Effects of Thymol Supplementation on Goat Rumen Fermentation and Rumen Microbiota In Vitro

This study was performed to explore the predominant responses of rumen microbiota with thymol supplementation as well as effective dose of thymol on rumen fermentation. Thymol at different concentrations, i.e., 0, 100 mg/L, 200 mg/L, and 400 mg/L (four groups × five replications) was applied for 24 h of fermentation in a rumen fluid incubation system. Illumina MiSeq sequencing was applied to investigate the ruminal microbes in addition to the examination of rumen fermentation. Thymol doses reached 200 mg/L and significantly decreased (p < 0.05) total gas production (TGP) and methane production; the production of total volatile fatty acids (VFA), propionate, and ammonia nitrogen, and the digestibility of dry matter and organic matter were apparently decreased (p < 0.05) when the thymol dose reached 400 mg/L. A thymol dose of 200 mg/L significantly affected (p < 0.05) the relative abundance of 14 genera of bacteria, three species of archaea, and two genera of protozoa. Network analysis showed that bacteria, archaea, and protozoa significantly correlated with methane production and VFA production. This study indicates an optimal dose of thymol at 200 mg/L to facilitate rumen fermentation, the critical roles of bacteria in rumen fermentation, and their interactions with the archaea and protozoa.

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In vitro methane and gas production characteristics of Eragrostis trichopophora substrate supplemented with different browse foliage

Animal Production Science ◽

10.1071/an15612 ◽

2016 ◽

Vol 56 (3) ◽

pp. 634 ◽

Cited By ~ 5

Author(s):

Abubeker Hassen ◽

Jacobus Johannes Francois Theart ◽

Willem Adriaan van Niekerk ◽

Festus Adeyemi Adejoro ◽

Belete Shenkute Gemeda

Keyword(s):

Fatty Acids ◽

Methane Production ◽

Volatile Fatty Acids ◽

Rumen Fluid ◽

Condensed Tannin ◽

Rumen Fermentation ◽

Gas Production ◽

Optimum Level ◽

Browse Species

An in vitro gas production study was conducted to evaluate the potential of six browse species (high, medium and low condensed tannin concentrations) collected from the Kalahari Desert as antimethanogenic additives to an Eragrostis trichopophora-based substrate. The browse species studied were Acacia luederitzii, Monechma incanum, Acacia erioloba, Acacia haematoxylon, Olea europaea and Acacia mellifera. The edible forage dry matter of the browse species were incubated with Eragrostis trichopophora in a 30 : 70 (w/w) ratio by adding 40 mL of a buffered rumen fluid at 39°C for 48 h. Gas and methane production at different time intervals after incubation were determined whereas the volatile fatty acids concentration was evaluated after 48 h. Acacia luederitzii and M. incanum foliage decreased methane production by more than 50%, but simultaneously decreased digestibility, and rumen fermentation parameters such as volatile fatty acids concentration. Tannin extracts from A. luederitzii could possibly be used as a dietary alternative to reduce methane production; however, there is a need to determine an optimum level of inclusion that may not compromise the efficiency of rumen fermentation and overall digestibility of the diet.

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Multiple-factor associative effects of peanut shell combined with alfalfa and concentrate determined by in vitro gas production method

Czech Journal of Animal Science ◽

10.17221/94/2019-cjas ◽

2019 ◽

Vol 64 (No. 8) ◽

pp. 352-360

Author(s):

Jiu Yuan ◽

Xinjie Wan

Keyword(s):

Fatty Acids ◽

Volatile Fatty Acids ◽

Rumen Fluid ◽

Production Method ◽

Ammonia Nitrogen ◽

Gas Production ◽

Peanut Shell ◽

Dry Matter Digestibility ◽

In Vitro Gas Production

The associative effects (AE) between concentrate (C), peanut shell (P) and alfalfa (A) were investigated by means of an automated gas production (GP) system. The C, P and A were incubated alone or as 40 : 60 : 0, 40 : 45 : 15, 40 : 30 : 30, 40 : 15 : 45, 40 : 0 : 60 and 30 : 70 : 0, 30 : 55 : 15, 30 : 40 : 30, 30 : 25 : 45, 30 : 10 : 60, 30 : 0 : 70 mixtures where the C : roughage (R) ratios were 40 : 60 and 30 : 70. Samples (0.2000 ± 0.0010 g) of single feeds or mixtures were incubated for 96 h in individual bottles (100 ml) with 30 ml of buffered rumen fluid. GP parameters were analysed using a single exponential equation. After incubation, the residues were used to determine pH, dry matter digestibility (DMD), organic matter digestibility (OMD), volatile fatty acids (VFA) and ammonia nitrogen (NH3-N) of the incubation fluid, and their single factor AE indices (SFAEI) and multiple-factors AE indices (MFAEI) were determined. The results showed that group of 30 peanut shell had higher SFAEI of GP48 h, DMD, OMD and total volatile fatty acids (p < 0.05) and MFAEI (p < 0.05) than groups 60, 45 and 0 when C : R was 40 : 60. The group of 10 peanut shell showed higher SFAEI of GP48 h, DMD and OMD (p < 0.05) than groups 70, 55 and 40 and MFAEI (p < 0.01) when C : R was 30 : 70. It is concluded that optimal SFAEI and MFAEI were obtained when the C : P : A ratios were 40 : 30 : 30 and 30 : 10 : 60.

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

Scientia Agriculturae Bohemica ◽

10.1515/sab-2017-0012 ◽

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.

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

South African Journal of Animal Science ◽

10.4314/sajas.v51i2.15 ◽

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.

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Inhibition of in vitro rumen methane production by three statins

Annals of Animal Science ◽

10.2478/aoas-2021-0022 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Miroslav Joch ◽

Mariana Vadroňová ◽

Alena Výborná ◽

Kateřina Jochová

Keyword(s):

Methane Production ◽

Volatile Fatty Acids ◽

Rumen Fluid ◽

Relative Proportion ◽

Culture Fluid ◽

Rumen Fermentation ◽

Slight Reduction ◽

Net Production ◽

Feed Digestibility

Abstract The aim of this study was to evaluate the effects of increasing concentrations of three pure statins on in vitro methane production and rumen fermentation. The effects of atorvastatin, rosuvastatin and simvastatin at three concentrations (1, 10, and 100 mg/L of culture fluid) were evaluated using in vitro 24 h batch incubation of buffered rumen fluid with a 70:30 forage:concentrate substrate. All statins tested demonstrated the ability to reduce methanogenesis. Methane inhibition potential was decreasing in the following order: simvastatin > atorvastatin > rosuvastatin. Methane production was reduced (p < 0.05) by simvastatin at 10 mg/L (by 9.3%) and by atorvastatin at 100 mg/L (by 13.2%) without compromising fermentation and feed digestibility. Simvastatin at 100 mg/L decreased methane production by 26.2%, however, net production of volatile fatty acids (nVFA) was also reduced (p < 0.05). The only effect of rosuvastatin was a slight reduction (p < 0.05) of methane proportion at 10 and 100 mg/L. Simvastatin and atorvastatin at 100 mg/L increased (p < 0.05) relative proportion of propionate at the expense of acetate and butyrate. Ammonia-N concentrations were not affected (p > 0.05) by statins. The current study demonstrated that selected statins could selectively decrease methane production. The effects of statins on methanogenesis and overall rumen fermentation vary depending on statin type and concentration. Hydrophobic statins, such as simvastatin and atorvastatin, seem to be more effective compared to the hydrophilic statins, such as rosuvastatin.

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Effect of melamine onin vitrorumen microbial growth, methane production and fermentation of Chinese wild rye hay and maize meal in binary mixtures

The Journal of Agricultural Science ◽

10.1017/s0021859613000725 ◽

2013 ◽

Vol 152 (4) ◽

pp. 686-696 ◽

Cited By ~ 6

Author(s):

H. J. YANG ◽

H. ZHUANG ◽

X. K. MENG ◽

D. F. ZHANG ◽

B. H. CAO

Keyword(s):

Volatile Fatty Acids ◽

Ammonia Nitrogen ◽

Rumen Fermentation ◽

Gas Production ◽

Hydrogen Gas ◽

Batch Cultures ◽

Branched Chain ◽

Micro Organisms ◽

High Forage

SUMMARYThe effects of melamine on gas production (GP) kinetics, methane (CH4) production and fermentation of diets differing in forage content (low-forage (LF) diet: 200 g/kg and high-forage (HF) diet: 800 g/kg) by rumen micro-organismsin vitrowere studied using batch cultures. Rumen contents were collected from three Simmental×Luxi crossbred beef cattle. Melamine was added to the incubation bottles to achieve final concentration of 0 (control), 2, 6, 18, 54, 162 and 484 mg/kg of each diet. Cumulative GP was continuously measured in an automated gas recording instrument during 72 h of incubation, while fermentation gas end-products were collected to determine molar proportions of carbon dioxide (CO2), CH4and hydrogen gas (H2) in manually operated batch cultures. Differences in GP kinetics and fermentation gases were observed in response to the nature of the diets incubated. Although melamine addition did not affect GP kinetics and fermentation gas pattern compared to the control, the increase of melamine addition stimulated the yield of CH4by decreasing CO2, especially during the fermentation of the HF diet. The concentrations of ammonia nitrogen (N), amino acid N and microbial N in culture fluids were greater in the fermentation of LF- than HF diets, and these concentrations were increased by the increase of melamine addition after 72-h fermentation. The concentrations of total volatile fatty acids (VFA) were greater in HF than LF diets. The addition of melamine decreased total VFA concentrations and this response was greater in HF than LF diet fermentations. Melamine addition did not affect molar proportions of acetate, butyrate, propionate and valerate compared with the control; however, branched-chain VFA production, which was lower in the HF than the LF diet, was increased by the melamine addition, especially in the HF diet fermentation. The ratio of non-glucogenic to glucogenic acids was lower in the HF than the LF diet, but it was not affected by melamine addition. In brief, the greater reduction in the rate and extent of rumen fermentation found for the HF diet in comparison with the LF diet suggested that rumen fermentation rate and extentin vitrodepended mainly on the nature of the incubated substrate, and that they could be further inhibited by the increase of melamine addition.

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Effects of Biochar Produced From Tropical Rice Straw, Corncob and Bamboo Tree at Different Processing Temperatures on in Vitro Rumen Fermentation and Methane Production

10.21203/rs.3.rs-967865/v1 ◽

2021 ◽

Author(s):

Dinh Van Dung ◽

Le Duc Thao ◽

Le Duc Ngoan ◽

Le Dinh Phung ◽

Hynek Roubík

Keyword(s):

Rice Straw ◽

Methane Production ◽

Rumen Fluid ◽

Rumen Fermentation ◽

Gas Production ◽

Feed Additive ◽

Processing Temperature ◽

Time Points ◽

Biomass Resources

Abstract This study aimed to evaluate the effects of biochar produced from tropical biomass resources (rice straw, corncob and bamboo) at different processing temperatures (300, 500 and 700oC) on in vitro rumen fermentation and methane production. Treatments were arranged as a 3x3 factorial with three biomass resources and three biochar processing temperatures. Added biochar occupied 3% of the substrate (DM basic). 250 mg of the air-dried substrate was incubated in 120 ml bottles, which contained 25 ml of mixed rumen fluid and buffer mineral solution. Total gas and methane production, in vitro digestibility of DM, OM, and in vitro rumen fermentation characteristics were determined at three-time points: 4, 24 and 48 hours of the incubation. Results showed that biomass resources and processing temperatures affected gas production at 4, 24 and 48 hours of the incubation (P < 0.02). Interactions between biomass resources and processing temperatures affected gas production at 4 hours (P = 0.06) and 24 hours (P = 0.001). Biomass resources and processing temperatures affected methane production at different time points of the incubation, except the effect of biomass resources at 24 hours (P = 0.406). Increased processing temperature from 300 to 700oC reduced gas and methane production (P < 0.05). Biomass resources affected OM digestibility after 4 and 24 hours of incubation. Processing temperatures and their interaction with biomass resources affected OM digestibility after 48 hours of incubation (P < 0.001). NH3-N concentrations at 24 and 48h were highest for corncob, then rice straw, and lowest for bamboo tree derived biochar (P < 0.05). Increased processing temperatures resulted in higher NH3-N concentrations at 24 and 48 hours of incubation (P < 0.05). To mitigate methane production, biomass resources and processing temperatures should be considered when utilising biochar as feed additive in ruminant diets.

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Effects of Microalgae Species on In Vitro Rumen Fermentation Pattern and Methane Production

Annals of Animal Science ◽

10.2478/aoas-2019-0061 ◽

2020 ◽

Vol 20 (1) ◽

pp. 207-218 ◽

Cited By ~ 1

Author(s):

Ekin Sucu

Keyword(s):

Methane Production ◽

Dry Matter ◽

Volatile Fatty Acids ◽

Rumen Fermentation ◽

Gas Production ◽

Corn Silage ◽

Fermentation Pattern ◽

Proximate And Mineral Composition

AbstractThis experiment was conducted to establish the effects of two types of microalgae [Chlorella vulgaris (AI), C. variabilis (AII) and their combination (AI+AII)] with two substrates (wheat and corn silages) on rumen fermentation, gas and methane production. To each substrate, one of 3 algae treatment was supplemented at 0% and 25% of the total incubated dry matter. A series of 5 measurement points (3, 6, 12, 24 and 48 h) were completed and the gas production was monitored. The proximate and mineral composition of microalgae and substrates were examined. At 48 h incubation rumen fermentation variables and CH4 production were also assessed. When compared with wheat silage, corn silage caused an increase in gas production (P<0.05). Ruminal gas production decreased in the algae groups when compared to the controls (0% algae, wheat and corn silages, P<0.05). Among algae, C. vulgaris had the strongest effect, decreasing gas production by 34%. Among algae, the total volatile fatty acids (VFA) and CH4 production were found to be lower in C. variabilis (P<0.001). Ammonia-N increased with the algae inclusion (P<0.05). But, the ruminal gas production, pH, acetate, the total VFA, CH4 and rumen fermentation efficiency were not affected by the substrate and algae interaction (P>0.05). The propionate was the highest (P<0.05) for corn silage when incubated with C. vulgaris. Ruminal butyrate was the lowest for the wheat silage when incubated with the mixture of algae (P<0.05). The NH3-N was the highest in corn silage when incubated with all algae types (P<0.05). Careful selection and combination of substrate and algae may positively manipulate rumen fermentation and may inhibit CH4 production. Further research is needed to validate these results in vivo.

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Residue of propolis extract in bovine diets with increasing levels of protein on rumen fermentation

Pesquisa Agropecuária Brasileira ◽

10.1590/s1678-3921.pab2020.v55.01572 ◽

2020 ◽

Vol 55 ◽

Author(s):

Roberto Junior Teixeira Nascimento ◽

Rafael Monteiro Araújo Teixeira ◽

Thierry Ribeiro Tomich ◽

Luiz Gustavo Ribeiro Pereira ◽

Tânia Dayana do Carmo ◽

...

Keyword(s):

Volatile Fatty Acids ◽

Ammonia Nitrogen ◽

Rumen Fermentation ◽

Gas Production ◽

Ruminal Fermentation ◽

Propolis Extract ◽

In Vitro Gas Production ◽

Dry Matter Degradation ◽

Kinetics Of

Abstract: The objective of this work was to evaluate the effect of the residue from the extraction of propolis, added to bovine diets with increasing levels of protein, on ruminal fermentation in vitro. For this, the in vitro gas production technique was used. Incubation was carried out with inocula from three fistulated cows, in three periods. In each period, a cow received a daily dose of 100 g propolis residue. Four diets were evaluated: corn silage (control); and 25, 50, and 75% concentrate based on soybean meal. The following were determined: kinetics of rumen fermentation; dry matter degradation; production of gases, volatile fatty acids (acetate, propionate, and butyrate), methane, and ammonia nitrogen; and pH. The inclusion of 14.4, 15.1, and 9.5% propolis residue, respectively, to 25, 50, and 75% concentrate increased the production of gases from the degradation of fibrous carbohydrates, when compared with the control. The propolis residue reduces methane production and the acetate:propionate ratio at all tested concentrate inclusion levels.

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The Efficacy of Plant-Based Bioactives Supplementation to Different Proportion of Concentrate Diets on Methane Production and Rumen Fermentation Characteristics In Vitro

Animals ◽

10.3390/ani11041029 ◽

2021 ◽

Vol 11 (4) ◽

pp. 1029

Author(s):

Eslam Ahmed ◽

Naoki Fukuma ◽

Masaaki Hanada ◽

Takehiro Nishida

Keyword(s):

Methane Production ◽

Volatile Fatty Acids ◽

In Vitro Study ◽

Carbon Dioxide Production ◽

Ammonia Nitrogen ◽

Rumen Fermentation ◽

Fiber Digestibility ◽

Methane Reduction ◽

The Impact

This In Vitro study was conducted to investigate the impact of plant-bioactives extract (PE), a combination of garlic powder and bitter orange extract, on methane production, rumen fermentation, and digestibility in different feeding models. The dietary treatments were 1000 g grass/kg ration + 0 g concentrate/kg ration (100:0), 80:20, 60:40, 40:60, and 20:80. The PE was supplemented at 200 g/kg of the feed. Each group consisted of 6 replicates. The experiment was performed as an In Vitro batch culture for 24 h at 39 °C. This procedure was repeated in three consecutive runs. The results of this experiment showed that supplementation with PE strongly reduced methane production in all kinds of feeding models (p < 0.001). Its efficacy in reducing methane/digestible dry matter was 44% in the 100:0 diet, and this reduction power increased up to a 69.2% with the inclusion of concentrate in the 20:80 diet. The PE application significantly increased gas and carbon dioxide production and the concentration of ammonia-nitrogen, but decreased the pH (p < 0.001). In contrast, it did not interfere with organic matter and fiber digestibility. Supplementation with PE was effective in altering rumen fermentation toward less acetate and more propionate and butyrate (p < 0.001). Additionally, it improved the production of total volatile fatty acids in all feeding models (p < 0.001). In conclusion, the PE combination showed effective methane reduction by improving rumen fermentation characteristics without exhibiting adverse effects on fiber digestibility. Thus, PE could be used with all kinds of feeding models to effectively mitigate methane emissions from ruminants.

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