Abstract

Wolbachia bacteria are common endosymbionts of many arthropods found in gonads and various somatic tissues. They manipulate host reproduction to enhance their transmission and confer complex effects on fitness‐related traits. Some of these effects can serve to increase the survival and transmission efficiency of Wolbachia in the host population. The Wolbachia–Drosophila melanogaster system represents a powerful model to study the evolutionary dynamics of host–microbe interactions and infections. Over the past decades, there has been a replacement of the ancestral wMelCS Wolbachia variant by the more recent wMel variant in worldwide D. melanogaster populations, but the reasons remain unknown. To investigate how environmental change and genetic variation of the symbiont affect host developmental and adult life‐history traits, we compared effects of both Wolbachia variants and uninfected controls in wild‐caught D. melanogaster strains at three developmental temperatures. While Wolbachia did not influence any developmental life‐history traits, we found that both lifespan and fecundity of host females were increased without apparent fitness trade‐offs. Interestingly, wMelCS‐infected flies were more fecund than uninfected and wMel‐infected flies. By contrast, males infected with wMel died sooner, indicating sex‐specific effects of infection that are specific to the Wolbachia variant. Our study uncovered complex temperature‐specific effects of Wolbachia infections, which suggests that symbiont–host interactions in nature are strongly dependent on the genotypes of both partners and the thermal environment.

Full Text
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