Abstract
Sweet pepper (Capsicum annuum L.) fruits are an excellent source of bioactive products but the content of the same is related with the plant response to stressful conditions. Salinity is among the major constrains restricting to growth and development of plants, and optimizing irrigation strategies could improve fruit quality while saving good quality water. Mature fruits from plants grown at two saline concentrations (20 and 40 mM NaCl), beginning 50, 100 and 150 days after transplanting and a control (0 mM NaCl) were studied. Vitamin C levels fell as the salt concentration in the irrigation increased, while total phenolic compounds and POD activity rose. Additionally, early harvested fruits (young plants) produced fruits with higher concentration of vitamin C than those harvested later, but total phenolic compounds and POD activity showed the opposite behaviour. Marketable yield was also affected by the moment of salinization. Thus, the late the saline stress was imposed, the more attenuated was the effect on the studied parameters. The intensity of fruit response to salinity was significantly modulated by the age of the plant. Therefore, in addition to the level and duration of saline stress imposed, plant age should also be considered when determining the optimum irrigation strategy.
Highlights
Pepper is an important agricultural crop, because of its economic importance, and for the nutritional value of its fruits
We study the effect of the salt concentration and the time of the application on several quality parameters of pepper fruits
The level of total phenolics for T2 and 50 days after transplanting (DAT) was slightly increased with the age of the plant
Summary
Pepper is an important agricultural crop, because of its economic importance, and for the nutritional value of its fruits. They are an excellent source of natural colours and antioxidant compounds (Howard, Talcott, Brenes, & Villalon, 2000), the intake of which is regarded as an important health-protecting factor. Phenolic compounds are secondary metabolites in plants These compounds have an aromatic ring with one or more hydroxyl moieties. They retard or inhibit lipid autoxidation by acting as radical scavengers and, are essential antioxidants that protect against propagation of the oxidative chain (Namiki, 1990). Flavonoids are involved in the organoleptic properties of fruit and vegetables, such as taste (Tomás-Barberán & Espín, 2001), while anthocyanins are natural pigments, responsible for the colour of most fruits, flowers and leaves, and flavonols, which are induced by sunlight, attenuate the effect of ultraviolet rays in the plant (Price, Breen, Valladao, & Watson, 1995)
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