Satellite Rearing of Aedes Mosquito Eggs: Synchronized Empirical Test of a Novel Mass Rearing Model.

Pub Date : 2023-03-01 DOI:10.2987/22-7104
Karen L Dobson, Kai Blore, Jennifer A Henke, Kim Y Hung, Tim Morgan, Tanya Posey, Sokanary Sun, Olivia Sypes, Nicolas P Tremblay, Stephen L Dobson
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Abstract

Mosquito suppression strategies based on "rear and release" of male mosquitoes are attracting renewed interest from governments, municipalities, and private businesses. These include irradiation-based sterile insect technique, Wolbachia-based technologies, and genetic modification. Each of these approaches requires the mass rearing and release of adult male mosquitoes, which typically is accomplished via a rearing facility near the release site. Although some release programs have relied on centralized rearing and shipment of adult males, adult male mosquitoes are relatively fragile, and their fitness can be diminished by temperature fluctuations, humidity, nutritional deficiencies, and other stresses that occur during shipment. Furthermore, expensive, expedited shipment is typically used to maximize the amount of adult lifetime in the field following the release. In contrast, Aedes aegypti and Ae. albopictus eggs can be desiccated and stored for long periods. They are small, and many millions of eggs can be shipped without specialized environmental conditions and using less expensive means. Here we examine a model in which mosquito eggs are centrally produced and then mailed to satellite rearing facilities. As a control, a replicate set of eggs was reared at the factory of origin. At each of the rearing sites, cloud-based software was used to track and compare rearing at the different locations. The results demonstrate similar rearing outcomes (i.e., egg hatch, immature development, and number of adult males) at each of the different sites for both species. We discuss the outcome in relation to downstream applications and potential future studies.

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伊蚊卵卫星饲养:一种新型大规模饲养模式的同步实证检验。
以雄性蚊子“后发”为基础的灭蚊战略正重新引起政府、市政当局和私营企业的兴趣。这些技术包括基于辐照的昆虫不育技术、基于沃尔巴克氏体的技术和基因改造技术。每一种方法都需要大规模饲养和释放成年雄蚊,这通常是通过释放地点附近的饲养设施完成的。尽管一些释放计划依赖于集中饲养和运输成年雄蚊,但成年雄蚊相对脆弱,它们的适应性可能会因温度波动、湿度、营养缺乏和运输过程中发生的其他压力而降低。此外,昂贵的加急运输通常用于最大限度地延长释放后在现场的成年寿命。相比之下,埃及伊蚊和伊蚊。白纹伊蚊卵可以干燥保存很长时间。它们很小,数百万个鸡蛋可以在没有特殊环境条件和使用更便宜的方法的情况下运输。在这里,我们研究了一个模型,在这个模型中,蚊子卵是集中生产的,然后邮寄到卫星饲养设施。作为对照,在原产工厂饲养一组重复的鸡蛋。在每个饲养地点,使用基于云的软件来跟踪和比较不同地点的饲养。结果表明,两个物种在不同地点的饲养结果相似(即卵孵化、未成熟发育和成年雄性数量)。我们讨论了与下游应用和潜在的未来研究相关的结果。
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