Abstract

Many insect species are associated with bacterial partners that can significantly influence their evolutionary ecology. Compared to other insect groups, aphids harbor a bacterial microbiota that has the reputation of being poorly diversified, generally limited to the presence of the obligate nutritional symbiont Buchnera aphidicola and some facultative symbionts. In this study, we analyzed the bacterial diversity associated with the dogwood-grass aphid Anoecia corni, an aphid species that spends much of its life cycle in a subterranean environment. Little is known about the bacterial diversity associated with aphids displaying such a lifestyle, and one hypothesis is that close contact with the vast microbial community of the rhizosphere could promote the acquisition of a richer bacterial diversity compared to other aphid species. Using 16S rRNA amplicon Illumina sequencing on specimens collected on wheat roots in Morocco, we identified 10 bacterial operational taxonomic units (OTUs) corresponding to five bacterial genera. In addition to the obligate symbiont Buchnera, we identified the facultative symbionts Serratia symbiotica and Wolbachia in certain aphid colonies. The detection of Wolbachia is unexpected as it is considered rare in aphids. Moreover, its biological significance remains unknown in these insects. Besides, we also detected Arsenophonus and Dactylopiibacterium carminicum. These results suggest that, despite its subterranean lifestyle, A. corni shelter a bacterial diversity mainly limited to bacterial endosymbionts.

Highlights

  • Insects maintain a variety of symbiotic relationships with heritable bacteria that can deeply influence their evolutionary ecology [1,2,3]

  • Our results indicate that the microbial profile of A. corni is dominated by the order of Enterobacteriales, which includes the obligate symbiont B. aphidicola and the facultative symbionts S. symbiotica and Arsenophonus

  • Our approach based on 16S rRNA enabled us to identify five bacterial genera in the dogwood aphid A. corni, a species that spends most of its life cycle on Poaceae roots

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Summary

Introduction

Insects maintain a variety of symbiotic relationships with heritable bacteria that can deeply influence their evolutionary ecology [1,2,3]. Thanks to their well-studied associations with a wide range of heritable symbiotic bacteria, aphids (Hemiptera: Aphididae) are valuable model systems for studying the evolution of bacterial mutualism in insects [4,5,6]. Microbiome of the subterranean aphid Anoecia corni

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