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The gut microbiome defines social group membership in honey bee colonies

Cassondra Vernier, Iris M. Chin, Boahemaa Adu‐Oppong, Joshua J. Krupp, Joel D. Levine, Gautam Dantas, Yehuda Ben‐Shahar

2020Science Advances129 citationsDOIOpen Access PDF

Abstract

In the honey bee, genetically related colony members innately develop colony-specific cuticular hydrocarbon profiles, which serve as pheromonal nestmate recognition cues. Yet, despite high intracolony relatedness, the innate development of colony-specific chemical signatures by individual colony members is largely determined by the colony environment, rather than solely relying on genetic variants shared by nestmates. Therefore, it is puzzling how a nongenic factor could drive the innate development of a quantitative trait that is shared by members of the same colony. Here, we provide one solution to this conundrum by showing that nestmate recognition cues in honey bees are defined, at least in part, by shared characteristics of the gut microbiome across individual colony members. These results illustrate the importance of host-microbiome interactions as a source of variation in animal behavioral traits.

Topics & Concepts

Honey beeMicrobiomeGut bacteriaGut microbiomeBiologyHoney BeesTicketGut floraBacteriaMicrobiologyZoologyEcologyGeneticsImmunologyComputer scienceComputer securityInsect and Arachnid Ecology and BehaviorInsect and Pesticide ResearchPlant and animal studies
The gut microbiome defines social group membership in honey bee colonies | Litcius