Food Systems Graduate Program, University of Vermont, Burlington 05405; William H. Miner Agricultural Research Institute, Chazy, NY 12921.
William H. Miner Agricultural Research Institute, Chazy, NY 12921.
J Dairy Sci. 2017 Jun;100(6):5097-5106. doi: 10.3168/jds.2016-12046. Epub 2017 Apr 5.
The objective of this study was to evaluate the relationship of management practices and dietary factors with de novo fatty acid concentration in bulk tank milk from commercial dairy farms milking Holstein cows. Farms were selected based on de novo fatty acid concentration during the 6 mo before the farm visit and were categorized as high de novo (HDN; 24.61 ± 0.75 g/100 g of fatty acids, mean ± standard deviation; n = 19) or low de novo (LDN; 23.10 ± 0.88 g/100 g of fatty acids; n = 20). Farms were visited once in February, March, or April 2015 and evaluated based on management and facility design known to affect cow behavior, physical and chemical characteristics of the diet, and ration formulation and forage analyses obtained from the farm's nutritionist. We observed no differences between HDN and LDN farms in farm size, time away from the pen for milking, days in milk, or body condition score. We detected no differences between HDN and LDN farms in milk fat or true protein yield; however, milk fat and protein content and de novo fatty acid yield per day were higher for HDN farms, as was gross income per unit of milk sold. High de novo farms tended to be more likely to deliver fresh feed twice versus once per day, have a freestall stocking density ≤110%, and provide ≥46 cm of feed bunk space per cow. We observed no detectable differences in forage quality or ration dry matter, crude protein, or starch content. However, ether extract was lower and physically effective neutral detergent fiber was higher for HDN farms. Feeding management, stocking density, dietary ether extract content, and the physical characteristics of the diet are related to de novo fatty acid, fat, and protein concentration in bulk tank milk from high-producing Holstein dairy farms.
本研究旨在评估管理实践和饮食因素与商业奶牛场荷斯坦奶牛牛奶中从头脂肪酸浓度的关系。根据农场在访场前 6 个月的从头脂肪酸浓度选择农场,并将其分为高从头(HDN;24.61±0.75g/100g 脂肪酸,平均值±标准差;n=19)或低从头(LDN;23.10±0.88g/100g 脂肪酸;n=20)。2015 年 2 月、3 月或 4 月,我们对农场进行了一次访问,根据已知影响奶牛行为、饮食的理化特性以及从农场营养师处获得的配方和饲料分析的管理和设施设计对其进行了评估。我们在农场规模、挤奶离开畜栏时间、泌乳天数或体况评分方面未发现 HDN 和 LDN 农场之间的差异。我们在牛奶脂肪或真蛋白产量方面未发现 HDN 和 LDN 农场之间的差异;然而,HDN 农场的牛奶脂肪和蛋白质含量以及每天的从头脂肪酸产量更高,每销售单位牛奶的总收入也更高。HDN 农场更有可能每天提供两次而不是一次新鲜饲料,畜栏存栏密度≤110%,每头牛提供≥46cm 的饲料槽空间。我们未观察到饲料质量或日粮干物质、粗蛋白或淀粉含量的可检测差异。然而,HDN 农场的乙醚提取物较低,物理有效中性洗涤纤维较高。饲养管理、存栏密度、日粮乙醚提取物含量和日粮的物理特性与高产荷斯坦奶牛场牛奶中的从头脂肪酸、脂肪和蛋白质浓度有关。
