Abstract
Species‐specific responses to the environment can moderate the strength of interactions between plants, herbivores and parasitoids. However, the ways in which characteristics of plants, such as genotypic variation in herbivore induced volatiles (HIPVs) that attract parasitoids, affect trophic interactions in different contexts of plant patch size and plant neighbourhood is not well understood. We conducted a factorial field experiment with white cabbage Brassica oleracea accessions that differ in the attractiveness of their HIPVs for parasitoids, in the context of different patch sizes and presence or absence of surrounding Brassica nigra plants. Parasitism rates of experimentally introduced Pieris brassicae caterpillars and the presence of naturally occurring Pieris spp. caterpillars in the plots were assessed throughout the growing season. The abundance of Pieris caterpillars was neither affected by cabbage accession nor plot size. Later in the season, when B. nigra plants had senesced, fewer caterpillars were found on cabbage plants in plots with a B. nigra border. Parasitism rates fluctuated over the season, and were not affected by plot size. However, the B. nigra border negatively affected parasitism rates on the accession that is less attractive to the parasitoid Cotesia glomerata, but not on the more attractive accession. Our results show that plant variation in HIPVs can differentially influence herbivores and parasitoids depending on characteristics of the surrounding vegetation context. These findings underscore the importance of considering the interaction between focal plant traits and neighbourhood context to reliably predict trophic cascades.
Highlights
IntroductionOrganisms need to find resources in habitat patches that are embedded in a matrix of unsuitable habitat, effectively rendering these habitat patches small islands
We present how the herbivore host and its parasitoid responded to variation in food plant accession, plant neighbourhood and patch size and discuss how these factors interact in determining the strength of tritrophic interactions
While insect herbivores and their parasitoids are commonly confronted with heterogeneous environments, few studies have investigated how the interaction of spatial scale, neighbouring plants and variation in plant volatiles influences parasitoid–host interactions
Summary
Organisms need to find resources in habitat patches that are embedded in a matrix of unsuitable habitat, effectively rendering these habitat patches small islands. In tritrophic interactions between plants, herbivores and predators, foraging behaviour of herbivores and predators may be differentially affected by characteristics of these patches, such as food-plant identity, vegetation composition and patch size. Because parasitoids and herbivores may respond to different cues (Steck and Snell-Rood 2018, Aartsma et al 2019b), variation in plant traits may affect herbivores and parasitoids differentially and cause spatial variation in the strength of trophic interactions
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