Data from: When resistance is futile, tolerate instead: silicon promotes plant compensatory growth when attacked by above- and belowground herbivores
Cite this dataset
Johnson, Scott N. et al. (2019). Data from: When resistance is futile, tolerate instead: silicon promotes plant compensatory growth when attacked by above- and belowground herbivores [Dataset]. Dryad. https://doi.org/10.5061/dryad.553fs8n
Plants have evolved numerous herbivore defences which are resistance- or tolerance-based. Resistance involves physical and chemical traits that deter and/or harm herbivores whereas tolerance minimises fitness costs of herbivory, often via compensatory growth. The Poaceae frequently accumulate large amounts of silicon (Si) which can be used for herbivore resistance, including biomechanical and (indirectly) biochemical defences. To date, it is unclear whether Si improves tolerance of herbivory. Here we report how Si enabled a cereal (Triticum aestivum) to tolerate damage inflicted by above- and belowground herbivores. Leaf herbivory increased Si concentrations in the leaves by >50% relative to herbivore-free plants, indicating it was an inducible defensive response. In plants without Si supplementation, leaf herbivory reduced shoot biomass by 52% and root herbivory reduced root biomass by 68%. Si supplementation, however, facilitated compensatory growth such that shoot losses were more than compensated for (+14% greater than herbivore-free plants) and root losses were minimised to -16%. Si supplementation did not improve plant resistance since Si did not enhance biomechanical resistance (i.e. force of fracture) or reduce leaf consumption and herbivore relative growth rates. We propose that Si-based defence operates in wheat via tolerance either in addition, or as an alternative, to resistance-based defence.