ABSTRACT
In order to searching a potential novel approach to pistachio utilization, the chemical and nutritional quality of oil and flour from natural, roasted, and salted roasted pistachios from Argentinian cultivars were evaluated. The pistachio oil has high contents of oleic and linoleic acid (53.5 - 55.3, 29 - 31.4 relative abundance, respectively), tocopherols (896 - 916 µg/g oil), carotenoids (48 - 56 µg/g oil) and chlorophylls (41 - 70 µg/g oil), being a good source for commercial edible oil production. The processing conditions did not affect significantly the fatty acid and minor composition of pistachio oil samples. The content of total phenolic (TP) and flavonoids (FL) was not significantly modified by the roasting process, whereas free radical scavenging (DPPH radical) and antioxidant power decreased in a 20% approximately. Furthermore, salted roasted pistachio flour (SRPF) showed a significant decrease in TP and FL content in comparison to others samples. The phenolic profile of pistachio flours evaluated by LC-ESI-QTOF-MS. The major compounds identified were (+)-catechin (38 - 65.6 µg/g PF d.w.), gallic acid (23 - 36 µg/g PF d.w.) and cyanidin-3-O-galactoside (21 - 23 µg/g PF d.w.). The treatments effects on the phenolics constituents of pistachio flour. Roasting caused a significant reduction of some phenolics, gallic acid and (+)- catechin, and increased others, naringenin and luteolin. Salting and roasting of pistachio increased garlic acid and naringenin content.
In order to searching a potential novel approach to pistachio utilization, the chemical and nutritional quality of oil and flour from natural, roasted, and salted roasted pistachios from Argentinian cultivars were evaluated. The pistachio oil has high contents of oleic and linoleic acid (53.555.3, 2931.4 relative abundance, respectively), tocopherols (896916 µg/g oil), carotenoids (4856 µg/g oil) and chlorophylls (4170 µg/g oil), being a good source for commercial edible oil production. The processing conditions did not affect significantly the fatty acid distribution and minor components of pistachio oil samples. The roasting process not diminish total phenolic (TP) and flavonoids (FL) content significantly compared to natural pistachio flour (NPF), even so reduced the DPPH antioxidant capacity (approximately 20 %) in the roasted pistachio flour (RPF). Furthermore, salted roasted pistachio flour (SRPF) showed a slight and significant decrease on TP and FL content in relation to the others samples. The phenolic profile of pistachio flours were evaluated by LC-ESI-QTOF-MS. The major compounds were (+)-catechin (3865.6 µg/g PF d.w.), gallic acid (2336 µg/g PF d.w.) and cyanidin-3-O-galactoside (2123 µg/g PF d.w.). The treatments have different effects on the phenolics constituents of pistachio flour. Roasting caused a significant reduction of some phenolics, gallic acid and (+)-catechin, and increased others, naringenin and luteolin. Otherwise, salting and roasting of pistachio increased levels of gallic acid and naringenin. These results suggest that Argentinian pistachio oil and flour could be considered as ingredients into applications that enhance human health.
ABSTRACT
The purpose of this work was to investigate the effects of spreading olive oil mill wastewater (OMWW) on soil biochemical parameters and olive production in an organically managed olive orchard. The experiment was carried out with three different doses of OMWW (80, 160 and 500 m(3) ha(-1)) and a control (untreated soil). Three samplings were done at 10, 30 and 90 days after the administration of the byproduct. OMWW application differentially modified the biochemical properties of the soil analyzed. Organic matter, organic carbon, total nitrogen and extractable phosphorus soil contents increased proportionally with each increasing dose. The values of these parameters decreased gradually with time. Total microbial activity was altered and the OMWW 500 m(3) ha(-1) treatment proved to be the most active when compared with the other applied doses. OMWW agricultural application also modified the structure of soil microbial communities, particularly affecting Gram positive and negative bacteria, while fungal biomass did not show consistent changes. Although there was a salinity increase in the treated soil, especially at the highest dose, the productive parameters analyzed (fruit and oil tree(-1)) were not affected. In light of the obtained results, we consider that low dose of OMWW could be considered an alternative farming practice for semiarid regions.
Subject(s)
Bacteria/isolation & purification , Fungi/isolation & purification , Olea/growth & development , Soil Microbiology , Soil/chemistry , Wastewater/chemistry , Agricultural Irrigation , Argentina , Bacteria/classification , Bacteria/genetics , Bacteria/growth & development , Fungi/classification , Fungi/genetics , Fungi/growth & development , Industrial Waste/analysisABSTRACT
BACKGROUND: Nutritional factors play a major role in cancer initiation and development. Dietary polyunsaturated fatty acids (PUFAs) have the ability to induce modifications in the activity of lipoxygenase (LOX) and cyclooxygenase (COX) enzymes that affect tumour growth. We studied the effect of two diets enriched in 6% Walnut and Peanut oils that are rich in ω-3 and ω9 PUFAs respectively on a murine mammary gland adenocarcinoma as compared with the control (C) that received commercial diet. RESULTS: Peanut oil enriched diet induced an increase in membrane arachidonic acid (AA) content and the cyclooxygenase enzyme derived 12-HHT (p < 0.05) and simultaneously showed decrease in 12-LOX, 15-LOX-2, 15-LOX-1 and PGE activities (p < 0.05) that corresponded to higher apoptosis and lower mitosis seen in this group (p < 0.05). Furthermore, Peanut oil group showed lower T-cell infiltration (p < 0.05), number of metastasis (p < 0.05) and tumour volume (p < 0.05) and longer survival rate compared to other groups. CONCLUSIONS: The results of the present study showed that Peanut oil-enriched diet protects against mammary cancer development by modulating tumour membrane fatty acids composition and LOX and COX enzyme activities.
Subject(s)
Adenocarcinoma/diet therapy , Arachidonate Lipoxygenases/metabolism , Fatty Acids, Omega-3/administration & dosage , Fatty Acids, Unsaturated/administration & dosage , Mammary Neoplasms, Experimental/diet therapy , Prostaglandin-Endoperoxide Synthases/metabolism , Adenocarcinoma/metabolism , Adenocarcinoma/pathology , Adenocarcinoma/secondary , Animals , Apoptosis , Arachis/chemistry , Fatty Acids, Omega-3/metabolism , Fatty Acids, Unsaturated/metabolism , Female , Juglans/chemistry , Male , Mammary Neoplasms, Experimental/metabolism , Mammary Neoplasms, Experimental/mortality , Mammary Neoplasms, Experimental/pathology , Mice , Mice, Inbred BALB C , Mitosis , Neoplasm Transplantation , Nuts/chemistry , Peanut Oil , Plant Oils/administration & dosage , Plant Oils/chemistry , Random Allocation , Tumor BurdenABSTRACT
Walnut (Juglans regia L.) is the most widespread tree nut in the world. There is a great diversity of genotypes differing in forestry, productivity, physical and chemical nut traits. Some of them have been evaluated as promising and may serve as germplasm sources for breeding. The nutritional importance of the nut is related to the seed (kernel). It is a nutrient-dense food mainly owing to its oil content (up to 740 g kg(-1) in some commercial varieties), which can be extracted easily by screw pressing and consumed without refining. Walnut oil composition is dominated largely by unsaturated fatty acids (mainly linoleic together with lesser amounts of oleic and linolenic acids). Minor components of walnut oil include tocopherols, phospholipids, sphingolipids, sterols, hydrocarbons and volatile compounds. Phenolic compounds, present at high levels in the seed coat but poorly extracted with the oil, have been extensively characterised and found to possess strong antioxidant properties. The oil extraction residue is rich in proteins (unusually high in arginine, glutamic and aspartic acids) and has been employed in the formulation of various functional food products. This review describes current scientific knowledge concerning walnut genetic resources and composition as well as by-product obtainment and characteristics.
Subject(s)
Functional Food , Juglans/chemistry , Nuts/chemistry , Plant Oils/chemistry , Antioxidants/isolation & purification , Food Industry/methods , Genetic Variation , Juglans/genetics , Nutritive Value , Phenols/isolation & purification , Plant ProteinsABSTRACT
The present work is an attempt to define how to formulate oil blends with an expected surface behavior using easily accessible data such as chemical compositions. Hence, we determined average surface properties of triglycerides (TG) from olive (O), soybean (S), and walnut (W) oils self-organized in Langmuir films alone or in pseudo-binary mixtures with phosphatidylcholines (PC). Collapse pressure (pi(c)), compressibility modulus (K) and molecular area at the closest packing (A(min)) were determined from pi-mean molecular area (Mma) isotherms. The pi(c)-composition phase diagrams of TG-PC mixtures provided information about oils solubility limit with PCs in the monolayer phase. A thermodynamic equilibrium model was fitted to the line joining points of monolayer-TG(liquid phase) coexistence and allowed to obtain interaction parameters, omega, which consistently with those of excess surface energy (Delta G(ex)) and Mma deviations from ideality, contributed to describe interfacial intermolecular interactions. Oil molar fractions (x(TG)) for TGs-PCs self-assembling into vesicles were estimated from x(TG) values at pi(c) congruent with 30 mN/m (equilibrium pi of bilayers), which resulted higher in egg PC (0.15, 0.2, 0.15 for O, S and W, respectively) than in dipalmitoyl-PC (0.125, 0.075, 0.1). Principal component analysis performed on surface parameters, grouped S and W separated from O. This result was mainly influenced by variables estimating the effect of unsaturation degrees of fatty acids sterified at TGs, A(min) and pi(c). Peanut oils surface data interpolated in pi(c)-C16/C18 and A(min)-DBI correlation lines obtained with O-S mixtures (TG(mix)) and with TG(mix)-PC supported C16/C18 ratio and DBI as predictors to formulate oil blends with selected surface behavior.