Aedes aegypti mosquitoes transmit pathogens such as yellow fever, dengue, Zika, and chikungunya viruses to millions of human hosts annually [1]. As such, understanding Ae. aegypti courtship and mating biology could prove crucial to the success of disease control efforts that target reproduction. Potentially to communicate reproductive fitness [2,3], mosquito males and females harmonize their flight tones prior to mating in a behavior known as harmonic convergence (HC) [4]. Furthermore, after mating or treatment with extracts from male accessory glands (MAG), which make seminal fluid molecules, female Ae. aegypti become resistant, or refractory, to re-mating [5]. To test the hypothesis that mating and MAG fluids inhibit a female's ability to induce HC in males, we recorded audio of pre-copulatory flight interactions between virgin males and either virgin, mated, or MAG extract-injected females and analyzed these recordings for the presence or absence of HC. We found that mating and MAG extract lower HC occurrence by 53% compared with all other controls. Our results further suggest that mating may inhibit HC indirectly via the broader range of MAG-induced female refractory mating behaviors. Together, our results demonstrate an important new role for MAG molecules in mediating female post-mating behavior.
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