Different Roles for Honey Bee Mushroom Bodies and Central Complex in Visual Learning of Colored Lights in an Aversive Conditioning Assay

Different Roles for Honey Bee Mushroom Bodies and Central Complex in Visual Learning of Colored Lights in an Aversive Conditioning Assay

The honey bee is an excellent visual learner, but we know little about how and why it performs so well, or how visual information is learned by the bee brain. Here we examined the different roles of two key integrative regions of the brain in visual learning: the mushroom bodies and the central comp...

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Main Authors: Jenny A. Plath, Brian V. Entler, Nicholas H. Kirkerud, Ulrike Schlegel, C. Giovanni Galizia, Andrew B. Barron
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-05-01
Series:Frontiers in Behavioral Neuroscience
Subjects:
visual learning
operant learning
mushroom bodies
central complex
honey bees
procaine
Online Access:http://journal.frontiersin.org/article/10.3389/fnbeh.2017.00098/full
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spelling doaj-443179def4d64966b389f19422db91042020-11-24T22:22:16ZengFrontiers Media S.A.Frontiers in Behavioral Neuroscience1662-51532017-05-011110.3389/fnbeh.2017.00098266243Different Roles for Honey Bee Mushroom Bodies and Central Complex in Visual Learning of Colored Lights in an Aversive Conditioning AssayJenny A. Plath0Jenny A. Plath1Brian V. Entler2Brian V. Entler3Nicholas H. Kirkerud4Nicholas H. Kirkerud5Ulrike Schlegel6Ulrike Schlegel7C. Giovanni Galizia8Andrew B. Barron9Department of Biological Sciences, Macquarie UniversitySydney, NSW, AustraliaDepartment of Biology, University of KonstanzKonstanz, GermanyDepartment of Biological Sciences, Macquarie UniversitySydney, NSW, AustraliaDepartment of Biology, University of ScrantonScranton, PA, United StatesDepartment of Biology, University of KonstanzKonstanz, GermanyInternational Max-Planck Research School for Organismal Biology, University of KonstanzKonstanz, GermanyDepartment of Biology, University of KonstanzKonstanz, GermanyDepartment of Biosciences, University of OsloOslo, NorwayDepartment of Biology, University of KonstanzKonstanz, GermanyDepartment of Biological Sciences, Macquarie UniversitySydney, NSW, AustraliaThe honey bee is an excellent visual learner, but we know little about how and why it performs so well, or how visual information is learned by the bee brain. Here we examined the different roles of two key integrative regions of the brain in visual learning: the mushroom bodies and the central complex. We tested bees' learning performance in a new assay of color learning that used electric shock as punishment. In this assay a light field was paired with electric shock. The other half of the conditioning chamber was illuminated with light of a different wavelength and not paired with shocks. The unrestrained bee could run away from the light stimulus and thereby associate one wavelength with punishment, and the other with safety. We compared learning performance of bees in which either the central complex or mushroom bodies had been transiently inactivated by microinjection of the reversible anesthetic procaine. Control bees learned to escape the shock-paired light field and to spend more time in the safe light field after a few trials. When ventral lobe neurons of the mushroom bodies were silenced, bees were no longer able to associate one light field with shock. By contrast, silencing of one collar region of the mushroom body calyx did not alter behavior in the learning assay in comparison to control treatment. Bees with silenced central complex neurons did not leave the shock-paired light field in the middle trials of training, even after a few seconds of being shocked. We discussed how mushroom bodies and the central complex both contribute to aversive visual learning with an operant component.http://journal.frontiersin.org/article/10.3389/fnbeh.2017.00098/fullvisual learningoperant learningmushroom bodiescentral complexhoney beesprocaine
collection DOAJ
language English
format Article
sources DOAJ
author Jenny A. Plath
Jenny A. Plath
Brian V. Entler
Brian V. Entler
Nicholas H. Kirkerud
Nicholas H. Kirkerud
Ulrike Schlegel
Ulrike Schlegel
C. Giovanni Galizia
Andrew B. Barron
spellingShingle Jenny A. Plath
Jenny A. Plath
Brian V. Entler
Brian V. Entler
Nicholas H. Kirkerud
Nicholas H. Kirkerud
Ulrike Schlegel
Ulrike Schlegel
C. Giovanni Galizia
Andrew B. Barron
Different Roles for Honey Bee Mushroom Bodies and Central Complex in Visual Learning of Colored Lights in an Aversive Conditioning Assay
Frontiers in Behavioral Neuroscience
visual learning
operant learning
mushroom bodies
central complex
honey bees
procaine
author_facet Jenny A. Plath
Jenny A. Plath
Brian V. Entler
Brian V. Entler
Nicholas H. Kirkerud
Nicholas H. Kirkerud
Ulrike Schlegel
Ulrike Schlegel
C. Giovanni Galizia
Andrew B. Barron
author_sort Jenny A. Plath
title Different Roles for Honey Bee Mushroom Bodies and Central Complex in Visual Learning of Colored Lights in an Aversive Conditioning Assay
title_short Different Roles for Honey Bee Mushroom Bodies and Central Complex in Visual Learning of Colored Lights in an Aversive Conditioning Assay
title_full Different Roles for Honey Bee Mushroom Bodies and Central Complex in Visual Learning of Colored Lights in an Aversive Conditioning Assay
title_fullStr Different Roles for Honey Bee Mushroom Bodies and Central Complex in Visual Learning of Colored Lights in an Aversive Conditioning Assay
title_full_unstemmed Different Roles for Honey Bee Mushroom Bodies and Central Complex in Visual Learning of Colored Lights in an Aversive Conditioning Assay
title_sort different roles for honey bee mushroom bodies and central complex in visual learning of colored lights in an aversive conditioning assay
publisher Frontiers Media S.A.
series Frontiers in Behavioral Neuroscience
issn 1662-5153
publishDate 2017-05-01
description The honey bee is an excellent visual learner, but we know little about how and why it performs so well, or how visual information is learned by the bee brain. Here we examined the different roles of two key integrative regions of the brain in visual learning: the mushroom bodies and the central complex. We tested bees' learning performance in a new assay of color learning that used electric shock as punishment. In this assay a light field was paired with electric shock. The other half of the conditioning chamber was illuminated with light of a different wavelength and not paired with shocks. The unrestrained bee could run away from the light stimulus and thereby associate one wavelength with punishment, and the other with safety. We compared learning performance of bees in which either the central complex or mushroom bodies had been transiently inactivated by microinjection of the reversible anesthetic procaine. Control bees learned to escape the shock-paired light field and to spend more time in the safe light field after a few trials. When ventral lobe neurons of the mushroom bodies were silenced, bees were no longer able to associate one light field with shock. By contrast, silencing of one collar region of the mushroom body calyx did not alter behavior in the learning assay in comparison to control treatment. Bees with silenced central complex neurons did not leave the shock-paired light field in the middle trials of training, even after a few seconds of being shocked. We discussed how mushroom bodies and the central complex both contribute to aversive visual learning with an operant component.
topic visual learning
operant learning
mushroom bodies
central complex
honey bees
procaine
url http://journal.frontiersin.org/article/10.3389/fnbeh.2017.00098/full
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