Title: | Synthetic predator cues impair immune function and make the biological pesticide Bti more lethal for vector mosquitoes |
Author(s): | Op De Beeck L; Janssens L; Stoks R; |
ISSN/ISBN: | 1051-0761 (Print) 1051-0761 (Linking) |
Abstract: | "The control of vector mosquitoes is one of the biggest challenges facing humankind with the use of chemical pesticides often leading to environmental impact and the evolution of resistance. Although to a lesser extent, this also holds for Bacillus thuringiensis israelensis (Bti), the most widely used biological pesticide to control mosquito populations. This raises the need for the development of integrated pest management strategies that allow the reduction of Bti concentrations without loss of the mosquito control efficiency. To this end, we tested in a laboratory experiment the combined effects of larval exposure to a sublethal Bti concentration and predation risk cues on life history and physiology of larval and adult Culex pipiens mosquitoes. Besides natural predator kairomones and prey alarm cues, we also tested synthetic kairomones of Notonecta predators. Neither Bti nor predation risk cues affected mortality, yet when both stressors were combined mortality increased on average by 133% compared to the treatment with only predation risk cues. This synergistic interaction was also present when Bti was combined with synthetic kairomones. This was further reflected in changes of the composite index of population performance, which suggested lowered per capita growth rates in mosquitoes exposed to Bti but only when Bti was combined with synthetic kairomones. Furthermore, predation risk cues shortened larval development time, reduced mass at metamorphosis in males, and had an immunosuppressive effect in larval and adult mosquitoes which may affect the mosquito vector competence. We provide the first demonstration that synthetic kairomones may generate similar effects on prey as natural kairomones. The identified immunosuppressive effect of synthetic kairomones and the novel lethal synergism type between a biological pesticide and synthetic predator kairomones provide an important proof of principle illustrating the potential of this combination for integrated mosquito control and should in a next step be evaluated under more natural conditions. It may guide novel integrated pest management programs with Bti that incorporate synthetic kairomones and thereby can reduce environmental impact and evolution of resistance creating more efficient and sustainable mosquito control" |
Keywords: | "Animals Bacillus thuringiensis/*physiology Culicidae/*drug effects/physiology Female Heteroptera/physiology Insect Vectors Larva Male Mosquito Control/*methods Pest Control, Biological/*methods *Pheromones;" |
Notes: | "MedlineOp De Beeck, Lin Janssens, Lizanne Stoks, Robby eng Research Support, Non-U.S. Gov't 2016/05/24 Ecol Appl. 2016 Mar; 26(2):355-66. doi: 10.1890/15-0326" |