Abstract
Concentrations of arsenic (As), selenium (Se), lead (Pb), zinc (Zn), cadmium (Cd), and total mercury (Hg) were analyzed in the muscle, liver, and gonads of the American monkfish, Lophius americanus, collected from Franklin Swell, Massachusetts; Mud Hole, New Jersey; and the Fingers, Maryland, in the northeastern US, by commercial gillnetters from February to May 2007. Results indicated that As and Hg concentrations were significantly higher in liver samples collected from the Fingers than from Mud Hole and Franklin Swell. The highest concentrations of Pb were found in muscle, liver, and gonads collected from Franklin Swell. L. americanus collected from the Fingers and Mud Hole had higher concentrations of Zn in the gonads and total Hg in the muscle than those collected from Franklin Swell. Significant differences were found in gonadal Cd concentrations among the three sites. A significant correlation was observed between hepatic Se and Hg molar concentrations in fish collected from Franklin Swell. The molar Se to Hg ratios were lowest in muscle and highest in gonads of L. americanus. With the exception of Hg, all metal concentrations were within the maximum permissible limit for human consumption.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
ATSDR (Agency for Toxic Substance and Disease Registry) (2003). Toxicological profile for selenium. Atlanta: US Department of Health and Human Services, Public Health Service.
ATSDR (Agency for Toxic Substance and Disease Registry) (2005). Toxicological profile for zinc. Atlanta: US Department of Health and Human Services, Public Health Service.
ATSDR (Agency for Toxic Substance and Disease Registry) (2007). Toxicological profile for lead. Atlanta: US Department of Health and Human Services, Public Health Service.
Berry, J. M., & Ralston, V. C. (2008). Mercury toxicity and the mitigating role of selenium. EcoHealth, 5, 456–459.
Bowman, R. E., Stillwell, C. E., Michaels, W. L., & Grosslein, M. D. (2000). Food of northwest Atlantic fishes and two common species of squid. NOAA Technical Memorandum NMFS-NE-155.
Bradl, H. B. (2005). Heavy metals in the environment: Origin, interaction and remediation. San Diego: Interface Science and Technology. Elsevier Academic Press.
Branco, V., Vale, C., Canario, J., & Neves dos Santos, M. (2007). Mercury and selenium in blue shark (Prionace glauca, L. 1758) and swordfish (Xiphias gladius, L. 1758) from two areas of the Atlantic Ocean. Environmental Pollution, 150, 373–380.
Brankowitz, W. R. (1987). Chemical weapons movement. History compilation, Office of the Program Manager for Chemical Munitions (Demilitarization and Binary) (Provisional), Aberdeen Proving Ground, MD, SAPEO-CDE-IS-87001.
Buchholtz ten Brink, M. R., Manheim, F. T., Mecray, E. L., Hastings, M. E., Currence, J. M., Farrington, J. W., et al. (2002). Contaminated sediments database for the Gulf of Maine, US Geological Survey Open-file Report 02–403.
Buchsbaum, R., Pederson, J., & Robinson, W. E. (2005). The decline of fisheries resources in New England: Evaluating the impact of overfishing, contamination and habitat degradation. MIT Sea Grant College Program, Cambridge, MA, MITSG 05–5.
Burger, J., & Gochfeld, M. (2005). Heavy metals in commercial fish in New Jersey. Environmental Research, 99, 403–412.
Burger, J., Gochfeld, M., Jeitner, C., Burke, S., & Stamm, T. (2007). Metal concentrations in flathead sole (Hippoglossoides elassodon) and great sculpin (Myoxocephalus polyacanthocephalus) from Adak Island, Alaska: Potential risk to predators and fishermen. Environmental Research, 103, 62–69.
Caruso, J. H. (2002). Goosefish or monkfishes: Family lophiidae. In: B. Collette, G. Klein-MacPhee (Eds.), Bigelow and Schroeder’s fishes of the Gulf of Maine (pp. 264–270). Washington, DC: Smithsonian Institution Press.
Carvalho, M. L., Santiago, S., & Nunes, M. L. (2005). Assessment of the essential element and heavy metal content of edible fish muscle. Analytical and Bioanalytical Chemistry, 382, 426–432.
Clarkson, T. W. (1997). The toxicology of mercury. Critical Reviews in Clinical Laboratory Sciences, 34, 369–403.
Combs, G. F., & Lü, J. (2001). Selenium as a cancer preventive agent. In D. Hatfield (Ed.), Selenium: Its molecular biology and role in health (pp. 205–217). Norwell: Kluwer.
Cuvin-Aralar, M. L. A., & Furness, R. W. (1991). Mercury and selenium interaction: A review. Ecotoxicology and Environmental Safety, 21, 348–364.
De Gieter, M., Leemakers, M., Van Ryssen, R., Noyen, J., Goeyens, L., & Baeyens, W. (2002). Total and toxic arsenic levels in North Sea fish. Archives of Environmental Contamination and Toxicology, 43, 406–417.
Deshpande, A., Draxler, A. F. J., Zdanowicz, V. S., Schrock, M. E., Paulson, A. J., Finneran, T. W., et al. (2000). Contaminant levels in muscle of four species of recreational fish from the New York Bight apex. NOAA Technical Memorandum NMFS NE-157.
Diaz-Alarcón, J. P., Navarro-Alarcón, M., López-Martínez, M. C., & Serrana, H. L. G. (1994). Determination of selenium in fresh fish from southeastern Spain for calculation of daily dietary intake. Journal of Agricultural and Food Chemistry, 42, 334–337.
Drevnick, P. E., & Sandheinrich, M. B. (2003). Effects of dietary methylmercury on reproductive endocrinology of fathead minnows. Environmental Science and Technology, 37, 4390–4396.
Edmonds, J. S., & Francesconi, K. A. (1993). Arsenic in seafood: Human health aspects and regulations. Marine Pollution Bulletin, 26, 665–674.
EPA (U.S. Environmental Protection Agency) (1988). Ocean dumping ban act of 1988. http://www.epa.gov/history. Accessed 22 December 2009.
EPA (U.S. Environmental Protection Agency) (2000). Guidance for assessing chemical contaminant data for use in fish advisories, vol II: Risk assessment and fish consumption limits. EPA, Report 823/B-00/008. Washington, DC.
EPA (U.S. Environmental Protection Agency) (2005). National Coastal Condition Report II. EPA, Report 620/R-03/002. Washington, DC.
EPA (U.S. Environmental Protection Agency) (2008). National Coastal Condition Report III. EPA-842/R-08/002. Washington, DC.
FDA (U.S. Food and Drug Administration) (2001). Fish and fisheries products hazards and control guidance. http://www.fda.gov/Food/GuidanceComplianceRegulatoryInformation/GuidanceDocuments/Seafood/FishandFisheriesProductsHazardsandControlsGuide/ucm091070.htm. Accessed 22 December 2009.
Friedman, G. M., Mukhopadhyay, P. K., Moch, A., & Ahmed, M. (2000). Waters and organic-rich waste near dumping grounds in the New York Bight. International Journal of Coal Geology, 43, 325–355.
Hall, R. A., Zook, E. G., & Meaburn, G. M. (1978). National marine fisheries service survey of trace elements in the fishery resource. NOAA Technical Report NMFS SSRF-721.
Hellou, J., Warren, W. G., Payne, J. F., Belkhode, S., & Lobel, P. (1992). Heavy metals and other elements in three tissues of cod, Gadus morhua from the Northwest Atlantic. Marine Pollution Bulletin, 24, 452–458.
Jarup, L. (2003). Hazards of heavy metal contamination. British Medical Bulletin, 68, 167–182.
Johnson, A., & Roose, M. (2002). Inorganic arsenic levels in Puget Sound fish and shellfish from 303 (d) listed waterbodies and other areas. Olympia, Washington: Washington State Department of Ecology, Ecology Publication No. 02–03–057.
Johnson, A. K., Richards, R. A., Cullen, D. W., & Sutherland, S. J. (2008). Growth, reproduction and feeding of large monkfish, Lophius americanus. ICES Journal of Marine Science, 65, 1306–1315.
Kaneko, J. J. & Ralston, N. V. C. (2007). Selenium and mercury in pelagic fish in the Central North Pacific near Hawaii. Biological Trace Element Research, 119, 242–254.
Kehrig, H. A., Seixas, T. G., Palermo, E. A., Baeta, A. P., Castelo-Branco, C. W., Malm, O., et al. (2009). The relationships between mercury and selenium in plankton and fish from a tropical food web. Environmental Science and Pollution Research, 16, 10–24.
Khan, M. A. K., & Wang, F. (2009). Mercury-selenium compounds and their toxicological significance: Toward a molecular understanding of the mercury-selenium antagonism. Environmental Toxicology and Chemistry, 28, 1567–1577.
Klaverkamp, J. F., Macdonald, W. A., Lillie, W. R., & Lutz, A. (1983). Selenite toxicity and mercury-selenium interactions in juvenile fish. Archives of Environmental Contamination and Toxicology, 12, 405–413.
Kojadinovic, J., Potier, M., Le Corre, M., Cosson, R. P., & Bustamante, P. (2007). Bioaccumulation of trace elements in pelagic fish from the West Indian Ocean. Environmental Pollution, 146, 548–566.
Langton, R. W., Pearce, J. B., & Gibson, J. A. (1994). Selected living resources, habitat conditions and human perturbations of the Gulf of Maine. NOAA Technical Memorandum: NMFS-NE-106.
Larsen, P. F. (1992). An overview of the environmental quality of the Gulf of Maine. In: D. W. Townsend, P. F. Larsen (Eds.), The Gulf of Maine (pp. 71–95). Washington, D.C: National Oceanic and Atmospheric Administration Coastal Ocean Program Regional Synthesis Series No. 1.
Lemly, A. D. (1993). Guidelines for evaluating selenium data from aquatic monitoring and assessment studies. Environmental Monitoring and Assessment, 28, 83–100.
Lemly, A. D. (2002). Symptoms and implications of selenium toxicity in fish: The Belews Lake case example. Aquatic Toxicology, 57, 39–49.
Luoma, S. N., & Rainbow, P. S. (2008). Selenium: Dietary exposure, trophic transfer and food web effects. In S. N. Luoma, P. S. Rainbow (Eds.), Metal contamination in aquatic environments: Science and lateral management (pp. 327–353). New York: Cambridge University Press.
Monosson, E., & Lincoln, D. (2006). Comparison of PCBs, organochlorine pesticides and trace metals in cod liver from Georges Bank and Stellwagen Bank, USA and Canada. Marine Pollution Bulletin, 52, 572–597.
Mormede, S., & Davies, I. M. (2001). Heavy metal concentrations in commercial deep-sea fish from the Rockall Trough. Continental Shelf Research, 21, 899–916.
Morrissey, J. M., & Abernathy, C. O. (1999). Exposure to inorganic arsenic from fish and shellfish. In W. R. Chappell, C. O. Abernathy, R. L. Calderon (Eds.), Arsenic exposure and health effects (pp. 89–98). Amsterdam: Elsevier.
NEFSC (Northeast Fisheries Science Center). (2007). Northeast data poor stocks working group. 2007. Monkfish assessment summary for 2007. US Department of Commerce, Northeast Fish Science Center Reference Document 07–13.
Nelson, D. A., Miller, J. E., Rusanowsky, D., Greig, R. A., Sennefelder, G. R., Mercaldo-Allen, R., et al. (1991). Comparative reproductive success of winter flounder in Long Island Sound: A three-year study (biology, biochemistry, and chemistry). Estuaries, 14, 318–331.
Neter, J., Kutner, M. H., Nachtsheim, C. J., & Wasserman, W. (1996). Applied linear statistical models. Boston: McGraw Hill.
Ozretić, B., Krajnović-Ozretić, M., Santin, J., Medjugorac, B., & Kraš, M. (1990). As, Cd, Pb and Hg in benthic animals from the Kvarner-Rijeka Bay region, Yugoslavia. Marine Pollution Bulletin, 21, 595–598.
Pearce, J. B. (2000). The New York Bight. Marine Pollution Bulletin, 41, 44–55.
Plessi, M., Bertelli, D., & Monzani, A. (2001). Mercury and selenium content in selected seafood. Journal of Food Composition and Analysis, 14, 461–467.
Ploetz, D. M., Fitts, B. E., & Rice, T. M. (2007). Differential accumulation of heavy metals in muscle and liver of a marine fish, (King mackerel, Scomberomorus cavalla Cuvier) from the Northern Gulf of Mexico, USA. Bulletin of Environmental Contamination and Toxicology, 78, 134–137.
Ralston, N. V. C., Blackwell, J. L., & Raymond, L. J. (2007). Importance of molar ratios in selenium-dependent protection against methylmercury toxicity. Biological Trace Element Research, 119, 255–268.
Sasakura, C., & Suzuki, K. T. (1998). Biological interaction between transition metals (Ag, Cd and Hg), selenide/sulfide and selenoprotein P. Journal of Inorganic Biochemistry, 71, 159–162.
Seixas, T. G., Kehrig, H. A., Costa, M., Fillmann, G., Di Beneditto, A. P. M., Secchi, E. R., et al. (2008). Total mercury, organic mercury and selenium in liver and kidney of a South American coastal dolphin. Environmental Pollution, 154, 98–106.
Sindermann, C. J. (1996). Ocean pollution effects on living resources and humans. New York: CRC.
Steimle, F. W., Zdamowicz, V. S., & Gadbois, D. F. (1990). Metals and organic contaminants in northwest Atlantic deep-sea tilefish tisues. Marine Pollution Bulletin, 21, 530–535.
Steimle, F. W., Gadbois, D., Chang, S., Sennefelder, G., & Greig, R. (1996). Organic and metallic contaminants in tissues of tilefish Lopholatilus chamaeleonticeps Goode and Bean and sewage sludge disposal at the 106-mile dumpsite. Journal of Marine Environmental Engineering, 3, 227–246.
Storelli, M. M., Stuffler-Giacominelli, R., & Marcotrigiano, G. O. (2000). Fish for human consumption: Risk of contamination by mercury. Food Additives and Contaminants, 17, 1007–1011.
Storelli, M. M., Stuffler-Giacominelli, R., & Marcotrigiano, G. O. (2002). Mercury accumulation and speciation in muscle tissue of different species of sharks from the Mediterranean Sea, Italy. Bulletin of Environmental Contamination and Toxicology, 68, 201–210.
Vitaliano, J. J., Fromm, S. A., Packer, D. B., Reid, R. N., & Pikanowski, R. A. (2007). Recovery of benthic macrofauna from sewage sludge disposal in the New York Bight. Marine Ecology Progress Series, 342, 27–40.
WHO (World Health Organization) (1972). Evaluation of certain food additives and the contaminants mercury, lead, and cadmium. (Sixteenth report on Joint FAO/WHO Expert Committee on Food Additives). FAO Nutrition Meetings Report Series No. 51, World Health Organization Technical Report Series, No. 505.
WHO (World Health Organization) (2001). Zinc. Environmental health criteria 221. Geneva: World Health Organization.
Yang, G., Yin, S., Zhou, R., Gu, L., Yan, B., Liu, Y., et al. (1989). Studies of safe maximal daily dietary Se-intake in a seleniferous area in China. Part II. Relation between Se-intake and the manifestation of clinical signs and certain biochemical alterations in blood and urine. Journal of Trace Elements and Electrolytes in Health and Disease, 3, 123–130.
Zdanowicz, V. S. (1991). Determining the fates of contaminated wastes dumped in the New York Bight apex by use of metal enrichment factors. Environmental Science and Technology, 25, 1760–1766.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Johnson, A.K., Bediako, B. & Wirth, E. Metal concentrations in monkfish, Lophius americanus, from the northeastern USA. Environ Monit Assess 177, 385–397 (2011). https://doi.org/10.1007/s10661-010-1641-y
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10661-010-1641-y