Abstract
Plants interact with a diversity of phytophagous insects above- and belowground. By inducing plant defence, one insect herbivore species can antagonize or facilitate other herbivore species feeding on the same plant, even when they are separated in space and time. Through systemic plant-mediated interactions, leaf-chewing herbivores may affect the preference and performance of root-feeding herbivores. We studied how six different leaf-chewing herbivore species of Brassica oleracea plants affected oviposition preference and larval performance of the root-feeding specialist Delia radicum. We expected that female D. radicum flies would oviposit where larval performance was highest, in accordance with the preference–performance hypothesis. We also assessed how the different leaf-chewing herbivore species affected defence-related gene expression in leaves and primary roots of B. oleracea, both before and after infestation with the root herbivore. Our results show that leaf-chewing herbivores can negatively affect the performance of root-feeding D. radicum larvae, although the effects were relatively weak. Surprisingly, we found that adult D. radicum females show a strong preference to oviposit on plants infested with a leaf-chewing herbivore. Defence-related genes in primary roots of B. oleracea plants were affected by the leaf-chewing herbivores, but these changes were largely overridden upon local induction by D. radicum. Infestation by leaf herbivores makes plants more attractive for oviposition by D. radicum females, while decreasing larval performance. Therefore, our findings challenge the preference–performance hypothesis in situations where other herbivore species are present.
Highlights
Plants are members of complex and diverse ecological communities, and in natural and agricultural settings alike, they are under attack by insect herbivores above- and belowground
While the effect of individual treatments on the emergence of D. radicum was weak (GLMM; χ2 = 10.54, P = 0.10), comparison of the different herbivore treatments to the control treatment revealed that feeding by M. brassicae reduced D. radicum emergence, and there was a trend that P. brassicae (Z = 2.36, P = 0.055), P. cochleariae (Z = 2.17, P = 0.055), and P. xylostella (Z = 2.09, P = 0.055) slightly reduced root fly emergence
We studied plant-mediated effects of leaf herbivores on preference and performance of the root herbivore D. radicum in the context of two hypotheses in the field of insect–plant interactions, i.e. that oviposition preference is linked to higher larval performance and that generalists and specialists induce distinct plant responses
Summary
Plants are members of complex and diverse ecological communities, and in natural and agricultural settings alike, they are under attack by insect herbivores above- and belowground. Upon recognition of attack by an insect herbivore, induced defences are activated. These induced responses are regulated by a network of phytohormones, in which jasmonic acid (JA) is a central player (Erb and Reymond 2019; Pieterse et al 2009). Cues that trigger plant defence can be general, such as mechanical wounding of a leaf or root, or more specific, such as the recognition of insect saliva at the wounding site (Acevedo et al 2015). Specialist insect herbivores feed on a single plant species or family, whereas generalists feed on plants from many phytochemically unrelated families. While specialists often evolved strategies to detoxify plant toxins or even
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
