Evaluation of polycyclic aromatic hydrocarbon and heavy metals in packaged white shrimp (Metapenaeus affinis) in Tehran
Subject Areas :
Food Science and Technology
سحر Atefi Sedrini
1
,
A. Jamshidi
2
,
J. Hassan
3
1 - PhD student of food hygiene, Department of food hygiene, Faculty of Veterinary Medicine, Ferdowsi University of Mashhad, Mashhad, Iran
2 - Professor, Department of food hygiene, Faculty of Veterinary Medicine, Ferdowsi University of Mashhad, Mashhad, Iran
3 - Assistant professor, Department of Toxicology, Faculty of Veterinary Medicine, Tehran University,
Tehran, Iran
Received: 2020-01-19
Accepted : 2020-07-22
Published : 2020-06-21
Keywords:
White shrimp,
Heavy metal pollution,
Polycyclic aromatic hydrocarbon,
Abstract :
Heavy metals can easily contaminate the aquatic environment, especially shrimp. Considering the high nutritional value of shrimp and the importance of assessing its wholesomeness, this study aimed to determine the amount of some heavy metals (zinc, lead, arsenic, cadmium, nickel, copper, chromium, mercury, manganese, and titanium) and Polycyclic aromatic hydrocarbon in shrimp samples in Tehran, during winter of 2017. A total of 120 samples of shrimp packaged from 10 equal weight packages with similar production date and size which packed by 5 different companies randomly sampled. To determine the amount of heavy metal concentration, Atomic absorption spectrophotometry and to determine polycyclic aromatic hydrocarbon gas chromatography were used. All of the heavy metals measured in this experiment were found below the standard specified by the World Health Organization. The highest mean concentrations of heavy metals were related to zinc (6193.4 ppb), copper (1597 ppb), and arsenic (496 ppb), respectively, and the lowest mean concentrations were related to cadmium (4.8 ppb). Naphthalene (1.2ppb), acenphetylene (0.14 ppb), chrysene (7.6 ppb), and acenaphthene (5.32ppb) were present in the samples of collected shrimp, the values of which were determined higher than standard except for acenphetylene. Additionally, there was no significant difference between heavy metals and PAHs in cultivated and marine samples. In general, the consumption of these shrimps is not dangerous for humans in terms of heavy metals. However, due to the possibility of transmitting PAHs through the human food chain, contamination with PAHs can be considered as a warning for excessive consumption of shrimp.
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· Chouksey, M. K., Kadam, A. N. and Zingde, M. D. (2004). Petroleum hydrocarbon residues in the marine environment of Bassein–Mumbai. Marine Pollution Bulletin, 49(7-8): 637-647.
· Deb, S.C., Araki, T. and Fukushima, T. (2000). Polycyclic aromatic hydrocarbons in fish organs. Marine Pollution Bulletin, 40(10): 882-885.
· Dórea, J.G. (2008). Persistent, bioaccumulative and toxic substances in fish: human health considerations. Science of the Total Environment, 400(1-3): 93-114.
· Einollahi, E., Hamidi, P., Einollahi, G. and Rahimi Bashar, M.R. (2012). Polycyclic aromatic hydrocarbons study in lipophilic and liver tissue of rutilus frisii kutum of Nowshahr oil jetty, Caspian Sea. Ecology, Environment and Conservation, 18(04): 1035-1039.
· Essumang, D. K. (2010). First determination of the levels of platinum group metals in Manta birostris (Manta Ray) caught along the Ghanaian coastline. Bulletin of Environmental Contamination and Toxicology, 84(6): 720-725.
· European Food Safety Authority (EFSA). (2008). Polycyclic Aromatic Hydrocarbons in Food‐Scientific Opinion of the Panel on Contaminants in the Food Chain. EFSA Journal. 6(8), p.724.
· Fissel, B. E., Dalton, M., Felthoven, R. G., Garber-Yonts, B. E., Haynie, A., Himes-Cornell, et al., (2016). Stock Assestment and Fishery Evaluation Report for the Ground fishes Fisheries of the Gulf of Alaska and Bering Sea/Aleutian Island Area: Economic Status of the Ground fish Fisheries off Alaska, 2015.
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· Gokoglu, N., Yerlikaya, P., and Gokoglu, M. (2008). Trace elements in edible tissues of three shrimp species (Penaeus semisulcatus, Parapenaeus longirostris and Paleomon serratus). Journal of the Science of Food and Agriculture, 88(2): 175-178.
· Guo, W., He, M., Yang, Z., Lin, C. and Quan, X. (2011). Aliphatic and polycyclic aromatic hydrocarbons in the Xihe River, an urban river in China's Shenyang City: distribution and risk assessment. Journal of hazardous materials, 186(2-3): 1193-1199.
· Harikumar, P.S., Nasir, U.P. and Rahman, M.M. (2009). Distribution of heavy metals in the core sediments of a tropical wetland system. International Journal of Environmental Science and Technology, 6(2): 225-232.
· Hulya Karadede, E. (2000). Concentration of heavy metals in water, sediment and fish species from the Ataturk Dam Lake Turkey. Chemosphere, 41(9): 1371-1376.
· Kennish, M. J. (2000). Practical handbook of marine science. crc press.
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· Khalili Tilami, S. and Sampels, S. (2018). Nutritional value of fish: lipids, proteins, vitamins, and minerals. Reviews in Fisheries Science and Aquaculture, 26(2): 243-253.
· Khoramabadi, A., Alizadeh doughikollaee, I, Mohammadi, M, Eynollahi, F. (2013). Survey Heavy metals concentration (Cu, Zn and Ni) of muscle tissue of Litoppenaeus vannamei in farms of Bushehr province. Journal of Marine Science and Technology, 12(3): 91-100. [In Persian]
· Mitra, A., Barua, P., Zaman, S., and Banerjee, K. (2012). Analysis of trace metals in commercially important crustaceans collected from UNESCO protected world heritage site of Indian Sundarbans. Turkish journal of fisheries and aquatic sciences, 12(1): 53-66.
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· Pourang, N. and Amini, G. (2001). Distribution of trace elements in tissues of two shrimp species from Persian Gulf and effects of storage temperature on elements transportation. Water, Air and Soil Pollution, 129(1-4): 22-243.
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· Rana, M.N., Tangpong, J. and Rahman, M.M. (2018). Toxic dynamics of lead, cadmium, mercury and arsenic-induced kidney toxicity and treatment strategy: a mini review. Toxicology reports, 5: 704-713.
· Razavi, M. R., Vahabzade, H. Zamini, A. Askari-Sari, A. Velayatzade, M. 2013. Determination of mercury, lead and cadmium in muscle and shell in cultured fenneropenaeus indicus. New Technologies In Aquaculture Development (Journal Of Fisheries), 7(3): 63-72. [In Persian]
· Silva, B. O., Adetunde, O. T., Oluseyi, T. O., Olayinka, K. O., and Alo, B. I. (2011). Effects of the methods of smoking on the levels of polycyclic aromatic hydrocarbons (PAHs) in some locally consumed fishes in Nigeria. African journal of food science, 5(7): 384-391.
· Vafeiadi, M., Vrijheid, M., Fthenou, E., Chalkiadaki, G., Rantakokko, P., Kiviranta, et al., (2014). Persistent organic pollutants exposure during pregnancy, maternal gestational weight gain, and birth outcomes in the mother–child cohort in Crete, Greece (RHEA study). Environment international, 64: 116–123.
· Van, A. T. H., Sakamoto, M., and Yamamoto, M. (2017). Mercury and selenium levels, and their molar ratios in several species of commercial shrimp in Japan regarding the health risk of methylmercury exposure. The Journal of toxicological sciences, 42(4): 509-517.
· Wilson, M. J., Frickel, S., Nguyen, D., Bui, T., Echsner, S., Simon, B. R., and Wickliffe, J. K. (2014). A targeted health risk assessment following the Deepwater Horizon oil spill: polycyclic aromatic hydrocarbon exposure in Vietnamese-American shrimp consumers. Environmental health perspectives, 123(2): 152-159.
· World Health Organization (2011). Evaluation of certain food additives and contaminants. World Health Organization technical report series. (966), p.1.
· Wu, X. Y., anf Yang, Y. F. (2011). Heavy metal (Pb, Co, Cd, Cr, Cu, Fe, Mn and Zn) concentrations in harvest-size white shrimp Litopenaeus vannamei tissues from aquaculture and wild source. Journal of Food Composition and Analysis, 24(1): 62-65.
· Wu, Y. L., Wang, X. H., Li, Y. Y., and Hong, H. S. (2011). Occurrence of polycyclic aromatic hydrocarbons (PAHs) in seawater from the Western Taiwan Strait, China. Marine pollution bulletin, 63(5-12): 459-463.
· Zhang, G., Pan, Z., Wang, X., Mo, X. and Li, X. (2015). Distribution and accumulation of polycyclic aromatic hydrocarbons (PAHs) in the food web of Nansi Lake, China. Environmental Monitoring and Assessment, 187:173.
· Zheng, B., Ma, Y., Qin, Y., Zhang, L., Zhao, Y., Cao, W., Yang, C. and Han, C. (2016). Distribution, sources, and risk assessment of polycyclic aromatic hydrocarbons (PAHs) in surface water in industrial affected areas of the Three Gorges Reservoir, China. Environmental Science of Pollutant Research, 23: 23485-23495.