CHANGES IN TOTAL VOLATILE BASIC NITROGEN AND BIOGENIC AMINES IN TWO COMMON SPECIES OF MARINE FISH AT HIGH TEMPERATURE

ZHANG Jin-Biao; YANG Xiao-Zhen; FAN Peng; ZHAO Liu-Lan; WANG Chun; YANG Zhi-Gang; HONG Yu-Hang; CHENG Yong-Xu

doi:10.3724/SP.J.1035.2012.00284

Volume 36 Issue 2

Mar. 2014

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ACTA HYDROBIOLOGICA SINICA > 2012 > 36(2): 284-290. > DOI: 10.3724/SP.J.1035.2012.00284

ZHANG Jin-Biao, YANG Xiao-Zhen, FAN Peng, ZHAO Liu-Lan, WANG Chun, YANG Zhi-Gang, HONG Yu-Hang, CHENG Yong-Xu. CHANGES IN TOTAL VOLATILE BASIC NITROGEN AND BIOGENIC AMINES IN TWO COMMON SPECIES OF MARINE FISH AT HIGH TEMPERATURE[J]. ACTA HYDROBIOLOGICA SINICA, 2012, 36(2): 284-290. DOI: 10.3724/SP.J.1035.2012.00284

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CHANGES IN TOTAL VOLATILE BASIC NITROGEN AND BIOGENIC AMINES IN TWO COMMON SPECIES OF MARINE FISH AT HIGH TEMPERATURE

Key Laboratory of Exploration and Utilization of Aquatic Genetic Resources, Shanghai Ocean University, Shanghai 201306, China

Received Date: May 08, 2011
Rev Recd Date: December 27, 2011
Published Date: March 24, 2012

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Collichthys lucidus and Harpodon nehereus are small fishes which are common in the coastal waters of China. They are often fed to aquatic animals, and are also food for human. In this study, total volatile basic nitrogen( T-VBN)and nine biogenic amines (cadaverine, putrescine, histamine, tyramine, serotonin, spermidine, spermine, dopamine and octopamine) of C. lucidus and H. nehereus storage at 30℃ were examined in every 6h for 48h. The correlation analysis of the contents in T-VBN or biogenic amines with the storage time were also evaluated for these two species. The results showed that there were differences in the contents of biogenic amines and T-VBN in C. lucidus and H. nehereus. The content of T-VBN increased from 8.19 mg/100 g (0h) to 568.05 mg/100 g (48h) in C. lucidus, and from 13.16 mg/100 g (0h) to 361.34 mg/100 g (48h) in H. nehereus. The increase in the T-VBN content of C. lucidus was significantly higher than that in H. nehereus. The T-VBN contents of C. lucidus and H. nehereus exceeded the national edible standard of 30 mg/100 g after 10h and 12h respectively. Therefore these two species were not suitable to eat after 10h and 12h respectively. The highest contents of biogenic amines detected in these two species in order were cadaverine, putrescine, tyramine and histamine. The contents of these four biogenic amines increased significantly with the extension of storage time (PC. lucidus was significantly higher than that in H. nehereus (PP>0.05). Dopamine was not detected in these two species. The contents of T-VBN, cadaverine, putrescine, histamine and tyramine were found to correlate closely(P<0.01) with the storage time in these two species.
- Collichthys lucidus,
- Harpodon nehereus,
- High temperature,
- T-VBN,
- Biogenic amines,
- Freshness

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[1]	Shen Y X. Aquatic Food Science [M]. Beijing: China AgriculturalPress. 2001, 79 [沈月新. 水产食品学. 北京: 中国农业出版社. 2001, 79]
[2]	Qi X Y, Li Y, Zhou P G. Changes in content of ATP relatedcompounds in the muscle of Macrobrachium nipponenseduring ice storage and evaluation of the freshness [J]. Journalof Fisheries of China, 2001, 25(5): 482-484 [戚晓玉,李燕, 周培根. 日本沼虾冰藏期间ATP 降解产物变化及鲜度评价. 水产学报, 2001, 25(5): 482-484]
[3]	Dhaouadi A, Monser L, Sadok S. Validation of aflow-injection-gas diffusion method for total volatile basicnitrogen determination in seafood products [J]. Food Chemistry,2007, 103(3): 1049-1053
[4]	Mackie I M, Pirie L, Yamanaka H. Biogenic amine compositionof the gonads of herring (Clupea harengus), mackerel(Scomber scombrus) and scallop (Pecten maximus) [J]. FoodChemistry, 1997, 60(1): 57-59
[5]	Jin C X, Pan L Q. Preliminary studieson physiological adaptivemechanism of Procam barus clarkii osmoregulation underdifferent ambient salinities [J]. Acta HydrobiologicaSinica, 2008, 32(6): 894-899 [金彩霞, 潘鲁青. 盐度变化对克氏原螯虾渗透调节影响机制的初步研究. 水生生物学报, 2008, 32(6): 894-899]
[6]	Baixas N S, Bover C S, Vidal-Carou M C, et al. Volatiles andnonvolatile amines in Mediterranean Hake as a function oftheir storage temperature [J]. Food Science, 2001, 66(1): 83-88
[7]	Yang X Z, Wang J F, Fan P, et al. Survival, growth, sexualmaturity and tissue histamine accumulation of the mysis,Neomysis awatschensis and N. japonica Nakazawa, fed histaminesupplemented diets [J]. Aquaculture, 2010, 302(3-4):256-260
[8]	Tapia-Salazar M, Smith T K, Harris A, et al. Effect of dietaryhitamine supplementation on growth and tissue amine concentrationsin blue shrimp Litopenaeus stylirostris [J].Aquaculture, 2001, 193(1): 281-289
[9]	GB/T 18108-2008, Fresh marine fish [S]. Beijing: ChinaStandard Press. 2008, 2 [GB/T 18108-2008, 鲜海水鱼. 北京: 中国标准出版社. 2008, 2]
[10]	GB/T 2740-1994, Hygienic standard for shrimp [S]. Beijing:China Standard Press. 1994, 1 [GB/T 2740-1994, 河虾卫生标准. 北京: 中国标准出版社. 1994, 1]
[11]	GB/T2741-1994, Hygienic standard for sea shrimp [S]. Beijing:China Standard Press. 1994, 61 [GB/T2741-1994, 海虾卫生标准. 北京: 中国标准出版社. 1994, 61]
[12]	Xie J, Li J X, Pan Y J. Effect of modified atmosphere packagewith varying oxygen concentrations combined with controlledfreezing-point storage on pork fresh-keeping [J].Transactions of the Chinese Society of Agricultural Engineering,2009, 25(10): 307-311 [谢晶, 李建雄, 潘迎捷.冰温结合不同比例氧气气调对冷却肉的保鲜效果. 农业工程学报, 2009, 25(10): 307-311]
[13]	Ding Z P, Liu C Q, Chen D, et al. Determinati on of ten biogenicamines in fishery products by high performance liquidchromatography [J]. Journal of Instrumental Analysis, 2006,25(4): 59-62 [丁卓平,刘辰麒, 陈迪, 等. 高效液相色谱法同时测定水产品中10 种生物胺的研究. 分析测试学报,2006, 25(4): 59-62]
[14]	Aksnes A, Brekken B. Tissue degradation, amino acid liberationand bacterial decomposition of bulk stored capelin [J].Journal of the Science of Food and Agriculture, 1988, 45(1):53-60
[15]	Anissa D, Lotfi M, Saloua S, et al. Validation of a flowinjection-gas discussion method for total volatile basic nitrogendetermination in seafood products [J]. Food Chemistry,2007, 103(3): 1049-1053
[16]	Shakila R J, Vijayalakshmi K, Jeyasekaran G. Changes inhistamine and volatile amines in six commercially importantspecies of fish of the Thoothukkudi coast of Tamil Nadu, Indiastored at ambient temperature [J]. Food Chemistry, 2003,82(3): 347-352
[17]	Limbo S, Sinelli N, Torri L, et al. Freshness decay and shelflife predictive modelling of European sea bass (Dicentrarchuslabrax) applying chemical methods and electronic nose [J].Food Science and Technology, 2009, 42(5): 977-984
[18]	Pedro C, Juan C, Penedo P, et al. Total volatile base nitrogenand its use to assess freshness in European sea bass stored inice [J]. Food Control, 2006, 17(4): 245-248
[19]	Ricque-Marie D, Parra M I A L, Cruz-Suarez L E. Raw materialfreshness, a quality criterion for fish meal fed to shrimp[J]. Aquaculture, 1998, 165(1-2): 95-109
[20]	Jensen N C. Evaluation of the influence of drying methodson the feed conversion value of fish meal for rainbow trout[A]. Recreation Annual Conference, IFOMA, 2 College Yard,Lower Dagnall Street, St. Albans, Herts. AL3 4PA, UK [C].1986, 74-86
[21]	Pike I H, Hardy R W. Standards for assaying quality of feedingredients [A]. In: D'Abramo L R, Conklin D E, AkiyamaD M (Eds.), Crustacean Nutrition, Louisi-ana State University,USA [C]. 1997. 473-492
[22]	Dawood A A, Karkalas J, Roy R N, et al. The occurrence ofnon-volatile amines in chilled-stored rainbowtrout (Salmoirideus) [J]. Food Chemistry, 1998, 27: 33-45
[23]	Auerswald L, Morren C, Lopata A L. Histamine levels inseventeen species of fresh and processed South African seafood[J]. Food Chemistry, 2006, 98(2): 231-239
[24]	Kima M K, Mah J H, Hwang H J. Biogenic amine formationand bacterial contribution in fish, squid and shellfish [J].Food Chemistry, 2009, 116(1): 87-95
[25]	Sims G G, Farn G, York R K. Quality index for tuna: correlationof sensory attributes with chemical indices. [J]. FoodScience, 1992, 57(5): 1112-1115
[26]	Taylor S L.Histamine poisoning associate with fish, cheeseand other foods [M]. Geneva, Switzer-land: World HealthOrganization. 1985, 1-47
[27]	FDA (Food and Drug Administration, USA).Decompositionand histamine-raw frozen tuna and mahi-mahi; Canned tuna;and Related species; availability of revised compliance policyguide [J]. Federal Registration, 1995, 60(149): 39754-39756
[28]	Brink B C, Damirik H M, Joosten L J, et al. Occurrence andformation of biologically active amines in foods [J]. FoodMicrobiol, 1990, 11(1): 73-84
[29]	Cruz-Suarez L E, Tapia-Salazar M, Ricque D, et al. Finalevaluation of different biotoxicological score fish meals onPenaeus íannamei Juveniles [A]. In: Gatlin D M III (Eds.),Proceedings of the VI International Symposium on Nutritionand Feeding of Fish. August 11–15, 1996, College Station,TX, USA [C]. 1996, 73
[30]	Fairgrieve W T, Myers M S, Hardy R W, et al. Gastric abnormalitesin rainbow trout Oncorhynchus mykiss fed aminesupplemented diets or chicken gizzard-erosion- positive fishmeal [J]. Aquaculture, 1994, 127(2-3): 219-232
[31]	Tapia-Salazar M, Cruz-Suarez L E, Ricque-Marie D, et al.Effect of fishmeal made from stale versus fresh herring andof added crystalline biogenic amines on growth and survival of blue shrimp Litopenaeus stylirostris fed practical diets [J].Aquaculture, 2004, 242(1-4): 437-453
[32]	Tapia-Salazar M, Smith T K, Harris A, et al. Response ofblue shrimp Litopenaeus stylirostris to dietary cadaverinesupplementation[J]. Aquaculture Research, 2004, 35(10):1092-1098

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CHANGES IN TOTAL VOLATILE BASIC NITROGEN AND BIOGENIC AMINES IN TWO COMMON SPECIES OF MARINE FISH AT HIGH TEMPERATURE

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