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The effect of replacing soya bean oil with glycerol in diets on performance, egg quality and egg fatty acid composition in laying hens

Published online by Cambridge University Press:  14 September 2015

Y. Cufadar*
Affiliation:
Department of Animal Science, Faculty of Agriculture, Selçuk University, 42075, Konya, Turkey
R. Göçmen
Affiliation:
Department of Animal Science, Faculty of Agriculture, Selçuk University, 42075, Konya, Turkey
G. Kanbur
Affiliation:
Department of Animal Science, Faculty of Agriculture, Selçuk University, 42075, Konya, Turkey
*
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Abstract

The objective of this experiment was to replace soya bean oil with glycerol in laying hen diets and assess the change’s effect on performance, parameters of egg quality and the egg fatty acid profile. A total of 60 44-week-old Hy-Line W36 laying hens were distributed according to a completely randomised experimental design into four treatments consisting of glycerol substitutions for soya bean oil dietary at varying inclusion levels (0%, 25%, 50% and 75%), with five replicates of three birds each. Dietary treatments had no significant effect on BW change, egg production, feed intake, feed conversion ratio, egg weight and egg mass of laying hens. The inclusion of glycerol in the diet of laying hens had no significant effect on egg specific gravity, eggshell breaking strength, eggshell weight, eggshell thickness, egg shape index, albumen index, yolk index, haugh unit, albumen pH, yolk pH and egg yolk colour values. The inclusion of glycerol in the diet of laying hens had no significant effect on palmitic, palmitoleic, stearic, oleic and linolenic acid contents of the egg yolk. The linoleic acid and polyunsaturated fatty acid contents of the egg yolk significantly decreased with the higher levels of dietary glycerol supplementation (P<0.05). The results of this study show that it is possible to replace 75% of soya bean oil (4.5% in diet) with glycerol.

Type
Research Article
Copyright
© The Animal Consortium 2015 

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References

Abd-Elsamee, MO, Abdo, ZMA, El-Manylawi, MAF and Salim, IH 2010. Use of crude glycerin in broiler diets. Egyptian Poultry Science Journal 30, 281295.Google Scholar
Boso, KMO, Murakami, AE, Duarte, CRA, Nascimento, GR, Matumoto-Pintro, PT and Ospina-Rojas, IC 2013. Fatty acid profile, performance and quality of eggs from laying hens fed with crude vegetable glycerine. International Journal of Poultry Science 12, 341347.Google Scholar
Carpenter, KJ and Clegg, KM 1956. The metabolizable energy of poultry feeding stuffs in relation to their chemical composition. Journal of the Science of Food and Agriculture. 7, 4551.Google Scholar
Cerrate, S, Yan, F, Wang, Z, Coto, C, Sacakli, P and Waldroup, PW 2006. Evaluation of glycerine from biodiesel production as a feed ingredient for broilers. International Journal of Poultry Science 5, 10011007.Google Scholar
Coşkun, B, Şehu, A, Küçükersan, S and Köksal, BH 2007. Use of biodiesel by-product glycerol in poultry rations. IV. National Animal Nutrition Congress, 21–24 June 2007, Bursa, Turkey, pp. 24–31.Google Scholar
Dozier, WA, Kerr, BJ and Branton, SL 2011. Apparent metabolizable energy of crude glycerin originating from different sources in broiler chickens. Poultry Science 90, 25282534.Google Scholar
Duarte, CRA, Murakami, AE, Boso, KMO, Eyng, C, Ospina-Rojas, IC and Matumoto-Pintro, PT 2014. Mixed crude glycerin in laying hen diets: live performance and egg quality and fatty acid profile. Brazilian Journal of Poultry Science 16, 351358.Google Scholar
Erol, H, Yalçın, S, Midilli, M and Yalçın, S 2009. The effects of dietary glycerol on growth and laying performance, egg traits and some blood biochemical parameters in quails. Revue de Médecine Vétérinaire 160, 469476.Google Scholar
Holder, DP and Bradford, MV 1979. Relationship of specific gravity of chicken eggs to number of cracked eggs and percent shell. Poultry Science 58, 250251.CrossRefGoogle Scholar
ISO 1978. Animal and vegetable fats and oils – preparation of methyl esters of fatty acids. International Organization for Standardization, Method ISO 5509, Geneva, Switzerland.Google Scholar
Jung, B and Batal, AB 2011. Nutritional and feeding value of crude glycerin for poultry 1. Nutritional value of crude glycerin. Journal of Applied Poultry Research 20, 162167.Google Scholar
Lammers, PJ, Kerr, BJ, Honeyman, MS, Staldre, K, Dozier, WA, Weber, TE, Kidd, MT, Bregendahl, K 2008. Nitrogen corrected apparent metabolizable energy value of crude glycerol for laying hens. Poultry Science 87, 104107.Google Scholar
Lima, EM, Rodrigues, PB, Alvarenga, RR, Bernardino, VM, Makiyama, L, Lima, RR, Cantarelli, VS and Zangerônimo, MG 2013. The energy value of biodiesel glycerine products fed to broilers at different ages. Journal of Animal Physiology and Animal Nutrition 97, 896903.CrossRefGoogle ScholarPubMed
Milinsk, MC, Murakami, AE, Gomes, STM, Matsushita, M and De Souza, NE 2003. Fatty acid profile of egg yolk lipids from hens fed diets rich in n-3 fatty acids. Food Chemistry 83, 287292.Google Scholar
Minitab 2000. Minitab reference manual (release 13.0) Minitab Inc. State College, Pennsylvania, USA.Google Scholar
National Research Council (NRC) 1994. Nutrient requirements of poultry, 9th revised edition. National Academy Press, Washington, DC, USA.Google Scholar
Nemeth, K, Zsedely, E and Schmidt, J 2013. Nitrogen-corrected apparent metabolizable energy value of crude glycerol for laying hens. Annals of Animal Science 13, 829836.Google Scholar
Oliveira, DD, Baião, NC, Cançado, SV, Grimaldi, R, Souza, MR, Lara, LJC and Lana, AMQ 2010. Effects of lipid sources in the diet of laying hens on the fatty acid profiles of egg yolks. Poultry Science 89, 24842490.Google Scholar
Omidi, M, Rahimi, S and Torshizi, MAK 2015. Modification of egg yolk fatty acids profile by using different oil sources. Veterinary Research Forum 6, 137141.Google Scholar
Petrović, M, Gačić, M, Karačić, V, Gottstein, Z, Mazija, H and Medić, H 2012. Enrichment of eggs in n-3 polyunsaturated fatty acids by feeding hens with different amount of linseed oil diet. Food Chemistry 135, 15631568.Google Scholar
Romero, C, Brenes, M, Garcia, P and Garrido, A 2002. Hydroxytyrosol 4-β-D-glucoside, an important phenoliccompound in olive fruits and derived products. Journal of Agricultural and Food Chemistry 50, 38353839.CrossRefGoogle Scholar
Simon, A, Bergner, H and Schwabe, M 1996. Glycerol feed ingredient for broiler chickens. Archives of Animal Nutrition 49, 103112.Google Scholar
Sosin, E, Borowiec, F, Strzetelski, J and Smulikowska, S 2006. The effect of feeding regular or low α-linolenic acid linseed on the fatty acid composition of egg yolks. Journal of Animal and Feed Sciences 15, 641650.Google Scholar
Suchy, P, Strakova, E, Kroupa, L and Herzig, I 2011. Pure and raw glycerol in the diet of broiler chickens, its effect on the production parameters and slaughter value. Archiv Tierzucht 54, 308318.Google Scholar
Suchy, P, Strakova, E, Kroupa, L and Herzig, I 2012. The effect of replacing soybean oil with glycerol in feeding mixtures designed for utility layers on their production and state of health. Archiv Tierzucht 55, 184193.Google Scholar
Swiatkiewicz, S and Koreleski, J 2009. Effect of crude glycerin level in the diet of laying hens on egg performance performance and nutrient utilization. Poultry Science 88, 615619.CrossRefGoogle ScholarPubMed
Woods, VB and Fearon, AM 2009. Dietary sources of unsaturated fatty acids for animals and their transfer into meat, milk and eggs: a review. Livestock Science 126, 120.Google Scholar
Yalçın, S, Erol, H, Özsoy, B, Onbasilar, I, Yalçın, S and Üner, A 2010. Effects of glycerol on performance, egg traits, some blood parameters and antibody production to SRBC of laying hens. Livestock Science 129, 129134.CrossRefGoogle Scholar
Yannakopoulos, A, Tserveni-Gousi, A and Christaki, E 2005. Enhanced egg production in practice: the case of bio-omega-3 egg. International Journal of Poultry Science 4, 531535.Google Scholar