تأثیر جایگزینی نسبی دانه ذرت توسط خردههای برنج و تفاله چغندر قند روی عملکرد رشدی، صفات لاشه و اقتصاد بلدرچینها از نوع گوشتی
Subject Areas : Camelای. آ. عاشور 1 , اف.م. ردا 2 , م.ای. عبد ال-هک 3
1 - Department of Poultry Science, Faculty of Agriculture, Zagazig University, Zagazig, Egypt
2 - Department of Poultry Science, Faculty of Agriculture, Zagazig University, Zagazig, Egypt
3 - Department of Poultry Science, Faculty of Agriculture, Zagazig University, Zagazig, Egypt
Keywords: عملکرد, اقتصاد, بلدرچین, خردههای برنج, تفاله چغندر قند,
Abstract :
مطالعه حاضر به منظور بررسی اثر جایگزینی نسبی دانه ذرت توسط خردههای برنج و تفاله چغندر قند در جیره روی عملکرد رشدی و صفات لاشه بلدرچینهای ژاپنی در حال رشد انجام شد. در مجموع تعداد 324 جوجه بلدرچین تعیین جنسیت شد یک هفته سن از جیرههایی با سطح جایگزینی 0، 3، 6، 9، 12 و 15 درصد از ذرت با مخلوطی از خردههای برنج و تفاله چغندر قند (نسبت 1:1) تغذیه شدند. نتایج مشخص کرد که وزن زنده به طور معنیداری در حدود 05/4 و 63/7 درصد وقتی پرندهها با 9 درصد جایگزینی تغذیه شدند به ترتیب در هفتههای 3 و 5 در مقایسه با گروه کنترل افزایش یافت. در مقایسه با کنترل، تیمار با 9 درصد جایگزینی افزایش وزن بدن را حدود 54/5، 31/12 و 08/9 درصد در طی هفتههای 3-1 ، 5-3 و 5-1 بهبود داد. بهترین مصرف خوراک در بلدرچینهای تغذیه شده با خردههای برنج و تفاله چغندر قند در سطح جایگزینی 6 درصد ثبت شد. در حالیکه بهترین ضریب تبدیل خوراک در بلدرچینهای تغذیه شده با سطح جایگزینی 15 درصد مشاهده شد. اوزان نسبی اندامهای داخلی به طور معنیدار توسط تیمارهای جیرهای تأثیر پذیرفتند، ولی اثر روی تولید لاشه غیر معنیدار بود. راندمان اقتصادی وقتی طیور از بالاترین سطح خردههای برنج و تفاله خشک چغندر قند (سطح 15 درصد) تغذیه نمودند 64/1 در مقایسه با گروه کنترل و سایر تیمارها بود. در نتیجه و با در نظر گرفتن راندمان اقتصادی تولید، سطح جیرهای 15 درصد از جایگزینی خردههای برنج و تفاله چغندر قند با دانه ذرت میتواند بهترین سطح جایگزینی تا هفته 5 باشد.
Abd El-Hack M.E. (2015). Enzymes drying to be used in low-cost animal fodder production for existing biotechnology company. Ph D. Thesis. Zagazig Univ., Zagazig, Egypt.
Abd El-Hack M.E. and Mahgoub S. (2015). Mitigating harmful emissions from laying hens manure and enhancing productive performance through feeding on DDGS with or without Bacillus spp. P. 63 in Proc. Int. Conf. Indust. Waste. Wastewat. Treat. Valoriz. Athens, Greece.
Abd El-Hack M.E., Alagawany M., Farag M.R. and Dhama K. (2015a). Use of maize distiller’s dried grains with solubles (DDGS) in laying hen diets: Trends and Advances. Asian J. Anim. Vet. Adv. 10, 690-707.
Abd El-Hack M.E., Alagawany M., Laudadio V., Demauro R. and Tufarelli V. (2015b). Dietary inclusion of raw Faba bean instead of soybean meal and enzyme supplementation in laying hens: Effect on performance and egg quality. Saudi J. Biol. Sci. 25, 51-60.
Abd El-Hack M.E., El-Hindawy M.M., Attia A.I. and Mahrose K.M. (2015c). Effects of feeding DDGS with or without enzyme or vitamin E supplementation on productive performance of Hisex Brown laying hens. Zagazig J. Agric. Res. 42, 71-79.
Abedo A.A. (2006). A study on the use of sugar beet pulp in the feed mixtures for ruminants. Ph D. Thesis. Ain Shams Univ., Egypt.
Alabi O.O., Atteh J.O., Adejumo I.O. and Ogundele O.O. (2014). Effects of dietary levels of brewers’ dried grain supplemented with commercial enzymes on performance, nutrient retention and gastro-intestinal tract characteristics of arbor acres broilers. Int. J. Agric. Innov. Res. 2, 2319-1473.
Alagawany M. and Attia A. (2015). Effects of feeding sugar beet pulp and Avizyme supplementation on performance, egg quality, nutrient digestion and nitrogen balance of laying Japanese quail. Avian Biol. Res. 8, 79-88.
Alagawany M., Farag M.R., Abd El-Hack M.E. and Dhama K. (2015). The practical application of sunflower meal in poultry nutrition. Adv. Anim. Vet. Sci. 3, 634-648.
Almirall M., Cos R., Esteve-Garcia E. and Brufau J. (1997). Effect of inclusion of sugar beet pulp, pelleting and season on laying hen performance. Br. Poult. Sci. 38, 530-536.
AOAC. (2003). Official Methods of Analysis. 15th Ed. Association of Official Analytical Chemists, Arlington, VA, USA.
Ashour E.A., Reda F.M. and Alagawany M. (2015). Effect of graded replacement of corn by broken rice in growing Japanese quail diets on growth performance, carcass traits and economics. Asian J. Anim. Sci. 9, 404-411.
Ayaşan T., Gök K., Asarkaya A., Hizli H., Görgülü M., Karakozak E., Coşkun M.A. and Seğmenoğlu M.S. (2012). The effects of corn silage and sugar beet pulp on fattening performance, blood parameters and carcass characteristics of beef male calves. Sdü. Zir. Fak. Derg. 7(1), 64-73.
Brum B.S., ZanellaI., Toledo G.S.P., Xavier G.S.P., Vieira T.A., Gonçalves E.C., Brum H. and Oliveira J.L.S. (2007). Diet a para frangos de corte contendo quirera de arroz. Ciência Rural. 37, 1423-1429.
Cancherini L.C., Duarte K.F., Junqueira O.M., Filardi R.S., Laurentiz A.C. and Arajo A.F. (2008). Desempenho e rendimento de carcaça de frangos de corte alimentados com dietascontendo subprodutos do arroz formuladas com base nos conceitos de protefna bruta e ideal. Rev. Br. Zootec. 37, 616-623.
Choct M. (2002). Poultry Feedstuffs Supply, Composition and Nutritive Value. CABI Publishing, New York.
DaghirN.J. (2008). Poultry Production in Hot Climates. Cromwell Press, Trowbridge, UK.
Durunna C.S., Udedibie A.B.I. and Anyanwu G.A. (1999). Combination of maize / sorghum dried brewers’ grain, cocoyam cob and cassava tuber meal as substitute for maize in the diets of laying hens. J. Agric. Biotechnol. Environ. 2, 1-7.
Edwin S.C., Viswanathan K., Kumararaj R. and Rangareddy P. (2002). Effect of replacing maize with broken rice on growth performance of broilers. Indian J. Poult. Sci. 37, 187-189.
EsaN.M., Ling T.B. and Peng L.S. (2013). By-products of rice processing: an overview of health benefits and applications. J. Rice. Res. 1, 107-116.
Fanimo A.O., Adebayo A.J., Oduguwa O.O. and Biobaku W.O. (2007). Feeding value of cashew testa for broiler chickens. Nigerian J. Anim. Prod. 34, 83-93.
Filgueira T.M.B., Freitas E.R., Quevedo Filho I.B., Fernandes D.R., Watanabe P.H. and Oliveira A.N. (2014). Corn replacement by broken rice in meat-type quail diets. Br. J. Poult. Sci. 16, 345-350.
Gonzalez-Alvarado J.M., Jiménez-Moreno E., González-Sánchez D., Lázaro R. and Mateos G.G. (2010). Effect of inclusion of oat hulls and sugar beet pulp in the diet on productive performance and digestive traits of broilers from 1 to 42 days of age. Anim. Feed Sci. Technol. 162, 37-46.
Gonzalez-Alvarado J.M., Jiménez-Moreno E., Lzaro R. and Mateos G.G. (2007). Effect of type of cereal, heat processing of the cereal and inclusion of fiber in the diet on productive performance and digestive traits of broilers. Poult. Sci. 86, 1705-1715.
Heady E.O. and Jensen H.R. (1954). Farm Management Economics. Prentice Hall, Inc., Englewood Cliffs, New Jersy.
Hemingway R.G., Parkins J.J. and Fraser J. (1986). Sugar beet pulp products for dairy cows. Anim. Feed Sci. Technol. 13, 123-127.
Kamran Z., Sarwar M., Nisa M., Nadeem M.A., Mahmood S., Babars M.E. and Ahmed S. (2008). Effect of low protein diets having constant energy-to-protein ratio on performance and carcass characteristics of broiler chickens from one to thirty-five days of age. Poult. Sci. 87, 468-474.
Kjaergaard L. (1984). Examples of bio-technological utilization of beet pulp and bagasse. Sugar Technol. Rev. 10, 183-237.
Medugu C.I., Kwari I.D., Igwebuike J., NkamaI., Mohammed I.D. and Hamaker B. (2010). Performance and economics of production of broiler chickens fed sorghum or millet as replacement for maize in the semi-arid zone of Nigeria. Agric. Biol. J. North. Am. 1, 321-325.
Moura A.M.A., Fonseca J.B., Rabello C.B.V., Takata F.N. and Oliveira N.T.E. (2010). Desempenho e qualidade do ovo de codornas japones asalimentadas com raçoescontendo sorgo. Rev. Br. Zootec. 39, 2697-2702.
Nanto F., Kikusato M., Ito C., Sudo S. and Toyomizu M. (2012). Effect of dehulled, crushed and untreated whole-grain paddy rice on growth performance in broiler chickens. Japan Poult. Sci. Assoc. 49, 291-299.
NRC. (1994). Nutrient Requirements of Poultry, 9th Rev. Ed. National Academy Press, Washington, DC., USA.
Nsa E.E., Okereke C.O. and Okon B. (2007). Effects of supplementary green feedstuffs on growth performance, internal organs development and abdominal fat deposition in finisher broiler chickens. Pp. 230-233 in Proc. 32nd Annu. Conf. Nigerian Soc. Anim. Prod. Cross RiverState, Calabar, Nigeria.
Nworgu F.C., Adebowale E.A., Oredein O.A. and Oni A. (1999). Prospects and economics of broiler chicken production using two plant protein sources. Trop. J. Anim. Sci. 2, 159-166.
OECD. (2004). Organization for Economic Co-operation and Development. OECD Publications Service,Paris, France.
Oliveira N.T.E., Fonseca J.B., Soares R.T.R.N., Ferreira K.S. and Thiebaut J.T.L. (2007). Egg yolk colour of Japanese quail fed on diets with spice. Cienc. Agrotecnol. 31, 1525-1531.
Opara C.C. (1999). Studies on the use of Alconiacordiofolia leaf meal as feed ingredients in poultry diets. MS Thesis. FederalUniversity of Technology, Owerri, Nigeria.
Pettersson D. and Razdan A. (1993). Effects of increasing levels of sugar-beet pulp in broiler chicken diets on nutrient digestion and serum lipids. Br. J. Nutr. 70, 127-137.
Rao S.V.R., Reddy M.R., Prarharaj N.K. and Sunder G.S. (2000). Laying performance of broiler breeder chickens fed various millets or broken rice as a source of energy at a constant nutrient intake. Trop. Anim. Health Prod. 32, 329-338.
SAS Institute. (2001). SAS®/STAT Software, Release 8.2. SAS Institute, Inc., Cary, NC. USA.
Sethi A.P.S., Sikka S.S. and Chawla J.S. (2006). Effect of partial replacement of maize with wheat and rice kani on the performance of egg type starter quails. Indian J. Poult. Sci. 41, 64-67.
Shanggong Y.U., Zachary T.N., Thomas M.B. and Nianbai F. (2007). Quantification of vitamin E and γ-Oryzanol components in rice germ and bran. J. Agric. Food Chem. 55, 7308-7313.
Swain B.K. and Barbuddhe S.B. (2008). Use of Agro-Industrial by-Products to Economise Feed Cost in Poultry Production. Technical Bulletin No: 13, permission of Indian Council of Agricultural Research (ICAR), ICAR Research Complex for Goa, Ela, Old Goa- 403402, Goa, India.
Swain B.K., Sundaram R.N.S., Chakurkar E.B. and Burburdhe S.B. (2006). Feeding value of broken rice for Japanese quail layers. Indian J. Anim. Nutr. 26, 193-195.
Tackie A.M. and Flenscher J.E. (1995). Nutrient value of wild sorghum fortified with (Leucanaleucocepphala). Bullet. Anim. Africa. 47, 223-375.
Tester R.F., Qi X. and Karkalas J. (2006). Hydrolysis of native starches with amylases. Anim. Feed Sci. Technol. 130, 39-54.
Vicente B., Valencia D.G., Pérez-Serrano M., Lzaro R. and Mateos G.G. (2008). The effects of feeding rice in substitution of corn and the degree of starch gelatinization of rice on the digestibility of dietary components and productive performance of young pigs. J. Anim. Sci. 86, 119-126.
Volek Z., Skrivanova V., Marounek M., Skrivan M. and Klein P. (2002). Performance, digestive anatomy and caecal parameters in rabbits fed diets differing in digestible fiber content. Pp. 61 in Proc. 53rd Annu. Meet. EAAP, Cairo, Egypt.
Wilson T.A., Idreis H.M., Taylor C.M. and Nicolosi R.J. (2002). Whole fat rice bran reduces the development of early aortic atherosclerosis in hypercholesterolemic hamsters compared with wheat bran. Nutr. Res. 22, 1319-1332.
