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本文引用的文献

1
Evaluation of active dried yeast in the diets of feedlot steers. II. Effects on rumen pH and liver health of feedlot steers1.干酵母在育肥牛日粮中的评价。 II. 对育肥牛瘤胃 pH 值和肝脏健康的影响 1.
J Anim Sci. 2019 Mar 1;97(3):1347-1363. doi: 10.1093/jas/skz008.
2
Influence of yeast culture and feed antibiotics on ruminal fermentation and site and extent of digestion in beef heifers fed high grain rations1.高谷物日粮条件下添加酵母培养物和饲用抗生素对肉牛育肥期瘤胃发酵及消化部位和程度的影响 1 。
J Anim Sci. 2018 Sep 7;96(9):3916-3927. doi: 10.1093/jas/sky249.
3
An assessment of the effectiveness of virginiamycin on liver abscess incidence and growth performance in feedlot cattle: a comprehensive statistical analysis.评价维吉尼亚霉素对牛育肥场肝脓肿发病率和生长性能的影响:全面的统计分析。
J Anim Sci. 2018 Jun 4;96(6):2474-2489. doi: 10.1093/jas/sky121.
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Effects of active dry yeast on ruminal pH characteristics and energy partitioning of finishing steers under thermoneutral or heat-stressed environment.活性干酵母对热中性或热应激环境下育肥牛瘤胃 pH 特征和能量分配的影响。
J Anim Sci. 2018 Jun 29;96(7):2861-2876. doi: 10.1093/jas/sky165.
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Specific microbiome-dependent mechanisms underlie the energy harvest efficiency of ruminants.特定的微生物群落依赖机制是反刍动物能量获取效率的基础。
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Effects of supplementing an active dry yeast product on rumen microbial community composition and on subsequent rumen fermentation of lactating cows in the mid-to-late lactation period.在泌乳中后期向泌乳奶牛补充活性干酵母产品对瘤胃微生物群落组成及随后瘤胃发酵的影响。
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The influence of feed energy density and a formulated additive on rumen and rectal temperature in hanwoo steers.饲料能量密度和一种配方添加剂对韩牛阉牛瘤胃和直肠温度的影响。
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Special topics--Mitigation of methane and nitrous oxide emissions from animal operations: I. A review of enteric methane mitigation options.专题——减轻畜牧生产中的甲烷和一氧化二氮排放:I. 反刍动物甲烷减排方案综述
J Anim Sci. 2013 Nov;91(11):5045-69. doi: 10.2527/jas.2013-6583. Epub 2013 Sep 17.
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评价不同添加水平的干燥活性酵母对生长育肥牛瘤胃内各项参数以及干物质和中性洗涤纤维在瘤胃内原位消化率的影响。

Evaluation of different inclusion levels of dry live yeast impacts on various rumen parameters and in situ digestibilities of dry matter and neutral detergent fiber in growing and finishing beef cattle.

机构信息

Department of Animal Science, Texas A&M University, College Station, TX.

Food and Feed Safety Research Unit, USDA-ARS, College Station, TX.

出版信息

J Anim Sci. 2019 Dec 17;97(12):4987-4998. doi: 10.1093/jas/skz342.

DOI:10.1093/jas/skz342
PMID:31679025
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6915237/
Abstract

This study evaluated the effects of supplementing dry live yeast (LY; Saccharomyces cerevisiae) on in vitro gas production (IVGP) fermentation dynamics, pH, and CH4 concentration at 48 h, and in situ rumen parameters and digestibility of DM (DMD) and NDF (NDFD) of growing cattle during 3 feeding phases: grower (GRW) for 17 d (38% steamed-flaked corn; SFC), transition (TRANS) for 15 d (55.5% SFC: 1.2 Mcal/kg NEg), and finisher (FIN) for 13 d (73% SFC: 1.23 Mcal/kg NEg). Twenty British-crossbred, ruminally cannulated steers (183 kg ± 44 kg) 6 mo of age were blocked by weight into 5 pens containing Calan gate feeders and received a control (CON) diet (17.2% CP, 35.8% NDF, 86.7% DM) without LY on days -12 to 0. After that, animals were randomly assigned to treatments (TRT), 5 animals per TRT: CON or LY at inclusion rates of 5 g/d (LY1), 10 g/d (LY2), or 15 g/d (LY3) top dressed every morning at 0800 for 45 d. The DMD and NDFD were assessed during 7 separate collection days using in situ nylon bags containing 5 g of GRW, TRANS, or FIN diets, incubated at 1200 for 48 h. Protozoa counts (PC) were determined during 5 collection periods. Data were analyzed as a repeated measure within a randomized complete block design, assuming a random effect of the pen. For GRW, TRT altered the total gas production of the nonfiber carbohydrate (NFC; P = 0.045) and the fractional rate of degradation (kd) of the fiber carbohydrate (FC) pool (P = 0.001) in a cubic pattern (P ≤ 0.05): LY2 had the most gas production and fastest kd. TRT also influenced DMD (P = 0.035) and NDFD (P = 0.012) with LY2 providing the greatest digestibility. For TRANS, TRT tended to affect the NFC kd (P = 0.078) and influenced pH (P = 0.04) and DMD (P < 0.001) in which LY2 yielded the fastest kd, highest pH, and greatest DMD. For FIN, there was an effect of TRT on total gas production (P < 0.001) and kd (P = 0.004) of the NFC pool, FC kd (P = 0.012), in vitro CH4 concentration (P < 0.001), PC (P < 0.001), DMD (P = 0.039), and NDFD (P = 0.008). LY1 had the highest PC and provided the greatest DMD and NDFD. LY2 had the fastest kd of both the NFC and FC pools and had the least CH4 concentration. LY3 had the greatest NFC gas production. No specific dose-response pattern was observed, but 10 g/d provided the most beneficial result for all diets. We concluded that supplementation with LY affected IVGP as well as ruminal parameters and digestibilities.

摘要

这项研究评估了补充干酵母(LY;酿酒酵母)对体外产气(IVGP)发酵动力学、48 小时时的 pH 和 CH4 浓度的影响,以及在 3 个饲养阶段对生长牛的瘤胃内参数和干物质消化率(DMD)和中性洗涤纤维消化率(NDFD)的影响:生长(GRW)期 17 天(38%蒸汽压片玉米;SFC)、过渡(TRANS)期 15 天(55.5% SFC:1.2 Mcal/kg 有效能)和育肥(FIN)期 13 天(73% SFC:1.23 Mcal/kg 有效能)。20 头英国杂交、瘤胃内置管的公牛(183 公斤±44 公斤),按体重分为 5 个围栏,每个围栏内装有 Calan 门饲槽,并在第-12 天至 0 天期间接受对照(CON)饮食(17.2% CP、35.8% NDF、86.7% DM),不添加 LY。之后,动物随机分配到处理组(TRT),每个处理组 5 头动物:CON 或 LY,添加率分别为 5 g/d(LY1)、10 g/d(LY2)或 15 g/d(LY3),每天早上 0800 分在表面撒布,共 45 天。通过在 1200 下培养 48 小时,使用含有 5 g GRW、TRANS 或 FIN 饮食的体内尼龙袋,在 7 个单独的收集日评估 DMD 和 NDFD。在 5 个收集期测定原生动物计数(PC)。数据作为随机完整块设计的重复测量进行分析,假设栏的随机效应。对于 GRW,TRT 以立方模式改变非纤维碳水化合物(NFC;P = 0.045)的总产气量和纤维碳水化合物(FC)池的降解分数速率(kd;P = 0.001)(P ≤ 0.05):LY2 产生的气体最多,kd 最快。TRT 还影响 DMD(P = 0.035)和 NDFD(P = 0.012),LY2 提供最大的消化率。对于 TRANS,TRT 倾向于影响 NFC kd(P = 0.078)并影响 pH(P = 0.04)和 DMD(P < 0.001),其中 LY2 产生最快的 kd、最高的 pH 和最大的 DMD。对于 FIN,TRT 对 NFC 总产气量(P < 0.001)和 kd(P = 0.004)、FC kd(P = 0.012)、体外 CH4 浓度(P < 0.001)、PC(P < 0.001)、DMD(P = 0.039)和 NDFD(P = 0.008)有影响。LY1 的 PC 最高,提供最大的 DMD 和 NDFD。LY2 的 NFC 和 FC 池的 kd 最快,CH4 浓度最低。LY3 的 NFC 产气量最大。没有观察到特定的剂量反应模式,但 10 g/d 的添加量对所有日粮都有最有益的效果。我们得出结论,补充 LY 影响 IVGP 以及瘤胃参数和消化率。