Abstract
In most animal species, males and females communicate during sexual behavior to negotiate reproductive investments. Pre-copulatory courtship may settle if copulation takes place, but often information exchange and decision-making continue beyond that point. Here, we show that female Drosophila sing by wing vibration in copula. This copulation song is distinct from male courtship song and requires neurons expressing the female sex determination factor DoublesexF. Copulation song depends on transfer of seminal fluid components of the male accessory gland. Hearing female copulation song increases the reproductive success of a male when he is challenged by competition, suggesting that auditory cues from the female modulate male ejaculate allocation. Our findings reveal an unexpected fine-tuning of reproductive decisions during a multimodal copulatory dialog. The discovery of a female-specific acoustic behavior sheds new light on Drosophila mating, sexual dimorphisms of neuronal circuits and the impact of seminal fluid molecules on nervous system and behavior.
Highlights
In most animal species, males and females communicate during sexual behavior to negotiate reproductive investments
We confirmed the occurrence of such wing vibrations by high-speed video, and found them to coincide with sound pulses (Supplementary Movie 1)
Silencing of dlm mns with tetanus toxin (TNT) abolished copulation song, indicating that song is actively produced by females (Fig. 2a, b)
Summary
Males and females communicate during sexual behavior to negotiate reproductive investments. We show that female Drosophila sing by wing vibration in copula This copulation song is distinct from male courtship song and requires neurons expressing the female sex determination factor DoublesexF. Transfer of sperm and seminal fluid during copulation decreases the female’s propensity to engage in subsequent matings This effect is mainly mediated by products of the male accessory glands[10,11,12,13]. We discovered that Drosophila females produce pulsed wing vibrations in copula, which are acoustically distinct from male pre-copulatory courtship song. We investigate this novel acoustic behavior, its neuronal basis and sensory control, and demonstrate that it has an effect on reproductive competition.
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