Wolbachia effects on thermal preference of natural Drosophila melanogaster are influenced by host genetic background, Wolbachia type and bacterial titer

Summary

Temperature plays a fundamental role for the fitness of all organisms. In particular, it strongly affects metabolism and reproduction in ectotherms that have limited physiological capabilities to regulate their body temperature. Ectotherms thus have to maintain thermal homeostasis by behavioral adjustments. The influence of temperature variation on the physiology and behavior of ectotherms is well studied but we still know little about the influence of symbiotic interactions on thermal preference (T_p) of the host. The Wolbachia-Drosophila host-symbiont system represents an ideal model for addressing these questions. A growing number of studies demonstrated that different Wolbachia types can influence T_p in different Drosophila species, but these results may be confounded by the use of long-term Drosophila lab-strains that may not be representative for natural fly populations. To account for this, we investigated the effect of Wolbachia on T_p in wild-type D. melanogaster flies recently collected from nature. Consistent with previous data, we found reduced T_p compared to an uninfected control in one of two fly strains infected with the wMelCS Wolbachia type. Additionally, we, for the first time, found that Wolbachia titer variation influences thermal preference of the host fly. These data indicate that the interaction of Wolbachia and Drosophila resulting in behavioral variation is complex and strongly influenced by the genetic background of host and symbiont. Our results further emphasize the necessity for more in-depth studies to better understand the evolutionary significance of T_p variation influenced by Wolbachia in natural Drosophila populations.