Free Access
Issue |
Radioprotection
Volume 46, Number 6, 2011
ICRER 2011 – International Conference on Radioecology & Environmental Radioactivity: Environment & Nuclear Renaissance
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Page(s) | S255 - S263 | |
Section | Using Data for Studies | |
DOI | https://doi.org/10.1051/radiopro/20116566s | |
Published online | 09 January 2012 |
- Sawka M.N., Cheuvront S.N. and Carter R. III. Nutr Rev 63 (2005) S30–S39. [Google Scholar]
- Thompson T., Fawell J., Kunikane S., Jackson D., Appleyard S., Callan P., Bartram J. and Kingston P., Chemical safety of drinking water: assessing priorities for risk management (World Health Organization, Geneva, 2007) pp. vii –viii, 31–78. [Google Scholar]
- United Nations Scientific Committee on the Effects of Atomic Radiation., UNSCEAR 2008 Report to the General Assembly, with scientific annexes, Annex B: Exposures of the public and workers from various sources of radiation (Vienna, United Nations, 2008) pp. 234–236, 339, 385. [Google Scholar]
- United Nations Scientific Committee on the Effects of Atomic Radiation., UNSCEAR 2000 Report to the General Assembly, with scientific annexes, Vol. I, Annex B: Exposures from natural radiation sources (Vienna, United Nations, 2008) pp. 93–94, 126. [Google Scholar]
- Kahlos H., Radon-222 concentration of some water samples determined with gamma- spectrometric measurements. Report SFL-A14 (Institute of Radiation Physics, Helsinki, 1969) pp. 1–25. [Google Scholar]
- Asikainen M., Geochim Cosmochim Ac 45 (1981) 201–206. [Google Scholar]
- Juntunen R., Etelä-Suomen kallioporakaivojen uraanin- ja radontutkimukset (Uranium and radon in wells drilled in bedrock in southern Finland). Report of investigation 98 (Geological Survey of Finland, Espoo, 1991) pp. 1–22. [Google Scholar]
- Salonen L., “238U series radionuclides as a source of increased radioactivity in groundwater originating from Finnish bedrock”, Future Groundwater Resources at Risk, Helsinki, June 1994, J. Soveri, T Suokko Eds. (Wallingford, IAHS, 1994) pp. 71–84. [Google Scholar]
- Vesterbacka P., Mäkeläinen I. and Arvela H., Radiat Prot Dosim 113 (2005) 223–232. [Google Scholar]
- Vesterbacka P., Turtiainen T., Heinävaara S. and Arvela H., Radiat Prot Dosim 121 (2006) 406–412. [Google Scholar]
- Asikainen M. and Kahlos H., Health Phys 39 (1980) 73–83. [Google Scholar]
- STUK., Radiation of Household Water. Radiation Safety Guide ST 12.3 (Helsinki: Erweko Painotuote, 1994) pp. 1–8. [Google Scholar]
- Mäkeläinen I., Huikuri P., Salonen L., Markkanen M. and Arvela H., Talousveden radioaktiivisuus – perusteita laatuvaatimuksille (Radioactivity of drinking water—basis for quality requirements). STUK-A182 (Edita Ltd., Helsinki, 2001) pp. 12–17. [Google Scholar]
- Muikku M., Puhakainen M., Heikkinen T. and Ilus T., Health Phys 96 (2009) 646–654. [Google Scholar]
- Lahermo P. and Juntunen R., Appl Geochem 6 (1991) 169–183. [Google Scholar]
- Welch A.H. and Lico M.S., Appl Geochem 13 (1998) [Google Scholar]
- Webster I.T., Hancock G.J. and Murray A.S., Geochim Cosmochim Ac 59 (1995) 2469–2476. [Google Scholar]
- Osmond J.K., Rydell H.S. and Kaufman M.I., Science 29 (1968) 997–999. [Google Scholar]
- Kigoshi K., Science173 (1971) 47–48. [Google Scholar]
- Fleischer R.L, Science 207 (1980) 979–981. [Google Scholar]
- Chittenden R.H. and Hart H.S., Trans Conn Acad A&S VIII (1888–1892) 19–38. [Google Scholar]
- Pearce R.M., J Exp Med 11 (1909) 430–443. [Google Scholar]
- Oliver J., J Exp Med 21 (1915) 425–451. [Google Scholar]
- Karsner H.T., Reimann S.T. and Brooks S.C., J Med Res32 (1918) 169–175. [Google Scholar]
- MacNider W.deB., J Exp Med 29 (1919) 513–529. [Google Scholar]
- International Commission on Radiological Protection, Br J Radiol24 (1951) 46–53. [Google Scholar]
- Blantz R.C., J Clin Invest 55 (1975) [Google Scholar]
- Leggett R.W., Health Phys 67 (1994) 589–610. [Google Scholar]
- Bleise A., Danesi P.R. and Burkart W., J Environ Radioactiv 64 (2003) 93–112. [Google Scholar]
- Trenfield M.A., Ng J.C., Noller B.N., Markich S.J. and van Dam R.A., Environ Sci Technol 45 (2011) 3082–3089. [Google Scholar]
- World Health Organization, Uranium in Drinking-water. Background document for development of WHO Guidelines for Drinking-water Quality. WHO/SDE/WSH/03.04/118/Rev/1 (WHO, Geneva, 2011) pp. 1–21. [Google Scholar]
- Council Directive 98/83/EC of 3 November 1998 on the quality of water intended for human consumption. OJ L 330(1998) 32–54. [Google Scholar]
- Federal Institute for risk assessment (BfR), Frequently Asked Questions about Uranium in Mineral Water (BfR, Berlin, 2009) pp. 1–3. [Google Scholar]
- FPT Committee on Drinking Water, Guidelines for Canadian Drinking Water Quality—Summary Table (Health Canada, Ottawa, 2010) pp. 6, 12. [Google Scholar]
- Environmental Protection Agency,Fed Regist 65 (2000) 76708–76753. [Google Scholar]
- National Health and Medical Research Council, Australian Drinking Water Guidelines 6 2004 (NHMRC, Canberra, 2003) pp. 7-1–7-6, 10-26. [Google Scholar]
- The World Health Organization, Guidelines for Drinking-water Quality (3rd Edition) (WHO, Geneva, 2008) pp. 185–186. [Google Scholar]
- Salonen L. and Hukkanen H., J Radioanal Nucl Ch 226 (1997) 67–74. [Google Scholar]
- Lapinlampi T. and Raassina S., Water Supply and Sewer Systems 1998–2000, Waterworks (Vammalan Kirjapaino Oy, Vammala, 2002) pp. 53–105. [Google Scholar]
- Isomäki E., Britschgi R., Gustafsson J., Kuusisto E., Munsterhjelm K., Santala E., Suokko T. and Valve M. The future alternatives of centralized water supply in Finland. The Finnish Environment 27/07 (Edita Prima Ltd, Helsinki 2007) pp. 9–19. [Google Scholar]
- Paturi M., Tapanainen H., Reinivuo H. and Pietinen P. (eds.), The National FINDIET 2007 Survey (National Public Health Institute, Helsinki, 2008) pp. 33–45. [Google Scholar]
- International Commission on Radiological Protection, Basic anatomical and physiological data for use in radiological protection: reference values. ICRP Publication 89 (Pergamon, Oxford, 2003) p. 25. [Google Scholar]
- United States Environmental Protection Agency, Estimated Per Capita Water Ingestion and Body Weight in the United States—An Update. EPA-822-R-00-001 (US EPA, Washington DC, 2004). p. 4-1–4-61. [Google Scholar]
- International Commission on Radiological Protection, Age-dependent doses to members of the public from intake of radionuclides, Part 5: Compilation of ingestion and inhalation dose coefficients, ICRP publication 72 (Elsevier Science, Oxford, 1996) p. 40. [Google Scholar]
- EAREAU, Water News 01(2011) 3. [Google Scholar]
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