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Global mercury pollution and the role of gold mining: An overview

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Abstract

As described by Jemelov and Ramel (1995), the Scientific Committee on Problems of the Environment (SCOPE) sponsored an investigation of Hg in ecosystems with special emphasis on tropical regions. In these regions small-scale gold mining activities have occupied about 10 million people worldwide who use Hg for extracting gold.

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References

  • Barbosa, A. C., A. A. Boischio, G. A. East, I. Ferrari, A. Goncalvos. P. R. M. Silva, and T. M. E. da Cruz. 1995. Mercury contamination in the Brazilian Amazon. Environmental and occupational aspects.Water, Air, Soil Pollut. 80:109–121.

    Article  CAS  Google Scholar 

  • Bloom, N. S. 1992. On the chemical form ol mercury in edible fish and marine invertebrate tissue.Can. J. Fish. Aquat. Sci. 49:1010–1017.

    CAS  Google Scholar 

  • Burger, J. 1997. Ecological effects and biomonitoring for mercury in tropical ecosystems. This Volume.

  • Carrington, C. D., G. M. Cramer, and P. M. Bolger. 1997. A risk assessment for methylmercury in tuna. This Volume.

  • Constantinou, E., M. Gerath, D. Mitchell, C. Seigneur, and L. Levin. 1994. Mercury from power plants: environmental cycling and health effects.Water Air Soil Pollut. 80:325–335.

    Article  Google Scholar 

  • Fitzgerald, W. F. 1986. “Cycling of Mercury Between the Atmosphere and Oceans.” InThe Role of Air-Sea Err change in Geochemical Cycling. NATO Advanced Science Institutes Series. Edited by P. Buat-Menard. Dordrecht, Netherlands: Reidel, pp. 163–408.

    Google Scholar 

  • Hudson R. J. M., S. A. Gherini, C. J. Watras, and D. B. Porcella. 1994. “A Mechanistic Model of the Biogeochemical Cycle of Mercury in Lakes.” InMercury as a Global Pollutant. Edited by C. J. Warns and J. W. Huckabee. Ann Arbor: Lewis Publishers. pp. 473–523.

    Google Scholar 

  • Hudson R. J. M., S. A. Gherini, W. F. Fitzgerald, and D. B. Porcella. 1995. Anthropogenic influences on the global mercury cycle: a model-based analysis.Water, Air, Soil Pollut. 80:265–272.

    Article  CAS  Google Scholar 

  • Ikingura, J. R., M. K. D. Mutakyahwa, and J. Kahatano. 1997. Mercury pollution and gold mining in Africa with special reference to Tanzania. This Volume.

  • Jernelov, A. and C. Ramel. 1995. Evaluation of the role and distribution of mercury in ecosystems with special emphasis on tropical regions. A SCOPE project.Ambio 24:319–320.

    Google Scholar 

  • Lacerda, L. D. 1997a. Global mercury emissions from gold and silver mining. This Volume.

  • Lacerda, L. D. 1997b. Evolution of mercury contamination in Brazil. This Volume. Leermakers, M., W. Baeyens, R. Ebinghaus, J. Kuballa, and H. H. Kock. 1997. Determination of atmospheric mercury during the North Sea Experiment. This Volume.

  • Lindqvist, O., K. Johansson, M. Astrup, A. Andersson, L. Bringmark, G. Hovsenius, Å. Iverfeldt, M. Mieli, and B. Timm, 1991. Mercury in the Swedish Environment—Recent Research on Causes, Consequences and Corrective Methods.Water Air Soil Pollut. 55:1–261.

    Article  Google Scholar 

  • Mason, R. P., W. F. Fitzgerald, and F. M. M. Morel. 1994. The Biogeochemical Cycling of Elemental Mercury: Anthropogenic Influences.Geochim. Cosmochim. Acta. 58:3191–3198.

    Article  CAS  Google Scholar 

  • Moreira, J. C. and F. R. Pivetta. 1997. Human and environmental contamination by mercury from industrial uses in Brazil. This Volume,

  • Nriagu, J. O. and J. M. Pacyna.1988. Quantitative Assessment of Worldwide Contamination of Air, Water and Soils by Trace Metals.Nature 133:134–139.

    Article  Google Scholar 

  • Pai, P. and S. Heisler. 1997. An emissions inventory for regional atmospheric modeling of mercury.Water Air Soil Pollut. In Press.

  • Pirrone, N., G. J. Keeler, and J. O. Nriagu. 1996. Regional differences in worldwide emissions of mercury to the atmosphere. Atmos. Environ.30:2981- 2987.

    Article  CAS  Google Scholar 

  • Porcella, D. B. 1994. “Mercury in the Environment: Biogeochemistry.” InMercury as a Global Pollutant, Watras. Edited by C. J. Watras and J. W. Huckabee. Ann Arbor: Lewis Publishers, pp. 1–19.

    Google Scholar 

  • Slemr, F., W. Seiler, and G. Schuster. 1985. Distribution, Speciation, and Budget of Atmospheric Mercury.J. Atmos. Chem. 3:407–414.

    Article  CAS  Google Scholar 

  • Yuhuan, L.. J. J. Liu, and G. Mingxin. 1997. Mercury pollution from small gold mines in China. This Volume.

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Authors and Affiliations

  1. Electric Power Research Institute, Palo Alto, CA, USA

    D. B. Porcella

  2. Royal Swedish Academy of Sciences, Stockholm, Sweden

    C. Ramel

  3. Swedish Council for Planning and Coordination of Research, Stockholm, Sweden

    A. Jernelov

Authors
  1. D. B. Porcella
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  2. C. Ramel
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  3. A. Jernelov
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Porcella, D.B., Ramel, C. & Jernelov, A. Global mercury pollution and the role of gold mining: An overview. Water Air Soil Pollut 97, 205–207 (1997). https://doi.org/10.1007/BF02407458

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  • DOI: https://doi.org/10.1007/BF02407458

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