Varying degree of physiological integration among host instars and their endoparasitoid affects stress-induced mortality

Rieta Gols (Corresponding author), Vera I.D. Ros, Paul J. Ode, Dhaval Vyas, Jeffrey A. Harvey

Research output: Contribution to journal/periodicalArticleScientificpeer-review

7 Citations (Scopus)
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Abstract In natural populations of insect herbivores, genetic differentiation is likely to occur due to variation in host plant utilization and selection by the local community of organisms with which they interact. In parasitoids, engaging in intimate associations with their host during immature development, local variation may exist in host quality for parasitoid development. We compared the development of a gregarious endoparasitoid, Cotesia glomerata L. (Hymenoptera: Braconidae), collected in The Netherlands, in three strains and three caterpillar instars (L1?L3) of its main host, Pieris brassicae L. (Lepidoptera: Pieridae). Hosts had been collected in The Netherlands and France, and were reared in the laboratory for one generation. We also used an established Dutch laboratory strain that had not been exposed to parasitoids for at least 24 generations. Parasitoid survival to adulthood was inversely correlated with host instar at parasitism. Adult parasitoid body mass was largest when hosts were parasitized as L1 and smallest when hosts were parasitized as L3, whereas egg-to-adult development time was quickest on L3 hosts and slowest on L1 hosts. Higher survival and faster development of C. glomerata on French L2 hosts also showed that there is variation in host-instar-related suitability. Many L2 and most L3 caterpillars that were parasitized exhibited signs of pathogen infection and perished within a few days of parasitism, whereas this never happened when hosts were parasitized as L1 or in non-parasitized control caterpillars. Our results reveal that, irrespective of the host strain, L1 hosts are optimally synchronized with C. glomerata development. By contrast, the high precocious mortality of L3 larvae may be due to stress-induced regulation by the parasitoid in order to ?force? its developmental program into synchrony with the developing parasitoid larvae. Our results underscore a potentially important role played by pathogens in mediating herbivore?parasitoid interactions that are host-instar-dependent in their expression.
Original languageEnglish
Pages (from-to)424-432
Number of pages9
JournalEntomologia Experimentalis et Applicata
Issue number5
Publication statusPublished - 01 May 2019


  • international
  • insect herbivores
  • multitrophic interactions
  • parasitoids
  • pathogens
  • Cotesia glomerata
  • Pieris brassicae
  • Hymenoptera
  • Braconidae
  • Lepidoptera
  • Pieridae
  • host regulation


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