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Microbial symbionts are shared between ants and their associated beetles
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Microbial symbionts are shared between ants and their associated beetles

Catalina Valdivia, Justin Newton, Sean O'donnell, Christoph Von Beeren, Daniel Kronauer, Jacob Russell and Piotr Lukasik
bioRxiv
03 Jan 2023
DOI: https://doi.org/10.1101/2022.12.02.518891
url
https://doi.org/10.1101/2022.12.02.518891View
SubmittedCC BY-NC-ND V4.0 Open

Abstract

Coleoptera Genotypes Habitats Larvae Microbiomes Microbiota Myrmecophily rRNA 16S Species Strains (organisms) Symbionts Weissella Workers (insect caste)
The transmission of microbial symbionts across individuals and generations can be critical for animal development and survival. Likewise, the transmission of microbes across closely interacting species could also affect host biology. Army ants (Formicidae: Dorylinae) and their hundreds of closely associated insect species (myrmecophiles) can provide a unique insight into interspecific symbiont sharing. Here, we compared the microbiota of workers and larvae of the army ant Eciton burchellii with those of 13 myrmecophile beetle species using 16S rRNA amplicon sequencing. We found that the previously characterized symbionts of army ant workers (Unclassified Firmicutes and Unclassified Entomoplasmatales) were largely absent from ant larvae and from myrmecophiles, whose microbial communities were usually dominated by Rickettsia, Wolbachia, Rickettsiella, and/or Weissella. Strikingly, different species of myrmecophiles and ant larvae often shared identical 16S rRNA genotypes of common bacteria. In particular, army ant larvae, some workers, and several myrmecophile species often hosted identical Weissella (Lactobacillales), based on 16S rRNA and also protein-coding gene sequences. Also, we found high relatedness between some newly characterized Weissella and animal-associated strains from aquatic and marine habitats. Looking more broadly, we found Weissella OTUs in 11.6% of samples from nearly all habitats and environments characterized by the Earth Microbiome Project. Together, our data show that unrelated but closely interacting species can share much of their microbiota. The high relatedness of strains found across such disparate hosts as ants, beetles, trout, and whales suggests that some versatile microbes move between hosts and habitats despite few opportunities for direct interaction. Competing Interest Statement The authors have declared no competing interest. Footnotes * This version has been revised to correct a spelling errors in the taxonomic names of some individuals (lack of cursive for some species names and Lomechusini was spelled as Lumechosini in a few instances).

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