Abstract
Aphids have evolved tight relationships with heritable endosymbionts, i.e., bacteria hosted within their tissues. Besides the primary endosymbiont Buchnera aphidicola, aphids host many facultative secondary endosymbionts with functions they may or may not benefit from. The different phenologies, lifestyles, and natural enemies of aphid species are predicted to favor the selection for distinct endosymbiont assemblages, as well as the emergence of intra-specific genetic diversity in the symbiotic bacteria. In this study, we (1) investigated the diversity of endosymbionts associated with four species from the genus Aphis in the field, and (2) we characterized the genetic diversity of Hamiltonella defensa, an endosymbiont that protects aphids against parasitoid wasps. We observed strong differences in the composition of endosymbiont communities among the four aphid species. H. defensa was clearly the dominant symbiont, although its abundance in each species varied from 25 to 96%. Using a multilocus sequence-typing approach, we found limited strain diversity in H. defensa. Each aphid species harbored two major strains, and none appeared shared between species. Symbiont phylogenies can thus help to understand the (seemingly limited) mobility of endosymbionts in aphid communities and the selection forces driving strain diversification.
Highlights
Heritable endosymbiotic bacteria are widespread among insects
Arsenophonus sp. was mainly detected in A. ruborum, while S. symbiotica was detected in all species but was especially abundant in A. urticata
We aimed to assess the diversity of secondary symbiont species and strains within a group of four congeneric aphid species with overlapping spatial distribution and natural enemy
Summary
Heritable endosymbiotic bacteria are widespread among insects. Some of these bacteria share tight mutualistic relationships with their hosts to the point that they are required for insect survival, but most endosymbionts are facultative. Facultative symbionts can initiate strong beneficial interactions, affecting many important traits of their insect host including reproduction, behavior, immunity, or nutrient provisioning (Oliver et al, 2010; Oliver and Martinez, 2014). Unlike their obligate counterparts, facultative symbionts are under relaxed purifying selection (Degnan and Moran, 2008). One may consider facultative symbionts as a genetic resource for their host, Symbiont Diversity in Aphids likely to be selected or counter-selected, depending on its adaptive value in a given environment (Jaenike, 2012; Henry et al, 2013)
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