1. Treated Unconventional Waters Combined with Different Irrigation Strategies Affect 1 H NMR Metabolic Profile of a Monovarietal Extra Virgin Olive Oil
- Author
-
Federica Angilè, Gaetano Alessandro Vivaldi, Chiara Roberta Girelli, Laura Del Coco, Gabriele Caponio, Giuseppe Lopriore, Francesco Paolo Fanizzi, Salvatore Camposeo, Angile, F., Vivaldi, G. A., Girelli, C. R., Del Coco, L., Caponio, G., Lopriore, G., Fanizzi, F. P., and Camposeo, S.
- Subjects
Environmental effects of industries and plants ,Renewable Energy, Sustainability and the Environment ,DESERT technology ,Phenolic compound ,oxidation compounds ,Geography, Planning and Development ,TJ807-830 ,phenolic compounds ,Management, Monitoring, Policy and Law ,TD194-195 ,Fatty acid ,fatty acids ,extra virgin olive oil ,Renewable energy sources ,NMR ,Regulated deficit irrigation ,regulated deficit irrigation ,Environmental sciences ,Chemometrics approach ,Extra virgin olive oil ,Oxidation compound ,GE1-350 ,chemometrics approach - Abstract
The agricultural sector is facing a decrease in water supply and water quality at a global level and this is a problem that strictly affects all the Mediterranean olive growing areas. The aim of this work was to evaluate, for the first time, by NMR Spectroscopy and multivariate data analysis the metabolic profiling of the oils produced under different irrigation schemes. Arbosana olive oils were obtained from the use of saline reclaimed water (RW) and treated municipal wastewater (DW), combined with: full irrigation (FI) and regulated deficit irrigation (RDI). The results show a higher relative content of saturated fatty acids in EVOOs obtained from RDI strategy, regardless of the water source. Moreover, an increase in unsaturated fatty acids, a ω6/ω3 ratio content was observed in EVOOs obtained from RW when compared with DW water. Furthermore, the RW–RDI showed an increase in secoiridoid derivatives and hydroperoxides with respect to DW–RDI. A sustainable irrigation management, by combining a deficit irrigation strategy and saline reclaimed water source, could be crucial in order to overcome the problem of water scarcity and to guarantee the olive oil nutraceutical properties. The 1H NMR-based metabolomic approach proved a powerful and versatile tool for this specific investigation.
- Published
- 2022