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Microbial Composition in Larval Water Enhances Aedes aegypti Development but Reduces Transmissibility of Zika Virus

William Louie, Lark L. Coffey

2021mSphere14 citationsDOIOpen Access PDF

Abstract

We observed that A. aegypti mosquitoes reared in water from cemetery headstones instead of the laboratory tap exhibited a reduced capacity to become infected with and transmit Zika virus. Water from the environment contained more bacterial species than tap water, but these bacteria were not consistently detected in adult mosquitoes. Our results suggest that rearing mosquito larvae in water collected from local environments as opposed to laboratory tap water, as is conventional, could provide a more realistic assessment of ZIKV vector competence since it better recapitulates the natural environment in which larvae develop. Given that laboratory vector competence is used to define the species to target for control, the use of environmental water to rear larvae could better approximate the microbial exposures of wild mosquitoes, lessening the potential for overestimating ZIKV transmission risk. These studies raise the question of whether rearing larvae in natural water sources also reduces vector competence for other mosquito-borne viruses.

Topics & Concepts

Aedes aegyptiBiologyLarvaVector (molecular biology)Zika virusChikungunyaTransmissibility (structural dynamics)EcologyMosquito controlZoologyVirusVirologyMalariaPhysicsImmunologyVibration isolationGeneBiochemistryVibrationRecombinant DNAQuantum mechanicsMosquito-borne diseases and controlInsect symbiosis and bacterial influencesInsect Utilization and Effects
Microbial Composition in Larval Water Enhances Aedes aegypti Development but Reduces Transmissibility of Zika Virus | Litcius