Litcius/Paper detail

Risk of herbivory negatively correlates with the diversity of volatile emissions involved in plant communication

Patrick Grof‐Tisza, Richard Karban, Muhammad Usman Rasheed, Amélie Saunier, James D. Blande

2021Proceedings of the Royal Society B Biological Sciences22 citationsDOIOpen Access PDF

Abstract

Plant-to-plant volatile-mediated communication and subsequent induced resistance to insect herbivores is common. Less clear is the adaptive significance of these interactions; what selective mechanisms favour plant communication and what conditions allow individuals to benefit by both emitting and responding to cues? We explored the predictions of two non-exclusive hypotheses to explain why plants might emit cues, the kin selection hypothesis (KSH) and the mutual benefit hypothesis (MBH). We examined 15 populations of sagebrush that experience a range of naturally occurring herbivory along a 300 km latitudinal transect. As predicted by the KSH, we found several uncommon chemotypes with some chemotypes occurring only within a single population. Consistent with the MBH, chemotypic diversity was negatively correlated with herbivore pressure; sites with higher levels of herbivory were associated with a few common cues broadly recognized by most individuals. These cues varied among different populations. Our results are similar to those reported for anti-predator signalling in vertebrates.

Topics & Concepts

HerbivoreBiologyChemotypeEcologyEcosystemPopulationBotanyDemographySociologyEssential oilPlant and animal studiesInsect and Arachnid Ecology and BehaviorPlant Parasitism and Resistance