The Fukushima nuclear accident in 2011 resulted in 137Cs contamination of large areas in northeast Japan. A watershed-scale 137Cs transport model was developed and applied to a forested catchment in Fukushima area. This model considers 137Cs wash-off from vegetation, movement through soils, and transport of dissolved and particulate 137Cs adsorbed to clay, silt and sand. Comparisons between measurements and simulations demonstrated that the model well reproduced 137Cs concentrations in the stream fed from the catchment. Simulations estimated that 0.57 TBq of 137Cs was exported from the catchment between June, 2011 and December, 2014. Transport largely occurred with eroded sediment particles at a ratio of 17:70:13 of clay, silt, and sand. The overall 137Cs reduction ratio by rainfall-runoff wash-off was about 1.6%. Appreciable 137Cs remained in the catchment at the end of 2014. The largest rate of 137Cs reduction by wash-off was simulated to occur in subwatersheds of the upper catchment. However, despite relatively low initial deposition, middle portions of the watershed exported proportionately more 137Cs by rainfall-runoff processes. Simulations indicated that much of the transported 137Cs originates from erosion over hillsides and river banks. These results suggested that areas where 137Cs accumulates with redeposited sediments can be targeted for decontamination and also provided insight into 137Cs transport at the watershed scale to assess risk management and decontamination planning efforts.
Keywords: (137)Cs transport; Forested catchment; Fukushima nuclear accident.
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