Effect of container type on suitability of the pathogen Serratia marcescens - Microctonus hyperodae (Hym., Braconidae) association to indicate parasitoid oviposition attempts

Abstract

To minimize the risk that introduced entomophagous biological control agents may pose to native and beneficial insect species, identification of likely nontarget hosts is required before release is considered. A novel technique, in which the parasitoid acts as a vector of a bacterium pathogenic to potential hosts, has been used as an indicator of parasitoid ovipositional activity even when subsequent development of the parasitoid egg within the ‘host’ does not occur. In this study the application of this technique was examined in relation to container type using the facultative bacterium Serratia marcescens in association with the parasitoid Microctonus hyperodae. Two permissive host weevil species, Listronotus bonariensis and Irenimus aequalis, were exposed for 72 h to M. hyperodae treated with either distilled water or S. marcescens suspension in either Petri dishes or cages. Weevil septicaemia was significantly higher when exposed to S. marcescens-treated parasitoids than water-treated parasitoids (P < 0.001), with no difference in mortality between weevil species. Septicaemia was significantly higher in the Petri dishes than in cages (P < 0.001). This was attributed to improved survival of S. marcescens in the Petri dishes compared with cages. Total parasitoid activity (combined septicaemia and parasitism) for I. aequalis was higher in Petri dishes than in cages and far exceeded field parasitism. Petri dishes provide an environment for constant interaction between parasitoid and target host and thereby provide a conservative indication of parasitoid host range. However, cages may be more suitable to conduct host range studies because the ability to manipulate the environment. Potential refinements to the parasitoid-bacteria technique include methodology that enhances viability of the bacterium under cage conditions.