Wing morph development and reproduction of the ectoparasitoid Melittobia digitata: nutritional and hormonal effects

Abstract

AbstractManipulation studies of the temporal availability of nutrients during parasitoid larval development (high‐quality host vs. host deprivation) demonstrated that parasitoid access to nutrition affected the wing morph development of Melittobia digitata Dahms (Hymenoptera: Eulophidae), but not the parasitoid's ovarian development. Around 70% of programmed short wing morph larvae (SWM) that had been host‐deprived at 120 h after host parasitization shifted their development and emerged as long wing morphs (LWM). A reversion in morph development of programmed LWM was also found when the larvae were offered new hosts after up to 120 h of development, and both programmed SWM or LWM larvae that differentiated as SWMs had a similar egg load. Although precocene treatment of programmed SWM induced 30% of LWM development, morph development of programmed LWM remained unaltered if treated with methoprene, a juvenile hormone analogue (JHA), indicating that the morph development of M. digitata does not appear to be under juvenile hormone control. However, both precocene and JHA affected the ovarian development of the emerging female. We hypothesize that specific nutrients from the host hemolymph, or changes in the host internal composition at the parasitoid larval sensitive stage (120–123 h) induce changes in pathways that control parasitoid metabolism and nutrient allocation decisions during the cell growth and development of imaginal discs.