Department of Animal Sciences, University of Florida, Gainesville, FL 32611, USA.
J Dairy Sci. 2011 Jan;94(1):189-204. doi: 10.3168/jds.2010-3370.
The objectives were to evaluate the effects of differential timing of supplementation of different Ca salts (CS) of fatty acids (FA) on FA profiles of cotyledonary-caruncular tissues, metabolic status, uterine health, pregnancy, pregnancy losses after 2 artificial inseminations (AI), and milk yield. Holstein cows (n=1,380) were assigned randomly to be fed either CS of palm oil (PO) or safflower oil (SO) from 30 d prepartum until 30 d postpartum (dpp) and further randomized to receive either CS of PO or fish oil (FO) from 30 to 160 dpp. Supplementation of CS of FA was at 1.5% of dietary dry matter. Tissues (n=23) and blood (n=32) were collected from a subsample of cows. Blood was collected daily from parturition to 10 dpp and three times weekly thereafter until 30 dpp for analyses of PGF2α metabolite, nonesterified FA, β-hydroxybutyric acid, blood urea nitrogen, and glucose. Cows were evaluated once between 8 to 10 dpp for cervical discharge type. At 43 dpp, cows received 2 injections of PGF2α 14 d apart, followed 14 d later by injections of GnRH at 7 d before and 56 h after an injection of PGF2α with AI at 16 h after the second GnRH injection. All cows received intravaginally a controlled internal drug-releasing device, containing 1.38 g of progesterone, at 18 d after the first AI followed 7 d later by removal of the device and injection of GnRH. Nonpregnant cows at 32 d after AI were injected with PGF2α, followed 56 h later with a GnRH injection and second AI 16 h thereafter. Cows diagnosed pregnant after both AI were re-examined at 60 d of pregnancy to determine pregnancy losses. Milk weights were recorded monthly for all cows. Caruncular n-6:n-3 FA ratio was greater in cows fed SO. Plasma concentrations of metabolites and frequency of cervical discharge type did not differ between PO- and SO-fed cows. Plasma PGF2α metabolite was greater in SO-fed cows at 4 and 7 dpp. Pregnancy per AI at 32 and 60 d post first AI was not affected by diets, but pregnancy loss was less in FO-fed cows. At second AI, pregnancy was greater in FO-fed cows at 32 d and in SO-FO-fed cows at 60 d post AI. Pregnancy loss after second AI was not affected by diets. Overall pregnancy per AI was greater in cows fed SO followed by FO at 60 d of pregnancy and pregnancy loss was reduced in FO-fed cows. Monthly milk yield was greater (0.7 kg/d) in SO-fed cows. In conclusion, strategic feeding of CS of FA during transition and breeding periods can benefit fertility and milk production of lactating dairy cows.
目的是评估不同脂肪酸(FA)钙盐(CS)补充时间的差异对胎盘中带区组织 FA 谱、代谢状态、子宫健康、妊娠、两次人工授精(AI)后的妊娠损失以及产奶量的影响。将荷斯坦奶牛(n=1380)随机分配在产前 30 天至产后 30 天(dpp)期间分别喂食棕榈油(PO)或红花油(SO)的 CS,进一步随机在 30 至 160 dpp 期间喂食 PO 或鱼油(FO)的 CS。FA CS 的补充量为日粮干物质的 1.5%。从奶牛的亚样本中采集了组织(n=23)和血液(n=32)。从分娩到 10 dpp 每天采集血液,此后每周采集三次,直到 30 dpp,以分析 PGF2α 代谢物、非酯化 FA、β-羟丁酸、血尿素氮和葡萄糖。在 8 至 10 dpp 之间,奶牛接受了一次宫颈分泌物类型评估。在 43 dpp 时,奶牛接受了两次间隔 14 天的 PGF2α 注射,然后在第二次 GnRH 注射前 7 天和 GnRH 注射后 56 小时,在 PGF2α 注射后 16 小时进行了 GnRH 注射和 AI。所有奶牛在第一次 AI 后 18 天阴道内植入含有 1.38 克孕激素的控释宫内节育器,7 天后取出装置并注射 GnRH。第一次 AI 后 32 天未怀孕的奶牛注射 PGF2α,56 小时后注射 GnRH 第二次 AI 在 GnRH 注射后 16 小时进行。两次 AI 后确诊怀孕的奶牛在 60 d 妊娠时再次检查以确定妊娠损失。所有奶牛的产奶量每月都有记录。喂食 SO 的奶牛的带区 n-6:n-3 FA 比值更高。PO 和 SO 喂养的奶牛之间,血浆代谢物浓度和宫颈分泌物类型的频率没有差异。SO 喂养的奶牛在 4 天和 7 天的 PGF2α 代谢物更高。在第一次 AI 后 32 天和 60 天的 AI 中,妊娠率不受饮食影响,但 FO 喂养的奶牛的妊娠损失较少。在第二次 AI 中,32 天的 FO 喂养奶牛和 60 天的 SO-FO 喂养奶牛的妊娠率更高。第二次 AI 后的妊娠损失不受饮食影响。在 PO 后 SO-FO 喂养的奶牛中,整体妊娠率在第二次 AI 后更高 AI 后 60 天妊娠损失减少。SO 喂养的奶牛每月产奶量更高(0.7kg/d)。总之,在过渡和繁殖期战略性地喂养 FA CS 可以有益于泌乳奶牛的繁殖力和产奶量。
