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反刍动物排放甲烷既会造成环境污染,又会造成饲料能量浪费,因此探究反刍动物甲烷减排措施至关重要。瘤胃存在复杂的微生物发酵系统,反刍动物的甲烷生成与瘤胃微生物区系关系密切。本文对瘤胃甲烷生成的机理和调控途径进行了综述,并着重阐述了主要耗氢化合物及耗氢微生物的研究进展,为通过添加耗氢化合物调节瘤胃微生物,实现反刍动物甲烷减排与改善瘤胃发酵提供技术依据。 相似文献
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反刍动物甲烷的排放既造成饲料能量的浪费,也会加剧全球变暖作用。在反刍动物瘤胃中,产甲烷菌主要利用二氧化碳转化产生甲烷。产甲烷菌转化二氧化碳的最后一步反应需要甲基辅酶M还原酶参与,3-硝基酯-1-丙醇(3-nitrooxypropanol,3-NOP)是一种甲基辅酶M类似物,能与辅酶B结合,从而减少甲基辅酶M与辅酶B结合生成甲烷,因此3-NOP能有效地降低瘤胃甲烷的产生。本文旨在阐明3-NOP抑制反刍动物瘤胃甲烷产生的机制以及对反刍动物生产的影响。 相似文献
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反刍动物瘤胃发酵所产生的甲烷通过嗳气经口排出体外,不仅会使饲料的利用率降低,也会加剧温室效应。因此,减少反刍动物瘤胃甲烷的排放量对经济和环境双方面都具有重要意义。主要对反刍动物的甲烷产生机制、甲烷排放量的影响因素以及甲烷抑制剂种类等方面进行了综述。 相似文献
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反刍动物甲烷生成机制及调控 总被引:4,自引:0,他引:4
甲烷是反刍动物瘤胃正常消化的产物,但其排放不仅对空气环境造成污染,增加温室效应,并且造成饲料能量的损失。因此,减少反刍动物瘤胃内甲烷的生成量对提高饲料能量利用率和改善环境都具有重要的意义。文章综述了瘤胃中甲烷生成的机制及影响甲烷产生量的因素,详细介绍了控制瘤胃内甲烷产生量的措施。 相似文献
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在反刍动物瘤胃中产甲烷菌生成甲烷既造成能量的浪费又产生大量温室气体,因此减少瘤胃甲烷生成与排放是提升生产效率与维持可持续发展的要求。瘤胃内的产甲烷菌通过共生、黏附和伴生模式,分别从原虫、细菌和真菌中摄取氢,保证氢营养型甲烷生成途径的顺利进行。抑杀原虫和产氢细菌、竞争性结合氢和阻断氢生成甲烷是基于氢调控抑制甲烷生成的途径。由于瘤胃微生物的冗余和互作,降甲烷的同时,瘤胃中饲料消化可能受到抑制,且单一的氢调控往往会诱发瘤胃的适应,瘤胃的降甲烷效果仅能短时间维持。为此,需从瘤胃微生物整体出发,通过多种氢调控机制的添加剂联用及间歇饲喂、幼龄反刍动物瘤胃早期调控、甲烷生成途径关键酶调控等的综合应用,实现更优的甲烷减排。 相似文献
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为研究不同饲草对反刍动物甲烷(CH4)排放量的影响,利用虚拟仪器技术设计的体外发酵产气自动记录系统,结合气相色谱仪,测定了奶牛业常用饲草体外发酵72 h后的发酵指标。结果表明:发酵72 h后,供试饲草的CH4产量介于56.85~74.63 mL.g-1DMloss,最高的为玉米(Zea mays L.)秸秆,最低的为苜蓿(Medicagosativa L.)干草Ⅰ。体外发酵程度由高到低依次为青贮玉米、苜蓿干草Ⅰ、苜蓿干草Ⅱ、羊草(Leymus chinensis T.)干草、苜蓿茎秆、玉米秸秆。各饲草的产气动态均呈指数函数变化,趋势相似,在0~24 h内累计产气量迅速增加,24~36 h内增长速率渐缓,36 h以后速率趋于平缓。各饲草的CH4产量与其中性洗涤纤维(NDF)、酸性洗涤纤维(ADF)含量成显著正相关(P<0.05),与其粗蛋白(CP)含量成极显著负相关(P<0.01);通过逐步回归分析,建立常规养分含量与CH4产量的回归模型:PCH4=60.02-0.91×CP+0.44×ADF(R2=0.96)。综上表明,饲草的CH4产量与其品质有关,优质饲草体外发酵程度高,CH4产量低,从而提高饲料利用率、减少温室效应,而劣质饲草则相反。 相似文献
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《中国畜牧杂志》2019,(11)
为研究不同中性洗涤纤维/非纤维性碳水化合物(NDF/NFC)饲粮对泌乳后期奶牛甲烷排放量、营养物质消化率和生产性能的影响,试验选用体重(777.46±27.31)kg、胎次(1.5±0.15)胎、泌乳天数(242.92±15.28)d、产奶量(18.75±0.62)kg/d的奶牛12头,随机分配到3组,每组4头。各组饲粮NDF/NFC分别为2.10(精粗比为42:58)、1.96(精粗比为37:63)、1.52(精粗比为30:70),采用六氟化硫(SF_6)示踪技术测定自然状态下泌乳奶牛甲烷排放量。预试期14 d,正试期9 d。结果表明:饲喂不同NDF/NFC饲粮的泌乳后期奶牛甲烷排放量、甲烷能、单位干物质采食量的甲烷排放量以及单位总能摄入量的甲烷能均有显著差异;随着NDF/NFC降低,奶牛生产性能、饲料转化率和营养物质消化率无显著差异。综上,在不影响奶牛健康和生产性能的前提下,NDF/NFC为1.52的低NDF组饲料能显著降低泌乳后期奶牛瘤胃甲烷排放量。 相似文献
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The availability of local feed resources in various seasons can contribute as essential sources of carbohydrate and protein which significantly impact rumen fermentation and the subsequent productivity of the ruminant. Recent developments, based on enriching protein in cassava chips, have yielded yeast fermented cassava chip protein (YEFECAP) providing up to 47.5% crude protein (CP), which can be used to replace soybean meal. The use of fodder trees has been developed through the process of pelleting; Leucaena leucocephala leaf pellets (LLP), mulberry leaf pellets (MUP) and mangosteen peel and/or garlic pellets, can be used as good sources of protein to supplement ruminant feeding. Apart from producing volatile fatty acids and microbial proteins, greenhouse gases such as methane are also produced in the rumen. Several methods have been used to reduce rumen methane. However, among many approaches, nutritional manipulation using feed formulation and feeding management, especially the use of plant extracts or plants containing secondary compounds (condensed tannins and saponins) and plant oils, has been reported. This approach could help todecrease rumen protozoa and methanogens and thus mitigate the production of methane. At present, more research concerning this burning issue - the role of livestock in global warming - warrants undertaking further research with regard to economic viability and practical feasibility. 相似文献
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J.A. Milne 《Livestock Production Science》2005,96(1):3-9
The potential environmental effects of livestock farming are mainly associated with intensification of poultry, pig and dairy cow production systems. The major impacts are mainly caused by housing of livestock, which can lead to air and water pollution associated with nitrogen and phosphorus emissions and losses from manure. European countries regulate the potential for these types of pollution through a number of mechanisms, which have received wide public acceptance. In grazing systems, nitrogen pollution, associated with the use of nitrogen fertilizer, is also the subject of legislation. Perhaps because of this regulatory approach, surveys of the public have found that human food quality and animal welfare are more important issues than effects on air and water quality when considering livestock systems.Variation in stocking rates of grazing ruminants can change the structure and composition of pastures with potential impacts on biodiversity and the production of methane, a greenhouse gas. In European countries, maximum stocking rates have been set to reduce these impacts. Surveys of the European public have suggested that they are willing to pay for the mitigation of these environmental effects but that they also value strongly the cultural component of grazed livestock systems. There are few underlying concepts about how society views the environmental impacts of livestock systems. These are used to conclude that current attitudes are likely to prevail in the next decade. 相似文献