Centre de Recherches sur la Cognition Animale (CRCA), Centre de Biologie Intégrative (CBI), Université de Toulouse; CNRS, UPS, 31062 Toulouse cedex 9, France.
Programa de Pós-Graduação em Ecologia, Instituto de Biologia, Universidade Estadual de Campinas, Campinas, São Paulo 13083-865, Brazil.
J Exp Biol. 2018 Jul 16;221(Pt 14):jeb180844. doi: 10.1242/jeb.180844.
Many flowering plants present variable complex fragrances, which usually include different isomers of the same molecule. As fragrance is an essential cue for flower recognition by pollinators, we ask whether honey bees discriminate between floral-fragrance isomers in an appetitive context. We used the olfactory conditioning of the proboscis extension response, which allows training a restrained bee to an odor paired with sucrose solution. Bees were trained under an absolute (a single odorant rewarded) or a differential conditioning regime (a rewarded versus a non-rewarded odorant) using four different pairs of isomers. One hour after training, discrimination and generalization between pairs of isomers were tested. Bees trained under absolute conditioning exhibited high generalization between isomers and discriminated only one out of four isomer pairs; after differential conditioning, they learned to differentiate between two out of four pairs of isomers but in all cases generalization responses to the non-rewarding isomer remained high. Adding an aversive taste to the non-rewarded isomer facilitated discrimination of isomers that otherwise seemed non-discriminable but generalization remained high. Although honey bees discriminated isomers under certain conditions, they achieved the task with difficulty and tended to generalize between them, thus showing that these molecules were perceptually similar to them. We conclude that the presence of isomers within floral fragrances might not necessarily contribute to a dramatic extent to floral odor diversity.
许多开花植物呈现出多变的复杂香气,通常包括同一分子的不同异构体。由于香气是传粉者识别花朵的重要线索,我们想知道蜜蜂是否会在有吸引力的情况下区分花香异构体。我们使用了触角延伸反应的嗅觉条件反射,它可以训练被束缚的蜜蜂对与蔗糖溶液配对的气味做出反应。在绝对条件(单一气味被奖励)或差异条件(奖励气味与非奖励气味)下,使用四种不同的异构体对蜜蜂进行了训练。在训练 1 小时后,测试了对异构体对的辨别和泛化。在绝对条件下进行训练的蜜蜂在异构体之间表现出高度的泛化,并且只能区分四对异构体中的一对;经过差异条件训练后,它们学会了区分四对异构体中的两对,但在所有情况下,对非奖励异构体的泛化反应仍然很高。向非奖励异构体中添加厌恶味道有助于区分那些原本似乎不可区分的异构体,但泛化反应仍然很高。尽管蜜蜂在某些条件下能够区分异构体,但它们完成任务的难度较大,而且倾向于将它们进行泛化,因此表明这些分子在感知上与它们相似。我们得出结论,花香异构体的存在不一定会显著增加花香的多样性。
