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Identification of meat types by ultrasonic methods

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The ability of identification of meat types using ultrasonic measurement was evaluated in this work. Four types of muscles were analyzed (turkey breast and thigh, and pork loin and ham). Ultrasonic measurements were performed at storage (5 ±1oC) and room (20±1oC) temperatures using the through-transmission technique and differential method of determination of sound velocity and the attenuation coefficient. The mean values of sound velocity for the breast, thigh, loin and ham were respectively: 1550.7, 1536.6, 1558.7, 1559.7 m/s at the storage temperature, and 1582.7, 1578.5, 1596.9, 1592.7 m/s at the room temperature. The mean values of the attenuation coefficient in the same order were: 21.3, 23.2, 30.6, 28.1 m-1 and 22.2, 18.9, 22.0, 22.4 m-1. Statistically significant differences in the sound velocity were observed between pork and turkey muscles, therefore, the meat of those species can be identified based on ultrasound measurements of sound velocity. The attenuation coefficient cannot be applied in the identification of meat types due to absence of significant differences in the mean values.
Słowa kluczowe
Rocznik
Tom
Strony
79--84
Opis fizyczny
Bibliogr. 10 poz., rys., tab.
Twórcy
autor
  • Department of Systems Engineering, University of Warmia and Mazury in Olsztyn
Bibliografia
  • AMARAL J.S., SANTOS C.G., MELO V.S., OLIVEIRA M.B.P.P., MAFRA I. 2014. Authentication of a traditional game meat sausage (Alheira) by species-specific PCR assays to detect hare, rabbit, red deer, pork and cow meats. Food Research International, 60: 140-145.
  • BENEDITO J., CARCEL J.A., ROSSELLO C., MULET A. 2001. Composition assessment of raw meat mixtures using ultrasonics. Meat Science, 57: 365-370.
  • GHAEDIAN R., COUPLAND J.N., DECKER E.A., MCCLEMENTS D.J. 1998. Ultrasonic determination of fish composition. Journal of Food Engineering, 35: 323-337.
  • GLOZMAN T., AZHARI H. 2010. A method for characterization of tissue elastic properties combining ultrasonic computed tomography with elastography. Journal of Ultrasound in Medicine, 29: 387-398.
  • MOORE J.C., SPINK J., LIPP M. 2012. Development and application of a database of food ingredient fraud and economically motivated adulteration from 1980 to 2010. Journal of Food Science, 77(4): R118-R126.
  • NOWAK K.W., MARKOWSKI M. 2013. A comparison of methods for the determination of sound velocity in biological materials: A case study. Ultrasonics, 53(5): 923-927.
  • PREMANANDH J. 2013. Horse meat scandal - A wake-up call for regulatory authorities. Food Control, 34: 568-569.
  • RATAJSKI A., BIAŁOBRZEWSKI I., DAJNOWIEC F., BAKIER S. 2010. The use of ultrasonic methods in the identification of honey types. Technical Sciences, 13: 22-29.
  • SARVAZYAN A., TATARINOV A., SARVAZYAN N. 2005. Ultrasonic assessment of tissue hydration status. Ultrasonics, 43: 661-671.
  • SENTANDREU M.A., SENTANDREU E. 2014. Authenticity of meat products: Tools against fraud. Food Research International, 60: 19-29.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2ddd0161-a814-486c-b958-8734b4a42c48
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