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An online simulation model of sow reproduction
|關鍵字:||Reproduction;繁殖;Simulation model;Sow;模擬模式;母豬||出版社:||動物科學系所||引用:||王智楷。2006。哺乳仔豬生長線上模擬模式。碩士論文。國立中興大學畜產學系。台中市。 王漢雯。2009。肉豬生長線上模擬模式。碩士論文。國立中興大學動物科學系。台中市。 甘明宗。1994。降低毛豬生產成本技術服務團第三團八十三年度工作報告。 行政院農業委員會。2010。98年農業年報。行政院農業委員會。台北。 行政院農業委員會畜產試驗所。2004。行政院農委會畜產試驗所年報。行政院農業委員會畜產試驗所。台南。 阮喜文、郭玫君。1999。母豬繁殖之電腦模擬模式。中畜會誌 28(4):499-510。 陳拓寰。2003。台灣黑豬生長線上模擬模式。碩士論文。國立台灣大學畜產學系。台北市。 陳益泉。1996。讓您小豬贏在起跑點(上)。飼料營養雜誌 8: 86-93。 夏良宙。1995。環境對豬隻營養需求之影響。中畜會誌 27(9): 17-26。 張直。1997。過去四十年來台灣豬隻育種工作、研究與推動情況。飼料營養雜誌 5: 37-45。 鄭清森、顏宏達、許振忠。1992。熱季環境下添加脂肪對泌乳母豬繁殖性能之影響。中畜會誌 21(3): 229-237。 顏宏達。2001。營養與飼養。畜牧要覽養豬篇增修版。第160頁。中國畜牧學會，台北市。 顏宏達、鄭清森。1988。泌乳母豬產次和季節對其飼料採食量之影響。中畜會誌 17(3-4): 150(摘要)。 顏宏達、鄭清森、李德南。1991。影響母豬繁殖性能因素之探討 I、飼料餵飼量之影響。中畜會誌 20(1): 19-25。 羅玲玲。2009。配種組合與雜交優勢。中國文化大學動物科學系。Online Available: http://www.angrin.tlri.gov.tw/sift/picbs_3-1.pdf。Accessed April. 12, 2009 Agricultural Research Council (ARC). 1981. The Nutrient Requirements of Pigs. Commonwealth Agricultural Bureaux, Slough, U.K. Armstrong, J. D., J. H. Britt and N. M. Cox. 1986. Seasonal differences in function of the Hypothalamic-hypophysial-ovarian axis in weaned primiparous sows. J. Reprot. Fert. 78: 11-20. Auldist, D. E., L. Morrish, P. Eason and R. H. King. 1998. The influence of litter size on milk production of sows. Anim. Sci. 67: 333-337. Baas, T, J., L. L. Christian and M. F. Rothschild. 1992. Heterosis and recombination effects in Hampshire and Landrace swine:1. Maternal traits. J. Anim. Sci. 70: 89-98. Black, J. L. 1974. Manipulation of body composition through nutrition. Proc. Aust. Soc. Anim. Prod. 10: 211-218. Black, J. L., R. G. Campbell, I. H. Williams, K. J. James and G. T. Davis. 1986. Simulation of energy and amino acid utilization in the pig. Res. Develop. Agricult. 3: 121-145. Black, J. L. B. P. Mullan, M. L. Lorschy and L. R. Giles. 1993. Lactation in the sow during heat stress. Lives. Prod. Sci. 35: 153-170. Blaxter, K. L., V. R. Fowler and J. C. Gill. 1980. A study of the growth of sheep to maturity. J. Agric. Sci. 98: 405-420. Boyd, R. D., B. D. Moser, E. R. Peo, A. J. Lewis and R. K. Johnson. 1982. Effect of tallow and choline chloride addition to the diet of sows on milk composition, milk yield and preweaning pig performance. J. Anim. Sci. 54: 1-7. Clark, L. K. and A. D. Leman. 1988. Factors that influence litter size in swine: parity-one females. J. Am. Vet. Med. Assoc. 192(2): 187-194. Cozler, Y. L., J. Dagorn, J. Y. Dourmad, S. Johansen and A. Aumaitre. 1997. Effect of weaning-to-conception interval and lactation length on subsequent litter size in sows. Livest. Prod. Sci. 51: 1-11. Davis, M. E., B. Z. de Rodas, C. V. Maxwell and J. Chung. 2001. Effect of increasing dietary lysine level with addition of whey protein concentrate on pig performance during Phase 1 of the nursery period. in 1996 Animal Science Research Report . Oklahoma State University, U.S.A. Dourmad, J. Y., M. Etienne, A. Valancogne, S. Dubois, J. V. Milgen and J. Noblet. 2008. InraPorc: a model and decision support tool for the nutrition of sows. Anim. Feed Sci. Technol. 143: 372-386. Duck, G. W., E. E. Swierstra, R. M. Mckay and K. Mount. 1987. Effect of location of teat suckled, breed and parity on piglet growth. Can. J. Anim. Sci. 67: 929-939. Eissen, J. J., E. Kanis and B. Kemp. 2000. Sow factors affecting voluntary feed intake during lactation. Livest. Prod. Sci. 64: 147-165. Emmans, G. C. 1981. A model of the growth and feed intake of ad libitum fed animals, particularly poultry. Page 103-110 Computers in Animal Production. G. M. Hillyer, C. T. Whittemore, and R. G. Gunn, ed. BSAP Occasional Publication No. 5, Thames, Ditton, U.K. Emmans, G. C. 1994. Effective energy: a concept of energy utilisation applied across species. Brit. J. Nutr. 71: 801-821. Emmans, G. C. and I. Kyriazakis. 1989. The prediction of the rate of food intake in growing pigs. Page 110 in The Voluntary Food Intake of Pigs. J. M. Forbes, M. A. Varley, T. L. J. Lawrence, H. Davies and M. C. Pitkethly, ed. BSAP Occasional Publication No. 13, Edinburgh, U.K. Emmans, G. C. and J. D. Oldham. 1988. Modelling of growth and nutrition indifferent species. Page 13 in Modelling of Livestock Production System. S. Korver and J. A. M. Van Arendonk, ed. Kluwer Academic Publishers, London, U.K. Fawcett, R. H. 1973. Towards a dynamic production function. J. Agricult. Econ. 24: 543-559. Ferguson, N. S. 1988. An approach to modelling feed intake, body composition and nutrient requirements in growing pigs. MSc Thesis, University of Natal, South Africa. Filmer, D. G. and M. K. Curran. 1977. Climatic environment and practical nutrition of the growing pig. Page 75-92 in Nutrition and the Climatic Environment. W. Haresign, H. Swan and D. Lewis, ed. Butterworths, London, U.K. Gourdine, J. L., J. P. Bidanel, J. Noblet and D. Renaudeau. 2006. Effects of breed and season on performance of lactating sows in a tropical humid climate. J. Anim. Sci. 2006. 84: 360-369. Hughes, P. E., R. W. Henny and D. W. Pickard. 1984. The effects of lactation food level on subsequent ovulation rate and early embryonic survival in sow. Anim. Prod. 38: 527 (Abstr). Hughes, P. and M. A. Varley. 2003. Lifetime performance of the sow. pp. 333-355 in Perspectives in Pig Science. J. Wiseman, M. A. Varley and B. Kemp (ed.). Nottingham University Press, Nottingham. Johansson, K. and B. W. Kennedy. 1983. Genetic and phenotypic relationships of performance test measurements with fertility in Swedish Landrace and Yorkshire sows. Acta. Agric. Scan. 33: 195-199. King, R. H. and A. C. Dunkin. 1986a. The effect of nutrition on the reproductive performance of first-litter sows. 3. The response to graded increases in food intake during lactation. Anim. Prod. 43: 119-125. King, R. H. and A. C. Dunkin. 1986b. The effect of nutrition on the reproductive performance of first-litter sows. 4. The relative effects of energy and protein intakes during lactation on the performance of sows and their piglets. Anim. Prod. 43: 319-325. King, R. H. and G. B. Martin. 1989. Relationships between protein intake during lactation LH levels and oestrous activity in first-litter sows. Anim. Reprod. Sci. 19: 283-292. King, R. H. and I. H. Williams. 1984a. The effect of nutrition on the reproductive performance of first-litter sows. 1. Feeding level during lactation, and between weaning and mating. J. Anim. Sci. 38: 241-247. King, R. H. and I. H. Williams. 1984b. The effect of nutrition on the reproductive performance of first-litter sows. 2. Protein and energy intake during lactation. Anim. Prod. 38: 249-256. King, R. H., I. H. Williams and I. Barker 1984. The effect of diet during lactation on the reproductive performance of first-litter sows. Anim. Prod. 15:412- 415. Kirkwood, R. N., S. N. Baidoo, F. X. Aherne and A. D. Sather. 1987a. The influence of feeding level during lactation on the occurrence and endocrinology of the postweaning estrus in sows. Can. J. Anim. Sci. 67: 405-415. Kirkwood, R. N., E. S. Lythgoe and F. X. Aherne. 1987b. Effect of lactation feed intake and GnRH on the reproductive performance of sow. Can. J. Anim. Sci. 67: 715-719. Kirkwood, R. N., B. N. Mitaru, A. D. Goonerature, R. Blair and P. A. Thacker. 1988. The influence of dietary energy intake during successive lactation on sow prolificacy. Can. J. Anim. Sci. 68: 283-290. Koketsu, Y. and G. D. Dial. 1997. Factors influencing the post weaning reproductive performance of sows on commercial farms. Theriogenology 47: 1445-1461. Koketsu, Y., G. D. Dial and V. L. King. 1997. Influence of various factors on farrowing rate on farms using early weaning. J. Anim. Sci. 75: 2580-2587. Koketsu, Y., G. D. Dial, J. E. Pettigrew, W. E. March and V. L. King. 1996. Characterization of feed intake patterns during lactation in commercial swine herds. J. Anim. Sci. 74: 1202-1210. Koketsu, Y., H. Takahashi and K. Akachi. 1999. Longevity, lifetime pig production and productivity, and age at first conception in a cohort of gilts observed over six years on commercial farms. J. Vet. Med. Sci. 61: 1001-1005. Laspiur, J. P. and N. L. Trottier. 2000. Effect of dietary arginine supplementation and environmental temperature on sow lactation performance. Livest. Prod. Sci. 70: 159-165. Mahan, D. C. 1998. Relationship of gestation protein and feed intake level over a five-parity period using a high-producing sow genotype. J. Anim. Sci. 76: 533-541. Mackenzie, D. D. S. and D. K. Revell. 1998. Genetic influences on milk quantity. Page 97-112. in The lactating sow. M. W. A. Verstegen, P. J. Moughan and J. W. Schrama, ed. Wageningen Pers, The Netherlands. Moughan, P. J. and W. C. Smith. 1984. Prediction of dietary protein quality based on a model of the digestion and metabolism of nitrogen in the growing pig. N. Z. J. Agricult. Res. 27: 501-507. Musser, R. E., D. L. Davis, M. D. Tokach, J. L. Nelssen, S. S. Dritz and R. D. Goodband. 2006. Effects of high feed intake during early gestation on sow performance and offspring growth and carcass characteristics. Anim. Feed. Sci. Tech. 127: 187-199. Nation Research Council (NRC). 1987. Predicting Feed intake of Food-Producting Animals. National Academy Press, Washington D. C., U.S.A. Neil, M., B. Ogle and K. Anner. 1996. A two-diet system and ad libitum lactation feeding of the sow. 1. Sow performance. Anim. Sci. 62: 337-347. Nelsen, J. L., A. Lewis, E. R. Peo, Jr. and J. D. Crenshaw. 1985a. Effect of dietary energy intake during lactation on performance of primiparious sows and their litters. J. Anim. Sci. 61: 171-181. Nelsen, J. L., A. Lewis, E. R. Peo, Jr. and B. D. Moser. 1985b. Effect of source of dietary energy and energy restriction during lactation on sow and litter performance. J. Anim. Sci. 60: 171-178. Noblet, J., J. Le Dividich and T. Bikawa. 1985.Interaction between energy level in the diet and environmental temperature on the utilization of energy in growing pigs. J. Anim. Sci. 61: 452-459. Noblet, J., J. Y. Dourmad and M. Etienne. 1990. Energy utilization in pregnant and lactation sows: modeling of energy requirements. J. Anim. Sci. 68: 562-572. Noblet, J., H. Fortune, X. S. Shi and S. Dubois. 1994. Prediction of net energy value of feeds for growing pigs. J. Anim. Sci. 72: 344-354. O’Grady, J. F., P. B. Lynch and P. A. Kearney. 1985. Voluntary feed intake by lactating sows. Lives. Prod. Sci. 12: 355-365. Pittigrew, J. E., M. Gill, J. France and W. H. Close. 1993. Amathematical integration of energy and amino acid metabolism of lactation sows. J. Anim. Sci. 70: 3742-3761. Pollmann, D. S., D. M. Danielson, M. A. Crenshaw and E. R. Peo, Jr. 1981. Long-term effects of dietary additions of alfalfa and tallow on sow reproductive performance. J. Anim. Sci. 51(2): 294-299. Pomar, C., D. L. Harris and F. Minvielle. 1991a. Computer simulation model of swine production systems: I. Modeling the growth of young pigs. J. Anim. Sci. 69: 1468-1488. Pomar, C., D. L. Harris and F. Minvielle. 1991b. Computer simulation model of swine production systems: II. Modeling body composition and weight of female pigs, fatal development, milk production, and growth of suckling pigs. J. Anim. Sci. 69: 1489-1502. Pond, W. G., J. T. Yen, R. R. Maurer and R. K. Christenson. 1981. Effect of doubling daily energy intake during the last two weeks of pregnancy on pig birth weight, survival and weaning weight. J. Anim. Sci.52: 535-541. Prunier, A., H, Quesnel, M. Messias de Braganca and A. Y. Kermabon. 1996. Environmental and seasonal influences on the return-to-oestrus after weaning in primiparous sows: a review. Livest. Prod. Sci. 45: 103-110. Prunier, A., M. Messias de Braganca and J. Le Dividich. 1997. Influence of high ambient temperature on performance of reproductive sows. Livest. Prod. Sci. 52: 123-133. Quiniou, N. and J. Noblet. 1999. Influence of high ambient temperatures on performance of multiparous lactating sows. J. Anim. Sci: 77: 2124-2134. Renaudeau, D. N. Quiniou and J. Noblet. 2001. Effects of exposure to high ambient temperature and dietary protein level on performance of multiparous lactating sows. J. Anim. Sci. 79: 1240-1249. Resse, D. E., B. D. Moser, E. R. Peo, Jr. and A. J. Lewis. 1984. Relationship of lactation energy intake and occurrence of postweaning estrus to body and backfat composition in sows. J. Anim. Sci. 58: 1236-1244. Resse, D. E., B. D. Moser, E. R. Peo. Jr., A. J. Lewis, D. R. Zimmerman, J. E. Kinder and W. W. Stroup. 1982a. Influence of energy intake during lactation on the interval from weaning to first estrus in sows. J. Anim. Sci. 55: 590-598. Resse, D. E., B. D. Moser, E. R. Peo, Jr., A. J. Lewis, D. R. Zimmerman, J. E. Kinder and W. W. Stroup. 1982b. Influence of energy intake during lactation on the subsequent gestation, lactation and postweaning performance of sows. J. Anim. Sci. 55: 590-598. Roan, S. W. 1991. Bio-economic models for the simulation of the production and management of the growing pigs and sows. Ph.D. Thesis. University of Edinburgh, U.K. Stansbury, W. F., J. J. McGlone and L. F. Tribble. 1987. Effect of season, floor type, air temperature and snout coolers on sow and litter performance. J. Anim. Sci. 65: 1507-1513. Svajgr, A. J., V. W. Hays, G. L. Cromwell and R. H. Dutt. 1974. Effect of lactation duration on reproductive performance of sows. J. Anim. Sci. 38: 100-105. Tantasuparuk, W., N. Lundeheim, A. M. Dalin, A. Kunavongkrit and S. Einarsson. 2000. Effects of lactation length and weaning-to-service interval on subsequent farrowing rate and litter size in Landrace and Yorkshire sows in Thailand. Theriogenology 54: 1525-1536. Theil, P. J., H. Jorgensen and K. Jakobsen. 2004. Energy and protein metabolism in lactating sows fed two levels of dietary fat. Livest. Prod. Sci. 89: 265-276. Tokach, M. D., J. E. Pettigrew, B. A. Crooker, G. D. Dial and A. F. Sower. 1992. Quantitative influence of lysine and energy intake on yield of milk components in primiparous sow. J. Anim. Sci. 70: 1864-1872. Tomes, G. J. and H. E. Nielson. 1979. Seasonal variations in the reproductive performance of sows under different climatic conditions. World Review of Anim. Prod. 15: 9-19. Thysen, I., A. Danfaer, N. Detlefsen and A. L. Jensen. 2003. Implementation of a mechanistic simulation model in internet-based decision support. Page 167 in EFITA 2003 Conference. Debrecen, Hungary. Tummaruk, P., N. Lundeheim, S. Einarsson and A. M. Dalin. 2000. Reproductive performance of purebred Swedish Landrace and Swedish Yorkshire sows: I. Seasonal variation and parity influence. Acta Agric. Scand., Sect. A, Anim. Sci. 50: 205-216. Tummaruk, P., N. Lundeheim, S. Einarsson and A. M. Dalin. 2001. Reproductive performance of purebred Hampshire sows in Sweden. Livest. Prod. Sci. 68: 67-77. Van Kempen, G. J. M., C. Geeres, M. W. A. Verstegen and J. Mesu. 1985. Effect of feedinf level on milk production of sows during four weeks of lactation. Netherlands Journal of Agricultural Science 33: 23-34. Whittemore, C. T. 1980. The Edinburgh computer model pig. Pig News and Information 1: 343-346. Whittemore, C. T. 1983. Development of recommended energy and protein allowance for growing pigs. Agricult. Syst. 11: 159-186. Whittemore, C. T. 1987. Elements of Pig Science. Longman, U.K. Whittemore, C. T. 1993. The Science and Practice of Pig Production. Longman, U.K. Whittemore, C. T. and R. H. Fawcett. 1974. Model responses of the growing pig to the dietary intake of energy and protein. Anim. Prod. 19: 221-231. Whittemore, C. T. and R. H. Fawcett. 1975. Use of a model to estimate nutrient allowance for growing pigs. Proc. Br. Soc. Anim. Prod. 4: 116-117. Whittemore, C. T. and C. A. Morgan. 1990. Model components for the determination of energy and protein requirement for breeding sows: A review. Livest. Prod. Sci. 26: 1-37. Whittemore, C. T., W. C. Smith and P. Phillips. 1988. Fatness, live weight and performance responses of sow to food level in pregnancy. Anim. Prod. 47: 123-130. Williams, C. B. and T. G. Jenkins. 2003. A dynamic model of metabolizable energy utilization in growing and mature cattle. I. Metabolizable energy utilization for maintenance and support metabolism. J. Anim. Sci. 81: 1371-1381. Williams, I. H., W. H. Close and D. J. A. Cole. 1985. Strategies for sow nutrition: Predicting the response of pregnant animals to protein and energy intake. Page 133-147. in Recent Advances in Animal Nutrition-1985. W. Haresign and D. J. A. Cole, ed. Butterworths, London, U. K. Xue, J. L., G. D. Dial, W. E. Marsh, P. R. Davies and H. W. Momont. 1993. Influence of lactation length on sow productivity. Livest. Prod. Sci. 34: 253-265. Yen, H. F., G. A. Isler, W. R. Harvey and K. M. Irvin. 1987. Factors affecting reproductive performance in swine. J. Anim. Sci. 64: 1340-1348. Young, L. G., G. L. King, J. S. Walton, I. McMillian, M. Klevarick and J. Shaw. 1990. Gestation energy and reproduction in sows over four parties. Can. J. Anim. Sci. 70: 493-506. Zoons, J., J. Buyse and E. Decuypere. 1991. Mathematical models in broiler raising. World’s Poult. Sci. J. 47: 243-255.||摘要:||
母豬生產受到許多因素如環境、營養、遺傳與經濟等之影響，為了獲得更高的利益，瞭解各個因子之間如何影響母豬生產性能極為重要。因此，本研究之目的在設計可模擬母豬在不同飼養管理組合下的繁殖狀況之線上模式。系統採用Microsoft Windows Server 2003作業系統，運用ASP.NET 2.0 (Active Server Pages.NET)程式語言結合Microsoft Access 2007資料庫，建置在國立中興大學動物科學系的伺服器上。主要架構分為建立使用者資料、模擬模式、使用說明、相關網站與聯絡程式設計者等五項。使用者經過線上註冊即可登入本系統，隨後輸入母豬資料、飼糧組成、飼養策略、畜舍環境與成本項目。本模式以每日為基礎，預測母豬在不同繁殖週期中不同階段之飼料採食量、背脂變化、體重變化、維持與利用之能量所需、以及懷孕期間胎兒發育情況；並預測泌乳期間泌乳量及仔豬生長情況等，另產生一份財務報表，藉此評估各項有利飼養工作之策略。本系統提供的資訊可供做養豬業者飼養豬隻時之決策參考。
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