The Efficacy of Plant based Diets on Growth Potential, Energy Utilization, Nutrient Digestibility, Leg Bone Development and Litter Quality of Meat Chickens
محورهای موضوعی : Camel
1 - Department of Dairy and Poultry Science, Faculty of Veterinary Medicine, Chittagong Veterinary and Animal Science University, Khulshi, Chittagong, Bangladesh
2 - Institute of Tropical Agriculture, University Putra Malaysia, Serdang, Malaysia
کلید واژه: growth, digestibility, broiler chickens, energy utilization, leg bone health, litter qual-ity, vegetable diets,
چکیده مقاله :
Both plant and animal ingredients are used commonly to formulate balanced diets for poultry. Although many changes have been occurred in the genetics, nutrition and feeding of modern meat chickens, free selection and indiscriminate uses of feedstuffs for the non-ruminant animal diets can be hazardous due to the emerging threat of diseases outbreak via animal by-products. Besides this, many other concerns of including animal ingredients in poultry diets such as high price, zoonotic effects, ban on uses, food safety and product quality etc., encourage the poultry integrators to use merely vegetable feedstuffs for diet formulation excluding animal by-products. Exclusive use of plant ingredients into poultry diets might offer potential beneficial effects for optimizing poultry products. Poultry industry may be benefitted by using these cheap sources of vegetable ingredients for quality, safe and organic meat production. After all, most poultry integrators are looking for alternative ways to streamline production. This is why, currently the search for and the appropriate use of vegetable ingredients demand more research to explore their potential uses in poultry diets including other farm animals. However, despite the advantages of using vegetable feedstuffs in poultry diets, there are some associated problems that can affect the performance of meat chickens. So our current study is focused on to review these limitations of meat chickens fed vegetable-based diet, which include productivity, feed utilization and nutrient digestibility, leg bone health and litter quality of meat chickens.
Akande K.E., Doma U.D., Agu H.O. and Adamu H.M. (2010). Major anti-nutrients found in plant protein sources. Pakistan J. Nutr. 9, 827-832.
Alali W.Q., Hofacre C.L., Mathis G.F. and Batal A.B. (2011). Effect of plant-based protein meal use in poultry feed on colonization and shedding of Salmonella heidlberg in broiler birds. J. Agric. Food Anal. Bacteriol. 1, 45-53.
Al-Kaiesy M.T., Abdul-Kader H.A., Mohammad M.H. and Saeed A.H. (2003). Effect of [gamma]-irradiation on anti-nutritional factors in broad bean. Radiat. Phys. Chem. 67, 493-496.
Al-Ostwani A.G., Hassan E., Hashem Y., Saadi M.A. and Adawi N. (2000). Using of barley and cotton seed meal in broiler diets in terms of reducing the cost. Al-Thawra J. Publications, Damascus, Syria.
Ammerman C.B. (1995). Methods for estimation of mineral bioavailability. Pp. 83-94 in Bioavailability of Nutrients for Animals: Amino Acids, Minerals and Vitamins. C.B. Ammerman, D.H. Baker and A.J. Lewis, Eds., Academic Press, New York.
Baghel R.P.S. and Netke S.P. (1987). Economic broiler rations based on vegetable proteins. Indian J. Anim. Nutr. 4, 24-27.
Barteczko J.A.N., Lasek O. and Augustyn R. (2008). Energy utilization and nutritive value of maize grain cultivars for broiler chickens. J. Cent. European Agric. 9, 209-211.
Bellaver C., Costa C.A.F., Avila V.S., Fraha M., Lima G.J.M.M., Hackenhar L. and Baldi P. (2005). Substitution of animal by-product meal by vegetable ingredients in diets for broilers. Ciênc. Rural. 35, 671-677.
Bilgili S.F., Alley M.A., Hess J.B. and Nagaraj M. (2006). Influence of age and sex on foot pad quality and yield in broiler chickens paw (feet) reared on low and high density diets. J. Appl. Poult. Res. 15, 433-441.
Black J.L. (2001). Variation in nutritional value of cereal grains across livestock species. Pp. 99-102 in Proc. Australian Poult. Sci. Symp.University of Sydney, Sydney, Australia.
Brickett K.E., Dahiya J.P., Classen H.L., Annett C.B. and Gomis S. (2007). The impact of nutrient density, feed form, and photoperiod on the walking ability and skeletal quality of broiler chickens. Poult. Sci. 86, 2117-2125.
Cancherini L., Junqueira O.M., Andreotti M.O., Barbosa M.J.B. and Oliveira M.C. (2004). Utilização de subprodutos de origem animal emdietas para frangos de corte com base no conceito de proteínasbruta e ideal, no período de 43 a 49 dias de idade. Rev. Brasileira de Zootec. 33, 2060-2065.
CEC. (2000). Council Regulation 2000/766 concerning certain protection measures with regard to transmissible spongiform encephalopathies and the feeding of animal protein. Off. J. European Comm. 43, 32-33.
Chiofalo B., Lo Presti V., Savoini G., D’Alessandro E., Chiofalo V. and Liotta L. (2011). Nucleotides in broiler chicken diet: effect on breast muscles quality. Czech J. Food Sci. 29, 308-317.
Cruz V.C., Ducatti C., Araújo P.C., Sartori J.R. and Piccinin A. (2009). Effect of poultry viscera meal inclusion in broiler diets in different rearing periods on performance, carcass and parts yields. Brazilian J. Poult. Sci. 11, 161-165.
Decuypere E., Bruggeman V., Barbato G.F. and Buyse J. (2003). Growth and reproduction problems associated with selection for increased broiler meat production. Pp. 13-28 in Poultry Genetics, Breeding and Biotechnology. W.M. Muir and S.E. Aggrey, Eds. CABI Publications, Oxon, United Kingdom.
Eichner G., Torres V.S.L., Coneglian C.A., Freitas J.L.B. and Oyarzabal O.A. (2007). Litter moisture and footpad dermatitis as affected by diets formulated on an all-vegetable basis or having the inclusion of poultry by-product. J. Appl. Poult. Res. 16, 344-350.
Francesch M. and Brufau J. (2004). Nutritional factors affecting excreta/litter moisture and quality. World’s Poult. Sci. 60, 64-75.
Francesch M. and Brufau J. (2003). Nutritional factors affecting excreta / litter moisture and quality. Pp. 266-273 inProc. 14th European Symp. Poult. Nutr. Norway.
Gatel F. (1994). Protein quality of legume seeds for non-ruminant animals: a literature review. Anim. Feed Sci. Technol. 45, 317-348.
Havenstein G.B., Ferket P.R., Scheidler S.E. and Larson B.T. (1994). Growth, livability and feed conversion of 1957 vs. 1991 broilers when fed ’’typical’’1957 and 1991 broilers diets. Poult. Sci. 73, 1785-1794.
Hossain M.A., Bhuiyan M.M. and Iji P.A. (2015). Nutritive value of vegetable protein diets for broiler chickens and selection of diets containing different vegetable or animal proteins. World’s Poult. Sci. J. 71, 15-26.
Hossain M.A., Islam A.F. and Iji P.A. (2011a). Performance of broiler chickens fed diets based on all-vegetable ingredients. Pp. 99-100 in Proc. Conf. Rec. Adv. Anim. Nutr. Australia. Armidale, Australia.
Hossain M.A., Islam A.F. and Iji P.A. (2011b). Effect of all-vegetable diets on leg abnormalities of broiler chickens. Australas Med. J. 4, 761.
Hossain M.A., Islam A.F. and Iji P.A. (2012a). Ileal nutrients digestibility, excreta characteristics and meat yield of broiler chickens on vegetable protein diets. World’s Poult. Sci. J. 68, 1134.
Hossain M.A., Islam A.F. and Iji P.A. (2012b). Growth responses and amino acids digestibility of broilers fed vegetable protein diets with or without supplemental enzymes. World’s Poult. Sci. J. 68, 1135.
Hossain M.A., Islam A.F. and Iji P.A. (2012c). Energy utilization and growth responses of broiler chickens on vegetable protein diets. Pp.276- 279in Proc. Australian Poult. Sci. Symp. Sydney, Australia.
Hossain M.A., Islam A.F. and Iji P.A. (2012d). Energy utilization and performance of broiler chickens raised on diets with vegetable proteins or conventional feeds. Asian J. Poult. Sci. 6, 117-128.
Hossain M.A., Islam A.F. and Iji P.A. (2013a). Growth responses, excreta quality, nutrient digestibility, bone development and meat yield traits of broiler chickens fed on vegetable or animal protein diets. South African J. Anim. Sci. 43, 208-218.
Hossain M.A., Islam A.F. and Iji P.A. (2014a). Effects of production phase on growth, enzyme activities and feed selection of broilers raised on vegetable protein diets. Asian-Australasian J. Anim. Sci. 27, 1593-1599.
Hossain M.A., Islam A.F. and Iji P.A. (2014b). Impact of microbial enzymes on growth performance, nutrient digestibility, tissue protein contents and endogenous enzymes activities of broiler chickens fed on vegetable protein diets. Int. J. Poult. Sci. 13, 555-561.
Hossain M.A., Islam M.M., Islam A.F. and Iji P.A. (2011c). Constraints to use of all-vegetable feed ingredients and strategies to improve such diets for poultry birds: a review. Bangladesh Res. Pub. J. 6, 120-135.
Kestin S.C., Su G. and Sorensen P. (1999). Different commercial broiler crosses have different susceptibilities to leg weakness. Poult. Sci. 78, 1085-1090.
Kristensen H.H. and Wathes C.M. (2000). Ammonia and poultry welfare: a review. World’s Poult. Sci. J. 56, 235-245.
Leeson S., Caston L. and Summers J.D. (1996). Broiler response to energy and protein dilution in the finisher diets. Poult. Sci. 75,522-528.
Mahmoudnia N., Boldaji F., Dastar B. and Zerehdaran S. (2011). Nutritional evaluation of poultry by-product meal in broiler chickens. Anim. Biol. Anim. Husband. Int. J. Biofl. Soc. 3, 55-61.
Murakami A.E., Oviedo-Rondon E.O., Martins E.N., Pereira M.S. and Scapinello C. (2001). Sodium and chloride requirements of growing broiler chickens (21 to 42 days of age) fed corn-soybean diets. Poult. Sci. 80, 289-294.
Noblet J. (2006). Energy evaluation of feeds for pigs: consequences on diet formulation and environment protection. Pp. 38-50 in Proc. Nutr. Conf. Lohmann Anim. Health. Cuxhaven, Germany.
NRC. (1994). Nutrient Requirements of Poultry, 9th Rev. Ed. National Academy Press, Washington, DC., USA.
Omenka R.O. and Anyasor G.N. (2010). Vegetable-based feed formulation on poultry meat quality. African J. Food Agric. Nutr. Dev. 10, 2001-2011.
Orban J.I., Adeola O. and Stroshine R. (1999). Microbial phytase in finisher diets of white Pekin ducks: effect on growth performance, plasma phosphorus concentration, and leg bone characteristics. Poult. Sci. 78, 366-377.
Parsons C.M., Potter L.M. and Brown R.D.R. (1980). True metabolizable energy and amino acid digestibility of dehulled soybean meal. Poult. Sci. 60, 2687-2696.
Pierson E.E.M., Potter L.M. and Brown R.D.R. (1980). Amino acid digestibility of dehulled soybean meal by adult turkeys. Poult. Sci. 59, 845-848.
Reddy V. and Eshwaraiah R.(1989). Effect of graded replacement of fishmeal with vegetable proteins in broiler starter rations. Indian J. Anim. Nutr. 6, 166-169.
Reddy V. and Eshwaraiah R.(1991). Performance of broilers on vegetable sources of proteins. Indian J. Anim. Nutr. 8, 301-304.
Rutherfurd S.M., Chung T.K. and Moughan P.J. (2002). The effect of microbial phytase on ileal phosphorus and amino acid digestibility in the broiler chicken. Br. Poult. Sci. 44, 598-606.
Sadagopan V.R., Shyam Sunder G. and Dange M. (1993). Response of broilers to vegetable protein sources combination diets. Indian J. Poult. Sci. 28, 249-252.
Singh K.S. and Panda B. (1992).Poultry Nutrition. Kalyani Publishers, New Delhi, India.
Smith A., Rose S.P., Well R.G. and Pirgozliev V. (2000). Effect of excess dietary sodium, potassium, calcium, and phosphorus on excreta moisture of laying hens. Br. J. Nutr. 41, 598-607.
Smits C.H.M. and Annison G. (1996). Non-starch polysaccharides in broiler nutritio-towards a physiologically valid approach to their determination. World’s Poult. Sci. J. 52, 203-221.
Svihus B., Klqvstad K.H., Perez V., Zimonja O., Sahlstrom S., Schuller R.B., Jeksrud W.K. and Prestlqkken E.A. (2004). Physical and nutritional effect of pelleting broiler chickens diets made from wheat ground to different coarseness’s by the use of a roller mill and hammer mill. Anim. Feed Sci. Technol. 117, 281-293.
Tacon A.G.J. (1992). Nutritional Fish Pathology: Morphological Signs of Nutrient Deficiency and Toxicity in Farmed Fish. FAO Fisheries Technical Paper No. 330, FAO, Rome, Italy.
Vander Klis J.D., Kwakernaak C., Jansman A. and Blok M. (2010). Energy in poultry diets: adjusted AME or net energy. Pp. 44-49 in Proc. Australian Poult. Sci. Symp. Sydney, Australia.
Vieira S.L. and Lima I.L. (2005). Live performance, water intake and excreta characteristics of broiler fed all vegetable diets based on corn and soybean meal. Int. J. Poult. Sci. 4, 365-368.
Vieira S.L., Lima I.L., Borges C.A.Q., Fernandes L.M. and Quadros V.R. (2003). Broiler utilization of vegetarian diets. Poult. Sci. 82, 38-41.
Warenham C.N., Wiseman J. and Cole D.J.A. (1994). Processing and anti-nutritive factors in feedstuffs. Pp. 141-167 in Principles of Pig Science. D.J.A. Cole, J. Wiseman and M.A. Varley Eds, Nottingham Press, Nottingham, United Kingdom.
Wiseman J. and Lewis C.E. (1998). Influence of dietary energy and nutrient concentration on the growth of body weight and carcass components of broiler chickens. J. Agric. Sci. 131, 361-371.