Influence of host diet on parasitoid fitness: unravelling the complexity of a temperate pastoral agroecosystem

Abstract

AbstractParasitoid fitness is closely associated with the condition of the host insect, and the condition of the host is partly dependent on the quality and quantity of plant food available. The relationship between host diet and parasitoid fitness therefore has the potential to indirectly mediate complex multitrophic interactions. This relationship may be influenced both by the presence of mycotoxins from endophytic fungi, which share symbiotic relationships with plants and cause reductions in host‐plant quality for herbivores, and by the availability of beneficial nutrient‐rich plant foods such as pollen. This study used a multitrophic system involving ryegrass, a fungal endophyte, pollen, and an insect herbivore and its parasitoid to study the effect of host diet on parasitoid fitness. Previous studies showed that the larval stage of the parasitoid was negatively influenced by the presence of fungal‐derived alkaloids in the diet of its host, but no assessment of effects on the adult stage of the parasitoid had been made. Similarly, the effect of pollen in the diet of the host on the fitness of the parasitoid had not previously been examined. In this study, the fitness of parasitoids reared from hosts fed endophyte‐free ryegrass, endophyte‐free ryegrass plus pollen, or endophyte‐infected ryegrass was assessed in two laboratory experiments. Host insects exhibited significant responses to treatment, but remarkably, there were no significant treatment effects on parasitoid development times, the number of successful parasitoid emergences, tibia length, or preoviposition egg complement. The absence of a strong relationship between host diet and parasitoid fitness in this study differs markedly from studies of other parasitoid–host systems in that the adult stage of this parasitoid appears remarkably unresponsive to variation in host condition. This work contributes to a better understanding of multitrophic interactions and to the refinement of integrated pest management tactics in a temperate pastoral agroecosystem.