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Critical Reviews in Food Science and Nutrition Volume 55, 2015 - Issue 7
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Reviews

Recent Advances in Methods and Techniques for Freshness Quality Determination and Evaluation of Fish and Fish Fillets: A Review

Jun-Hu ChengCollege of Light Industry and Food Sciences, South China University of Technology, Guangzhou, China
,
Da-Wen SunCollege of Light Industry and Food Sciences, South China University of Technology, Guangzhou, China;Food Refrigeration and Computerized Food Technology, Agriculture and Food Science Centre, University College Dublin, National University of Ireland, Belfield, Dublin, Ireland
,
Xin-An ZengCollege of Light Industry and Food Sciences, South China University of Technology, Guangzhou, China
&
Dan LiuCollege of Light Industry and Food Sciences, South China University of Technology, Guangzhou, ChinaCorrespondence[email protected]
Pages 1012-1225 | Published online: 28 Jan 2015

REFERENCES

  • Abbas, K., Mohamed, A., Jamilah, B. and Ebrahimian, M. (2008). A review on correlations between fish freshness and pH during cold storage. Am. J. Biochem. Biotechnol. 4(4):416–421.
  • Agustini, T.W., Suzuki, M., Suzuki, T., Hagiwara, T., Okouchi, S. and Takai, R. (2001). The possibility of using oxidation–reduction potential to evaluate fish freshness. Fisheries Sci. 67(3):547–549.
  • Alasalvar, C., Grigor, J.M. and Ali, Z. (2010). Practical evaluation of fish quality by objective, subjective, and statistical testing. In: Handbook of Seafood Quality, Safety and Health Applications, pp. 11–28.
  • Alasalvar, C., Miyashita, K., Shahidi, F., Wanasundara. U., John Wiley & Sons Ltd, The Atrium, Southern Gate, Chichester, West Sussex, UK, pp. 11–28. ISBN 978-1-4051-8072-2.
  • Alimelli, A., Pennazza, G., Santonico, M., Paolesse, R., Filippini, D., D’Amico, A., Lundstrom, I. and Di Natale, C. (2007). Fish freshness detection by a computer screen photoassisted based gas sensor array. Anal. Chim. Acta. 582(2):320–328.
  • Amari, A., El Barbri, N., Llobet, E., El Bari, N., Correig, X. and Bouchikhi, B. (2006). Monitoring the freshness of Moroccan sardines with a neural-network based electronic nose. Sensors. 6(10):1209–1223.
  • Armenta, S., Coelho, N.M., Roda, R., Garrigues, S. and de la Guardia, M. (2006). Seafood freshness determination through vapour phase Fourier transform infrared spectroscopy. Anal. Chim. Acta. 580(2):216–222.
  • Attouchi, M., & Sadok, S. (2012). The effects of essential oils addition on the quality of wild and farmed sea bream (Sparus aurata) stored in ice. Food and Bioprocess Technology. 5(5): 1803–1816.
  • Béné, A., Hayman, A., Reynard, E., Luisier, J. and Villettaz, J. (2001). A new method for the rapid determination of volatile substances: The SPME-direct method: Part II. Determination of the freshness of fish. Sens. Actuators, B 72(3):204–207.
  • Badii, F. and Howell, N.K. (2002). Changes in the texture and structure of cod and haddock fillets during frozen storage. Food Hydrocolloids. 16(4):313–319.
  • Balaban, M.O., Chombeau, M., Gümüş, B. and Cirban, D. (2011). Determination of volume of Alaska Pollock (Theragra chalcogramma) by image analysis. J. Aquat. Food Product Technol. 20(1):45–52.
  • Balaban, M.O., Kristinsson, H.G. and Otwell, W.S. (2005). Evaluation of color parameters in a machine vision analysis of carbon monoxide-treated fish—Part I. J. Aquat. Food Product Technol 14(2):5–24.
  • Balaban, M.O., Ünal Şengör, G.F., Soriano, M.G. and Ruiz, E.G. (2010). Using image analysis to predict the weight of Alaskan salmon of different species. J. Food Sci. 75(3):E157–E162.
  • Barat, J.M., Gil, L., García-Breijo, E., Aristoy, M.C., Toldrá, F., Martínez-Máñez, R. and Soto, J. (2008). Freshness monitoring of sea bream (Sparus aurata) with a potentiometric sensor. Food Chem. 108(2):681– 688.
  • Barbri, N.E., Mirhisse, J., Ionescu, R., Bari, N.E., Correig, X., Bouchikhi, B. and Llobet, E. (2009). An electronic nose system based on a micro-machined gas sensor array to assess the freshness of sardines. Sens. Actuators, B 141(2):538–543.
  • Böhme, K., Fernández-No, I.C., Gallardo, J.M., Cañas, B., & Calo-Mata, P. (2011). Safety assessment of fresh and processed seafood products by MALDI-TOF mass fingerprinting. Food and Bioprocess Technology, 4(6): 907–918.
  • Careche, M. and Barroso, M. (2009). Instrumental texture measurement. In: Fishery Products: Quality, Safety and Authenticity, pp. 224–231.
  • Castro, P., Padrón, J.C. P., Cansino, M.J. C., Velázquez, E.S. and Larriva, R.M. D. (2006). Total volatile base nitrogen and its use to assess freshness in European sea bass stored in ice. Food Control. 17(4):245–248.
  • Chantarachoti, J., Oliveira, A., Himelbloom, B., Crapo, C. and McLachlan, D. (2006). Portable electronic nose for detection of spoiling Alaska pink salmon (Oncorhynchus gorbuscha). J. Food Sci. 71(5):S414–S421.
  • Costa, C., Antonucci, F., Menesatti, P., Pallottino, F., Boglione, C. and Cataudella, S. (2012). An advanced colour calibration method for fish freshness assessment: A comparison between standard and passive refrigeration modalities. Food Bioprocess Technol. 6:2190–2195.
  • Costa, C., D’Andrea, S., Russo, R., Antonucci, F., Pallottino, F. and Menesatti, P. (2011). Application of non-invasive techniques to differentiate sea bass (Dicentrarchus labrax, L. 1758) quality cultured under different conditions. Aquacult. Int. 19(4):765–778.
  • Coppes, Z., Pavlisko, A. and De Vecchi, S. (2002). Texture measurements in fish and fish products. J. Aquat. Food Product Technol 11(1):89–105.
  • Coppes-Petricorena, Z. (2010). Texture measurements in fish and fish products. In: Handbook of Seafood Quality, Safety and Health Applications, pp. 130–138.
  • Cui, Z.W., Xu, S.Y. , Sun, D. -W. (2004). Effect of microwave-vacuum drying on the carotenoids retention of carrot slices and chlorophyll retention of chinese chive leaves. Drying Technology. 22(3): 563–575.
  • Delgado, A.E., Zheng, L.Y., and Sun, D.-W. (2009). Influence of Ultrasound on Freezing Rate of Immersion-frozen Apples, Food and Bioprocess Technology. 2(3):263–270.
  • Dini, F., Paolesse, R., Filippini, D., D’Amico, A., Lundström, I. and Di Natale, C. (2010). Fish freshness decay measurement with a colorimetric artificial olfactory system. Procedia Eng. 5, 1228–1231.
  • Dowlati, M., de la Guardia, M. and Mohtasebi, S.S. (2012). Application of machine-vision techniques to fish-quality assessment. TrAC Trends Anal. Chem. 40:168–179.
  • Duflos, G., Leduc, F., N’Guessan, A., Krzewinski, F., Kol, O. and Malle, P. (2010). Freshness characterisation of whiting (Merlangius merlangus) using an SPME/GC/MS method and a statistical multivariate approach. J. Sci. Food. Agric. 90(15):2568–2575.
  • Dufour, É., Frencia, J.P. and Kane, E. (2003). Development of a rapid method based on front-face fluorescence spectroscopy for the monitoring of fish freshness. Food Res. Int. 36(5):415–423.
  • Ehira, S. and Uchiyama, H. (1987). Determination of fish freshness using the K value and comments on some other biochemical changes in relation to freshness. In: Seafood Quality Determination, pp. 185–207.
  • Ehira, S., & Uchiyama, H. (1987). Determination of fish freshness using the K value and comments on some other biochemical changes in relation to freshness. In Seafood quality determination: proceedings of the International Symposium on Seafood Quality Determination, coordinated by the Univ. of Alaska Sea Grant College Program, Anchorage, AK/edited by DE Kramer, J. Liston. Amsterdam: Elsevier, pp. 185–207.
  • ElBarbri, N., Amari, A., Vinaixa, M., Bouchikhi, B., Correig, X. and Llobet, E. (2007). Building of a metal oxide gas sensor-based electronic nose to assess the freshness of sardines under cold storage. Sens. Actuators, B 128(1):235–244.
  • ElBarbri, N., Llobet, E., El Bari, N., Correig, X. and Bouchikhi, B. (2008). Application of a portable electronic nose system to assess the freshness of Moroccan sardines. Mater. Sci. Eng., C 28(5–6):666–670.
  • ElMasry, G. and Wold, J.P. (2008). High-speed assessment of fat and water content distribution in fish fillets using online imaging spectroscopy. J. Agric. Food Chem. 56(17):7672–7677.
  • Erikson, U. and Misimi, E. (2008). Atlantic salmon skin and fillet color changes effected by perimortem handling stress, rigor mortis, and ice storage. J. Food Sci. 73(2):C50–59.
  • Folkestad, A., Wold, J.P., Rørvik, K.-A., Tschudi, J., Haugholt, K.H., Kolstad, K. and Mørkøre, T. (2008). Rapid and non-invasive measurements of fat and pigment concentrations in live and slaughtered Atlantic salmon (Salmo salar L.). Aquaculture. 280(1–4):129–135.
  • Francis, F. (1995). Quality as influenced by color. Food Qual. Preference. 6(3):149–155.
  • Gümüş, B. and Balaban, M.O. (2010). Prediction of the weight of aquacultured rainbow trout (Oncorhynchus mykiss) by image analysis. J. Aquat. Food Product Technol 19(3–4):227–237.
  • Godiksen, H., Morzel, M., Hyldig, G. and Jessen, F. (2009). Contribution of cathepsins B, L and D to muscle protein profiles correlated with texture in rainbow trout (Oncorhynchus mykiss). Food Chem. 113(4):889–896.
  • Gokoglu, N. and Yerlikaya, P. (2004). Use of eye fluid refractive index in sardine (Sardina pilchardus) as a freshness indicator. Eur. Food Res. Technol. 218(3):295–297.
  • Gram, L. and Dalgaard, P. (2002). Fish spoilage bacteria–problems and solutions. Curr. Opin. Biotechnol. 13(3):262–266.
  • Green, D.P., Alasalvar, C., Shahidi, F., Miyashita, K. and Wanasundara, U. (2010). Sensory evaluation of fish freshness and eating qualities. In: Handbook of Seafood Quality, Safety and Health Applications, pp. 29–38.
  • Guillén, M.D. and Ruiz, A. (2004). Study of the oxidative stability of salted and unsalted salmon fillets by 1H nuclear magnetic resonance. Food Chem. 86(2):297–304.
  • Hamada-Sato, N., Usui, K., Kobayashi, T., Imada, C. and Watanabe, E. (2005). Quality assurance of raw fish based on HACCP concept. Food Control. 16(4):301–307.
  • Hammond, J., Marquis, B., Michaels, R., Oickle, B., Segee, B., Vetelino, J., Bushway, A., Camire, M.E. and Davis-Dentici, K. (2002). A semiconducting metal-oxide array for monitoring fish freshness. Sens. Actuators, B 84(2):113–122.
  • Heising, J.K., Dekker, M., Bartels, P.V. and van Boekel, M.A. J. S. (2012). A non-destructive ammonium detection method as indicator for freshness for packed fish: Application on cod. J. Food Eng. 110(2):254–261.
  • Herrero, A.M. (2008). Raman spectroscopy a promising technique for quality assessment of meat and fish: A review. Food Chem. 107(4):1642–1651.
  • Hoang, M.A., Geusebroek, J.-M. and Smeulders, A.W. M. (2005). Color texture measurement and segmentation. Signal Process. 85(2):265–275.
  • Huang, Y., Cavinato, A., Mayes, D., Kangas, L., Bledsoe, G. and Rasco, B. (2003). Nondestructive determination of moisture and sodium chloride in cured Atlantic salmon (Salmo salar)(Teijin) using short-wavelength near-infrared spectroscopy (SW-NIR). J. Food Sci. 68(2):482–486.
  • Huang, X., Xin, J. and Zhao, J. (2011). A novel technique for rapid evaluation of fish freshness using colorimetric sensor array. J. Food Eng. 105(4):632–637.
  • Hu, Z.H., Sun, D.-W. (2000). CFD simulation of heat and moisture transfer for predicting cooling rate and weight loss of cooked ham during air-blast chilling process. J. Food Engineering. 46(3):189–197.
  • Hyldig, G. and Nielsen, D. (2007). A review of sensory and instrumental methods used to evaluate the texture of fish muscle. J. Texture Stud. 32(3):219–242.
  • Itoh, D., Sassa, F., Nishi, T., Kani, Y., Murata, M. and Suzuki, H. (2012). Droplet-based microfluidic sensing system for rapid fish freshness determination. Sens. Actuators, B 171-172:619–626.
  • Jain, D., Pathare, P.B. and Manikantan, M.R. (2007). Evaluation of texture parameters of Rohu fish (Labeo rohita) during iced storage. J. Food Eng. 81(2):336–340.
  • Karoui, R., Lefur, B., Grondin, C., Thomas, E., Demeulemester, C., Baerdemaeker, J.D. and Guillard, A.-S. (2007). Mid-infrared spectroscopy as a new tool for the evaluation of fish freshness. Int. J. Food Sci. Technol. 42(1):57–64.
  • Karoui, R., & Blecker, C. (2011). Fluorescence spectroscopy measurement for quality assessment of food systems: A review. Food and Bioprocess Technology, 4(3), 364–386.
  • Khodabux, K., Lomelette, M., Jhaumeerlaulloo, S., Ramasami, P. and Rondeau, P. (2007). Chemical and near-infrared determination of moisture, fat and protein in tuna fishes. Food Chem. 102(3):669–675.
  • Kuswandi, B., Jayus, Restyana, A., Abdullah, A., Heng, L.Y. and Ahmad, M. (2012). A novel colorimetric food package label for fish spoilage based on polyaniline film. Food Control. 25(1):184–189.
  • Kyrana, V.R. and Lougovois, V.P. (2002). Sensory, chemical and microbiological assessment of farm-raised European sea bass (Dicentrarchus labrax) stored in melting ice. Int. J. Food Sci. Technol. 37(3):319–328.
  • Li, X., Li, J., Zhu, J., Wang, Y., Fu, L. and Xuan, W. (2011). Postmortem changes in yellow grouper (Epinephelus awoara) fillets stored under vacuum packaging at 0°C. Food Chem. 126(3):896–901.
  • Limbo, S., Sinelli, N., Torri, L. and Riva, M. (2009). Freshness decay and shelf life predictive modelling of European sea bass (Dicentrarchus labrax) applying chemical methods and electronic nose. LWT Food Sci. Technol. 42(5):977–984.
  • Liu, S., Fan, W., Zhong, S., Ma, C., Li, P., Zhou, K., Peng, Z. and Zhu, M. (2010). Quality evaluation of tray-packed tilapia fillets stored at 0°C based on sensory, microbiological, biochemical and physical attributes. Afr. J. Biotechnol. 9(5):692–701.
  • Lougovois, V.P., Kolovou, M.K., Savvaidis, I.N. and Kontominas, M.G. (2008). Spoilage potential of ice-stored whole musky octopus (Eledone moschata). Int. J. Food Sci. Technol. 43(7):1286–1294.
  • Lougovois, V.P., Kyranas, E.R. and Kyrana, V.R. (2003). Comparison of selected methods of assessing freshness quality and remaining storage life of iced gilthead sea bream (Sparus aurata). Food Res. Int. 36(6):551–560.
  • Macagnano, A., Careche, M., Herrero, A., Paolesse, R., Martinelli, E., Pennazza, G., Carmona, P., D’Amico, A. and Natale, C.D. (2005). A model to predict fish quality from instrumental features. Sens. Actuators, B 111-112, 293–298.
  • Martinez, I., Slizyte, R. and Dauksas, E. (2007). High resolution two-dimensional electrophoresis as a tool to differentiate wild from farmed cod (Gadus morhua) and to assess the protein composition of klipfish. Food Chem. 102(2):504–510.
  • Mathiassen, J.R., Misimi, E., Bondø, M., Veliyulin, E. and Østvik, S.O. (2011). Trends in application of imaging technologies to inspection of fish and fish products. Trends Food Sci. Technol. 22(6):257–275.
  • Menesatti, P., Costa, C. and Aguzzi, J. (2010). Quality Evaluation of Fish by Hyperspectral Imaging. Academic Press, Elsevier, London, UK, pp. 273–294.
  • Misimi, E., Mathiassen, J.R. and Erikson, U. (2007). Computer vision-based sorting of Atlantic salmon (Salmo salar) fillets according to their color level. J. Food Sci. 72(1):S030–035.
  • Nanjyo, Y. and Yao, T. (2002). Rapid measurement of fish freshness indices by an amperometric flow-injection system with a 16-way switching valve and immobilized enzyme reactors. Anal. Chim. Acta. 470(2):175–183.
  • Natale, C.D., Olafsdottir, G., Einarsson, S., Martinelli, E., Paolesse, R. and D’Amico, A. (2001). Comparison and integration of different electronic noses for freshness evaluation of cod-fish fillets. Sens. Actuators, B 77(1):572–578.
  • Nilsen, H. and Esaiassen, M. (2005). Predicting sensory score of cod (Gadus morhua) from visible spectroscopy. LWT Food Sci. Technol. 38(1):95–99.
  • Nilsen, H., Esaiassen, M., Heia, K. and Sigernes, F. (2002). Visible/near-infrared spectroscopy: A new tool for the evaluation of fish freshness? J. Food Sci. 67(5):1821–1826.
  • Niu, J. and Lee, J. (2000). A new approach for the determination of fish freshness by electrochemical impedance spectroscopy. J. Food Sci. 65(5):780–785.
  • Nortvedt, R., Torrissen, O.J. and Tuene, S. (1998). Application of near-infrared transmittance spectroscopy in the determination of fat, protein and dry matter in Atlantic halibut fillet. Chemom. Intell. Lab. Syst. 42(1):199–207.
  • Norton, T., & Sun, D.-W. (2008). Recent advances in the use of high pressure as an effective processing technique in the food industry. Food and Bioprocess Technology, 1(1), 2–34.
  • Ocaño-Higuera, V.M., Maeda-Martínez, A.N., Marquez-Ríos, E., Canizales-Rodríguez, D.F., Castillo-Yáñez, F.J., Ruíz-Bustos, E., Graciano-Verdugo, A.Z. and Plascencia-Jatomea, M. (2011). Freshness assessment of ray fish stored in ice by biochemical, chemical and physical methods. Food Chem. 125(1):49–54.
  • O’Connell, M., Valdora, G., Peltzer, G. and Martın Negri, R. (2001). A practical approach for fish freshness determinations using a portable electronic nose. Sens. Actuators, B 80(2):149–154.
  • Olafsdottir, G., Martinsdóttir, E., Oehlenschläger, J., Dalgaard, P., Jensen, B., Undeland, I., Mackie, I., Henehan, G., Nielsen, J. and Nilsen, H. (1997). Methods to evaluate fish freshness in research and industry. Trends Food Sci. Technol. 8(8):258–265.
  • Olafsdottir, G., Nesvadba, P., Di Natale, C., Careche, M., Oehlenschläger, J., Tryggvadóttir, S.a. V., Schubring, R., Kroeger, M., Heia, K., Esaiassen, M., Macagnano, A. and Jørgensen, B.M. (2004). Multisensor for fish quality determination. Trends Food Sci. Technol. 15(2):86–93.
  • Özogul, F., Gökbulut, C., Özyurt, G., Özogul, Y. and Dural, M. (2005a). Quality assessment of gutted wild sea bass (Dicentrarchus labrax) stored in ice, cling film and aluminium foil. Eur. Food Res. Technol. 220(3):292–298.
  • Özogul, Y., Özyurt, G., Özogul, F., Kuley, E. and Polat, A. (2005b). Freshness assessment of European eel by sensory, chemical and microbiological methods. Food Chem. 92(4):745–751.
  • Özyurt, G., Kuley, E., Özkütük, S. and Özogul, F. (2009). Sensory, microbiological and chemical assessment of the freshness of red mullet (Mullus barbatus) and goldband goatfish (Upeneus moluccensis) during storage in ice. Food Chem. 114(2):505–510.
  • Park, B., Lawrence, K., Windham, W. and Smith, D. (2005). Detection of cecal contaminants in visceral cavity of broiler carcasses using hyperspectral imaging. 21(4):627–635.
  • Park, B., Windham, W.R., Lawrence, K.C. and Smith, D.P. (2007). Contaminant classification of poultry hyperspectral imagery using a spectral angle mapper algorithm. Biosystems Eng. 96(3):323–333.
  • Peng, Y., Zhang, J., Wang, W., Li, Y., Wu, J., Huang, H., Gao, X. and Jiang, W. (2011). Potential prediction of the microbial spoilage of beef using spatially resolved hyperspectral scattering profiles. J. Food Eng. 102(2):163–169.
  • Poli, B.M., Parisi, G., Zampacavallo, G., Mecatti, M., Lupi, P., Gualtieri, M. and Franci, O. (2001). Quality outline of European sea bass (Dicentrarchus labrax) reared in Italy: shelf life, edible yield, nutritional and dietetic traits. Aquaculture. 202(3):303–315.
  • Pons-Sánchez-Cascado, S., Vidal-Carou, M.C., Nunes, M.L. and Veciana-Nogués, M.T. (2006). Sensory analysis to assess the freshness of Mediterranean anchovies (Engraulis encrasicolus) stored in ice. Food Control. 17(7):564–569.
  • Quevedo, R.A., Aguilera, J.M. and Pedreschi, F. (2010). Color of salmon fillets by computer vision and sensory panel. Food Bioprocess Technol. 3(5):637–643.
  • Raatikainen, O., Reinikainen, V., Minkkinen, P., Ritvanen, T., Muje, P., Pursiainen, J., Hiltunen, T., Hyvönen, P., Wright, A.v. and Reinikainen, S.-P. (2005). Multivariate modelling of fish freshness index based on ion mobility spectrometry measurements. Anal. Chim. Acta. 544(1–2):128–134.
  • Rehbein, H., Oehlenschlager, J. John Wiley & Sons Ltd, The Atrium, Southern Gate, Chichester, West Sussex, UK, pp. 224–231.
  • Rodríguez, Ó., Barros-Velázquez, J., Piñeiro, C., Gallardo, J.M. and Aubourg, S.P. (2006). Effects of storage in slurry ice on the microbial, chemical and sensory quality and on the shelf life of farmed turbot (Psetta maxima). Food Chem. 95(2):270–278.
  • Rodriguez-Casado, A., Carmona, P., Moreno, P., Sánchez-González, I., Macagnano, A., Natale, C.D. and Careche, M. (2007). Structural changes in sardine (Sardina pilchardus) muscle during iced storage: Investigation by DRIFT spectroscopy. Food Chem. 103(3):1024–1030.
  • Roth, B., Moeller, D., Veland, J., Imsland, A. and Slinde, E. (2006). The effect of stunning methods on rigor mortis and texture properties of Atlantic salmon (Salmo salar). J. Food Sci. 67(4):1462–1466.
  • Shankar, T.J., Sokhansanj, S., Bandyopadhyay, S., & Bawa, A.S. (2010). Storage properties of low fat fish and rice flour coextrudates. Food and Bioprocess Technology, 3(4), 481–490.
  • Sigernes, F., Esaiassen, M., Heia, K., Wold, J., Eilertsen, G. and Sørensen, N. (1998). Assessment of fish (cod) freshness by VIS/NIR spectroscopy. In: pp. 369–375.
  • Sigernes, F., Esaiassen, M., Heia, K., Wold, J.P., Eilertsen, G., & Sørensen, N.K. (1998). Assessment of fish (cod) freshness by VIS/NIR spectroscopy. In: Methods to Evaluate Fish Freshness in Research and Industry, Proceedings of the Final Meeting of the Concerted Action AIR CT94-2283, Nantes. pp. 369–375.
  • Sigurgisladottir, S., Hafsteinsson, H., Jonsson, A., Lie, Ø., Nortvedt, R., Thomassen, M. and Torrissen, O. (2006). Textural properties of raw salmon fillets as related to sampling method. J. Food Sci. 64(1):99–104.
  • Simeonidou, S., Govaris, A., & Vareltzis, K. (1997). Quality assessment of seven Mediterranean fish species during storage on ice.Food Res. Int. 30(7), 479–484.
  • Siripatrawan, U., Sanguandeekul, R. and Narakaew, V. (2009). An alternative freshness index method for modified atmosphere packaged abalone using an artificial neural network. LWT Food Sci. Technol. 42(1):343–349.
  • Sivertsen, A.H., Heia, K., Hindberg, K. and Godtliebsen, F. (2012). Automatic nematode detection in cod fillets (Gadus morhua L.) by hyperspectral imaging. J. Food Eng. 111(4):675–681.
  • Sivertsen, A.H., Heia, K., Stormo, S.K., Elvevoll, E. and Nilsen, H. (2011a). Automatic nematode detection in cod fillets (Gadus morhua) by transillumination hyperspectral imaging. J Food Sci. 76(1):S77–S83.
  • Sivertsen, A.H., Kimiya, T. and Heia, K. (2011b). Automatic freshness assessment of cod (Gadus morhua) fillets by VIS/NIR spectroscopy. J. Food Eng. 103(3):317–323.
  • Song, Y., Luo, Y., You, J., Shen, H. and Hu, S. (2011). Biochemical, sensory and microbiological attributes of bream (Megalobrama amblycephala) during partial freezing and chilled storage. J. Sci. Food Agric. 92(1):197–202.
  • Steen, C. and Lambelet, P. (1997). Texture changes in frozen cod mince measured by low-field nuclear magnetic resonance spectroscopy. J. Sci. Food Agric. 75(2):268–272.
  • Stringer, M. (2005). Summary report. Food Control. 16(9):775–794.
  • Sun, D.-W., Zheng, L.Y. (2006). Vacuum cooling technology for the agri-food industry: Past, present and future. J. Food Engineering. 77(2): 203–214.
  • Sun, D.-W., Hu, Z.H. (2003). CFD simulation of coupled heat and mass transfer through porous foods during vacuum cooling process. International Journal of Refrigeration-Revue Internationale du Froid. 26(1): 19–27.
  • Sun, D.-W., Brosnan, T. (1999). Extension of the vase life of cut daffodil flowers by rapid vacuum cooling. International Journal of Refrigeration-Revue Internationale du Froid. 22(6): 472–478.
  • Sun, D.-W. (1997). Thermodynamic design data and optimum design maps for absorption refrigeration systems. Appl. Thermal Eng. 17(3): 211–221.
  • Sun, D.-W., Woods, J.L. (1994a). Low-temperature moisture transfer characteristics of wheat in thin-layers. Transactions of the ASAE. 37(6:1919–1926.
  • Sun, D.-W., Woods, J.L. (1994b). The selection of sorption isotherm equations for wheat-based on the fitting of available data. J. Stored Products Research. 30(1):27–43.
  • Sun, D.-W., Woods, J.L. (1994c). Low-temperature moisture transfer characteristics of barley- think-layer models and equilibrium isotherms. J. Agricultural Engineering Research. 59(4): 273–283.
  • Sun, D.-W., Woods, J.L. (1993). The moisture-content relative-humidity equilibrium relationship of wheat: A review. Drying Technology. 11(7): 1523–1551.
  • Sun, D.-W. (1999). Comparison and selection of EMC ERH isotherm equations for rice. J. Stored Products Research. 35(3): 249–264.
  • Sun, D.-W., Byrne, C., (1998). Selection of EMC/ERH isotherm equations for rapeseed. J. Agricultural Engineering Research. 69(4): 307–315.
  • Sun, D.-W., Woods, J.L. (1997). Simulation of the heat and moisture transfer process during drying in deep grain beds. Drying Technology. 15(10): 2479–2508.
  • Sveinsdottir, K., Hyldig, G., Martinsdottir, E., Jørgensen, B. and Kristbergsson, K. (2003). Quality Index Method (QIM) scheme developed for farmed Atlantic salmon (Salmo salar). Food Qual. Preference. 14(3):237–245.
  • Taliadourou, D., Papadopoulos, V., Domvridou, E., Savvaidis, I.N. and Kontominas, M.G. (2003). Microbiological, chemical and sensory changes of whole and filleted Mediterranean aquacultured sea bass (Dicentrarchus labrax) stored in ice. J. Sci. Food Agric. 83(13):1373–1379.
  • Taylor, R., Fjaera, S. and Skjervold, P. (2006). Salmon fillet texture is determined by myofiber–myofiber and myofiber–myocommata attachment. J. Food Sci. 67(6):2067–2071.
  • Tejada, M. (2009). ATP-Derived Products and K-value Determination. Wiley-Blackwell, Chichester, UK, pp. 68–88.
  • Triqui, R. and Bouchriti, N. (2003). Freshness assessments of Moroccan sardine (Sardina pilchardus): Comparison of overall sensory changes to instrumentally determined volatiles. J. Agric. Food Chem. 51(26):7540–7546.
  • Trocino, A., Xiccato, G., Majolini, D., Tazzoli, M., Bertotto, D., Pascoli, F. and Palazzi, R. (2012). Assessing the quality of organic and conventionally-farmed European sea bass (Dicentrarchus labrax). Food Chem. 131(2):427–433.
  • Uriarte-Montoya, M.H., Villalba-Villalba, A.G., Pacheco-Aguilar, R., Ramirez-Suarez, J.C., Lugo-Sánchez, M.E., García-Sánchez, G. and Carvallo-Ruíz, M.G. (2010). Changes in quality parameters of Monterey sardine (Sardinops sagax caerulea) muscle during the canning process. Food Chem. 122(3):482–487.
  • Wallat, G.K., Luzuriaga, D.A., Balaban, M.O. and Chapman, F.A. (2002). Analysis of skin color development in live goldfish using a color machine vision system. N. Am. J. Aquacult. 64(1):79–84.
  • Wang, L.J., Sun, D.-W. (2001). Rapid cooling of porous and moisture foods by using vacuum cooling technology. Trends in Food Science & Technology. 12(5-6): 174–184.
  • Watanabe, E., Tamada, Y. and Hamada-Sato, N. (2005). Development of quality evaluation sensor for fish freshness control based on K1 value. Biosens. Bioelectron. 21(3):534–538.
  • Werner, M.T., Fæste, C.K., Levsen, A. and Egaas, E. (2010). A quantitative sandwich ELISA for the detection of Anisakis simplex protein in seafood. Eur. Food Res. Technol. 232(1):157–166.
  • Wills, C.C., Proctor, M.R. M. and McLoughlin, J. (2004). Integrated studies on the freshness of rainbow trout (Oncorhynchus mykiss Walbaum) postmortem during chilled and frozen storage. J. Food Biochem. 28(3):213–244.
  • Wold, J.P., Johansen, I.R., Haugholt, K.H., Tschudi, J., Thielemann, J., Segtnan, V.H., Narum, B. and Wold, E. (2006). Non-contact transflectance near infrared imaging for representative on-line sampling of dried salted coalfish (bacalao). J. Near Infrared Spectrosc. 14(1):59–66.
  • Wold, J.P., Westad, F., & Heia, K. (2001). Detection of parasites in cod fillets by using SIMCA classification in multispectral images in the visible and NIR region. Applied spectroscopy, 55(8): 1025–1034.
  • Wu, D., Sun, D.W.- and He, Y. (2012a). Application of long-wave near infrared hyperspectral imaging for measurement of colour distribution in salmon fillet. Innovative Food Sci. Emerg. Technol. 16(10):361–372.
  • Wu, D., He, H.J. and Sun, D.W.- (2012b). Non-destructive Texture Analysis of Farmed Salmon Using Hyperspectral Imaging Technique. Available from http://mx1.ageng2012.org.
  • Wu, D., Sun, D.-W., & He, Y. (2014). Novel non-invasive distribution measurement of texture profile analysis (TPA) in salmon fillet by using visible and near infrared hyperspectral imaging. Food Chemistry, 145, 417–426.
  • Xu, S.Y., Chen, X.F., Sun, D.-W. (2001). Preservation of kiwifruit coated with an edible film at ambient temperature. Journal of Food Engineering. 50(4): 211–216.
  • Yagiz, Y., Balaban, M.O., Kristinsson, H.G., Welt, B.A. and Marshall, M.R. (2009). Comparison of Minolta colorimeter and machine vision system in measuring colour of irradiated Atlantic salmon. J. Sci. Food Agric. 89(4):728–730.
  • Zheng, L.Y, Sun, D.-W. (2006). Innovative Applications of Power Ultrasound during Food Freezing Processes: A Review. Trends in Food Science & Technology. 17(11):16–23.
  • Zhu, F., Zhang, D., He, Y., Liu, F. and Sun, D.W.- (2013). Application of visible and near infrared hyperspectral imaging to differentiate between fresh and frozen-Thawed fish fillets. Food Bioprocess Technol. 6(10):2931– 2937.
  • Zhu, F., Cheng, S., Wu, D., & He, Y. (2011). Rapid discrimination of fish feeds brands based on visible and short-wave near-infrared spectroscopy. Food and Bioprocess Technology. 4(4), 597–602.

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