Dunn A, Ashfield A, Earley B, Welsh M, Gordon A, McGee M, Morrison S J
Sustainable Livestock, Agri-food and Bio-sciences Institute, Hillsborough, United Kingdom, BT26 6DR.
Agri-food and Bio-sciences Institute, Newforge Lane, Belfast, United Kingdom, BT9 5PX.
J Dairy Sci. 2017 Jan;100(1):357-370. doi: 10.3168/jds.2016-11334. Epub 2016 Nov 17.
The objectives were to evaluate the effect of (1) supplementing concentrates to multiparous Holstein cows during the dry period on colostral and milk immunoglobulin G (IgG) concentration; and (2) feeding calves colostrum at either 5 or 10% of their body weight (BW) on passive transfer of immunity, health, and performance. Holstein multiparous cows (n=37) were assigned to 1 of 2 nutritional treatments during an 8-wk dry period: (1) offered ad libitum grass silage only (GS) or (2) offered ad libitum access to the same grass silage plus concentrate [total mixed ration in a 75:25 dry matter (DM) ratio], providing a mean concentrate DM intake of 3.0kg/cow per day (GSC). Both treatment groups were offered identical levels of mineral and vitamin supplementation. Calves from these cows were weighed immediately after birth and fed either 5% (5BW) or 10% (10BW) of their BW in colostrum from their own dams within 2.5h of birth. Calves in the 10BW group received their second feed of colostrum from first-milking colostrum. Concentrate supplementation during the dry period had no effect on colostral IgG concentration, first-milking IgG yield, or fat, protein, and lactose contents. However, cows in GSC produced a greater mean milk yield over the first 8 milkings compared with cows in the GS group. Concentrate supplementation had no effect on calf BW or BW gain, serum IgG, or apparent efficiency of absorption (AEA) at 24h after birth. However, offspring from the GSC group had fewer cases of enteritis during the first 56d of life compared with offspring from the GS group. Calves in the 10BW group had greater mean serum IgG concentration for the first 3d following birth; however, at 24h after birth, we observed no treatment effect on AEA. The rate of enteritis was greater for calves in the 5BW treatment compared with 10BW. The colostrum-feeding regimen had no effect on BW gain or on the incidence of pneumonia among calf treatment groups. In conclusion, concentrate supplementation regimens offered during the dry period had a positive effect on colostrum yield, and offspring from the GSC group had a reduced rate of enteritis. Feeding 10% of BW of colostrum versus 5% of BW resulted in a greater serum IgG concentration for the first 3d postpartum, and 10BW calves had a reduced rate of enteritis. Overall, to achieve successful passive transfer, decrease the rate of enteritis, and increase efficiency in the dairy calf, we recommend that dairy calves be fed 10% of their BW in colostrum as soon as possible after birth.
(1) 在干奶期给经产荷斯坦奶牛补饲精料对初乳和牛奶中免疫球蛋白G(IgG)浓度的影响;以及(2) 给犊牛饲喂体重5%或10%的初乳对免疫被动转移、健康状况和生产性能的影响。37头经产荷斯坦奶牛在8周干奶期被分配到2种营养处理之一:(1) 仅随意采食青贮牧草(GS),或(2) 随意采食相同青贮牧草加精料[干物质(DM)比例为75:25的全混合日粮],平均每头奶牛每天精料DM摄入量为3.0kg(GSC)。两个处理组的矿物质和维生素补充水平相同。这些奶牛所产犊牛出生后立即称重,并在出生后2.5小时内饲喂来自其自身母亲体重5%(5BW)或10%(10BW)的初乳。10BW组的犊牛第二次初乳饲喂的是首次挤奶的初乳。干奶期补饲精料对初乳IgG浓度、首次挤奶的IgG产量或脂肪、蛋白质和乳糖含量没有影响。然而,与GS组奶牛相比,GSC组奶牛在最初8次挤奶期间的平均产奶量更高。补饲精料对犊牛体重或体重增加、血清IgG或出生后24小时的表观吸收效率(AEA)没有影响。然而,与GS组后代相比,GSC组后代在出生后前56天内患肠炎的病例较少。10BW组犊牛在出生后的前3天平均血清IgG浓度更高;然而,在出生后24小时,我们未观察到处理对AEA有影响。5BW处理组的犊牛患肠炎的比例高于10BW组。初乳饲喂方案对犊牛处理组的体重增加或肺炎发病率没有影响。总之,干奶期的补饲精料方案对初乳产量有积极影响,GSC组的后代患肠炎的比例降低。与饲喂体重5%的初乳相比,饲喂体重10%的初乳可使产后前3天血清IgG浓度更高,且10BW组犊牛患肠炎的比例降低。总体而言,为实现成功的被动转移、降低肠炎发病率并提高犊牛的生产效率,我们建议在犊牛出生后尽快饲喂其体重10%的初乳。
