Sugar-fed females of 7 species of Florida mosquitoes were flown for 4·5 hr on a flight-mill system twice a week during their life span and analysed for flight performance (speed of flight during the first hour, the distance flown at the end of 4·5 hr flight period, and per cent reduction in flight speed of the fourth hour as compared to the first hour) and for utilization of haemolymph sugars, glycogen, and triglycerides reserves. Species-specific differences occurred in 50 per cent survival age and flight performance. Aedes taeniorhynchus, Mansonia titillans, Culex nigripalpus, Psorophora confinnis, and A. sollicitans exhibited maximum flight potential during 2 to 8 weeks after emergence, as compared with only 1 to 2 weeks in A. aegypti and Anopheles quadrimaculatus. This suggested that the former group of mosquitoes possessed a greater potential for dispersal by searching flights during their life span when compared with the latter group. Glycogen was the only energy reserve utilized during sustained tethered flight in all species. The energy requirements as calculated from depletion of glycogen during sustained flight for 4·5 hr in different species varied from 0·06 to 0·09 cal/1000 m or 16 to 32 cal/hr per g. The considerably lower values of energy expended, on the average of 16 to 22 cal/hr per g in C. nigripalpus, P. confinnis, A. sollicitans, and A. aegypti, compared with 30 to 32 cal/hr per g in A. taeniorhynchus and M. titillans, is most probably due to the substantially lower speed of the former group of mosquitoes, 1000 to 1500 m/hr, than in the latter group of mosquitoes, 1500 to 2000 m/hr. A. sollicitans and M. titillans started to show wing abrasion and distinct signs of senescence during the last 2 to 3 weeks of their life span. Non-flown females of different species maintained on sugar ab lib. achieved maximum levels of glycogen and triglycerides reserves during the second week and they maintained these levels for the major portion of their life span, after which the levels of these reserves showed a distinct decline. It is suggested that this stabilization and decline of the energy reserves control longevity and flight potential in each mosquito species.