1. Parasitoids in the genus Trogus (Hymenoptera: Ichneumonidae) attack the larvae of swallowtail butterflies (Lepidoptera: Papilionidae). Only two of the three major tribes of the subfamily Papilioninae are attacked although species of all three tribes commonly occur together. The tribe Troidini is relatively free of parasitoids of any kind, and it has been proposed that the aristolochic acids sequestered by troidines protect them from parasitism. 2. The responses of T. pennator (Fabricius) to the sympatric troidine Battus philenor (Linnaeus) were examined. Three hypotheses that could explain why this wasp does not parasitise B. philenor were considered. (1) Battus philenor does not produce compounds used by the wasp to locate hosts. (2) The larval integument contains compounds that deter attack. (3) The parasitoid offspring cannot survive in B. philenor. 3. The first hypothesis was not supported as the frass of B. philenor larvae was found to act as a searching arrestant comparable to the frass of a host species. 4. The second hypothesis was supported. The B. philenor larvae were rejected when the wasps examined them using their antennae, and ethanolic washes of B. philenor cuticle deterred attack by T. pennator when applied to otherwise acceptable host larvae. Bioassays of fractions of the ethanolic wash and of pure aristolochic acids established that aristolochic acids were at least partly responsible for the deterrent effect. 5. The third hypothesis was also supported. Larvae of B. philenor attacked by the parasitoids developed into butterflies. 6. These results indicate that both behavioural and physiological barriers, the former attributable at least in part to sequestered compounds and the latter of unknown mechanism, prevent T. pennator from parasitising B. philenor. none