Department of Reproduction, Obstetrics and Herd Health, Faculty of Veterinary Medicine, Ghent University, Merelbeke, Belgium.
J Dairy Sci. 2011 Sep;94(9):4603-15. doi: 10.3168/jds.2010-3899.
Sixteen Holstein cows were assigned to 2 groups to evaluate the caloric and metabolic effect of feeding marine algae (ALG) from 3 wk prepartum until 12 wk postpartum. Milk production characteristics and the profiles of hormones and metabolites in the serum were monitored from -7 to 46 d in milk (DIM) and in follicular fluid (FF) from 14 to 46 DIM. All cows received a corn- and grass silage-based partially mixed ration supplemented with concentrate and protein supplement. In the diet of the ALG group, 2 kg of the concentrate was replaced by a concentrate containing ALG (44 g/d of docosahexaenoic acid). Diets were isocaloric (net energy basis) and equal in intestinal digestible protein. The ALG diet increased milk yield (41.2 vs. 38.2 kg/d) and decreased milk fat yield (1.181 vs. 1.493 kg/d) and milk fat content (31.6 vs. 40.7 g/kg). Protein yield (1.336 vs. 1.301 kg/d) was not affected but a tendency toward decreased milk protein content (32.8 vs. 34.7 g/kg) was observed. Marine algae supplementation increased the β-hydroxybutyric acid (BHBA) concentration in FF of the ALG cows compared with that in the controls (0.992 vs. 0.718 mmol/L). The total protein concentration in FF was decreased in ALG (62.9 vs. 67.6 g/L). Plasma and serum metabolites did not significantly differ between treatments except for a tendency toward a lower concentration of urea in the serum of the control compared with ALG (4.69 vs. 5.13 mmol/L). Based on metabolizable energy calculations, a daily energy-sparing effect of 3.48 Mcal was obtained due to milk fat depression (MFD). The concomitant increase in milk yield suggests that at least part of this spared energy is used to stimulate milk production. Theoretically, 3.48 Mcal of ME could lead to an increase in milk yield of 7.43 kg/d, which is higher than the observed 3 kg/d. However, when evaluating nutrient requirements during MFD in early lactation, we calculated that increased milk production is caused by a propionate-saving effect of 2.71 mol in the udder when milk fat is depressed. Concurrent increased BHBA concentrations in FF in the ALG group cannot be attributed to a worsened energy status of the animals because all other indicators contradict any change in energy balance, indicating that BHBA might not be an appropriate metabolic parameter to estimate the energy balance in early lactating dairy cows during MFD.
将 16 头荷斯坦奶牛分为 2 组,评估产前 3 周至产后 12 周饲喂海藻(ALG)的热量和代谢效应。从-7 天到泌乳 46 天(DIM)监测产奶特性和血清中激素和代谢物的特征,并从 14 天到 46 DIM 监测卵泡液(FF)中的特征。所有奶牛均接受以玉米和草青贮料为基础的部分混合日粮,并补充浓缩料和蛋白质补充料。在 ALG 组的饮食中,2 公斤浓缩料被含有 ALG(每天 44 克二十二碳六烯酸)的浓缩料取代。日粮的能量值(净能基础)相同,肠道可消化蛋白相等。ALG 日粮增加了产奶量(41.2 比 38.2 公斤/天),降低了乳脂产量(1.181 比 1.493 公斤/天)和乳脂含量(31.6 比 40.7 克/公斤)。蛋白质产量(1.336 比 1.301 公斤/天)没有受到影响,但观察到乳蛋白含量略有下降(32.8 比 34.7 克/公斤)。与对照组相比,海洋藻类补充剂增加了 ALG 奶牛 FF 中的β-羟丁酸(BHBA)浓度(0.992 比 0.718 mmol/L)。FF 中的总蛋白浓度在 ALG 中降低(62.9 比 67.6 克/升)。除了对照组血清中尿素浓度有降低的趋势(4.69 比 5.13 mmol/L)外,处理之间的血浆和血清代谢物没有显著差异。基于可代谢能量计算,由于乳脂降低(MFD),获得了每天 3.48 Mcal 的节能效果。同时增加的产奶量表明,至少部分节省的能量用于刺激产奶。从理论上讲,3.48 Mcal 的 ME 可以使产奶量增加 7.43 公斤/天,这高于观察到的 3 公斤/天。然而,在评估早期泌乳期间 MFD 期间的营养需求时,我们计算出当乳脂降低时,乳腺中丙酸的节省效应导致产奶量增加 2.71 摩尔。ALG 组 FF 中同时增加的 BHBA 浓度不能归因于动物能量状况恶化,因为所有其他指标都与能量平衡的任何变化相矛盾,这表明 BHBA 可能不是估计 MFD 期间早期泌乳奶牛能量平衡的合适代谢参数。
