Preparation for targeted sterile insect technique to control invasive Aedes aegypti (Diptera: Culicidae) in southern California: dose-dependent response, survivorship, and competitiveness.

Solomon Kibret Birhanie, Jennifer Thieme Castellon, Ale Macias, Rubi Casas, Michelle Q Brown
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Abstract

Aedes aegypti is fast spreading across California, with over 300 cities within 22 central and southern counties being infested since its introduction in 2013. Due to its cryptic breeding habitats, control efforts have not been successful so far. This calls for innovative tools such as sterile insect technique (SIT) to reinforce the existing integrated pest management (IPM). Here, we assessed fitness, survivorship, and dose response of X-ray irradiated male Ae. aegypti in California. Locally acquired Ae. aegypti eggs were hatched and reared in temperature-controlled laboratory setting at the West Valley Mosquito and Vector Control District in Ontario, California. Freshly emerged adult male mosquitoes were manually separated using motor-operated aspirators and treated with X-ray radiation at different dosage (42-60 Gy). Dose response of irradiated males was analyzed and induced sterility determined. Survivorship of males treated with different X-ray doses was compared. Fecundity of females that mated with irradiated males at different X-ray doses was generally comparable. Overall, induced sterility increased with higher X-ray doses. Nulliparous females that mated with male Ae. aegypti treated with 55-60 Gy laid eggs with over 99% sterility. Non-irradiated male mosquitoes had higher survivorship (mean = 0.78; P = 0.0331) than irradiated mosquitoes (mean range = 0.50-0.65). The competitiveness index of irradiated males decreased with increasing X-ray treatment doses, 1.14 at 55 Gy and 0.49 at 60 Gy, and this difference was significant (P < 0.01). Irradiated males showed high survivorship and competitiveness-key for the anticipated SIT application for the control of invasive Ae. aegypti in California.

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准备采用昆虫不育定向技术控制加利福尼亚南部的入侵埃及伊蚊(双翅目:Culicidae):剂量依赖性反应、存活率和竞争力。
埃及伊蚊在加利福尼亚州迅速蔓延,自2013年传入以来,中南部22个县的300多个城市都受到了埃及伊蚊的侵扰。由于其隐蔽的繁殖栖息地,迄今为止,防治工作尚未取得成功。这就需要昆虫不育技术(SIT)等创新工具来加强现有的害虫综合防治(IPM)。在这里,我们评估了加利福尼亚州经 X 射线照射的雄性埃及蚁的适应性、存活率和剂量反应。当地获得的埃及伊蚊卵在加州安大略省西谷蚊子和病媒控制区的温控实验室中孵化和饲养。用电动吸蚊器人工分离刚出生的雄性成蚊,并用不同剂量(42-60 Gy)的 X 射线辐射处理。对照射雄蚊的剂量反应进行分析,并确定诱导不育。比较了经不同剂量 X 射线处理的雄鱼的存活率。与不同X射线剂量照射的雄性交配的雌性繁殖力基本相当。总体而言,X射线剂量越大,诱导不育率越高。与经过 55-60 Gy 处理的雄性埃及姬蚊交配的无性雌蚊产卵的不育率超过 99%。未受辐照雄蚊的存活率(平均 = 0.78;P = 0.0331)高于受辐照雄蚊(平均范围 = 0.50-0.65)。辐照雄蚊的竞争力指数随着 X 射线处理剂量的增加而下降,55 Gy 时为 1.14,60 Gy 时为 0.49,这一差异显著(P = 0.0331)。
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