Abstract
Cleanup goals for the contaminated sites are established on the basis of risk assessments and rely on the estimated toxicity of the chemicals of concern (COC). Toxicity estimates are based on bioavailability causing risk of adverse health effects on humans. In this study, bioavailability of As, Cu, Pb and Zn in soil was determined by SBET (Simple Bioavailability Extraction Test), and chemical analysis for groundwater and stream water collected from the abandoned mine areas (Dukeum, Dongil, Dongjung, Myungbong and Songchun mine areas) was conducted. High values of cancer risk for As (1.16×10−5) were detected through soil ingestion pathways in the Songchun mine area and assessed through water exposure pathways in the all mines except Dukeum. The hazard index value for As in the Songchun mine area (3.625) exceeded 1.0. The results indicated that the ingestion of As-contaminated soil and water by local inhabitants can pose a potential health threat in these mine areas.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.References
Bowen, H. J. M.: 1979, Environmental Chemistry of the Elements, Academic Press, New York.
Crommentuijn, T., Sijm, D., De Bruijn, J., Vanden Hoop, M., Van Leeuwen, K. and Van de Plassche, E.: 2000, ‘Maximum permissible and negligible concentrations for metals and metalloids in the Netherlands, taking into account background concentrations’, J. Environ. Manag. 60, 121–143.
Davies, B. E.: 1983, ‘Heavy metal contamination from base metal mining and smelting: implications for man and his environment’, in: Applied Environmental Geochemistry (Ed. 1st Thornton), Academic Press, London, pp. 425–462.
EPA Environmental Criteria and Assessment Office (ECAO), http://www.epa.gov/iris/subst/0278.htm
Hamel, S. C., Buckley, B. and Lioy, P. J.: 1998, ‘Bioaccessibility of metals in soils for different liquid to solid ratios in synthetic gastric fluid’, Environ. Sci. Technol. 32, 358–362.
Hamel, S. C., Ellickson, K. M. and Lioy, P. J.: 1999, ‘The estimation of the bioaccessibility of heavy metals in soils using artificial biofluids by two novel methods: Mass-balance and soil recapture’, the Sci. Tot. Environ., 243/244, 273–283.
Health Effects Assessment Summary Tables (HEAST), http://www.epa.gov/radiation/heast/
Imber, B. D.: 1993, Development of a Physiologically Relevant Extraction Procedure, Prepared for BC Ministry of Environment, Lands and Parks, Environmental Protection Division, Victoria, BC. CB Research International Corporation, Sidney, BC.
IRIS (Integrated Risk Information System), http://www.epa.gov/ngispgm3/iris.
Korea Water Resources Corporation (KOWACO): 2001, http://www.kowaco.or.kr.
Ma, L. and Rao, G. N.: 1997, ‘Chemical fraction of cadmium, copper, nickel, and zinc in contaminated soil’, J. Environ. Qual. 26, 259–264.
ME (Ministry of Environment, Korea), http://www.me.go.kr/.
Medlin E. A.: 1997, ‘An in vitro method for estimating the relative bioavailability of lead in humans’, Master thesis. Department of Geological Sciences, University of Colorado, Boulder.
Mester, Z., Cremisini, C., Chiara, E. and Morabito, R.: 1998, ‘Comparison of two sequential extraction procedures for metal fractionation in sediment samples’, Analytica chimica Acta 359, 133–142.
Ministry of Commerce, Industry and Energy (MOCIE): 1997, http://www.standard.arts.go.kr.
National Statistical Office (KNSO): 2001, http://www.nso.go.kr.
Rodriguez, R. R. and Basta, N. T.: 1999, ‘An in vitro gastrointestinal method to estimate bioavailable arsenic in contaminated soils and solid media’, Environ. Sci. Technol. 33, 642–649.
Rodriguez, R. R., Basta, N. T., Casteel, S. W., Armstrong, F. P. and Ward, D. C.: 2003, ‘Chemical extraction methods to assess bioavailable arsenic in soil and solid media’, J. Environ. Qual. 32, 876–884.
Ruby, M. V., Davis, A., Kempton, J. H., Drexler, J. W. and Bergstrom, P. D.: 1992, ‘Lead bioavailability: Dissolution kinetics under simulated gastric conditions’, Environ. Sci. Technol. 26, 1242–1248.
Ruby, M. V., Davis, A., Link, T. E., Schoof, R., Chaney, R. L., Freeman, G. B. and Bergstrom, P.: 1993, ‘Development of an in vitro screening test to evaluate the in vitro bioaccessibility of ingested mine-waste lead’, Environ. Sci. Technol. 27, 2870–2877.
Ruby, M. V., Davis, A., Schoof, R., Eberle, S. and Sellstone, C. M.: 1996, ‘Estimation of lead and arsenic bioavailability using a physiologically based extraction test’, Environ. Sci. Technol. 30, 422–430.
Ruby, M. V., Schoof, R., Brattin, W., Goldade, M., Post, G., Harnois, M., Mosby, D. E., Casteel, S. W., Berti, W., Carpenter, M., Edwards, D. and Cragin, D.: 1999, ‘Advances in evaluating the oral bioavailability of inorganic in soils for use in human health risk assessment’, Environmental Science and Technology 33, 3697–3705.
Sarkar, D. and Datta, R.: 2003, ‘A modified in-vitro method to assess bioavailable arsenic in pesticide-applied soils’, Environ. Poll. 126, 363–366.
US EPA: 1997, Exposure Factors Handbook (EPA/600/P-95/002Fa) (Update to Exposure Factors Handbook (EPA/600/8–89/043), Environmental Protection Agency Region I, Washington, D.C., USA.
Williams, T. M., Rawlins, B. G., Smith, B. and Breward, N.: 1998, ‘In vitro Determination of Arsenic Bioavailability in Contaminated Soil and Mineral Beneficiation Waste from Ron Phibun, Southern Thailland: A Basis for Improved Human Risk Assessment’, Environ. Geochem. Health 20, 169–177.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Lee, Sw., Lee, Bt., Kim, Jy. et al. Human Risk Assessment for Heavy Metals and as Contamination in the Abandoned Metal Mine Areas, Korea. Environ Monit Assess 119, 233–244 (2006). https://doi.org/10.1007/s10661-005-9024-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10661-005-9024-5