Odens L J, Burgos R, Innocenti M, VanBaale M J, Baumgard L H
The Department of Animal Sciences, University of Arizona, Tucson 85721, USA.
J Dairy Sci. 2007 Jan;90(1):293-305. doi: 10.3168/jds.S0022-0302(07)72630-9.
Supplementing a high dose of dietary conjugated linoleic acid (CLA) inhibits milk fat synthesis in dairy cows immediately postpartum. During negative net energy balance (EBAL), it appears that moderate CLA-induced milk fat depression causes a positive response in milk yield; however, as milk fat depression becomes more severe, the milk yield response diminishes. Multiparous Holstein cows (n = 31) were randomly assigned to 1 of 3 treatments beginning 9 +/- 6 d before expected calving and ceased at 40 d in milk (DIM): 1) 578 g/d of a rumen-inert (RI) palm fatty acid distillate (control), 2) 600 g/d of RI-CLA for the entire trial period (CLA-1), and 3) 600 g/d of RI-CLA until 10 DIM followed by 200 g/d for the remainder of the trial (CLA-2). Each dose provided equal amounts of fatty acids by replacing and balancing each treatment with a RI palm fatty acid distillate. Doses provided a total of 522 g of fatty acids/ d and 0, 174, or 58 (depending upon DIM) g of CLA (mixed isomers)/d. To improve palatability, doses were mixed with 600 g/d of dried molasses; one-half of the supplement was fed at 0800 h, and the remainder at 1900 h. Individual milk yield, dry matter intake, and body weight were recorded daily and milk composition determined every other day. There was no overall CLA effect on either the content or yield of milk protein or lactose. Both CLA treatments decreased overall milk fat content (26.0 and 18.3%) and yield (22.5 and 17.3%) with CLA-induced milk fat depression becoming significant by d 8. The CLA-induced milk fat depression increased in magnitude with progressing DIM until reaching a plateau on d 18 for CLA-1 (43%) and on d 14 for CLA-2 (33%), although neither milk fat trans-10, cis-12 CLA content (1.8 mg/g) nor its transfer efficiency (6.3%) changed over time. Treatments had no effect on overall dry matter intake or milk yield, but there was a treatment x time interaction for milk production, as cows fed either CLA treatment had increased milk yield after the second week of lactation. Cows fed either CLA treatment had a significant improvement in overall EBAL (-5.1 vs. -1.8 Mcal/d), a decrease in nonesterified fatty acid levels (12%), and an increase in glucose levels (11%). A dietary supplement containing trans-10, cis-12 CLA markedly improves EBAL and bioenergetic variables and increases milk yield in the total mixed ration-fed transitioning dairy cow.
产后立即补充高剂量的膳食共轭亚油酸(CLA)可抑制奶牛的乳脂肪合成。在能量负平衡(EBAL)期间,适度的CLA诱导的乳脂肪降低似乎会使产奶量产生积极反应;然而,随着乳脂肪降低变得更加严重,产奶量的反应会减弱。将经产荷斯坦奶牛(n = 31)在预计产犊前9±6天开始随机分配到3种处理中的1种,并在产奶40天(DIM)时停止:1)每天578克瘤胃惰性(RI)棕榈脂肪酸馏出物(对照),2)在整个试验期每天600克RI-CLA(CLA-1),3)直到10 DIM每天600克RI-CLA,然后在试验剩余时间每天200克(CLA-2)。通过用RI棕榈脂肪酸馏出物替代和平衡每种处理,每种剂量提供等量的脂肪酸。剂量提供总共522克脂肪酸/天和0、174或58(取决于DIM)克CLA(混合异构体)/天。为了提高适口性,将剂量与每天600克干糖蜜混合;一半的补充剂在0800时喂食,其余的在1900时喂食。每天记录个体产奶量、干物质摄入量和体重,每隔一天测定一次牛奶成分。CLA对乳蛋白或乳糖的含量或产量均无总体影响。两种CLA处理均降低了总体乳脂肪含量(分别为26.0%和18.3%)和产量(分别为22.5%和17.3%),CLA诱导的乳脂肪降低在第8天变得显著。CLA诱导的乳脂肪降低幅度随着DIM的增加而增加,直到CLA-1在第18天(43%)和CLA-2在第14天(33%)达到平稳期,尽管反式-10,顺式-12 CLA的乳脂肪含量(1.8毫克/克)及其转移效率(6.3%)均未随时间变化。处理对总体干物质摄入量或产奶量没有影响,但产奶量存在处理×时间交互作用,因为喂食任何一种CLA处理的奶牛在泌乳第二周后产奶量增加。喂食任何一种CLA处理的奶牛在总体EBAL方面都有显著改善(-5.1对-1.8兆卡/天),非酯化脂肪酸水平降低(12%),葡萄糖水平升高(11%)。含有反式-10,顺式-12 CLA的膳食补充剂可显著改善EBAL和生物能量变量,并提高全混合日粮喂养的过渡期奶牛的产奶量。
