Department of Animal Nutrition and Management, Swedish University of Agricultural Sciences, PO Box 7024, SE-75007 Uppsala, Sweden.
Växa Sweden, Box 288, 75105 Uppsala, Sweden.
J Dairy Sci. 2017 Oct;100(10):7990-8003. doi: 10.3168/jds.2017-12874. Epub 2017 Aug 2.
Grass silage-based diets often result in poor nitrogen utilization when fed to dairy cows. Perennial ryegrass cultivars with high concentrations of water-soluble carbohydrates (WSC) have proven potential for correcting this imbalance when fed fresh, and have also been shown to increase feed intake, milk production, and N utilization. The possibility of achieving corresponding effects with silage-based diets was investigated in change-over experiments in an incomplete block design with 16 (yr 1) or 12 (yr 2) Swedish Red dairy cows in mid lactation. Measurements on N excretion and rumen parameters were performed on subgroups of 8 and 4 cows, respectively. In yr 1, 2 ryegrass cultivars (standard = Fennema; high-WSC = Aberdart) and 2 cuts (first and second) were compared. In all treatments, ryegrass silage was mixed 75/25 on a dry matter (DM) basis, with red clover silage before feeding out. In yr 2, 1 basic mixture from the different cuts of these 2 cultivars was used and experimental factors were red clover silage inclusion (25 or 50%) and sucrose addition (0 or 10%) on a silage DM basis. Differences in WSC concentration in the silage mixtures in yr 1 were minor, whereas the differences between cuts were more substantial: 100 compared with 111 g/kg of DM for first-cut silage and 39 compared with 47 g/kg of DM for second-cut silage. The silages fed in yr 2 had a WSC concentration of 115 or 102 g/kg of DM (25 or 50% red clover, respectively), but when sucrose was added WSC concentration reached 198 and 189 g/kg of DM, respectively. Milk production (kg/d) did not differ between treatments in either year. Red clover inclusion to 50% of silage DM increased milk protein. Nitrogen efficiency (milk N/feed N) increased from 0.231 to 0.254 with sucrose inclusion in yr 2 (average for the 2 red clover levels). Overall rumen pH was 5.99 and increased sucrose level did not affect pH level or daily pH pattern. Sucrose addition reduced neutral detergent fiber digestibility, particularly at higher inclusion rates of clover. Rumen pool of total purines did not differ between treatments, nor did protein production assessed from urinary allantoin. The NorFor feed evaluation model overestimated digestibility of neutral detergent fiber and N, but underestimated N excretion in feces. We concluded that addition of WSC to dairy cow diets at levels up to 3 kg of WSC per day (>14% of DM) does not dramatically affect cow performance.
当奶牛食用以青贮草为基础的日粮时,氮的利用率往往很差。当新鲜喂养时,具有高水溶性碳水化合物(WSC)浓度的黑麦草品种已被证明具有纠正这种不平衡的潜力,并且还被证明可以增加采食量、产奶量和氮利用率。在不完全块设计的转换实验中,用泌乳中期的 16 头(第 1 年)或 12 头(第 2 年)瑞典红牛奶牛研究了在青贮饲料基础日粮中实现这种效果的可能性。第 1 年,比较了 2 种黑麦草品种(标准= Fennema;高 WSC=Aberdart)和 2 个茬(第 1 茬和第 2 茬)。在所有处理中,黑麦草青贮饲料在干物质(DM)基础上以 75/25 的比例混合,在喂食前加入红三叶草青贮饲料。在第 2 年,使用了来自这两个品种的不同茬口的 1 个基本混合物,实验因素为红三叶草青贮饲料的添加量(25%或 50%)和蔗糖的添加量(青贮饲料 DM 基础上的 0 或 10%)。第 1 年青贮饲料混合物中 WSC 浓度的差异较小,而茬口之间的差异较大:第 1 茬青贮饲料为 100 克/千克 DM,第 2 茬青贮饲料为 39 克/千克 DM。第 2 年喂养的青贮饲料的 WSC 浓度分别为 115 或 102 克/千克 DM(分别为 25%或 50%的红三叶草),但添加蔗糖后,WSC 浓度分别达到 198 和 189 克/千克 DM。在这两年中,不同处理对产奶量(kg/d)没有影响。在青贮饲料 DM 中添加 50%的红三叶草增加了牛奶蛋白。第 2 年添加蔗糖使氮效率(牛奶氮/饲料氮)从 0.231 增加到 0.254(两个红三叶草水平的平均值)。总体瘤胃 pH 为 5.99,蔗糖水平的增加并没有影响 pH 水平或每日 pH 模式。蔗糖的添加降低了中性洗涤纤维的消化率,尤其是在较高的三叶草添加率下。瘤胃总嘌呤池在处理之间没有差异,从尿囊素评估的蛋白质产量也没有差异。NorFor 饲料评估模型高估了中性洗涤纤维和 N 的消化率,但低估了粪便中的 N 排泄量。我们得出的结论是,在奶牛日粮中添加 WSC 的水平高达每天 3 公斤 WSC(占 DM 的 14%以上)不会显著影响奶牛的生产性能。
