Hazim J. Al-Daraji
Department of Animal Resources, College of Agriculture, University of Baghdad, Baghdad, Iraq
Ali S. Al-Hassani
Department of Animal Resources, College of Agriculture, University of Baghdad, Baghdad, Iraq
H. A. Al-Mashadani
Department of Animal Resources, College of Agriculture, University of Baghdad, Baghdad, Iraq
W. K. Al-Hayani
Department of Animal Resources, College of Agriculture, University of Baghdad, Baghdad, Iraq
H. A. Mirza
Department of Animal Resources, College of Agriculture, University of Baghdad, Baghdad, Iraq
ABSTRACT
The objective of this experiment was to determine the effects of dietary supplementation with different fat sources on blood parameters of Japanese quail (Coturnix coturnix japonica). Eighty four 7-week old laying quail were randomly assigned to 4 treatment groups (21 birds per group) with 3 replicates for each treatment group and fed for three months on a commercial diet supplemented with 3% of either sunflower oil (T1), flax oil (T2), corn oil (T3) or fish oil (T4). The birds received water and feed ad libitum during the experiment. During the last month of experiment blood samples were collected fortnightly from each bird. The first blood samples collection was used to determine fresh blood parameters, while the second blood samples collection was used after pooled blood samples for each replicate of treatment group to determine serum chemistry traits. Dietary supplementation with 3% fish oil (T4) caused a significant (p<0.05) increase in erythrocyte number, Packed Cell Volume (PCV), hemoglobin concentration, Mean Corpuscular Values (MCV), Mean Corpuscular Hemoglobin (MCH), Mean Corpuscular Hemoglobin Concentration (MCHC), thrombocyte number and leukocyte number and serum total protein, albumen, globulin, glucose, High Density Lipoprotein (HDL), Alkaline Phosphatase (ALP), calcium and phosphorus concentration, followed by the results of flax oil (T2), whereas sunflower oil (T1) and corn oil (T3) revealed the lowest values respecting these traits. However, adding sunflower (T1) and corn oil (T3) to the diet of laying quail resulted in significant (p<0.05) increase in percentage of reticulocytes and Heterophil to Lymphocyte (H/L) ratio and serum total cholesterol, triglycerides, Low Density Lipoprotein (LDL), uric acid, creatinine, Aspartate Aminotransferase (AST) and alanine aminotransferase (ALT), followed by the results of the flax oil (T2), while fish oil (T4) exhibited the lowest means with relation to these traits. From this experiment it is concluded that dietary fish and flax oils at inclusion level of 3% resulted in significant improvement in blood profile of laying quail. Consequently, fish and flax oils can be added during the laying period to the diet of Japanese quail to enhance general physiological status of these birds.
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How to cite this article
Hazim J. Al-Daraji, Ali S. Al-Hassani, H. A. Al-Mashadani, W. K. Al-Hayani and H. A. Mirza, 2010. Effect of Dietary Supplementation with Sources of Omega-3 and Omega-6 Fatty Acids on Certain Blood Characteristics of Laying Quail. International Journal of Poultry Science, 9: 689-694.
DOI: 10.3923/ijps.2010.689.694
URL: https://scialert.net/abstract/?doi=ijps.2010.689.694
DOI: 10.3923/ijps.2010.689.694
URL: https://scialert.net/abstract/?doi=ijps.2010.689.694
REFERENCES
- Al-Daraji, H.J., H.A. Al-Mashadani, W.K. Al-Hayani, H.A. Mirza and A.S. Al-Hassani, 2010. Effect of dietary supplementation with different oils on productive and reproductive performance of quail. Int. J. Poult. Sci., 9: 429-435.
CrossRefDirect Link - Arshami, J., M. Pilevar and M. Elahi, 2010. Effects of long-term feeding flaxseed on growth and carcass parameters, ovarian morphology and egg production of pullets. Int. J. Poult. Sci., 9: 82-87.
CrossRefDirect Link - Basmacoglu, H., M. Cabuk, K. Unal, K. Ozkan, S. Akkan and H. Yalcn, 2003. Effect of dietary fish oil and flax seed on cholesterol and fatty acid composition of egg yolk and blood parameters of laying hens. South Afr. J. Anim. Sci., 33: 266-273.
Direct Link - Bhatnager, D. and P.N. Durrington, 2003. Omega-3 fatty acids: Their role in the prevention and treatment of atherosclerosis related risk factors and complications. Int. J. Clin. Pract., 57: 305-314.
PubMedDirect Link - Boudreau, M.D., P.S. Chanmugam, S.B. Hart, S.H. Lee and D.H. Hwang, 1991. Lack of dose response by dietary n-3 fatty acids at a constant ratio of n-3 to n-6 fatty acids in suppressing eicosanoid biosynthesis from arachidonic acid. Am. J. Clin. Nutr., 54: 111-117.
Direct Link - Bozkurt, M., M. Cabuk and A. Alcicek, 2008. Effect of dietary fat type on broiler breeder performance and hatching egg characteristics. J. Appl. Poult. Res., 17: 47-53.
CrossRefDirect Link - Broughton, K.S., J. Whelan, I. Hardardottir and J.E. Kinsella, 1991. Effect of increasing the dietary (n-3) to (n-6) polyunsaturated fatty acid ratio on murine liver and peritoneal cell fatty acids and eicosanoid formation. J. Nutr., 121: 155-164.
PubMedDirect Link - Chanmugam, P., M. Boudreau, T. Boutte, R.S. Park, J. Hebert, L. Berrio and D.H. Hwang, 1992. Incorporation of different types of n-3 fatty acids into tissue lipids of poultry. Poult. Sci., 71: 516-521.
CrossRefPubMedDirect Link - Friedman, A. and D. Sklan, 1995. Effect of dietary fatty acids on antibody production and fatty acid composition of lymphoid organs in broiler chicks. Poult. Sci., 74: 1463-1469.
PubMed - Fritsche, K.L., N.A. Cassity and S.C. Huang, 1992. Dietary (n-3) fatty acid and vitamin E interactions in rats: Effect on vitamin E status, immune cell prostaglandin E production and primary antibody response. J. Nutr., 122: 1009-1018.
PubMedDirect Link - Hibbeln, J.R., L.R.G. Nieminen, T.L. Blasbalg, J.A. Riggs and W.E.M. Lands, 2006. Healthy intakes of n-3 and n-6 fatty acids: Estimations considering worldwide diversity. Am. J. Clin. Nutr., 83: 1483S-1493S.
Direct Link - Korver, D.R. and K.C. Klasing, 1997. Dietary fish oil alters specific and inflammatory immune responses in chicks. J. Nutr., 127: 2039-2046.
Direct Link - Lewis, N.M., S. Seburg and N.L. Flanagan, 2000. Enriched eggs as a source of N-3 polyunsaturated fatty acids for humans. Poult. Sci., 79: 971-974.
CrossRefDirect Link - Meyer, B.J., N.J. Mann, J.L. Lewis, G.C. Milligan, A.J. Sinclair and P.R. Howe, 2003. Dietary intakes and food sources of omega-6 and omega-3 polyunsaturated fatty acid. Lipids, 38: 391-398.
CrossRefDirect Link - NRC., 1994. Nutrient Requirements of Poultry. 9th Edn., National Academy Press, Washington, DC., USA., ISBN-13: 9780309048927, Pages: 176.
Direct Link - Okuyama, H., Y. Ichikawa, Y. Sun, T. Hamazaki and W.E.M. Lands, 2007. Omega 3 fatty acids effectively prevent coronary heart disease and other late-onset diseases: The excessive linoleic acid syndrome. World Rev. Nutr. Diet, 96: 83-103.
PubMed - Schmidt, E.B., J.O. Pedersen, K. Varming, E. Ernst, C. Jersild, N. Grunnet and J. Dyerberg, 1991. n-3 fatty acids and leukocyte chemotaxis. Effects in hyperlipidemia and dose-response studies in healthy man. Arteriosclerosis Thrombosis, 11: 429-435.
Direct Link - Simopoulos, A.P., 2000. Human requirement for N-3 polyunsaturated fatty acids. Poult. Sci., 79: 961-970.
PubMedDirect Link - Whelan, J., K.S. Broughton and J.E. Kinsella, 1991. The comparative effects of dietary alpha-linolenic acid and fish oil on 4- and 5 series leukotriene formation in vivo. Lipids, 26: 119-126.
PubMedDirect Link