Loss of olfaction reduces caterpillar performance and increases susceptibility to a natural enemy

Insect herbivores such as caterpillars, are under strong selection pressure from natural enemies, especially parasitoid wasps. Although the role of olfaction in host-plant seeking has been investigated in great detail in parasitoids and adult lepidopteran, the caterpillar olfactory system and its significance in tri-trophic interactions remains poorly understood. In this study, we investigated the olfactory system of Pieris brassicae caterpillars and the importance of olfactory information in the interactions among this herbivore, its host-plant Brassica oleracea and its primary natural enemy Cotesia glomerata . To examine the role of olfaction, we utilized CRISPR/Cas9 to knock out the odorant receptor co-receptor ( Orco ). This knockout (KO) impaired olfactory detection and primary processing in the brain. Orco KO caterpillars exhibited reduced weight and lost preference for their optimal food plant. Interestingly, the KO caterpillars also experienced reduced weight when challenged by the parasitoid C. glomerata whose ovipositor had been removed, and the mortality of the KO caterpillars under the attack of unmanipulated parasitoids increased. We then investigated the behavior of P. brassicae caterpillars in response to volatiles from plants attacked by conspecific caterpillars and volatiles from plants on which the caterpillars were themselves attacked by C. glomerata . After analyzing the volatile compounds involved in these interactions, we concluded that olfactory information enables caterpillars to locate suitable food sources more efficiently as well as selecting enemy-free spaces. Our results reveal the crucial role of olfaction in caterpillar feeding and natural enemy avoidance, highlighting the significance of chemoreceptor genes in shaping ecological interactions.