The circadian flight activity of Aedes aegypti parasitized with the filarial nematode Brugia pahangi

. The circadian flight activity of Aedes aegypti L. infected with the filarial parasite Brugia pahangi was recorded for 16 consecutive days using an acoustic actograph. The flight activity of uninfected control mosquitoes in a LD 12:12h regime rose to a maximum 3 days after bloodfeeding, then decreased slightly and remained steady for the duration of the experiment. The flight activity of parasitized mosquitoes was temporarily depressed for 2 days after feeding on a microfilariaemic cat; this was probably caused by the parasites migrating from the midgut to the flight muscles. As parasitic larvae grew within the flight muscles during days 3—6, the daily activity of all mosquitoes returned to control levels. On days 7—8 the activity of mosquitoes parasitized with thirteen or more larvae fell dramatically to approximately 10% of that of the controls; this change coincided with the emergence of the highly‐active infective stage larvae from the flight muscles. The presence of fewer larvae did not impair flight. Because of their reduced flight capability, heavily‐infected mosquitoes probably play little if any part in the transmission of filariasis.