Jana Badurová’s research while affiliated with T.G. Masaryk Water Research Institute and other places

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Publications (3)


Quality and mutagenicity of water and sediment of the streams impacted by the former uranium mine area OlŠí-Drahonín (Czech Republic)
  • Article

November 2012

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10 Reads

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12 Citations

Journal of Environmental Radioactivity

H Hudcová

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J Badurová

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J Svobodová

The water quality research performed in the years 2003-2010 demonstrated an impact of the mine water pumped from the closed Olší uranium mine and discharged from the mine water treatment plant (MWTP) and groundwater from springs in the area on the water quality of the Hadůvka stream. The water ecosystems of the lower part of the Hadůvka stream are impacted mainly by water originated from the springs located in the stream valley and drained syenit subsoil, naturally rich in uranium. Those inflows caused a very high concentration of uranium measured in the water of the stream, which exceeds the given limit value. No negative impact on the water ecosystems of the receiving Bobrůvka River was found. This reduction of impact is caused by five times higher average daily flow rate of the Bobrůvka River in comparison with the Hadůvka stream, which results in a sufficient dilution of pollution from the Hadůvka.


Fig. 1 Concentration of organic pollution 
Fig. 2 Selected sampling profiles in the Elbe (Labe) River Basin 
Table 2 Limit values for evaluation of the toxic risk of inorganic pollution
Fig. 3 Selected sampling profiles in the Odra (Oder) River Basin 
Fig. 4 Selected sampling profiles in the Morava River Basin 

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A method for screening for the risk of chronic effects of surface water pollution
  • Article
  • Full-text available

February 2012

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202 Reads

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3 Citations

The article describes a method for screening for the risk of chronic surface water pollution which was developed at the T. G. Masaryk Water Research Institute. The approach, which is based on exotoxicological analyses, can be classed as a rapid method of assessment. The degree of risk of chronic effects surface water pollution is determined from an evaluation of two major parameters-toxicity and genotoxicity. As the method utilizes relative simple procedures for sample collection, pretreatment of the sample, chemical analyses, bioassays and results assessment, this approach is suitable for widespread practical use. Extensive utilization of this approach for assessing river basins in the Czech Republic has proved its suitability for a more sophisticated detection of the biological impact of surface water pollution. This is documented in the article where the method is used in a study of the Bílina River, and in the overview of the results of the risk assessment of chronic effects of surface water pollution in selected sections of three international river basins in the Czech Republic.

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Table 1 . Daily mass load of uranium in water at the mouth of Hadůvka stream
Figure 2. Photos of the discharge pipe and the building of the MWTP on the Had ů vka stream 
Table 3 . Results of genotoxicity determination in sediments and SPMs
Table 4 . Results of genotoxicity determination in sediments
IMPACT OF FORMER URANIUM MINING IN THE OLŠÍ MINE AREA (CZECH REPUBLIC) ON THE WATER ECOSYSTEMS

The article presents results obtained from monitoring chemical and ecological state of ambient water ecosystem, especially the surface water quality with the focus on radiological analysis and assessment of ecotoxicity and genotoxicity, executed on the Hadůvka stream, the main stream impacted by former uranium mining in the Olší mine area, during the period 2003 - 2008. Moreover, sediment and suspended particulate matter were tested for a number of parameters. The water quality research performed in the years 2003-2008 demonstrated an impact of the mine water pumped from the closed Olší uranium mine and discharged from the mine water treatment plant (MWTP) and groundwater from springs in the area on the water quality of the Hadůvka stream. The water ecosystems of the lower part of the Hadůvka stream are impacted mainly by water originated from the springs located in the stream valley and drained syenit subsoil naturally rich in uranium. These inflows caused a very high concentration of uranium measured in the water of the stream, which exceeds the given limit value. No negative impact on the water ecosystems of the receiving Bobrůvka River was found. This reduction of impact is caused by five times higher average daily flow rate of the Bobrůvka River in comparison with the Hadůvka stream, which results in sufficient dilution of pollution from the Hadůvka .

Citations (1)


... Environmental contamination in the aftermath of uranium mining has been an objective of immense scientific interest worldwide in recent decades [1][2][3][4][5]. Intensive U mining and inappropriate residual material management have resulted in negative environmental impacts [6]. ...

Reference:

The Need to Improve Riparian Forests Management in Uranium Mining Areas Based on Assessment of Heavy Metal and Uranium Contamination
Quality and mutagenicity of water and sediment of the streams impacted by the former uranium mine area OlŠí-Drahonín (Czech Republic)
  • Citing Article
  • November 2012

Journal of Environmental Radioactivity