Abstract Radionuclides released by the accident at the Fukushima Daiichi Nuclear Power Plant included 137Cs (Cesium-137) and 134Cs (Cesium-134), which were deposited on land as a result of fallout and… Click to show full abstract
Abstract Radionuclides released by the accident at the Fukushima Daiichi Nuclear Power Plant included 137Cs (Cesium-137) and 134Cs (Cesium-134), which were deposited on land as a result of fallout and concentrated in the uppermost 2–5 cm of the soil. In this study, river monitoring was conducted for 3.5 years to quantify dissolved and particulate radiocesium fluxes in the Mano and Hiso Rivers in Fukushima Prefecture from 2013 to 2016. Total 137Cs export was estimated to be 191 GBq from the Hiso River and 26 GBq from the Mano River during the 3.5-year study. Annual particulate 137Cs export during rainfall events accounted for 90–98% of total 137Cs export. Annual dissolved 137Cs export during rainfall events accounted for 1.5–3.3% of total export. The annual sum of particulate and dissolved 137Cs exports during low-flow periods accounted for 0.6–6.5% of total export. Hence, radiocesium was redistributed mainly by transport of particulate radiocesium bound to suspended sediments. During the study period, 0.7% and 0.6% of the 137Cs initially deposited on soil were exported by the Hiso River and Mano River, respectively. The slopes of regression lines relating fine suspended sediment concentrations and particulate 137Cs concentrations in river water declined from 2013 to 2016 by 79% for the Hiso River and 83% for the Mano River. Especially noteworthy was a sharp decrease of the annual mean 137Cs concentration of SS in 2016. This decrease was much greater than the decrease that would have been expected from the physical decay of 137Cs and was probably related to changes of soil erosion processes due to heavy rainfall and the effects of decontamination efforts in 2015.
               
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