Antennal responses of black plum sawfly (Hoplocampa minuta) to European plum (Prunus domestica) flower volatiles

Abstract

Abstract Black plum sawfly (Hoplocampa minuta) is an important pest species of plum (Prunus domestica). In organic plum orchards, the yield loss caused by H. minuta larval damage can reach almost 100% occasionally. Adults feed on pollen and nectar of the plum flower; therefore, we hypothesize that, besides visual cues, also olfaction plays an important role in habitat and host finding. To understand the chemical communication mediated by flower volatiles to black sawflies, we investigated the chemical signals released from plum flowers, which can trigger the peripheral physiological responses of adult sawflies. First, using gas chromatography coupled with electroantennography (GC-EAD), we selected 18 physiologically active compounds from the headspace volatile collection of plum flowers, which triggered the H. minuta male and female antennae. Subsequently, we determine the volatilome of plum flower and identified those compounds, which elicited physiological responses, using gas chromatography coupled with mass spectrometry (GC-MS). These antennally active components in flower volatiles could be candidates for potential kairomone, which could later be used for attracting males and females of H. minuta and could contribute to developing pesticide-free, effective monitoring and lure and kill strategy against this pest.