Commenced in January 2007
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Edition: International
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Fatty Acids Composition of Elk, Deer, Roe Deer and Wild Boar Meat Hunted in Latvia
Authors: Vita Strazdina, Aleksandrs Jemeljanovs, Vita Sterna
Abstract:
A game animals – elk (Alces alces), deer (Cervus elaphus), roe deer (Capreolus capreolus) or wild boar (Sus scrofa scrofa) - every autumn and winter period provide an excellent investment, diversification of many consumer meals. In last years consumption and assortiment of game meat products significantly increase. Investigations about biochemical composition of game meat are not very much. The meat of wild animals is more favourable for human health because it has lower saturated fatty acids content, but higher content of protein. Therefore the aim of investigations was to compare biochemical composition of ungulates obtained in Latvia.Investigations were carried out in wild animals different regions of Latvia. In the studied samples protein, intramuscular fat, fatty acids and cholesterol were determined. The biochemical analysis of 54 samples were done. Results of analysis showed that protein content 22.36 – 22.92% of all types of meat samples is not different statistically, significantly lower fat content 1.33 ± 0.88% had elk meat samples and 1.59 ± 0.59% roe deer samples. Content of cholesterol was various 64.41 – 95.07% in the ruminant meat samples of different species. From the dietetic point of view the best composition of fatty acids has meat samples of roe deer.Keywords: dietic product, game meat, intramuscular fat
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1071826
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[1] Soriano A., Cruz B., Gomez L., Mariscal C., Ruiz A.G. Proteolysis, physicochemicalcharacteristics and free fatty acid composition of dry sausages made with deer (Cervus elaphus) or wild boar (Sus scrofa) meat: A preliminary study. Food Chemistry, 96(2), 2006, pp. 173 - 184.
[2] Vergara H., Gallego L., Garcia A., Landete-Castillejos T. Conservation of Cervus elaphus meat in modified atmospheres. Meat Science, 65(2), 2003, pp. 779 - 783.
[3] Encyclopedia of meat sciences. Editor-in-chief Jensen W. K., editors Carrick Dikeman M. Amsterdam: Elsevier Academic Press 2004.
[4] Petkov R. Fatty acid content of the lipid fraction of the meat from deer and roe deer. Veterinarno-meditsinski nauki, 23 (1), 1986, pp. 53 - 57.
[5] Scolian N.D., Chol N.J., Kurt E.E. Manipulating the fatty acid composition of muscle and adipose tissue in beef cattle. British Journal of Nutrition, 85, 2001, pp. 115 - 124.
[6] Mac Rae J., O-Reilly L., Morgan P. Desirable characteristics of animal products from a human health perspective. Livestock Production Science, 94, 2005, pp. 95 - 103.
[7] Wood J. D., Richardson R. I., Nute G. R., Fisher A. V., Campo M. M., Kasapidou E., Sheard P.R., Enser M. Effects of fatty acids on meat quality: a review. Meat Science, 66, 2003, pp. 21 - 32.
[8] Gerster H. Can adults adequately convert alpha-linolenic acid (18 : 3n- 3) to eicosapentaenoic acid (20 : 5n-3) and docosahexaenoic acid (22 : 6n-3)? International Journal for Vitamin and Nutrition Research, 68, 1998, pp. 159 - 173.
[9] Simopoulos A. P. The importance of the ratio of omega-6/omega-3 essential fatty acids. Biomedecine & Pharmacotherapy, 56, 2002, pp. 365 - 379.
[10] World Health Organization. Diet, nutrition and the prevention of chonic diseases. Report of a Joint WHO/FAO Expert Consultation,Geneva, 2003, p. 160.
[11] Rule D.C., Broughton K. S., Shellito S. M., Maiorano G. Comparison of muscle fatty acid profiles and cholesterol concentrations of bison, beef cattle, elk, and chicken. Journal of animal science, 08, 2002, pp. 1202 - 1211.
[12] French, C. Stanton C., Lawless F., O-Riordan E. G., Monahan F. J., Caffrey P. J., and Moloney A. P. Fatty acid composition, including conjugated linoleic acid, of intramuscular fat from steers offered grazed grass, grass silage, or concentrate-based diets. Journal of Animal Science, 78, 2000, pp. 2849 - 2855
[13] ð¿ð╝ð░ð¢ðÁð¢ð¥ð▓ ðØ. ðÉ., ðÉð╗ð©ðÁð▓, ðñ. ðñ. ð£ðÁÐéð¥ð┤ð©ÐçðÁÐüð║ð©ðÁ Ðâð║ð░ðÀð░ð¢ð©ÐÅ ð┐ð¥ ð©ÐüÐüð╗ðÁð┤ð¥ð▓ð░ð¢ð©ÐÄ ð╗ð©ð┐ð©ð┤ð¢ð¥ð│ð¥ ð¥ð▒ð╝ðÁð¢ð░ Ðâ ÐüðÁð╗ÐîÐüð║ð¥Ðàð¥ðÀÐÅð╣ÐüÐéð▓ðÁð¢ð¢ÐïÐà ðÂð©ð▓ð¥Ðéð¢ÐïÐà. (Guidelines for the investigation of lipid metabolism in farm animals) ðæð¥ÐÇð¥ð▓Ðüð║, - 115Ðü. 1973. (in Russian).
[14] Aldai N., Osoro K., Barr├│n L. J. R., Najera A. I. Gas-liquid chromatographic method for analysing complex mixtures of fatty acids including conjugated linoleic acids (cis9 trans11 and trans10 cis12 isomers) and long-chain (n-3 or n-6) polyunsaturated fatty acids: Application to the intramuscular fat of beef meat. Journal of Chromatography, 1110, 2006, pp. 133 - 139.
[15] Strazdina V., Jemeljanovs A., Sterna V., Antone U. Evaluation of fatty acid composition of deer (Cervus elaphus) meat produced on Latvia farms and wildlife. Animal Husbandry. Scientific Articles, 56, 2010, pp. 37 - 44.
[16] Cordain L., Watkins B. A., Florant G. L., Kelher M., Rogers L., Li Y. Fatty acid analysis of wild ruminant tissues: evolutionary implications for reducing diet - related chronic disease. Europen Journal of Clinical Nutrition, 56, 2002, pp. 181 - 191.
[17] Howell W.H., McNamara D.J., Tosca M.A., Smith B.T., Gaines J.A. Plasma lipid and lipoprotein responses to dietary fat and cholesterol: a meta analysis. American Journal Clinical Nutrition, 65, 1997, pp 1747 - 1764.
[18] Medeiros L.C., Busboon I. R., Field R. A., Williams I. C., Miller G. I., Holmes B. Nutritional Content of Game Meat.Available at: www.ces.uwyo.edu/PUBS/B920R., 10 February 2012.
[19] Calder P. C. Dietary arachidonic acid: harmful, harmless or helpful? British Journal of Nutrition, 98, 2007, pp. 451 - 453.
[20] Konjevic D. The roe deer (Campreolus campreolus) from breeding to highly valuable food. Meso,10, 2008, pp. 81 - 85.