Malka O, Shnieor S, Katzav-Gozansky T, Hefetz A
Department of Zoology, Tel Aviv University, Tel Aviv, Israel.
Naturwissenschaften. 2008 Jun;95(6):553-9. doi: 10.1007/s00114-008-0358-z. Epub 2008 Mar 5.
In the honeybee, Apis mellifera, the queen monopolizes reproduction, while the sterile workers cooperate harmoniously in nest maintenance. However, under queenless (QL) conditions, cooperation collapses and reproductive competition among workers ensues. This is mediated through aggression and worker oviposition, as well as shifts in pheromones, from worker to queen-like composition. Many studies suggest a dichotomy between conflict resolution through aggression or through pheromonal signaling. In this paper, we demonstrate that both phenomena comprise essential components of reproductive competition and that pheromone signaling actually triggers the onset of aggression. We kept workers as QL groups until first aggression was observed and subsequently determined the contestants' reproductive status and content of the mandibular (MG) and Dufour's glands (DG). In groups in which aggression occurred early, the attacked bee had consistently more queen-like pheromone in both the MG and DG, although both contestants had undeveloped ovaries. In groups with late aggression, the attacked bee had consistently larger oocytes and more queen-like pheromone in the DG, but not the MG. We suggest that at early stages of competition, the MG secretion is utilized to establish dominance and that the DG provides an honest fertility signal. We further argue that it is the higher amount of DG pheromone that triggers aggression.
在蜜蜂(西方蜜蜂)中,蜂后垄断繁殖,而不育的工蜂则在蜂巢维护中和谐协作。然而,在无蜂后(QL)的情况下,协作瓦解,工蜂之间的生殖竞争随之而来。这是通过攻击行为、工蜂产卵以及信息素从工蜂型向蜂后型组成的转变来介导的。许多研究表明,在通过攻击或通过信息素信号解决冲突之间存在二分法。在本文中,我们证明这两种现象都是生殖竞争的重要组成部分,并且信息素信号实际上引发了攻击行为的开始。我们将工蜂保持为QL组,直到观察到首次攻击行为,随后确定竞争者的生殖状态以及上颚腺(MG)和杜氏腺(DG)的成分。在早期发生攻击行为的组中,尽管两个竞争者的卵巢都未发育,但被攻击的蜜蜂在上颚腺和杜氏腺中始终具有更多的蜂后样信息素。在攻击行为发生较晚的组中,被攻击的蜜蜂在杜氏腺中始终具有更大的卵母细胞和更多的蜂后样信息素,但在上颚腺中则不然。我们认为,在竞争的早期阶段,上颚腺分泌物被用于确立优势地位,而杜氏腺提供了一个诚实的生育信号。我们进一步认为,正是杜氏腺信息素的较高含量引发了攻击行为。
