In the battle between insect predators2(捕食者) and their prey3, chemical signals called kairomones(利它素) serve as an early-warning system. Pervasively4 emitted by the predators, the compounds are detected by their prey, and can even trigger adaptations, such a change in body size or armor, that help protect the prey. But as widespread as kairomones are in the insect world, their chemical identity has remained largely unknown. New research by Rockefeller University's Joel E. Cohen and colleagues at the University of Haifa in Israel has identified two compounds emitted by mosquito predators that make the mosquitoes less inclined to(想要,有倾向) lay eggs in pools of water. The findings, published in the July issue of Ecology Letters, may provide new environmentally friendly tactics for repelling5(击退,抵制) and controlling disease-carrying insects. Many animals use chemicals to communicate with each other. Pheromones, which influence social and reproductive behaviors within a particular species, are probably the best known and studied. Kairomones are produced by an individual of one species and received by an individual of a different species, with the receiving species often benefiting at the expense of the donor6.
Cohen and his Israeli colleagues focused on the interaction between two insect species found in temporary pools of the Mediterranean7 and the Middle East: larvae8(幼虫,幼体) of the mosquito C. longiareolata and its predator1, the backswimmer N. maculata. When the arriving female mosquitoes detect a chemical emitted by the backswimmer, they are less likely to lay eggs in that pool.
To reproduce conditions of temporary pools in the field, the researchers used aged9 tap water with fish food added as a source of nutrients10. Individual backswimmers were then placed in vials(小瓶,药水瓶) containing samples of the temporary pools, and air samples were collected from the headspace(顶端空间) within the vials. The researchers used gas chromatography-mass spectrometry(质谱分析法) to analyze11 the chemicals emitted by the backswimmers.
Cohen and his colleagues identified two chemicals, hydrocarbons12(碳氢化合物) called n-heneicosane and n-tricosane, which repelled13 egg-laying by mosquitoes at the concentrations of those compounds found in nature. Together, the two chemicals had an additive14 effect.
Since the mosquitoes can detect the backswimmer's kairomones from above the water's surface, predator-released kairomones can reduce the mosquito's immediate15 risk of predation, says Cohen. But they also increase the female mosquito's chance of dying from other causes before she finds a pool safe for her to lay her eggs in.
"That's why we think these chemicals could be a useful part of a strategy to control the population size of mosquitoes," says Cohen, who is the Abby Mauzé Rockefeller Professor and head of the Laboratory of Populations. "We started this work from very basic curiosity about how food webs and predator-prey interactions work, but we now see unexpected practical applications. These newly identified compounds, and others that remain to be discovered, might be effective in controlling populations of disease-carrying insects. It's far too soon to say, but there's the possibility of an advance in the battle against infectious disease."