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1.
An in vitro experiment was conducted to assess the microbial activity of faeces from unweaned and weaned piglets. Diets of weaned piglets were supplemented with various fructans. Weaned piglets received a corn–soy based basal diet supplemented with either corn starch (control; CON), oligofructose (OF), chicory root (CHR), a mixture of chicory pulp and oligofructose (MIX; 60:40) or corn starch and antibiotic (CONAB). Faecal inocula collected from unweaned (5 kg body weight (BW)) and weaned piglets (15 kg BW) were introduced in airtight 100-mL bottles containing 0.5 g of substrate (basal or mix) in pre-warmed buffered medium. The organic matter cumulative volume (OMCV) was measured for 48 h, and a mono-phasic model was fitted to the data. The concentration of volatile fatty acids (VFA) and ammonia (NH3) was determined after fermentation. Incubation of substrate mix with the different inocula gave a significant higher OMCV compared to substrate basal, except for the inoculum from piglets of the CONAB group. In addition, substrate mix gave a higher Rmax and a lower Tmax compared to substrate basal. With the exception of inoculum obtained from chicory root supplemented animals (CHR) no substrate effects were observed in fermentation end-products (VFA and NH3). However, the proportions of acetic acid were significantly higher and those of butyric acid lower when inocula were incubated with substrate mix. Inocula from weaned pigs tended to show higher proportions of propionic acid when incubated with substrate mix, whilst inocula from unweaned piglets showed the opposite. The differences in fermentation kinetics between substrates after incubation with inocula from weaned and unweaned piglets in combination with an altered composition in VFA, points to a modified faecal microflora following weaning.  相似文献   

2.
The current study aimed to evaluate the variation in fermentation activity along the distal canine gastrointestinal tract (GIT, Exp. 1). It also aimed to assess fermentation kinetics and end product profiles of 16 dietary fibers for dog foods using canine fecal inoculum (Exp. 2). For Exp. 1, digesta were collected from the distal ileum, proximal colon, transverse colon, and rectum of 3 adult dogs. Digesta per part of the GIT were pooled for 3 dogs, diluted (1:25, wt/vol), mixed, and filtered for the preparation of inoculum. A fructan, ground soy hulls, and native potato starch were used as substrates and incubated for cumulative gas production measurement as an indicator of the kinetics of fermentation. In addition, fermentation bottles with similar contents were incubated but were allowed to release their gas throughout incubation. Fermentation fluid was sampled at 4, 8, 12, 24, 48, and 72 h after initiation of incubation, and short-chain fatty acids and ammonia were measured. Results showed comparable maximal fermentation rates for rectal and proximal colonic inocula (P > 0.05). Production of short-chain fatty acids was least for the ileal and greatest for the rectal inoculum (P < 0.05). Therefore, for in vitro studies, fecal microbiota can be used as an inoculum source but may slightly overestimate in vivo fermentation. Experiment 2 evaluated the gas production, fermentation kinetics, and end product profiles at 8 and 72 h of incubation for citrus pectin, 3 fructans, gum arabic, 3 guar gums, pea fiber, peanut hulls, soy fiber, sugar beet fiber, sugar beet pectin, sugar beet pulp, wheat fiber, and wheat middlings. Feces of 4 adult dogs were used as an inoculum source. Similar techniques were used as in Exp. 1 except for the dilution factor used (1:10, wt/vol). Among substrates, large variations in fermentation kinetics and end product profiles were noted. Sugar beet pectin, the fructans, and the gums were rapidly fermentable, indicated by a greater maximal rate of gas production (R(max)) compared with all other substrates (P < 0.05), whereas peanut hulls and wheat fiber were poorly fermentable, indicated by the least amount of gas produced (P < 0.05). Sugar beet fiber, sugar beet pulp, soy fiber, and wheat middlings were moderately fermentable with a low R(max). Citrus pectin and pea fiber showed a similar low R(max), but time at which this occurred was later compared with sugar beet fiber, sugar beet pulp, soy fiber, and wheat middlings (P < 0.05). Results of this study can be used to formulate canine diets that stimulate dietary fiber fermentation along the distal GIT that may optimize GIT health and stimulate the level of satiety in dogs.  相似文献   

3.
1. In order to find an alternative source of inoculum to caecal content for studying the in vitro feed digestibility in domesticated ostriches (Struthio camelus var. domesticus), caecal content and faeces of 4 male birds were used as inocula for an in vitro gas production trial. 2. About 1 g of each of 5 substrates (maize silage, CS; alfalfa hay, AH; barley, BG; soybean meal, SM; beet pulp, BP) was weighed, in quadruplicate per inoculum, in 120 ml flasks; 75 ml of anaerobic medium and 4 ml of reducing solution were added and flasks were kept at 39 degrees C. Caecal content and faeces were diluted respectively 1 : 2 (CI) and 1 : 4 (FI) with an anaerobic medium and were injected into the respective flasks (10 ml). 3. Gas production was recorded 22 times up to 120 h of incubation and fermentation characteristics (for instance, degraded organic matter, OMd; potential gas production, A; maximum fermentation rate, Rmax; time at which it is reached, Tmax; pH; volatile fatty acid, VFA; ammonia) were studied for each inoculum and substrate. 4. CI and FI showed significant differences in Tmax (16.37 vs 18.47 h, respectively), propionic (16.47 vs 12.07 mmoles/l) and butyric acid (6.50 vs 7.98 mmoles/l) and ammonia concentration (17.18 vs 19.95 mmoles/l). The substrates, according to their chemical composition, showed different fermentation characteristics. However, the regression equations able to estimate some fermentation characteristics of the caecum from those of faeces were statistically significant and showed R2-values ranging from 0.87 to 0.99. 5. The differences in fermentation pathways of the two inocula did not appear to influence the rate and extent of OM digestion. Faecal fermentation predicted rates and extent of OM digestion by caecal fermentation in ostriches; consequently, the faeces could be considered as an alternative to caecal content to study feed digestibility in the species, although there is a need to undertake further research.  相似文献   

4.
An in vivo experiment was conducted to monitor the changes in fermentation end products in the feces of weaning piglets due to the inclusion of selected fermentable carbohydrates in the diet. The experiment involved 3 groups of 16 piglets each. Specially raised piglets (neither antibiotics nor creep feeding) were weaned abruptly at 4 wk of age. The piglets were offered 1 of 2 dietary treatments [a control diet (CON), or a fermentable carbohydrate-enriched diet (CHO)] and were subjected to 1 of the 2 fasting treatments (fasting for 2 d at the beginning of the experimental period or nonfasting). Fecal samples were collected per rectum every day during the experimental period. Piglets were slaughtered at the end of the 10-d experimental period, and digesta samples were collected from different parts of the gastrointestinal tract (GIT): the first half of the small intestine, the second half of the small intestine, the cecum, and colon. The DM, VFA profile, and ammonia concentrations were analyzed from the fecal and digesta samples. Daily feed intake was also recorded. There was no difference in concentrations of VFA in feces between the treatment groups. Ammonia concentration was lower (P < 0.05) in piglets fed the CHO diet compared with those fed the CON diet in both feces and digesta from different parts of GIT. Fasting had no effect on fermentation end products in feces. This study demonstrated that the inclusion of fermentable carbohydrates in weanling diets reduces protein fermentation along the GIT and also reduced the fecal concentration of ammonia.  相似文献   

5.
Pre-weaning development of microbial activity has an effect on post-weaning establishment of the gastro-intestinal tract (GIT) microbiota. An in vivo study was conducted, to evaluate the effect of age on fermentation end-product profiles during the post-colostrum suckling period, as the variation in composition of mature milk is minimum. Sixteen piglets from two litters (eight per litter) were selected. During the study, piglets had free access to sow's milk, but no creep feed, nor antibiotic treatments. Two piglets from each litter were sacrificed on d 11, 18, 25 and 32 of age. The digesta samples were collected from the beginning and end of the small intestine, caecum and colon. Samples were analyzed for fermentation end-product concentrations. Combining the results from all the GIT sites, it was observed that, total VFA concentration increased with age of the piglets. There was a significant rise in acetic acid concentrations, with a significant decrease in lactic acid concentrations from d11 to d32, while the proportions of SCFA, (acetic acid  72%, propionic acid  15% and butyric acid  6% of total VFA) and ammonia concentrations remained unchanged. These results clearly suggest that, the microbial activity in terms of fermentation end-product profile skewed from lactic acid to acetic acid as a major product during the post-colostrum suckling period. This may be attributed to lower substrate availability due to increased number of microbes or increased diversity in the microbiota in time.  相似文献   

6.
采用瘤胃体外发酵技术评定了不同化学处理对稻草体外发酵特性的影响。试验以3头装有永久性瘤胃瘘管的荷斯坦奶牛为瘤胃液供体,用复合碱、氨及尿素处理稻草后,称量1 g样品于含有10 mL瘤胃液和90 mL培养基的39℃发酵瓶内体外发酵,分别于24,48,72,96 h冰浴终止发酵,测定产气量、发酵液中挥发性脂肪酸、氨态氮及微生物蛋白浓度。结果表明,化学处理提高了稻草发酵的产气量、挥发性脂肪酸、氨态氮以及微生物蛋白浓度。其中复合碱处理组的发酵速度最快,累计产气量、干物质消失率和挥发性脂肪酸浓度最高,显著高于其他各组,其次为尿素处理组和氨化处理组,对照组最低;尿素处理组的pH、氨态氮浓度和微生物蛋白含量最高,显著高于其他各组,氨化处理组和碱化处理组次之,对照组最低。化学处理提高了稻草的体外降解率,其中复合碱化处理的效果最好。  相似文献   

7.
An in vitro gas production trial was conducted using 10 Hyla rabbits to evaluate the use of caecal and faecal inocula in fermentability studies. Caecal content (CI) and hard faeces (FI) were used as inocula. Six legume and six cereal concentrates were used as substrates. Gas production was recorded 19 times at 2–24 h intervals throughout fermentation (120 h). The fermentation characteristics (degraded organic matter, OMd; potential gas production, A; volatile fatty acid, VFA; ammonia, NH3) were measured by testing the inoculum and substrate (legumes vs. cereals). The inocula were different (p < 0.01) in OMd (818.2 vs. 799.4 g/kg OM for CI and FI respectively), A (255.0 vs. 267.1 ml/g OM), total VFA (67.3 vs. 53.2 mmol/g OM) and NH3 content (21.2 vs. 19.8 mmol/l). Moreover, the significant differences in the (acetate + propionate)/butyrate ratio (5.02 vs. 4.09 for CI and FI respectively, p < 0.01) and in the branched chain proportion (isobutyrate + isovaleriate)/total VFA (0.044 vs. 0.031, p < 0.01) indicate that the inocula differed in fermenting legumes or cereals, but the equations for estimating caecal fermentation characteristics from those of faeces showed R2 values from 0.673 to 0.975 (p ≤ 0.01). Our results confirm that in vitro fermentation characteristics of faeces were highly related to those of caecal content.  相似文献   

8.
An in vitro trial was conducted to investigate the effect of different inoculum sources (buffalo vs. cattle) on rumen fermentation and degradability. Incubations were carried out using rumen fluid obtained from buffalo or cattle fed the same diet [60% grass hay and 40% concentrate; 18 kg dry matter (DM)/day]. The fermentation kinetics of eight feeds commonly used in ruminant nutrition (alfalfa hay, barley meal, beet pulp, corn meal and silage, ryegrass hay and silage and soya bean meal s.e.) were studied with the in vitro gas production technique and rumen fermentation parameters (substrate disappearance, pH and volatile fatty acids production) were determined after 120 h of incubation. The linear relationship indicates that the microbial metabolic pathways of the two inocula for all the substrates were qualitatively similar, albeit often quantitatively different. In this in vitro study, a significant influence of rumen inoculum (buffalo vs. cow) on fermentation and degradability of the examined substrates was found. The differences in buffalo and cattle rumen fermentation can be explained with a different microbial activity of the two ruminant species, because of different amount of microbial population or microbial population constituted by different species of bacteria and protozoa.  相似文献   

9.
Methane (CH4) can be mitigated through directly inhibiting methanogen activity and starving methanogens by hydrogen (H2) sink. Three types of mechanism (i.e. bromoethanesulphonate (BES), nitrate and emodin) and doses of CH4 mitigation agents were employed to investigate their pathways of CH4 inhibition. Results indicated that both BES and emodin inhibited CH4 production and altered H2 balance, which could be accompanied by decreased dry matter disappearance (DMD), fractional rate of gH2 formation, volatile fatty acid (VFA) production, ability to produce and use reducing equivalences and molecular H2, and increased final asymptotic gH2 production, time to the peak of gH2, discrete lag time of gH2 production and fermentation efficiency. However, emodin decreased gas volume produced by rapidly fermentable components of substrate and the rate of fermentation at early stage of incubation, while BES supplementation inhibited gas volume produced by both rapidly and slowly fermentable components of substrate and the rate of fermentation at middle or late stage of incubation. The nitrate supplementation inhibited CH4 production without affecting VFA profile, because of its dual role as H2 sink and being toxic to methanogens. Nitrate supplementation had more complicated pattern of fermentation, VFA production and profile and H2 balance in comparison to BES and emodin supplementation.  相似文献   

10.
To find equations able to estimate the fermentation characteristics of the caecum from that of faeces, caecal content and faeces of 10 hybrid Hyla rabbits were used as inocula for an in vitro gas production trial. About 1 g of 12 roughages, 11 hays (ryegrass, alfalfa, sulla, oat, vetch, sulla-lolium, vetch-oat, sulla-oat, clover, ryegrass-clover, sulla-vetch-oat) and a wheat straw, was weighed, in triplicate per inoculum, in 120-ml flasks; 75 ml of anaerobic medium and 4 ml of reducing solution were added and the flasks were placed at 39 degrees C. Caecal content and faeces were diluted respectively 1:2 (CI) and 1:8 (FI) with anaerobic medium and were introduced into their respective flasks (10 ml). Gas production was recorded 20 times at 2-24 h intervals throughout fermentation (120 h). The fermentation characteristics (i.e. degraded organic matter, OMd; potential gas production, A; maximum fermentation rate, R(max); volatile fatty acid, VFA; ammonia, NH(3)) were studied by inocula and substrates. The two inocula did not differ in OMd but CI produced significantly higher gas (A, 213.1 vs. 199.4 ml/g, respectively, for CI and FI, p < 0.01) in less time (R(max), 3.08 vs. 2.24 ml/h, respectively, for CI and FI, p < 0.01). CI also produced higher levels of total VFA (57.86 vs. 46.70 mmol/g OM, respectively, for CI and FI, p < 0.01) and showed a higher branched chain proportion (0.023 vs. 0.018, respectively, for CI and FI, p < 0.01). For some parameters (as OMd pH and propionate) the equations for the estimation of caecal fermentation characteristics from that of faeces were accurate (R(2) > 0.8828) and reliable (CV < 10.78%) suggesting that faeces can be successfully used for the estimation of these parameters.  相似文献   

11.
Rumen fluid samples from a cow were withdrawn manually from the feed mat (solid phase) or the liquid phase below this mat and incubated in vitro with wheat straw, sorghum hay and a concentrate mixture. From the inoculum and several samples collected during in vitro incubation RNA was extracted to assess microbial population size and structure. RNA content recovered from the solid phase rumen fluid was significantly higher than from the liquid phase. The composition of the microbial population in the solid phase material was characterised by a high proportion of Ruminococci. Neither the proportion of other cell wall degrading organisms (Fibrobacter and Chytridiomycetes) nor the Eukarya and Archaea populations differed between the two sampling sites. Gas production was higher when substrates were incubated with solid phase than with liquid phase rumen fluid regardless of sampling time. However, the higher level of gas production was not accompanied by a corresponding increase in true digestibility. The RNA probes showed that during in vitro incubation with liquid phase rumen fluid, the eukaryotic population was inactive no matter which substrate was used and the activity of methanogens (Archaea) was lower than with solid phase rumen fluid. The population pattern of the cell wall degrading organisms was influenced mainly by the substrate fermented, and to a smaller extent by the inoculum used for in vitro fermentation.  相似文献   

12.
采用压力读取式体外产气法,研究了肉桂油、牛至油及其主要成分肉桂醛、香芹酚在0(对照组)、50、200、500、750 mg/L 5个水平下添加对瘤胃甲烷产量、氨氮浓度、各挥发酸浓度等指标的影响。结果表明,添加植物挥发油及其主要单体时,瘤胃甲烷和总挥发性脂肪酸产量随添加浓度的增加而降低,但高浓度添加(500,750 mg/L)时,显著抑制瘤胃发酵。添加50 mg/L的牛至油和肉桂油可分别降低甲烷13.3%和21.2%,而对总挥发性脂肪酸影响较小。200 mg/L挥发油添加降低了氨氮浓度和乙丙酸比,但也显著降低了总挥发性脂肪酸。牛至油和肉桂油对瘤胃发酵的影响与其主要成分肉桂醛、香芹酚具有相似趋势,但香芹酚和肉桂醛对瘤胃发酵的抑制作用强于牛至油和肉桂油;挥发油及其主要组分的添加水平是影响其作用效果的重要因素。  相似文献   

13.
The objective of the present experiment was to determine the effects of addition of silicate minerals, zeolite (Z), bentonite (B), kaolin (K), granite (G) on the rumen fermentation parameters, total gas, methane, total and individual volatile fatty acids (VFA) and hydrogen recovery in rumen fluid inoculum from sheep. Different materials (0.25 g) meadow hay (MH), wheat straw (WS), barley (BA) and amorphous cellulose (AC) were used as substrates. Silicate minerals (0.1 g) were added to the fermentation bottles containing substrates and rumen fluid inoculum and incubated for 72 h in vitro. The gas production technique simulates fermentation in the rumen was used to determine fermentation parameters. The total gas production was significantly higher compared to control for MH plus B (MHB), MH plus G (MHG), WS plus Z (WSZ), WS plus B (WSB), WS plus K (WSK), WS plus G (WSG), AC plus B (ACB), AC plus G (ACG), BA plus Z (BAZ), BA plus B (BAB), BA plus K (BAK), BA plus granite (BAG). Significant differences of the methane production were found between the controls, WSG, BAB and BAK. The total VFA concentration was increased in ACG (83.1 mM). The acetate: propionate (A:P) ratio of the control and additives ranged between 3.1 and 3.6 for MH, 2.7 and 3.5 for WS, 1.6 and 1.8 for AC and 2.3 and 2.9 for BA. It was concluded that the silicate minerals had no appreciable effect on the methane production, however, they support the microbial metabolism by influencing (bentonite, granite) and slightly influencing (zeolite, kaolin) the rumen fermentation.  相似文献   

14.
本试验以精料、青干草和单宁酸作为发酵底物,研究添加不同水平单宁酸对绵羊体外发酵参数和甲烷产量、干物质和粗蛋白质降解率的影响,以期为体内试验筛选适宜的单宁酸浓度,为富含单宁的粗饲料资源应用于反刍动物日粮配制及减少反刍动物养殖过程种甲烷排放提供科学依据。采用体外批次培养法开展研究,发酵底物为精料、青干草和单宁酸,设置底物的精粗比为3∶7。根据单宁酸添加量分为6组,单宁酸添加量分别为0、0.5%、1.0%、1.5%、2.0%、3.0%,发酵时间设置为3、6、12和24 h,每个处理3个重复,测定各培养时间pH、氨氮(NH3-N)浓度、挥发性脂肪酸(VFA)浓度、总产气量、甲烷产量、干物质和粗蛋白质降解率。结果显示,培养至3 h时,1.0%和2.0%单宁酸添加组pH显著高于对照组(P<0.05),其他时间点各组pH无显著差异(P>0.05);1.0%、2.0%和3.0%单宁酸添加组NH3-N浓度显著低于对照组(P<0.05);培养至6和24 h时,各处理组NH3-N浓度均显著低于对照组(P<0.05)。培养至6 h时,2.0%单宁酸添加组乙酸、丙酸、丁酸和总VFA浓度均显著低于对照组(P<0.05);培养至24 h时,1.0%、1.5%和3.0%单宁酸添加组的丙酸、丁酸和总VFA浓度均显著低于对照组(P<0.05);各单宁酸添加组4个时间点丙酸、丁酸、总VFA浓度的平均值均显著低于对照组(P<0.05)。培养至12、24 h时,各处理组总产气量与对照组差异不显著(P>0.05);培养至12 h时,2.0%组甲烷产量显著低于对照组、0.5%组和1.0%组(P<0.05);培养至24 h时,2.0%和3.0%组的甲烷产量显著低于对照组(P<0.05)。因此,添加单宁酸会显著降低体外发酵的NH3-N浓度,抑制VFA的产量,添加1.5%、2.0%的单宁酸能够显著降低瘤胃发酵甲烷产量,添加单宁酸的处理组粗蛋白质降解率显著低于对照组。  相似文献   

15.
Few studies have been published on the normal intestinal biota of canines unlike the wealth of information regarding livestock animal species. The in vitro gas production technique (IVGPT) including measurements of accumulating gas during fermentation and end‐product determinations allows obtaining a complete picture of microbial activity kinetics. The aim of this study was to study the in vitro fermentation characteristics of different carbohydrate sources using inocula from two dog breeds (German Shepherd and Neapolitan mastiff). Faeces sampled from rectum of two GS and NM adult dogs, fed the same dry food, were used as inocula. The samples, diluted and filtered, were incubated at 39 °C under anaerobic condition with nine substrates different for carbohydrate composition (rice, corn, potato, spelt, pure cellulose, beet pulp, wheat bran, inulin and fructo‐oligosaccharide). Gas production was recorded 17 times using a manual pressure transducer. After 48 h, the fermentation was stopped and fermenting liquor was analysed for pH and volatile fatty acids (VFA). Organic matter digestibility (OMD) was calculated as difference after burning the residuals. OMD, gas production and end‐products were significantly correlated with chemical composition of substrates, in particular carbohydrate fractions (total dietary fibre and starch), confirming the effectiveness of the IVGPT in evaluating dog feeds. Concerning the comparison between breeds significant differences (p < 0.01) were found for OMD, gas production, fermentation kinetic parameters and end‐products, suggesting a different pathway of fermentation and consequently, a different anaerobic population.  相似文献   

16.
研究柴胡皂苷(SSA)对体外发酵指标及发酵液中菌群变化的影响。采用完全随机试验设计,在0.5 g全混合日粮(TMR)中分别添加0,0.125,0.25和0.5 mg的SSA,通过AGRS-III微生物发酵微量产气自动记录仪在39℃条件下进行48 h体外发酵,并通过实时定量PCR(RT-PCR)检测发酵液中菌群相对含量的变化。结果表明,0.25 g/kg的SSA提高了干物质降解率(DMD,P=0.08)和总产气量(GP,P<0.05),并提高了发酵液中挥发酸(VFA)的含量(P<0.05),而0.5和1.0 g/kg的SSA对GP和DMD没有显著的影响,但是提高了乙酸和TVFA的含量(P<0.05)。SSA提高了白色瘤胃球菌和牛链球菌的相对含量(P<0.05);但降低了短普雷沃氏菌和噬淀粉瘤胃杆菌的相对含量(P<0.05)。因此,SSA提高了体外GP和VFA浓度,并改变发酵液中细菌的含量,这表明SSA有利于调控微生物体外发酵参数。  相似文献   

17.
The effects of vitamin E on pH value, total protozoa counts, volatile fatty acid (VFA), ammonia nitrogen and lactate levels were examined using an in vitro ruminal incubation system. The ruminal fluid (100 ml) of the first and second group was supplemented with 0.4 mg or 0.8 mg of vitamin E, respectively. Samples were taken immediately before and following 3, 6, 12 and 24 h of incubation at 39 degrees C and analysed for the total protozoa counts, the pH and the levels of ammonia nitrogen, lactate and VFA. Levels of propionate at 24 h and ammonia nitrogen at 12 and 24 h were significantly higher in the second group than in the control. In contrast, the levels of butyrate at 6, 12 and 24 h and lactate at 6, 12 and 24 h were lower in the second group than in the control. Propionate at 24 h, acetate levels at 6, 12 and 24 hand ammonia nitrogen levels at 6, 12 and 24 h and total rumen protozoa counts at 6, 12 and 24 h were significantly higher in the second group as compared with control. In contrary, butyrate levels at 6, 12 and 24 h, lactate levels at 6, 12 and 24 h were lower in second group than in control. There was no statistically significant difference among the groups in the pH values. In conclusion, the addition of vitamin E to in vitro ruminal fluid was found to increase the concentrations of acetate and propionate, total counts of protozoa, levels of ammonia nitrogen, but to decrease the butyrate and lactate levels of the ruminal aliquots in in vitro ruminal fermentation.  相似文献   

18.
本试验旨在体外条件下,探究不同水平蛋白质底物对猪结肠微生物发酵特性的影响,了解猪结肠微生物对蛋白质的利用规律。以成年猪结肠内容物为微生物接种物,在结肠微生物发酵液中分别添加0(C组)、0.10(L组)、0.25 g/L(H组)酪蛋白水解物,厌氧发酵不同时间点(3、6、9、12、18、24 h),分别测定累积产气量、p H及微生物蛋白、氨态氮、挥发性脂肪酸浓度。结果显示:1)发酵3、6 h时,L组和H组p H显著低于C组(P0.05)。2)L组和H组累积产气量均高于C组。3)L组和H组各时间点微生物蛋白浓度均显著高于C组(P0.05),6 h时H组又显著高于L组(P0.05)。3)L组和H组各时间点氨态氮浓度均显著高于C组(P0.05)。4)短链脂肪酸和支链脂肪酸浓度随着发酵时间延长而增加,同时随着蛋白质水平增加而增加。由此可见,蛋白质底物的添加促进了肠道微生物菌体合成,但是过多的蛋白质底物水平并不能进一步提高微生物蛋白浓度;随着蛋白质水平增加,肠道微生物发酵特性进一步提高。  相似文献   

19.
In reared piglets (n = 10), fattening pigs (n = 20) and sows (n = 8) the effects of lactulose as feed additive on the quality and composition of chyme and faeces were tested to find out potential dietetic advantages of its use. The lactulose concentration in the diets varied between 27-29 g/kg dry matter in piglets and fattening pigs and 55-140 g/kg dry matter in the diet of sows. In piglets and fattening pigs the lactulose intake did not alter the dry matter content and pH in faeces; in spite of the higher concentration lactulose did not result in diarrhea in sows or adult minipigs, there was only a slight decrease in the dry matter content of faeces. In contrast to findings in human beings only traces of lactulose reached the hind gut, although higher lactulose concentrations were measured at the end of the small intestine (in piglets: 10-40 g, in fattening pigs 40-70 g lactulose per kg dry matter of chyme). The oral intake of lactulose did not increase the concentration of lactic acid or volatile fatty acids in the content of the small intestine and did not reduce the pH in the chyme, but in the contents of cecum and colon ascendens higher concentrations of volatile fatty acids were measured (in piglets: significantly higher values, in fattening pigs slightly increased concentrations). In piglets as well as in fattening pigs lactulose resulted in reduced concentrations of ammonia in the content of small and large intestine, further more the concentrations of lipopolysaccharides were increased in the colonal chyme, when pigs ingested the lactulose containing diet. Due to the fact that only small amounts of lactulose reached the hind gut there are doubts, whether lactulose has comparable dietetic effects in pigs as known from human beings (for example laxative effects, forced elimination of bacteria like salmonella). The results obtained here in pigs underline the necessity of experimental studies in the target species (including parameters of digestive physiology, chemical/microbial composition of the chyme) before substances are used and recommended for dietetic purposes in feeding practice. In spite of generally adopted similarity of the alimentary tract in pigs and human beings there are eventually some important differences within the intestine, its digestive capacity or in reactions on ingested substances leading to unexpected results.  相似文献   

20.
Effects of sucrose (Suc) concentration on fermentation kinetics and products were evaluated using 3 concentrations of Suc, with 1 concentration of isolated NDF from Bermudagrass fermented together in batch culture in vitro with rumen inoculum. Fixed amounts of medium and inoculum were the protein sources, so protein:Suc decreased with increasing Suc. Kinetics were calculated from gas production over 48 h in a randomized complete block design (n = 28), and product yield was evaluated with sampling every 4 h for 24 h in a split-split plot in time design (n = 84). Fermentation vial was the experimental unit. Increasing Suc increased the lag time of rapidly (P < 0.01) and slowly fermented (P < 0.01) fractions and tended to decrease the rate of gas production from the rapid fraction (P = 0.07). Gas production from the slow fraction decreased linearly with increasing Suc (P = 0.02), suggesting a decrease in NDF fermentation. Sucrose was the predominant substrate at 1 indicate incorporation of C from the medium, likely from AA and peptides. The results support the premises that direct effects of Suc concentration and perhaps protein:Suc alter yields of fermentation products. That substrate concentration altered fermentation products and kinetics, possibly due to interactions with the run conditions, advises the clear definition of substrates and fermentation conditions to determine how the results integrate into our knowledge of ruminant nutrition.  相似文献   

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