Honey Bees Modulate Their Olfactory Learning in the Presence of Hornet Predators and Alarm Component

In Southeast Asia the native honey bee species Apis cerana is often attacked by hornets (Vespa velutina), mainly in the period from April to November. During the co-evolution of these two species honey bees have developed several strategies to defend themselves such as learning the odors of hornets...

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Bibliographic Details
Published in:PloS one 2016-02, Vol.11 (2), p.e0150399-e0150399
Main Authors: Wang, Zhengwei, Qu, Yufeng, Dong, Shihao, Wen, Ping, Li, Jianjun, Tan, Ken, Menzel, Randolf
Format: Article
Language:English
Subjects:
Acetic acid
Alarm pheromone
Alarm systems
Aldehydes
Animal behavior
Animals
Apis cerana
Apis mellifera
Appetitive Behavior
Arthropod Antennae - physiology
Avoidance Learning - physiology
Bees
Bees - physiology
Behavior
Biological evolution
Biology and Life Sciences
Conditioning, Classical - physiology
Ecology and Environmental Sciences
Feeding Behavior
Female
Flowers
Forage
Hexanal
Honey
Isoamyl acetate
Learning
Learning - physiology
Memory - physiology
Neurosciences
Odor control
Odorants
Odors
Olfactory discrimination learning
Olfactory pathway
Pentanols
Pheromones
Pheromones - chemistry
Physical Sciences
Physiological aspects
Predators
Predatory Behavior
Prey
Reward
Smell - physiology
Social Sciences
Species Specificity
Sucrose
Sugar
Vespa velutina
Vespidae
Wasps
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Summary:In Southeast Asia the native honey bee species Apis cerana is often attacked by hornets (Vespa velutina), mainly in the period from April to November. During the co-evolution of these two species honey bees have developed several strategies to defend themselves such as learning the odors of hornets and releasing alarm components to inform other mates. However, so far little is known about whether and how honey bees modulate their olfactory learning in the presence of the hornet predator and alarm components of honey bee itself. In the present study, we test for associative olfactory learning of A. cerana in the presence of predator odors, the alarm pheromone component isopentyl acetate (IPA), or a floral odor (hexanal) as a control. The results show that bees can detect live hornet odors, that there is almost no association between the innately aversive hornet odor and the appetitive stimulus sucrose, and that IPA is less well associated with an appetitive stimulus when compared with a floral odor. In order to imitate natural conditions, e.g. when bees are foraging on flowers and a predator shows up, or alarm pheromone is released by a captured mate, we tested combinations of the hornet odor and floral odor, or IPA and floral odor. Both of these combinations led to reduced learning scores. This study aims to contribute to a better understanding of the prey-predator system between A. cerana and V. velutina.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0150399