‘Tuning’ communication among four trophic levels of the root biome to facilitate biological control

Publication date: Available online 21 January 2019Source: Biological ControlAuthor(s): Lukasz L. Stelinski, Denis Willett, Monique J. Rivera, Jared G. AliAbstractPlants can facilitate attraction of herbivore predators and parasites with herbivore-induced volatiles (HIPVs). However, a central unknown of manipulating a natural environment is how the interactive effects of multiple plant stressors impacts belowground multi-trophic interactions. Agricultural systems, while disturbed, are useful model systems for investigating the effects of multiple stressors on plants and their related interactions because of the redundancy of pests and pathogens and thus, the predictability of the species occurring in these environments. Chemical communication among plants and animals belowground remains behind analogous current understanding of terrestrial systems both fundamentally, and from an applied perspective. Entomopathogenic nematodes (EPNs) infect and kill insects with the aid of symbiotic bacteria and can serve a biological control function in agro-ecosystems. EPNs are known to respond to herbivore-induced plant volatiles (HIPVs) that act as attractant cues increasing nematodes numbers in response to herbivory and concurrently increasing mortality of root pests. Microcosm and semi-field investigations have shown evidence that small scale numerical increases of EPN can be artificially caused by targeted applications or increases in HIPV production near the location of herbivore feedin...
Source: Biological Control - Category: Biology Source Type: research