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《养殖与饲料.饲料世界》2016,(7)
全混合日粮(TMR)是现代标准化、规模化奶牛场普遍采用的饲喂技术。该技术是依据奶牛各阶段的营养需要,一次性供给奶牛精粗比合适、适口性较好、各部分营养浓度相同的日粮,TMR技术可以更好地发挥奶牛的生产性能。本文介绍了TMR饲喂技术特点、全混合日粮制作要点和饲喂关键措施。 相似文献
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全混合日粮(TMR)是现代标准化、规模化奶牛场普遍采用的饲喂技术。该技术是依据各阶段奶牛的营养需要,一次性供给奶牛精粗比合适、适口性较好、各部分营养浓度相同的日粮,TMR技术可以更好地发挥奶牛的生产性能。本文综述了TMR的优点以及提高奶牛TMR饲喂效果的方法。 相似文献
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正全混合日粮(TMR)技术是一种先进的奶牛饲养技术,国内外研究表明:采用全混合日粮饲喂奶牛,能够保证奶牛摄入均衡的营养,提高奶牛的生产性能,并节省大量的人力和物力。全混合日粮饲喂技术,并不是简单地将粗饲料、精饲料、饲料添加剂等搅拌后饲喂,其中有多个关键控制点需要注意。1 TMR搅拌机的选择牧场一旦采用全混合日粮饲喂技术后,TMR 相似文献
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全混合日粮,又称TMR (TotalMixedRation),指根据不同生长发育及泌乳阶段奶牛的营养需求和饲养战略,按照营养专家计算提供的配方,用特制的TMR饲料搅拌机对日粮各组分进行科学的混合,供奶牛自由采食的日粮.实践应用证明,奶牛全混合日粮(TMR)调制饲喂技术对维持奶牛健康和提高生产性能有明显效果[1-3].本文着重说明了TMR饲喂技术中的关键环节,具体包括搅拌设备的选择、选择适合的容积、合理设计TMR操作规程、注意事项等. 相似文献
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<正>全混合日粮(Total Mixed Ratition,简称TMR)是指根据奶牛的营养需求和饲养战略,按照营养专家计算提供的配方,对日粮各组分别进行科学的混合,供奶牛自由采食的全混合日粮。全混合日粮(TMR)是现代奶牛养殖应用最多的饲喂技术,并取得了良好的经济效益,全混合日粮饲喂技术是以科学配制营养日粮为基础,以充分发挥奶牛瘤胃机能,以养好奶牛瘤胃,提高饲料的利用率,提高奶牛的产奶性能。 相似文献
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正TMR,即奶牛全混合日粮,是根据奶牛不同生长发育和泌乳阶段的营养需要,按营养专家设计的配方,用特质的搅拌机对日粮各组分进行搅拌、切割、混合和饲喂的一种先进饲养工艺。这样配出的饲料能够保证奶牛每采食一口饲料的营养都是均衡的。据河北农业大学动物科技学院高艳霞教授介绍,奶牛场使用TMR饲喂技术,至少有以下几点好处:一是维持牛群健康。因为TMR全混合日粮经过均匀的搅拌、切割、揉搓等工艺,增强了奶牛的适口性,TMR的配方是根据奶牛营养需求制定的,解决了奶牛采食随意性问题,降低了人为管理失误因素,均衡的营养使牛群更加健康。二是提高牛奶产量。TMR日粮是奶牛 相似文献
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不同泌乳期高产奶牛TMR技术应用的研究 总被引:1,自引:0,他引:1
TMR饲喂技术是指根据不同生长发育及泌乳阶段奶牛的营养需求,按照营养专家提供的配方,用特制的TMR饲料搅拌机对日粮各组分进行科学的混合,提供奶牛自由采食的全混合日粮.TMR日粮保证了奶牛所采食的每一口饲料都是营养均衡的,饲喂TMR全混日粮能使奶牛场养殖效益大幅度提高,能够使奶牛场从传统的养殖方式顺利地过渡到现代化的饲养方式.为了验证TMR饲喂技术对高产奶牛泌乳前期的饲喂效果,课题组按首次产犊第一泌乳期母牛,第二、三泌乳期母牛和第四泌乳期以上母牛分别进行了应用TMR饲喂技术的试验,以确定不同泌乳期母牛TMR的结构和饲喂技术. 相似文献
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高文斌 《北方牧业(奶牛)》2006,(3):51-52
在国内利用“TMR(全混合日粮)”对高产奶牛进行饲喂是一项新型技术,它不但可以提高奶牛的产奶量,也可以使奶牛在采食后所吸收的营养更加均衡.从而提高奶牛的身体素质.延长奶牛的使用寿命,而“TMR(全混合日粮)”的生产,则完全靠饲料搅拌车来实现。如今在国内已有170多台TMR(全混合日粮)搅拌车应用在各大新老牛场.其中意大利司达特公司的各系列TMR(全混合日粮)搅拌车130多台在运行。 相似文献
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为了解决奶牛饲料的营养及配比平衡问题,国际上通常采用全混合日粮(TMR)饲喂形式,就是将精、粗饲料应用搅拌车或混合机混合成日粮的饲喂方式。奶牛TMR饲养技术是我国奶牛产奶量和奶品质的有效途径。本文针对TMR在北方的应用特性作 相似文献
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[目的]探究不同方式制备的全株玉米青贮饲喂奶牛后,对其生产性能和经济效益的影响。[方法]选定中国荷斯坦牛开展全株玉米青贮饲喂试验。将28头奶牛随机分为对照组和试验组,每组14头。前者饲喂不添加菌剂制备的全株玉米青贮,后者饲喂添加青贮菌剂制备的全株玉米青贮。统计各组奶牛日均干物质采食量、日均产奶量、料重比、乳脂率和乳蛋白率,计算各组奶牛日均经济效益和试验期总经济效益。[结果]采用添加青贮菌剂制备的全株玉米青贮饲喂奶牛后,奶牛日均干物质采食量和料奶比与对照组差异不显著,但日均产奶量、平均乳脂率和乳蛋白率显著提高(P<0.05)。每头牛日均产奶量增加1.91 kg,乳脂率增加0.22个百分点,乳蛋白率增加0.06个百分点。试验组经济效益明显提高,每头牛日均经济效益增加4.73元,正试期内总经济效益增加1 986.60元。[结论]采用添加青贮菌剂的全株玉米青贮饲喂奶牛,能有效提高奶牛的生产性能和经济效益。 相似文献
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《The Professional Animal Scientist》2001,17(3):195-201
Economic and performance characteristics of a low cost grazing system based on annual ryegrass vs a total mixed ration (TMR) for cows during mid through late lactation were evaluated. Cattle used in the trial (28 Holstein and 12 Jersey cows) were blocked by parity, lactation number, days in milk, projected mature equivalent milk yield, and current milk yield, and cows were assigned to two treatments in a randomized complete block design. For 10 wk (March through May 1998), cows either received a corn silage-based TMR or grazed annual ryegrass and received no supplemental concentrates. Changes in feed composition, milk yield, milk composition, BW, condition score, and income over feed costs were examined. Cows on Treatment 1 were fed the TMR twice daily and were housed together in a free-stall barn. Cows assigned to grazing were allowed ad libitum access to annual ryegrass in a rotational 12-paddock system. Loose mineral was provided for ad libitum consumption, but no supplemental concentrate was offered. Daily milk production by the TMR cows was consistent, ranging between 22.5 and 27.2 kg per cow throughout the study. By contrast, daily milk production of the grazing cows declined from 26.6 to 15.9 kg per cow as lactation progressed. Ryegrass grazing reduced milk fat content during wk 4 and 8 of the study and increased MUN content during wk 2 but had no effect on milk protein content or somatic cell count. The BW, body condition score, and estimated DMI of grazing cows were less than they were for TMR cows. Milk income for the grazing cows was less than that for the TMR cows throughout the study. However, feed cost for grazing cows was substantially lower than that for the TMR cows. Hence, income over feed cost (IOFC) was greater for grazing cows than for TMR cows in all but the last 2 wk of the study. These results indicated that annual ryegrass grazing was more profitable than feeding a TMR to cows in mid to late lactation. However, grazing cows did lose body condition, which could have a negative effect on milk production in the subsequent lactation. 相似文献
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[目的] 建立微波水解—氨基酸自动分析仪快速测定饲料中色氨酸含量的方法。[方法] 以奶牛全混合日粮饲料(TMR)为研究对象,通过单因素试验和正交试验筛选微波碱水解最佳条件,联合氨基酸自动分析仪LCAK06/Na(4.6 mm×150 mm)色谱柱分离及快速测定饲料中色氨酸含量。[结果] 水解温度是影响饲料色氨酸含量的最主要因素。微波碱水解测定饲料中色氨酸含量的最佳条件是:水解温度170 ℃、水解时间30 min、碱浓度5 mol/L,通过氨基酸自动分析仪测定TMR饲料色氨酸含量为0.14%。色氨酸在0.025~0.600 μmol/mL峰面积与浓度线性关系良好,相关系数(r)为0.999 7。定量限(LOQ)为0.05%,色氨酸回收率93%~104%,精密度RSD为3.58%。[结论] 该方法高效、准确,检测结果与国家标准《饲料中色氨酸的测定》(GB/T 15400—2018)中的常规碱水解法对比无显著差异,对于饲料中色氨酸含量测定具有参考价值。 相似文献
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本试验旨在研究全混合日粮(TMR)饲喂泌乳奶牛群摄入养分偏离的原因分析及对生产性能的影响。选取30个高产牛群,每个牛群采样5 d。采取牛群TMR及剩料样品,进行养分分析和颗粒分级评定,计算各指标的变异系数。记录产奶量,取奶样测乳成分。多元线性回归分析养分、颗粒的变异系数与牛群生产性能的关系。结果表明:30个牛群饲喂的TMR产奶净能(NEL)和粗蛋白质(CP)、中性洗涤纤维(NDF)、酸性洗涤纤维(ADF)、微生物蛋白质(MCP)、瘤胃非降解蛋白质(RUP)、瘤胃能氮平衡(RENB)、小肠可消化粗蛋白质(DCPSI)、钙(Ca)含量分别为6.56 MJ/kg和16.22%、35.71%、21.38%、77.84 g/kg、92.15 g/kg、14.77 g/kg、104.04 g/kg、1.43%,其中高于配方目标的指标有NDF(1.94%)、Ca(0.57%)、RUP(5.03 g/kg)、RENB(6.95 g/kg),低于配方目标的指标有CP(-0.36%)、ADF(-1.54%)、NEL(-0.12 MJ/kg)、MCP(-7.71 g/kg)、DCPSI(-2.12 g/kg)(正值表示提高,负值表示降低)。观测期内,RUP[(16.26±7.10)%]、MCP[(22.78±13.38)%]、RENB[(64.29±34.29)%]3种养分的变异系数大于10%,其他养分的变异系数均小于10%。长、中、短、细4类颗粒含量的变异系数分别为(15.78±9.25)%、(9.12±7.86)%、(6.00±4.00)%、(11.15±9.62)%。回归分析表明,TM R养分和颗粒度变异影响产奶量和乳成分,NEL变异系数每升高1个百分点,产奶量下降3.662 kg/d;长颗粒变异系数每升高1个百分点,产奶量下降0.124 kg/d,乳脂率升高0.012%。结果提示,TMR饲喂泌乳奶牛摄入养分因投料不准确、加工质量不稳定、搅拌不均匀、挑食等与配方养分产生差异。TMR加工质量稳定性影响到产奶量和乳成分,其中NEL、DCPSI、RENB的变异影响产奶量,长颗粒变异影响产奶量和乳脂率。 相似文献
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本试验旨在研究复合酶对奶牛产奶量和乳成分的影响。选择胎次、泌乳天数、产奶量相近的健康荷斯坦泌乳牛30头,随机分为2组,即试验组和对照组,试验组每日在TMR中添加复合酶制剂50g。结果显示,试验组奶牛日均产奶量对比照组提高了6.6%,差异显著(P〈0.05);试验组乳蛋白率比对照组提高0.19%,差异显著(P〈0.05),乳脂率比对照组提高0.3%,差异显著(P〈0.05),乳糖含量比对照组提高0.2%;经济效益每天每头奶牛比对照组多盈利3.88K。说明每日在奶牛TMR中添加50g复合酶,可提高奶牛产奶量,改善牛奶品质,增加经济效益。 相似文献
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Zhumei Du Seishi Yamasaki Tetsuji Oya Damiao Nguluve Benedito Tinga Felicidade Macome Yimin Cai 《Animal Science Journal》2020,91(1)
To effectively utilize total mixed ration (TMR) prepared with locally available feed resources, we studied the nutritional value and milk production in Jersey dairy cattle fed a local general diet (LGD) and fermented TMR in Mozambique. Ten head of Jersey dairy cattle with 337 ± 19.8 kg body weight, aged 3–4 years in mid location were used in this study. The LGD diet was designed following the general feeding method of local smallholding farms; it contained native grass, Napier grass, wheat bran, and mineral–vitamin mix. Fermented TMR was prepared using Napier grass, corn bran, wheat bran, formula feed, and mineral–vitamin mix. Fermented TMR was preserved as good quality, with a relatively low pH and high lactic acid content. Compared to LGD, fermented TMR significantly improved the dry matter intake and digestibility in dairy cattle. Milk yield was significantly higher in dairy cattle fed with TMR than in those fed with LGD, by 3.75 L/d; milk quality was not significantly different between treatments. The results confirmed that LGD had a low dry matter intake and milk yield, and fermented TMR prepared with local feed resources can attain good quality and improve milk yield in dairy cattle in Mozambique. 相似文献
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