出杀幼虫、杀蛹和驱产卵作用。在剂量为1 mL/m²时,斯氏按蚊和冈比亚按蚊晚期幼虫龄期的半数致死时间分别为3.02天(95%置信区间[CI]=2.76-3.25)和0.98天(95%CI=0.75-1.20)。处理过的幼虫均未化蛹。两种按蚊的蛹死亡率在两小时内均达到100%。AMF可阻止妊娠雌蚊在经过处理的产卵杯中产卵。在没有未处理的杯子可供选择的情况下,水面张力降低导致大多数雌蚊在试图产卵时溺水。这种物理控制方法有可能成为一种安全、经济高效且抗耐药性的疟疾媒介控制工具。