info:eu-repo/semantics/article
The selenium supplementation influences olive tree production and oil stability against oxidation and can alleviate the water deficiency effects
Fecha
2018-08-15Registro en:
D'Amato, Roberto; De Feudis, Mauro; Regni, Luca; Pacheco, Pablo Hugo; Onofri, Andrea; et al.; The selenium supplementation influences olive tree production and oil stability against oxidation and can alleviate the water deficiency effects; Frontiers Media SA; Frontiers in Plant Science; 9; 15-8-2018; 1-8
1664-462X
CONICET Digital
CONICET
Autor
D'Amato, Roberto
De Feudis, Mauro
Regni, Luca
Pacheco, Pablo Hugo
Onofri, Andrea
Businelli, Daniela
Proietti, Primo
Resumen
Foliar fertilization with selenium (Se) may well be beneficial in increasing the nutritional and qualitative values of food in Se-deficient regions such as the Mediterranean Basin, and may contribute to an increase in drought resistance in plants. The present study has considered detachment force, flesh firmness, pigmentation, fresh and dry weight, and oil content of olive drupes from Se fertilized olive orchards (Olea europaea L.) under drought stress and well-watered conditions. This study has also evaluated the total Se, Se amino acid, phenol, carotenoid and chlorophyll contents of EVOO, plus its oxidative stability against oxidation. While there was no change in the ripening indexes and the production of olives generally, Se application did increase the total Se, Se methionine, phenol, and carotenoid and chlorophyll contents. The higher concentration of these (bio) chemical compounds in EVOO obtained from Se fertilized plants might well suggest enhanced antioxidant activity. Consequently, EVOO obtained from Se fertilized trees possesses a higher nutritional value and, as indicated by the greater oxidative stability against oxidation, longer shelf life. In addition, under water deficient conditions, a higher fresh olive weight corresponds to a higher level of phenol, carotenoid and chlorophyll, and the chlorophyll-to-carotenoid ratio in Se fertilized trees would appear to confirm the positive role of selenium in alleviating damage caused by drought stress conditions.