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Evaluation of large volume yeast interfering <scp>RNA</scp> lure‐and‐kill ovitraps for attraction and control of <i>Aedes</i> mosquitoes

Limb K. Hapairai, Keshava Mysore, Lester D. James, Nicholas D. Scheel, Jacob S. Realey, Lili Sun, Lisa Gerber, Rachel Shui Feng, Ethan Romero-Severson, Azad Mohammed, Molly Duman‐Scheel, David W. Severson

2020Medical and Veterinary Entomology19 citationsDOIOpen Access PDF

Abstract

Aedes mosquitoes (Diptera: Culicidae), principle vectors of several arboviruses, typically lay eggs in man-made water-filled containers located near human dwellings. Given the widespread emergence of insecticide resistance, stable and biofriendly alternatives for mosquito larviciding are needed. Laboratory studies have demonstrated that inactivated yeast interfering RNA tablets targeting key larval developmental genes can be used to facilitate effective larvicidal activity while also promoting selective gravid female oviposition behaviour. Here we examined the efficacy of transferring this technology toward development of lure-and-kill ovitraps targeting Aedes aegypti (L.) and Aedes albopictus (Skuse) female mosquitoes. Insectary, simulated field and semi-field experiments demonstrated that two mosquito-specific yeast interfering RNA pesticides induce high levels of mortality among larvae of both species in treated large volume containers. Small-scale field trials conducted in Trinidad, West Indies demonstrated that large volume ovitrap containers baited with inactivated yeast tablets lure significantly more gravid females than traps containing only water and were highly attractive to both A. aegypti and A. albopictus females. These studies indicate that development of biorational yeast interfering RNA-baited ovitraps may represent a new tool for control of Aedes mosquitoes, including deployment in existing lure-and-kill ovitrap technologies or traditional container larviciding programs.

Topics & Concepts

Aedes albopictusBiologyAedes aegyptiAedesMosquito controlLarvaRNA interferenceCulexToxicologyEcologyRNAMalariaImmunologyGeneBiochemistryMosquito-borne diseases and controlInsect symbiosis and bacterial influencesInsect Resistance and Genetics
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