共查询到20条相似文献,搜索用时 234 毫秒
1.
2.
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
3.
《动物营养(英文)》2015,(3)
Animal agriculture has been an important component in the integrated farming systems in developing countries. It serves in a paramount diversified role in producing animal protein food, draft power, farm manure as well as ensuring social status-quo and enriching livelihood. Ruminants are importantly contributable to the well-being and the livelihood of the global population. Ruminant production systems can vary from subsistence to intensive type of farming depending on locality, resource availability,infrastructure accessibility, food demand and market potentials. The growing demand for sustainable animal production is compelling to researchers exploring the potential approaches to reduce greenhouse gases(GHG) emissions from livestock. Global warming has been an issue of concern and importance for all especially those engaged in animal agriculture. Methane(CH_4) is one of the major GHG accounted for at least 14% of the total GHG with a global warming potential 25-fold of carbon dioxide and a 12-year atmospheric lifetime. Agricultural sector has a contribution of 50 to 60% methane emission and ruminants are the major source of methane contribution(15 to 33%). Methane emission by enteric fermentation of ruminants represents a loss of energy intake(5 to 15% of total) and is produced by methanogens(archae) as a result of fermentation end-products. Ruminants' digestive fermentation results in fermentation end-products of volatile fatty acids(VFA), microbial protein and methane production in the rumen. Rumen microorganisms including bacteria, protozoa and fungal zoospores are closely associated with the rumen fermentation efficiency. Besides using feed formulation and feeding management, local feed resources have been used as alternative feed additives for manipulation of rumen ecology with promising results for replacement in ruminant feeding. Those potential feed additive practices are as follows: 1) the use of plant extracts or plants containing secondary compounds(e.g., condensed tannins and saponins) such as mangosteen peel powder, rain tree pod; 2) plants rich in minerals, e.g., banana flower powder; and 3) plant essential oils, e.g., garlic, eucalyptus leaf powder, etc. Implementation of the-feed-system using cash crop and leguminous shrubs or fodder trees are of promising results. 相似文献
4.
Effects of tea saponins on rumen microbiota,rumen fermentation,methane production and growth performance—a review 总被引:1,自引:0,他引:1
Reducing methane emission from ruminant animals has implications not only for global environmental protection but also for
efficient animal production. Tea saponins (TS) extracted from seeds, leaves or roots of tea plant are pentacyclic triterpenes.
They have a lasting antiprotozoal effect, but little effect on the methanogen population in sheep. There was no significant
correlation between the protozoa counts and methanogens. The TS decreased methanogen activity. It seems that TS influenced
the activity of the methanogens indirectly via the depressed ciliate protozoal population. The TS addition decreased fungal
population in the medium containing rumen liquor in in vitro fermentation, but no such effect was observed in the rumen liquor
of sheep fed TS. Tea saponins had a minor effect on the pattern of rumen fermentation and hence on nutrient digestion. When
added at 3 g/day in diets, TS could improve daily weight gain and feed efficiency in goats. No positive associative effect
existed between TS and disodium fumarate or soybean oil on methane suppression. Inclusion of TS in diets may be an effective
way for improving feed efficiency in ruminants. 相似文献
5.
Cui Tan Carlos A.Ramírez-Restrepo Ali Mujtaba Shah Rui Hu Matt Bell Zhisheng Wang Chris McSweeney 《畜牧与生物技术杂志(英文版)》2021,(1):272-281
Background: This study investigated changes in rumen protozoal and methanogenic communities, along with the correlations among microbial taxa and methane(CH_4) production of six Belmont Red Composite beef steers fed tea seed saponins(TSS). Animals were fed in three consecutive feeding periods, a high-grain basal diet for 14 d(BD period) then a period of progressive addition of TSS to the basal diet up to 30 g/d for 20 d(TSS period), followed by the basal diet for 13 d without TSS(BDP post-control period).Results: The study found that TSS supplementation decreased the amount of the protozoal genus Entodinium and increased Polyplastron and Eudiplodinium genera. During BDP period, the protozoa community of steers did not return to the protozoal profiles observed in BD period, with higher proportions of Metadinium and Eudiplodinium and lower Isotricha. The addition of TSS was found to change the structure of methanogen community at the subgenus level by decreasing the abundance of methanogens in the SGMT clade and increasing the abundance of methanogens in the RO clade. The correlation analysis indicated that the abundance of SGMT clade methanogens were positively correlated with Isotricha, and Isotricha genus and SGMT clade methanogens were positively correlated with CH_4 production. While RO clade were positively correlated with the proportion of Metadinium genus, which was negatively correlated with CH_4 emission.Conclusions: These results suggest that different genera of rumen protozoa ciliates appear to be selectively inhibited by TSS, and the change in methanogen community at the subgenus level may be due to the mutualistic relationships between methanogens and rumen ciliates. 相似文献
6.
7.
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
8.
9.
10.
随着人们生活水平的不断提高,中国奶牛养殖数量和规模的不断扩大,奶牛正常的生理活动产生的大量气体(CO2和CH4)对土壤、空气和水造成了日益严重的污染。大气中CO2和CH4等微量气体浓度的增加所导致的温室效应已越来越受到各国的重视。奶牛胃肠道发酵所产生的CH4是牧场温室气体排放的主要来源之一,控制奶牛CH4排放能有效减缓温室气体的排放。因此,在畜牧业生产中,有必要有效降低反刍动物产生的CH4。奶牛生产中CH4的排放涉及饲料营养、瘤胃发酵调控、遗传选择和牧场管理等方面,现针对如何降低奶牛生产中CH4产生的研究情况做简要综述。 相似文献
11.
植物提取物调控反刍动物瘤胃发酵的研究进展 总被引:4,自引:0,他引:4
植物提取物中的挥发油、皂苷、生物碱、萜类等化学物质具有抗菌、促生长、提高免疫力和抗氧化等功能。近年来研究发现,植物提取物还可以调控反刍动物瘤胃发酵模式,提高氮存留,减少甲烷排放的功能,因此,植物提取物作为调控反刍动物瘤胃发酵的一种重要添加剂得到了广泛的研究与应用。目前国内外的学者已经在有效植物品种的筛选和植物提取物作用机理、剂量效应等方面的研究取得了较大进展。文中就目前植物提取物对反刍动物瘤胃发酵调控的最新研究进展作一综述,为我国开展植物提取物作为反刍动物瘤胃发酵调控添加剂的研究提供参考。 相似文献
12.
Comparative aspects of plant tannins on digestive physiology,nutrition and microbial community changes in sheep and goats: A review 
下载免费PDF全文
下载免费PDF全文 Byeng Ryel Min Sandra Solaiman 《Journal of animal physiology and animal nutrition》2018,102(5):1181-1193
Comparative aspects of plant tannins on digestive physiology, nutrition and microbial community in sheep and goats are discussed in the context of differences due to feed intake, digestibility, utilization of nutrients and microbial community. The purpose of this review was to present an overview of the potential benefits of tannin‐containing diets for sheep and goats and specie differences in their response to tannins. It is well established that moderate level of tannins in the diet (3%–4% tannins DM) can precipitate with soluble proteins and increase protein supply to the sheep, but comparative aspects of tannin‐containing diets in sheep and goats on animal performance, digestive physiology, rumen microbial changes and potential benefits to sustainable animal production by those compounds have received little attention. In addition, developing plant‐based tannin‐containing diets for control of rumen microbiota and rumen fermentation (e.g., methane gas) would be expected to have a greater impact on the ruminant health, productivity and emission of greenhouse gasses. The positive impacts of the plant tannin compounds mainly depend on their influence on the gut microbiome diversity and ability to generate fermentation end products (short‐chain fatty acids) that have diverse biological roles. Diets which contain optimal levels of tannins have potential benefits for sustainability of small ruminant production systems. However, there is a need for an improved understanding of the utilization of tannin‐containing forages to improve their management. This implies investigations of animal responses to tannin‐containing forages or browse species and, in particular, a better understanding of the interactions that can arise between sheep and goats on digestion, DMD, rumen fermentation and microbial community changes. This knowledge could help to improve current feeding systems in terms of efficiency of feed use and environmental impacts (reduce methane gas production) and thus contribute to the development of a sustainable sheep and goat production. 相似文献
13.
The effects of penicillin G, streptomycin, chloramphenicol, 2-bromoethanesulfonic acid and pyromellitic diimide on total gas, methane, volatile fatty acid production and food degradability after 24 h of incubation in vitro were investigated in the cultures of two rumen ciliates. The inocula of both rumen ciliates Entodinium caudatum and Epidinium ecaudatum were used at a volume of 34 ml into the 50 ml glass syringes together with the feed and compounds tested. Despite penicillin G--streptomycin treatment methane production in both cultures was significantly decreased by the inhibitors for Epidinium ecaudatum. Methane production of the bacterial fraction of both protozoan species was significantly lower than in the whole cultures. No epifluorescence of methanogens on (or in) the cells of Entodinium caudatum was observed in contrast to Epidinium with which strong epifluorescence of methanogens on the cell surface was detected. Microscopic observation could indicate that the methane production by Entodinium caudatum was probably caused by their intracellular methanogenic activity, while methane production by Epidinium ecaudatum could be related to both the methanogenic bacterial fraction from their external surface and probably also to intracellular activity. Decreased feed degradability and differences in the fermentation end products accompanied the inhibition of methanogenesis in both in vitro cultures. Entodinium caudatum appeared to be more sensitive than Epidinium ecaudatum to the compounds tested. 相似文献
14.
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
15.
Wanapat M Kongmun P Poungchompu O Cherdthong A Khejornsart P Pilajun R Kaenpakdee S 《Tropical animal health and production》2012,44(3):399-405
A number of experiments have been conducted to investigate effects of tropical plants containing condensed tannins and/or
saponins present in tropical plants and some plant oils on rumen fermentation and ecology in ruminants. Based on both in vitro
and in vivo trials, the results revealed important effects on rumen microorganisms and fermentation including methane production.
Incorporation and/or supplementation of these plants containing secondary metabolites have potential for improving rumen ecology
and subsequently productivity in ruminants. 相似文献
16.
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
17.
单宁对反刍动物促营养作用的研究进展 总被引:2,自引:0,他引:2
长期以来,单宁一直被认为是饲料中的抗营养因子.近年来的研究表明,饲粮中含有适量的单宁对于反刍动物的生产性能及环境保护具有一定的积极作用,如降低蛋白质的瘤胃降解率、提高氮的利用率、抑制甲烷的排放、提高肉及乳的品质等.本文就单宁对反刍动物促营养作用的研究进展做一综述. 相似文献
18.
Makoto Mitsumori Toshiya Hasunuma Tomoko Okimura Takumi Shinkai Yosuke Kobayashi Makoto Hirako Shiro Kushibiki 《Animal Science Journal》2019,90(12):1556-1566
Ruminant animals are able to convert plant materials (grain and the human‐indigestible portion of carbohydrates) to milk and meat. In this conversion, most of the plant materials are digested by rumen fermentation and are changed to short‐chain fatty acids, microbial cells, and methane, which is released into the atmosphere. The relationships among feed, rumen fermentation, and milk production are poorly understood. Here we report a novel indicator of characteristics of rumen fermentation, theoretical turnover rate (TTOR) of the rumen liquid fraction. The TTOR was calculated from the presumed rumen volume (PRV) which is estimated by dividing the methane yield by the methane concentration of rumen fluid. The formula for the TTOR is: TTOR = PRV/body weight0.75. Our present analyses confirm that the TTOR as an indicator is capable of connecting feed, rumen fermentation, and milk production, because dry matter intake/TTOR showed a strong correlation with milk yield/TTOR. In addition, the TTOR may be related to ruminal pH, as we observed that the ruminal pH decreased as the TTOR increased. We propose that the TTOR is a factor characterizing rumen fermentation and a good indicator of the productivity of ruminants and dysbiosis of the rumen microbiome. 相似文献
19.
《畜牧与生物技术杂志(英文版)》2017,(2)
In the last five decades, attempts have been made to improve rumen fermentation and host animal nutrition through modulation of rumen microbiota. The goals have been decreasing methane production, partially inhibiting protein degradation to avoid excess release of ammonia, and activation of fiber digestion. The main approach has been the use of dietary supplements. Since growth-promoting antibiotics were banned in European countries in2006, safer alternatives including plant-derived materials have been explored. Plant oils, their component fatty acids,plant secondary metabolites and other compounds have been studied, and many originate or are abundantly available in Asia as agricultural byproducts. In this review, the potency of selected byproducts in inhibition of methane production and protein degradation, and in stimulation of fiber degradation was described in relation to their modes of action. In particular, cashew and ginkgo byproducts containing alkylphenols to mitigate methane emission and bean husks as a source of functional fiber to boost the number of fiber-degrading bacteria were highlighted. Other byproducts influencing rumen microbiota and fermentation profile were also described. Future application of these feed and additive candidates is very dependent on a sufficient, cost-effective supply and optimal usage in feeding practice. 相似文献