Harari Ally R, Zahavi Tirtza, Steinitz Hadass
Department of Entomology, Volcani Centre, Bet Dagan, 50250, Israel.
Pest Manag Sci. 2015 Feb;71(2):316-22. doi: 10.1002/ps.3830. Epub 2014 Jun 26.
Studies of the mechanisms by which mating-disruption techniques control insect pest populations have traditionally focused on the effects of the species-specific sex pheromone on the male moths, while neglecting possible direct effects of the pheromone on females. Here, the effects of exposure to synthetic species-specific sex-pheromone on Lobesia botrana (European grapevine moth) females were tested.
Females in vineyards that were treated with mating-disruption pheromone burst into short bouts of flying more frequently, but called significantly less frequently than females in untreated plots. Reduced calling caused by exposure to the species-specific sex-pheromone may increase the age at which females mate and thereby reduce female fecundity. Females that called in a pheromone-saturated environment experienced a decrease in number of oviposited eggs. A further decrease in reproductive success may occur if females delay oviposition when exposed to access of the synthetic pheromone.
In addition to reducing the ability of males to locate females, the mating-disruption technique can suppress pest numbers as a consequence of its direct effects on females. The two mechanisms probably act synergistically.
交配干扰技术控制害虫种群的机制研究传统上主要集中在物种特异性性信息素对雄蛾的影响上,而忽略了性信息素对雌蛾可能产生的直接影响。在此,测试了暴露于合成的物种特异性性信息素对葡萄小卷蛾(欧洲葡萄蛾)雌蛾的影响。
用交配干扰性信息素处理过的葡萄园中的雌蛾更频繁地突然进行短时间飞行,但求偶频率明显低于未处理地块中的雌蛾。暴露于物种特异性性信息素导致的求偶减少可能会增加雌蛾交配的年龄,从而降低雌蛾的繁殖力。在性信息素饱和环境中求偶的雌蛾产卵数量减少。如果雌蛾在接触合成性信息素时延迟产卵,繁殖成功率可能会进一步降低。
除了降低雄蛾定位雌蛾的能力外,交配干扰技术因其对雌蛾的直接影响也可以抑制害虫数量。这两种机制可能协同作用。
