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Japanese quail (Coturnix coturnix japonica) meat: characteristics and value addition

Published online by Cambridge University Press:  14 March 2017

D. SANTHI  and
A. KALAIKANNAN
D. SANTHI*
Affiliation:
Department of Livestock Products Technology, Veterinary College and Research Institute, Namakkal, Tamil Nadu Veterinary and Animal Sciences University, Tamil Nadu, India
A. KALAIKANNAN
Affiliation:
Department of Livestock Products Technology, Veterinary College and Research Institute, Namakkal, Tamil Nadu Veterinary and Animal Sciences University, Tamil Nadu, India
*
Corresponding author: [email protected]
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Abstract

Japanese quail (Coturnix coturnix japonica), the smallest farmed avian species, has become a popular meat source among consumers. From the producers’ point of view, commercial quail farming is a profitable avenue and the volume is increasing significantly. Producing value added quail meat is an important way to improve marketing opportunities. The purpose of this paper is to review slaughter, carcass characteristics, meat quality and meat composition of Japanese quail. The status of Japanese quail meat consumption, along with marketing strategies, such as the development of new products and processing methods is discussed, and in addition, the paper covers adding value to spent Japanese quail meat by means of tenderisation with natural agents.

Keywords

Japanese quailmeatcharacteristicsvalue addition
Type
Reviews
Information
World's Poultry Science Journal , Volume 73 , Issue 2 , June 2017 , pp. 337 - 344
Copyright
Copyright © World's Poultry Science Association 2017 

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References

ABDALLA, H.O., ALI, N.N.A., SIDDIG, F.S. and ALI, S.A.M. (2012) Improving tenderness of spent layer hens meat using papaya leaves (Carica papaya). Pakistan Veterinary Journal 33: 73-76.Google Scholar
ALKAN, S., KARABAG, K., GALIC, A., KARSLI, T. and BALCIOGLU, M.S. (2010) Determination of body weight and some carcass traits in Japanese quail (Coturnix coturnix japonica) of different lines. Kafkas Üniversitesi Veteriner Fakültesi Dergisi 16: 277-280.Google Scholar
ARAFA, A.S., JANKY, D.M., WILSON, H.R., OBLINGER, J.L. and KOBURGER, J.A. (1979) Processing factors affecting yields and meat quality of smoked Bobwhite quail. Poultry Science 58: 1498-1503.Google Scholar
ARJUNAN, S. (2015) Tenderization of spent Japanese quail meat with ginger. (Post Graduate Diploma thesis submitted to Tamilnadu Veterinary and Animal Sciences University, Chennai).Google Scholar
AYERZA, R., COATES, W. and LAURIA, M. (2002) Chia seed (Salvia hispanica L.) as an omega-3 fatty acid source for broilers: influence on fatty acid composition, cholesterol and fat content of white and dark meats, growth performance, and sensory characteristics. Poultry Science 81: 826-837.Google Scholar
BARBANTI, D. and PASQUINI, M. (2005) Influence of cooking conditions on cooking loss and tenderness of raw and marinated chicken breast meat. LWT-Food Science and Technology 38: 895-901.CrossRefGoogle Scholar
BHARTI, S.K., ANITA, B., DAS, S.K. and BISWAS, S. (2011) Effect of vacuum tumbling time on physico-chemical, microbiological and sensory properties of chicken tikka. Journal of Stored Products and Postharvest Research 2: 139-147.Google Scholar
BONI, I., NURUL, H. and NORYATI, I. (2010) Comparison of meat quality characteristics between young and spent quails. International Food Research Journal 17: 661-666.Google Scholar
CARON, N., MINVIELLE, F., DESMARAIS, M. and POSTE, L.M. (1990) Mass selection for 45-day body weight in Japanese quail: selection response, carcass composition, cooking properties, and sensory characteristics. Poultry Science 69: 1037-1045.Google Scholar
DAWSON, L.E., YORK, L.R., AMON, N., KULENKAMP, C. and COLEMAN, T.H. (1971) Composition and acceptability of meat from Bobwhite quail. Poultry Science 50: 1805-1810.CrossRefGoogle Scholar
EL-FULL, E.A. (2000) Effects of slaughter age and sex on carcass composition of Japanese quail. Egyptian Poultry Science Journal 20: 649-661.Google Scholar
GECGEL, U., YILMAZ, I., GURCAN, E.K., KARASU, S. and DULGER, G.C. (2015) Comparison of fatty acid composition between female and male Japanese quail meats. Journal of Chemistry 2015 doi:10.1155/2015/569746.Google Scholar
GENCHEV, A., MIHAYLOVA, G., RIBARSKI, S., PAVLOV, A. and KABAKCHIEV, M. (2008) Meat quality and composition in Japanese quails. Trakia Journal of Sciences 6: 72-82.Google Scholar
GENCHEV, G., RIBARSKI, S., AFANASJEV, D. and BLOHIN, I. (2006) Fattening capacities and meat quality of Japanese quail of Faraon and White English breeds. Journal of Central European Agriculture 6: 495-500.Google Scholar
HAMM, D. and ANG, C.Y.W. (1982) Nutrient composition of quail meat from three sources. Journal of Food Science 47: 1613-1614.Google Scholar
HUI, J. and MCLEAN-MEYINSSE, P.E. (1997) Assessing the market potential for specialty meat: goat, rabbit, and quail. Journal of International Food and Agribusiness Marketing 8: 55-68.Google Scholar
IKHLAS, B., HUDA, N. and NORYATI, I. (2011) Chemical composition and physicochemical properties of meatballs prepared from mechanically deboned quail meat using various types of flour. International Journal of Poultry Science 10: 30-37.Google Scholar
KANG, G.H., KIM, S.H., KIM, J.H., KANG, H.K., KIM, D.W., SEONG, P.N., CHO, S.H., PARK, B.Y. and KIM, D.H. (2012) Effect of Flammulina velutipes on spent-hen breast meat tenderization. Poultry Science 91: 232-236.CrossRefGoogle ScholarPubMed
KHALDARI, M., PAKDEL, A., YEGANE, H.M., JAVAREMI, A.N. and BERG, P. (2010) Response to selection and genetic parameters of body and carcass weights in Japanese quail selected for 4-week body weight. Poultry Science 89: 1834-1841.Google Scholar
KHANNA, N. and PANDA, P.C. (2007) Effect of papain on tenderization and functional properties of spent hen meat cuts. Indian Journal of Animal Research 41: 55-58.Google Scholar
KIRKPINAR, F., OĞUZ and İ. (1995) Influence of various dietary protein levels on carcase composition in the male Japanese quail (Coturnix coturnix japonica). British Poultry Science 36: 605-610.Google Scholar
MAIORANO, G., KNAGA, S., WITKOWSKI, A., CIANCIULLO, D. and BEDNARCZYK, M. (2011) Cholesterol content and intramuscular collagen properties of pectoralis superficialis muscle of quail from different genetic groups. Poultry Science 90: 1620-1626.Google Scholar
MARKS, H.L. (1993) Carcass composition, feed intake, and feed efficiency following long-term selection for four-week body weight in Japanese quail. Poultry Science 72: 1005-1011.CrossRefGoogle ScholarPubMed
MINVIELLE, F. (2004) The future of Japanese quail for research and production, World's Poultry Science Journal 60: 500-507.Google Scholar
NAIR, K.K.S., RAO, D.N., CHAND, N., NAIR, R.B., PUTTARAJAPPA, P. and AMLA, B.L. (1995) Tandoori chicken: Processing optimized by response surface methodology. Journal of Food Quality 18: 103-117.CrossRefGoogle Scholar
NARINC, D., AKSOY, T., KARAMAN, E., AYGUN, A., FIRAT, M. Z. and USLU, M.K. (2013) Japanese quail meat quality: Characteristics, heritabilities, and genetic correlations with some slaughter traits. Poultry Science 92: 1735-1744.Google Scholar
NAVEENA, B.M. and MENDIRATTA, S.K. (2001) Tenderisation of spent hen meat using ginger extract. British Poultry Science 42: 344-349.Google Scholar
OĞUZ, İ., ALTAN, Ö., KIRKPINAR, F. and SETTAR, P. (1996) Body weights, carcase characteristics, organ weights, abdominal fat, and lipid content of liver and carcase in two lines of Japanese quail (Coturnix coturnix japonica), unselected and selected for four week body weight. British Poultry Science 37: 579-588.Google Scholar
PANDA, S.K., SINGH, R.P. and ANAND, S.K. (1993) Frozen storage stability of fried quail as influenced by polyphosphate and packaging. Indian Journal of Poultry Science 28: 226-232.Google Scholar
PRAGATI, H., KONDAIAH, N., SAIKIA, P., MANDAL, A.B., ANJANEYULU, A.S.R. and SINGH, R.P. (2007) A comparative study on meat yield and product quality of commercial broiler chickens of three live weight groups. Indian Journal of Poultry Science 42: 53-57.Google Scholar
PUROHIT, A.S., REED, C. and MOHAN, A. (2016) Development and evaluation of quail breakfast sausage. LWT-Food Science and Technology 69: 447-453.CrossRefGoogle Scholar
RAJI, A.O., GIRGIRI, A.Y., ALADE, N.K. and JAURO, S.A. (2015) Characteristics and proximate composition of Japanese quail (Coturnix japonica) carcass in a semi arid area of Nigeria. Trakia Journal of Sciences 13: 159-165.Google Scholar
REIS, J.S. (2011) Características da carcaça de uma linhagem de codornas de corte. Dissertation submitted to Universidade Federal e Pelotas, Brazil.Google Scholar
RULE, D.C., BROUGHTON, K.S., SHELLITO, S.M. and MAIORANO, G. (2002) Comparison of muscle fatty acid profiles and cholesterol concentrations of bison, beef cattle, elk, and chicken. Journal of Animal Science 80: 1202-1211.Google Scholar
SARTOWSKA, K.E., KORWIN-KOSSAKOWSKA, A., POLAWSKA, E., LIPINSKA, P. and SENDER, G. (2014) Sex-related differences in the nutritional value of Japanese quail meat. International Journal of Food Science and Technology 49: 2635-2642.CrossRefGoogle Scholar
SINGH, P.K., TANWAR, V.K., GIRISH, P.S., SHARMA, C.K., SINGH, B. and DIXIT, V.P. (2007) Comparative studies on shelf life of tandoori product prepared from guinea fowl (Pearl) and desi fowl (Kadaknath) meat. Indian Journal of Poultry Science 42: 277-281.Google Scholar
SINGH, R.P. and PANDA, B. (1987) Comparative carcass and meat yields in broiler and spent quails. Indian Journal of Animal Sciences 57: 904-907.Google Scholar
SUNANTHA, K. and SAROAT, R. (2011) Application of bromelain extract for muscle foods tenderization. Food and Nutrition Sciences 2: 393-401.Google Scholar
THILAKAR, P. and SUDEEPKUMAR, N.K. (2005) Consumption pattern of Japanese quail products. Indian Journal of Poultry Science 40: 264-267.Google Scholar
TSERVENI-GOUSI, A.S. and YANNAKOPOULOS, A.L. (1986) Carcase characteristics of Japanese quail at 42 days of age. British Poultry Science 27: 123-127.Google Scholar
WILKANOWSKA, A. and KOKOSZYŃSKI, D. (2011) Comparison of slaughter value in Pharaoh quail of different ages. Journal of Central European Agriculture 12: 145-154.Google Scholar
YUSOP, S.M., O'SULLIVAN, M.G., KERRY, J.F. and KERRY, J.P. (2010) Effect of marinating time and low pH on marinade performance and sensory acceptability of poultry meat. Meat Science 85: 657-663.Google Scholar
YUSOP, S.M., O'SULLIVAN, M.G., KERRY, J.F. and KERRY, J.P. (2012) Influence of processing method and holding time on the physical and sensory qualities of cooked marinated chicken breast fillets. LWT-Food Science and Technology 46: 363-370.Google Scholar