Effect of fipronil on side-specific antennal tactile learning in the honeybee

In the honeybee, the conditioning of the proboscis extension response using tactile antennal stimulations is well suited for studying the side-specificity of learning including the possible bilateral transfer of memory traces in the brain, and the role of inhibitory networks. A tactile stimulus was...

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Bibliographic Details
Published in:Journal of insect physiology 2009-12, Vol.55 (12), p.1099-1106
Main Authors: Bernadou, A., Démares, F., Couret-Fauvel, T., Sandoz, J.C., Gauthier, M.
Format: Article
Language:English
Subjects:
Animal Structures - drug effects
Animal Structures - physiology
Animals
antennae
Apis mellifera
Bees - drug effects
Bees - physiology
Behavior, Animal - drug effects
brain
Fipronil
honey bees
Honeybee
Insecticides - pharmacology
learning
Memory
pollinating insects
proboscis
Pyrazoles - pharmacology
spatial variation
sublethal effects
sucrose
Tactile learning
thorax
Transfer
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Summary:In the honeybee, the conditioning of the proboscis extension response using tactile antennal stimulations is well suited for studying the side-specificity of learning including the possible bilateral transfer of memory traces in the brain, and the role of inhibitory networks. A tactile stimulus was presented to one antenna in association with a sucrose reward to the proboscis. The other antenna was either not stimulated (A+/0 training), stimulated with a non-reinforced tactile stimulus B (A+/B− training) or stimulated with B reinforced with sucrose to the proboscis (A+/B+ training). Memory tests performed 3 and 24 h after training showed in all situations that a tactile stimulus learnt on one side was only retrieved ipsilaterally, indicating no bilateral transfer of information. In all these groups, we investigated the effect of the phenylpyrazole insecticide fipronil by applying a sublethal dose (0.5 ng/bee) on the thorax 15 min before training. This treatment decreased acquisition success and the subsequent memory performances were lowered but the distribution of responses to the tactile stimuli between sides was not affected. These results underline the role of the inhibitory networks targeted by fipronil on tactile learning and memory processes.
ISSN:0022-1910
1879-1611
DOI:10.1016/j.jinsphys.2009.08.019