Authors: Frantisek Bozek, Alexandr Bozek, Alena Bumbova, Jiri Dvorak, Lenka Jesonkova

Abstract:

The contamination of 15 ground water resources of a selected region earmarked for the emergency supply of population has been monitored. The resources have been selected on the basis of previous assessment of natural conditions and the exploitation of territory in their surroundings and infiltration area. Two resources out of 15 have been excluded from further exploitation, because they have not met some of the 72 assessed hygienic indicators of extended analysis. The remaining 13 resources have been the subject of health risk analysis in relation to the contamination by arsenic, lead, cadmium, mercury, nickel and manganese. The risk analysis proved that all 13 resources meet health standards with regard to the above mentioned purposefully selected elements and may thus be included into crisis plans. Water quality of ground resources may be assessed in the same way with regard to other contaminants.

Keywords: Contamination, drinking water, emergency supply, health risk, hygienic limits, metals, risk assessment.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1087279

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References:

[1] F. Bozek, et al., “Classification of Ground Water Resources for Emergency Supply”, World Academy of Science, Engineering & Technology, vol. 71, pp. 1653-1656, 2012.
[2] J. Fawell,and M. J. Nieuwenhuijsen. “Contaminants in Drinking Water. Environmental Pollution and Health”, British Medical Bulletin, vol.68, no. 1, pp. 199-208, 2003.
[3] D. Briggs, “Environmental Pollution and the Global Burden of Disease”, British Medical Bulletin, vol. 68, no. 1, pp. 1-24, 2003.
[4] F. Bozek et al., “Risk Assessment of Selected Source for Emergency Water Supply. Case Study I. (Published Conference Proceedings style)”, in S. Eslamian (Ed.) Proceedings of the 3rd International Conference on Development, Energy, Environment, Economics (DEEE´12). Paris, WSEAS, 2012, pp. 216-221.
[5] Ministry of Agriculture of the Czech Republic (MoA CR), “Methodological Instructions of the MoA CR to Ensure the Standard Procedure to be followed by Regional and Municipal Authorities, the Authority of the Capital of Prague and its City Parts, in Emergency Water Supply provided by the Emergency Water Supply Service during the Extraordinary Events, Emergency and Crisis Situations”, Governmental Bulletin for Regional and Municipal Authorities, Article 3, pp. 42-46, 2011.
[6] Ministry of Health of the Czech Republic (MoHCR), Decree No. 252/2004 Coll., laying down hygiene requirements for drinking and warm water, frequency and scope of drinking water checks as amended by the Decrees No 187/2005 Coll. and No 293/2006 Coll., Prague: MoHCR, 2004.
[7] National Institute of Public Health (NIPH), Emergency Drinking Water Supply. Methodical Recommendation of NIPH - National Referential Centre for Drinking Water, Prague: NIPH, 2007, p. 5.
[8] US EPA. Drinking Water Standards and Health Advisories Tables, Washington, D.C.: US EPA, p. 9, 2011, (on line), (2013-01-07). URL: .
[9] US EPA. Risk Assessment Guidance for Superfund (RAGS), Vol. I: Human Health Evaluation Manual. Washington, D.C.: US EPA, Part A-F, 1989-2004. (on line). (2013-01-17). URL: .
[10] Ministry of Environment of the Czech Republic (MoE CR), “Methodical Instructions for the Risk Analysis of Contaminated Area”, MoE CR Bulletin, vol. XXI, no. 3, article 3, pp. 1-52, 2011.
[11] M. Tichý, and M. Valjentová, Experts and Expertise. 1st Ed. Prague:,Linde, Ltd., 2011, pp. 66-72.
[12] S. Farid, M. K. Baloch, and S. A. Ahmad, “Water Pollution: Major Issue in Urban Areas”, International Journal of Water Resources and Environmental Engineering, vol. 4, no. 3, pp. 55-65, 2012.
[13] A. F. Ato et al., “Mining and Heavy Metal Pollution: Assessment of Aquatic Environments using Multivariate Statistical Analysis”, Journal of Environmental Statistics, vol. 1, no. 4, pp. 1-13, 2010.
[14] US EPA, Integrated Risk Information System (IRIS). (on line). (2013-03-16). URL: .
[15] World Health Organization (WHO), Guidelines for Drinking-Water Quality. 4th Ed. Geneva: WHO, 2011.
[16] International Agency for Research on Cancer (IARC), IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. (on line), (2013-03-17). URL: .
[17] R. N. Ratnaike, “Acute and Chronic Arsenic Toxicity”, Postgraduate Medical Journal, vol. 79, pp. 391-396, 2003.
[18] N. C. Papanikolaou, et al., “Lead Toxicity Update. A Brief Review.” Medical Science Monitor, vol. 11, no. 10, pp. RA329-RA336, 2005.
[19] D. F. Flick, H. F. Kraybill, and J. M. Dimitroff, “Toxic Effects of Cadmium: Review.” Environmental Research, vol.4, no. 2, pp. 71-85, 1971.
[20] K. A. Winship, “Toxicity of Mercury and Its Inorganic Salts”, Adverse Drug React and Acute Poisoning Reviews, vol. 4, no. 3, pp. 129-160, 1985.
[21] V. Bencko. “Nickel: A Review of Its Occupational and Environmental Toxicology”, Journal of Hygiene, Epidemiology, Microbiology, and Immunology, vol. 27, no. 2, pp. 237-247, 1983.
[22] G. Xenophon, et al., “Possible Health Effects of High Manganese Concentration in Drinking Water”, Archives of Environmental & Occupational Health, vol. 44, no. 3, pp. 175-178, 1989.
[23] K. H. Choo, et al., “Use of Chelating Polymers to Enhance Manganese Removal in Ultrafiltration for Drinking Water Treatment”, Journal of Industrial and Engineering Chemistry, vol. 13, no. 2, pp. 163-169, 2007.
[24] The Council of the European Union (CEU), Council Directive 98/83/EC on the Quality of Water Intended for Human Consumption. Brussels: CEU, 1998.
[25] Czech Office for Standards, Metrology and Testing (COSMT), ČSN EN ISO 5667-3. Water Quality - Sampling - Part 3: Guidance on the Preservation and Handling of Samples. Prague: COSMT, 1996.
[26] Czech Office for Standards, Metrology and Testing (COSMT), ČSN EN ISO 11885. Water Quality - Determination of 33 Elements by Inductively Coupled Plasma Atomic Emission Spectroscopy. Prague: COSMT, 1996.
[27] U.S. EPA, Child-Specific Exposure Factors Handbook (Final Report). Chapter 3. Water Ingestion. Washington, D.C.: National Center of Environmental Assessment, 2007. (on line). (2013-02-15). URL: .
[28] P. V. Hamill, et al., “Physical Growth: National Center for Health Statistics Percentiles”, American Journal of Clinical Nutrition, vol. 32, pp. 607–609, 1979.
[29] R. L. Canfield, et al., “Intellectual Impairment in Children with Blood Lead Concentrations below 10 μg per Deciliter”, The New England Journal of Medicine, vol. 348, pp. 1517-1526, 2003.