Contact chemoreception related to host selection and oviposition behaviour in the monarch butterfly, Danaus plexippus

. Behavioural events during host selection by ovipositing monarch butterflies ( Danaus plexippus (L.), Danainae, Nymphalidae) include tapping the leaf surface with fore‐tarsi and touching this surface with mid‐tarsi (‘drumming’) and antennae. Flavonoids identified from host plant extracts are known to stimulate oviposition. Scanning electron microscopy revealed the presence of contact‐chemoreceptor sensilla on all appendages that contact the leaf surface. This electrophysiological study was conducted to identify the contact chemoreceptors that are sensitive to the known oviposition stimuli and are therefore probably involved in host recognition. Receptor cells of conspicuous sensilla grouped in clusters on fore‐tarsi of females were sensitive to the behaviourally active butanol fraction of host plant ( Asclepias curassavica ) extract. However, these receptors generally had low sensitivity to three oviposition‐stimulating flavonoids identified from this fraction, but they were also sensitive to the butanol fraction of a non‐host ( Brassica oleracea ). Chemoreceptors in sensilla of the tarsomers 2–4 of the mid‐legs also responded to the behaviourally active fraction of host plant extract and showed some sensitivity to two of the flavonoids that stimulate oviposition. Similar results were obtained from receptor cells in sensilla on the tip of the antennae. Most of these sensilla had cells responding to the butanol fraction of A. curassavica extract but only 25% of them were also sensitive to one of the behaviourally active flavonoids. These electrophysiological results, in combination with behavioural observations, suggest that host selection in monarch butterflies relies on a complex pattern of peripheral sensory information from several types of tarsal and antennal contact chemoreceptors.