Abstract
BackgroundDual attractant toxic sugar baits (D-ATSB) containing two host kairomones, L-lactic (LA) and 1-octen-3-ol (O), and fruit-based attractants were evaluated through olfactory, consumption and mortality, and semi-field experiments to determine if host kairomones could first, enhance attraction of a fruit-based (attractant) toxic sugar bait (ATSB), and second, increase the efficacy of a fruit based attractive toxic sugar bait (ATSB).MethodsFour combinations of LA and O were incorporated into the ATSB and evaluated in an olfactometer to determine if these combinations could enhance attraction of Aedes aegypti (L.) to the bait. Ae. albopictus (Skuse) and Ae. aegypti were used to determine bait consumption through excrement droplet counts and percent mortality, of the most attractive D-ATSB (1% LA and 1% O) from the olfactory study. Semi-field evaluations were conducted in screened portable field cages to determine if the D-ATSB applied to non-flowering plants controlled more mosquitoes than the fruit-based ATSB, and ASB. Mosquitoes were exposed to D-ATSB and the two controls for 48 h and collected with BGS traps. The catch rates of the BGS traps were compared to determine efficacy of the D-ATSB.ResultsDuring olfactometer evaluations of D-ATSB, Ae. aegypti mosquitoes were more attracted to 1% LA and 1% O compared to the fruit-based toxic sugar bait alone. Both species of mosquito consumed more fruit-based non-toxic bait (ASB) and ATSB than the D-ATSB. For both species, percent mortality bioassays indicated D-ATSB controlled mosquitoes, as compared to non-toxic control, but not more than the fruit based ATSB. Semi-field evaluations, BioGents sentinel traps at 48 h confirmed that ATSB (positive control) controlled Ae. albopictus, but there was no statistical difference between ASB (negative control) and the D-ATSB. No differences were observed between the mosquitoes caught in any of the experimental formulations for Ae. aegypti.ConclusionsL-lactic (1%) and 1-octen-3-ol (1%) added to a fruit-based sugar bait increased attraction of Ae. aegypti and may have future implications in mosquito trapping devices. The addition of the host kairomones did not enhance the consumption and efficacy of the ATSB in laboratory or semi-field evaluations for both mosquito species. We attribute to the absence of other host cues leading to lack of alighting onto bait surfaces to imbibe the toxic bait, as well as a possible decrease in palatability of the bait caused by the addition of the host kairomones.
Highlights
Dual attractant toxic sugar baits (D-ATSB) containing two host kairomones, L-lactic (LA) and 1-octen3-ol (O), and fruit-based attractants were evaluated through olfactory, consumption and mortality, and semi-field experiments to determine if host kairomones could first, enhance attraction of a fruit-based toxic sugar bait (ATSB), and second, increase the efficacy of a fruit based attractive toxic sugar bait (ATSB)
Olfactometer evaluations of dual-attractant D-ATSBs Significantly more Ae. aegypti female mosquitoes were attracted to dual-attractant combinations of 0.01% LA and 1% O and 1% LA and 1% O, as compared with the empty control ports, the other D-ATSB combinations, and the positive and negative controls (F(26,154) = 7.14, P < 0.0001)
Consumption of 1% LA and 1% O D-ATSB using excrement droplet counts and percent mortality The lack of difference in the percent mortality of both Ae. albopictus and Ae. aegypti between ATSB and D-ATSB demonstrated that addition of the secondary attractant did not enhance the percent mortality of the ATSBs (F(3,32) = 11.26, P = 0.0019, and F(3,26) = 18.92, P = 0.0002, respectively) (Fig. 2)
Summary
Dual attractant toxic sugar baits (D-ATSB) containing two host kairomones, L-lactic (LA) and 1-octen3-ol (O), and fruit-based attractants were evaluated through olfactory, consumption and mortality, and semi-field experiments to determine if host kairomones could first, enhance attraction of a fruit-based (attractant) toxic sugar bait (ATSB), and second, increase the efficacy of a fruit based attractive toxic sugar bait (ATSB). Throughout Florida’s subtropical environment, Aedes albopictus (Skuse) is a commonly encountered mosquito species known to vector pathogens in urban settings Another urban mosquito species that vector similar pathogens, Ae. aegypti (L.) have been steadily being reintroduced to places in Florida where they had previously been displaced by Ae. albopictus (Anastasia Mosquito Control District, personal communication). The female mosquitoes display a pattern of sugar and host seeking behavior that is partially mediated by odor reception [8]. Both host seeking and sugar-seeking behaviors of mosquitoes could be capitalized on by incorporating host kairomones into fruit-attractant toxic sugar baits, which could create a more “mosquito-centric”, dual attractant ATSBs, for use in mosquito control and mosquito surveillance
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