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Reviews

Mercury Concentrations in Fresh and Canned Tuna: A Review

Girish KumarDepartment of Zoology, DAV University, Jalandhar, Punjab, India;Faculty of Fisheries and Protection of Waters, South Bohemian Research Center of Aquaculture and Biodiversity of Hydrocenoses, University of South Bohemia in Ceske Budejovice, Vodňany, Czech RepublicCorrespondence[email protected]
Pages 111-120 | Published online: 31 Aug 2017

References

  • Abolghait, S. K. and A. M. Garbaj. Determination of cadmium, lead and mercury residual levels in meat of canned light tuna (Katsuwonus pelamis and Thunnus albacares) and fresh little tunny (Euthynnus alletteratus) in Libya. Open Vet. J., 5(2): 130–137 (2015).
  • Adams, D. H. Total mercury levels in tunas from offshore waters of the Florida Atlantic coast. Mar. Pollut. Bull., 49: 659–667 (2004).
  • Agusa, T., T. Kunito, G. Yasunga, H. Iwata, A. Subramanian, A. Ismail, and S. Tanabe. Concentration of trace elements in marine fish and its risk assessment in Malaysia. Mar. Pollut. Bull. 51: 896–911 (2005).
  • Andayesh, S., M. R. Hadiani, Z. Mousavi, and S. Shoeibi. Lead, cadmium, arsenic and mercury in canned tuna fish marketed in Tehran, Iran. Food Addit. Contam. Part B Surveill. 8: 93–98 (2015).
  • Ando, M., M. Seoka, M. Nakatani, T. Tsujisawa, Y. Katayama, M. Nakao, Y. Tsukamasa, and K. Kawasaki. Trial for quality control in mercury contents by using tail muscle of full cycle cultured bluefin tuna (Thunnus orientalis). J. Food Prot. 71: 595–601 (2008).
  • Ashraf, W. Levels of selected heavy metals in tuna fish. Arab. J. Sci. Eng. 31(1A): 89–92 (2006).
  • Avenant-Oldewage, A. and H. M. Marx, Bioaccumulation of chromium, copper and iron in the organs and tissues of Clarias gariepinus in the Olifants River, Kruger National Park. Water SA 26: 569–582 (2000).
  • Balshaw, S., J. W. Edwards, K. E. Ross, and B. J. Daughtry. Mercury distribution in the muscular tissue of farmed southern bluefin tuna (Thunnus maccoyii) is inversely related to the lipid content of tissues. Food Chem. 111: 616–621 (2008a).
  • Balshaw, S., J. W. Edwards, K. E. Ross, D. Ellis, D. J. Padula, and B. J. Daughtry. Empirical models to identify mechanisms driving reductions in tissue mercury concentration during culture of farmed southern bluefin tuna Thunnus maccoyii. Mar. Pollut. Bull. 56: 2009–2017 (2008b).
  • Belch, J. J. F. and A. Muir. n-6 and n-3 essential fatty acids in rheumatoid arthritis and other rheumatic conditions. Proc. Nutr. Soc. 57: 563–569 (1998).
  • Besada, V., J. J. Gonzalez, and F. Schultze. Mercury, cadmium, lead, arsenic, copper and zinc concentrations in albacore, yellowfin tuna and bigeye tuna from the Atlantic Ocean. Cienc. Mar. 32: 439–445 (2006).
  • Blum, J. D., B. N. Popp, J. C. Drazen, C. A. Choy, and M.W. Johnson. Methylmercury production below the mixed layer in the North Pacific Ocean. Nat. Geosci. 6: 879–884 (2013).
  • Bosch, A.C., B. O'Neill, G.O. Sigge, S.E. Kerwath, and L.C. Hoffman. Mercury accumulation in Yellowfin tuna (Thunnus albacares) with regards to muscle type, muscle position and fish size. Food Chem. 190: 351–356 (2016).
  • Boush, G. M. and J. R. Thieleke. Total mercury content in yellowfin and bigeye tuna. Bull. Environ. Contam. Toxicol. 30: 291–297 (1983).
  • Burger, J. and M. Gochfeld. Mercury in canned tuna: White versus light and temporal variation. Environ. Res. 96: 239–249 (2004).
  • Burger, J., C. Jeitner, and M. Gochfeld. Locational differences in mercury and selenium levels in 19 species of saltwater fish from New Jersey. J. Toxicol. Environ. Health A. 74(13): 863–874 (2011).
  • Chen, C. Y., C. C. Lai, K. S. Chen, C. C. Hsu, C. C. Hung, and M. H. Chen. Total and organic mercury concentrations in the muscles of Pacific albacore (Thunnus alalunga) and bigeye tuna (Thunnus obesus). Mar. Pollut. Bull. 85: 606–612 (2014).
  • Chen, M. H., P. Y. Teng, C. Y. Chen, and C. C. Hsu. Organic and total mercury levels in bigeye tuna, Thunnus obesus, harvested by Taiwanese fishing vessels in the Atlantic and Indian Oceans. Food Addit. Contam. Part B Surveill. 4: 15–21 (2011).
  • Chen, M. H., C. C. Shih, C. L. Chou, and L. S. Chou. Mercury, organic-mercury and selenium in small cetaceans in Taiwanese waters. Mar. Pollut. Bull. 45: 237–245 (2002).
  • Crump, K.L. and V. L. Trudeau. Mercury-induced reproductive impairment in fish. Environ. Toxicol. Chem. 28: 895–907 (2009).
  • Dabeka, R. W., A. D. Mckenzie, and D. S. Forsyth. Total mercury in canned tuna sold in Canada in 2006. Food Addit. Contam. Part B Surveill. 7: 110–114 (2014).
  • de Pinho, A. P., J. R. D. Guimarães, A. S. Martins, P. A. S. Costa, G. Olavo, and J. Valentin. Total mercury in muscle tissue of five shark species from Brazilian offshore waters: effects of feeding habit, sex, and length. Environ. Res. 89: 250–258 (2002).
  • Drevnick, P. E., C. H. Lamborg, and M. J. Horgan. Increase in mercury in Pacific yellowfin tuna. Environ. Toxicol. Chem. 34, 931–934 (2015).
  • EPA and FDA “What you need to know about mercury in fish and shellfish” www.epa.gov/waterscience/fishadvice/advice.html (accessed 04.02.2016) (2004).
  • EWG. Five things FDA and EPA didn't tell you about seafood safety. http://www.ewg.org (accessed 04.02.2016) (2014).
  • Gelsleichter, J. and C. J. Walker. Pollutant exposure and effects in sharks and their relatives, pp. 491–537. In: Sharks and their Relatives II: Biodiversity, Adaptive Physiology, and Conservation. (Musick, J. A. and M. R. Heithaus, Eds.), Carrier, J.C., Boca Raton, FL: CRC Press (2010).
  • Gerstenberger, S. L., A. Martinson, and J. L. Kramer. An evaluation of mercury concentrations in three brands of canned tuna. Environ. Toxicol. Chem. 29: 237–242 (2010).
  • Geusens, P., C. Wouters, J. Nijs, Y. Jiang, and J. Dequeker. Long-term effects of omega-3 fatty acid supplementation in active rheumatoid arthritis. A 12-month, double blind, controlled study. Arthritis Rheum. 37: 824–829 (1994).
  • Golovanova, I. L. Effect of heavy metals on the physiological and biochemical status of fishes and aquatic invertebrates. Inland Water Biol. 1: 93–101 (2008).
  • González-Estecha, M., M. J. Martínez-García, M. Fuentes-Ferrer, A. Bodas-Pinedo, A. Calle-Pascual, J. M. Ordóñez-Iriarte, C. Fernández-Pérez, N. Martell-Claros, M. A. Rubio-Herrera, E. Gómez-Hoyos, and J. Guillén-Pérez. Mercury in canned tuna in Spain. Is light tuna really light? Food Nutr. Sci. 4, 48–54 (2013).
  • Hajeb, P., S. Jinap, and I. Ahmad. Biomagnifications of mercury and methylmercury in tuna and mackerel. Environ. Monit. Assess. 171: 205–217 (2010).
  • Hall, R. A., E. G. Zook, and G. M. Meaburn. National marine fisheries service survey of trace elements in the fishery resource. NOAA Technical Report NMFS SSRF-721. pp. 313 (1978).
  • Harada, M. Minamata disease: methylmercury poisoning in Japan caused by environmental pollution. Crit. Rev. Toxicol. 25(1): 1–24 (1995).
  • Havelková, M., L. Dušek, D. Neméthová, G. Poleszczuk, and Z. Svobodová. Comparison of mercury distribution between liver and muscle – A biomonitoring of fish from lightly and heavily contaminated localities. Sensors. 8: 4095–4109 (2008).
  • Hightower, J. and D. Moore. Mercury levels in high-end consumers of fish. Environ. Health Perspect. 111: 604–608 (2003).
  • Hisamichi, Y., K. Haraguchi, and T. Endo. Levels of mercury and organochlorine compounds and stable isotope ratios in three tuna species taken from different regions of Japan. Environ. Sci. Technol. 44: 5971–5978 (2010).
  • Hong, Y. S., Y. M. Kim, and K. E. Lee. Methylmercury exposure and health effects. J. Prev. Med. Public Health 45: 353–363 (2012).
  • Ikem, A. and N. O. Egiebor, Assessment of trace elements in canned fishes (mackerel, tuna, salmon, sardines and herrings) marketed in Georgia and Alabama (United States of America). J. Food Compost. Anal. 18: 771–787 (2005).
  • Karagas, M. R., A. L. Choi, E. Oken, M. Horvat, R. Schoeny, E. Kamai, W. Cowell, P. Grandjean, and S. Korrick. Evidence on the human health effects of low-level methylmercury exposure. Environ. Health Perspect. 120: 799–806 (2012).
  • Khansari, F. E., M. Ghazi-Khansari, M. Abdollahi. Heavy metals content of canned tuna fish. Food Chem. 93(2): 293–296 (2005).
  • Knobeloch, L., H. A. Anderson, P. Imm, D. Peters, and A. Smith. Fish consumption, advisory awareness, and hair mercury levels among women of childbearing age. Environ. Res. 97: 219–226 (2005).
  • Kojadinovic, J., M. Potier, M. Le Corre, R. P. Cosson, and P. Bustamante. Bioaccumulation of trace elements in pelagic fish from the Western Indian Ocean. Environ. Pollut. 146: 548–566 (2007).
  • Kraepiel, A. M. L., K. Keller, H. B. Chin, E. G. Malcolm, and F. M. M. Morel. Sources and variations of mercury in tuna. Environ. Sci. Technol. 37: 5551–5558 (2003).
  • Kris-Etherton, P., W. Harris, and L. Appel. Fish consumption, fish oil, omega-3 fatty acids, and cardiovascular disease. Circulation 106: 2747–2757 (2002).
  • Kumar, G. and M. Kocour. Population genetic structure of tunas inferred from molecular markers: a review. Rev. Fish. Sci. Aquacult. 23: 72–89 (2015).
  • Lares, M. L., M. A. Huerta-Diaz, S.G. Marinone, and M. Valdez-Marquez. Mercury and cadmium concentrations in farmed bluefin tuna (Thunnus orientalis) and the suitability of using the caudal peduncle muscle tissue as a monitoring tool. J. Food Prot. 75(4): 725–730 (2012).
  • Law, R. J., R. J. Morris, C. R. Allchin, and B. R. Jones. Metals and chlorobiphenyls in tissues of sperm whales (Physeter macrocephalus) and other cetacean species exploiting similar diets. Bull. Kon. Belg. Inst. Natuurwet. Biologie, 67(suppl.): 79–89 (1997).
  • Leah, R., S. Evans, and M. Johnson. Mercury in muscle tissue of lesser-spotted dog fish (Scyliorhinus caniculus L.) from the north-east Irish Sea. Sci. Total Environ. 108: 215–224 (1991).
  • Lehnherr, I., V. L. St Louis, H. Hintelmann, and J. L. Kirk. Methylation of inorganic mercury in polar marine waters. Nat. Geosci. 4: 298–302 (2011).
  • Licata, P., D. Drombetta, M. Cristani, C. Naccari, D. Martino, N. Calo, and F. Naccari. Heavy metals in liver and muscle of bluefin tuna (Thunnus thynnus) caught in the Straits of Messina (Sicily, Italy). Environ. Monit. Assess. 107: 239–248 (2005).
  • Mahalakshmi, M., S. Balakrishnan, K. Indira, and M. Srinivasan. Characteristic levels of heavy metals in canned tuna fish. J. Toxicol. Environ. Health Sci. 4(2): 43–45 (2012).
  • Menasveta, P. and R. Siriyong. Mercury content of several predacious species in the Andaman Sea. J. Sci. Soc. 2: 185–194 (1976).
  • Mol, S. Levels of selected trace metals in canned tuna fish produced in Turkey. J. Food Composit. Anal. 24: 66–69 (2011).
  • Monteiro, L. R., V. Costa, R. W. Furness, and R. S. Santos. Mercury concentrations in prey fish indicate enhanced bioaccumulation in mesopelagic environments. Mar. Ecol. Prog. Ser. 141: 25 (1996).
  • Musyl, M. K., R. W. Brill, C. H. Boggs, D. S. Curran, T. K. Kazama, and M. P. Seki. Vertical movements of bigeye tuna (Thunnus obesus) associated with islands, buoys, and seamounts near the main Hawaiian Islands from archival tagging data. Fish. Oceanogr. 12: 152–169 (2003).
  • Nair, S. S. D., J. W. Leitch, J. Falconer, and M. L. Garg. Prevention of cardiac arrhythmia by dietary (n-3) polyunsaturated fatty acids and their mechanism of action. J. Nutr. 127(3): 383–393 (1996).
  • Nakao, M., M. Seoka, M. Nakatani, T. Okada, S. Miyashita, Y. Tsukamasa, K. Kawasaki, and M. Ando. Reduction of mercury levels in cultured bluefin tuna, Thunnus orientalis, using feed with relatively low mercury levels. Aquaculture 288: 226–232 (2009).
  • Nakao, M., M. Seoka, Y. Tsukamasa, K. I. Kawasaki, and M. Ando. Possibility for decreasing of mercury content in bluefin tuna Thunnus orientalis by fish culture. Fish. Sci. 73: 724–731 (2007).
  • National Academy of Sciences. Toxicological effects of methylmercury. National Academy Press, Washington, D.C. (2000).
  • Okyere, H., R. B. Voegborlo, and S. E. Agork. Human exposure to mercury, lead and cadmium through consumption of canned mackerel, tuna, pilchard and sardine. Food Chem. 179: 331–335 (2015).
  • Peterson, C. L., W. L. Klawe, and G. D. Sharp. Mercury in tunas: a review. Fish. Bull. 71: 603–613 (1973).
  • Rahimi, E. and A. Behzadnia. Determination of mercury in fish (Otollithes ruber) and canned tuna fish in Khuzestan and Shiraz, Iran. World Appl. Sci. J. 15(11): 1553–1556 (2011).
  • Rahimi, E., M. Hajisalehi, H. R. Kazemeini, A. Chakeri, A. Khodabakhsh, M. Derakhshesh, M. Mirdamadi, A. G. Ebadi, S. A. Rezvani, and M. F. Kashkahi. Analysis and determination of mercury, cadmium and lead in canned tuna fish marketed in Iran. Afr. J. Biotechnol. 9(31): 4938–4941 (2010).
  • Rice, G., J. Swartout, K. Mahaffey, and R. Schoeny. Derivation of U.S. EPS's oral Reference Dose (RfD) for methylmercury. Drug Chem. Toxicol. 23: 41–54 (2000).
  • Rivers, J. B., J. E. Pearson, and C. D. Shult. Total and organic mercury in marine fish. Bull. Environ. Contam. Toxicol. 8: 257–266 (1972).
  • Rose, D. P. Dietary fatty acids and cancer. Am. J. Clin. Nutr. 66(Suppl): 998s–1003s (1997).
  • Rose, D. P. and J.M. Connolly. Effects of fatty acids and inhibitors of eicosanoid synthesis on the growth of human breast cancer cell line in culture. Cancer Res. 50: 7139–7144 (1990).
  • Rouhtula, M. and J. K. Miettinen, Retention and excretion of 203Hg-labelled methylmercury in rainbow trout. Okios 26: 385–390 (1975).
  • Russo, R., A. Lovoi, A. DeSimone, F. P. Serpe, A. Anastasio, T. Pepe, D. Cacace, and L. Severino. Heavy metals in canned tuna from Italian markets. J. Food Protect. 76: 355–359 (2013).
  • Sompongchaiyakul, P., J. Hantow, S. Sornkrut, M. Sumontha, and R. P. P. K. Jayasinghe. An assessment of mercury concentration in fish tissues caught from three compartments of the Bay of Bengal. The Ecosystem-Based Fishery Management in the Bay of Bengal, 221–232 (2008).
  • Srebocan, E., J. Pompe-Gotal, A. Prevendar-Crnic, and E. Ofner. Mercury concentrations in captive Atlantic bluefin tuna (Thunnus thynnus) farmed in the Adriatic Sea. Vet. Med. 52(4): 175–177 (2007).
  • Stickland, N. C. Growth and development of muscle fibres in the rainbow trout (Salmo gairdneri). J. Anat. 137(2): 323–333 (1983).
  • Storelli, M. M., G. Barone, G. Cuttone, D. Giungato, and R. Garofalo. Occurrence of toxic metals (Hg, Cd and Pb) in fresh and canned tuna: public health implications. Food Chem. Toxicol. 48, 3167–3170 (2010).
  • Storelli, M. M., R. Giacominelli-Stuffler, A. Storelli, G. O. Marcotrigiano. Accumulation of mercury, cadmium, lead and arsenic in swordfish and bluefin tuna from the Mediterranean Sea: a comparative study. Mar. Pollut. Bull. 50: 993–1018 (2005).
  • Storelli, M. M., R. G. Stuffler, and G. O. Marcotrigiano. Total and methylmercury residues in tuna -fish from the Mediterranean Sea. Food Addit. Contam. 19(8): 715–20 (2002).
  • Sun, C-L., C-L. Huang, and S-Z. Yeh. Age and growth of the bigeye tuna, Thunnus obesus, in the western Pacific Ocean. Fish. Bull. 99: 502–509 (2001).
  • Suppin, D., R. Zahlbruckner, C. H. Krapfenbauer-Cermak, C. H. Hassan-Hauser, F. J. M. Smulders. Mercury, lead and cadmium content of fresh and canned fish collected from Austrian retail operations. Nutrition 29: 456–460 (2005).
  • Tan, S. W., J. C. Meiller, K. R. Mahaffey. The endocrine effects of mercury in humans and wildlife. Crit. Rev. Toxicol. 39: 228–269 (2009).
  • Te Kronnié, G. Axial muscle development in fish. Basic Appl. Myol. 10(6): 261–267 (2000).
  • Teffer, A. K., M. D. Staudinger, D. L. Taylor, and F. Juanes. Trophic influences on mercury accumulation in top pelagic predators from offshore New England waters of the northwest Atlantic Ocean. Mar. Environ. Res. 101: 124–134 (2014).
  • Torres, P., A. Rodrigues, L. Soares, and P. Garcia. Metal concentrations in two commercial tuna species from an active volcanic region in the Mid-Atlantic Ocean. Arch. Environ. Contam. Toxicol. 70(2): 341–347 (2016).
  • USEPA, Mercury Update: Impact on Fish Advisories. EPA-823-F-01-011. Office of Water, Washington, DC (2001).
  • Velasco-González, O. H., S. Echavarría-Almeida, M. E. Pérez-López, and I. Villanueva-Fierro. Mercury and arsenic content in Mexican canned tuna and sardine. Revista Internacional de Contaminacion Ambiental 17: 31–35 (2001).
  • Veldhoen, N., M. G. Ikonomou, V. Rehaume, C. Dubetz, D. A. Patterson, C. C. Helbing. Evidence of disruptions in estrogen-associated signalling in the liver transcriptome of in-migrating sockeye salmon of British Columbia, Canada. Comp. Biochem. Physiol. Part C 157: 150–161 (2013).
  • Virtanen, J., T. Rissanen, S. Voutilainen, and T. Tuomainen. Mercury as a risk factor for cardiovascular diseases. J. Nutr. Biochem. 18: 75–85 (2007).
  • Vizzini, S., C. Tramati, and A. Mazzola. Comparison of stable isotope composition and inorganic and organic contaminant levels in wild and farmed bluefin tuna, Thunnus thynnus, in the Mediterranean Sea. Chemosphere 78: 1236–1243 (2010).
  • Voegborlo, R. B., A. A. Adimado, and J. H. Ephraim, Total mercury distribution in different tissues of frigate tuna (Auxis thazard thazard) from the Atlantic coastal waters of Ghana, Gulf of Guinea. Environ. Monit. Assess. 132: 503–508 (2007).
  • Voegborlo, R. B., A. M. El-Methnani, and M. Z. Abedin. Mercury, cadmium and lead content of canned tuna fish. Food Chem. 67: 341–345 (1999).
  • Wild, A. Growth of yellowfin tuna, Thunnus albacares, in the eastern Pacific Ocean based on otolith increments. Inter-Am. Trop. Tuna Comm. Bull. 18: 423–482 (1986).
  • Yamashita, Y., Y. Omura, and E. Okazaki. Total mercury and methylmercury levels in commercially important fishes in Japan. Fish. Sci. 71: 1029–1035 (2005).

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