Increasing Conjugated Linoleic Acid Content in Milk and Cheese after Supplementing a Blend of Crude Soybean Oil Sediment Combined with Fish Oil to Grazing Dairy Cows

The aim of the work was to improve the healthy value of milk and cheese fatty acids (FA) by feeding a mix of crude soybean oil sediment (CSOS) combined with fish oil (FO) to grazing dairy cows. The CSOS is a by-product commonly discarded after oil extraction containing 3.3% moisture, 6% total ash and 70.7% oil, locally available, comparatively economic and easy to mix with other feed ingredients. The experiment lasted 55 days from September 30th to November 23th 2018 and was carried out at the dairy farm “Gacef” provider of milk to the dairy industrial plant “Capilla Del Señor” (CDS) located at the Villa María City, Córdoba Province, Argentine. A herd of 80 multiparous Holstein cows producing 24 kg-1 milk·cow-1·day-1 was used. The cows grazed an alfalfa and an oat pasture that represented about 47% of total dry matter (DM) intake supplemented at 8.5 kg DM·cow-1·day-1 with a total mixed ration (TMR) composed (DM basis) by cracked corn grain (35.18%), whole plant corn silage (31.98%), pelletized soyben meal (17.99%), the CSOS supplement (13.85%) and FO (0.99%). The TMR was supplied by halves after each milking time in groupal feeders yielding 1.4 kg·cow-1·day-1 of the CSOS and 0.1 kg·cow-1·day-1 of FO. Before the start of lipid supplementation, milk samples (5) were obtained from the farm-tank representing the standar or reference milk (Ref-Milk). After 21 days of supplementary lipid supply, additional milk samples (5) were obtained representing the modified milk (Mod-Milk). Milk samples were analyzed for chemical composition and milk FA profile. At each time, sufficient quantities of both (Ref- and Mod-Milk) were collected for manufacturing six types of cheeses. The results were analyzed through the Student-T test for independent observations. Oil supplementation did not modify (P > 0.05) the chemical composition of milk. Concentration of butyric acid (C4:0) in milk was not affected (P < 0.858). Concentration of total saturated FA (SFAs) in Ref-Milk averaged 58.83 g 100 g-1 FA and was decreased to 49.67 g 100 g-1 FA in Mod-Milk (P < 0.0001). Monounsaturated FA (MUFAs) increased (P < 0.001) from 32.03 g 100 g-1 FA in Ref-Milk to 38.13 g 100 g-1 FA in Mod-Milk (+19.07%) whereas polyunsaturated FA (PUFAs) increased (+36.1%) from 4.71 to 6.41 (P < 0.004). The Mod-Milk showed a significant (P < 0.002) reduction (-15.3% or 5.9 g 100 g-1 FA) for the total concentration of the potentially atherogenic fraction of milk FA (C12:0 to C16:0). The atherogenic index (AI) also decreased (P < 0.012) from 1.98 in Ref-Milk to 1.42 in Mod-Milk (-28.4%). Concentration of vaccenic acid (VA, trans-11 C18:1) in Mod-Milk averaged 7.77 g 100 g-1 FA which represented a 162 % increase (P < 0.0001) over that observed in Ref-Milk (2.95 g 100 g-1). Concentration of conjugated linoleic acid (CLA, cis-9, trans-11 C18:2) in Ref-Milk averaged 1.47 g 100 g-1 FA and showed an important increase (P < 0.002) in the Mod-Milk (3.86 g 100 g-1 FA, +163%). The omega 6/3 ratio resulted lower (P < 0.012) in the Ref-Milk (2.28) compared to the Mod-Milk (2.83). Milk and cheese FA composition were highly correlated (R2 = 0.99, P < 0.0001). The Mod-Cheeses showed similar results in AI, total concentration of SFAs, MUFAs and PUFAs compared to the milk of origin. Differences in FA composition between the cheeses made with the Ref- and Mod-Milk were equivalent to those described for milks. It is concluded that supplementation with a blend of CSOS supplement and FO was an effective way to improve the healthy value of dairy products by reducing contents of SFAs, atherogenic FAs and the atherogenicity index with a concomitant increase in VA and CLA. Modifications induced in the Mod-Milk were recovered in the Mod-Cheeses. The results obtained may help to reduce saturated fat intake and fight or prevent incidence of non-communicable, cardiovascular and chronic diseases.

两株菌协同发酵鱼下脚料制备功能性宠物饲料

为了提高有机废弃物在生产中的利用,探索新型功能性宠物饲料,以鱼下脚料为原料,通过单因素试验和正交试验探究最佳发酵条件,并添加猴头菇菌丝体和番茄渣制成功能性饲料。结果表明,最优发酵条件为枯草芽孢杆菌∶红酵母=2∶1,鱼下脚料添加量30%、接菌量5%(V/V)、发酵温度30℃,发酵基质中添加烘干的2%猴头菇菌丝体和1%番茄渣,可显著增加原料中蛋白质和氨基酸含量,粗蛋白质含量提升率为73.71%,总氨基酸含量提升率为24.97%,其中,谷氨酸含量增加最为明显,提升率为98.98%。小鼠急性毒理试验表明,对照组与试验组无显著性差异(P>0.05),说明此饲料可应用于功能性宠物饲料的生产。该研究为今后鱼下脚料的发酵工艺提供了理论基础,且为宠物饲料的发展提供了新方向。

3种淡水鱼内脏粗鱼油品质及挥发性风味成分分析比较

为提高淡水鱼类加工副产物的高值化利用,本文以3种常见的淡水鱼(草鱼、青鱼和鲢鱼)内脏为原料提取粗鱼油,进行理化指标评价、脂肪酸组成及挥发性风味成分分析。结果表明,青鱼油的理化指标最佳,其过氧化值、酸价、水分及挥发物、茴香胺值、不皂化物等较低;鲢鱼油次之,草鱼油最差。青鱼油、鲢鱼油和草鱼油中分别检测出16、22、27种脂肪酸,均以棕榈酸(C_(16:0))、油酸(C_(18:1n-9c))、亚油酸(C_(18:2n-6c))为主,鲢鱼油的相对营养价值最高。3种粗鱼油共检测出66种挥发性物质,包括烃类17种,醇类7种,醛类15种,酮类3种,酯类8种,酸类10种,酚类3种,其他类3种。草鱼油中含量最高的是酚类物质(59.86%);青鱼油中挥发性物质以醇类为主,含量为53.23%;鲢鱼油中含量最高的是酸类物质(27.64%)。3种粗鱼油共得到10种关键风味成分,主要以醛类、醇类和酚类物质为主。反式-2,4-癸二烯醛、壬醛、反式-2,4-庚二烯醛、苯乙醛、1-辛烯-3-醇等是粗鱼油中主要的鱼腥味、油脂味风味物质。

不同提取方式下小黄鱼下脚料粗鱼油脂肪酸组成及挥发性风味成分的变化

为提高小黄鱼下脚料的高值化利用,研究以小黄鱼下脚料为试材,将其进行前处理分别制成湿样(Wet Sample,W)和干样(Dry Sample,D),采用索氏提取法(Soxhlet Extractor Method,S)及酶解法[碱性蛋白酶(1)、中性蛋白酶(2)、木瓜蛋白酶(3)]提取粗鱼油,对其理化指标进行评价、并分析其脂肪酸组成及挥发性风味成分。结果表明,7种不同提取方式(DS、D1、D2、D3、W1、W2、W3)制备的粗鱼油其理化指标值均满足水产标准(SC/T 3502-2016)三级的规定。所得粗鱼油中棕榈酸(C16:0)、硬脂酸(C18:0)、棕榈油酸(C16:1)、油酸(C18:1n9)均为主要脂肪酸,其中D1处理组粗鱼油EPA和DHA相对含量最高,为25.59%。不同提取方式所提粗鱼油中共检出99种挥发性风味成分,包括醇类16种、醛类16种、酮类15种、酯类3种、酸类8种、碳氢化合物16种、酰胺类化合物3种、杂环化合物及其他22种,其中DS处理组粗鱼油的风味与酶解法相比较差,表明冷冻干燥前处理在一定程度上改善了粗鱼油的风味。综上,采用冷冻干燥前处理结合酶解法对小黄鱼下脚料进行提取,提取得到的粗鱼油的品质优良,就其脂肪酸组成而言,多不饱和脂肪酸含量较高,因此其营养价值较高,且该处理有效改善了粗鱼油的风味,可为小黄鱼下脚料的高值化利用提供一定的理论依据与参考。

国产与进口鱼油品质分析比较

以国产及进口鱼油为研究对象,分别对其感官指标、理化指标、不良物质含量及脂肪酸组成进行分析比较。结果表明:国产鱼油鱼腥味明显重于进口鱼油,且分层明显;国产鱼油在酸值和过氧化值指标上也普遍高于进口鱼油,不良物质含量也高于进口鱼油,尤其在苯并芘及二噁英等指标上;脂肪酸组成中,国产鳀鱼油DHA含量大于EPA,而进口鳀鱼油EPA含量大于DHA,且国产鱼油多不饱和脂肪酸含量低于进口鱼油;国产金枪鱼油与进口金枪鱼油在理化指标和脂肪酸组成等方面差异不大。国产鱼油中,杂鱼油与金枪鱼油、鳀鱼油在感官指标、理化指标及不良物质含量方面差异不大,但在脂肪酸组成上差异显著,杂鱼油饱和脂肪酸含量明显高于其他两种鱼油,利用价值最低。

4种粗鱼油的品质分析比较

以鳀鱼油、金枪鱼油、沙丁鱼油和杂鱼油4种粗鱼油为研究对象,分别对其质量指标、特征指标和卫生指标进行测定,并对4种粗鱼油的指标特性进行了全面的分析比较。结果表明:4种粗鱼油的菌落总数和重金属含量均符合安全标准,除金枪鱼油过氧化值外,4种粗鱼油的酸值、水分及挥发物、碘值、过氧化值均达到SC/T 3502—2000粗鱼油二级标准或以上;沙丁鱼油的EPA和DHA总量高达25.58%,金枪鱼油和鳀鱼油次之,杂鱼油仅5.25%;4种粗鱼油品质间存在显著性差异,其品质由高到低依次为沙丁鱼油、金枪鱼油、鳀鱼油和杂鱼油。

乳化香辛精油在酱油中对生鱼肉杀菌作用的研究

通过乳化将香辛精油添加到酱油中,探讨其对生鱼肉中细菌的杀灭作用。实验结果表明:在不影响酱油风味的情况下,香辛精油的最大添加量为1‰;在此浓度下,乳化精油对于切割细小的生鱼肉作用1～2min杀菌率达到95%以上。

斑点叉尾鮰内脏粗鱼油的精制及其理化指标和脂肪酸组成的分析

斑点叉尾鮰内脏粗鱼油通过脱胶、脱酸、脱色、脱臭工艺精制后,外观澄清透明,略显淡黄色,并有淡淡的鱼腥味,除碘价低于我国水产行业精制鱼油的一级标准(SC/T 3502-2000),其它各类指标均符合精制鱼油的一级标准。对脂肪酸的组成和含量进行分析,斑点叉尾鮰内脏精制油含有19种脂肪酸,主要是由C14～C22组成,其中饱和脂肪酸6种,单不饱和脂肪酸5种,多不饱和脂肪酸8种,其含量分别为20.37%6、5.20%和13.66%。∑n-3/∑n-6的比值也较为合理,表明斑点叉尾鮰内脏精制油的脂肪酸组成有利于人体健康。

食用保健精制鱼油的开发

海鱼中富含对心血管病、癌症等中老年疾病有特殊疗效的成分——EPA、DHA等高级不饱和脂肪酸,对提取浓缩精制的原料选择,目前国外是采用优质鱼料提取的鱼油,我国多属鱼肝油系列;而占鱼产量70％以上的工业鱼粉鱼油则未利用。为了开发鱼粉鱼油的综合利用,根据我国鱼油主要来自鱼粉鱼油的实情,本文主要论证用湿法鱼粉鱼油开发研制食用保健精制鱼油的可行性。

鱼粉粗蛋白含量近红外模型的建立

[目的]为鱼粉粗蛋白含量提供一种快速、低廉、准确可靠的分析方法。[方法]以国内常见鱼粉为材料,使用InfraXact Lab型近红外光谱分析仪测定鱼粉的近红外光谱值,并采用常规凯氏定氮法测定鱼粉样品中粗蛋白含量,建立鱼粉粗蛋白含量的近红外分析模型,并对模型测定结果进行预测准确性评价。[结果]鱼粉粗蛋白含量定标方程的SECV值为0.515,1-VR值为0.865,粗蛋白含量的验证参数SEC值为0.302,RSQ值为0.925,说明定标方程的预测能力较好,可用来进行鱼粉粗蛋白含量的测定。[结论]建立的鱼粉粗蛋白含量近红外分析模型具有一定的实用价值,可用于鱼粉常规养分分析的实际工作。

胜利原油对褐牙鲆仔稚鱼的急性毒性和幼鱼碱性磷酸酶的影响

实验研究了胜利原油污染物对褐牙鲆仔稚鱼的急性毒性和对肝脏碱性磷酸酶(AKP)的影响。实验结果表明,胜利原油为低毒性污染物,其对褐牙鲆仔鱼的毒性主要是通过使水体与空气的交换量减少而导致鱼类窒息死亡,仔鱼中毒表现为乏力、身体失去平衡、打旋和下沉死亡;而稚鱼主要中毒表现为身体特别是尾部出现糜烂,最终导致死亡。胜利原油对褐牙鲆仔鱼的96hLC50为1.194～4.15mg/L,对稚鱼的96hLC50为7.87～11.86mg/L。低浓度的胜利原油对实验牙鲆的肝脏碱性磷酸酶活性有诱导作用,随着浓度的升高对其活性影响越大。碱性磷酸酶活性随着曝油时间的延长先升高然后降低到一个相对稳定的数值。

猪粪养殖蚯蚓的营养成分测定及作为家禽蛋白饲料的安全性评价

为寻找替代鱼粉的动物源性蛋白质资源,采用不同C/N比猪粪腐熟的堆料养殖蚯蚓并加工成蚯蚓粉,检测蚯蚓粉的营养成分,与鱼粉的营养成分分析对比,并对其作为家禽蛋白饲料进行安全性评价。结果表明:蚯蚓粉的粗蛋白含量为62.33%~65.93%,氨基酸含量为54.2%~62.91%,必需氨基酸与总氨基酸的比值为55.48%~59.75%;蚯蚓粉中4种重金属(铜、铁、锌和总砷)、2种毒素(黄曲霉毒素B_1和玉米赤霉烯酮)和3种抗生素(青霉素钠、阿莫西林和恩诺沙星)含量均符合饲料卫生标准。研究结果提示蚯蚓粉是可替代鱼粉的高蛋白动物性原料。

香辛复合精油对生鱼肉的杀菌作用及其在酱油中的应用

探讨香辛复合精油对生鱼肉中细菌的杀灭作用。实验结果表明,当香辛复合精油杀菌浓度达到0.1%,且作用时间在1 min以上,对生鱼肉中微生物具有明显的杀菌效果,酸性环境有利于精油的杀菌。复合精油添加到酱油中杀菌活性高,杀菌效率可高达99%以上,且在酱油的储存中依然保持很高的杀菌活性。

喷雾干燥鱼浆蛋白粉营养成分分析

本试验对鱼粉加工废水鱼浆蛋白粉(经浓缩、水解、喷雾干燥得到的副产品)进行营养成分分析,其中粗蛋白质含量达64.08%,钙2.67%、磷1.12%,钙磷比例合理;各氨基酸含量分别为:赖氨酸3.29%,蛋氨酸0.94%,谷氨酸5.17%,牛磺酸2.50%。

食用保健精制鱼油工艺的研究

在我国,鱼粉、鱼油只用在非食用性的化工生产方面。本文讨论用湿法鱼粉鱼油为原料,开发研制食用保健精制鱼油的工艺、精制鱼油含EPA7.9％、DHA20.4％,得率达65～70％。

原油和消油剂对鱼类毒性的研究进展

原油对鱼类的毒性主要来自其水溶性成分,可导致鱼卵死亡或发育畸形,并造成鱼类麻痹、发炎、粘膜受损和死亡。消油剂的使用在分散了油膜的同时也带来二次污染,其活性剂对鱼类产生新的毒性影响。消油剂将原油分散为乳化颗粒并能进入鱼体内,加大了原油的毒性并延长其作用时间。综述了原油和消油剂对鱼类毒性的研究进展,展望了鱼类在相关毒性试验领域的应用及发展方向。

毛鱼油品质对脱色效果的影响

为合理利用不同类型的毛鱼油资源,分别取储藏1天、1周和1个月后的压榨毛鱼油、淡碱水煮毛鱼油和溶剂萃取毛鱼油,通过单因素和正交实验确定最佳脱色条件:脱色时间30min、脱色温度95℃、白土添加量3.5%、活性炭添加量0.3%、此时下脱色率可达90.7%,在此基础上进行脱色实验。结果显示:3种毛鱼油最佳加工期是在制取毛鱼油一周之内,脱色时压榨毛鱼油和淡碱水煮毛鱼油只需以白土为脱色剂,溶剂萃取毛鱼油需同时以白土和活性炭为脱色剂。

一种快速测定粗蛋白方法的初步研究

为了获得一种不经过复杂消化过程即可测定棉粕和鱼粉中粗蛋白总含量的快速方法。实验以国标法作对照,利用过氧化氢代替国标法中的混合催化剂,不经过复杂消化即以酚酞作指示剂,通过蒸馏、滴定,快速测出样品中约60%的粗蛋白含量,经过换算系数1.715计算,得出样品中粗蛋白的总含量;对该方法稳定性进行试验。结果发现,快速法与国标法的结果一致,其稳定性良好。证明快速法是一种快速、可靠、稳定、高效的测量棉粕和鱼粉中粗蛋白总含量的方法。

近红外光谱法测定鱼粉粗蛋白含量

采用近红外光谱法测定鱼粉粗蛋白含量。将225份鱼粉样品分成定标集(n=200)和验证集(n=25),利用近红外分析技术,采用偏最小二乘法定标,结合散射校正和10种导数处理方法,建立基于近红外光谱的鱼粉粗蛋白含量预测模型。鱼粉粗蛋白含量的预测决定系数(RSQ_(V))大于0.9,外部验证相对分析误差(RPD_(V))大于2.50,预测值与真实值之间无显著差异(P>0.05)。结果表明,近红外光谱法适用于鱼粉粗蛋白含量的快速检测。

Characterization of refined fish oil from small fish in Mauritania

In this study,the effects of chemical refining on the physicochemical indices,environmental pollutants,lipid functional groups,relaxation characteristics,fatty acid profiles,and triglyceride(TG)molecular species in crude oil extracted from small fish in Mauritania were evaluated.The acid,peroxide,and iodine values of crude oil were identified as 5.52 mg KOH/g,1.73 meq/kg,and 200.78 g/100 g oil,respectively.After refining,these values were determined to be 0.29 mg KOH/g,0.76 meq/kg,and 210.80 g/100 g oil,respectively.The polychlorinated biphenyls and arsenic content of crude oil were identified as 32.30μg/kg and 1.00 mg/kg,respectively.After refining,these were not detected.The content of eicosapentaenoic acid(EPA)and docosahexaenoic acid(DHA)accounted for as much as 87.55%of the polyunsaturated fatty acids in the refined oil,indicating that high-quality fish oil is suitable as a food supplement.The correlation coefficient of the infrared spectra before and after refining was 0.968,and the relaxation time and peak shape data were almost similar before and after purification.Meanwhile,there were no significant differences(P≥0.05)in fatty acid profiles between the crude and refined oils,except for C16:0(P<0.01).Based on UPLC-Q E-MS/MS detection,137 TG molecules were identified in both crude and refined oils.Among the detected TG molecular species,64 contained EPA or DHA,which accounted for 46.83%and 46.00%of the total TG content in crude and refined oils,respectively.After refining,the content of the molecular species decreased by 31.95 mg/10 g,among which the three most variable molecular species were TG(16:0/18:1/22:6),(16:1/16:2/18:1),and(18:4/16:0/20:5),accounting for 29.26%of the decline of the molecular species.Overall,the refining process had little effect on the fatty acid profile and distribution of TG molecular species in fish oil.