不同牧场及饲养方式下阿拉善双峰驼乳脂肪酸特征及产地溯源研究

为研究距离较近的不同牧场及不同饲养方式下双峰驼乳脂肪酸特征,并建立产地溯源模型,本试验从内蒙古自治区阿拉善左旗采集5个牧场共139份双峰驼乳样品,用气相色谱法测定驼乳中脂肪酸含量,并利用脂肪酸指纹特征建立不同牧场及不同饲养方式下驼乳的溯源模型。结果表明,不同牧场及不同饲养方式下的驼乳中含量较高的脂肪酸为棕榈酸、油酸、硬脂酸及肉豆蔻酸。相比谷饲,草饲方式下驼乳的饱和脂肪酸(SFA):单不饱和脂肪酸(MUFA):多不饱和脂肪酸(PUFA)比例(S:M:P为12:6:1)更接近联合国粮农组织(FAO)和世界卫生组织(WHO)建议的居民膳食S:M:P比例(1:1:1),更符合居民营养需求。建立的不同牧场及饲养方式下驼乳的溯源模型交叉验证准确率分别为82.7%及95.0%。此外,硬脂酸、棕榈油酸、木焦油酸、豆蔻油酸、二十碳五烯酸、二十二碳二烯酸、十七烷酸、亚油酸、花生酸、γ-亚麻酸、花生二烯酸、十五烷酸、反亚油酸、二十碳烯酸及二十一烷酸是鉴别牧场来源的关键重要性因子,二十碳五烯酸、二十碳烯酸、十五烷酸、木焦油酸、硬脂酸、棕榈油酸、十三烷酸、十五碳烯酸、十七碳烯酸、花生酸、二十一烷酸、豆蔻油酸及肉豆蔻酸是鉴别不同饲养方式的关键重要性因子。综上,脂肪酸指纹分析法可有效鉴别短距离的双峰驼乳来源,为双峰驼乳近距离的产地溯源及真实性鉴别提供了技术支持。     

红枣挥发性物质在烘干过程中的变化研究

新鲜成熟的团枣在25～75℃逐渐烘干，当温度在4 h升高到50℃后，控制升温速率为每4 h升高5℃，直到75℃。取鲜枣100 g及从50℃开始每隔5℃取样100 g，去核、切碎，分别用95%乙醇浸泡，蒸去乙醇得膏，然后用除去过氧化物的乙醚萃取，醚液用无水硫酸钠干燥，低温下蒸发除去乙醚后得到挥发性物质，再用气相色谱—质谱联用仪测定了上述样品的挥发性化学成分。结果表明，新鲜成熟的团枣的挥发性成分主要为13种酯类，以棕榈烯酸乙酯、肉豆蔻烯酸乙酯、亚油酸乙酯、棕榈酸乙酯、油酸乙酯、月桂酸乙酯、肉豆蔻酸乙酯等的含量较高,且其含量随着温度的升高和时间的延长而逐渐略有减少；5-羟甲基-2-呋喃甲醛和5-羟基-5，6-二氢-麦芽酚在55℃以上检出，2-呋喃甲醛在65℃以上检出，随着烘干温度逐步升高和时间增长其残留含量逐渐增高；65℃时干枣的品质最好，烘干红枣的最高温度不宜超过70℃。     

种植密度和施肥水平对高油大豆品质性状的影响

采用二因素裂区试验,研究了不同种植密度和施肥水平对高油大豆品质性状的影响。结果表明,高油大豆的油脂含量随着种植密度的降低和施肥水平的升高而升高,蛋白质含量则相反; 不同品种间以农大15751油脂含量最高。中等种植密度处理硬脂酸和油酸含量较高,而高密度处理下亚油酸和亚麻酸含量较高,棕榈酸含量差异不显著。不同施肥水平对高油大豆脂肪酸含量影响较大,棕榈酸、硬脂酸和油酸含量在高肥处理下较高,亚油酸和亚麻酸在低肥处理下含量较高。     

气调包装与1-MCP结合抑制苹果蜡质成分降低

为了探讨红富士苹果在贮藏过程中主要蜡质成分特别是与油腻相关的蜡质成分变化,以及贮藏过程中果实主要品质指标的变化规律,研究了聚氯乙烯袋（PVC）自发气调包装（MAP）与1-甲基环丙烯（1-MCP）结合处理（MAP+1-MCP）对(0±1)℃冷藏过程中红富士苹果蜡质成分和果实贮藏品质的影响。结果表明：在贮藏过程中,对照（不做任何处理）的蜡质总量一直降低,MAP和MAP+1-MCP处理的在贮藏一个月后升高,随后贮藏的过程中降低。所有处理和对照中,二十九烷和二十七烷含量降低,十六烷酸和9,12-十八碳二烯酸含量升高,二十九-10-醇和二十九-10-酮含量先降低再升高。MAP和MAP+1-MCP能够抑制蜡质总量和其他成分相应的变化。MAP和MAP+1-MCP均能延缓果实硬度的下降、可溶性固形物和可滴定酸的降解速度,降低固酸比率和失重率,抑制呼吸速率和乙烯释放速率,且可以抑制苹果贮藏后期油腻的发生。无论从对蜡质成分的影响,还是对果实贮藏品质的影响来看,MAP+1-MCP的效果优于MAP。PVC气调包装结合1 μL/L1-MCP是较为理想的长时间保鲜红富士苹果的处理方式。研究结果可为生产上科学有效的长期贮藏红富士苹果、解决贮藏后期果实油腻问题提供参考。     

菜籽油碱催化法制备生物柴油的工艺参数

以碱催化剂为媒介的转酯化反应制备生物柴油方法因其转化率高而倍受重视。该文以菜籽油为原料,在小型试验装置上,采用均相碱催化法,研究了菜籽油在碱性催化剂NaOH的作用下与甲醇经酯交换反应制备生物柴油的工艺条件。考察了醇油摩尔比（4︰1～8︰1）、催化剂用量（0.5%～2%）、反应温度（30～60℃）和反应时间（30～150 min）等工艺参数对酯交换反应的影响,对生物柴油的组成成分进行了气相色谱/质谱联用(GC-MS)分析。结果表明,在醇油摩尔比6︰1,催化剂用量为油质量的1%,反应温度为50～60℃,反应时间为60 min时,酯交换反应转化率最高可达到96.7%。该生物柴油主要由油酸甲酯、芥子酸甲酯、9,12-十八碳二烯酸甲酯、11-二十碳烯酸甲酯、亚麻酸甲酯等脂肪酸甲酯组成,其中油酸甲酯含量最高,相对质量分数高达50.30%。     

不同生长阶段墨瑞鳕脂肪酸组成及主成分分析

为比较不同生长阶段墨瑞鳕肌肉中脂肪酸组成的变化,本研究通过气相色谱技术测定墨瑞鳕幼鱼、成鱼、亲鱼肌肉中脂肪酸含量,并对脂肪酸组成进行主成分分析。结果表明,3个不同生长阶段墨瑞鳕的不饱和脂肪酸(UFA)总量分别为52.2%、58.2%、60.1%;在高度不饱和脂肪酸(HUFA)中DHA含量均最高。随着鱼体生长,墨瑞鳕棕榈油酸、油酸、亚油酸、亚麻酸含量均呈上升趋势,从高到低依次为亲鱼>成鱼>幼鱼;肉豆蔻酸、花生一烯酸、花生四烯酸、EPA、DHA 含量呈下降趋势,从高到低依次为幼鱼>成鱼>亲鱼;UFA总量和单不饱和脂肪酸(MUFA)含量呈上升趋势,从高到低依次为亲鱼>成鱼>幼鱼;多不饱和脂肪酸(PUFA)总量和必需脂肪酸(EFA)总量含量呈先升后降趋势,从高到低依次为成鱼>亲鱼>幼鱼。墨瑞鳕不同生长阶段脂肪酸含量大部分存在显著差异,特别是幼鱼与成鱼的脂肪酸含量(除二十碳三烯酸外)均存在显著差异;肉豆蔻酸、花生一烯酸、花生四烯酸、EPA和DHA等5种脂肪酸是墨瑞鳕的主要特征脂肪酸,这5种主要特征脂肪酸之间均互呈强正相关。随着墨瑞鳕的生长发育应及时提高相应阶段功能性脂肪酸的比例,降低相应阶段呈强负相关的主要特征脂肪酸的比例。本研究结果为墨瑞鳕的开发利用以及饲料营养需求等提供了理论参考。     

辐照杀菌对核桃粉品质的影响

研究了60Co γ辐照杀菌对核桃粉主要营养成分变化及感官品质的影响。结果表明：剂量为2.0～8.0kGy时,辐照对核桃粉中的总糖、粗蛋白和粗脂肪含量无显著影响;辐照后的粗纤维含量有一定的增加,但不显著;辐照对核桃粉中的月桂酸和肉豆蔻酸含量基本没有影响,对棕榈酸、棕榈油酸、硬脂酸、亚油酸、花生酸和亚麻酸含量有一定的影响,但不显著;辐照后核桃粉中的油酸含量随辐照剂量的上升而显著增加,剂量达到8.0kGy时,油酸含量增加了4.3%。8.0kGy以下辐照对核桃粉色泽、气味、口感无明显改变。可以得出结论低于8.0kGy的辐照不会对核桃粉的营养品质和感官品质有不良影响。     

不同氮效率油菜品种产量和品质对供氮水平的反应

为探明不同氮效率油菜产量和品质对供氮水平的反应动态,揭示油菜氮效率与品质的关系,本文采用砂培试验,研究了两种氮效率油菜品种在06、3、6、12、15 mmol/L 5种不同氮水平下（用N1N5表示）的氮效率、子粒产量和品质的变化。结果表明, 随着供氮水平的提高,油菜子粒产量、油分产量和蛋白质含量增加,氮效率和油分含量下降; 而子粒脂肪酸组成变化较小,所测定的7种脂肪酸中,芥酸和花生烯酸含量随着氮水平的增加略有下降,棕榈酸、硬脂酸、油酸、亚油酸和亚麻酸含量则没有明显的变化; 与氮低效品种相比,氮高效品种的子粒产量、芥酸和花生烯酸含量随供氮水平的变化幅度更大,油分含量下降幅度更小。所有氮水平下,氮高效品种的子粒产量、油分含量和油分产量均高于氮低效品种,亚油酸含量略高于而亚麻酸含量略低于氮低效品种,子粒蛋白质、棕榈酸、硬脂酸、油酸含量两品种没有差异。总之,提高氮水平有利于增加油分产量,氮高效品种的增加幅度大于氮低效品种,但对脂肪酸组成的影响较小。因此,氮高效品种不会因高效吸收利用氮素而降低油分含量或使油菜品质变劣。     

降温方法对不同采收期鸭梨采后果心褐变和膜脂组分的影响

为了探讨缓慢降温抑制采后鸭梨果实褐变的机理,研究了不同降温方法对不同采收期鸭梨果心膜脂脂肪酸组分、含量、膜相变温度、脂氧合酶（LOX）活性以及果心褐变的影响。结果表明：鸭梨果心含有月桂酸、豆蔻酸、棕榈酸、棕榈油酸、珠光酸、硬脂酸、油酸、亚油酸、亚麻酸,其中含量较多的是亚油酸、棕榈酸和油酸。缓慢降温提高了早采鸭梨果心的亚麻酸和亚油酸相对含量及不饱和脂肪酸与饱和脂肪酸比值（U/S）,降低了果心的膜相变温度,明显抑制了果心LOX活性和褐变。推迟采收提高了鸭梨果心的U/S值,降低了膜相变温度,但由于采收期晚,果实衰老较快,后期果心LOX活性快速升高,膜脂过氧化严重,导致晚采果更容易褐变。总之,适当早采结合缓慢降温可以提高鸭梨果心膜脂不饱和脂肪酸含量和U/S值,抑制果心褐变。     

适宜热烫条件保持双孢蘑菇片品质和颜色

为保持双孢蘑菇片的品质和颜色,采用85、90、95和100℃的热水分别对双孢蘑菇片进行不同时间的热烫处理,以未经热烫的双孢蘑菇片为对照,测定其干片抗坏血酸和总酚含量、抗氧化活性及其颜色的变化。结果表明:热烫后双孢蘑菇片的抗坏血酸和总酚含量分别损失66.67%~93.33%和12.33%~59.49%,抗氧化活性减弱16.86%~42.75%;与未热烫样品相比,热烫可使双孢蘑菇片亮度L值下降11.23%~30.63%,而色度变化不大,但总色差从10.12±0.55增到22.86±0.21。综合考虑热烫温度和时间对双孢蘑菇片抗坏血酸、总酚、抗氧化活性和颜色的影响,确定双孢蘑菇片的较佳热烫条件为85~95℃温度下处理1~2 min,在此条件下能较好的保持双孢蘑菇片的营养品质和颜色。     

Turkish Tombul hazelnut (Corylus avellana L.). 2. Lipid characteristics and oxidative stability

The quality of crude hazelnut oil extracted from Tombul (Round) hazelnut, grown in the Giresun province of Turkey, was determined by measuring lipid classes, fatty acids, and fat soluble bioactives (tocopherols and phytosterols). Oxygen uptake, peroxide value, thiobarbituric acid reactive substances, and alpha-tocopherol levels of stripped and crude hazelnut oils in bulk and oil-in-water (o/w) emulsion systems were also evaluated as indices of lipid oxidation over a 21 day storage period at 60 degrees C in the dark. The total lipid content of Tombul hazelnut was 61.2%, of which 98.8% were nonpolar and 1.2% polar constituents. Triacylglycerols were the major nonpolar lipid class and contributed nearly 100% to the total amount. Phosphatidylcholine, phosphatidylethanolamine, and phosphatidylinositol were the most abundant polar lipids, respectively. Sixteen fatty acids were identified, among which oleic acid contributed 82.7% to the total, followed by linoleic, palmitic, and stearic acids. Unsaturated fatty acids accounted for 92.2% of the total fatty acids present. Among oil soluble bioactives, alpha-tocopherol (38.2 mg/100 g) and beta-sitosterol (105.5 mg/100 g) were predominant in hazelnut oil and comprised 88 and 93% of the total tocopherols and phytosterols present, respectively. The results also showed that both stripped and crude hazelnut oils were more stable in terms of lipid oxidation in the bulk oil as compared to those in an o/w emulsion.     

Fatty acid, triacylglycerol, phytosterol, and tocopherol variations in kernel oil of Malatya apricots from Turkey

The fatty acid, sn-2 fatty acid, triacyglycerol (TAG), tocopherol, and phytosterol compositions of kernel oils obtained from nine apricot varieties grown in the Malatya region of Turkey were determined ( P<0.05). The names of the apricot varieties were Alyanak (ALY), Cataloglu (CAT), C?loglu (COL), Hacihaliloglu (HAC), Hacikiz (HKI), Hasanbey (HSB), Kabaasi (KAB), Soganci (SOG), and Tokaloglu (TOK). The total oil contents of apricot kernels ranged from 40.23 to 53.19%. Oleic acid contributed 70.83% to the total fatty acids, followed by linoleic (21.96%), palmitic (4.92%), and stearic (1.21%) acids. The s n-2 position is mainly occupied with oleic acid (63.54%), linoleic acid (35.0%), and palmitic acid (0.96%). Eight TAG species were identified: LLL, OLL, PLL, OOL+POL, OOO+POO, and SOO (where P, palmitoyl; S, stearoyl; O, oleoyl; and L, linoleoyl), among which mainly OOO+POO contributed to 48.64% of the total, followed by OOL+POL at 32.63% and OLL at 14.33%. Four tocopherol and six phytosterol isomers were identified and quantified; among these, gamma-tocopherol (475.11 mg/kg of oil) and beta-sitosterol (273.67 mg/100 g of oil) were predominant. Principal component analysis (PCA) was applied to the data from lipid components of apricot kernel oil in order to explore the distribution of the apricot variety according to their kernel's lipid components. PCA separated some varieties including ALY, COL, KAB, CAT, SOG, and HSB in one group and varieties TOK, HAC, and HKI in another group based on their lipid components of apricot kernel oil. So, in the present study, PCA was found to be a powerful tool for classification of the samples.     

Chemical composition of Greek avgotaracho prepared from mullet (Mugil cephalus): nutritional and health benefits

Crude composition, lipid composition, and tocopherols, ascorbic acid, cholesterol, phytosterols, and squalene content together with fatty acids and antiplatelet activities of total, neutral, and polar lipids of avgotaracho (wax-covered, dried, and salted Mugil cephalus roe) were studied and compared with those of similar products. Wax and steryl esters accounted for 63.7% of roe lipids followed by phosphatidylcholine (PC), which comprised 20.3%. Wax esters were rich in saturated fatty alcohols, monounsaturated fatty acids, and long chain omega3 highly unsaturated fatty acids (HUFA). The fatty acid distribution in roe total and neutral lipids was similar to that of wax esters, while in polar lipids, the omega3 HUFA predominated. Avgotaracho provides significant amounts of protein, fat, alpha-tocopherol, ascorbic acid, and PC, certain amounts of squalene and phytosterols, and cholesterol at levels comparable to hens' eggs. Total, polar, and neutral lipids of avgotaracho exhibited a strong inhibition of platelet activating factors and thrombin, with polar lipids being more active. The results obtained indicate that avgotaracho is a food of high nutritive value, rich in protein and lipids with a healthy lipid profile in terms of omega3/omega6 ratio and major fatty acid classes, while the antiplatelet activity of its oil indicates a putative antithrombotic potential.     

Characterization of medium-chain triacylglycerol (MCT)-enriched seed oil from Cinnamomum camphora (Lauraceae) and its oxidative stability

Medium-chain triacylglycerol (MCT)-enriched oil was extracted by supercritical fluid extraction of carbon dioxide (SFE-CO(2)) from Cinnamomum camphora seeds. The SFE-CO(2) process was optimized using the Box-Behnken design (BBD). The maximum oil yield (42.82%) was obtained under the optimal SFE-CO(2) conditions: extraction pressure, 21.16 MPa; extraction temperature, 45.67 °C; and extraction time, 2.38 h. Subsequently, the physicochemical characteristics, fatty acid composition, triacylglycerol (TAG) composition, tocopherol content, and DSC profile as well as oxidative stabilities of C. camphora seed oil (CCSO) were studied. Results showed that CCSO contained two major medium-chain fatty acids, capric acid (53.27%) and lauric acid (39.93%). The predominant TAG species in CCSO was LaCC/CLaC (ECN 32, 79.29%). Meanwhile, it can be found that CCSO had much higher oxidative stabilities than coconut oil due to the higher content of tocopherols in CCSO (α-tocopherol, 8.67 ± 0.51 mg/100 g; γ-tocopherol, 22.6 ± 1.02 mg/100 g; δ-tocopherol, 8.38 ± 0.47 mg/100 g). Conclusively, CCSO with such a high level of MCTs and high oxidative stabilities could be potentially applied in special food for specific persons such as weak patients and overweight persons because oils enriched in MCTs can be rapidly absorbed into body to provide energy without fat accumulation.     

Functional lipid characteristics of Turkish Tombul hazelnut (Corylus avellana L.)

The quality of crude oil extracted from Tombul (Round) hazelnut, grown in the Giresun province of Turkey, was evaluated for its fatty acid, triacylglycerol (TAG), tocol, and phytosterol compositions. Oleic acid contributed 82.78% to the total fatty acids, followed by linoleic, palmitic, and stearic acids. Among 12 TAGs separated, 11 were identified (including one unknown): LLL, OLL, PLL, OOL, POL, PPL, OOO, POO, PPO, SOO, and PSO (where P, palmitoyl; S, stearoyl; O, oleoyl; and L, linoleoyl). The main components were OOO (71.31%), OOL (12.26%), and POO (9.45%), reflecting the high content of oleic acid present in hazelnut oil. Seven tocol isoforms (four tocopherols and three tocotrienols) and eight phytosterols as well as cholesterol were positively identified and quantified; among these, alpha-tocopherol (40.40 mg/100 g) and beta-sitosterol (134.05 mg/100 g) were predominant in hazelnut oil and contributed 78.74 and 81.28% to the total tocols and phytosterols present, respectively. Tocotrienols were detected in small amounts (1.02% to the total tocols). The crude hazelnut oil extracted from Turkish Tombul hazelnut, thus, serves as a good source of nutrients, bioactives, and health-promoting components.     

Oil goldenberry (Physalis peruviana L.)

Whole berries, seeds, and pulp/peel of goldenberry (Physalis peruviana L.) were compared in terms of fatty acids, lipid classes, triacylglyerols, phytosterols, fat-soluble vitamins, and beta-carotene. The total lipid contents in the whole berries, seeds, and seedless parts were 2.0, 1.8, and 0.2% (on a fresh weight basis), respectively. Linoleic acid was the dominating fatty acid followed by oleic acid as the second major fatty acid. Palmitic and stearic acids were the major saturates. In pulp/peel oil, the fatty acid profile was characterized by higher amounts of saturates, monoenes, and trienes than in whole berry and seed oils. Neutral lipids comprised >95% of total lipids in whole berry oil and seed oil, while neutral lipids separated in lower level in pulp/peel oil. Triacylglycerols were the predominant neutral lipid subclass and constituted ca. 81.6, 86.6, and 65.1% of total neutral lipids in whole berry, seed, and pulp/peel oils, respectively. Nine triacylglycerol molecular species were detected, wherein three species, C54:3, C52:2, and C54:6, were presented to the extent of approximately 91% or above. The highest level of phytosterols was estimated in pulp/peel oil that contained the highest level of unsaponifiables. In both whole berry and seed oils, campesterol and beta-sitosterol were the sterol markers, whereas Delta5-avenasterol and campesterol were the main 4-desmethylsterols in pulp/peel oil. The tocopherols level was much higher in pulp/peel oil than in whole berry and seed oils. beta- and gamma-tocopherols were the major components in whole berry and seed oils, whereas gamma- and alpha-tocopherols were the main constituents in pulp/peel oil. beta-Carotene and vitamin K(1) were also measured in markedly high levels in pulp/peel oil followed by whole berry oil and seed oil, respectively. Information provided by the present work is of importance for further chemical investigation of goldenberry oil and industrial utilization of the berries as a raw material of oils and functional foods.     

Enrichment of tocopherols and phytosterols in canola oil during seed germination

The effect of canola (Brassica napus L.) seed germination under illuminated and dark environments on the total concentration and the composition of tocopherols and phytosterols in seedlings and extracted oil were investigated. During the first 10 days of germination, a decrease in gamma-tocopherol was offset by an increase in alpha-tocopherol, indicating the interconversion of these isomers. From day 10 to day 20 under illumination, there was a net increase in alpha-tocopherol and total tocopherols suggesting the synthesis of new tocopherols, whereas there was no net increase in tocopherols in dark. Tocopherols were mainly concentrated in the leafy seedling tops rather than in the non-photosynthesizing bottoms, whereas phytosterols were equally distributed across both sections. The total tocopherol content of oil extracted from 20-day-old seedlings was 4.3- to 6.5-fold higher than that of intact seeds. On a dry seedling basis, the content and composition of phytosterols did not change significantly (p > 0.05) over the sprouting period, but the concentration of total phytosterols in the oil fraction increased 4.2- to 5.2-fold. The concentration of these valuable phytochemicals in the oil fraction is largely due to the depletion of oil reserves during germination, as well as the de novo synthesis of new alpha-tocopherol stimulated by the presence of light. Germination may represent a viable means to naturally concentrate these high-value constituents in canola oil, offering improvements in oil quality based on the nutritional value and oxidative protection offered by tocopherols and the health benefits provided by both tocopherols and phytosterols.     

Tocopherols and Tocotrienols in Barley Oil Prepared from Germ and Other Fractions from Scarification and Sieving of Hulless Barley

Two cultivars of hulless barley (Doyce and Merlin) were scarified to abrade the outer layers of the kernels (germ, pericarp, and aleurone). The resulting scarification fines fractions were then separated into four particle-size subfractions using sieves. Each of the size subfractions was then extracted with hexane to produce a barley oil, and the levels of free phytosterols, tocopherols, and tocotrienols in the various barley oils were compared. For both cultivars, the fraction with the largest particle size (0.717–1.410 mm) had the highest oil yields (11–12%). Visual examination of this fraction indicated that it consisted almost entirely of small fragments (≈1 mm) of the germ portion of the kernel. The levels of tocopherols were highest in the largest particle-size fraction and their proportion decreased in the fractions with decreasing particle size. In contrast, the levels of tocotrienols were very low in the largest particle-size fraction and increased in the fractions with decreasing particle sizes. Intact germ was also prepared by hand-dissection, extracted, and analyzed. The results indicate that the ≈1 mm germ fragments obtained by scarification-sieving consisted almost entirely of germ fragments, but these fragments represented only 17.5 and 23.7% of the total mass of the germ, from Merlin and Doyce, respectively. These results also suggest that it may be possible to control the concentrations of tocopherols and tocotrienols in barley oil by controlling the particle size of the feedstock used to extract the oil. Germ fragments isolated by such processes could potentially be used as functional food ingredients or extracted to yield oils enriched in health-promoting phytosterols, tocopherols, or tocotrienols.     

玉米籽粒变温变湿干燥后不饱和脂肪酸与干燥系统的耦合关系

为了研究变温变湿干燥工艺中玉米籽粒的不饱和脂肪酸含量与干燥系统的耦合关系,根据实际烘干塔的干燥参数将整个干燥过程分成3个等时的干燥段,将每个干燥段的热风温度和相对湿度设为因素,每个因素设置3个水平,即为6因素3水平的正交试验进行探究。结果表明不饱和脂肪酸含量在3段热风温度为35℃-50℃-50℃,相对湿度为30%-45%-30%时含量最高,为6.553%。不饱和脂肪酸含量在干燥系统的所有耦合因子中与粮食绝对水势和的耦合关系最大,其次是绝对水势和差,该结论对分析和预测干燥工艺对玉米籽粒中不饱和脂肪酸含量提供了新思路,为深入研究水势理论与谷物干燥品质的关系打下基础。     

Formation of modified fatty acids and oxyphytosterols during refining of low erucic acid rapeseed oil

Formation of trans fatty acids and cyclic fatty acid monomers was investigated during refining of low erucic acid rapeseed oil. The first steps of the refining process, that is, degumming, neutralization, and bleaching, hardly modified the fatty acid profile. In contrast, deodorization produced substantial quantities of trans fatty acids (>5% of total fatty acids) and small amounts of cyclic fatty acid monomers (650 mg of cyclic fatty acid monomers/kg of oil) when severe conditions (5-6 h at 250 degrees C) were used. Alpha-linolenic acid was the main precursor of cyclic fatty acid monomers. The influence of deodorization on the chemical composition of low erucic acid rapeseed oil was studied additionally. Whereas free fatty acids, peroxides, and tocopherols decreased, neither total polar compounds nor oxyphytosterols changed during deodorization. Oxyphytosterols were identified by GC-MS. Three oxyphytosterols not yet observed in oil were tentatively identified as 6beta-hydroxycampestanol, 6beta-hydroxysitostanol, and 6beta-hydroxybrassicastanol. Brassicasterol oxides were the most abundant oxyphytosterols.