Susceptibility ofHeliothis zea (Boddie) larvae toNomuraea rileyi (Farlow) Samson

Abstract

To determine the impact of α-tomatine at the third trophic level, the following model was developed:Nomuraea rileyi (Farlow) Samson, the secondary consumer, acting onHeliothis zea (Boddie), the primary consumer, fed an artificial diet modified with α-tomatine. In vitro, the allelochemical inhibited colony formation and growth of the fungus. The in vivo test revealed that larval growth and developmental time were affected by α-tomatine andN. rileyi. Detrimental effects on pupal development were observed in larvae fed diet containing α-tomatine and also treated withN. rileyi (LC₉₀). The fungus was detected in the hemolymph and tissue of larvae treated with two lethal concentrations (LC₅₀ and LC₉₀) ofN. rileyi, including those fed α-tomatine. At the LC₅₀, α-tomatine protected larvae againstN. rileyi and increased survivorship; at the LC₉₀, it inhibited the development ofN. rileyi, thereby reducing production of conidia. Thus, the allelochemical α-tomatine retains its antifungal qualities beyond the second trophic level, inhibiting the development ofN. rileyi inH. zea.