Abstract
Establishment and spread of invasive species can be facilitated by lack of natural enemies in the invaded area. Host‐range evolution of natural enemies augments their ability to reduce the impact of the invader and could enhance their value for biological control. We assessed the potential of the Drosophila parasitoid, Leptopilina heterotoma (Hymenoptera: Figitidae), to exploit the invasive pest Drosophila suzukii by focusing on three performance indices: (i) attack rate; (ii) host killing, consisting of killing rate and lethal attack rate (killing efficiency); and (iii) successful offspring development (reproductive success). We found significant intraspecific variation in attack rate and killing rate and lethal attack rate among seven European populations, but offspring generally failed to successfully develop from the D. suzukii host. We crossed these European lines to create a genetically variable source population and performed a half‐sib analysis to quantify genetic variation. Using a Bayesian animal model, we found that attack rate and killing rate had a heritability of h2=0.2, lethal attack rate h2=0.4, and offspring development h2=0. We then artificially selected wasps with the highest killing rate of D. suzukii for seven generations to test whether host‐killing could be improved. There was a small and inconsistent response to selection in the three selection lines. Realized heritability (hr2) after four generations of selection was 0.17 but near zero after seven generations of selection. The genetic response might have been masked by an increased D. suzukii fitness resulting from adaptation to laboratory conditions. Our study reveals that native, European, L. heterotoma can attack the invasive pest, D. suzukii and significantly reduce fly survival and that different steps of the parasitization process need to be considered in the evolution of host‐range. It highlights how evolutionary principles can be applied to optimize performance of native species for biological control.
Highlights
The invasion of exotic species can be facilitated by its escape from natural enemies in its native area (Colautti et al, 2004; Keane & Crawley, 2002; Maron & Vilà, 2001)
We studied the evolutionary potential of the native parasitoid, Leptopilina heterotoma (Hymenoptera: Figitidae), to control the invasive pest species, Drosophila suzukii (Diptera: Drosophilidae)
We investigated whether the invasive pest D. suzukii can become a novel host for the native parasitoid L. heterotoma by focusing on four traits reflecting sequential steps of the parasitization process: (1) attack rate, (2) killing rate, (3) lethal attack rate, and (4) successful offspring development
Summary
The invasion of exotic species can be facilitated by its escape from natural enemies in its native area (Colautti et al, 2004; Keane & Crawley, 2002; Maron & Vilà, 2001). The relatively highly virulent larval parasitoid L. heterotoma has been found to attack D. suzukii, but most investigated populations are not able to complete development on this novel host (Chabert et al, 2012; Knoll et al, 2017; Mazzetto et al, 2016; Poyet et al, 2013) This indicates a mismatch in host selection behavior and reproductive performance, and may impede biological control and host-range evolution under natural conditions. We consider our results in the context of genetic improvement of this native parasitoid toward the invasive D. suzukii and evolutionary ecology of parasitization
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