Litcius/Paper detail

Social microbiota and social gland gene expression of worker honey bees by age and climate

Kirk E. Anderson, Patrick Maes

2022Scientific Reports23 citationsDOIOpen Access PDF

Abstract

Winter forage dearth is a major contributor to honey bee colony loss and can influence disease susceptibility. Honey bees possess a secretory head gland that interfaces with the social environment on many levels. During winter or forage dearth, colonies produce a long-lived (diutinus) worker phenotype that survives until environmental conditions improve. We used a known-age worker cohort to investigate microbiome integrity and social gene expression of workers in early and late winter. We provide additional context by contrasting host-microbial interactions from warm outdoor and cold indoor environments. Our results provide novel evidence that social immune gene expression is associated with worker longevity, and highlight the midgut as a target of opportunistic disease during winter. Host microbial interactions suggest opportunistic disease progression and resistance in long-lived workers, but susceptibility to opportunistic disease in younger workers that emerged during the winter, including increases in Enterobacteriaceae, fungal load and non-core bacterial abundance. The results are consistent with increased social immunity, including host associations with the social microbiota, and a social immune response by long-lived workers to combat microbial opportunism. The cost/benefit ratio associated with limited expression of the diutinus phenotype may be a strong determinant of colony survival during winter forage dearth.

Topics & Concepts

BiologyLongevityHoney beeContext (archaeology)DiseaseBumblebeeMicrobiomeForagePhenotypeZoologyEcologyImmunologyGeneGeneticsMedicinePaleontologyPollinatorPollenPollinationPathologyInsect and Pesticide ResearchInsect and Arachnid Ecology and BehaviorPlant and animal studies