William H. Miner Agricultural Research Institute, Chazy, NY 12921.
Micronutrients USA LLC, Indianapolis, IN 46241.
J Dairy Sci. 2020 Apr;103(4):3147-3160. doi: 10.3168/jds.2019-17716. Epub 2020 Feb 7.
We evaluated the effects of source of corn silage and trace minerals on lactational performance and total-tract digestibility (TTD) of nutrients in 16 Holstein cows averaging 82 (standard error = 3) days in milk in a replicated 4 × 4 Latin square design with a 2 × 2 factorial arrangement of treatments with 28-d periods. The diets consisted [dry matter (DM) basis] of 55% conventional (CON) or brown midrib-3 (BM3) corn silage, 2% chopped wheat straw, and 43% grain mix with either sulfate (STM) or hydroxy (HTM) sources of copper, manganese, and zinc trace minerals. The targeted supplemental concentrations of copper, zinc, and manganese were 194, 1,657, and 687 mg/d, respectively. The dietary treatments were CON-STM, CON-HTM, BM3-STM, and BM3-HTM. The dietary nutrient composition of the BM3 diets averaged 32.1% amylase neutral detergent fiber on an organic matter basis (aNDFom) and 6.9% undigested neutral detergent fiber at 240 h (uNDF240om; % of DM), and CON diets averaged 36.2% aNDFom and 8.6% uNDF240om (% of DM). The average supplemental concentrations of copper, zinc, and manganese for the STM diets were 10, 41, and 64 mg/kg, respectively, and the average supplemental concentrations of copper, zinc, and manganese for the HTM diets were 10, 40, and 62 mg/kg, respectively. The average total dietary concentrations of copper, zinc, and manganese for the STM diets were 17, 104, and 60 mg/kg, respectively, and the average total dietary concentrations of copper, zinc, and manganese for the HTM diets were 17, 91, and 66 mg/kg, respectively. Data were summarized by period and analyzed as a replicated Latin square design with fixed model effects for corn silage, trace minerals, corn silage × trace mineral interaction, period within replicated square, and replicated square using the MIXED procedure of SAS. Cow within replicated square was a random effect. Cows fed the BM3 diets had greater dry matter intake (DMI) and milk yield (28.1 and 47.0 kg/d) than cows fed the CON diets (27.5 and 44.7 kg/d). We found no significant interaction between corn silage and trace minerals for DMI and milk yield. Cows fed the HTM diets (28.1 kg/d) had a greater DMI than cows fed the STM diets (27.5 kg/d). Cows fed the BM3 diets had greater TTD of DM and OM (72.8 and 74.1% of DM) than cows fed the CON diets (71.1 and 72.3% of DM). Cows fed the HTM diets had a tendency for greater TTD of aNDFom than cows fed the STM diets (56.8 vs. 54.9% of DM). Cows fed the CON diets ruminated longer during the day than cows fed the BM3 diets (524 vs. 496 min/d). Corn silage with greater NDF digestibility and lower uNDF240om enhanced DMI, milk yield, and TTD of DM and OM, and hydroxy trace minerals improved DMI and tended to improve TTD of aNDFom. The source of corn silage and trace minerals should be taken into consideration when formulating diets for high-producing dairy cows.
我们评估了青贮玉米来源和微量矿物质对 16 头荷斯坦奶牛泌乳性能和总肠道消化率(TTD)的影响,这些奶牛平均产奶 82(标准误差=3)天,采用 2×2 因子设计的重复 4×4 拉丁方设计,处理分为 28 天期。日粮由 55%常规(CON)或棕色中脉-3(BM3)青贮玉米、2%切碎的小麦秸秆和 43%谷物混合物组成,其中含有硫酸盐(STM)或羟基(HTM)来源的铜、锰和锌微量矿物质。目标补充铜、锌和锰的浓度分别为 194、1657 和 687mg/d。日粮处理为 CON-STM、CON-HTM、BM3-STM 和 BM3-HTM。BM3 日粮的日粮养分组成平均为有机物质基础上的淀粉酶中性洗涤纤维 32.1%(aNDFom)和 240 小时未消化中性洗涤纤维 6.9%(uNDF240om;占 DM 的百分比),CON 日粮平均为 aNDFom 36.2%和 uNDF240om 8.6%(占 DM 的百分比)。STM 日粮铜、锌和锰的平均补充浓度分别为 10、41 和 64mg/kg,HTM 日粮铜、锌和锰的平均补充浓度分别为 10、40 和 62mg/kg。STM 日粮铜、锌和锰的总膳食浓度平均为 17、104 和 60mg/kg,HTM 日粮铜、锌和锰的总膳食浓度平均为 17、91 和 66mg/kg。数据按时期汇总,并采用 SAS 的 MIXED 程序分析重复拉丁方设计的固定模型效应,包括青贮玉米、微量矿物质、青贮玉米×微量矿物质相互作用、重复方内时期和重复方。重复方内的奶牛是一个随机效应。饲喂 BM3 日粮的奶牛干物质采食量(DMI)和产奶量(28.1 和 47.0kg/d)高于饲喂 CON 日粮的奶牛(27.5 和 44.7kg/d)。我们没有发现 DMI 和产奶量在青贮玉米和微量矿物质之间存在显著的互作。饲喂 HTM 日粮(28.1kg/d)的奶牛 DMI 大于饲喂 STM 日粮(27.5kg/d)的奶牛。饲喂 BM3 日粮的奶牛 DM 和 OM 的 TTD(DM 的 72.8%和 74.1%)高于饲喂 CON 日粮的奶牛(DM 的 71.1%和 72.3%)。饲喂 HTM 日粮的奶牛的 aNDFom TTD 倾向于高于饲喂 STM 日粮的奶牛(DM 的 56.8%对 54.9%)。饲喂 CON 日粮的奶牛在白天的反刍时间长于饲喂 BM3 日粮的奶牛(524 对 496min/d)。具有较高 NDF 消化率和较低 uNDF240om 的青贮玉米提高了 DMI、产奶量和 DM 和 OM 的 TTD,羟基微量矿物质提高了 DMI,并倾向于提高 aNDFom 的 TTD。在为高产奶牛配制日粮时,应考虑青贮玉米和微量矿物质的来源。
