Abstract
The courtship songs of Drosophila are produced by the male's wing vibration and consist of a series of pulses, with an inter-pulse interval (IPI) of 34 ms for D. melanogaster and 48 ms for D. simulans. The IPI's are not constant in length during courtship, but oscillate sinusoidally with 55-s cycles in the former species and 35-s cycles in the latter. We have stimulated D. melanogaster females with artificially generated courtship songs, and have observed that they mate fastest when the song incorporates a 55-s oscillation superimposed on a 34-ms IPI. D. simulans females, on the other hand, mate fastest with a 48-ms IPI and a 35-s oscillation period. Consequently these newly-discovered song cycles produce significant mating enhancement in these species, with the females showing a preference for songs which carry both the species-specific IPI and the species-specific IPI rhythm.