Combined effect of different casing and liquid smoked concentration on the shelf - life of sausages produced from fish (Capoeta umbla)

DOI: 10.18805/ijar.v0iOF.6821    | Article Id: B-489 | Page : 956-961
Citation :- Combined effect of different casing and liquid smoked concentration on theshelf - life of sausages produced from fish (Capoeta umbla) .Indian Journal Of Animal Research.2017.(51):956-961

Emine Ozpolat and Bahri Patir

emineozpolat@hotmail.com
Address :

Firat University Fisheries Faculty, Department of Fisheries Techniques and Fish Processing Technology, Elazig-23119, Turkey.

Submitted Date : 2-04-2016
Accepted Date : 26-10-2016

Abstract

The effect of different casings and liquid smoking solution on the shelf life of new types of sausage from fish (Capoeta umbla) meat was investigated. For preparation of new sausages two casings were used viz. natural casing (N) and synthetic casing (S). The sausages were prepared by adding liquid smoke at 0.1% and 0.5% concentrations. Nutrient compositions of produced sausages were determined on the first day. Microbial, chemical and sensory changes were analyzed throughout the storage time. Results highlighted that fish meat was suitable to produce sausage. Both types of casing exerted similar nutrient composition, microbiological and chemical properties. In general, the highest sensory scores were recorded for the natural casing and 0.1% liquid smoke added sausage. 

Keywords

Fish sausage Liquid smoke Natural casing Shelf-life Synthetic casing.

References

  1. Adams, M.R., Baker, T., & Forrest, C.L. (1987). A note on shelf-life extension of British fresh sausage by vacuum packing. J. Applied Microbiol., 63: 227-231.
  2. Alcicek, Z. (2011). Determination shelf life and PAHs content of smoked anchovy (Engraulis encrasicolus, Linneaus, 1758) nugget with different level liquid smoke flavors during chilled storage. J. Animal and Veterinary Advances, 10: 2691-2695.
  3. AOAC. (1990). Official Methods of Analysis of The Association of Official Analytical Chemists (15th ed.) Association Official Agricultural Chemists. Ed. William Horwitz, Tenth Edition, Washington, DC. U.S.A.
  4. Baumgart, J. (1990). Microbiologische Untersuchung von Lebensmitteln. Behr’s Verlag GmbH, Hamburg.
  5. Conte, A., Marino, R., Della Malva, A., Sevi, A. & Del Nobile, M. A. (2012). Influence ofn different casings on salami produced with meat from buffalo and podolian cattle. J. Food Quality., 35: 127-136.
  6. Contreras-Guzman, E. S. (2002). Biochemistry of Fish and Invertebrates. Cecta-Usach Press, Santiago, Chile (in Spanish). 
  7. Dincer, M.T. (2008). Production of fish sausage using rainbow trout fillets and determination the quality changes in cold storage (4±2ºC) conditions. PhD. Thesis, Ege Universitesi, Fen Bilimleri Enstitusu, Bornova-Izmir, Turkey. 152.
  8. Dincer, T., & Cakli, S. (2010). Texturaland sensory properties of fish sausage from rainbow trout. J. Aquatic Food Product Technol., 19: 238-248.
  9. Doe, P.E. (1998). Fish Drying and Smoking: Production and Quality, Technomic Publishing Co. Inc., Lancaster, Pensylvania.
  10. Fernández-Fernández, E., Vázquez-Odériz, M. L., & Romero-Rodríguez, M. A. (2002). Sensory characteristics of Galician chorizo sausage packed under vacuum and under modifed atmospheres. Meat Sci., 62:67–71.
  11. Filho, P.R.C.O., Favaro-Trindade, C.S., Trindade, M.A., Balieiro, J.C.C., & Viegas, E.M.M. (2010). Quality of sausage elaborated using minced Nile tilapia submmitted to cold storage. Food Sci. and Technol., 67: 183-190
  12. Göktan, D. (1990). Gidalarin Mikrobiyal Ekolojisi Cilt 1 Et Mikrobiyolojisi. Ege Universitesi Muhendislik Fakultesi Yayin No: 21, Izmir.
  13. Halkman, A.K. (2005). Merck Gida Mikrobiyolojisi Uygulamalari, Basak Matbaacilik, Ankara, Turkey.
  14. Hu, Y., Xia, W., & Liu, X. (2007). Changes in biogenic amines in fermented silver carp sausages inoculated with mixed starter cultures, Food Chem., 104, 188-195.
  15. Huss, H. H. (1995). Quality and Quality Changes in Fresh Fish. Food and Agriculture Organization Fisheries Technical Paper -348, Food and Agriculture Organization of United Nations, Roma.
  16. Kurtcan, U., & Gonul, M. (1987). Gidalarin duyusal degerlendirilmesinde puanlama metodu. Ege Univ. Muh. Fak. Sci., 5: 137-146.
  17. López-Caballero, M.E., Góamez-Guillén, M.C., Pérez-Mateos, M., & Montero, E. (2005). A Functional Chitosan-Enriched Fish Sausage Treated by High Pressure. J. Food Sci., 70: 166– 171.
  18. Ockerman, H. W. & Hansen, C. L. (2000). Sausage containers. In: Animal By-product processing and utilization. CRC Press, Boca Raton. 
  19. Oksuz, A., Evrendilek, G. A., Calis, M. S., & Ozeren, A. (2008). Production of a dry sausage from African catfish (Clarias gariepinus, Burchell, 1822): microbial, chemical and sensory evaluations. Inter. J. Food Sci., Technol. 43: 166-172.
  20. Özpolat, E., & Patir, B. (2016). Determination of Shelf Life for Sausages Produced From Some Freshwater Fish Using Two Different Smoking Methods. J. Food Safety, 36: 69-76. 
  21. Rahman, M., Al-Waili, H., Guizani, N., & Kasapis, S. (2007). Instrumental sensory evaluation of texture for fish sausage and its storage stability. Fisheries Sci., 73: 1166-1176.
  22. Raju, C.V., Shamasundar, B.A., & Udupa, K.S. (2003). The use of nisin as a preservative in fish sausage stored at ambient (28 ± 2 °C) and refrigerated (6 ± 2 °C) temperatures. Inter. J. Food Sci. Technol., 38: 171–185.
  23. Resurreccion, A.V.A., (2004). Sensory aspects of consumer choices for meat and meat products. Meat Sci., 66: 11-20. 
  24. Rustad, T. (2003). Utilisation of marine by- products. Electronic J. Enviromental, Agricultural and Food Chem., 2: 458-    463.
  25. SAS. (1999): Version 6.1. SAS Institute, Cary, North Caroline, USA.
  26. Sekin, Y., & Karagozlu, N. (2004). Gida Mikrobiyolojisi, Gida Endustrisi Icin Temel Esaslar ve Uygulamalar. Literatur Yayincilik, Istanbul, Turkey.
  27. Sinnuber, R. O., & Yu, T. C. (1958). Thiobarbituric acid method fort the measurement of rancidity in fishery products, II. The quantitative determination of malonaldehyde. Food Technol., 1: 9-12.
  28. Tarladgis, B.G., Watts B.M., & Younathan, M.T. (1960). A distillation Method fort he quantitative determination of malondialdehyde in rancid food. J. American Oil Chemists Society., 37: 44-48.
  29. TSI, (2002). Sosis, T.S. 980, Turk Standartlari Enstitusu, Ankara.
  30. Turkish Food Codex. (2009). Mikrobiyolojik Kriterler Tebligi. Teblig No: 2009/6 Degisiklik 2010/16.
  31. Varlik, C., Ugur, M., Gokoglu, N., & Gun, H. (1993). Su Urunlerinde Kalite Kontrol Ilke ve Yontemleri. Gida Teknolojisi Dernegi Yayin No: 17, Istanbul.
  32. Yapar, A., Atay, S., Kayacier, A., & Yetim, H. (2006). Effects of different levels of salt and phosphate on some emulsion attributes of the common carp (Cyprinus carpio L., 1758). Food Hydrocol., 20: 825-830.
  33. Yu, L., Scanlin, L., Wilson, J., & Schmidt, G. (2002). Rosemary extracts as inhibitors of lipid oxidation and colour change in cooked turkey products during refrigerated storage. J. Food Sci., 67: 582-585.
     

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