Abstract
During May–September 1999, several aquatic environmental samples were collected from the village of Caimito, in the San Jorge River basin area, state of Sucre (Colombia), and analyzed for total mercury (T-Hg). Mean T-Hg concentration in sediments from surrounded marshes was 0.155 ± 0.016 μg Hg/g. Low Hg concentrations were found in the phytoplanktivorous fish species Prochilodus magdalenae (0.087 ± 0.01 μg Hg/g), while four-fold greater concentrations were found in all the carnivorous species. In average, T-Hg concentrations for fish samples did not exceed the limit consumption level (0.5 μg Hg/g). However, risk assessment based on the hazard index suggested that the consumption of 0.1 kg per day of carnivorous fish could increase the risk of mercury poisoning in local population.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Appleton, J. D., Williams, T. M., Orbea, H. and Carrasco, M.: 2001, ‘Fluvial contamination associated with artisanal gold mining in the Ponce Enríquez, Portovelo-Zaruma and Nambija areas, Ecuador’, Water Air Soil Pollut. 131, 19–39.
Arribere, M. A., Ribeiro Guevara, S., Sanchez, R. S., Gil, M. I., Roman Ross, G., Daurade, L. E., Fajon, V., Horvat, M., Alcalde, R. and Kestelman, A. J.: 2003, ‘Heavy metals in the vicinity of a chlor-alkali factory in the Upper Negro River ecosystem, Northern Patagonia, Argentina’, Sci. Total Environ. 301, 187–203.
Barbosa, A. C., de Souza, J., Dórea, J. G., Jardim, W. F. and Fadini, P. S.: 2003, ‘Mercury bio-magnification in a tropical black water, Rio Negro, Brazil’, Arch. Environ. Contam. Toxicol. 45
Beldowski, J. and Pempkowiak, J.: 2003, ‘Horizontal and vertical variabilities of mercury concen-tration and speciation in sediments of the Gdansk Basin, Southern Baltic Sea’, Chemosphere 52, 645–654.
Bidone, E., Castilhos, Z., Santos, T., Souza, T. and Lacerda, L.: 1997a, ‘Fish consumption and human exposure to mercury in Tartarugalzinho River, Amapa State, Northern Amazon, Brazil. A screening approach’, Water Air Soil Pollut. 97, 9–15.
Bidone, E., Castilhos, Z., Souza, T. and Lacerda, L.: 1997b, ‘Fish contamination and human exposure to mercury in the Tapajos river basin, Para State, Amazon, Brazil: A screening approach’, Bull. Environ. Contam. Toxicol. 59, 194–201.
Brabo, E. S., Angélica, R. S., Silva, A. P., Faial, K. R. F., Mascarenhas, A. F. S., Santos, E. C. O., Jesus, I. M. and Loureiro, E. C. B.: 2003, ‘Assessment of mercury levels in soils,waters, bottom sediments and fishes of acre state in Brazilian Amazon’, Water Air Soil Pollut. 147, 61–77.
Burger, J., Gaines, K. F. and Gochfeld, M.: 2001, ‘Ethnic differences in risk from mercury among Savannah River fishermen’, Risk Anal. 21, 533–544.
Campbell, L., Dixon, D. G. and Hecky, R. E.: 2003, ‘A review of mercury in Lake Victoria, East Africa: Implications for human and ecosystem health’, J. Toxicol. Environ. Health B Crit. Rev. 6, 325–356.
Chen, J. J., Chen, Y. J., Rice, G., Teuschler, L. K., Hamernik, K., Protzel, A. and Kodell, R. L.: 2001, ‘Using dose addition to estimate cumulative risks from exposures to multiple chemicals’, Regul. Toxicol. Pharmacol. 34, 35–41.
Cizdziel, J. V., Hinners, T. A., Pollard, J. E., Heithmar, E. M. and Cross, C. L.: 2002, ‘Mercury concentrations in fish from Lake Mead, USA, related to fish size, condition, trophic level, location, and consumption risk’, Arch. Environ. Contam. Toxicol. 43, 309–317.
Daveé-Guimaraes, J. R., Fostier, A. H., Forti, M. C., Melfi, J. A., Kehrig, H., Narvaez-Mauro, J. B., Malm, O. and Krug, J. F.: 1999, ‘Mercury in human and environmental samples from two lakes in Amap´ a, Brazilian Amazon’, Ambio 28, 296–301.
Dickman, M. and Leung, K.: 1998, ‘Mercury and organochlorine exposure from fish consumption in Hong Kong’, Chemosphere 37, 991–1015.
Dolbec, J., Mergler, D., Larribe, F., Roulet, M., Lebel, J. and Lucotte, M.: 2001, ‘Sequential analysis of hair mercury levels in relation to fish diet of an Amazonian population, Brazil’, Sci. Total Environ. 271, 87–97.
Downs, S., Macleod, C. and Lester, J.: 1998, ‘Mercury in precipitation and its relation to bioaccumu-lation in fish: A literature review’, Water Air Soil Pollut. 108, 149–187.
Environment Canada: 1997, Canadian Sediment Quality Guidelines for Mercury, Guidelines and Standards Division, Ottawa, Ontario, pp. 1–85.
Gray, J. E., Weaver, J. N. and Labson, V. F.: 2001, ‘Mercury and methylmercury concentrations in samples from small-scale artisanal gold mines in the Brownsweg area, Suriname’, Abstract Book, BC-84, in Proceedings of the Sixth International Conference on Mercury as a Global Pollutant, Minamata, Japan.
Haines, T. A., May, T. W., Finlayson, R. T. and Mierzykowski, S. E.: 2003, ‘Factors affecting food chain transfer of mercury in the vicinity of the Nyanza Site, Sudbury River, Massachusetts’, Environ. Monit. Assess. 86, 211–232.
Heiny, J. and Tate, C.: 1997, ‘Concentration, distribution and comparison of selected trace elements in bed sediment and fish tissue in the south platte river basin, USA, 1992–1993’, Arch. Environ. Contam. Toxicol. 32, 246–259.
Hylander, L. D., Meili, M., Oliveira, L. J., de Castro e Silva, E., Guimaraes, J. R., Araujo, D. M., Neves, R. P., Stachiw, R., Barros, A. J. and Silva, G. D.: 2000, ‘Relationship of mercury with aluminum, iron and manganese oxy-hydroxides in sediments from the Alto Pantanal, Brazil’, Sci. Total Environ. 260, 97–107.
Jewett, S. C., Zhang, X., Naidu, A. S., Kelley, J. J., Dasher, D. and Duffy, L. K.: 2003, ‘Comparison of mercury and methylmercury in northern pike and Arctic grayling from western Alaska rivers’, Chemosphere 50, 383–392.
Johnson, B., Olivero, J., Solano, B. and Mendoza, C.: 1998, ‘Evaluación de la contaminación con mercurio en varias especies de peces del bajo magdalena, 1997–1998’, Cartagena de Indias–Bolívar (Colombia), pp. 41–47.
Kainz, M. and Lucotte, M.: 2002, ‘Can flooded organic matter from sediments predict mercury concentrations in zooplankton of a perturbed lake?’, Sci. Total Environ. 293, 151–161.
Lindestrom, L.: 2001, ‘Mercury in sediment and fish communities of Lake Vanern, Sweden: Recovery from contamination’, Ambio 30, 538–544.
Malm, O.: 1998, ‘Gold mining as a source of mercury exposure in the Brazilian Amazon’, Environ. Res. Section A 77, 73–78.
Miller, J. R., Lechler, P. J. and Bridge, G.: 2003, ‘Mercury contamination of alluvial sediments within the Essequibo and Mazaruni river basins, Guyana’, Water Air Soil Pollut. 148, 139–166.
Ministerio de Energia y Minas Ecuador: 1999, Monitoreo Ambiental de las Areas Mineras en el Sur de Ecuador, UCP Prodemica Proyecto MEM BIRF 36–55 ec, Impresora Florez, Quito, Ecuador.
Muhaya, B., Leermakers, M. and Baeyens, W.: 1998, ‘Influence of sediment preservation on total mercury and methylmercury analyses’, Water Air Soil Pollut. 107, 277–288.
Olivero, J. and Johnson, B.: 2003, El lado gris de la minería del oro: La contaminación con mercurio en el norte de Colombia, Editorial Universitaria-Universidad de Cartagena, Impreso por Alpha Editores, Cartagena, p. 120.
Olivero, J., Johnson, B. and Arguello, E.: 2002, ‘Human exposure to mercury in San Jorge river basin, Colombia (South America)’, Sci. Total Environ. 289, 41–47.
Olivero, J., Mendoza, C. and Mestre, J.: 1995, ‘Hair mercury levels in people from the gold mining zone in Columbia’, Rev. Saude Publica 29, 376–379.
Olivero, J., Navas, V., Perez, A., Solano, B., Acosta, I., Arguello, E. and Salas, R.: 1997, ‘Mercury levels in muscle of some fish species form the Dique Channel, Columbia’, Bull. Environ. Contam. Toxicol. 58, 865–870.
Olivero, J. and Solano, B.: 1998, ‘Mercury in environmental samples from a waterbody contaminated by gold mining in Colombia, South America’, Sci. Total Environ. 217, 83–89.
Olivero, J., Solano, B. and Acosta, I.: 1998, ‘Total mercury in muscle of fish from two marshes in goldfields, Colombia’, Bull. Environ. Contam. Toxicol. 61, 182–187.
Pai, P., Heisler, S. and Joshi, A.: 1998, ‘An emissions inventory for regional atmospheric modelling of mercury’, Water Air Soil Pollut. 101, 289–308.
Pestana, M. H. and Formoso, M. L.: 2003, ‘Mercury contamination in Lavras do Sul, south Brazil: A legacy from past and recent gold mining’, Sci. Total Environ. 307, 125–140.
Pfeiffer, W. C., de Lacerda, L. D., Malm, O., Souza, C. M., da Silveira, E. G. and Bastos, W. R.: 1989, ‘Mercury concentrations in inland waters of gold-mining areas in Rondonia, Brazil’, Sci. Total Environ. 87/88, 233–240.
Ribeiro-Guevara, S., Massaferro, J., Villarosa, G., Arribére, M. and Rizzo, A.: 2002, ‘Heavy metal contamination in sediments of lake Nahuel huapi, nahuel huapi national park, Northern Patagonia, Argentina’, Water Air Soil Pollut. 137, 21–44.
Roulet, M., Lucotte, M., Saint-Aubin, A., Tran, S., Rheault, I., Farella, N., De Jesus Da silva, E., Dezencourt, J., Sousa Passos, C. J., Santos Soares, G., Guimaraes, J. R., Mergler, D. and Amorim, M.: 1998, ‘The geochemistry of mercury in central Amazonian soils developed on the Alter-do-Chao formation of the lower Tapajos River Valley, Para state, Brazil’, Sci. Total Environ. 223, 1–24.
Sadiq, M., Zaidi, T. and Al-Mohana, H.: 1991, ‘Sample weight and digestion temperature as critical factors in mercury determination in fish’, Bull. Environ. Contam. Toxicol. 47, 335–341.
Shrestha, K. P. and Ruiz de Quilarque, X.: 1989, ‘A preliminary study of mercury contamination in the surface soil and river sediment of the Roscio District, Bolivar State, Venezuela’, Sci. Total Environ. 79, 233–239.
Subramanian, V., Madhavan, N., Saxena, R. and Lundin, L. C.: 2003, ‘Nature of distribution of mercury in the sediments of the river Yamuna (tributary of the Ganges), India’, J. Environ. Monit. 5, 427–434.
Tarras-Wahlberg, N. H., Flachier, A., Lane, S. N. and Sangfors, O.: 2001, ‘Environmental impacts and metal exposure of aquatic ecosystems in rivers contaminated by small scale gold mining: The Puyango River basin, Southern Ecuador’, Sci. Total Environ. 278, 239–261.
Tchounwou, P. B., Abdelghani, A. A., Pramar, Y. V., Heyer, L. R. and Steward C. M.: 1996, ‘Assessment of potential health risks associated with ingesting heavy metals in fish collected from a hazardous-waste contaminated wetland in Louisiana, USA’, Rev. Environ. Health. 11, 191–203.
U.S. EPA: 1998, Integrated Risk Information System (IRIS), Online, National Center for Environmental Assessment, Cincinnati, OH.
Wasserman, J. C., Hacon, S. and Wasserman, M. A.: 2003, ‘Biogeochemistry of mercury in the Amazonian environment’, Ambio 32, 336–342.
Watras, C., Back, R., Halvorsen, S., Hudson, R., Morrison, K. and Wente, S.: 1998, ‘Bioaccumulation of mercury in pelagic freshwater food webs’, Sci. Total Environ. 219, 183–208.
WHO (World Health Organization): 1990, Methyl Mercury, Vol. 101, International Programme on Chemical Safety, World Health Organization, Geneva, Switzerland, 144 pp.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Olivero-Verbel, J., Johnson-Restrepo, B., Mendoza-Marín, C. et al. Mercury in the Aquatic Environment of the Village of Caimito at the Mojana Region, North of Colombia. Water, Air, & Soil Pollution 159, 409–420 (2004). https://doi.org/10.1023/B:WATE.0000049162.54404.76
Issue Date:
DOI: https://doi.org/10.1023/B:WATE.0000049162.54404.76