메탄가스는 주요 온실가스 중 하나로 반추동물의 장내발효를 통해 발생하며, 이러한 경로의 메탄가스는 대한민국 축산부문 총 온실가스 발생량의 40% 이상을 차지한다. 이런 이유로 많은 연구자들은 반추동물에서 발생하는 메탄생성량을 줄이기 위한 시도를 계속해 왔다. 본 연구는 반추동물의 메탄발생량을 측정하기 위해 호흡대사챔버를 개발하고 호흡대사챔버의 정확성을 검증하기 위해 실시하였다. 호흡대사챔버는 25.4 m3 크기로 스테인리 스 플레이트로 내부를 완전히 밀폐하였다. 직경 Φ100의 공기 유입관과 배출관을 설치하였고, 공기 배출관에 에어모터를 설치하여 내부공기를 제거함과 동시에 유입관을 통해 배출된 만큼의 공기가 외부에서 유입되도록 하였다. 챔버 내 메탄가스 회수기능을 검증하기 위해 메탄표준가스 5L를 각 챔버에 주입하여 균일하게 확산시킨 후, 챔버 내부의 공기를 900 L/min의 속도로 제거하였다. 제거된 공기의 메탄가스 농도를 연속적으로 측정하여 주입된 메탄가스와 비교함으로써 회수율을 평가하였다. 챔버 내 표준가스는 평균 100분에 완전히 제거되었으며, 메탄가스의 회수율은 평균 109 ± 6.7%로 측정되었다. 호흡대사챔버의 실제 이용성을 평가하기 위해, 평균체중 581.9 ± 33.8 kg 의 한우 거세우 4두에게 비육후기 배합사료 9 kg과 볏짚 1 kg을 급여하며 메탄발생량을 측정하였다. 한우의 장내발효에 의한 메탄발생량은 평균 236.4 ± 105.44 L/day로 측정되었다. 본 연구에서 개발·검증한 호흡대사챔버는 국내 한우의 장내발효 메탄가스발생량 측정 시험에 적용 가능할 것이다.

본 연구는 반추동물용 섬유질배합사료(TMR) 제조업체 의 사료안전관리 인식 및 사료 중 위해인자 오염도를 조사 하기 위해 138개소 TMR 제조시설을 대상으로 약 10개월 동안 설문조사를 실시하였다. 조사표는 총 17개 문항으로 구성하였으며, 얻어진 자료는 기술통계분석, 교차분석 및 신뢰도 검정을 통해 분석하였다. TMR 제조시설의 평균 일 일 생산능력은 81.38톤 이었다. 평균 개업연도는 2004년 및 종사인원은 13.7명이었고, 유통경로는 직접거래가 80.4%로 가장 많았다. 사료안전관리 시스템 도입은 사료안전관리의 제도적 여건이 조성된 후 도입이 필요하다는 인식이 주를 이루었으며, 사료안전관리 시스템 구축을 위해서는 사료안 전정보 제공 및 공유가 가장 필요한 조건으로 나타났다. 사료안전성 및 위해물질 관리에 가장 취약한 분야는 곰팡 이 독소인 것으로 조사되었으며, 사료 제조과정에서 가장 위험한 위해인자는 쇠, 파편, 흙 등과 같은 이물질로 나타 났다. 사료 중 위험인자 오염도 조사에서 카드뮴, 비소 및 셀레늄은 허용기준치를 초과한 제품이 일부 조사되었고, 오크라톡신류 및 아플라톡신류는 허용범위내로 조사되었 다. 잔류농약, BSE, 푸모니신 및 살모넬라는 검출되지 않았 으며, 멜라민 및 비단백태질소화합물은 각각 11.35ppm 및 5%로 최댓값을 나타냈다. 규모별 TMR 제조시설의 사료 내 위해인자 오염도는 규모별로 차이가 많았으며, 같은 규 모 내에서도 제조시설에 따라 위해인자의 검출량이 다르 게 나타났다. 또한 소규모에 비해 중규모 및 대규모에서 위해인자 검출량이 더 높아지는 경향을 보였다. 따라서 본 조사결과 TMR 제조시설의 사료안전관리 시스템을 구축하 기 위해서는 사료안전에 대한 정보제공 및 공유가 정책적 으로 제도화되어야 하고, 사료 내 발생하는 곰팡이 독소방 지 및 이물질 제거를 위한 사료관리법의 강화와 원료 공급 처에서 이물질을 제거할 수 있는 장치 도입을 의무화할 필 요가 있다고 판단된다.

It has been now believed and documented that high producing animals can be exploited even best if the heat period expressed in them could be synchronized. Recently, the development in the field of animal science and the introduction of newer technology such as assisted reproductive technology (ART) has immensely rationalized the importance of certain techniques by improvising them in order to benefit the production part from animals. Assisted reproductive technologies have not only benefitted a lot by increasing the production but also by addressing several problems of reproduction failure in farm animals. These technologies have also assisted in improving them and in accelerating genetic improvement among animal population. Techniques such as improved follicular efficiencies, ovum pick up, in vitro embryo production, embryo and semen sexing, somatic cell nuclear transfer and production of transgenic and cloned embryos have been now taken up as cost effective shape in accelerating genetic improvement in animal population and all such technologies have been overviewed and highlighted in this review.

This study was conducted to evaluate Raphanus sativus extracts to methane reduction in rumen. Five different levels of R. sativus extracts were used to investigate the most effective dosing level for the decrease of methane production in the rumen. The rumen fluid was collected from a cannulated one Hanwoo cow (BW=450±30 kg) consuming 600 g/kg timothy and 400 g/kg concentrate. On fermentation day, rumen fluid was collected at 2 hr postfeeding R. sativus extracts was dosed to achieve final concentration of 0, 1, 3, 5, 7, and 9% respectively, to fermentation bottles containing the mixture of rumen fluid and McDougall’s buffer and 300 mg of timothy was added as a substrate. The fermentation was conducted for 3, 6, 9, 12, 24, 48 and 72 hr incubation time at 39℃ with shaking. In vitro ruminal pH values were measured normal range for ruminal fermentation. Dry matter disappearance was significantly higher (p<0.05) at 3 hr incubation time 1, 3 and 5% doses than that of control. The highest methane reduction was observed in 12 hr incubation time 5, 7 and 9%. The carbon dioxide emission was also significantly (p<0.05) lower than that of control at 12 hr incubation time 5, 7 and 9%. The total volatile fatty acid was no significant difference between control and all doses level at 12 and 24 hr incubation time. At 24 hr incubation time, the result of real-time PCR were indicated that M. archea was significantly lower (p<0.05) at all doses level comparing to that of control. In conclusion, R. sativus extracts were significantly decreased methane emission. R. sativus extracts were significantly lower (p<0.05) than that of control at 12 hr incubation time 5, 7 and 9% and no adversely effect in rumen pH, dry matter disappearance and total VFA.

This study was conducted to evaluate natural plant extracts for methane gas reduction in ruminants. Rumen fluid was collected from cannulated Hanwoo cow (450±30 kg) consuming 400 g/kg concentrate and 600 g/kg timothy. The 15 ml of mixture comparing McDougall’s buffer and rumen fluid in the ratio 2 to 1, was dispensed anaerobically into 50 ml serum bottles. Rumen fluid contents were collected and in vitro fermentation prepared control (timothy, 300 mg), ginseng, balloon flower, yucca plant, camellia, tea plant and ogapi extracts were added at the level of 5% against 300 mg of timothy as a substrate (v/w) and incubated for 3, 6, 9, 12, 24, 48, and 72 h. In vitro pH values range 6.55~7.41, this range include rumen titration. The dry matter digestibility was not differ between all treatments and control. Total gas emission was significantly higher (p<0.05) in ginseng and balloon flower treatments on 24 h than in control. Carbon dioxide emission was not differ all treatments on 9 h than in control and significantly higher (p<0.05) yucca plant, camellia and tea plant treatments on 12 h than control. Methane emission was not differ all treatments on 6 h than in control. The rumen microbial growth rate was significantly higher (p<0.05) in ginseng, balloon flower on 12 h and significantly higher (p<0.05) in ginseng, yucca plant, tea plant and ogapi treatments on 24 h than in control. Total VFA was significantly higher (p<0.05) in tea plant and ogapi treatments on 12 h than in control and significantly higher (p<0.05) in ginseng, balloon flower treatments on 48 h than in control. Acetic acid was significantly lower (p<0.05) in ginseng and balloon flower treatments on 24 h than in control. Propionic acid was significantly higher (p<0.05) in ginseng and balloon flower treatments on 48 h than in control. As a results, sixth natural plant extracts had no significant effect dry matter digestibility and negative on rumen fermentation, but not effect methane reduction.

The present study investigated the effect of inclusion of chromium propionate (Cr-P) and lysophopholipid (LPL) in diet on blood parameters and meat quality of Hanwoo steer. Feeding trial was performed from late fattening period to slaughter and blood parameters (insulin, blood glucose and non-esterified fatty acid (NEFA) concentration) and meat quality were examined. Total 4 experimental groups including control (no addition), T1 (Cr-P 0.2%), T2 (LPL 0.2%) and T3 (Cr-P 0.1% + LPL 0.1%) were employed. For blood parameters, insulin concentration in T1 and T3 showed an elevating patterns from 3.13 μU/mL to 3.35 μU/mL (T1) and from 4.38 μU/mL to 5.23 μU/mL (T3). The changes of NEFA in all groups were detected as a decreasing patterns according to days of feeding. However, significant difference was not found. In growth performance, T2 showed greater daily gain and T1 showed greater carcass yield compared to others. However, there were no significance in difference. In meat quality, T1 showed greater yield and intra-muscular fat levels and lower sharing force compared to others. However, significant differences were not detected.

This study investigated the effect of coated feed using mixed oil on rumen fermentation characteristics. Two experiments were conducted based on materials that were mixed. First, cashew nut and soybean oils were mixed with white mineral oil. And second, different plant extracts were mixed with white mineral oil. At first experiment, inclusion levels of mixed oil on diet (0.03%, 0.1%, 0.5%) were applied as variables. A coated diet was fermented with rumen inoculum according to in vitro rumen fermentation and its parameters were investigated. In the result of first experiment, no negative effects on rumen pH were found. Significantly decreased dry matter digestibility was detected at 0.5% treatment (P<0.05). Total gas productions in control and 0.03% were significantly greater than those of others (P<0.05). Significantly reduced methane productions were found in all treatments compared to the control (P<0.05). Inclusion of mixed oil did not affect on ammonia production. Total volatile fatty acid production was also not influenced by coating with mixed oils. Rumen fermentation parameters were greatly changed according to introduced plant extracts at second experiment. The significantly lowest and greatest ammonia productions were found at treatments with Ixeris dentata and Plantago asiatica, respectively (P<0.05). The significantly greatest acetate and propionate productions were detected at treatments with Crucuma longa and Zizyphus vulgaris 1, respectively (P<0.05). All treatments, except Chrysanthemum idicum, Euyale ferox seed, Moringa leaf and fruit and Zizyphus vulgaris 1, showed significantly increased total volatile fatty acid production compared to the control (P<0.05). Only Paeonia lactiflora showed significantly lesser gas production than the control (P<0.05). In methane production, Ceramium, Zizyphus, Paeonia, Agrimonia, Torilis, Mugwort, Foeniculum, Euphorbia, Taraxacum, Artemisia, Momordica, Curcuma and Moringa reduced methane significantly compared to the control (P<0.05).

In order to develop a high cellulolytic direct-fed microorganism (DFM) for ruminant productivity improvement, this study isolated cellulolytic bacteria from the rumen of Holstein dairy cows, and compared their cellulolytic abilities via DM degradability, gas production and cellulolytic enzyme activities. Twenty six bacteria were isolated from colonies grown in Dehority’s artificial (DA) medium with 2% agar and cultured in DA medium containing filter paper at 39℃ for 24h. 16s rDNA gene sequencing of four strains from isolated bacteria showed that H8, H20 and H25 strains identified as Ruminococcus flavefaciens, and H23 strain identified as Fibrobacter succinogenes. H20 strain had higher degradability of filter paper compared with others during the incubation. H8 (R. flavefaciens), H20 (R. flavefaciens), H23 (F. succinogenes), H25 (R. flavefaciens) and RF (R. flavefaciens sijpesteijn, ATCC 19208) were cultured in DA medium with filter paper as a single carbon source for 0, 1, 2, 3, 4 and 6 days without shaking at 39℃, respectively. Dry matter degradability rates of H20, H23 and H25 were relatively higher than those of H8 and RF since 2 d incubation. The cumulative gas production of isolated cellulolytic bacteria increased with incubation time. At every incubation time, the gas production was highest in H20 strain. The activities of carboxymethylcellulase (CMCase) and Avicelase in the culture supernatant were significantly higher in H20 strain compared with others at every incubation time (p

It has been reported that world population continues to increase so that a matter of food security can be a world-wide problem for mankind. An anticipated rise in world population of 30% and the subsequent increased demand for food brings with it challenges in terms of global resource usage and food security. However, ruminant livestock production and consumption make a large contribution to the greenhouse gas (GHG) emissions which can be attributable to food production. Given the association between GHG and climate change, this is clearly of great concern to the livestock industry worldwide. Nevertheless, ruminant livestock also play an important role in global food security as they can convert the plant cell wall materials and non-protein nitrogen compounds, found widely in plants but indigestible to all monogastric animals including man, into high value proteins for human consumption. Much effort has been made to maximize animal production, feed conversion ratio, and to improve animal breeding in ruminant agriculture. In addition improving feed formulation techniques, developing chemical additives, plant extracts, and new plant varieties for grazing have been tested. Future ruminant production systems will need to capitalize on important benefits of ruminants. It is therefore suggested that ruminant agriculture has a key role to play in maintaining and enhancing provision of quality proteins and essential nutrients for human being but the challenge of reducing GHG emissions, and methane in particular, needs to be successfully addressed.

This study was conducted to evaluate the nutritional value of locally produced organic agricultural by-products to substitute imported organic feeds for organic ruminant farming. Imported organic feeds (corn grain, soybean meal, soybean seed, oat grain, barley grain, wheat grain, buckwheat, sunflower seed meal) and byproducts (rice bran, grape seed meal, rice straw, soybean hull, soybean curd, rice hull, green kernel rice, and crushed rice grain) were analyzed for chemical composition and NDF, ADF, mineral, and amino acid contents and anti-nutritional factors. Dry matter, NDF and ADF contents in organic feeds were higher than those in conventional feeds. Especially, the 9.65% fat content of organic soybean meal was 6 times higher than the 1.95% fat content of conventional soybean meal. Fat contents of rice bran, grape seed meal, green kernel rice, and crushed rice grain were 25.66, 6.09, 3.57 and 1.59%, respectively. Protein contents of soybean hull and soybean curd were 14.68 and 19.87%, respectively, which are highest among organic by-products. Levels of aflatoxin in all feeds were below the safety level. Therefore, organic rice bran, green kernel rice and crushed rice as energy source, and soybean hull and soybean curd as protein source could partial replace imported feeds for organic ruminant farming.

To develop anti-acidosis and anti-diabetes agentsfrom natural products, the inhibitory activities of Brazilian plant extracts against microbial -amylase and -glucosidase were evaluated. Among 100 different ethanol extracts tested, those of Acacia jurema Mart., Anacardium humile A. St.-Hil., Cedrela odorata L., and Guazuma ulmifolia Lam showed good inhibitoryactivities toward both enzymes. In addition, an extract of Plumeria drastica Mart. showed specific inhibition of -amylase, whereas that of Eugenia uniflora L. demonstrated strong inhibition of the enzyme. IC50 values of -amylase inhibition suggested that the extract of A. humile A. St.-Hil., which has been used as an anti-diabetes medicine in Brazil, had potent inhibitory activity. The IC50 for the A. humile A. St.-Hil. extract () was similar to that of acarbose (). This activity of A. humile A. St.-Hil. was not reduced by heat or acid treatment. Moreover, treatment with HCl (0.01 M) for 1 h increased the inhibitory activity from 57.5% to 81.2%. Also, the extract did not cause hemolysis of human red blood cells at levels up to 1 mg/mL. The results indicate that the extract of A. humile A. St.-Hil. is potentially useful as an anti-acidosis and anti-diabetes agent.