Postharvest quality losses of fruits and vegetables during storage are global horticultural problems. This study evaluates the effect of gamma irradiation doses (0, 300, 600 and 900 Gy) on quality parameters and phytochemical content of strawberry fruits during storage periods at 10 C. The data revealed the irradiation significantly reduced the fruits weight loss and decay rate at storage periods; in comparison with control (unirradiated sample) which gave the maximum value of these quality parameters. Neither radiation treatment nor storage period had significant effect on titratable acidity and pH of fruits. All treatments decreased vitamin C levels during storage but the anthocyanin contents increased gradually during the storage period and reached its highest values near the end of the storage period. Strawberry fruits treated with 600 Gy had the highest total phenolic content and antioxidant activity followed by 300 Gy. Irradiation stimulated the biosynthesis of some phenolic compounds such as, pyrogallol, gallic, catechol, chlorogenic and ellagic acid.
Moringa oleifera is grown all over the world as a crop for its nutritious pods, leaves and seeds. The purpose of the present study was to evaluate the oil percentage, density, iodine value, saponification value, acid value and fatty acid profile of Egyptian moringa Seed oils. Moringa seeds were irradiated using 60Co at dose levels of 0.0 (control), 5, 10 and 15 kGy and oil was extracted from unirradiated and irradiated samples. Results showed that the oil percentage and density were almost unaffected. Irradiation reduced the iodine value, whereas the acid and saponification values were increased in all irradiated samples. The oil was found to contain high levels of unsaturated fatty acids, especially an omega‐9‐fatty acid (oleic) (up to 76.29 %) at a dose level of 15 kGy. Also at the same dose level, the dominant saturated acids were palmitic, stearic acid and arachidic (the three up to 12.66 %). GC–MS revealed the presence of different compounds (more than 50) in the moringa oil extract, among them alkaloids, terpenoids steroids, saturated and unsaturated fatty acids, aromatic and aliphatic hydrocarbons and polyphenolic compounds. Phenolic and falvonoid were significantly increased by increasing irradiation dose levels. Also, the antioxidant activity of irradiated seed oil increased by increasing the phenolic and flavonoid contents. Moringa oleifera could be grown by wide scale production as a potentially valuable crop. However, isolation of individual compounds and their biological activities needs to be covered in future to enhance its pharmacological importance and to open new avenues of research.
Roasting is an important step in sesame (Sesamum indicum L.) processing. The current research was undertaken to evaluate the oil content, fatty acid (FA) profiles, andphysicochemical characteristics of oil recovered from sesame roasted by different methods (cooker oven, stovetop pan, microwave, and electric frying pan). Roasting sesame seeds changed their oil content according to the roasting method used, with content ranging from 49.83% in control to 59.85% in the roasting by microwave. In oils recovered from raw or roasted seeds, seven fatty acids were obtained through gas chromatography. Changes in the fatty acid profiles occurred in all the treatments, and the total unsaturated fatty acid content was higher than that of saturated fatty acids. The obtained peroxide number of sesame oils was inside the rate of 3.90 meq/kg oil for microwave treatment versus 1.59 meq/kg oil for unroasted. The highest acid value was with the stovetop pan treatment at 3.78 mg/g, followed by the microwave treatment at 3.24 mg/g; the oven treatment gave the lowest value at 1.66 mg/g. The lowest iodine value was observed with the electric frying pan treatment (102.30/100g oil), and phytosterols were most abundant with the microwave treatment. Moreover, the phenolic and flavonoid contents and antioxidant activity were the highest with the microwave roasting. The FTIR spectrum illustrated slight differences in peaks intensity (1738, 1454, 1151, 710 cm−1) between the roasting methods used. The finding of the current investigation of roasting methodswas that the fatty acid profiles wereacrossmethods. As is clear from the obtained results, the microwave roasting treatment is the favoured roasting methodfor the healthiest sesame seed oil contents. Sesame seeds are considered a significant and abundant resource with numerous beneficial nutrients that positively affect human health.
Metabolites, Nutritional Quality and Antioxidant Activity of Red Radish Roots Affected by Gamma Rays
Radish is a root vegetable of the Brassicaceae family that is grown and eaten all over the world. It is often consumed raw as a crisp salad vegetable with a strong flavor. Therefore, this study aimed to clarify the stimulating effect of different γ-rays dose levels (0.0, 10, 20, 40, and 80 Gy) on the quality properties of radish,in addition toits nutritional elements, as well as some of the metabolites found in the red radish roots. The results indicated that the irradiated seeds showed a high germination rate of ≥96% for dose levels of ≤20 Gray (Gy). In addition,the use of gamma rays had a stimulating effect on the vegetative growth, particularly at the doses of 10 and 40 Gy, which provided the largest values of plant height (32.65 cm) and leafnumber/plant (8.08), respectively,whereas all the irradiation treatments led to a rise in the length and width of leaves. However, the maximum root characteristics (length, diameter, size, and weight) were confirmed at the dose of 20 Gy (17.51 cm, 5.45 cm, 85.25 cm3 as well as 78.12 g, respectively). It was also noted that the content of plant pigments was significantly higher at a dose of 20 Gy. Additionally, there was an increase in the content of vitamin C using gamma rays, and the highest content (19.62 mg/100 g FW) was at the dose of 20 Gy. The use of γ-radiation caused an increase in some metabolite contents, such as anthocyanin, phenols, and flavonoids, which resulted in an enhancement in the antioxidant activity, achieving the greatest value at the dose of 40 Gy. Exposure of red radish seeds to gamma irradiation before cultivation improved the root contents of the elements N, K, S, P, Ca, and Mg. The results indicated an increase in the content of organic acids (oxalic, succinic, and glutaric acids) using the radiation dose of 20 Gy, except for malic acid, which had the highest value at a dose of 80 Gy. Similarly, the amino acid pool was significantly increased by irradiation, and the levels of amino acids, which act as originators of the glucosinolate (GLS) phenylalanine, tyrosine and methionine), increased after exposure to gamma radiation, especially at doses of 40 and 80 Gy. Therefore, the red radish roots produced from seeds exposed to gamma rays were of high quality and nutritional value compared to those obtained from un-irradiated seeds. For this reason, gamma-rays are one of the tools that are utilized to improvethe growth and quality of crops, especially in low doses.
The experiment was conducted during two successive seasons 2016 and 2017 on sweet pepper plants to study the effect of foliar application of some natural extracts (fulvic acid at 2, 4 and 6% or algae at 1, 2 and 4 g.L-1) were applied three times along each season (after 2, 4 and 6 weeks of planting). The influence was evaluated through the response of vegetative growth, and some physical and chemical characteristics of sweet pepper fruits. The results obtained showed that the algae extract at 1 g.L-1 in most cases was better than the other spray treatments investigated to improve most fruit characteristics (length, diameter and yield of fruits), vegetative growth, and chemical properties followed by 6% fulvic acid. With regard to organic acids, malic and citric acids are the main organic acids found in sweet pepper. Malic, succinic and glutaric acids were higher in 1 g.L-1 algae extract treatment, but the concentration of citric acid was higher in 6% fulvic acid treatment. Therefore, algae extract and fulvic acid could be safely recommended as a natural biostimulants application for improving most desirable characteristics of sweet pepper grown under the same experimental condition.
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