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In livestock industry, providing adequate nutrients has been noted as the most important factor to efficient and profitable animal production. Inadequate nutrient utilization reduces efficiency of animal production and causes detrimental effects on en...
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RISS 인기검색어
Various dietary energy and protein levels on growth performance, blood profiles and carcass characteristics in growing-finishing pigs
한글로보기https://www.riss.kr/link?id=T13438919
- 저자
-
발행사항
서울 : 서울대학교 대학원, 2014
- 학위논문사항
-
발행연도
2014
-
작성언어
영어
- 주제어
-
DDC
630 판사항(22)
-
발행국(도시)
서울
-
기타서명
사료 내 에너지 수준과 단백질 함량이 육성비육돈의 성장성적, 혈액성상 및 도체특성에 미치는 영향
-
형태사항
ix, 94장 : 삽화 ; 26 cm
-
일반주기명
참고문헌 수록
- DOI식별코드
-
소장기관
- 서울대학교 중앙도서관
- 서울대학교 중앙도서관
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
In livestock industry, providing adequate nutrients has been noted as the most important factor to efficient and profitable animal production. Inadequate nutrient utilization reduces efficiency of animal production and causes detrimental effects on environment. Supplementation of excess nutrients is not efficient way for animal growth and it leads to economical loss by increasing fecal and urinary excretion of nutrients, while deficiency of nutrients limits the growth and production. Growing-finishing period in swine is very important that growth rate and pork quality are dependent on this period. However, some feeding standard overlooked the importance of growing-finishing period compared to that of young pig. In order to maximize the growth of pig, it is needed to divide the growing-finishing period into more phases for providing adequate nutrient. The present study was performed to evaluate the subdivision of growing-finishing phase divided by different dietary protein and energy levels on growth performance and carcass characteristics. A total of 128 growing pigs ([Yorkshire × Landrace] × Duroc) averaging 26.62 ± 3.07 kg body weight were assigned in a 2 × 4 factorial arrangement with 4 pigs per pen. The first factor was two dietary energy level (3,265 or 3,365 kcal of ME/kg), and the second factor was four different levels of dietary protein by phase feeding (1growing(G)-2finishing(F) phases, 2G-2F phases, 2G-3F phases and 2G-3F phases with low dietary CP treatment). In feeding trial, there was no significant difference in growth performance among treatments. The BUN concentration was decreased as dietary protein level decreased in 6 week and blood creatinine showed a significant difference in 13 week when pigs were fed diets with different dietary energy level. The digestibility of crude fat was improved as dietary energy levels increased and excretion of urinary nitrogen was reduced when pigs were fed low protein diets. Meat color, pork pH and proximate analysis of longissimus muscle were not affected by dietary treatments. In backfat thickness at P2 tended to increase when pigs were fed high energy diet or low subdivision of phase feeding was applied. When pigs fed the low energy diet (3,265 kcal of ME/kg), contents of proline, methionine and cysteine were increased in pork. In addition, cooking loss and water holding capacity were decreased as dietary protein level decreased. Low energy diet (3,265 kcal of ME/kg) had positive effect on reducing feed cost. When pigs were fed high energy diet with low subdivision of phase feeding, days to 120kg market weight was reached earlier compared to other treatments. Consequently, subdivision of phase had no significant effect on growth performance and carcass characteristics. However, feeding the diet low energy level (3,265 kcal of ME/kg) and low protein level had no negative effects in growth performance and carcass characteristics but economical profit was improved because of high carcass price as well as low feed cost.
In livestock industry, providing adequate nutrients has been noted as the most important factor to efficient and profitable animal production. Inadequate nutrient utilization reduces efficiency of animal production and causes detrimental effects on environment. Supplementation of excess nutrients is not efficient way for animal growth and it leads to economical loss by increasing fecal and urinary excretion of nutrients, while deficiency of nutrients limits the growth and production. Growing-finishing period in swine is very important that growth rate and pork quality are dependent on this period. However, some feeding standard overlooked the importance of growing-finishing period compared to that of young pig. In order to maximize the growth of pig, it is needed to divide the growing-finishing period into more phases for providing adequate nutrient. The present study was performed to evaluate the subdivision of growing-finishing phase divided by different dietary protein and energy levels on growth performance and carcass characteristics. A total of 128 growing pigs ([Yorkshire × Landrace] × Duroc) averaging 26.62 ± 3.07 kg body weight were assigned in a 2 × 4 factorial arrangement with 4 pigs per pen. The first factor was two dietary energy level (3,265 or 3,365 kcal of ME/kg), and the second factor was four different levels of dietary protein by phase feeding (1growing(G)-2finishing(F) phases, 2G-2F phases, 2G-3F phases and 2G-3F phases with low dietary CP treatment). In feeding trial, there was no significant difference in growth performance among treatments. The BUN concentration was decreased as dietary protein level decreased in 6 week and blood creatinine showed a significant difference in 13 week when pigs were fed diets with different dietary energy level. The digestibility of crude fat was improved as dietary energy levels increased and excretion of urinary nitrogen was reduced when pigs were fed low protein diets. Meat color, pork pH and proximate analysis of longissimus muscle were not affected by dietary treatments. In backfat thickness at P2 tended to increase when pigs were fed high energy diet or low subdivision of phase feeding was applied. When pigs fed the low energy diet (3,265 kcal of ME/kg), contents of proline, methionine and cysteine were increased in pork. In addition, cooking loss and water holding capacity were decreased as dietary protein level decreased. Low energy diet (3,265 kcal of ME/kg) had positive effect on reducing feed cost. When pigs were fed high energy diet with low subdivision of phase feeding, days to 120kg market weight was reached earlier compared to other treatments. Consequently, subdivision of phase had no significant effect on growth performance and carcass characteristics. However, feeding the diet low energy level (3,265 kcal of ME/kg) and low protein level had no negative effects in growth performance and carcass characteristics but economical profit was improved because of high carcass price as well as low feed cost.
목차 (Table of Contents)
- Summary i
- Contents ⅲ
- List of Tables ⅴ
- List of Figures ⅶ
- List of Abbreviations ⅷ
- Summary i
- Contents ⅲ
- List of Tables ⅴ
- List of Figures ⅶ
- List of Abbreviations ⅷ
- Ⅰ. Introduction 1
- Ⅱ. Literature Review 3
- 1. Nutrient requirement for growing·finishing pig 3
- 1.1. Nutrient requirement 3
- 1.2. Nutrient utilization 8
- 1.3. Protein deposition 10
- 1.4. Lipid deposition 12
- 2. Dietary energy in growing·finishing pig 14
- 2.1. Dietary energy level and fat deposition 14
- 2.2. Effect of dietary energy level on growth performance 15
- 2.3. Effect of dietary energy level on carcass characteristics 18
- 3. Dietary protein in growing·finishing pig 20
- 3.1. Dietary protein level and protein deposition 20
- 3.2. Effect of dietary protein level on growth performance 21
- 3.3. Effect of dietary protein level on carcass characteristics 22
- 3.4. Phase feeding by dietary protein levels 25
- 4. Dietary energy and protein intake 27
- 4.1. Dietary energy level and voluntary feed intake 27
- 4.2. Dietary protein level and protein intake 29
- 4.3. Dietary energy level and protein intake 31
- Ⅲ. Effect of dietary energy levels and phase feeding by protein levels on growth performance, blood profiles and carcass characteristics in growing·finishing pigs 33
- Abstract 33
- Introduction 35
- Materials and Methods 37
- Results and Discussion 43
- Conclusion 51
- Ⅳ. Literature Cited 68
- Ⅴ. Summary in Korean 90
- Ⅵ. Acknowledgement 93
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