Amsalem Etya, Orlova Margarita, Grozinger Christina M
Department of Entomology, Center for Pollinator Research, Center for Chemical Ecology, The Pennsylvania State University, University Park, PA 16802, USA
Department of Zoology, George S. Wise Faculty of Life Sciences, Tel Aviv University, Tel Aviv, Israel.
Proc Biol Sci. 2015 Oct 22;282(1817):20151800. doi: 10.1098/rspb.2015.1800.
The regulation of reproductive division of labour is a key component in the evolution of social insects. Chemical signals are important mechanisms to regulate worker reproduction, either as queen-produced pheromones that coercively inhibit worker reproduction or as queen signals that honestly advertise her fecundity. A recent study suggested that a conserved class of hydrocarbons serve as queen pheromones across three independent origins of eusociality. In bumblebees (Bombus terrestris), pentacosane (C25) was suggested to serve as a queen pheromone. Here, we repeat these studies using a different species of bumblebee (Bombus impatiens) with a more controlled experimental design. Instead of dequeened colonies, we used same-aged, three-worker queenless groups comprising either experienced or naive workers (with/without adult exposure to queen pheromone). We quantified three hydrocarbons (C23, C25 and C27) on the cuticular surfaces of females and tested their effects on the two worker types. Our results indicate differences in responses of naive and experienced workers, genetic effects on worker reproduction, and general effects of hydrocarbons and duration of egg laying on ovary resorption rates. However, we found no evidence to support the theory that a conserved class of hydrocarbons serve as queen pheromones or queen signals in Bombus impatiens.
生殖分工的调控是社会性昆虫进化的关键组成部分。化学信号是调节工蜂繁殖的重要机制,既可以是蜂王产生的强制抑制工蜂繁殖的信息素,也可以是诚实地表明其繁殖力的蜂王信号。最近的一项研究表明,一类保守的碳氢化合物在三个独立起源的真社会性昆虫中都作为蜂王信息素起作用。在熊蜂(Bombus terrestris)中,二十五烷(C25)被认为是一种蜂王信息素。在此,我们使用一种不同的熊蜂物种(Bombus impatiens),采用更可控的实验设计重复了这些研究。我们没有使用失王蜂群,而是使用了由经验丰富或缺乏经验的工蜂组成的同龄、三只工蜂且无蜂王的群体(有/无成年期接触蜂王信息素)。我们对雌性熊蜂体表的三种碳氢化合物(C23、C25和C27)进行了定量,并测试了它们对这两种工蜂类型的影响。我们的结果表明,缺乏经验和经验丰富的工蜂在反应上存在差异,遗传对工蜂繁殖有影响,并且碳氢化合物和产卵持续时间对卵巢吸收速率有总体影响。然而,我们没有发现证据支持一类保守的碳氢化合物在熊蜂(Bombus impatiens)中作为蜂王信息素或蜂王信号的理论。