Data on 137Cs concentration factor of freshwater fish and aquatic organisms in lake and river ecosystems

This article provides the data which were analyzed in the research article “Different factors determine 137Cs concentration factors of freshwater fish and aquatic organisms in lake and river ecosystems” (Y. Ishii, S. S. Matsuzaki, S. Hayashi, 2019) [1]. Radionuclide accumulation in aquatic organism...

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Veröffentlicht in:	Data in brief 2020-02, Vol.28, p.105043, Article 105043
Hauptverfasser:	Ishii, Yumiko, Matsuzaki, Shin-ichiro S., Hayashi, Seiji
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Sprache:	eng
Schlagworte:	Aquatic biota Concentration factor Environmental Science Fukushima Radiocesium
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description	This article provides the data which were analyzed in the research article “Different factors determine 137Cs concentration factors of freshwater fish and aquatic organisms in lake and river ecosystems” (Y. Ishii, S. S. Matsuzaki, S. Hayashi, 2019) [1]. Radionuclide accumulation in aquatic organism is defined in terms of the concentration factor (CF), which is calculated as the radionuclide concentration in the organism (Bq kg−1) divided by that in the surrounding water (Bq L−1). Quantification of the radionuclide CF allows estimation of environmental radionuclide transfer and the potential risks of consuming fish contaminated with the radionuclide. We calculated the 137Cs CF values for freshwater fish and aquatic organisms using the monitoring data of multiple sites in five rivers and three lakes of Fukushima in years 2013–2017 after the Fukushima Dai-ichi Nuclear Power Plant accident. The data also include the 137Cs activity concentration of the water and water chemistry data (pH, biochemical oxygen demand, chemical oxygen demand, dissolved oxygen, electric conductivity, salinity, total organic carbon, suspended solid concentration, turbidity) at each sampling location associated with each CF value.
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Ishii, S. S. Matsuzaki, S. Hayashi, 2019) [1]. Radionuclide accumulation in aquatic organism is defined in terms of the concentration factor (CF), which is calculated as the radionuclide concentration in the organism (Bq kg−1) divided by that in the surrounding water (Bq L−1). Quantification of the radionuclide CF allows estimation of environmental radionuclide transfer and the potential risks of consuming fish contaminated with the radionuclide. We calculated the 137Cs CF values for freshwater fish and aquatic organisms using the monitoring data of multiple sites in five rivers and three lakes of Fukushima in years 2013–2017 after the Fukushima Dai-ichi Nuclear Power Plant accident. 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Ishii, S. S. Matsuzaki, S. Hayashi, 2019) [1]. Radionuclide accumulation in aquatic organism is defined in terms of the concentration factor (CF), which is calculated as the radionuclide concentration in the organism (Bq kg−1) divided by that in the surrounding water (Bq L−1). Quantification of the radionuclide CF allows estimation of environmental radionuclide transfer and the potential risks of consuming fish contaminated with the radionuclide. We calculated the 137Cs CF values for freshwater fish and aquatic organisms using the monitoring data of multiple sites in five rivers and three lakes of Fukushima in years 2013–2017 after the Fukushima Dai-ichi Nuclear Power Plant accident. 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subjects	Aquatic biota Concentration factor Environmental Science Fukushima Radiocesium
title	Data on 137Cs concentration factor of freshwater fish and aquatic organisms in lake and river ecosystems
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