Abstract
Although consumers often rely on chemical information to optimize their foraging strategies, it is poorly understood how top carnivores above the third trophic level find resources in heterogeneous environments. Hyperparasitoids are a common group of organisms in the fourth trophic level that lay their eggs in or on the body of other parasitoid hosts. Such top carnivores use herbivore-induced plant volatiles (HIPVs) to find caterpillars containing parasitoid host larvae. Hyperparasitoids forage in complex environments where hosts of different quality may be present alongside non-host parasitoid species, each of which can develop in multiple herbivore species. Because both the identity of the herbivore species and its parasitization status can affect the composition of HIPV emission, hyperparasitoids encounter considerable variation in HIPVs during host location. Here, we combined laboratory and field experiments to investigate the role of HIPVs in host selection of hyperparasitoids that search for hosts in a multi-parasitoid multi-herbivore context. In a wild Brassica oleracea-based food web, the hyperparasitoid Lysibia nana preferred HIPVs emitted in response to caterpillars parasitized by the gregarious host Cotesia glomerata over the non-host Hyposoter ebeninus. However, no plant-mediated discrimination occurred between the solitary host C. rubecula and the non-host H. ebeninus. Under both laboratory and field conditions, hyperparasitoid responses were not affected by the herbivore species (Pieris brassicae or P. rapae) in which the three primary parasitoid species developed. Our study shows that HIPVs are an important source of information within multitrophic interaction networks allowing hyperparasitoids to find their preferred hosts in heterogeneous environments.
Highlights
Consumers often forage in heterogeneous environments in which resources of different quality are interspersed among other resources that are nutritionally unsuitable
L. nana females were attracted to herbivore-induced plant volatiles (HIPVs) emitted in response to attack by both P. brassicae and P. rapae caterpillars carrying non-host parasitoid larvae when tested against undamaged control plants (PB: χ2 = 9.98, n = 7, P = 0.0016; PR: χ2 = 11.79, n = 7, P = 0.0006)
Hyperparasitoids did not discriminate between HIPVs induced by unparasitized Pieris caterpillars vs. HIPVs induced by caterpillars parasitized by the host C. rubecula (PB: χ2 = 2.96, n = 7, P = 0.0851; PR: χ2 = 1.79, n = 7, P = 0.1814) or by the non-host H. ebeninus (PB: χ2 = 1.37, n = 7, P = 0.2413; PR: χ2 = 2.40, n = 7, P = 0.1213)
Summary
Consumers often forage in heterogeneous environments in which resources of different quality are interspersed among other resources that are nutritionally unsuitable. The problem of foraging in heterogeneous environments is widespread among consumers structured within food webs; for example, herbivorous and carnivorous insects that are part of plant-based food webs have to find resources which are commonly embedded within larger patches of non-resources (Aartsma et al 2017, 2019). Oecologia (2019) 189:699–709 suitable resources in structurally complex vegetation, herbivorous and carnivorous insects often rely on chemical sources of information among which plant volatiles play a key role (Bruce et al 2005; Clavijo McCormick et al 2012; Webster and Cardé 2017). Herbivores have been shown to exploit specific ratios of ubiquitous plant volatiles to locate host–plant species (Bruce et al 2005; Webster et al 2010) whereas parasitoids use plant volatiles induced by herbivore attack (HIPVs) as cues for host location (Mumm and Dicke 2010; Clavijo McCormick et al 2012; Turlings and Erb 2018)
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