Wolbachia affect behavior and possibly reproductive compatibility but not thermoresistance, fecundity, and morphology in a novel transinfected host, Drosophila nigrosparsa.

Matsapume Detcharoen,Wolfgang Arthofer,Florian M Steiner,Francis M Jiggins,Birgit C Schlick‐Steiner

doi:10.1002/ece3.6212

Matsapume Detcharoen, Wolfgang Arthofer + Show 3 more

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Wolbachia, intracellular endosymbionts, are estimated to infect about half of all arthropod species. These bacteria manipulate their hosts in various ways for their maximum benefits. The rising global temperature may accelerate species migration, and thus, horizontal transfer of Wolbachia may occur across species previously not in contact. We transinfected and then cured the alpine fly Drosophila nigrosparsa with Wolbachia strain wMel to study its effects on this species. We found low Wolbachia titer, possibly cytoplasmic incompatibility, and an increase in locomotion of both infected larvae and adults compared with cured ones. However, no change in fecundity, no impact on heat and cold tolerance, and no change in wing morphology were observed. Although Wolbachia increased locomotor activities in this species, we conclude that D. nigrosparsa may not benefit from the infection. Still, D. nigrosparsa can serve as a host for Wolbachia because vertical transmission is possible but may not be as high as in the native host of wMel, Drosophila melanogaster.

Highlights

Wolbachia are intracellular Alphaproteobacteria belonging to the Rickettsiales group (Hertig, 1936; Lo et al, 2007)
Drosophila melanogaster individuals infected with Wolbachia wMel, wMelCS, or wMelPop preferred cooler temperatures compared with uninfected ones (Arnold, Levin, Stevanovic, & Johnson, 2019; Truitt, Kapun, Kaur, & Miller, 2019)
We used transinfection to study effects of Wolbachia on D. nigrosparsa because this fly species may become infected by Wolbachia in the future by horizontal transmission upon contact with other arthropod species as a result of climate change triggered migration

Summary

| INTRODUCTION

Wolbachia are intracellular Alphaproteobacteria belonging to the Rickettsiales group (Hertig, 1936; Lo et al, 2007). WMel-infected Drosophila melanogaster were reported to have higher fecundity, higher mating rate, and longer wings (Table 1) than uninfected individuals. Drosophila melanogaster individuals infected with Wolbachia wMel, wMelCS, or wMelPop preferred cooler temperatures compared with uninfected ones (Arnold, Levin, Stevanovic, & Johnson, 2019; Truitt, Kapun, Kaur, & Miller, 2019). Drosophila nigrosparsa is less fecund and relatively long living compared with other Drosophila species, and it is well adapted to current cold and hot temperatures (Kinzner et al, 2018). As D. nigrosparsa likely cannot adapt to warming temperature, they might migrate to other areas Such migration may result in whole communities becoming mixed up, and Wolbachia may have the chance to encounter hitherto uninfected hosts including D. nigrosparsa. All flies were reared at 19°C, 70% humidity, and a 16 hr: hr light:dark cycle

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