This study was conducted to evaluate the changes of pH, dry matter digestibility (DMD), NH3-N concentrate, gas production and volatile fatty acid (VFA) through in vitro fermentation by adding horse feces to various juice pomaces fermented with Bacillus, yeast and lactic acid bacteria. The pH range of fermented fluid with juice pomaces was 6.4-7.1, indicating that the digestion by microbial fermentation was normal. Juice pomaces adopted will be helpfully used to assist with digestion by microbes in intestines because approximately 109 CFU/㎖ microbes were grown after 48 hours in fermented fluid. DMD rate gradually increased from 12 hours. It was 39.19% in pomaces of apple, 38.22% in grape, 37.02% in carrot, 36.2% in citrus and 34.35% in mixture respectively after 48 hours. NH3-N concentrate was not changed significantly as it was maintained at 1.5 mg/100㎖ level in the entire treatment group from beginning of fermentation until 12 hours, but increased rapidly from 24 hours. Amount of gas produced was lowest in the mixture and increased rapidly after 12 hours. Total VFA increased from 24 hours and was highest at 48 hours. It was suggested that dry matter digestion was processed while fermented juice pomaces kept proper pH during in vitro digestion, and cellulose degrading microorganisms could act actively in the caecum and colon of horses.
In vitro fermentation was conducted to figure out alternative fiber sources for horse feed. For the development of value-added products as a horse feed resource, the pomaces from apple, carrot, grape, and citrus were fermented under solid-state conditions in the presence of 60% soybean meal with 40% of each fruit pomace at 60% of moisture content. Lactobacillus plantarum SK3873, Lactobacillus plantarum SK3893, Weissella cibaria SK3880, and Bacillus subtilis SK3889 were isolated from the fermented fruit pomace by inoculation of horse feces. For the growth of Bacillus subtilis, Saccharomyces cerevisiae, and Lactobacillus plantarum, they were inoculated in 3-step order at 0, 12, and 24 h, respectively. The fruit pomace was fermented for 48 h at 35°C. The pH of the apple, carrot, grape, citrus and all mixed pomaces decreased from 5.45~6.25 to 4.40~4.77. Microbial growth was maintained at 108~109 cfu/g. After 12 and 24 h incubation, dry matter of carrot pomace were highest at 54.84 and 56.66%, respectively (P<0.05) and that of grape pomace was lower than others during fermentation (P<0.05). Dry matter was generally reduced by about 20%. NDF decreased gradually or maintained after 24 h, indicating the fiber degradation. Ash content tended to decrease during fermentation. After 48 hours fermentation, Bacillus, yeast and Lactobacillus showed an excellent growth by using juice by-products. These results suggest that fermented juice pomace has a potential as horse feedstuff with probiotics to maintain beneficial microflora in horse gut.
임신 전 젖소의 육성기 후반에 있어서 적정한 에너지와 단백질 급여 관리는 개체의 성장과 분만 후 유생산에 영향을 미친다. 본 연구는 육성기 후반의 적정 TDN:CP 비율을 결정하기 위하여 생후 15개월 령에 5.0:1(T1), 4.5:1(T2) 및 4.0:1(T3)의 비율로 급여하여 체중, 사료섭취량 및 혈액조성에 대하여 조 사하였다. 건물섭취량은 평균 8.07kg/day로 TDN: CP 비율에 관계없이 유사하였다. 단백질 섭취량은 TDN:CP 비율이 낮아짐에 따라 각각 1.45, 1.29 및 1.17kg/day로 감소하였으나 유의적 차이를 보이지 않았다. 증체량은 4.0:1 비율구가 유의적으로 가장 많이 증가하였으며, 평균 일당증체량도 0.74kg/day 로 가장 높게 나타났다(p<0.05). 60일 이후 모든 처리구의 일당증체량이 권장 수준을 충족하였으나, 4.0:1 비율구(1.28kg/day)에서 과잉 체지방 축적이 될 수 있는 수준이기 때문에 임신 및 번식과 관련하 여 주의해야 한다. 육성우 15~18개월령에서 상기의 모든 TDN:CP 비율은 혈액 조성에 큰 영향을 미치 지 않았다. 체중과 출산 및 비유 등을 고려했을 경우 4.5:1에서 5.0:1의 비율이 적합하고, 출산 시기가 가까울수록 에너지 단백질 비율을 5.0:1까지 높여주는 것이 바람직할 것으로 판단되었다.
본 연구는 국내 실정에 맞는 적정 TDN/CP 비율을 결정하기 위하여 4.6:1(T1)과 4.3:1(T2)의 비율로 생후 13개월령 육성우에게 급여하여 영양소 섭취량, 소화율, 반추 위액 특성 및 혈액조성에 대하여 조 사하였다. 건물 섭취량은 9.0kg/day로 동일하였으며, 조단백질 섭취량은 T1이 1.34kg/day, T2가 1.45kg/day로 T2가 조금 높았으나 유의적인 차이는 없었다. 섬유소 섭취량과 소화율은 T1이 조금 높은 경향을 보였으나 유의적인 차이는 없었다. 사료 섭취 후 4시간째 위액의 pH, ammonia-N, VFA 농도 를 비교한 결과 처리구간 유의적인 차이를 나타내지 않았다. 전반적인 VFA 수치는 TDN/CP 비율에 따 라 큰 영향이 없었으나 T1 처리구에서 iso-butyrate, iso-valerate 및 A/P ratio가 유의적으로 높은 결과를 보였다(p<0.05). 혈액 특성에는 처리구간 유의적인 차이를 나타내지 않았다. TDN/CP 비율이 4.3:1과 4.6:1 수준은 반추위 특성에 큰 영향을 미치지 않았지만, 소화율과 비교하였을 때 생후 13개월 령 육성우 시기에는 섬유소 섭취량과 소화율이 증가되는 4.6:1 수준이 보다 적합할 것으로 판단된다.
In this study, the effect of energy and protein ratio on the nutrient availability and body weight gain was determined to find the proper nutrient level for the stage of replacement dairy heifers before fertilization at approximately 12~24 months old after birth. Dry matter intake showed that the TDN/CP rate of T1 (5.0:1), T2 (4.5:1) and T3 (4.0:1) resulted in similar values. Among feces, the ash content of T1 was 11.07%, which was significantly (p < 0.05) higher than that of T3 (9.69%). It was also significantly (p < 0.05) higher than that of T2 (10.32%). When the TDN/CP rate was increased, the ash content in the feces was also increased. Regardless of the initial weight, weight gain was increased significantly as the CP rate in the feed was increased on the 30th day. On the 60th day, T2 showed the highest rate of gain (p < 0.05). As the TDN rate was decreased or the protein rate was increased, weight gain was significantly (p < 0.05) increased. Regarding GPT level in the blood after finishing the test, T1 and T3 (112.6, 88.3 u/l) showed significantly (p < 0.05) higher value than T2 (50.9 u/l). For phosphorus level, T1 (46.3 mg/dl) showed significantly (p < 0.05) higher value than other treatments. For HDL cholesterol level, T2 (145.2 mg/dl) had significantly (p < 0.05) higher level than T1 (121.0 mg/dl) or T3 (132.3 mg/dl). For triglyceride levels, T3 (40.6 mg/dl) had significantly (p < 0.05) higher value than T1 (20.7 mg/dl) and T2 (29.0 mg/dl). For other blood parameters including BUN concentration, there were no significant (p > 0.05) difference among treatments. As a result, although feed intake and weight gain with TDN/CP rate of 4:1 showed best results, considering the excess body fat accumulation possibilities or blood metabolism, it seems 4.5:1 ratio is most appropriate.
본 연구는 사료 내 총NDF 수준과 조사료에서 기인된 NDF 수준(fNDF)이 착유우에서의 영양소 섭취량과 유생산 성에 미치는 영향을 평가하기 위하여 실시하였다. 분만우 36두를 대상으로 6개의 처리구를 나누어 2×3 요인실험으로 설계를 하였고, 각 처리구별 사료는 건물기준 NDF 38%에 1) fNDF 18%, 2) fNDF 15%, 3) fNDF 12% 와 건물기준 NDF 34%에 4) fNDF 18%, 5) fNDF 15%, 6) fNDF 12%로 구분하여 분만 후 3주부터 20주까지 급여하였으며 결과의 처리는 분만 4주부터 영양소 섭취량 및 산유성적을 분석하 였다. 사료 내 총 NDF 함량과 fNDF 함량이 감소함에 따라 건물섭취량, NEl 섭취량 그리고 비구조탄수화물 섭취량이 유의적으로(p<0.01) 증가하였고, 통계적인 유의성은 없었으 나 유생산량 또한 다소 증가하는 경향이었으며 유지방율은 감소하였다(p<0.01). 건물섭취량의 증가에 따른 NEl 섭취 량의 증가가 유발되었고, NDF 섭취량은 감소하였음에도 불구하고 NDF 함량이 낮은 처리구와 높은 처리구간의 비 교에서 유지방율에 대한 유의적인 차이를 나타내지는 않았 다. 총 NDF와 조사료유래 NDF의 사료 내 함량변화는 유 단백질율과 무지유고형분 함량에는 영향을 미치지 않았지 만, 유단백질 함량과 무지유고형분 생산량에 있어서는 유 량 증가에 의한 영향으로 증가하는 경향을 나타내었다. 조 사료유래 NDF 섭취량과 유지방율 간의 상관관계는 저수준 NDF 함량에서 고수준 NDF 함량보다 높게 나타났으며 유 량과 영양소 섭취량간의 상관관계 또한 저수준의 NDF 처 리구에서 고수준 처리구보다 높게 나타났다.
We investigated the effect of different kinds of dietary added fat on the fatty acid composition, cholesterol content and quality of hens‘ eggs. The Haugh units, breaking strength, shell thickness and yolk color were not significant difference among the groups. Dietary fat notably altered the polyunsaturated fatty acid composition and cholesterol content in the egg yolk. The n-6 fatty acid of egg yolk was highest in the corn oil fed group with 31.61%, and this tended to decrease in the order of the tallow, linseed oil and fish oil fed groups(p<0.05). The n-3 fatty acid of egg yolk tended to increase in the linseed oil and fish oil fed groups as 9.74% and 5.16%, respectively(p<0.05). Theses alterations in the yolk fatty acid composition resulted in a reduced cholesterol content of the eggs. The ranges of cholesterol content showed values of 15.98-18.37 mg/g of yolk or 227-261 mg/60g of egg, respectively(p<0.05). The cholesterol content of egg yolk was highest in the tallow fed group, and this tended to be reduced in the order of the fish oil, linseed oil and corn oil fed groups(p<0.05). The reduction of the egg yolk cholesterol content in the other groups compared to the tallow group was significantly different, i.e., 13.01% in the fish oil group, 11.49% in the linseed oil group and 6.91% in the corn oil group, respectively(p<0.05). This result suggests that it is possible to reduce the cholesterol content or to increase the n-6 and n-3 polyunsaturated fatty acids in eggs by manipulation of the dietary added fats.