Abstract
The application of different techniques of positive stress (eustress), such as mild and moderate saline stress, could enhance the nutritional and functional attributes of food vegetables. The present study aimed to evaluate the positive effect of salinity as a eustressor on the functional quality of red lettuce growing under hydroponic conditions and subjected to increasing salinity. Red lettuce plants were grown for 60 days and, 45 days after sowing, were subjected to different levels of salinity (0, 50, 100, 150, and 200 mM NaCl). The phenolic compound concentration and antioxidant activity were measured at 7 and 15 days after the application of salinity treatment. Moreover, at harvest, the root and shoot biomass and efficiency of photosystem II were evaluated. Our results showed that the highest phenolic concentration and antioxidant activity were obtained through moderate salt stress (50 mM NaCl) applied for 15 days without affecting the photosynthetic activity and biomass production of lettuce plants. By contrast, when severe salt stress levels (150–200 mM NaCl) were applied, an increase in phenolic compounds was also obtained, but concomitantly with a significant reduction in antioxidant activity and biomass production. The application of moderate stress in red lettuce suggests its potential use as a tool to increase the biosynthesis and accumulation of bioactive secondary metabolites, improving the nutritional characteristics of red lettuce.
Highlights
IntroductionConsuming a diet rich in fruits and vegetables is associated with a reduced risk of noncommunicable disease [1]
These beneficial effects are believed to be due to the presence of phytochemical compounds, defined as bioactive compounds, including polyphenols, carotenoids and vitamins, among others [2]
Since the overproduction of free radicals formed through cell metabolism are involved in the pathogenesis of numerous chronic diseases [3], the protective role of phytochemicals is associated with their antioxidant activity, mainly through their inhibition of the oxidative damage caused by reactive oxygen species (ROS) and reactive nitrogen species (RNS) [4]
Summary
Consuming a diet rich in fruits and vegetables is associated with a reduced risk of noncommunicable disease [1]. These beneficial effects are believed to be due to the presence of phytochemical compounds, defined as bioactive compounds, including polyphenols, carotenoids and vitamins, among others [2]. Lettuce (Lactuca sativa L.) is a plant species representative of the Asteraceae family. It is an important leafy agricultural product and one of the most popular vegetables worldwide; it is currently consumed in increasing amounts due to its perception as a healthy food [3]. Phenolic compounds are synthesized during normal plant growth and are overproduced in response to different types of environmental stresses, such as salinity and drought, among others [12]
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