Van Hekken D L, Tunick M H, Ren D X, Tomasula P M
Dairy and Functional Foods Research Unit, Eastern Regional Research Center, Agricultural Research Service, USDA, 600 East Mermaid Lane, Wyndmoor, PA 19038.
Dairy and Functional Foods Research Unit, Eastern Regional Research Center, Agricultural Research Service, USDA, 600 East Mermaid Lane, Wyndmoor, PA 19038.
J Dairy Sci. 2017 Aug;100(8):6042-6052. doi: 10.3168/jds.2016-12089. Epub 2017 Jun 16.
We compared the effects of homogenization and heat processing on the chemical and in vitro digestion traits of milk from organic and conventional herds. Raw milk from organic (>50% of dry matter intake from pasture) and conventional (no access to pasture) farms were adjusted to commercial whole and nonfat milk fat standards, and processed with or without homogenization, and with high-temperature-short-time or UHT pasteurization. The milk then underwent in vitro gastrointestinal digestion. Comparison of milk from organic and conventional herds showed that the milks responded to processing in similar ways. General composition was the same among the whole milk samples and among the nonfat milk samples. Protein profiles were similar, with intact caseins and whey proteins predominant and only minor amounts of peptides. Whole milk samples from grazing cows contained higher levels of α-linolenic (C18:3), vaccenic (C18:1 trans), and conjugated linoleic acids, and lower levels of palmitic (C16:0) and stearic (C18:0) acids than samples from nongrazing cows. Processing had no effect on conjugated linoleic acid and linolenic acid levels in milk, although homogenization resulted in higher levels of C8 to C14 saturated fatty acids. Of the 9 volatile compounds evaluated, milk from grazing cows contained lower levels of 2-butanone than milk from nongrazing cows, and milk from both farms showed spikes for heptanal in UHT samples and spikes for butanoic, octanoic, nonanoic, and N-decanoic acids in homogenized samples. At the start of in vitro digestion, nonfat raw and pasteurized milk samples formed the largest acid clots, and organic milk clots were larger than conventional milk clots; UHT whole milk formed the smallest clots. Milk digests from grazing cows had lower levels of free fatty acids than digests from nongrazing cows. In vitro proteolysis was similar in milk from both farms and resulted in 85 to 95% digestibility. Overall, milk from organic/grass-fed and conventional herds responded in similar ways to typical homogenization and heat processing used in United States dairy plants and showed only minor differences in chemical traits and in vitro digestion. Findings from this research enhance our knowledge of the effect of processing on the quality traits and digestibility of milk from organic/pasture-fed and confined conventional herds and will help health-conscious consumers make informed decisions about dairy selections.
我们比较了均质化和热处理对有机和传统牛群所产牛奶的化学特性及体外消化特性的影响。将来自有机农场(>50%干物质摄入量来自牧场)和传统农场(无法进入牧场)的生牛奶调整至商业全脂和脱脂牛奶脂肪标准,然后进行有或无均质化处理,并采用高温短时或超高温瞬时巴氏杀菌。之后,牛奶进行体外胃肠道消化。对有机和传统牛群所产牛奶的比较表明,两种牛奶对加工处理的反应方式相似。全脂牛奶样品之间以及脱脂牛奶样品之间的总体成分相同。蛋白质谱相似,完整的酪蛋白和乳清蛋白占主导,只有少量肽。与非放牧奶牛的牛奶样品相比,放牧奶牛的全脂牛奶样品中α-亚麻酸(C18:3)、反式-11-十八碳烯酸(C18:1 trans)和共轭亚油酸含量更高,而棕榈酸(C16:0)和硬脂酸(C18:0)含量更低。加工处理对牛奶中共轭亚油酸和亚麻酸水平没有影响,不过均质化导致C8至C14饱和脂肪酸含量更高。在所评估的9种挥发性化合物中,放牧奶牛的牛奶中2-丁酮含量低于非放牧奶牛的牛奶,且两个农场的牛奶在超高温瞬时处理样品中庚醛含量出现峰值,在均质化样品中丁酸、辛酸(C8:0)、壬酸(C9:0)和癸酸(C10:0)含量出现峰值。在体外消化开始时,脱脂生牛奶和巴氏杀菌牛奶样品形成的酸凝块最大,有机牛奶凝块大于传统牛奶凝块;超高温瞬时处理的全脂牛奶形成的凝块最小。放牧奶牛的牛奶消化物中游离脂肪酸含量低于非放牧奶牛的牛奶消化物。两个农场牛奶的体外蛋白水解情况相似,消化率为85%至95%。总体而言,有机/草饲和传统牛群所产牛奶对美国乳品厂常用的典型均质化和热处理的反应方式相似,在化学特性和体外消化方面仅存在细微差异。本研究结果增进了我们对加工处理对有机/草饲和圈养传统牛群所产牛奶质量特性和消化率影响的认识,并将有助于注重健康的消费者在选择乳制品时做出明智决策。
