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BMC biology
Dec 18, 2024;22 (1): 288.

Pheromone relay networks in the honeybee: messenger workers distribute the queen's fertility signal throughout the hive.

Thomas O Richardson, Tomas Kay, Laurent Keller, Nathalie Stroeymeyt
Author Information
  1. Thomas O Richardson: School of Biological Sciences, University of Bristol, Bristol, UK. ORCID
  2. Tomas Kay: Department of Ecology and Evolution, University of Lausanne, Lausanne, Switzerland.
  3. Laurent Keller: Social Evolution Unit, Cornuit 8, BP 855, 1885, Chesi��res, Ollon, Switzerland.
  4. Nathalie Stroeymeyt: School of Biological Sciences, University of Bristol, Bristol, UK. nathalie.stroeymeyt@bristol.ac.uk.
PMID: 39695706 DOI: 10.1186/s12915-024-02083-w

Abstract

BACKGROUND: The harmonious operation of many insect societies depends upon colony-wide dissemination of a non-volatile pheromone produced by a single queen, which informs workers of her presence. This represents a major challenge in large colonies. Honeybee colonies, which can exceed 60,000 bees, are believed to solve this challenge using 'messenger' workers that actively relay the queen pheromone throughout the hive. However, little is known about the structure and effectiveness of the underlying relay network or the biology of messaging.
RESULTS: Here, we combine automated tracking with modelling to address these outstanding questions. We find that both queen movement and worker messaging play fundamental roles in queen pheromone dissemination. Fine-grained analyses of worker behaviour confirmed the existence of active messaging, as physical contacts with the queen caused workers to move faster and straighter, thereby accelerating pheromone transmission. Finally, we show that messaging follows a stereotypical developmental trajectory, resulting in an age-dependent hierarchical relay network, with the most intense messaging observed between three and five days of age, when workers undergo a suite of physiological changes associated with queen rearing.
CONCLUSIONS: These results suggest that the individuals that contribute most to advertising the presence of the queen are also the ones that control queen production.

Keywords

Animal communication Automatic tracking Contact network Contagion Fertility signalling Queen pheromone Social insect Transmission

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Grants

  1. BB/X511997/1/Biotechnology and Biological Sciences Research Council
  2. 30114/HORIZON EUROPE Marie Sklodowska-Curie Actions
  3. PCEFP3_181209/Swiss National Science FOundation (SNSF)
  4. 802628/European Research Council
  5. 741491/H2020 European Research Council

MeSH Term

Animals
Bees
Pheromones
Animal Communication
Fertility
Female
Social Behavior

Chemicals

Pheromones
Journal Article

Word Cloud

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