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Polarized light and oviposition site selection in the yellow fever mosquito: No evidence for positive polarotaxis in Aedes aegypti.

Bernáth B, Horváth G, Gál J, Fekete G, Meyer-Rochow VB

Plant Protection Institute of the Hungarian Academy of Sciences, Department of Zoology, P.O.B. 102, H-1525 Budapest, Hungary; Jacobs University Bremen, Campus Ring 1, D-28759 Bremen-Grohn, Germany.

Aquatic insects and insects associated with water use horizontally polarized light (i.e., positive polarotaxis) to detect potential aquatic or moist oviposition sites. Mosquitoes lay their eggs onto wet substrata, in water, water-filled tree/rock holes, or man-made small containers/bottles/old tyres containing water. Until now it has remained unknown whether mosquitoes are polarotactic or not. The knowledge how mosquitoes locate water would be important to develop new control measures against them. Thus, we studied in dual-choice laboratory experiments the role of horizontally polarized light in the selection of oviposition sites in blood-fed, gravid females of the yellow fever mosquito, Aedes aegypti. On the basis of our results we propose that Ae. aegypti is not polarotactic. Thus the yellow fever mosquito is the first known water-associated insect species that does not detect water by means of the horizontally polarized water-reflected light. This can be explained by the reflection-polarization characteristics of small-volume water-filled cavities/containers preferred by Ae. aegypti as oviposition sites.

Published 11 June 2008 in Vision Res, 48(13): 1449-55.
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