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Royal Society open science
Oct, 2016;3 (10): 160576.

Chemical communication is not sufficient to explain reproductive inhibition in the bumblebee .

Mario Padilla, Etya Amsalem, Naomi Altman, Abraham Hefetz, Christina M Grozinger
Author Information
  1. Mario Padilla: Department of Entomology, Center for Pollinator Research, Center for Chemical Ecology , The Pennsylvania State University , University Park, PA 16802 , USA.
  2. Etya Amsalem: Department of Entomology, Center for Pollinator Research, Center for Chemical Ecology , The Pennsylvania State University , University Park, PA 16802 , USA.
  3. Naomi Altman: Department of Statistics, Huck Institutes of Life Sciences, Clinical and Translational Sciences Institute , The Pennsylvania State University , University Park, PA 16802 , USA.
  4. Abraham Hefetz: Department of Zoology, George S. Wise Faculty of Life Sciences , Tel Aviv University , Tel Aviv , Israel.
  5. Christina M Grozinger: Department of Entomology, Center for Pollinator Research, Center for Chemical Ecology , The Pennsylvania State University , University Park, PA 16802 , USA. ORCID
PMID: 27853577 DOI: 10.1098/rsos.160576

Abstract

Reproductive division of labour is a hallmark of eusociality, but disentangling the underlying proximate mechanisms can be challenging. In bumblebees, workers isolated from the queen can activate their ovaries and lay haploid, male eggs. We investigated if volatile, contact, visual or behavioural cues produced by the queen or brood mediate reproductive dominance in Exposure to queen-produced volatiles, brood-produced volatiles and direct contact with pupae did not reduce worker ovary activation; only direct contact with the queen could reduce ovary activation. We evaluated behaviour, physiology and gene expression patterns in workers that were reared in chambers with all stages of brood and a free queen, caged queen (where workers could contact the queen, but the queen was unable to initiate interactions) or no queen. Workers housed with a caged queen or no queen fully activated their ovaries, whereas ovary activation in workers housed with a free queen was completely inhibited. The caged queen marginally reduced worker aggression and expression of an aggression-associated gene relative to queenless workers. Thus, queen-initiated behavioural interactions appear necessary to establish reproductive dominance. Queen-produced chemical cues may function secondarily in a context-specific manner to augment behavioural cues, as reliable or honest signal.

Keywords

altruism behaviour chemical communication division of labour eusocial pheromone

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