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Gut microbiome drives individual memory variation in bumblebees

Li Li, Cwyn Solvi, Feng Zhang, Zhaoyang Qi, Lars Chıttka, Wei Zhao

2021Nature Communications75 citationsDOIOpen Access PDF

Abstract

The potential of the gut microbiome as a driver of individual cognitive differences in natural populations of animals remains unexplored. Here, using metagenomic sequencing of individual bumblebee hindguts, we find a positive correlation between the abundance of Lactobacillus Firm-5 cluster and memory retention on a visual discrimination task. Supplementation with the Firm-5 species Lactobacillus apis, but not other non-Firm-5 bacterial species, enhances bees' memory. Untargeted metabolomics after L. apis supplementation show increased LPA (14:0) glycerophospholipid in the haemolymph. Oral administration of the LPA increases long-term memory significantly. Based on our findings and metagenomic/metabolomic analyses, we propose a molecular pathway for this gut-brain interaction. Our results provide insights into proximate and ultimate causes of cognitive differences in natural bumblebee populations.

Topics & Concepts

BumblebeeBiologyMetagenomicsMicrobiomeMetabolomicsAbundance (ecology)Gut microbiomeComputational biologyEcologyGeneBioinformaticsGeneticsPollinationPollinatorPollenPlant and animal studiesInsect and Pesticide ResearchInsect and Arachnid Ecology and Behavior
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