Department of Animal Sciences, Washington State University, Pullman 99164.
Department of Animal Science, Iowa State University, Ames 50011.
J Dairy Sci. 2018 Jul;101(7):5838-5850. doi: 10.3168/jds.2017-13699. Epub 2018 Apr 11.
Feeding dried distillers grains with solubles (DDGS) to lactating dairy cows has been implicated as a cause of late blowing defects in the production of Swiss-style cheeses. Our objectives were (1) to test the effect of feeding reduced-fat DDGS (RF-DDGS; ∼6% fat) to lactating dairy cows on the composition of milk and on the suitability of the milk for production of baby Swiss cheese and (2) to evaluate the effect of diet on cow lactation performance. Lactating Holstein dairy cows were fed both dietary treatments in a 2 × 2 crossover design. Cows were housed in a 48-cow freestall pen equipped with individual feeding gates to record feed intake. The control diet was a corn, corn silage, and alfalfa hay diet supplemented with mechanically expelled soybean meal. The experimental diet was the same base ration, but 20% (dry matter basis) RF-DDGS were included in place of the expelled soybean meal. The RF-DDGS diet was additionally supplemented with rumen-protected lysine; diets were formulated to be isoenergetic and isonitrogenous. Cows were allowed ad libitum access to feed and water, fed twice daily, and milked 3 times daily. For cheese production, milk was collected and pooled 6 times for each dietary treatment. There was no treatment effect on milk yield (35.66 and 35.39 kg/d), milk fat production (1.27 and 1.25 kg/d), milk fat percentage (3.65 and 3.61%), milk protein production (1.05 and 1.08 kg/d), lactose percentage (4.62 and 4.64%), milk total solids (12.19 and 12.28%), and somatic cell count (232.57 and 287.22 × 10 cells/mL) for control and RF-DDGS, respectively. However, dry matter intake was increased by treatment, which implied a reduction in feed efficiency. Milk protein percentage also increased (3.01 and 3.11%), whereas milk urea nitrogen decreased (14.18 and 12.99 mg/dL), indicating that protein utilization may be more efficient when cows are fed RF-DDGS. No differences in cheese were observed by a trained panel except cheese appearance; control cheese eyes were significantly, but not practically, larger than the RF-DDGS cheese. These results indicate that RF-DDGS can be effectively used in the rations of lactating Holstein cows with no deleterious effects on milk production and composition and metrics of the physiology of the cow (i.e., blood glucose and nonesterified fatty acids); however, feeding RF-DDGS increased dry matter intake, which decreased feed efficiency. Finally, feeding RF-DDGS did not negatively influence quality and suitability of milk for production of baby Swiss cheese.
向泌乳奶牛饲喂经干燥和溶剂提取的酒糟(DDGS)已被认为是瑞士风格奶酪生产中晚期吹泡缺陷的一个原因。我们的目标是:(1)检测向泌乳奶牛饲喂低脂肪 DDGS(RF-DDGS;约 6%脂肪)对牛奶成分的影响,以及对生产婴儿瑞士奶酪的适用性;(2)评估日粮对奶牛泌乳性能的影响。泌乳荷斯坦奶牛采用 2×2 交叉设计,同时饲喂两种日粮。奶牛被安置在一个 48 头奶牛的自由站立式畜栏中,畜栏配备有单独的喂料门以记录采食量。对照组日粮是由玉米、玉米青贮和苜蓿干草组成的日粮,补充了机械提取的大豆粉。实验组日粮是相同的基础日粮,但用 20%(干物质基础)的 RF-DDGS 替代提取的大豆粉。RF-DDGS 日粮还额外添加了包被赖氨酸;日粮是等能量和等氮的。奶牛可以自由采食饲料和水,每天饲喂 2 次,每天挤奶 3 次。为了进行奶酪生产,每次处理都收集和混合 6 次牛奶。处理对牛奶产量(35.66 和 35.39 kg/d)、牛奶脂肪产量(1.27 和 1.25 kg/d)、牛奶脂肪百分比(3.65 和 3.61%)、牛奶蛋白质产量(1.05 和 1.08 kg/d)、乳糖百分比(4.62 和 4.64%)、牛奶总固体(12.19 和 12.28%)和体细胞计数(232.57 和 287.22×10 个细胞/mL)均没有影响,分别为对照组和 RF-DDGS 组。然而,处理增加了干物质采食量,这意味着饲料效率降低。牛奶蛋白百分比也增加(3.01 和 3.11%),而牛奶尿素氮减少(14.18 和 12.99 mg/dL),表明当奶牛饲喂 RF-DDGS 时,蛋白质利用率可能更高。除了奶酪外观外,经过训练的小组没有观察到奶酪的差异;对照组奶酪的眼睛明显(但不实际)比 RF-DDGS 奶酪大。这些结果表明,RF-DDGS 可以有效地用于泌乳荷斯坦奶牛的日粮中,对牛奶生产和成分以及奶牛生理(即血糖和非酯化脂肪酸)的指标没有不利影响;然而,饲喂 RF-DDGS 增加了干物质采食量,从而降低了饲料效率。最后,饲喂 RF-DDGS 并未对婴儿瑞士奶酪的牛奶质量和适用性产生负面影响。
