Abstract
The immune defence of an organism is evolving continuously, causing counteradaptations in interacting species, which in turn affect other ecological and evolutionary processes. Until recently comparative studies of species interactions and immunity, combining information from both ecological and immunological fields, have been rare. The cellular immune defense in insects, mainly mediated by circulating hemocytes, has been studied primarily in Lepidoptera and Diptera, whereas corresponding information about coleopteran species is still scarce. In the study presented here, we used two closely related chrysomelids, Galerucella pusilla and G. calmariensis (Coleoptera), both attacked by the same parasitoid, Asecodes parviclava (Hymenoptera). In order to investigate the structure of the immune system in Galerucella and to detect possible differences between the two species, we combined ecological studies with controlled parasitism experiments, followed by an investigation of the cell composition in the larval hemolymph. We found a striking difference in parasitism rate between the species, as well as in the level of successful immune response (i.e. encapsulation and melanisation of parasitoid eggs), with G. pusilla showing a much more potent immune defense than G. calmariensis. These differences were linked to differences in the larval cell composition, where hemocyte subsets in both naïve and parasitised individuals differed significantly between the species. In particular, the hemocytes shown to be active in the encapsulation process; phagocytes, lamellocytes and granulocytes, differ between the species, indicating that the cell composition reflects the ability to defend against the parasitoid.
Highlights
The immune system of an organism provides protection against parasites, parasitoids and pathogens, thereby strongly influencing its fitness [1]
Previous field observations suggested that G. pusilla experiences a much lower parasitism rate than G. calmariensis
When comparing the hemolymph of G. pusilla and G. calmariensis, we found that the ratios of granulocytes, lamellocytes, lamellocyte precursors and phagocytes differed between the two species
Summary
The immune system of an organism provides protection against parasites, parasitoids and pathogens, thereby strongly influencing its fitness [1]. To adapt to novel threats, the immune defense of the host evolves continuously, causing counteradaptations in the intruder’s virulence. Both the innate and acquired immunity may be affected in these processes. The strength of the immune system and the intruder’s virulence will affect the strength of species interactions and thereby other ecological processes and evolutionary trajectories. Geographic variation in the strength of species interactions and selection strengths may be a consequence both of changes in food web structure and because of geographic variation in immune competence [2]. Eco-evolutionary studies of species interactions have rarely included analyses of immune function [3,4]
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