Radioactivity from Fukushima Dai-ichi in air over Europe; part 1: spatio-temporal analysis

Abstract

Radionuclides emitted from the Fukushima I nuclear power plant have been detected in air all over Europe. Concentrations remained far below levels which could have caused radiological concern: probably the committed thyroid dose due to inhalation remained below about 1 μSv (for 10 y children), within the investigated region. They provided, however, a spatio-temporal signal which could be used to develop and test tools to provide additional information on the large-scale situation (Europe-wide, in this case) during a nuclear emergency.In this part we discuss the spatial distribution of the contaminated air masses over Europe. Using 131I as an example, we present a method to construct maps of the time-cumulated 131I concentration in air and of the peak concentrations. Procedures to deal with the statistical limitations of a data set stemming from different monitoring schemes are discussed. As over all results, the mean (over the investigated region) cumulated concentration of particular 131I is estimated about 9 mBq d/m3, with observed maximum of about 23 mBq d/m3. The probability that much higher concentrations occurred at unsampled locations, than have been observed anywhere, is assessed low, e.g. about 2.5% for the cumulated 131I(part.) concentration to exceed 30 mBq d/m3.Our method can be used in nuclear emergencies for providing spatial analyses if radionuclide concentrations of health concern are detected by atmospheric monitoring stations. We suggest considering such methods of data harmonization if synoptic assessment based on heterogeneous datasets is attempted.