10:15 AM - 10:30 AM
[MAG38-06] Distribution of radiocesium fallout on forest area throughout Japan after decades from former atmospheric nuclear tests
Keywords:radioactive contamination, Fukushima Dai-ichi Nuclear Power Plant, 137Cs, forest soil, trees, secondary migration
We estimated an average of 137Cs-GFO inventories of forest soils in Japan to be 1.7 ± 1.4 kBq/m2 as of 2008. 137Cs-GFO inventories varied largely from 0-7.9 kBq/m2 around the country. We found high accumulation of 137Cs-GFO in the north-western part facing to the Sea of Japan. We detected significant rainfall effects on the high accumulation due to winter rainfall. The vertical distribution of 137Cs-GFO showed that 44% of 137Cs-GFO remained within the 5 cm of soil from the surface whereas the rest of 56% was found in the layer of 5-30 cm in depth, indicating that considerable downward migration of 137Cs-GFO occurred during these fifty years in forest soils in Japan. However, multiple linear regression analysis by geomorphological factors related to soil erosion, such as inclination angle or catchment area calculated from Digital Elevation Model, showed almost no significant effects on the distribution of 137Cs-GFO.
The radioactivity of 137Cs-Fk concentrations of fine roots collected from the 0-10 cm layer were 1600-2400 Bq/kg, which were comparable to those of one-year old branches (1400-2200 Bq/kg). The radioactivity of the fine roots was 7 times higher than that found in the soil of 50-100 cm layer (220-350 Bq/kg). This difference the radioactivity of the fine roots among the soil layers was remarkably small when compared with the 1000 times or more difference of radioactivity of soils in the same layers (one outlier sample in the 40-60 cm layer was excluded). The findings indicated that 137Cs-Fk circulated through the whole tree within three years after the accident. Considering root litter fall inside the soils we estimated that contaminated 137Cs on trees at the above ground part could be transported to soils through roots.
We clarified that 137Cs-GFO has been held at deposited site and migrated downward gradually in soil. There are two possible major driving forces to be considered to explain the downward migration of 137Cs-GFO. One is the migration of 137Cs associated with vertical water movement and the other one is the transport of 137Cs by root litter fall or root exudate. Further research is needed to analyze these processes to obtain reliable prediction of future distribution of 137Cs-Fk.