Estimation of marine source-term following Fukushima Dai-ichi accident

Contamination of the marine environment following the accident in the Fukushima Dai-ichi nuclear power plant represented the most important artificial radioactive release flux into the sea ever known. The radioactive marine pollution came from atmospheric fallout onto the ocean, direct release of co...

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Bibliographic Details
Published in:Journal of environmental radioactivity 2012-12, Vol.114, p.2-9
Main Authors: Bailly du Bois, P., Laguionie, P., Boust, D., Korsakissok, I., Didier, D., Fiévet, B.
Format: Article
Language:English
Subjects:
131I
134Cs
137Cs
Accidental contamination
Accidental release
Accidents
Cesium Radioisotopes - analysis
Contamination
Environment and Society
Environmental half time
Environmental Sciences
Freshwater
Fukushima
Fukushima Nuclear Accident
Japan
leaching
Marine
marine environment
monitoring
nuclear power
Nuclear Power Plants
Ocean, Atmosphere
Pacific Ocean
polluted soils
Power plants
Radiation Monitoring
radionuclides
rivers
runoff
Sciences of the Universe
Sea water
seawater
Seawater - analysis
sediments
Source-term
Water Pollutants, Radioactive - analysis
Water pollution
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Summary:Contamination of the marine environment following the accident in the Fukushima Dai-ichi nuclear power plant represented the most important artificial radioactive release flux into the sea ever known. The radioactive marine pollution came from atmospheric fallout onto the ocean, direct release of contaminated water from the plant and transport of radioactive pollution from leaching through contaminated soil. In the immediate vicinity of the plant (less than 500 m), the seawater concentrations reached 68 000 Bq.L−1 for 134Cs and 137Cs, and exceeded 100 000 Bq.L−1 for 131I in early April. Due to the accidental context of the releases, it is difficult to estimate the total amount of radionuclides introduced into seawater from data obtained in the plant. An evaluation is proposed here, based on measurements performed in seawater for monitoring purposes. Quantities of 137Cs in seawater in a 50-km area around the plant were calculated from interpolation of seawater measurements. The environmental halftime of seawater in this area is deduced from the time-evolution of these quantities. This halftime appeared constant at about 7 days for 137Cs. These data allowed estimation of the amount of principal marine inputs and their evolution in time: a total of 27 PBq (12 PBq–41 PBq) of 137Cs was estimated up to July 18. Even though this main release may be followed by residual inputs from the plant, river runoff and leakage from deposited sediments, it represents the principal source-term that must be accounted for future studies of the consequences of the accident on marine systems. The 137Cs from Fukushima will remain detectable for several years throughout the North Pacific, and 137Cs/134Cs ratio will be a tracer for future studies. [Display omitted] ► Fukushima Dai-ichi accident is the most important artificial radioactive release flux into the sea. ► Quantities of 137Cs in seawater are deduced from individual measurements. ► Local concentrations in seawater diminish regularly by a factor of two in seven days. ► Total amount of direct releases of 137Cs estimated is 27 PBq (12 PBq–41 PBq). ► Time-evolution of release fluxes is drawn.
ISSN:0265-931X
1879-1700
DOI:10.1016/j.jenvrad.2011.11.015