Parasitoid wasps exert strong selective pressure on their hosts, driving the evolution of diverse defense strategies. Drosophila, a widely studied model organism, hosts a wide range of parasites, including parasitoid wasps, and has evolved immune and behavioral mechanisms to mitigate the risk of parasitization. These defenses range from avoidance and evasion to post-infection immune responses, such as melanotic encapsulation. In response, parasitoid wasps have developed countermeasures, contributing to an ongoing arms race between host and parasite. This article reviews the anti-parasitoid behaviors of Drosophila, focusing on their role in reducing parasitization and enhancing host survival and fitness. It also explores the molecular and neuronal circuit mechanisms that underlie these behaviors, using Drosophila as an ecologically relevant model for studying host-parasitoid interactions. Furthermore, the article discusses the potential applications of these findings in biological pest control and highlights key unresolved questions in the field.
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| http://dx.doi.org/10.1242/bio.061609 | DOI Listing |
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