Dynamic changes in rumen fermentation and bacterial community following rumen fluid transplantation in a sheep model of rumen acidosis: implications for rumen health in ruminants

Objective: Feed additives that modify rumen fermentation can be used to prevent metabolic disturbances such as acidosis and optimize beef cattle production. The study evaluated the effects of liquid and powdered forms of polyclonal antibody preparation (PAP) against Streptococcus bovis and Fusobacterium necrophorum on rumen fermentation parameters in ruminally cannulated non-lactating dairy cows that were adapted or unadapted to a high concentrate diet.Methods: A double 3×3 Latin square design was used with three PAP treatments (control, powdered, and liquid PAP) and two adaptation protocols (adapted, unadapted; applied to the square). Adapted animals were transitioned for 2 weeks from an all-forage to an 80% concentrate diet, while unadapted animals were switched abruptly.Results: Interactions between sampling time and adaptation were observed; 12 h after feeding, the adapted group had lower ruminal pH and greater total short chain fatty acid concentrations than the unadapted group, while the opposite was observed after 24 h. Acetate:propionate ratio, molar proportion of butyrate and ammonia nitrogen concentration were generally greater in adapted than unadapted cattle up to 36 h after feeding. Adaptation promoted 3.5 times the number of Entodinium protozoa but copy numbers of Streptococcus bovis and Fibrobacter succinogens genes in rumen fluid were not affected. However, neither liquid nor powdered forms of PAP altered rumen acidosis variables in adapted or unadapted animals.Conclusion: Adaptation of cattle to highly fermentable carbohydrate diets promoted a more stable ruminal environment, but PAP was not effective in this study in which no animal experienced acute or sub-acute rumen acidosis.

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Changes in rumen fermentation and bacterial community in lactating dairy cows with subacute rumen acidosis following rumen content transplantation

Journal of Dairy Science ◽

10.3168/jds.2021-20490 ◽

2021 ◽

Author(s):

Y.Y. Mu ◽

W.P. Qi ◽

T. Zhang ◽

J.Y. Zhang ◽

S.J. Mei ◽

...

Keyword(s):

Bacterial Community ◽

Dairy Cows ◽

Rumen Fermentation ◽

Rumen Content ◽

Lactating Dairy Cows ◽

Rumen Acidosis

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Effects of Dietary Energy on Growth Performance, Rumen Fermentation and Bacterial Community, and Meat Quality of Holstein-Friesians Bulls Slaughtered at Different Ages

Animals ◽

10.3390/ani9121123 ◽

2019 ◽

Vol 9 (12) ◽

pp. 1123 ◽

Cited By ~ 4

Author(s):

Haibo Wang ◽

Hang Li ◽

Fei Wu ◽

Xinjun Qiu ◽

Zhantao Yu ◽

...

Keyword(s):

Bacterial Community ◽

Growth Performance ◽

Meat Quality ◽

Energy Levels ◽

Average Daily Gain ◽

Rumen Fermentation ◽

Dietary Energy ◽

Different Ages ◽

Slaughter Age

The objective of this study was to evaluate the effects of dietary energy levels on growth performance, rumen fermentation and bacterial community, and meat quality of Holstein-Friesians bulls slaughtered at different ages. Thirty-six Holstein-Friesians bulls (17 months of age) were divided into a 3 × 3 factorial experiment with three energy levels (LE, ME and HE; metabolizable energy is 10.12, 10.90 and 11.68 MJ/kg, respectively) of diets, and three slaughter ages (20, 23 and 26 months). Results indicated that bulls fed with ME and HE diets had higher dry matter intake, average daily gain, and dressing percentage at 23 or 26 months of age. The ME and HE diets also reduced bacterial diversity, altered relative abundances of bacteria and produced lower concentrations of acetate, but higher butyrate and valerate concentrations in rumen fluid. Increasing in dietary energy and slaughter age increased the intramuscular fat (IMF) and water holding capacity. In summary, Holstein-Friesians bulls fed with ME and HE diets, slaughtered at 23 and 26 months of age could be a good choice to produce beef with high IMF. Slaughter age may have less influence than dietary energy in altering fermentation by increasing amylolytic bacteria and decreasing cellulolytic bacteria, and thus, further affecting meat quality.

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An Assessment of the Viability of Lytic Phages and Their Potency against Multidrug Resistant Escherichia coli O177 Strains under Simulated Rumen Fermentation Conditions

Antibiotics ◽

10.3390/antibiotics10030265 ◽

2021 ◽

Vol 10 (3) ◽

pp. 265

Author(s):

Peter Kotsoana Montso ◽

Caven Mguvane Mnisi ◽

Collins Njie Ateba ◽

Victor Mlambo

Keyword(s):

Escherichia Coli ◽

Rumen Fluid ◽

Multidrug Resistant ◽

Rumen Fermentation ◽

Ruminal Fermentation ◽

Fermentation Conditions ◽

E Coli ◽

Cell Counts ◽

Milk Contamination ◽

Novel Strategy

Preslaughter starvation and subacute ruminal acidosis in cattle are known to promote ruminal proliferation of atypical enteropathogenic Escherichia coli strains, thereby increasing the risk of meat and milk contamination. Using bacteriophages (henceforth called phages) to control these strains in the rumen is a potentially novel strategy. Therefore, this study evaluated the viability of phages and their efficacy in reducing E. coli O177 cells in a simulated ruminal fermentation system. Fourteen phage treatments were allocated to anaerobic serum bottles containing a grass hay substrate, buffered (pH 6.6–6.8) bovine rumen fluid, and E. coli O177 cells. The serum bottles were then incubated at 39 °C for 48 h. Phage titres quadratically increased with incubation time. Phage-induced reduction of E. coli O177 cell counts reached maximum values of 61.02–62.74% and 62.35–66.92% for single phages and phage cocktails, respectively. The highest E. coli O177 cell count reduction occurred in samples treated with vB_EcoM_366B (62.31%), vB_EcoM_3A1 (62.74%), vB_EcoMC3 (66.67%), vB_EcoMC4 (66.92%), and vB_EcoMC6 (66.42%) phages. In conclusion, lytic phages effectively reduced E. coli O177 cells under artificial rumen fermentation conditions, thus could be used as a biocontrol strategy in live cattle to reduce meat and milk contamination in abattoirs and milking parlours, respectively.

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Reducing enteric methane production from buffalo (Bubalus bubalis) by garlic oil supplementation in in vitro rumen fermentation system

SN Applied Sciences ◽

10.1007/s42452-021-04264-6 ◽

2021 ◽

Vol 3 (2) ◽

Author(s):

Avijit Dey ◽

Shyam Sundar Paul ◽

Puran Chand Lailer ◽

Satbir Singh Dahiya

Keyword(s):

Environmental Pollution ◽

Methane Production ◽

Rumen Fluid ◽

Bubalus Bubalis ◽

Rumen Fermentation ◽

Acetyl Esterase ◽

Garlic Oil ◽

Enteric Methane ◽

In Vitro Rumen Fermentation

AbstractEnteric methane production contributes significantly to the greenhouse gas emission globally. Although, buffaloes are integral part of livestock production in Asian countries, contributing milk, meat and draft power, the contribution of enteric methane to environmental pollution attracts attention. The present study investigated the efficacy of garlic (Allium sativum) oil in reducing enteric methane production from buffaloes (Bubalus bubalis) by in vitro rumen fermentation. Garlic oil (GOL) was tested at four concentrations [0 (Control), 33.33 µl (GOL-1), 83.33 µl (GOL-2) and 166.66 µl (GOL-3) per litre of buffered rumen fluid] in 100-ml graduated glass syringes and incubated at 39℃ for 24 h for in vitro rumen fermentation study. Supplementation of GOL-1 increased (p < 0.05) total gas production in comparison with GOL-3; however, it remained comparable (p > 0.05) with control and GOL-2. Graded doses of garlic oil inclusions reduced (p < 0.001) methane concentration (%) in total gas and total methane production (ml/g DM), irrespective of concentrations. The feed degradability, volatile fatty acids and microbial biomass production (MBP) were not affected (p > 0.05) by GOL-1, but these tended to decrease in GOL-2 with marked reduction (p < 0.01) in GOL-3. The decrease (p < 0.01) in NH3–N concentration in fermentation fluid in the presence of garlic oil, irrespective of concentration, suggests reduced deamination by inhibiting rumen proteolytic bacterial population. The activities of ruminal fibrolytic enzymes (CMCase, xylanase, β-glucosidase, acetyl esterase) were not affected by lower dose (GOL-1) of garlic oil; however, reduction (p < 0.05) of these enzymes activity in rumen liquor was evident at higher doses (GOL-2 and GOL-3) of supplementation. This study shows positive impact of garlic oil supplementation at low dose (33.33 µl/l of rumen fluid) in reducing enteric methane production, thereby, abatement of environmental pollution without affecting feed digestibility.

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The application of rumen simulation technique (RUSITEC) for studying dynamics of the bacterial community and metabolome in rumen fluid and the effects of a challenge with Clostridium perfringens

PLoS ONE ◽

10.1371/journal.pone.0192256 ◽

2018 ◽

Vol 13 (2) ◽

pp. e0192256 ◽

Cited By ~ 7

Author(s):

Stefanie U. Wetzels ◽

Melanie Eger ◽

Marion Burmester ◽

Lothar Kreienbrock ◽

Amir Abdulmawjood ◽

...

Keyword(s):

Bacterial Community ◽

Clostridium Perfringens ◽

Rumen Fluid ◽

Simulation Technique

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Live Bacillus subtilis natto Promotes Rumen Fermentation by Modulating Rumen Microbiota In Vitro

Animals ◽

10.3390/ani11061519 ◽

2021 ◽

Vol 11 (6) ◽

pp. 1519

Author(s):

Meinan Chang ◽

Fengtao Ma ◽

Jingya Wei ◽

Junhao Liu ◽

Xuemei Nan ◽

...

Keyword(s):

Bacillus Subtilis ◽

16S Rrna ◽

Rumen Fluid ◽

Gene Sequencing ◽

16S Rrna Gene Sequencing ◽

Rumen Fermentation ◽

Rrna Gene ◽

Bacillus Subtilis Natto ◽

Rrna Gene Sequencing

Previous studies have shown that Bacillus subtilis natto affects rumen fermentation and rumen microbial community structure, which are limited to detect a few microbial abundances using traditional methods. However, the regulation of B. subtilis natto on rumen microorganisms and the mechanisms of microbiota that affect rumen fermentation is still unclear. This study explored the effects of live and autoclaved B. subtilis natto on ruminal microbial composition and diversity in vitro using 16S rRNA gene sequencing and the underlying mechanisms. Rumen fluid was collected, allocated to thirty-six bottles, and divided into three treatments: CTR, blank control group without B. subtilis natto; LBS, CTR with 109 cfu of live B. subtilis natto; and ABS, CTR with 109 cfu of autoclaved B. subtilis natto. The rumen fluid was collected after 0, 6, 12, and 24 h of fermentation, and pH, ammonia nitrogen (NH3-N), microbial protein (MCP), and volatile fatty acids (VFAs) were determined. The diversity and composition of rumen microbiota were assessed by 16S rRNA gene sequencing. The results revealed LBS affected the concentrations of NH3-N, MCP, and VFAs (p < 0.05), especially after 12 h, which might be attributed to changes in 18 genera. Whereas ABS only enhanced pH and NH3-N concentration compared with the CTR group (p < 0.05), which might be associated with changes in six genera. Supplementation with live B. subtilis natto improved ruminal NH3-N and propionate concentrations, indicating that live bacteria were better than autoclaved ones. This study advances our understanding of B. subtilis natto in promoting ruminal fermentation, providing a new perspective for the precise utilization of B. subtilis natto in dairy rations.

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PSIX-5 Diet is more powerful than age in shaping the rumen bacterial community and function of dairy cattle

Journal of Animal Science ◽

10.1093/jas/skab235.792 ◽

2021 ◽

Vol 99 (Supplement_3) ◽

pp. 444-444

Author(s):

YangYi Hao ◽

Shuai Huang ◽

Shengli Li

Keyword(s):

Bacterial Community ◽

Dairy Cattle ◽

Rumen Fluid ◽

Rumen Bacteria ◽

Great Ability ◽

Linear Discriminant ◽

High Fiber ◽

Fiber Diet ◽

High Fiber Diet ◽

And Function

Abstract The objective was to understand the effects of diet and age on the rumen bacterial community and function, 48 dairy cattle were selected. Rumen fluid samples were collected from each animal at 1.5 (1.5M, milk and starter diet, n=8), 6 (6M, starter and oat grass, n=8), 9 (9M, high fiber diet, n=8), 18 (18M, high fiber diet, n=8), 23 (23M, high fiber diet, n=8) and 27 (27M, high grain diet, n=8) months old. The acetate/propionate ratio (A/P) at M9, M18, and M23 were significantly higher than M27 and M1.5 (P < 0.05), while the A/P at M6 was lower than others (P < 0.05). The total volatile fatty acid at M23 and M27 was higher than others (P < 0.05). The urease at M18 was significantly lower than M1.5, M6, and M9 (P < 0.05), and the xylanase at M18 was significantly higher than M1.5, M23, and M27 (P < 0.05). 16S rRNA sequencing data and the Linear discriminant analysis showed that thirty-three bacteria were identified as biomarkers among ages and diets. The age and diet contributed 7.98% and 32.49% to the rumen bacteria community using the variation partitioning approach analysis. The norank_f_p-251-o5 was significantly and positively correlated with age (r = 0.83, P < 0.01), while Eubacterium was significantly and negatively correlated with age (r = -0.84, P < 0.01). Dietary fiber showed a strong correlation (r > 0.80, P < 0.01) with Lachnospiraceae, NK4A214_group, Saccharofermentans, Clostridia, Pseudobutyrivibrio Bacteroidales_UCG-001. These genera also negatively correlated with dietary crude protein and starch (r < - 0.80, P < 0.01). All these bacteria were significantly correlated with A/P, acetate, and urease (r > 0.5, P < 0.05). These findings collectively indicated that diet drives the great ability to shape the rumen bacteria community and function than age.

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Effects of urea‐treated oil palm frond on nutrient composition and in vitro rumen fermentation using goat rumen fluid

Journal of Animal Physiology and Animal Nutrition ◽

10.1111/jpn.13670 ◽

2021 ◽

Author(s):

Mookiah Saminathan ◽

Wan N. Wan Mohamed ◽

‘Abidah Md Noh ◽

Nur A. Ibrahim ◽

Muhammad A. Fuat ◽

...

Keyword(s):

Oil Palm ◽

Rumen Fluid ◽

Rumen Fermentation ◽

Nutrient Composition ◽

Oil Palm Frond ◽

Palm Frond ◽

In Vitro Rumen Fermentation ◽

Goat Rumen

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PSXIII-8 Effects of different sources of Zn on in vitro ruminal fermentation and digestibility of a lactation diet

Journal of Animal Science ◽

10.1093/jas/skab235.826 ◽

2021 ◽

Vol 99 (Supplement_3) ◽

pp. 466-466

Author(s):

Angela R Boyer ◽

Yun Jiang ◽

Alon Blakeney ◽

Dennis Nuzback ◽

Brooke Humphrey ◽

...

Keyword(s):

Rumen Fluid ◽

Random Effect ◽

Rumen Fermentation ◽

Gas Production ◽

Ruminal Fermentation ◽

Negative Effects ◽

Minimum Concentration ◽

High Metal Content ◽

Different Sources

Abstract Vistore® minerals are hydroxychloride minerals that feature high metal content and improved bioavailability. This study was conducted to compare different sources of zinc (Zn) on in vitro rumen fermentation parameters. Three ruminally-cannulated Jersey heifers were adapted to a lactation diet for two weeks before used as donors. Three sources of Zn were tested at 20 ppm: No supplemental Zn (CON), ZnSO4, Vistore Zn, and another Zn hydroxychloride (Vistore-competitor). The concentration of Zn in this study was selected from a titration study (0 to 40 ppm ZnSO4) to identify the minimum concentration of ZnSo4 affecting rumen fermentation. The lactation diet (TMR) was dried and ground to 1mm and used as substrate. Rumen fluid was collected two hours after feeding. Substrate (0.5 g) was inoculated with 100 mL of 3:1 McDougall’s buffer: ruminal flued mixture at 39ºC for 24 h. Each treatment was run in triplicate and in three runs. Data were analyzed with R 3.0. The model included fixed effect of treatment and random effect of run. ZnSO4 reduced (P < 0.05) maximum gas production, DMD (54 vs. 55.9%) and cellulose (27.5 and 40.7%) digestibility. acetate to propionate ration (2.20 vs. 2.24) and NH3-N concentration (6.0 vs. 7.0 mg/dL), increased (P < 0.05) propionate % (27.2 vs 26.7%) compared to control. Vistore had higher pH than control (6.44 vs. 6.40, P = 0.02) but did not affect other parameters compared to CON. Vistore-competitor reduced total VFA production compared to control, ZnSO4, and Vistore (94 vs. 102, 106 and 107 mM, respectively, P = 0.01) but did not affect other parameters. In general, Vistore Zn maintained in vitro ruminal fermentation and digestibility, while ZnSO4 had negative effects on both fermentation and digestibility and Vistore-competitor reduced total VFAs. Results indicate hydroxychloride minerals may stabilize rumen parameters versus sulfate sources but different hydroxychloride sources appear to influence rumen parameters differently.

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