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人工草地绵羊放牧系统研究—产羔期试验 总被引:1,自引:0,他引:1
试验监测了在划区轮牧条件下的放牧系统中两种产盖期中的牧草生长速度、绵羊采食量以及绵羊生产性能等有关指标的动态变化,探讨了两种产羔期对放牧系统中草地和绵羊产生的影响。 相似文献
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中国北方草原草畜代谢能平衡分析与对策研究 总被引:2,自引:0,他引:2
草畜平衡是天然草地可持续利用和放牧家畜高效生产的前提,草畜平衡评估技术是实现草原保护,提高草地畜牧业可持续发展的基础。本研究建立了以代谢能为指标的草畜平衡评价方法,2008年冬以甘肃肃南草原和典型牧户为研究对象,通过草畜代谢能平衡分析了草畜平衡现状,应用研究试验,验证了实现草畜平衡的优化途径和对策。草畜平衡分析结果表明,在牧草生长期(6月-10月)家畜获得的代谢能高于家畜的维持需要,因此,家畜体重增加,生长速度最快;在枯草期(11月-次年5月)代谢能摄入量低于维持需要量,家畜掉膘,体重下降,夏草场的载畜量最大。冬季暖棚舍饲养殖能够降低家畜的代谢能需要,有助于实现草畜平衡。与对照组相比,暖棚养殖绵羊平均产毛量显著提高(P<0.05),提高了0.73kg/只,冷季体重损失减少14.9%,纯收入增加126.25元/只。产羔时间对草畜平衡具显著的影响,适当推迟产羔时间能够有效的改善草畜平衡状况。分别测定了4月和5月所产羔羊的生长发育情况和母羊体况,5月羔羊平均初生重、1月龄、2月龄体重显著高于4月份羔羊(P<0.05),但由于生长期短,5月羔羊出栏重较4月低4~5kg。草畜代谢能平衡是分析研究草畜平衡的科学、合理和准确的方法和技术,草畜代谢能平衡分析模型的准确度高,适用性强,有利于草原管理,所提出的改善草畜平衡的途径和策略可
行性高。 相似文献
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人工草地绵羊放牧系统草畜供求关系的优化 总被引:10,自引:1,他引:9
在牧草平均生长量及其生长模式,基础母羊载畜量相同的前提下,以年生产周期为时间单元,以产羔时间的选择为主要手段,对人工划时绵羊放牧系统进行了逐步的总体优化设计和实验监测对比。逐步优化以后的产春盖设计系统与原产冬羔的生产系统相比,草畜供求的季节匹配趋于合理,全年供求趋于;上单位的冬季补饲成本可以由4.46元下降到12.08元;草地产出利润可由745元/hm^2提高到1413元/hm^2。优化后的实验监 相似文献
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产羔期、补饲水平对考力代羊生产和繁殖性能影响的研究 总被引:2,自引:1,他引:1
为了研究草地一绵羊系统中草畜供求间的动态平衡,寻求在人工草地放牧条件下适宜的产羔时期及在此时期给产羔母羊的合理补饲水平,1990~1993年,在贵州省威宁县灼甫联户示范牧场进行了两期产羔期及补饲水平对绵羊生产性能影响的试验。产羔期的改变,导致了母羊及羔羊体重的不同变化趋势。结果显示出母羊体重对其生产、繁殖性能的重要性。春羔母羊配种前体重较之冬羔母羊提高9.75kg,两者产羔率分别为139.2%和116.1%。春羔母羊较高的双羔率导致了春羔母羊较之冬羔母羊更低的繁殖成活率(分别为91.2%和104.7%)。断奶时,春羔较之冬羔体重高5.25kg,但断奶以后这种优势即消失了。补饲水平的差异对母羊及羔羊体重有一定的影响,但在牧草丰富的条件下表现得并不很强烈。 相似文献
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Perennial ryegrass is the primary forage component of ruminant diets in New Zealand. It is persistent and palatable, and immature ryegrass has a high nutritive value (NV). However, seed-head development substantially lowers its feeding value (FV) as fibre concentration increases, the rate and extent of digestibility decreases, and voluntary intake declines. Ryegrass pastures are susceptible to accumulation of endophytic and saprophytic fungi in dead material at the base of the sward, especially when mature and laxly grazed. Feeding forage legumes to ruminants grazing grass-dominant pastures will improve animal performance and lessen the reliance on a single species to meet all nutritional requirements. The FV of forage is a function of intake and NV, measured by chemical analyses and animal feeding trials. Performance of individual animals grazing forages is usually limited by energy intake because structural fibre can slow digestion and clearance from the rumen and because of competition between individuals for available feed. The use of metabolisable energy (ME) content of forage to signify FV can give a reasonable indication of animal performance, but it should be used in conjunction with chemical analyses to improve the accuracy of predictions. The relationship between FV, pasture production, animal performance and profitability is complex. The importance of skilled management to maintain pasture quality and optimise animal performance under inconsistent climatic conditions should not be underestimated. Acceptable animal performance with minimal veterinary intervention requires good nutrition, but the genetic potential of livestock in New Zealand cannot be met solely by grazing pasture, especially when a high utilisation of pasture is required to maintain quality and profitability. Producers are responding to industry demands to reduce the seasonality in supply of milk and meat by changing lambing and calving dates, and extending lactation length in dairy cows. Social changes include adoption of once-daily milking in the dairy industry. Some changes have necessitated increased use of supplements and others can be met by feeding forages with a higher FV than ryegrass, all of which require an improved knowledge of feed quality. This information is available through rapid and inexpensive near infrared spectroscopy (NIRS) analysis, enabling animal nutritional needs to be balanced by appropriate nutrient supply. It is essential that producers continue to improve animal welfare, limit excessive use of fertilisers and meet the demands of overseas consumers. Good nutrition, with an increased use of legumes and other forages to complement ryegrass pastures, will enable these objectives to be achieved. 相似文献
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Perennial ryegrass is the primary forage component of ruminant diets in New Zealand. It is persistent and palatable, and immature ryegrass has a high nutritive value (NV). However, seedhead development substantially lowers its feeding value (FV) as fibre concentration increases, the rate and extent of digestibility decreases, and voluntary intake declines. Ryegrass pastures are susceptible to accumulation of endophytic and saprophytic fungi in dead material at the base of the sward, especially when mature and laxly grazed. Feeding forage legumes to ruminants grazing grass-dominant pastures will improve animal performance and lessen the reliance on a single species to meet all nutritional requirements. The FV of forage is a function of intake and NV, measured by chemical analyses and animal feeding trials. Performance of individual animals grazing forages is usually limited by energy intake because structural fibre can slow digestion and clearance from the rumen and because of competition between individuals for available feed. The use of metabolisable energy (ME) content of forage to signify FV can give a reasonable indication of animal performance, but it should be used in conjunction with chemical analyses to improve the accuracy of predictions. The relationship between FV, pasture production, animal performance and profitability is complex. The importance of skilled management to maintain pasture quality and optimise animal performance under inconsistent climatic conditions should not be underestimated. Acceptable animal performance with minimal veterinary intervention requires good nutrition, but the genetic potential of livestock in New Zealand cannot be met solely by grazing pasture, especially when a high utilisation of pasture is required to maintain quality and profitability. Producers are responding to industry demands to reduce the seasonality in supply of milk and meat by changing lambing and calving dates, and extending lactation length in dairy cows. Social changes include adoption of once-daily milking in the dairy industry. Some changes have necessitated increased use of supplements and others can be met by feeding forages with a higher FV than ryegrass, all of which require an improved knowledge of feed quality. This information is available through rapid and inexpensive near infrared spectroscopy (NIRS) analysis, enabling animal nutritional needs to be balanced by appropriate nutrient supply. It is essential that producers continue to improve animal welfare, limit excessive use of fertilisers and meet the demands of overseas consumers. Good nutrition, with an increased use of legumes and other forages to complement ryegrass pastures, will enable these objectives to be achieved. 相似文献
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Campbell AJ Croser EL Milne ME Hodge PJ Webb Ware JK 《Australian veterinary journal》2012,90(6):235-239
Background Several outbreaks of goitre, considered to be related to iodine deficiency, occurred in sheep flocks throughout Victoria in 2010. Objective We describe one outbreak in Merino–Border Leicester‐cross ewes and their lambs in north‐east Victoria that appeared to be associated with increased rainfall and pasture growth, particularly during the preceding summer and autumn. Results The outbreak was characterised by a four‐fold increase in neonatal lamb deaths and goitre, alopecia and poor skeletal development in the lambs. Most cases occurred in lambs born to 2‐year‐old crossbred ewes that had grazed long, lush perennial pastures throughout their entire pregnancy, whereas few cases occurred in mature crossbred or Merino ewes that had grazed shorter, annual pastures on hill country for 3 weeks in late pregnancy but were otherwise managed similarly. Conclusion Existing recommendations for south‐eastern Australia are that only spring‐lambing ewes in iodine‐deficient areas require iodine supplementation to prevent goitre in years with high autumn–winter rainfall. Aspects of this outbreak suggest that ewes lambing at other times of the year and grazing abundant pasture for prolonged periods may also require supplementation to prevent goitre, even if autumn–winter rainfall does not exceed previously established thresholds. 相似文献
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A serological survey for Coxiella burnetii was undertaken on a randomly selected population of 103 Ontario sheep flocks. Twenty-two flocks had at least one positive ewe; seven flocks had two or more reactors. The positive flocks were geographically clustered northwest of Guelph. Crutch-clipping of the ewe's wool prior to lambing, and total confinement housing at lambing in winter and spring seemed to lower the probability of seroreactivity of the flock (p less than 0.05). The study suggests that sheep are not a major reservoir for Coxiella burnetii in Ontario. 相似文献