Seasonal changes in cuticular hydrocarbons in response to polyphenism in the host‐alternating aphid Prociphilus oriens

In most terrestrial arthropods, cuticular hydrocarbons (CHCs) function to assist in desiccation tolerance and chemical communications. However, few studies have clarified whether CHC profiles change among developmental stages or among different morphs in non‐social insects. In the present study, we evaluated how CHC profiles change in accordance with polyphenism in the host‐alternating aphid Prociphilus oriens, which exhibits a complex life cycle and five distinct morphs. These morphs are sexual or asexual and adapt to different host plants. We found that all generations of P. oriens shared high proportions of n‐alkanes, but its composition varied among morphs. Three morphs that are attended by ants were characterized by relatively high proportions of n‐C25 to n‐C27, whereas two morphs that are not attended by ants had higher proportions of longer‐chain n‐alkanes, such as n‐C27 and n‐C29. The CHC profiles of sexual females were largely different from those of males. Considering that sexual females of Prociphilus spp. lack organs that secrete sex pheromones (scent plaques), the CHCs of sexual females are likely to function as a sex attractant. High proportions of methyl‐branched alkanes were detected in the long and flocculent waxy substances of autumnal migrants. These methyl‐branched alkanes are considered a cue to recognize conspecifics. We concluded that the functions and components of CHCs differ among morphs, and that those of sexual females differ from those of males and asexual generations because of their function in sexual communication.