International Journal on Advanced Science, Engineering and Information Technology

The goal of this study was to determine whether the physicochemical properties of egg yolk powders produced from eggs from different types of bird (Fighting chicken, Kampung chicken, Serama chicken, Leghorn chicken, Guineafowl, and Turkey) differ from each other and from those of commercial egg yolk powder. The powders were analysed to determine yield; proximate composition; colour, solubility; water holding capacity (WHC); and emulsion activity and stability. Egg yolk powders were prepared by separating the egg yolk manually followed by blast freezing and freeze drying. The weight of the egg ranged from 22.16 g for Serama to 66.25 g for Turkey. The lowest yield of egg yolk liquid was found in Leghorn egg (27.63) and highest in Serama egg (44.31).  Egg yolk powder yield was also lowest for Leghorn eggs (12.85%) , followed by Turkey (15.85%), Guineafowl (16.22%), Kampung (16.48%), Fighting (16.62%), and the highest for Serama (18.92%). All parameters studied except WHC differed significantly (p < 0.05) among at least some of the different egg yolk powders. Egg yolk powder from Serama chicken had the highest protein content (40.77%), lowest fat content (51.96%), highest solubility (20.20 ^oBrix), and lowest WHC (79.78 %). Egg yolk powder from Fighting chicken had the highest emulsion activity (54.13%) and that from Leghorn chicken had the highest emulsion stability (48.41%). Egg yolk powder from Guineafowl had the highest yellowness intensity (72.21), whereas the value was lowest (35.84) for commercial egg yolk powder. In conclusion, physicochemical properties of egg yolk powder depend on the source of the eggs.

Food and Agriculture Organization of the United Nations. Egg Facts, Available from http://www.fao.org/resources/infographics/ infographics-details/en/c/284410/ [Accessed 22nd April 2016].

Surai, P. F. and N. H. C. Sparks. Designer Eggs: From Improvement of Egg Composition to Functional Food. Trends in Food Science & Technology, 12(1): 7-16. 2001.

Rannou, C., D. Queveau, V. Beaumal, E. David-Briand, C. Le Borgne, A. Meynier, M. Anton, C. Prost, P. Shuck and C. Loisel. Effect of Spray-Drying and Storage Conditions on the Physical and Functional Properties of Standard and n− 3 Enriched Egg Yolk Powders. Journal of Food Engineering, 154: 58-68. 2015.

Kiosseoglou, V. Egg Yolk Protein Gels and Emulsions. Current Opinion in Colloid & Interface Science, 8(4): 365-370. 2003.

Caboni, M. F., E. Boselli, M. C. Messia, V. Velazco, A. Fratianni, G. Panfili, and E. Marconi. Effect of Processing and Storage on the Chemical Quality Markers of Spray-Dried Whole Egg. Food Chemistry, 92(2): 293-303. 2005.

Jaekel, T., K., Dautel and W. Ternes. Preserving Functional Properties of Hen’s Egg Yolk During Freeze-Drying. Journal of Food Engineering, 87(4): 522-526. 2008.

Guardiola, F., R. Codony, D. Miskin, M. Rafecas, and J. Boatella. Oxysterol Formation in Egg Powder and Relationship with Other Quality Parameters. Journal of Agricultural and Food Chemistry, 43(7): 1903-1907. 1995.

Lili, L., W. Huan, R. Guangyue, D. Xu, L, Dan and Y. Guangjun. Effects of Freeze-Drying and Spray Drying Processes on Functional Properties of Phosphorylation of Egg White Protein. International Journal of Agricultural and Biological Engineering, 8(4): 116-123. 2015.

Obara, A., M. Obiedziński and T. Kołczak. The Effect of Water Activity on Cholesterol Oxidation in Spray-Dried and freeze-dried egg powders. Food Chemistry, 95(2): 173-179. 2006.

AOAC. Official Methods of Analysis of AOAC International 17th edition Arlington: AOAC International. 2000.

Wong, P. Y. Y. and D. D. Kitts. A Comparison of the Buttermilk Solids Functional Properties to Nonfat Dried Milk, Soy Protein Isolate, Dried Egg White, and Egg Yolk Powders. Journal of Dairy Science, 86(3), 746-754. 2003.

Pokora, M., E. Eckert, A. Zambrowicz, Å. Bobak, M. SzoÅ‚tysik, A. DÄ…browska and T. Trziszka. Biological and Functional Properties of Proteolytic Enzyme-Modified Egg Protein by-Products. Food Science & Nutrition, 1(2): 184–195. 2013.

Wang, J. C. and J. E. Kinsella. Functional Properties of Novel Proteins: Alfalfa Leaf Protein. Journal of Food Science, 41(2): 286-292. 1976.

Malaysian Department of Veterinary Services. Livestock Breeding Policy 2013. Available from World Wide Web: http://www.dvs.gov.my/dvs/resources /user_1/DVS%20pdf/Livestock_Breeding_Policy.pdf [Accessed 4th May 2016].

Domestic Animal Diversity Information System. Ayam Kampong / Malaysia. Available from World Wide Web: http://dad.fao.org/cgi-bin/EfabisWeb.cgi?sid= 0b1613ebf16355cf65f6a 05b9a65fe25,reportsreport8a_50005484 [Accessed 13th May 2016].

Serama Speciaal Club. Serama Ras Standard. Available from http://www.seramaspeciaalclub.nl/pagina14.html. [Accessed 13th May 2016].

Sujata, Y. Egg powder and its quality control. Online International Interdisciplinary Research Journal, 4(1): 204-219. 2014.

Stadelman, W. J., and O. J. Cotterill. Egg Science and Technology Fourth Edition. New York: Haworth Food Products Press. 1995.

Aditya, J. Egg and Egg Products (Doctoral Dissertation, University of Mysore). Available from World Wide Web: http://docslide.us/documents/egg-and-egg-products.html. [Accessed 13th May 2016].

Malaysian Food Act and Regulation (2012). Food Act 1983 (Act 281) & Regulations. International Law Book Services. Kuala Lumpur, Malaysia.

Smith, A. F. The Turkey: An American Story. University of Illinois Press. 2006.

UNECE, United Nations Economic Commission for Europe. Standard EGG-2 Concerning Marketing and Commercial Quality Control of Egg Products. United Nations. New York and Geneva. 2010.

Froning, G. W. Egg Products Industry and Future Perspectives. Egg Bioscience and Biotechnology, 307-320. 2008.

United States Department of Agriculture. National Nutrient Database for Standard Reference Release 28: Basic Report: 01137, Egg, yolk, dried Available from World Wide Web: https://ndb.nal.usda.gov/ndb/foods/ show/126?fgcd=Dairy+and+Egg+ Products &manu=&lfacet=&format=&count=&max=35&offset=105&sort=&qlookup= [Accessed 5th May 2016].

Wu, J. Eggs and Egg Products Processing. pp. 437-455. In Food Processing: Principles and Applications, Second Edition. Edited by Stephanie Clark, Stephanie Jung, and Buddhi Lamsal. John Wiley & Sons, Ltd. 2014.

Wenzel, M., I., Seuss-Baum and E. Schlich, Influence of Pasteurization, Spray-and Freeze-Drying, and Storage on the Carotenoid Content in Egg Yolk. Journal of Agricultural and Food Chemistry, 58(3): 1726-1731. 2010.

Sinivir A. Egg Yolk Colour. Available from World Wide Web: http://www.sinivir.com/eggyolk.html [Accessed 4th April 2017].

Ayadi, M. A., M. Khemakhem, H. Belgith and H. Attia, Effect of Moderate Spray Drying Conditions on Functionality of Dried Egg White and Whole Egg. Journal of Food Science, 73(6): E281-E287. 2008.

Ndife, J., C. Ejikem, and N. Amaechi. Effect of Oven Drying on the Functional and Nutritional Properties of Whole Egg and Its Components. African Journal of Food Science, 4(5): 254-257. 2010.