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젖소 육성우에서 TDN/CP 비율 및 초산월령 단축이 생산성에 미치는 영향

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' 젖소 육성우에서 TDN/CP 비율 및 초산월령 단축이 생산성에 미치는 영향' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • tdn/cp 비율
  • 비유
  • 영양소 공급
  • 젖소 육성우
  • 초산분만월령
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
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' 젖소 육성우에서 TDN/CP 비율 및 초산월령 단축이 생산성에 미치는 영향' 의 참고문헌

  • 한우거세우비육후기 배합사료의 적정 조단백질 및 에너지함량 규명에 관한 연구
    남인식 성낙일 유명상 이명일 이선복 정준 황일기 한국동물자원과학회지.52,305-312 [2010]
  • 한우 거세우의 성장단계별 CP 급여수준이 단백질 체내 이용성 및 N 배설량에 미치는 효과
  • 통계청
    년 축산물생산비조사.19-20 [2014]
  • 착유우의 영양소 급여 사양관리 방식
    최병렬 한국임상수의학회 추계학술발표회.5-22 [2004]
  • 조사료 급여 수준이 Holstein 착유우의 산유 특성에 미치는 영향
    Ghassemi Nejad Jalil 김현섭 성경일 이배훈 초지조사료지.33,45-51 [2013]
  • 젖소의 초산월령별 낙농경영 수익성
    김민경 박종수 이춘지 한국축산경영학회지.38,360-380 [2011]
  • 젖소의 우유 중 단백질과 요소태질소 측정에 의한 사료의 에너지와 단백질 균형 상태 예측
  • 젖소개량사업소.년도 한국 유우군 능력검정 사업보고서
    농협중앙회 [2013]
  • 젖소 영양과 번식
    손창호 한국임상수의학회 학술대회논문집. 92-94 [2012]
  • 전환기 젖소 대사장애 예방을 위한 제언
    김태일 월간낙농 [2014]
  • 유형별 완전혼합사료 급여가 반추위내의 발효성상 및 영양소 소화율에 미치는 영향
  • 유지방율과 유단백율 증감이 사료비에 미치는 영향:시뮬레이션 모델을 이용한 접근
    박종수 배귀석 서성원 이세영 농업과학연구.37. 245-248 [2010]
  • 연구논문:낙농생산의 경영효율성 제고 방안;-육성우 사육비율의 조정
    정경수 농업경영 정책연구.40,1006-1016 [2013]
  • 에너지 및 반추위 미분해단백질 수준을 달리한 사료급여가 비유중기 유우에 미치는 영향
  • 비육용 곡물사료의 가공방법과 증체효율
    김영길 생명과학회지.5,126-136 [1995]
  • 보호아미노산의 추가 공급이 반추위 발효성상 및 비유중기 착유우의 유량 및 유성분에 미치는 영향
    남인식 안종호 이종민 한국동물자원과학회지.50,199-208 [2008]
  • 벼 대체 사료작물 이용시스템 구축방안
    우병준 한국농촌경제연구원 기본연구보고서,1-119 [2011]
  • 단백질 수준이 착유우의 혈중 요소태질소,산유량 및 수태율에 미치는 영향
  • 농촌진흥청농협중앙회 젖소개량 사업소.년도 한국 유우군 검정 사업보고서
    젖소개량 사업소 [2013]
  • 농촌진흥청 축산기술연구소
    한국표준사료성분표 [2002]
  • 농촌진흥청 축산과학원농촌진흥청 축산기술연구소.최신한우젖소번식사양기술.농촌진흥청. http://203.241.55
    171/smartmylibrary/data/contents/4b34548e-e6c8-485d-829a-5ce24018b5ca/542.html [2000]
  • 농림축산식품부
    젖소 육성우 전문목장 운영 모델 연구 [2014]
  • 농림수산식품기술기획평가원농촌진흥청
    한국젖소사양표준 [2007]
  • 낙농 생산성 증진을 위한 후보축 사양관리
    황선국 한국종축개량협회 [2009]
  • 고능력우에서의 영양학적 번식장애 대처방안들Ⅰ
    최병렬 낙농육우지.33,78-84 [2013]
  • Williams, P. E. V., Day, D., Raven, A. M., McLean, J. A. 1981. The effectof climatic housing and level of nutrition on the performance of calves. Animal Production. 32, 133-141.
  • Wickersham, T. A., Cochran, R. C., Titgemeyer, E. C., Farmer, C. G.,Klevesahl, E. A., Arroquy, J. I., Johnson, D. E., Gnad, D. P. 2004. Effect of postruminal protein supply on the response to ruminal proteinsupplementation in beef steers fed a low-quality grass hay. Animal FeedScience and Technology. 115, 19-36.
  • Watanabe, U., Okamoto, K., Miyamoto, A., Otoi, T., Yamato, O., Tshering,C., Takagi, M. 2013. A Japanese black breeding herd exhibiting lowblood urea nitrogen: a metabolic profile study examining the effect onreproductive performance. Animal Science Journal, 84, 389-394.
  • USDA. 2007. Dairy 2007 Part I: Reference of dairy cattle health andmanagement practices in the United States.
  • Tozer, P. R. and Heinrichs, A. J. 2001. What affects the costs of raisingreplacement dairy heifers: A multiple-component analysis. Journal ofDairy Science. 84, 1836-1844.
  • Thang, C. M., Ledin, I., Bertilsson, J. 2010. Effect of using cassava productsto vary the level of energy and protein in the diet on growth anddigestibility in cattle. Livestock Science. 128, 166-172.
  • TMR의 에너지 및 단백질 수준이 비유초기 유산양의 유생산성에 미치는 영향
  • Stefan, C. C. 2013. Effect of protein supplement sources on intake anddigestion of steers fed low-quality forage. Master's thesis, Texas A&MUniversity. Available electronically from http : / /hdl .handle .net /1969.1 /149267.
  • Steel, R. G. D. and Torrie, J. H. 1980. Principles and procedures ofstatistics: A biometric approach. Principles and procedures of statistics: abiometrical approach.
  • Song, T. H., Han, O. K., Yun, S. K., Park, T. I., Kim, K. J. 2011. Effect ofHarvest Time on Yield and Feed Value of Whole Crop Barleys withDifferent Awn Types. Journal of The Korean Society of Grassland andForage Science. 31, 361-370.
  • Sewalem, A., Miglior, F., Kistemaker, G., Sullivan, P., Van Doormaal, B. 2008. Relationship between reproduction traits and functional longevity inCanadian dairy cattle. Journal of Dairy Science. 91. 1660-1668.
  • Sejrsen, K. and Purup, S. 1997. Influence of prepubertal feeding level onmilk yield potential of dairy heifers: a review. Journal of Animal Science. 75, 828-835.
  • Sannes, R. A., Messman, M. A., Vagnoni, D. B. 2002. Form ofrumen-degradable carbohydrate and nitrogen on microbial protein synthesisand protein efficiency of dairy cows. Journal of Dairy Science. 85,900-908.
  • SAS. 1990. Statistical Analysis System, Version 6.04 USA.
  • Roseler, D. K., Ferguson, J. D., Sniffen, C. J., Herrema, J. 1993. Dietaryprotein degradability effects on plasma and milk urea nitrogen and milknonprotein nitrogen in Holstein cows. Journal of Dairy Science. 76,525-534.
  • Reynal, S. M. and Broderick, G. A. 2005. Effect of dietary level ofrumen-degraded protein on production and nitrogen metabolism inlactating dairy cows. Journal of Dairy Science. 88, 4045-4064.
  • Rabelo, E., Rezende, R. L., Bertics, S. J., Grummer, R. R. 2003. Effects oftransition diets varying in dietary energy density on lactation performanceand ruminal parameters of dairy cows. Journal of Dairy Science. 86,916-925.
  • Pollard, B. C., Dann, H. M., Drackley, J. K. 2003. Evaluation of intensifiedliquid feeding programs for dairy calves. Journal of Dairy Science. 86,174.
  • Pirlo, G., Miglior, F., Speroni, M. 2000. Effect of age at first calving onproduction traits and on difference between milk yield returns and rearingcosts in Italian Holsteins. Journal of Dairy Science. 83, 603-608.
  • Pirlo, G. 1997. Rearing cost of replacement heifer and optimal age at firstcalving. Supplement of L’informatore Agrario. 37, 9-12.
  • Pepsin 농도와 소화시간이 牛皮粉의 단백질 소화율에 미치는 영향
    김대진 한국가금학회지 11,13-17 [1984]
  • Oba, M. and Allen, M. S. 2003. Effects of diet fermentability on efficiencyof microbial nitrogen production in lactating dairy cows. Journal of DairyScience. 86, 195-207.
  • NRC(National Research Council). 2001. Nutrient requirements of dairy cattle. 7, 381.
  • Moore, R. K., Kennedy, B. W., Schaeffer, L. R., Moxley, J. E. 1991Relationships between age and body weight at calving and production infirst lactation Ayrshires and Holsteins. Journal of Dairy Science. 74,269-278.
  • Moore, J. E., Kunkle W. E., Brown, W. F. 1991. Forage quality and theneed for protein and energy supplements. Florida beef cattle short course. 196.
  • Meyer, M. J., Everett, R. W., Amburgh, M. E. V. 2004. Reduced age at firstcalving: effects on lifetime production, longevity, and profitability. Arizona Dairy Production Conference in Dairy Day 2004. 42-52.
  • Meyer, K. 2005. Random regression analyses using b-splines to model growthof Australian Angus cattle. Genetics Selection Evolution. 37, 473?500.
  • Martin, S. K. and Hibberd, C. A. 1990. Intake and digestibility oflow-quality native grass hay by beef cows supplemented with gradedlevels of soybean hulls. Journal of Animal Science. 68, 4319-4325.
  • Martin, S. A. and Jenkins, T. C. 2002. Factors affecting conjugated linoleicacid and-C fatty acid production by mixed ruminal bacteria. Journal ofAnimal Science. 80, 3347-3352.
  • Marston, T. T. and Lusby, K. S. 1995. Effects of energy or proteinsupplements and stage of production on intake and digestibility of hay bybeef cows. Journal of Animal Science. 73, 651-656.
  • Lardner, H. A., Damiran, D., Hendrick, S., Larson, K., Funston, R. 2014. Effect of development system on growth and reproductive performance ofbeef heifers. Journal of Animal Science. 92, 3116-3126.
  • Lang, B. 2011. The Cost of Raising Replacement Dairy Heifers. OMAFRAFactsheet. 09-063, 1-4.
  • Lammers, B. P. and Heinrichs, A. J. 2000. The response of altering theratio of dietary protein to energy on growth, feed efficiency, andmammary developmentin rapidly growing prepubertal heifers. Journalof Dairy Science. 83, 977-983.
  • Kohn, R. A., Dinneen, M. M., Russek-Cohen, E. 2005. Using blood ureanitrogen to predict nitrogen excretion and efficiency of nitrogenutilization in cattle, sheep, goats, horses, pigs, and rats. Journal ofAnimal Science. 83, 879-889.
  • Klusmeyer, T. H., McCarthy, J., Clark, J. H. 1990. Effects of source andamount of protein on ruminal fermentation and passage of nutrients tothe small intestine of lactating cows. Journal of Dairy Science. 73,3526-3537.
  • Kauffman, A. J. and St-Pierre, N. R. 2001. The relationship of milk ureanitrogen to urine nitrogen excretion in Holstein and Jersey cows. Journalof Dairy Science. 84, 2284-2294.
  • Kamiya Y., Kamiya M., Tanaka M. 2006. Effects of forage-to-concentrateratio in prepartum diet on the dry matter intake and milk yield ofperiparturient cows during hot weather. Journal of Animal Science. 77,63-70.
  • Ipharraguerre, I. R., Clark, J. H., Freeman, D. E. 2005. Varying protein andstarch in the diet of dairy cows. I. Effects on ruminal fermentation andintestinal supply of nutrients. Journal of Dairy Science. 88, 2537-2555.
  • Ikuta, K., Kokamo, M., Sasakura, K. 2000. Evaluation of nutritional conditionon the basis of milk urea nitrogen and milk protein concentrations indairy cows. Journal of the Japan Veterinary Medical Association. 53,289-292.
  • Huhtanen, P. and Hristov, A. N. 2009. A meta-analysis of the effects ofdietary protein concentration and degradability on milk protein yield andmilk N efficiency in dairy cows. Journal of Dairy Science. 92,3222-3232.
  • Hristov, A. N., Etter, R. P., Ropp, J. K., Grandeen, K. L. 2004. Effect ofdietary crude protein level and degradability on ruminal fermentation andnitrogen utilization in lactating dairy cows. Journal of Animal Science. 82, 3219-3229.
  • Hoover, W. H. and Stokes, S. R. 1991. Balancing carbohydrates and proteinsfor optimum rumen microbial yield. Journal of Dairy Science. 74,3630-3644.
  • Holstein 젖소의 선형심사형질과 등급형질에 대한환경효과 분석
    김은길 이득환 한국동물자원과학회지.48,767-776 [2006]
  • Hoffman, P. C., Esser, N. M., Bauman, L. M., Denzine, S. L., Engstrom, M. Chester-Jones, H. 2001. Short Communication: Effect of dietary proteinon growth and nitrogen balance of Holstein heifers. Journal of DairyScience. 84, 843-847.
  • Hill, T. M., Bateman, H. G., Quigley, J. D., Aldrich, J. M., Schlotterbeck, R. L., Heinrichs, A. J. 2013. Review: New information on the proteinrequirements and diet formulation for dairy calves and heifers since theDairy NRC 2001. The Professional Animal Scientists. 29, 199?207.
  • Hess, B. W., Park, K. K., Krysl, L. J. 1994. Supplemental protein for beefcattle grazing dormant intermediate wheatgrass pasture: effects on nutrientquality, forage intake, digesta kinetics, grazing behavior, ruminalfermentation, and digestion. Journal of Animal Science. 72, 2113-2123.
  • Hammond, A. C. 1997. Update on BUN and MUN as a guide for proteinsupplementation in cattle. 8th Florida Ruminant Nutrition Symposium,Univ. Florida, Gainesville. 43-52.
  • Groff, E. B. and Wu, Z. 2005. Milk production and nitrogen excretion ofdairy cows fed different amounts of protein and varying proportions ofalfalfa and corn silage. Journal of Dairy Science. 88, 3619-3632.
  • Gaynor, P. J., Waldo, D. R., Capuco, A. V., Erdman, R. A., Douglass, L. W. 1995. Effect of prepubertal growth rate and diet on lipid metabolismin lactating cows. Journal of Dairy Science. 78, 1534-1543.
  • Gardner, R. W., Smith, L. W., Park, R. L. 1988. Feeding and managementof dairy heifers for optimal lifetime productivity. Journal of DairyScience. 71, 996-999.
  • Gardner, R. W., Schuh, J. D., Vargus, L. G. 1977. Accelerated growth andearly breeding of Holstein heifers. Journal of Dairy Science. 60,1941-1948.
  • Gardner, R. W. 1967. Acceptability and nutritional response comparisonsbetween calf starters. Journal of Dairy Science. 50, 729-734.
  • Gabler, M. T. and Heinrichs, A. J. 2003. Dietary Protein to MetabolizableEnergy Ratios on Feed Efficiency and Structural Growth of PrepubertalHolstein Heifers. Journal of Dairy Science. 86, 268-274.
  • FTA에 포위된 낙농산업, 가야할 길을 묻는다
    조석진 시선집중GSnJ.82.1-10 [2009]
  • Ettema, J. F. and Santos, J. E. P. 2004. Impact of age at calving onlactation, reproduction, health, and income in first-parity Holsteins oncommercial farms. Journal of Dairy Science. 87, 2730-2742.
  • Erwin, E. S., Marco, G. J., Emery, E. M. 1961. Volatile fatty acid analysesof blood and rumen fluid by gas chromatography. Journal of DairyScience. 44, 1768-1771.
  • Erick, R., Diane, M., Sarah, R., Patti, T. 2005. Blood Urea NitrogenConcentration as a Marker of Amino-Acid Intolerance in Neonates withBirthweight Less than 1250g. Journal of Perinatology. 25: 130-133.
  • Duncan, D. B. 1955. Multiple range and multiple F tests. Biometrics. 11,1-42.
  • Drackley, J. K., Pollard, B. C., Dann, H. M., Stamey, J. A. 2007. First-lactation milk production for cows fed control or intensified milkreplacer programs as calves. Journal of Dairy Science. 90, 614.
  • Drackley, J. K. 2004. Feeding for Accelerated Growth in Dairy Calves. Proceedings of Minnesota Dairy Health Conference. USA, 59-73.
  • Doepel, L., Lapierre, H., Kennelly, J. J. 2002. Peripartum performance andmetabolism of dairy cows in response to prepartum energy and proteinintake. Journal of Dairy Science. 85, 2315-2334.
  • Devant, M., Ferret, J., Gasa, S. C., Casals, R. 2000. Effects of proteinconcentration and degradability on performance, ruminal fermentation, andnitrogen metabolism in rapidly growing heifers fed high-concentrate dietsfrom 100 to 230 kg body weight. Journal of Animal Science. 78,1667-1676.
  • De La Sota, R. L., Lucy, M. C., Staples, C. R., Thatcher, W. W. 1993. Effects of recombinant bovine somatotropin (sometribove) on ovarianfunction in lactating and nonlactating dairy cows. Journal of DairyScience. 76, 1002-1013.
  • Cozzi, G., Ravarotto, L., Gottardo, F., Stefani, A., Contiero, L., Moro, L.,Brscic, M., Dalvit, P. 2011. Short communcation: Reference values forblood parameters in Holstein dairy cows: Effects of parity, stage oflactation and season of production. Journal of Dairy Science. 94. 3895-3901.
  • Collier, R. J., Doelger, S. G., Head, H. H., Thatcher, W. W., Wilcox, C. J. 1982. Effects of heat stress during pregnancy on maternal hormoneconcentrations, calf birth weight and postpartum milk yield of Holsteincows. Journal of Animal Science. 54, 309-319.
  • Christopherson, R. J. 1976. Effects of prolonged cold and the outdoor winterenvironment on apparent digestibility in sheep and cattle. CanadianJournal of Animal Science. 56, 201-212.
  • Chanjula, P., Wanapat, M., Wachirapakorn, C., Rowlinson, P. 2004. Effect ofsynchronizing starch sources and protein (NPN) in the rumen on feedintake, rumen microbial fermentation, nutrient utilization and performanceof lactating dairy cows. Asian-Australasian Journal of Animal Sciences. 17, 1400-1410.
  • Chaney, A. L. and Marbach, E. P. 1962. Modified reagents for determinationof urea and ammonia. Clinical chemistry. 8, 130-132.
  • Chalupa, W., O’Dell, G. D., Kutches, A. J., Lavker, R. 1970. Supplemental corn silage or baled hay for correction of milk fatdepressions produced by feeding pellets as the sole forage. Journal ofDairy Science. 53, 208-214.
  • Carlsson, J., Bergstrom, J., Pehrson, B. 1994. Variations with breed, age,season, yield, stage of lactation and herd in the concentration of ureain bulk milk and individual cow's milk. Acta Veterinaria Scandinavica. 36, 245-254.
  • Butler, W. R., Calaman, J. J., Beam, S. W. 1996. Plasma and milk ureanitrogen in relation to pregnancy rate in lactating dairy cattle. Journal ofAnimal Science. 74, 858-865.
  • Butler, W. R. and Smith, R. D. 1989. Interrelationships between energybalance on postpartum reproductive function in dairy cattle. Journal ofDairy Science. 72, 767-783.
  • Butler, W. R. 1998. Review: effect of protein nutrition on ovarian anduterine physiology in dairy cattle. Journal of Dairy Science. 81,2533-2539.
  • Bush, L. J. and Staley, T. E. 1980. Absorption of colostral immunoglobulinsin newborn calves. Journal of Dairy Science. 63, 672?680.
  • Brugere-Picoux, J. and Brugere, H. 1980. Fat cow syndrome. Recueil deMedecine Veterinaire. 156, 195-200.
  • Brown, E. G., Vandehaar, M. J., Daniels, K. M., Liesman, J. S., Chapin, L. T., Keisler, D. H., Nielsen, M. S. W. 2005. Effect of increasing energyand protein intake on body growth and carcass composition of heifercalves. Journal of Dairy Science. 88, 585-594.
  • Broderick, G. A. 2003. Effects of varying dietary protein and energy levelson the production of lactating dairy cows. Journal of Dairy Science. 86,1370-1381.
  • Bodine, T. N. and Purvis, H. T. 2003. Effects of supplemental energy and/ordegradable intake protein on performance, grazing behavior, intake,digestibility, and fecal and blood indices by beef steers grazed ondormant native tallgrass prairie. Journal of Animal Science. 81, 304-317.
  • Blome, R. M., Drackley, J. K., McKeith, F. K., Hutjens, M. F., McCoy, G. C. 2003. Growth, nutrient utilization, and body composition of dairycalves fed milk replacers containing different amounts of protein. Journalof Animal Science. 81, 1641-1655.
  • Berry, D. P. and Cromie, A. R. 2009. Associations between age at firstcalving and subsequent performance in Irish spring calving Holstein?Friesian dairy cows. Livestock Science. 123, 44-54.
  • Beede, D. K. and Collier, R. J. 1986. Potential nutritional strategies forintensively managed cattle during thermal stress. Journal of AnimalScience. 62, 543-554.
  • Beck, P. A., Gunter, S. A., Phillips, J. M. 2006. Evaluation ofSupplementation Programs for Growing Cattle Grazing Tall Fescue. Professional Animal Scientist. 22, 325-333.
  • Barton, B. A., Rosario, H. A., Anderson, G. W., Grindle, B. P., Carroll, D. J. 1996. Effects of dietary crude protein, breed, parity, and health statuson the fertility of dairy cows. Journal of Dairy Science. 79, 2225-2236.
  • Bargo, F., Muller, L. D., Delahoy, J. E., Cassidy, T. W. 2002. Milk responseto concentrate supplementation of high producing dairy cows grazing attwo pasture allowances. Journal of Dairy Science. 85, 1777-1792.
  • Attebery, J. T. and Johnson, H. D. 1969. Effects of environmentaltemperature, controlled feeding and fasting on rumen motility. Journal ofAnimal Science. 29, 734-737.
  • Association of Official Agricultural Chemists, and William Horwitz. 2005. Official methods of analysis. Washington, DC: AOAC. 534.
  • Allison, M. J. 1978. Production of branched-chain volatile fatty acids bycertain anaerobic bacteria. Applied and environmental microbiology. 35,872-877.
  • Agricultural Research Council. 1980. The Nutrient Requirements of RuminantLivestock. Commonwealth Agricultural Bureaux, Farnham Royal, UK. 121-166.
  • Abeni, F., Calamari, L., Stefanini, L., Pirlo, G. 2000. Effects of daily gain inpre-and postpubertal replacement dairy heifers on body condition score,body size, metabolic profile, and future milk production. Journal of DairyScience. 83, 1468-1478.