Abstract
BackgroundAedes aegypti is the major mosquito vector of many burdensome human diseases. While behavioral research has focused primarily on understanding the importance of olfactory stimuli in its host-seeking abilities, Ae. aegypti’s vision has also been shown to contribute significantly to locating a human host. In this semi-field study conducted in Kisian, Kisumu County, Kenya, we explored the role of visual properties in Aedes host-seeking by testing four different visual characteristics presented in host decoy traps (HDT). This surveillance trap presents a combination of visual, thermal, and odor stimuli to attract bloodmeal-seeking mosquitoes. This was also the first test of HDT for sampling Aedes mosquitoes, having previously been shown to be effective for capture of other vector genera such as Anopheles, Mansonia, and Culex in field settings.ResultsOur results show that the HDT is an effective means of capturing Ae. aegypti mosquitoes, with a per trial capture rate of up to 69% across four visually distinct HDTs deployed simultaneously in a semi-field arena. Of these four, a solid black HDT (HDT B) captured more mosquitoes than HDTs with: black-white stripes (HDT S), black-white checkerboard patches (HDT P), and a solid white color (HDT W). Across 16 replicates wherein 200 mosquitoes were released per trial, HDT B caught more mosquitoes than HDTs S, P, and W by a factor of 1.9, 1.7, and 1.5 respectively. In all cases, mosquito capture was not evenly distributed on the HDT surface, with captures on the HDT’s outer half, away from the odor delivery, exceeding captures on the inner half facing towards the odor delivery by a factor of 4.8, 3.7, 3.7, and 5.1 on HDTs B, S, P, and W respectively.Conclusions: Our results establish that in semi-field conditions, the HDT is effective for the capture of Ae. aegypti mosquitoes and provides a flexible platform to test experimental parameters pertinent to the host-seeking behavior of mosquito vector species. We show that Ae. aegypti makes use of dark, but not light, high contrast visual information while responding to both the olfactory and thermal stimuli associated with hosts. The results further show that the solid black surface of the original HDT design is more effective than the other surfaces (white or black/white patterns) for the capture of Ae. aegypti.
Novel small molecule agonists of an Aedes aegypti neuropeptide Y receptor block mosquito biting behavior
