• Korean Journal of Organic Agriculture
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• v.24 no.3
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• pp.453-463
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• 2016

This study was undertaken to investigate the effects of dicarboxylic acid supplementation, as replacement antibiotics, of on in vitro ruminal parameters and milk yield and milk composition in lactating cows. in vitro treatments were 1) Con (4 g of basal diet), 2) CM (4 g of basal diet + 0.05 ml of monensin), 3) CR (4 g of basal diet + 0.1 ml of dicarboxylic acid) and in vivo treatments were 1) Con (25 kg of basal diet/head/day), and 2) CR (25 kg of basal diet + 5 g of dicarboxylic acid/head/day), respectively. A total 10 lactating dairy cows ($649{\pm}19kg$ average body weight, $99{\pm}65$ average milking days) were divided in to two groups according to mean milk yield and number of days of postpartum. The cows fed a basal diet during adaptation (2 wk) and experimental diets during the treatment periods (4 wk). In the first in vitro experiment, there were no statistical differences between treatments in pH, gas production, and ammonia-N and lactic acid concentration during incubation. However, dry matter digestibility was significantly higher in CR treatment compared to control or CM treatment (P<0.05). Total VFA was tended to higher in CR treatment than those of control and CM treatment (P>0.05). In the second experiment, milk yield was significantly higher in treatment (40.39 kg) compared to control (35.19 kg), (P<0.05). Milk composition and MUN were not changed by dietary supplementing dicarboxylic acid. Therefore the present results reporting that supplementation of dicarboxylic acid might enhance the stabilization of ruminal fermentation and increase the milk yield of lactating cows.

• Korean Journal of Agricultural Science
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• v.26 no.2
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• pp.25-32
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• 1999

An in vitro study was conducted to examine the effects of the addition of activated charcoal (AC) on the ruminal fermentation characteristics, nutrient disappearance, and ruminal gas production. AC was added at the levels of 0.00, 0.25, and 0.50 % to each of the four types of diets (roughage/concentrate ratio : 8/2, 6/4, 4/6 and 2/8), respectively. Although not significant, ruminal pH tended to increase by adding AC, and as the concentrate level increased, ruminal pH decreased (P<0.05). Acetate concentration and acetate/propionate molar ratio tended to decrease in AC diets. but molar % of propionate tended to increase by the addition of AC. Ruminal degradation of dry matter, crude protein, NDF, ADF, and hemicellulose in AC diets tended to increase than in non-AC diet, however, no tendency in ruminal degradation of crude fat was observed. As the concentrate level increased, rumunal degradation of dry matter and nutrients in AC diets increased significantly(P<0.05). Ruminal gas production tended to decrease in the 0.50 % AC diets, however, it tended to increase in high roughage diets. Although there appeared some beneficial effects in adding AC to ruminant diets in this study, more works should be done with AC before we can make clear conclusion on the use of AC in the ruminant diets.

• Korean Journal of Agricultural Science
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• v.32 no.2
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• pp.197-203
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• 2005

This study was conducted to investigate the effects of the addition of activated charcoal (AC) and oak charcoal on the ruminal fermentation characteristics, nutrient utilization in Korean native goats. Compared to reference diet, digestibility of dry matter, and crude protein in AC and charcoal diets tended to incraese. However, any tendency in ruminal degradation of crude fat was not observed. Ruminal degradation of NDF in AC diets tended to be more increased than that in non-AC diet. Although it was not significant, ADF tended to be increased in AC and charcoal diets. AC and charcoal did not affect the ruminal pH and ammonia-N. Concentration of total VFA and butyrate tended to be increased by adding AC and charcoal(p<0.05). Although it was not significant, acetate/propionate ratio tended to decreased in AC and charcoal diets. Although there appeared some beneficial effects in adding AC and charcoal to ruminant diets in this study, more works could be needed with AC before we can make clear conclusion on use of AC and charcoal in the ruminant diets.

• Korean Journal of Organic Agriculture
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• v.32 no.3
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• pp.289-298
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• 2024

The objective of this study was to the effect of four medicinal plants (Rheum palmatum, Pharbitidis semen, Reynoutria japonica, Tribulus semen) supplementation on methane reduction and ruminal fermentation in in vitro batch culture method. Each medicinal plant was supplemented 5% on a substrate basis in the bottle, then filled with buffered rumen fluid. Incubation was conducted for 24 hours in a shaking incubator (39℃, 120 rpm). The ruminal pH values were not significantly different between the control and treatment groups. However, the digestibility of the feed was significantly higher in the group supplemented with medicinal plants than control group. Methane production (mL/g of digested dry matter) and total gas production (mL) was significantly lower in the treatment group compared to the control group in Tribulus semen group. Total volatile fatty acids concentration were significantly higher in all treatment groups than control group, and acetate concentration was significantly higher in all treatment groups than control group except for Rheum palmatum group. Propionate concentration was significantly higher in all treatment groups than control group, while butyrate concentration was significantly higher in Rheum palmatum group than control group. Ammonia nitrogen concentration was significantly higher in all treatment groups than control group. In conclusion, the addition of medicinal plants did not negatively impact rumen fermentation, and the results indicate that Tribulus semen has potential as a feed additive for reducing methane emissions.

• Korean Journal of Organic Agriculture
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• v.32 no.3
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• pp.277-288
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• 2024

The present study was conducted to investigate the effects of seaweeds on in vitro ruminal fermentation characteristics and methane gas production. Five seaweeds (Dictyota dichotoma, DD; Chrysymenia wrightii Yamada, CW; Codium fragile, CF; Sargassum fusiforme, SF; Gracilaria vermiculophylla, GV) were obtained from National Institute of Fisheries Science (NIFS) in South Korea. The ruminal fluids were collected from 3 rumen-cannulated Hanwoo steers (average 12-months-old). The buffered ruminal fluids (50 mL) were incubated with substrates (0.4 g of concentrate and 0.1 g of rice straw in dry matter basis) and seaweeds (5% of substrates) at 39℃ for 24 and 48 hours. The total gas and methane production of all treatments incubated for 24 hours were not affected by the seaweed. However, methane production (mL/g of digested dry matter) in the CW and CF treatments incubated for 48 hours was decreased compared to control (p<0.05). Additionally, the ruminal pH of all treatments incubated for 24 and 48 hours was lower than control (p<0.05). There was no signigicant difference in total VFA concentration at 24 hours of incubation, but it was higher in the CF treatment at 48 hours of incubation (p<0.05). The dry matter digestibility of all treatments incubated for 24 and 48 hours were not affected by the seaweed. In conclusion, Codium fragile reduced in vitro methane production without negative effects on rumen fermentation characteristics.

• Korean Journal of Organic Agriculture
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• v.14 no.1
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• pp.97-108
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• 2006

These studies were conducted to evaluate the feasibility of spent bleaching clay (SBC) as a feed resource for ruminants. Three Holstein dairy cows, surgically fitted with ruminal cannula, were used in a $3{\times}3$ Latin Square design. Dietary treatments were 1) basal diet, 2) basal diet plus 2% of SBC and 3) basal diet plus 4% of SBC. Rumen fluid was sampled at 0, 3, 6, 9 and 12 hours following the start of the morning feeding. Nylon bags containing experimental diets were used to determine ruminal nutrient disappearance at 0, 3, 6, 12 and 24 hours. The values of ruminal pH in cows receiving 4% of SBC was lower than those of the control and 2% SBC supplement. The $NH_3-N$ concentration in the rumen was higher at the 3 hour than for cows of control and 2% of SBC supplement. Total VFA concentrations in the rumen were not affected by the addition of SBC. Dry matter and organic matter disappearance in the rumen was lower at the 6 hours than the control and 2% SBC treatment, but no difference at the end of the 24 hour.

• Journal of agriculture & life science
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• v.51 no.4
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• pp.97-109
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• 2017

This study was conducted to investigate the effects of anti-inflammatory plant extracts on the in vitro rumen fermentation characteristics and methane emission. Anti-inflammatory plant extracts from Morus bombycis Koidz, Mallotus japonicus L., Morus alba L., Paulownia coreana Uyeki, Isodon japonicus Hara and Ginkgo biloba L. were used in the study. The ruminal fluid(5 mL), McDougall buffer(10 mL), timothy as a substrate(0.3 g) and each anti-inflammatory plant extract(5% of substrate) were dispensed anaerobically into 50mL serum bottle. The mixtures were incubated for 3, 9, 12, 24, 48 and 72h at $39^{\circ}C$ without shaking. Supplementation of the anti-inflammatory plant extracts did not effects characteristics(pH, digestibility of dry matter, glucose concentration, ammonia concentration, protein concentration, VFA) on rumen fermentation. Total gas was showed a different pattern depending on treatments. Carbon dioxide was significantly(p<0.05) higher in Morus alba and Isodon japonicus than in control at 48h. Methane was significantly(p<0.05) lower in treatment than in control at initial fermentation. However the more incubation time was increased, the more methane emission was higher in treatment than in control. The concentrations of polyphenol and flavonoid were higher in Ginkgo biloba. In conclusion, supplementation of the anti-inflammatory plant extracts did not effect on rumen fermentation and methane emission was decreased in initial fermentation.

• Journal of Animal Science and Technology
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• v.45 no.5
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• pp.805-812
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• 2003

This study was conducted to examine effects of feeding dry TMR(DTMR), wet TMR(WTMR) and fermented TMR(FTMR) on rumen fermentation, enzyme activity and digestibility in the total tract of sheep. Three rumen cannulated sheep were used in a 3${\times}$3 latin square design. The present results showed that pH, NH3-N, total and individual VFA, A/P ratio and enzymes (CMCase, Xylanase and Protease) activity in the rumen were higher in WTMR and FTMR compared with DTMR. In addition, dry matter, organic matter, crude protein, ether extract, NDF and ADF digestibility in the total tract were also higher in WTMR and FTMR compared with DTMR. Therefore, the present results showed that WTMR and FTMR are better than DTMR for rumen fermentation and nutrients digestibility.

• Journal of agriculture & life science
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• v.50 no.2
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• pp.95-105
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• 2016

This study was conducted to evaluate the effects of nitrate-rich plants extracts on the in vitro rumen fermentation characteristics and rumen methane production. The extracts of nitrate-rich plants, as potato, carrot, chinese cabbage, lettuce and spinach were used in this study. The ruminal fluid was collected from a cannulated Hanwoo cow fed concentrate and timothy in the ratio of 6 to 4. The 20mL of mixture, comparing McDougall's buffer and rumen fluid in the ratio 2 to 1, was dispensed anaerobically 50mL serum bottles containing 0.3g of timothy substrate and extracts of nitrogen-rich plants. The serum bottles were incubated 39℃ for 9, 12, 24, 48 hours. The pH value was decreased by increased incubation times and normal range to 6.31 to 6.96. The dry matter digestibility was significantly(p<0.05) lower in chinese cabbage than in control at 9h incubation time. Ammonia concentration was significantly(p<0.05) lower in potato, chinese cabbage, lettuce than in control and the rumen microbial growth rate was significantly(p<0.05) higher in carrot than in control at 24h incubation time. The concentrations of acetate and propionate was significantly(p<0.05) lower in treatment than in control. The concentration of butyrate was showed a different pattern depending on treatments. Total gas emissions was significantly(p<0.05) lower in chinese cabbage, lettuce, spinach than in control at 12h, 24h incubation time. Methane production was significantly(p<0.05) lower in potato, chinese cabbage, spinach than in control, carbon dioxide production was significantly(p<0.05) lower in treatment than in control. In conclusion, supplementation of the nitrate-rich plant extracts in ruminal fermentation in vitro resulted in decreasing the methane production without adversely affecting the fermentation characteristics. Particularly the chinese cabbage extract was regard as a potential candidate for reducing the methane emission in ruminants.

• Journal of Animal Science and Technology
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• v.53 no.2
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• pp.147-154
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• 2011

This study was conducted to evaluate the effects of saponin contained plant extracts on in vitro rumen fermentation characteristics and methane production. Ruminal fluid was collected from rumen cannulated Hanwoo steers fed rice straw and concentrate (5:5). Collected rumen fluids, corn starch and buffer including saponin contained plant extracts (ginseng, Ogapi, soapwort, tea plant and yucca; 0.5%/15 ml) were incubated at $39^{\circ}C$ for 24 h. All incubations were repeated five times. Rumen pH in all treatments was lower (p<0.05) compared with that of the control (no addition) during incubation time. The concentration of total VFA in all treatments was higher (p<0.05) than that of the control after 12h incubation. Compared with the control, the concentration of acetate and propionate in all treatments was lower and higher after 6h incubation, respectively. The concentration of $NH_3$-N in all treatments was lower (p<0.05) than that of the control except for Ogapi or yucca extracts supplementation. The number of protozoa in all treatments was significantly (p<0.05) lower than that of the control except for soapwort extract supplementation. The total gas production and methane production in all treatments was higher (p<0.05) and lower (p<0.05) compared with the control, except for ogapi or soapwort extracts supplementation after 12h incubation, respectively. Therefore, reduction in methane production by saponins may could be results from decreased protozoal population without any negative in vitro fermentation.