Environmental radioactivity around tokai-works after the reactor accident at chernobyl |
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| Institution: | 1. Department of Radiology and Biomedical Imaging, UC San Francisco, 505 Parnassus Ave, San Francisco California, 94117 (S.A.W., A.B., A.J.M.);2. Department of Radiology, UC Los Angeles, Los Angeles California (C.J.K.);3. Department of Radiology, UC Davis Health, Sacramento California (A.M.H.);4. Department of Radiology, UC Irvine, Orange County California (E.K.);5. Department of Surgery, UC Davis Health, Sacramento California (W.C.P.);6. Department of Radiology, UC San Diego, San Diego California (S.T.) |
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| Abstract: | Following the reactor accident at Chernobyl, environmental samples of air, rain water and agricultural and marine products were collected and analyzed by gamma- and alpha-spectrometry. The highest concentrations of 131I in the environmental samples were as follows: 1·0×−1 Bqm−3 (aerosol-associated in air); 3·0×10−1 Bqm−3 (gaseous in air); 2·1×102 bq kg−1 (plants); 1·4×101 Bq litre−1 (milk). Other nuclides such as 95Zr, 95Nb, 103Ru, 106Ru, 125Sb, 129mTe, 132I/132Te, 134Cs, 137Cs, 140Ba/140La, 141Ce and 144Ce were also observed in various environmental samples. 110mAg was only detected in marine products such as cephalopoda and shellfish, 239,240Pu and 241Am originating from the accident were not identified.Based on the monitoring results at one dairy farm, we have derived an equation to model the transport of 131I from pasture grass to milk. This equation was then applied to the data from two other farms around Tokai-Works and the calculated 131I activities in milk were compared with those measured. The equation shows good predictive capabilities for quantification of the peak concentrations of 131I in milk but underestimates longer-term activities. |
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