H.A. Zakaria
Department of Animal Production, Faculty of Agriculture, The University of Jordan, Amman, 11942, Jordan
A. Hammad
Department of Animal Production, Faculty of Agriculture, The University of Jordan, Amman, 11942, Jordan
A. Alfataftah
Department of Animal Production, Faculty of Agriculture, The University of Jordan, Amman, 11942, Jordan
H.H. Titi
Department of Animal Production, Faculty of Agriculture, The University of Jordan, Amman, 11942, Jordan
ABSTRACT
An experiment was conducted to evaluate the effect of different levels of dry fat (dried palm oil) as an energy source and two feed forms (mash and pelleted)used in the finisher stage on growth performance, carcass traits, meat quality and blood serum metabolites of broiler chickens. A total of 450 straight-run Lohmann broiler chicks reared in an open-sided house and fed corn-soybean meal based diet with SBM oil as a source of energy from 1-28d of age. On d 28 birds were randomly assigned to 6 dietary treatments of 3 different levels of dry fat (2, 4 and 6%) and 2 forms of feed in 3 x 2 factorial arrangements. Each treatment has 3 replicates with 25 birds each (75/treatment). Experiment lasted for 42d. Processing yields and cut-ups were determined on d 42 in addition to meat quality traits and serum lipid levels. The different% of dietary fat did not improve growth performance with the interaction of fat level and feed form. But it was highly significant (P<0.05) with pelleted feed. Also significant higher difference (P<0.05) was shown in heart% with 2% fat and gizzard% between mash and pelleted feed (1.44 vs. 1.19) and with 2% fat mash feed. Breast% had a higher significant result (P<0.05) in mash feed. Abdominal fat% at 4% fat was significantly lower than 2 and 6%. Different significance were shown in meat analysis such as DM, fat and ash% with the different levels of fat and forms of feed. No significant differences were shown in blood parameters such as LDL, HDL, Cholesterol and Triglycerides.
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How to cite this article
H.A. Zakaria, A. Hammad, A. Alfataftah and H.H. Titi, 2013. Replacing Soybean Oil in the Finisher Phase with Different Levels of Dry Protected
Plant Fat and Two Forms of Feed and their Effect on Performance, Carcass Quality and Blood Parameters of Broilers. International Journal of Poultry Science, 12: 37-44.
DOI: 10.3923/ijps.2013.37.44
URL: https://scialert.net/abstract/?doi=ijps.2013.37.44
DOI: 10.3923/ijps.2013.37.44
URL: https://scialert.net/abstract/?doi=ijps.2013.37.44
REFERENCES
- AOAC, 2002. Official Methods of Analysis. 15th Edn., Association Official Analytical Chemistry, Arlington, VA.
Direct Link - Agah, M.J. and H. Norollahi, 2008. Effect of feed form and duration time in growing period on broilers performance. Int. J. Poult. Sci., 7: 1074-1077.
CrossRefDirect Link - Bolukbasi, S.C., M.S. Aktas and M. Guzel, 2005. The effect of feed regimen on ascites induced by cold temperatures and growth performance in male broilers. Int. J. Poult. Sci., 4: 326-329.
CrossRefDirect Link - Calet, C., 1965. The relative value of pellets versus mash and grain in poultry nutrition. World's Poult. Sci. J., 21: 23-52.
Direct Link - Choi, J.H., B.S. So, K.S. Ryu and S.L. Kang, 1986. Effects of pelleted or crumbled diets on the performance and the development of the digestive organs of broilers. Poult. Sci., 65: 594-597.
CrossRefPubMedDirect Link - Danicke, S., W. Bottcher, H. Jeroch, J. Thielebein and O. Simon, 2000. Replacement of soybean oil with tallow in rye-based diets without xylanase increases protein synthesis in small intestine of broilers. J. Anim. Nut., 30: 827-834.
Direct Link - Engberg, R.M., M.S. Hedemann and B.B. Jensen, 2002. The influence of grinding and pelleting of feed on the microbial composition and activity in the digestive tract of broiler chickens. Br. Poult. Sci., 43: 569-579.
CrossRefPubMedDirect Link - Fuller, H.L. and M. Rendon, 1979. Energetic efficiency of corn oil and poultry fat at different levels in broiler diets. Poult. Sci., 58: 1234-1238.
CrossRefDirect Link - Greenwood, M.W., K.R. Cramer, P.M. Clark, K.C. Behnke and R.S. Beyer, 2004. Influence of feed form on dietary lysine and energy intake and utilization of broilers from 14 to 30 days of age. Int. J. Poult. Sci., 3: 189-194.
CrossRefDirect Link - Harms, R.H., G.B. Russell and D.R. Sloan, 2000. Performance of four strains of commercial layers with major changes in dietary energy. J. Applied Poult. Res., 9: 535-541.
CrossRefDirect Link - Shahryar, H.A., R. Salamatdoust-Nobar, A. Lak and A.R. Lotfi, 2011. Effect of dietary supplemented canola oil and poultry fat on the performance and carcass characterizes of broiler chickens. Curr. Res. J. Biol. Sci., 3: 388-392.
Direct Link - Hulan, H.W., F.G. Proudfoot and D.M. Nash, 1984. The effects of different dietary fat sources on general performance and carcass fatty acid composition of broiler chickens. Poult. Sci., 63: 324-332.
CrossRefDirect Link - Hussein, A.S., A.H. Cantor, A.J. Pescatore and T.H. Johnson, 1996. Effect of dietary protein and energy levels on pullet development. Poult. Sci., 75: 973-978.
CrossRefPubMedDirect Link - Jahan, M.S., M. Asaduzzaman and A.K. Sarkar, 2006. Performance of broiler fed on mash, pellet and crumble. Int. J. Poult. Sci., 5: 265-270.
CrossRefDirect Link - Jafarnejad S., M. Farkhoy, M. Sadegh and A.R. Bahonar, 2010. Effect of crumble-pellet and mash diets with different levels of dietary protein and energy on the performance of broilers at the end of the third week. Vet. Med. Int., Vol. 2010.
CrossRefDirect Link - Leeson, S., J.D. Summers and L.J. Caston, 1991. Diet dilution and compensatory growth in broilers. Poult. Sci., 70: 867-873.
CrossRefPubMedDirect Link - Leeson, S., L. Caston and J.D. Summers, 1996. Broiler response to energy or energy and protein dilution in the finisher diet. Poult. Sci., 75: 522-528.
CrossRefPubMedDirect Link - Leeson, S., L.J. Caston and J.D. Summers, 1999. Performance of male broilers to 70 days when fed diets of varying nutrient density as mash or pellets. J. Applied Poult. Res., 8: 452-464.
Direct Link - Lopez-Ferrer, S., M.D. Baucells, A.C. Barroeta and M.A. Grashorn, 1999. N-3 enrichment of chicken meat using fish oil: Alternative substitution with rapeseed and linseed oils. Poult. Sci., 78: 356-365.
CrossRefPubMedDirect Link - Lopez-Ferrer, S., M.D. Baucells, A.C. Barroeta and M.A. Grashorn, 2001. N-3 enrichment of chicken meat. 1. Use of very long-chain fatty acids in chicken diets and their influence on meat quality: Fish oil. Poult. Sci., 80: 741-752.
Direct Link - Lopez-Ferrer, S., M.D. Baucells, A.C. Barroeta, J. Galobart and M.A. Grashorn, 2001. N-3 enrichment of chicken meat. 2. Use of precursors of long-chain polyunsaturated fatty acids: Linseed oil. Poult. Sci., 80: 753-761.
CrossRefPubMedDirect Link - Nahashon, S.N., N. Adefope, A. Amenyenu and D. Wright, 2005. Effects of dietary metabolizable energy and crude protein concentrations on growth performance and carcass characteristics of French guinea broilers. Poult. Sci., 84: 337-344.
CrossRefDirect Link - NRC., 1994. Nutrient Requirements of Poultry. 9th Edn., National Academy Press, Washington, DC., USA.
Direct Link - Nir, I., G. Shefet and Y. Aaroni, 1994. Effect of particle size on performance. 1. corn. Poult. Sci., 73: 45-49.
PubMed - Pinchasov, Y. and I. Nir, 1992. Effect of dietary polyunsaturated fatty acid concentration on performance, fat deposition and carcass fatty acid composition in broiler chickens. Poult. Sci., 71: 1504-1512.
PubMedDirect Link - Pesti, G.M., R.I. Bakalli, M. Qiao and K.G. Sterling, 2002. A comparison of eight grades of fat as broiler feed ingredients. Poult. Sci., 81: 382-390.
PubMedDirect Link - Ouart, M. D. B.L. Damron, F.G. Martin, R.B. Christmas and D.R. Sloan, 1992. Effects of poultry fat and yellow grease on broiler performance and profitability. Poult. Sci., 71: 821-828.
Direct Link - Quentin, M., I. Bouvarel and M. Picard, 2004. Short and long-term effects of feed form on fast and slow-growing broilers. J. Appl. Poult. Res., 13: 540-548.
Direct Link - Salmon, R.E., H.L. Classen and R.K. McMillan, 1983. Effect of starter and finisher protein on performance, carcass grade and meat yield of broilers. Poult. Sci., 62: 837-845.
CrossRef - Scaife, J.R., J. Moyo, H. Galbraith, W. Michie and V. Campbell, 1994. Effect of different dietary supplemental fats and oils on the tissue fatty acid composition and growth of female broilers. Br. Poult. Sci., 35: 107-118.
CrossRefPubMedDirect Link - Siegel, S.H., M.S. Hammad, M.R. Leach, G.F. Barbato, H.M. Green and L.H. Marks, 1995. Dietary cholesterol and fat saturation effects on plasma esterified and unesterified cholesterol in selected lines of Japanese quail females. Poult. Sci., 74: 1370-1380.
CrossRef - Skinner-Noble, D.O., L.J. McKinney and R.G. Teeter, 2005. Predicting effective caloric value of nonnutritive factors: III. Feed form affects broiler performance by modifying behavior patterns. Poult. Sci., 84: 403-411.
Direct Link - Smink, W., W.J.J. Gerrits, R. Hovenier, M.J.H. Geelen, M.W.A. Verstegen and A.C. Beynen, 2010. Effect of dietary fat sources on fatty acid deposition and lipid metabolism in broiler chickens. Poult. Sci., 11: 2432-2440.
CrossRefPubMedDirect Link - Tabeidian, A., G.H. Sadeghi and J. Pourreza, 2005. Effect of dietary protein levels and soybean oil supplementation on broiler performance. Int. J. Poult. Sci., 4: 799-803.
CrossRefDirect Link - Young, R.J., 1961. The energy value of fats and fatty acids for chicks I. Metabolizable energy. Poult. Sci., 40: 1225-1235.
CrossRef