---

The effect of different lipid extraction methods (including, Bligh & Dyer, Smeds, Bligh & Dyer using Dichloromethane, Folch, Roese Gottible, Soxhlet used petroleum ether – dry and wet-  and Soxhlet used N-hexane) on total fat and fatty acid composition in rainbow trout (Oncorhynchus mykiss) was investigated. According to the results, the Bligh & Dyer method showed a higher fat extraction efficiency than Soxhlet (wet), Smeds and Roese Gottible, while no significant difference was observed with the other methods. No significant differences were found in total SFA, total MUFA, and total PUFA of different extraction methods. The omega-3/omega-6 ratio ranged between 0.20-0.29. The highest amount of polyene index (PI) was 0.34, but no significant differences were found between different extraction methods. Taking fat quality and quantity, finance, toxicity, and theease of operation, the most efficient method for rainbow trout lipid extraction was the “optimized Bligh & Dyer using Dichloromethane”.  

---

  In order to investigate the Fatty Acids Composition and some chemical Characteristics in four sunflower hybrids, under three irrigation regimes (irrigation after 50, 100 and 150 mm cumulative evaporation from class A evaporation pan, respectively) an experiment design As a split plot design based on a randomized complete block was conducted at the research field of university of Tehran, college of Abouraihan in Pakdasht, Iran. The results showed that increasing of water deficit stress causes considerable reduced in the amount of oil seed and increased in seed protein, so the highest seed oil and seed protein content obtain in optimum and mild stress conditions respectively. Also the most of seed oil and seed protein contain was obtained by Azargol and Hayes 25 respectively. Investigation on fatty acids compositions in sunflower hybrids seeds indicated that highest fatty acid, palmitic (6.16%) and stearic (4.16%) were obtained in intense water deficit stress and oleic (40.25%) and linoleic (51%) were obtained in mild water deficit stress, respectively. Comparison between sunflower hybrids showed that maximum palmitik, stearic, oleic and linoleic were obtained by Allstar (7%), Hysun 33 (4.20%), Hayes 33 (42.77%) and Allstar (52.66%) respectively. Also in terms of optimum irrigation, mild water deficit stress and intense water deficit stress conditions Hysun 33 was successful to produced maximum Oleic acid. Generally based on the results of this study in optimum and mild water deficit stress conditions Allstar hybrids and in intense water deficit condition Hayes 25 hybrids had met the highest linoleic acid.

---

This study was done to evaluate quality properties of Amygdalus scoparia kernel (ASK) oil under different storage conditions and packagings. At the zero time USFA/SFA, total tocopherols (TT) and total phenolic (TP) contents of ASK oil were 7.22 and 827.21 and 38.94 mg  per kg oil, respectively. Furthermore Some quality properties (Peroxide value (PV), Conjugated diene value (CDV) and Carbonyle value (CV)) showed that a limit oxidation was done in the kernel of almond. The PV and CV values of oils in different conditions of packaging (PA/PE/PA/PE (80 micron) and PET/AL/LLDPE (90 micron) multilayer plastic bags) have significant differences (p< 0.05) in the 20, 30 and 50°^C during 12 weeks storage. TT and TP contents decrease (p< 0.05) under such circumstance too. The most amount of degradation of TT and TP compound were 46.5 and 68.3% respectively. The anti-oxidative effect of these components resulted in variation in the PV and CV values at the end of storage time in above mentioned temperatures. The best conditions of packaging in ASK was PET/AL/LLDPE (90 micron) multilayer plastic bag in vacuum condition because it had lowest degree of permeatability to oxygen under vacuum conditions and low temperature.    

---

Chemical composition and physicochemical properties of pumpkin seeds and fatty acids of their oil were determined. It was found that the seeds contained 41.59% oil and 25.4% protein. Moisture, crude fiber, total ash, and carbohydrate contents were 5.2%, 5.34%, 2.49%, and 25.19%, respectively. The specific gravity, dynamic viscosity, and refractive index of the extracted pumpkin seed oil were 0.915, 93.659 cP, and 1.4662, respectively. Acid value (mg KOH/g oil), peroxide value (meq O2/kg oil), iodine value (g I2/100 g oil), saponification number (mg KOH/ g oil), and unsaponifiable matter content (%) of the extracted oil from pumpkin seeds were 0.78, 0.39, 10.85, 104.36, 190.69, and 5.73, respectively. Total phenolics compounds (mg gallic acid/kg oil), total tocopherols (mg α-tocopherol/kg oil), total sterols (%), and waxes (%) were 66.27, 882.65, 1.86, and 1.58, respectively. Specific extinctions at two wavelengths of 232 nm (K232) and 270 nm (K270) and R-value (K232/K270) were 3.80, 3.52 and 0.74, respectively. Gas chromatographic analysis of the pumpkin seed oil showed that the linoleic (39.84%), oleic (38.42%), palmitic (10.68%) and stearic (8.67%) acids were the major fatty acids. Compared with other vegetable oils, the present study revealed that pumpkin seed oil can be a valuable source of edible oil.

---

The oil extracted from three major canola cultivars (Hyolla401, Hyolla420 and RGS003) grown in Golestan Province was analyzed for physico-chemical properties, fatty acid composition, minerals content, and stability during 16 weeks of storage. According to the results, the highest iodine value and refractive index belonged to Hyolla401. The highest saponification value was observed in Hyolla420. There was no significant difference (P< 0.05) between the relative densities of the three cultivars. Study on the mineral content showed the highest level of iron and phosphorus in Hyolla420 and the maximum sulfur content in RGS003 cultivar. Oleic acid (ω-9) was the major fatty acid in all cultivars and the highest level was found in RGS003 (include % of oleic acid here). The highest level of essential fatty acids, linoleic acid (ω-6) was found in Hyolla420 and linolenic acid (ω-3) in Hyolla401. In all three cultivars, erucic acid content was low and within the permitted level (include % of oleic acid here). The Hyolla420 had the highest content of free fatty acid, acid value, peroxide value, anisidine value and Totox value compared to the other cultivars, during storage. However, result of oil stability based on Rancimat test showed that the Hyolla420 cultivar had the highest induction time during storage, which was in agreement with its low polyene index (PI).

---

Gundelia tournefortii L. is a well known plant in mountains of Iran and is found all over the country. It traditionally has some medicinal applications. In this research, Gundelia tournefortii L. seed was studied as a source of edible oil. Oil was extracted with immersion method using diethyl ether as a solvent. Acidity, saponification, ester, iodine, peroxide and refractive indices, average molecular weight of fatty acids, unsaponifiable matter, viscosity, color and density of extracted oil were evaluated. In addition, fatty acid composition of oil was determined using gas chromatography analysis. The results showed that seed oil content and saponification value of its oil were 22.8% and 166.05, respectively. Oleic and linoleic acid contents of oil were 27.99% and 54.59%, respectively. It was indicated that the extracted oil is an unsaturated oil and melts at ambient temperature. Beta-sitosterol and stigmasterol were the main unsaponifiable matters of the oil. Color analysis revealed that the predominant color was yellow (0.8 red, 14 yellow). The results indicated that Gundelia tournefortii L. seed can be potentially applied as an excellent oil for human consumption.

---

---

In recent years, Camelina (Camelina Sativa) has gained an extensive attention due to its properties as a new source of edible oil. Camelina seeds contain significant amounts of oil and essential fatty acids with nutritional and industrial importance. In this study, fatty acid composition, physicochemical properties, oxidative stability index, as well as atherogenicity and thrombogenicity of oil from camelina seed grown in Iran were investigated and compared with those of canola and sunflower seed oils extracted by cold pressing method. The dominant fatty acids of camelina, canola and sunflower oils were linolenic (30.429 ± 0.443), oleic (62.494 ± 0.187%) and linoleic (62.062 ± 0.252%) acids, respectively. Camelina oil w:as char:acterized by low values of atherogenicity (0.061 ± 0.001) and thrombogenicity (0.061 ± 0.001) and relatively high hypocholesterolemic to hypercholesterolemic ratio (12.314 ± 0.170). In addition, camelina oil had the lowest ratio of omega-6 to omega-3 (0.729 ±0.028), and the highest calculated oxidizability value (8.47 ±0.079) and monounsaturated to polyunsaturated fatty acids ratio (0.628 ±0.003). These results indicate the appropriate nutritional properties but high oxidative susceptibility of camelina oil compared to sunflower and canola oils. The peroxide and anisidine values of camelina, canola and sunflower oils were found to be 0.8 ±0.028, 0.77 ±0.042, 1.12 ± 0.057, and 0.21 ±0.014, 0.18 ±0.028, 0.28 ±0.000, respectively. Therefore, the stability of camelina oil was higher than expected despite the high level of omega-3 fatty acids, which might be justified by its high levels of tocopherols and other antioxidant compounds.

---

In Iran, there is a large capacity for animal fat production, which is less used in food products. In this study, the fat obtained from sheep tail and ostrich abdominal tissue were investigated as waste from the slaughterhouse. For this purpose, in the first step, fats were extracted by wet rendering method and their chemical compositions were analyzed. In the second step, the fat was separated into two parts, stearin and olein, by dry fractionation. Then, the olein fraction was divided into two parts, soft stearin and superolein, and their fatty acid composition and physicochemical properties were measured. The sheep tail and ostrich tissues contained 10.66% and 5.18% moisture, 4.10% and 4.29% protein, 0.26% and 0.62% ash, and 84.93% and 88.35% fat, respectively, and the extraction yield were obtained 37.42% and 62.56%, respectively. The gas chromatography results showed that oleic acid, palmitic acid and stearic acid were the main fatty acids in sheep tail fat and oleic acid, palmitic acid, palmitoleic acid and linoleic acid were dominant in the fatty acid profile of ostrich fat. After fractionation, an increase in oleic content of olein and superolein in both fats increased iodine value and refractive index followed by decreasing melting point and L*. Peroxide value of sheep tail fat was 1.54 meqO2/ kg and the fractionation process had no significant effect on it, however, the peroxide value of ostrich fat increased significantly after the separation (p<0.05), which could be due to the presence of a considerable portion of linoleic in this fat. Therefore, it can be concluded that the fat extracted by wet rendering from sheep tail and ostrich tissues has an acceptable quality for edible use, and their stearin and soft stearin fractions can be used as an alternative to the hydrogenation process to produce semi-solid fat in food products.
 

---