Abstract
The effect of storage period before reheating on the volatile composition and lipid oxidation of steamed yellowtail fish muscle samples [ordinary muscle (OM) and dark muscle (DM)] was studied to evaluate the quality of fish meat in the cook-chill process. In OM and DM samples that were reheated on day 7 of storage, the levels of 26 compounds and most volatiles (47), respectively, were significantly higher than in samples that were steamed only once. In DM steamed only once and in DM reheated after 7 days of storage, values of nine and 32 compounds, respectively, were significantly higher than in OM under identical conditions. In both muscle types, the peroxide values (PVs) and thiobarbituric acid-reactive substances (TBARS) values significantly increased when the meat was stored for 7 days before reheating. Reheated DM showed significantly lower values and significantly lower tendency for PV except for day 1 of storage and significantly higher TBARS values at day 7 of storage compared to those in reheated OM. In reheated muscle of both types, the fatty acid composition was not significantly different from that of samples steamed only once, except for 20:5n-3 of DM. Sensory evaluation showed that at days 3 and 7 of storage, the odor of reheated fish slices had deteriorated. Therefore, steamed yellowtail meat reheated after refrigerated storage of up to 3 days could be consumed without deterioration of its odor and nutritive value.
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References
Kawai T (1996) Fish flavor. Crit Rev in Food Sci Nutr 36:257–298
Liu JK, Zhao SM, Xiong SB, Zhang SH (2009) Influence of recooking on volatile and non-volatile compounds found in silver carp Hypophthalmichthys molitrix. Fish Sci 75:1067–1075
Chung H, Choi A, Cho IH, Kim YS (2011) Changes in fatty acids and volatile components in mackerel by broiling. Eur J Lipid Sci Technol 113:1481–1490
Tanimoto S, Shimoda M (2015) Changes in volatile compounds of dark and ordinary muscles of yellowtail (Seriola quinqueradiata) during short-term cold storage. J Aquat Food Prod Technol. doi:10.1080/10498850.2013.840349
Cayhan GG, Selli S (2011) Characterization of the key aroma compounds in cooked grey mullet (Mugil cephalus) by application of aroma extract dilution analysis. J Agric Food Chem 59:654–659
Moreira N, Valente LMP, Castro-Cunha M, Cunha LM, Pinho PG (2013) Effect of storage time and heat processing on the volatile profile of Senegalese sole (Solea senegalensis Kaup, 1858) muscle. Food Chem 138:2365–2373
Wu W, Tao N, Gu S (2014) Characterization of the key odor-active compounds in steamed meat of Coilia ectenes from Yangtze River by GC–MS–O. Eur Food Res Technol 238:237–245
Josephson DB, Lindsay RC, Stuiber DA (1984) Biogenesis of lipid-derived volatile aroma compounds in the emerald shiner (Notropis atherinoides). J Agric Food Chem 32:1347–1352
Shimomura M, Yoshimatsu F, Matsumoto F (1971) Studies on cooked fish odor of cooked horse mackerel. J Home Econ Jpn 22:106–112 (in Japanese with English abstract)
Song XA, Hirata T, Sakaguchi M (2000) Proximate composition and nitrogenous extractive components in fish muscle and internal organ. Nippon Suisan Gakkaishi 66:282–290 (in Japanese with English abstract)
Sohn JH, Taki Y, Ushio H, Kohata T, Shioya I, Ohshima T (2005) Lipid oxidations in ordinary and dark muscles of fish: influences on rancid off-odor development and color darkening of yellowtail flesh during ice storage. J Food Sci 70:S490–S496
Sohn JH, Ushio H, Ishida N, Yamashita M, Terayama M, Ohshima T (2007) Effect of bleeding treatment and perfusion of yellowtail on lipid oxidation in post-mortem muscle. Food Chem 104:962–970
Tanimoto S, Song XA, Sakaguchi M, Sugawara T, Hirata T (2011) Levels of glutathione and related enzymes in yellowtail fish muscle subjected to ice storage in a modified atmosphere. J Food Sci 76:C974–C979
Niki E (2001) Lipid peroxidation and its inhibition: overview and perspectives. J Oleo Sci 50:313–320
Tokur B, Korkmaz K (2007) The effects of an iron-catalyzed oxidation system on lipids and proteins of dark muscle fish. Food Chem 104:754–760
Department of Health, Great Britain (1989) Chilled and frozen: guidelines on cook-chill and cook-freeze catering systems. London, H.M. Stationery Office
St Angelo AJ, Vercellotti JR, Legendre MG, Vinnett CH, Kuan JW, James C, Dupuy HP (1987) Chemical and instrumental analyses of warmed-over flavor in beef. J Food Sci 52:1163–1168
Poste LM, Willemot C, Butler G, Patterson C (1986) Sensory aroma scores and TBA values as indices of warmed-over flavor in pork. J Food Sci 51:886–888
Ang CYW, Lyon BG (1990) Evaluations of warmed-over flavor during chill storage of cooked broiler breast, thigh and skin by chemical, instrumental and sensory methods. J Food Sci 55:644–648
Bligh EG, Dyer WJ (1959) A rapid method for total lipid extraction and purification. Can J Biochem Physiol 37:911–917
Akasaka K, Sasaki I, Ohrui H, Meguro H (1992) A simple fluorometry of hydroperoxides in oils and foods. Biosci Biotechnol Biochem 56:605–607
AOCS (1960) Method Cd 8-53. In: Official and tentative method of the American oil chemists’ society, vol. I and II, 3rd ed. American Oil Chemists’ Society, Champaign, IL
Witte VC, Krause GF, Bailey ME (1970) A new extraction method for determining 2-thiobarbituric acid values of pork and beef during storage. J Food Sci 35:582–585
Kovats ES (1965) Gas chromatographic characterization of organic substances in the retention index system. Adv Chromatogr 1:229–247
Stone H, Sidel JL (1992) Sensory evaluation practices, 2nd edn. Academic Press Inc, Tokyo
Funaki J, Tamura T, Nishinoaki M, Misaka T, Eto W, Asakura T (2010) Utilization of oryzacystatin for regulating the ripening of squid Shiokara, a traditional Japanese salted and fermented seafood. J Food Sci 75:S527–S530
Josephson DB, Lindsay RC (1986) Enzymic generation of volatile aroma compounds from fresh fish. In: Parliment TH, Croteau R (eds) Biogeneration of aromas. American Chemical Society Symposium series 317, Washington, DC, pp 201–219
Aro T, Tahvonen R, Koskinen L, Kallio H (2003) Volatile compounds of Baltic herring analysed by dynamic headspace sampling–gas chromatography–mass spectrometry. Eur Food Res Technol 216:483–488
Prost C, Hallier A, Cardinal M, Serot T, Courcoux P (2004) Effect of storage time on raw sardine (Sardina pilchardus) flavor and aroma quality. J Food Sci 69:S198–S204
Iglesias J, Medina I (2008) Solid-phase microextraction method for the determination of volatile compounds associated to oxidation of fish muscle. J Chromatogr A 1192:9–16
Castro FAF, Sant’Ana HMP, Campos FM, Costa NMB, Silva MTC, Salaro AL, Franceschini SCC (2007) Fatty acid composition of three freshwater fishes under different storage and cooking processes. Food Chem 103:1080–1090
Weber J, Bochi VC, Ribeiro CP, Victório AM, Emanuelli T (2008) Effect of different cooking methods on the oxidation, proximate and fatty acid composition of silver catfish (Rhamdia quelen) fillets. Food Chem 106:140–146
Domiszewski Z (2103) Effect of heating fatty fish: Baltic herring (Clupea harengus membras), European sprat (Sprattus sprattus) and rainbow trout (Oncorhynchus mykiss) on lipid oxidation and contents of eicosapentaenoic and docosahexaenoic acids. Int J Food Sci Technol 48:786–793
Karlsdottir MG, Sveinsdottir K, Kristinsson HG, Villot D, Craft BD, Arason S (2014) Effect of thermal treatment and frozen storage on lipid decomposition of light and dark muscles of saithe (Pollachius virens). Food Chem 164:476–484
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Tanimoto, S., Kitabayashi, K., Fukusima, C. et al. Effect of storage period before reheating on the volatile compound composition and lipid oxidation of steamed meat of yellowtail Seriola quinqueradiata . Fish Sci 81, 1145–1155 (2015). https://doi.org/10.1007/s12562-015-0921-4
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DOI: https://doi.org/10.1007/s12562-015-0921-4