Transfer of 137Cs to rice plants from various paddy soils contaminated under flooded conditions at different growth stages

Soil blocks from 18 paddy fields around three Korean nuclear power plant sites were put into lysimeters. Greenhouse experiments were carried out to investigate the Cs-137 transfer from these paddy soils to rice plants for its deposition at different growth stages. A solution Of Cs-137 was applied to the flooded lysimeters at 2-3 different stages. The applied Cs-137 was mixed with the topsoil only at the pre-transplanting application. The transfer was quantified with a transfer factor based on the unit-area deposition (TFa, m(2) kg(-1)-dry). The TFa in the pre-transplanting application showed a remarkable variation with the soils. However, the differences in the mean values among the study sites were not statistically significant. The straw TFa was 2-3 times higher than the corresponding seed value. The early-tillering stage and booting stage applications resulted in a higher transfer than the pre-transplanting application by factors of, on an average, 2 and 16 for the straws, and 3 and 25 for the hulled seeds, respectively. The Cs-137 transfer was found to correlate negatively with the soil pH and positively with the organic matter content. Based on the present results, the representative Cs-137 TFa values for the rice are proposed for use in the whole of Korea for the deposition at three different growth stages. (C) 2004 Elsevier Ltd. All rights reserved.