Dynamic antennal positioning allows honeybee followers to decode the dance

Anna Hadjitofi; Barbara Webb

doi:10.1016/j.cub.2024.02.045

Dynamic antennal positioning allows honeybee followers to decode the dance

Anna Hadjitofi^*, Barbara Webb^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

The honeybee waggle dance has been widely studied as a communication system, yet we know little about how nestmates assimilate the information needed to navigate toward the signaled resource. They are required to detect the dancer's orientation relative to gravity and duration of the waggle phase and translate this into a flight vector with a direction relative to the sun 1 and distance from the hive. 2 , 3 Moreover, they appear capable of doing so from varied, dynamically changing positions around the dancer. Using high-speed, high-resolution video, we have uncovered a previously unremarked correlation between antennal position and the relative body axes of dancer and follower bees. Combined with new information about antennal inputs 4 , 5 and spatial encoding in the insect central complex, 6 , 7 we show how a neural circuit first proposed to underlie path integration could be adapted to decoding the dance and acquiring the signaled information as a flight vector that can be followed to the resource. This provides the first plausible account of how the bee brain could support the interpretation of its dance language.

Original language	English
Pages (from-to)	1772-1779
Number of pages	8
Journal	Current Biology
Volume	34
Issue number	8
Early online date	12 Mar 2024
DOIs	https://doi.org/10.1016/j.cub.2024.02.045
Publication status	Published - 22 Apr 2024

Keywords / Materials (for Non-textual outputs)

dance communication
honeybee
Apis mellifera
waggle dance
mechanosensory input
antennal positioning
vector assimulation
central complex

Access to Document

10.1016/j.cub.2024.02.045Licence: Creative Commons: Attribution (CC-BY)

HadjitofiWebbCB2024DynamicAntennalPositioningAllowsFinal published version, 5.08 MBLicence: Creative Commons: Attribution (CC-BY)

UltimateCOMPASS: Navigating the most challenging habitats on earth: unravelling the architecture of a universal compass system
Webb, B. (Principal Investigator)
EU government bodies
1/06/19 → 31/05/24
Project: Research

Cite this

@article{1ffe42050aa6416c942f289846a9ce1d,

title = "Dynamic antennal positioning allows honeybee followers to decode the dance",

abstract = "The honeybee waggle dance has been widely studied as a communication system, yet we know little about how nestmates assimilate the information needed to navigate toward the signaled resource. They are required to detect the dancer's orientation relative to gravity and duration of the waggle phase and translate this into a flight vector with a direction relative to the sun 1 and distance from the hive. 2 , 3 Moreover, they appear capable of doing so from varied, dynamically changing positions around the dancer. Using high-speed, high-resolution video, we have uncovered a previously unremarked correlation between antennal position and the relative body axes of dancer and follower bees. Combined with new information about antennal inputs 4 , 5 and spatial encoding in the insect central complex, 6 , 7 we show how a neural circuit first proposed to underlie path integration could be adapted to decoding the dance and acquiring the signaled information as a flight vector that can be followed to the resource. This provides the first plausible account of how the bee brain could support the interpretation of its dance language. ",

keywords = "dance communication, honeybee, Apis mellifera, waggle dance, mechanosensory input, antennal positioning, vector assimulation, central complex",

author = "Anna Hadjitofi and Barbara Webb",

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doi = "10.1016/j.cub.2024.02.045",

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AU - Hadjitofi, Anna

AU - Webb, Barbara

PY - 2024/4/22

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N2 - The honeybee waggle dance has been widely studied as a communication system, yet we know little about how nestmates assimilate the information needed to navigate toward the signaled resource. They are required to detect the dancer's orientation relative to gravity and duration of the waggle phase and translate this into a flight vector with a direction relative to the sun 1 and distance from the hive. 2 , 3 Moreover, they appear capable of doing so from varied, dynamically changing positions around the dancer. Using high-speed, high-resolution video, we have uncovered a previously unremarked correlation between antennal position and the relative body axes of dancer and follower bees. Combined with new information about antennal inputs 4 , 5 and spatial encoding in the insect central complex, 6 , 7 we show how a neural circuit first proposed to underlie path integration could be adapted to decoding the dance and acquiring the signaled information as a flight vector that can be followed to the resource. This provides the first plausible account of how the bee brain could support the interpretation of its dance language.

AB - The honeybee waggle dance has been widely studied as a communication system, yet we know little about how nestmates assimilate the information needed to navigate toward the signaled resource. They are required to detect the dancer's orientation relative to gravity and duration of the waggle phase and translate this into a flight vector with a direction relative to the sun 1 and distance from the hive. 2 , 3 Moreover, they appear capable of doing so from varied, dynamically changing positions around the dancer. Using high-speed, high-resolution video, we have uncovered a previously unremarked correlation between antennal position and the relative body axes of dancer and follower bees. Combined with new information about antennal inputs 4 , 5 and spatial encoding in the insect central complex, 6 , 7 we show how a neural circuit first proposed to underlie path integration could be adapted to decoding the dance and acquiring the signaled information as a flight vector that can be followed to the resource. This provides the first plausible account of how the bee brain could support the interpretation of its dance language.

KW - dance communication

KW - honeybee

KW - Apis mellifera

KW - waggle dance

KW - mechanosensory input

KW - antennal positioning

KW - vector assimulation

KW - central complex

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JO - Current Biology

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ER -

Dynamic antennal positioning allows honeybee followers to decode the dance

Abstract

Keywords / Materials (for Non-textual outputs)

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Projects

UltimateCOMPASS: Navigating the most challenging habitats on earth: unravelling the architecture of a universal compass system

Cite this