LAUSR

The glucosinolate-myrosinase (GLS-MYR) system is an important component of plant-insect interactions. However, there is no report on its performance in field conditions where the plants are subjected to both abiotic and biotic pressures simultaneously. We investigated the GLS-MYR system in a Himalayan ecotype of Lepidium latifolium that is recognized for its adaptive potential in field conditions. In order to understand the independent contribution of temperature and Pieris brassicae herbivory on the components of the GLS-MYR system, different conditions were simulated in the growth chamber. During field conditions, the final GLS hydrolysis products were found to be regulated by the metabolic GLS levels, the temperature conditions, and the density of insect interactions. These factors influence the expression of the hydrolyzing and specifier proteins, which further affects the GLS hydrolysis products. Our results suggest that the production of hydrolysis products is differentially affected under field conditions. While allyl isothiocyanate is significantly (p ≤ 0·05) affected by temperature but not insect density, 1-cyano-2,3-epithiopropane is not affected by either. The study shows that the outcome of the GLS-MYR system in a plant is a consequence of the combinatorial effect of ecophysiological factors and the insect interactions that eventually decide the performance of a plant in an environment.