Buoyancy and diving behavior in mosquito pupae.

Mosquito pupal diving behavior has been studied mostly in Aedes aegypti and in this species pupal buoyancy varies relative to several factors. The research reported herein addresses the 2 following questions. Does diving behavior vary among different mosquito genera and species? How is diving behavior influenced by variation in buoyancy? Depth and duration of dive, and dive pattern, were compared among Ae. aegypti, Culex pipiens, Anopheles stephensi, Aedes albopictus, and Aedes triseriatus. In response to the stimulation associated with transferring pupae between containers, diving behavior varied dramatically among the different genera studied. Culex pipiens and An. stephensi make short-duration, shallow dives and remain positively buoyant. The 3 aedine species studied make longer-duration dives, typically to a depth at which they become neutrally or negatively buoyant. Buoyancy reduction effects were studied in the 3 aedine species. Normally buoyant pupae tend to dive to greater depths and for longer periods of time than reduced-buoyancy pupae. Aedine pupal diving behavior clearly is closely regulated relative to buoyancy variation. To the earlier hypotheses that pupal behavior may help avoid predation and be energy-conserving, we add the suggestion that the diving behavior displayed by the container-breeding aedine pupae we studied represents an adaptation that helps keep them from being washed from their container habitat by overflowing water during rainfall. We also suggest that the diving behavior of all the species studied may help pupae survive heavy, pelting rainfall by enabling them to avoid the mechanical shock of a direct hit by a raindrop, which could cause disruption of the gas in the ventral air space, thereby causing the loss of hydrostatic balance and drowning.