Unraveling the nutritional and bioactive constituents in baby-leaf lettuce for challenging climate conditions

Abstract

The isolated effects of heat stress, fertilization and elevated CO₂ on the content of several health-promoting compounds in plants have been quite studied. However, few studies have focused on two of these three factors together. This work provides information on how two different levels of CO₂, four different NO₃^-/NH₄⁺ ratios in the nutrient solution, and a short-term heat stress affect the biomass and nutritional quality of baby-leaf lettuce cv Derbi. Furthermore, the nutritional quality of the inner and outer leaves was also studied and compared. Results indicated that the strategy used led to a bigger and healthier baby-leaf lettuces. So, this lettuces contained a higher content of sugars, minerals and phenolic compounds and showed an enhanced antioxidant activity. On the other hand, results exhibited that whilst in inner leaves the biosynthesis of antioxidant compounds were favored, in outer leaves was favored the biosynthesis of sugars and mineral content.

Keywords: Antioxidant activity; Baby-leaf lettuce; Climate change; Reduction of nitrate; Sustainable nutritional strategy.