scholarly journals Impact of effective microbes (em) bokashi supplementation on nutrients digestibility, rumen fermentation and gas volume production in diets of sheep

2021 ◽  
Vol 78 (2) ◽  
pp. 66
Author(s):  
Mohamed Helmy YACOUT ◽  
Alaa Yahia EL-BADAWI ◽  
Mohamed Samir KHALEL ◽  
Safaa Elsayed ATIA ◽  
Ayman Abdel Mohsen HASSAN
Keyword(s):  
Volatile Fatty Acids ◽  
Rumen Fermentation ◽  
Nutrient Digestibility ◽  
Grape Seeds ◽  
Effective Microorganisms ◽  
Beet Pulp ◽  
Jojoba Meal ◽  
Volume Production ◽  
Gas Volume

The present study was conducted to determine the appropriate type of by-products {sugar beet pulp (SBP), grape seeds (GS), olive cake (OC), citrus pulp (CtP), and jojoba meal (JM)} fermented with activated effective microorganisms (EM-Bokashi) to be integrated into the diet of sheep to obtain the best nutrient digestibility and rumen characteristic of Barki sheep. An in vitro experiment was carried out on five fistulated females for rumen fermentation activity, while 15 males were used for digestibility trials. Treatment with EM caused less cell wall content. GS and CtP had higher feed intake (FI) and digestibility coefficients; the lower was found for JM as well less FI. SBP and JM had a higher pH and NH3 concentration, while they were less for GS and CtP. Those had higher total volatile fatty acids (TVFA's) concentration, percentage of acetate, and acetic to propionic (A/P) ratio. JM had less acetate, A/P and higher propionate and butyrate. Higher gas volume after 24h fermentation was noticed for GS and CtP, they were higher kinetic parameters as well, but they were less methane production and more ME (MJ/kg DM), OMD (%) and microbial protein syntheses. Therefore, in conclusion, feeding Bokashi of GS or CtP to sheep can improve productivity, while using Bokashi of JM should be combined with other feeds.

scholarly journals Effects of garlic supplementation on in vitro nutrient digestibility, rumen fermentation, and gas production

2021 ◽  
Vol 51 (2) ◽  
pp. 271-279
Author(s):  
M.R. Kekana ◽  
D. Luseba ◽  
M.C. Muyu
Keyword(s):  
Fatty Acids ◽  
Crude Protein ◽  
Dry Matter ◽  
Volatile Fatty Acids ◽  
Ammonia Nitrogen ◽  
Rumen Fermentation ◽  
Gas Production ◽  
Nutrient Digestibility ◽  
Garlic Powder

Garlic contains secondary metabolites with antimicrobial properties that can alter nutrient digestibility and rumen fermentation, similar to other antimicrobial products. The objectives of the study were to evaluate the effects of garlic powder and garlic juice on in vitro nutrient digestibility, rumen fermentation, and gas production. The treatments consisted of control with no additives, garlic powder, and garlic juice at 0.5 ml and 1 ml. The digestibility of dry matter, crude protein and neutral detergent fibre were determined after 48 hours incubation. Rumen ammonia nitrogen and volatile fatty acids were determined at 12 hours and 24 hours incubation. The cumulative gas production was recorded periodically over 48 hours. The in vitro dry matter disappearance decreased with 1 ml of garlic juice compared with control. The crude protein degradability in garlic powder and garlic juice was lower than in control. Volatile fatty acids increased in all treatments. Individual volatile fatty acids were significantly different, especially propionate, whereas the acetate to propionate ratio was reduced by garlic juice, and ammonia nitrogen was reduced by garlic powder and 0.5 ml of garlic juice. The cumulative gas production increased significantly with both levels of garlic juice. The addition of garlic juice at 0.5 mL/100 ml could enhance the production of propionate, and reduce the acetate to propionate ratio, implying that the supply of hydrogen for methanogens was limited.

PSX-B-1 Effect of exposure time and dose of effective microorganisms (EM®) on feed in vitro rumen fermentation and digestibility

2021 ◽  
Vol 99 (Supplement_3) ◽  
pp. 455-457
Author(s):  
Alain Miranda-Figueroa ◽  
Carlos Gutiérrez_Aguilar ◽  
Manuel González-Ronquillo ◽  
Atmir Romero-Pérez ◽  
Claudia Cecilia Márquez-Mota ◽  
...  
Keyword(s):  
Exposure Time ◽  
Volatile Fatty Acids ◽  
Block Design ◽  
Ammonia Nitrogen ◽  
Rumen Fermentation ◽  
Effective Microorganisms ◽  
Time Interaction ◽  
Randomized Block Design ◽  
Quadratic Effects

Abstract The objective was to evaluate the effect of feed inoculation with effective microorganisms (EM®) (mainly containing Lactobacillus spp.,Rhodopseudomona palustrisand Saccharomyces cerevisiae) on rumen fermentation using in vitrogas production technique. We hypothesized that increasing doses and allowing exposure of EM® for up to 48 hours, would improve digestibility and rumen fermentation. The experimental design was a 4×4 completely randomized block design including 4 EM® levels [(0(EM0), 0.5(EM0.5), 1.0 (EM1) and 1.5 (EM1.5) mL EM® / kg DM] and 4 preincubation times [0 (T0), 12(T12), 24(T24), 48 (T48) h], with four repetitions per treatment. Treatments were evaluated using 100ml glass bottles with 0.5g of the diet (20% corn stover, 20% oat hay, 48.8% ground corn, 7% molasses, 1.2% urea, 1% soybean meal, 0.9% mineral premix,1.1% salt, dry matter basis) incubated with sheep ruminal fluid in 3 different occasions. Data were analyzed with PROC MIXED of SAS and orthogonal contrasts to determine the linear and quadratic effects of EM dose and exposure time. Interaction (P < 0.05) of EM x T was observed for in vitrodry matter digestibility (IVDMD), maximum gas volume (Vmax), total volatile fatty acids (VFA), acetate (ACE), propionate (PROP), butyrate (BUT) and ammonia-nitrogen (NH3), IVDMD was higher (P < 0.01, 4.8 and 3.72%) for T48EM1.5 than T12EM0 and T0EM0, PROP was higher (P < 0.05) for T48EM0, T48EM1 and 1.5 than T12EM0. The ACE:PROP ratio was higher (P < 0.05, 17.2%) for T12EM0 than T48EM1.5. IVDMD, PROP and NH3 linearly increased (P < 0.01) with increasing exposure time. EM levels have a quadratic effect (P < 0.01) with maximum response at EM0.5. It was concluded that the addition of 0.5 to 1.5 mL/kg DM of EM® to a sheep diet and increasing preincubation time, up to 48h, improve feed fermentation and digestibility.Project was supported by UNAM, DGAPA, PAPIIT (IT202120).

scholarly journals Effects of garlic supplementation on in vitro nutrient digestibility, rumen fermentation and gas production.

2021 ◽  
Author(s):  
M. R. Kekana ◽  
D. Luseba ◽  
M. C. Muyu
Keyword(s):  
Fatty Acids ◽  
Crude Protein ◽  
Dry Matter ◽  
Volatile Fatty Acids ◽  
Ammonia Nitrogen ◽  
Rumen Fermentation ◽  
Gas Production ◽  
Nutrient Digestibility ◽  
Garlic Powder

Abstract Garlic has secondary metabolites that possess antimicrobial properties that can alter nutrient digestibility and rumen fermentation similar to known antimicrobial products. The objectives of the study were to evaluate the effects of garlic powder and garlic juice on in vitro nutrient digestibility, rumen fermentation and gas production. The treatments were control no additives, garlic powder and garlic juice of 0.5 ml and 1 ml. The digestibility of dry matter, crude protein and neutral detergent fibre were determined after 48h incubation. Rumen ammonia nitrogen and volatile fatty acids were determined at 12h and 24h incubation. The cumulative gas production was recorded periodically over 48h. The in vitro dry matter disappearance decreased with 1 ml of garlic juice compared to control. The crude protein degradability in garlic powder and garlic juice was lower than in control. The volatile fatty acids increased in all the treatments. Individual volatile fatty acids were significantly different, especially propionate, while the acetate:propionate ratio was reduced by garlic juice, and ammonia nitrogen was reduced by garlic powder and 0.5 ml of garlic juice. The cumulative gas production increased significantly with both levels of garlic juice. The addition of garlic juice at 0.5 mL/100 mL could enhance the production of propionate, and reduce the acetate:propionate ratio implying that the supply of hydrogen for methanogens is limited.

scholarly journals Pilot Study of the Effects of Polyphenols from Chestnut Involucre on Methane Production, Volatile Fatty Acids, and Ammonia Concentration during In Vitro Rumen Fermentation

Animals ◽  
2021 ◽  
Vol 11 (1) ◽  
pp. 108
Author(s):  
Yichong Wang ◽  
Sijiong Yu ◽  
Yang Li ◽  
Shuang Zhang ◽  
Xiaolong Qi ◽  
...  
Keyword(s):  
Fatty Acids ◽  
Acetic Acid ◽  
Propionic Acid ◽  
Acid Content ◽  
Volatile Fatty Acids ◽  
Rumen Fermentation ◽  
Gas Production ◽  
Quadratic Response ◽  
In Vitro Rumen Fermentation

Nutritional strategies can be employed to mitigate greenhouse emissions from ruminants. This article investigates the effects of polyphenols extracted from the involucres of Castanea mollissima Blume (PICB) on in vitro rumen fermentation. Three healthy Angus bulls (350 ± 50 kg), with permanent rumen fistula, were used as the donors of rumen fluids. A basic diet was supplemented with five doses of PICB (0%–0.5% dry matter (DM)), replicated thrice for each dose. Volatile fatty acids (VFAs), ammonia nitrogen concentration (NH3-N), and methane (CH4) yield were measured after 24 h of in vitro fermentation, and gas production was monitored for 96 h. The trial was carried out over three runs. The results showed that the addition of PICB significantly reduced NH3-N (p < 0.05) compared to control. The 0.1%–0.4% PICB significantly decreased acetic acid content (p < 0.05). Addition of 0.2% and 0.3% PICB significantly increased the propionic acid content (p < 0.05) and reduced the acetic acid/propionic acid ratio, CH4 content, and yield (p < 0.05). A highly significant quadratic response was shown, with increasing PICB levels for all the parameters abovementioned (p < 0.01). The increases in PICB concentration resulted in a highly significant linear and quadratic response by 96-h dynamic fermentation parameters (p < 0.01). Our results indicate that 0.2% PICB had the best effect on in-vitro rumen fermentation efficiency and reduced greenhouse gas production.

scholarly journals Using glycerin with chitosan extracted from shrimp residue to enhance rumen fermentation and feed use in native Thai bulls

2021 ◽  
pp. 1158-1164
Author(s):  
Anuthida Seankamsorn ◽  
Anusorn Cherdthong ◽  
Sarong So ◽  
Metha Wanapat
Keyword(s):  
Volatile Fatty Acids ◽  
Latin Square ◽  
Ammonia Nitrogen ◽  
Rumen Fermentation ◽  
Nutrient Digestibility ◽  
Crude Glycerin ◽  
Ruminal Fermentation ◽  
Design Factor ◽  
Ch4 Production ◽  
High Level

Background and Aim: Crude glycerin is changed to propionate in the rumen, while chitosan can be used as a feed supplement to increase propionic acid concentration and decrease methane (CH4) production. We hypothesized that supplementation with a combination of a high level of crude glycerin with chitosan could have a beneficial effect on ruminal fermentation and mitigate CH4 production. This study aimed to explore the combined effects of crude glycerin and chitosan supplementation on nutrient digestibility, rumen fermentation, and CH4 calculation in native Thai bulls. Materials and Methods: Four 2-year-old native Thai bulls, weighing 150±20 kg, were kept in a 2×2 factorial arrangement in a 4×4 Latin square design. Factor A represented the incorporation of crude glycerin at 10.5% and 21% of the dry matter (DM) of a total mixed ration (TMR), and factor B represented the supplementation of chitosan at 1% and 2% DM of a TMR. Results: Increasing levels of crude glycerin at 21% decreased DM intake by 0.62 kg/day compared with 10.5% crude glycerin (p<0.05), whereas nutrient digestibility did not change (p>0.05). The incorporated crude glycerin and supplemented chitosan levels did not affect the pH, temperature, concentrations of ammonia-nitrogen, microbial population, and blood urea nitrogen (p>0.05). Supplemented chitosan and incorporated crude glycerin did not show any interaction effects on the molar portions and total volatile fatty acids (VFAs), except estimated CH4. Increasing the incorporated crude glycerin levels increased propionate and decreased the ratio of acetate to propionate ratio, whereas levels of butyrate, acetate, and total VFAs were unchanged. The combination of crude glycerin at 21% in the TMR with chitosan at 2% reduced CH4 estimation by 5.08% compared with the other feed treatment. Conclusion: Increasing incorporated crude glycerin levels in a TMR significantly elevated the propionate concentration, whereas combining 21% crude glycerin in the TMR diet with 2% chitosan supplementation could depress CH4 estimation more effectively than adding one of these supplements alone.

scholarly journals Essential oils effect on rumen fermentation and biohydrogenation under in vitro conditions

2014 ◽  
Vol 59 (No. 10) ◽  
pp. 450-459 ◽  
Author(s):  
M. Gunal ◽  
A. Ishlak ◽  
A.A. AbuGhazaleh ◽  
W. Khattab
Keyword(s):  
Fatty Acids ◽  
Essential Oils ◽  
Dose Level ◽  
Volatile Fatty Acids ◽  
Rumen Fluid ◽  
Rumen Fermentation ◽  
Buffer Solution ◽  
Cinnamon Oil ◽  
Tea Tree

The effects of adding essential oils (EO) at different levels (125, 250, 500 mg/l) on rumen fermentation and biohydrogenation were examined in a rumen batch culture study. Treatments were: control without EO (CON), control with anise oil (ANO), cedar wood oil (CWO), cinnamon oil (CNO), eucalyptus oil (EUO), and tea tree oil (TEO). Essential oils, each dissolved in 1 ml of ethanol, were added to the culture flask containing 40 ml of buffer solution, 2 ml of reduction solution, 10 ml of rumen fluid, 25 mg of soybean oil, and 0.5 g of the diet. After 24 h of incubation in a water batch at 39&deg;C, three samples were collected from each flask and analyzed for ammonia-N, volatile fatty acids (VFA), and fatty acids (FA). Expect for CNO, the proportions of acetate, propionate, and acetate to propionate ratios were not affected (P &gt; 0.05) by EO addition. Addition of CWO, CNO, and TEO reduced total VFA concentrations (P &lt; 0.05) regardless of dose level. The ammonia-N concentration was greater in cultures incubated with EO regardless of dose level. Compared with the CON, the concentrations of C18:0 and trans C18:1 were reduced (P &lt; 0.05) with EO addition regardless of dose level. Compared with the CON, the concentration of linoleic acid was greater (P &lt; 0.05) when EO were added at 500&nbsp;mg/l. EO tested in this study had no effects on VFA profile but significantly reduced the formation of biohydrogenation products (C18:0 and trans C18:1).

scholarly journals Effects of Geraniol and Camphene on in Vitro Rumen Fermentation and Methane Production

2017 ◽  
Vol 48 (2) ◽  
pp. 63-69
Author(s):  
M. Joch ◽  
V. Kudrna ◽  
B. Hučko
Keyword(s):  
Methane Emission ◽  
Methane Production ◽  
Dry Matter ◽  
Volatile Fatty Acids ◽  
Rumen Fluid ◽  
Positive Control ◽  
Rumen Fermentation ◽  
Dry Matter Digestibility

AbstractThe objective of this study was to determine the effects of geraniol and camphene at three dosages (300, 600, and 900 mg l-1) on rumen microbial fermentation and methane emission in in vitro batch culture of rumen fluid supplied with a 60 : 40 forage : concentrate substrate (16.2% crude protein, 33.1% neutral detergent fibre). The ionophore antibiotic monensin (8 mg/l) was used as positive control. Compared to control, geraniol significantly (P < 0.05) reduced methane production with increasing doses, with reductions by 10.2, 66.9, and 97.9%. However, total volatile fatty acids (VFA) production and in vitro dry matter digestibility were also reduced (P < 0.05) by all doses of geraniol. Camphene demonstrated weak and unpromising effects on rumen fermentation. Camphene did not decrease (P > 0.05) methane production and slightly decreased (P < 0.05) VFA production. Due to the strong antimethanogenic effect of geraniol a careful selection of dose and combination with other antimethanogenic compounds may be effective in mitigating methane emission from ruminants. However, if a reduction in total VFA production and dry matter digestibility persisted in vivo, geraniol would have a negative effect on animal productivity.

An organic acid blend can modulate swine intestinal fermentation and reduce microbial proteolysis

2002 ◽  
Vol 82 (4) ◽  
pp. 527-532 ◽  
Author(s):  
A. Piva ◽  
G. Casadei ◽  
G. Biagi
Keyword(s):  
Organic Acids ◽  
Organic Acid ◽  
Volatile Fatty Acids ◽  
Gas Production ◽  
Growing Pigs ◽  
High Rate ◽  
Bacterial Fermentation ◽  
Fiber Diet ◽  
Beet Pulp

The increased use of slow-release organic acids in swine nutrition has prompted more research to assess their possible role in modulating the intestinal microflora as an alternative to antibiotics. Three diets for growing pigs containing 0 (L-NDF), 100 (M-NDF), and 200 g kg-1 (H-NDF) dried sugar beet pulp (SBP) were pre-digested to simulate ileal digestion, and used as substrate in an in vitro cecal fermentation study. The inoculum was collected from pigs immediately after slaughter. Diets tested were L-NDF, M-NDF, and H-NDF with or without the addition of an organic acid blend providing phosphoric, citric, fumaric, and malic acid at 1.53, 0.78, 2.59, and 1.12 mmol L-1, respectively. Cecal microbial growth was monitored using the cumulative gas production technique. Fermentation fluid was analyzed for ammonia and volatile fatty acids concentrations. The maximum rate of gas production was higher when H-NDF rather than L-NDF or M-NDF (+ 18%; P < 0.05) was fed; such a high rate of growth (+ 14%; P < 0.05) was also achieved when the acid blend was added to L-NDF. After 24 h, the acid blend reduced ammonia, isoacids, and acetic acid concentrations in fermentation fluid regardless of the type of diet (P < 0.05). Organic acids stimulated bacterial fermentation when added to a low-fiber diet and were able to reduce ammonia in all diets tested. Key words: Swine, cecum, fiber, organic acids, ammonia, volatile fatty acid

scholarly journals Manipulation of Rumen Fermentation and Microbial Diversity for Live-Weight Gains of Sheep as Influenced by Ginger Powder and Lime Peel

2020 ◽  
Vol 1 (5) ◽  
Author(s):  
M. I. Okoruwa ◽  
E. O. Aidelomon
Keyword(s):  
Volatile Fatty Acids ◽  
Live Weight ◽  
Rumen Fermentation ◽  
Nutrient Digestibility ◽  
Control Group ◽  
Average Weight ◽  
Feed Conversion ◽  
Weight Gains ◽  
Ginger Powder ◽  
Lime Peel

The study was conducted to determine the influence of ginger powder and lime peel on manipulation of rumen function for live-weight gains of sheep. Twenty four West African dwarf sheep of about 8 – 9 months old with average weight of 7.00 ± 0.95kg were randomly assigned to four treatment diets in a completely randomized design. The prepared diets contained; ED1 (0% ginger powder and 0% lime peel powder that served as control group), ED2 (0% ginger powder and 3% lime peel), ED3 (1.5% ginger powder and 1.5% lime peel) and ED4 (3% ginger powder and 0% lime peel). In all the diets examined, ED1 showed higher significant (p<0.05) values in total fungi, Acetobact xylinum, Methanogens, total protozoa, Entodiniomorphs, Holotrichs, ammonia-nitrogen, total volatile fatty acids, acetate, butyrate and feed conversion ratio. However, total bacteria, Ruminococcus albus, Ruminococcus fibrisolvens, Bacillus spp, propionate, feed intake, nutrient digestibility, final and daily weight gains indicated significant (p<0.05) higher values in diet ED3 than diets ED1, ED2 and ED4. Rumen pH was significantly (p<0.05) higher in ED4 as compared with other diets. There was no significant (p>0.05) difference in Fibrobacter succinogens, iso-butyrate, valerate, iso-valerate and initial weight among diets. It can be concluded that using 1.5% ginger powder and 1.5% lime peel in the diets enhanced rumen fermentation and ecology for growth performance of sheep.

scholarly journals Increasing Buffering Capacity Alters Rumen Microbiota Composition and Enhances Rumen Fermentation Characteristics of High-Concentrate Fed Hanwoo Steers

2021 ◽  
Author(s):  
Sonny Ramos ◽  
Seon Ho Kim ◽  
Chang Dae Jeong ◽  
Lovelia L. Mamuad ◽  
A-rang Son ◽  
...  
Keyword(s):  
Bacterial Community ◽  
Volatile Fatty Acids ◽  
Ammonia Nitrogen ◽  
Rumen Fermentation ◽  
Buffering Capacity ◽  
Ruminal Fermentation ◽  
Drastic Decrease ◽  
Degrading Bacteria

Abstract Background: Rumen bacterial community is mainly affected by the type of diet consumed by the host animals. High concentrate diet increases the abundance of lactic acid producers and utilizers due to high level of non-structural carbohydrates thus reducing the number of fiber-degrading bacteria because of drastic decrease in pH. Dietary buffers are essential in regulating rumen pH through the compounds responsible in resisting drastic decrease in pH once cattle were fed with high-concentrate diet. However, no study has evaluated the effects of buffering capacity and efficiency in alleviating chronic acidosis in rumen. Ruminal metataxonomic and fermentation characteristics analyses were conducted to evaluate the effect of different buffering capacities on in vitro and in vivo experiments in high-concentrate fed Hanwoo steers. Results: Results revealed that BC0.9% and BC0.5% had similar and significant effect (P < 0.05) on in vitro ruminal fermentation at 3 to 24 h incubation. Both BC0.9% and BC0.5% had significantly highest (P < 0.05) buffering capacity, pH, and ammonia-nitrogen (NH3-N) than BC0.3% and CON at 24 h of incubation. Individual and total volatile fatty acids (VFA) were significantly lowest in CON. Increasing buffering capacity concentration showed linear effect on pH at 6 to 24 h while total gas and NH3-N at 3 and 12 h. Phylum Bacteroidetes dominated all treatments but a higher abundance of Firmicutes in BC0.5% than others. Ruminoccocus bromii and Succiniclasticum ruminis were dominant in BC0.5% and Bacteroides massiliensis in BC0.3%. The normalized data of relative abundance of observed OTUs’ representative families have grouped the CON with BC0.3% in the same cluster, whereas BC0.5% and BC0.9% were clustered separately which indicates the effect of varying buffering capacity of buffer agents. Principal coordinate analysis (PCoA) on unweighted UniFrac distances revealed close similarity of bacterial community structures within and between treatments and control, in which BC0.9% and BC0.3% groups showed dispersed community distribution. Conclusion: Our findings showed that increasing buffering capacity enhances rumen fermentation parameters and affects rumen microbiome by altering bacterial community through distinct structure between high and low buffering capacity, thus an important factor contributed to the prevention of ruminal acidosis during a high-concentrate diet.

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