Schroeder G F, Gagliostro G A, Becu-Villalobos D, Lacau-Mengido I
Consejo Nacional de Investigaciones Científicas y Técnicas, Argentina.
J Dairy Sci. 2002 Mar;85(3):580-94. doi: 10.3168/jds.S0022-0302(02)74112-X.
Effects of partially hydrogenated oil on performance, loss of body weight and body condition score, and blood metabolite and hormone concentrations were evaluated in 37 multiparous Holstein cows in grazing conditions during the first 100 d of lactation. Six additional Holstein cows, each fitted with a ruminal cannula, were allocated to a replicated 3 x 3 Latin square to evaluate effects of supplemental fat on rumen environment and pasture digestion. All cows grazed mixed pastures based on alfalfa (Medicago sativa) and orchardgrass (Dactylis glomerata L.) and received 5.4 kg/d of a basal concentrate to which 0, 0.5, or 1 kg/cow per day of partially hydrogenated oil (melting point 58 to 60 degrees C) containing 30.3, 34.9, 21.8, and 3.3% of C16:0, C18:0, C18:1, and C182, respectively, was added. Feeding 1 kg/d of supplemental fat increased fat-corrected milk from 23.4 to 26.3 kg/d, milk fat content from 3.44 to 3.78%, and milk fat yield from 0.87 to 1.03 kg/d compared to control. Milk protein percentage and yield were not affected. Cows fed 1 kg/d of fat increased the content and yield of C16:0 and C18:0 in milk compared with cows fed no added oil. Dry matter intake (DMI) from pasture decreased from 17.8 kg/d for control cows to 13.6 kg/d for cows fed 1 kg of oil, whereas DMI from concentrate was higher for cows fed 1 kg/d of fat (6.0 kg/d) than for controls (5.2 kg/d). Supplemental fat did not affect total dry matter or estimated energy intake and did not change losses of body weight or body condition scores. Plasma concentrations of nonesterified fatty acids, insulin, somatotrophin, and insulin-like growth factor-I did not differ among treatments. Concentration of plasma triglycerides was lowered from 318.5 to 271.2 mg/dl, whereas plasma cholesterol was elevated from 185.0 to 235.8 mg/dl in cows receiving 1 kg/d of supplemental fat compared with controls. Responses to lipolytic or insulin challenges were not affected by feeding oil. Supplemental fat did not affect the digestion of pasture fiber. The addition of energy in the form of partially hydrogenated fat to early lactation dairy cows fed primarily on pasture increased the yield of fat-corrected milk and milk fat content when it represented about 11% of the total metabolizable energy requirement of cows, without affecting milk protein content. The partial hydrogenation of a byproduct of the oil industry apparently prevented detrimental effects of fat supplementation on ruminal digestion.
在37头经产荷斯坦奶牛泌乳期的前100天放牧条件下,评估了部分氢化油对奶牛生产性能、体重减轻和体况评分以及血液代谢物和激素浓度的影响。另外6头安装了瘤胃瘘管的荷斯坦奶牛被分配到一个重复的3×3拉丁方试验中,以评估补充脂肪对瘤胃环境和牧草消化的影响。所有奶牛都采食以苜蓿(紫花苜蓿)和果园草(鸭茅)为主的混合牧草,并每天采食5.4千克基础精饲料,在基础精饲料中分别添加0、0.5或1千克/头/天的部分氢化油(熔点58至60摄氏度),该部分氢化油分别含有30.3%、34.9%、21.8%和3.3%的C16:0、C18:0、C18:1和C18:2。与对照组相比,每天补饲1千克补充脂肪可使校正乳脂量从23.4千克/天增加到26.3千克/天,乳脂率从3.44%提高到3.78%,乳脂肪产量从0.87千克/天增加到1.03千克/天。乳蛋白百分比和产量不受影响。与未添加油的奶牛相比,每天补饲1千克脂肪的奶牛所产牛奶中C16:0和C18:0的含量和产量增加。来自牧草的干物质采食量(DMI)从对照组奶牛的17.8千克/天降至补饲1千克油的奶牛的13.6千克/天,而每天补饲1千克脂肪的奶牛来自精饲料的DMI(6.0千克/天)高于对照组(5.2千克/天)。补充脂肪不影响总干物质或估计能量摄入量,也不改变体重损失或体况评分。各处理间血浆非酯化脂肪酸、胰岛素、生长激素和胰岛素样生长因子-I的浓度没有差异。与对照组相比,每天补饲1千克补充脂肪的奶牛血浆甘油三酯浓度从318.5毫克/分升降至271.2毫克/分升,而血浆胆固醇从185.0毫克/分升升至235.8毫克/分升。补饲油脂对脂肪分解或胰岛素刺激的反应没有影响。补充脂肪不影响牧草纤维的消化。在以牧草为主的泌乳早期奶牛日粮中添加部分氢化脂肪形式的能量,当该能量占奶牛总可代谢能量需求的约11%时,可提高校正乳脂量和乳脂率,而不影响乳蛋白含量。石油工业副产品的部分氢化显然防止了补充脂肪对瘤胃消化的有害影响。
