Abstract
Following its discovery, more than 200 years ago, uranium found useful applications in a number of various areas especially those related to industry, research and also medicine. The uranium history has been closely associated with the discovery of radioactivity which opened the door to the separation and later to the production of many useful radionuclides. The importance of uranium was recognized particularly owing to its ability to undergo fission process leading to the release of much more energy than it is possible to acquire from chemical reactions. Namely, the fission has been widely utilized in nuclear reactors to generate electricity in nuclear power plants. Such reactors are also used to produce a great number of radionuclides and for fundamental and applied research. Unfortunately, the fission has also been used for military purpose that resulted later in the construction of weapons of mass destruction. The extensive demand for uranium led to the expansion of uranium mining, milling and processing which led to some problems including exposure of workers and the radioactive contamination of the environment. The health effects associated with uranium and its compounds were fully recognized only during the last 70 years. This resulted in worldwide adoption of the relevant strict measures for adequate protection of people and the environment in line with the latest international safety requirements. The data concerning these health effects were acquired from numerous epidemiological studies based on which relevant safety procedures have been developed and implemented. The chapter presents a short overview of the uranium’s early history, which began in Jáchymov, together with uranium mining, uses and the assessment of its biological effects based on epidemiological studies.
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References
Abbott A (2015) Researchers pin down risks of low-dose radiation. Nature 523:17. https://www.nature.com/news/researchers-pin-down-risks-of-low-dose-radiation-1.17876
Abrams H (2011) A short history of occupational health. J Pub Health Pol 1:34–80
Armstrong M (2018) The countries holding the world’s nuclear arsenal. Statistica—the statistical portal. https://www.statista.com/chart/8301/the-countries-holding-the-worlds-nuclear-arsenal/. Accessed 2 Mar 2018
BEIR (1988) Health risks of radon and other internally deposited alpha-emitters. National Research Council, Committee on the Biological Effects of Ionizing Radiation (BEIR IV). National Academy Press, Washington, DC
Bouville A, Kryuchkov V (2014) Increased occupational radiation doses: nuclear fuel cycle. Health Phys 106:259–271
Braunbeck J (1996) Der strahlende doppeladler: nukleares aus österreich. Leykam Verlag, Graz
CC (2018) Uranium overview: nuclear history timelines. Cameco Corporation (CC), Saskatoon, Canada
Clark C (1997) Radium girls: women and industrial health reform, 1910–1935. University of North Carolina Press, Chapel Hill
Claußen A, Eisenberg W, Hall X, Mohr M, Steffen JP, Stöcker A (2012) Die gesundlichen folge von uranmunition. Deutsche Sektion der Internationalen Ȁrtzte fȕr die Verhȕtung das Atomkrieges, Berlin
DOE (1994) The history of nuclear energy. DOE/NE-0088. US Department of Energy, Washington, DC
EPA (2016) Radioactive antiques. EPA–US Environmental Protection Agency. https://www3.epa.gov/radtown/antiques.html
Gaspar M, Mayhew N (2018) URAM-2018: Ebb and flow—the economics of uranium mining. IAEA, Vienna. https://www.iaea.org/newscenter/news/uram-2018-ebb-and-flow-the-economics-of-uranium-mining
Hecht MM (2006) The beauty of completing the nuclear cycle. https://archive.schillerinstitute.com/economy/phys_econ/2006/beaut_nuke_cycle.html
Horáček J, Plaček V, Ševc J (1977) Histologic types of bronchogenic cancer in relation to different conditions of radiation exposure. Cancer 40:832–835
ICRP (2007) The 2007 Recommendations of the International Commission on Radiological Protection. ICRP Publication 103. Annual ICRP 37(2–4)
IEER (2018) Uranium: its uses and hazards Institute for Energy and Environment Research (IEER), Takoma Park, MD. https://ieer.org/resource/ factsheets/uranium-its-uses-and-hazards/
Keith S, Faroon O, Roney N, Scinicariello F, Wilbur S, ATSDR, Ingerman L, Llados F, Plewak D, Wohlers D, Diamond G, SRC (2013) Toxicological profile of uranium. Agency for Toxic Substances and Diseases Registry, Atlanta, GA
L’Annunziata MF (2003) Handbook of radioactivity and analysis, 2nd edn. Academic Press, Amsterdam
Laurence B (1979) Radioactivity in America: growth and decay of a science. John Hopkins University Press, Baltimore
Marshall J, Marshall VR (2008) Rediscovery of the elements Jáchymov (Joachimsthal), 2018, Czech Republic. The Hexagon {of the Alpha Chi Sigma Professional Chemistry Society, USA} Winter 2008, pp. 68–71
Martin JE (2013) Physics for radiation protection. Wiley, Weinheim, Germany
Marušiaková M, Gregor Z, Tomášek L (2011) A review of exposure to radon, long-lived radionuclides and external gamma at the Czech uranium mine. Radiat Prot Dosim 145:248–254
Morss LR, Edelstein NM, Fuger J (2006) The chemistry of the actinide and transactinide elements, 3rd edn. Springer, Netherlands
NAP (2011) Uranium mining in Virginia: scientific, technical, human, health and safety and regulatory aspects. National Academies Press (NAP), Washington, DC
NCRP (2009) Ionizing radiation exposure of the population of the USA. NCRP, Bethesda, MD
NRC (2011) Uranium mining in Virginia: scientific, technical, environmental, human health and safety, and regulatory aspects of uranium mining and processing in Virginia. Committee on Uranium Mining in Virginia; Committee on Earth Resources; National Research Council (NRC), National Academies Press, Washington, DC
Orphanides KG (2017) How close are we to states giving up their nuclear weapons? Not very. WIRED UK, December 2017. https://www.wired.co.uk/article/nuclear-weapons-threat-ban
Poledníček M (2015) Maria Curie Sklodowska v Jáchymově (M. Curie-Sklodowska in Jáchymov). http://www.spainfojachymov.cz/en/maria-curie-sklodowska/ (in Czech)
René M (2018) History of uranium mining in Central Europe Chapter 1 in uranium. In: Awwad NS (ed) Safety, resources, separation and thermodynamic calculation. IntechOpen Limited, London
Ross E (2016) The nine countries that have nuclear weapons. Independent, 6 January 2016.
Sabol J, Šesták B (2017) Quantification of the risk-reflecting stochastic and deterministic radiation effect. RAD Conf Proc 1:104–108
Sabol J, Navrátil L, Rosina J (2011a) Occupational exposure control: the problem of quantities in radiation protection. Radiat Prot Dosim 144:119–123
Sabol J, Jurda M, Gregor Z, Navrátil L (2011b) Assessment of the total effective dose of miners in the underground Rožná Uranium Mine in the Czech Republic during the period 2004–2009. Radiat Prot Dosim 144:615–619
Ševc J, Kunz E, Plaček V (1976) Lung cancer in uranium miners and long-term exposure to radon daughter products. Health Phys 30:433–437
Sevc J, Kunz E, Tomásek L, Placek V, Horácek J (1998) Cancer in man after exposure to Rn daughters. Health Phys 54:27–46
STATISTA (2018) Number of under construction nuclear reactors worldwide as of February 2018, by country. STATISTA—the statistical portal. https://www.statista.com/statistics/513671/number-of-under-construction-nuclear-reactors-worldwide/
Tomášek L (2012) Lung cancer mortality among Czech miners—60 years since exposure. J Radiol Prot 32:301–314
Tomášek L, Darby SC, Fearn T, Swerdlow AJ, Plaček V, Kunz E (1994) Pattern of lung cancer mortality among uranium miners in West Bohemia with varying rates of exposure to radon and its progeny. Radiat Res 137:251–261
Tomasek L, Rogel A, Tirmarche M, Mitton N, Laurier D (2008) Lung cancer in French and Czech uranium miners: radon-associated risk at low exposure rates and modifying effects of time since exposure and age at exposure. Radiat Res 169:125–137
UNSCEAR (2017) Sources, effects and risks of ionizing radiation. UNSCEAR 2016 Report. United Nations, New York. http://www.unscear.org/docs/publications/2016/UNSCEAR_2016_Report-CORR.pdf
Wikipedia (2018) Thaler. Wikipedia. https://en.wikipedia.org/wiki/Thaler
WNA (2018a) Outline history of nuclear energy. World Nuclear Association (WNA), London
WNA (2018b) Uranium maps and statistics. http://www.wise-uranium.org/umaps.html?set=annu
WNA (2018c) Occupational safety in uranium mining. World Nuclear Association (WNA). http://www.world-nuclear.org/information-library/safety-and-security/radiation-and-health/occupational-safety-in-uranium-mining.aspx
Workman D (2018) Uranium export by countries. World’s Top Exports, 27 August 2018. http://www.worldstopexports.com/uranium-exports-by-country/
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Sabol, J. (2020). Uranium in the Beginning of the Nuclear Age: Reflections on the Historical Role of Jáchymov and an Overview of Early and Present Epidemiological Studies. In: Gupta, D., Walther, C. (eds) Uranium in Plants and the Environment. Radionuclides and Heavy Metals in the Environment. Springer, Cham. https://doi.org/10.1007/978-3-030-14961-1_1
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