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Persistent impact of Fukushima decontamination on soil erosion and suspended sediment

Feng, Yuichi Onda (), Yoshifumi Wakiyama, Keisuke Taniguchi, Asahi Hashimoto and Yupan Zhang
Additional contact information
Feng: University of Tsukuba
Yuichi Onda: University of Tsukuba
Yoshifumi Wakiyama: Fukushima University
Keisuke Taniguchi: Tsuyama College
Asahi Hashimoto: University of Tsukuba
Yupan Zhang: University of Tsukuba

Nature Sustainability, 2022, vol. 5, issue 10, 879-889

Abstract: Abstract In Fukushima, government-led decontamination reduced radiation risk and recovered 137Cs-contaminated soil, yet its long-term downstream impacts remain unclear. Here we provide the comprehensive decontamination impact assessment from 2013 to 2018 using governmental decontamination data, high-resolution satellite images and concurrent river monitoring results. We find that regional erosion potential intensified during decontamination (2013–2016) but decreased in the subsequent revegetation stage. Compared with 2013, suspended sediment at the 1-year-flood discharge increased by 237.1% in 2016. A mixing model suggests that the gradually increasing sediment from decontaminated regions caused a rapid particulate 137Cs decline, whereas no significant changes in downstream discharge-normalized 137Cs flux were observed after decontamination. Our findings demonstrate that upstream decontamination caused persistently excessive suspended sediment loads downstream, though with reduced 137Cs concentration, and that rapid vegetation recovery can shorten the duration of such unsustainable impacts. Future upstream remediation should thus consider pre-assessing local natural restoration and preparing appropriate revegetation measures in remediated regions for downstream sustainability.

Date: 2022
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DOI: 10.1038/s41893-022-00924-6

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