Natural attenuation of Fukushima-derived radiocesium in soils due to its vertical and lateral migration

Konoplev, A. et al. (2018) Natural attenuation of Fukushima-derived radiocesium in soils due to its vertical and lateral migration. Journal of Environmental Radioactivity, 186, pp. 23-33. (doi: 10.1016/j.jenvrad.2017.06.019)

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Abstract

Processes of vertical and lateral migration lead to gradual reduction in contamination of catchment soil, particularly its top layer. The reduction can be considered as natural attenuation. This, in turn, results in a gradual decrease of radiocesium activity concentrations in the surface runoff and river water, in both dissolved and particulate forms. The purpose of this research is to study the dynamics of Fukushima-derived radiocesium in undisturbed soils and floodplain deposits exposed to erosion and sedimentation during floods. Combined observations of radiocesium vertical distribution in soil and sediment deposition on artificial lawn-grass mats on the Niida River floodplain allowed us to estimate both annual mean sediment accumulation rates and maximum sedimentation rates corresponding to an extreme flood event during Tropical Storm Etau, 6-11 September 2015. Dose rates were reduced considerably for floodplain sections with high sedimentation because the top soil layer with high radionuclide contamination was eroded and/or buried under cleaner fresh sediments produced mostly due to bank erosion and sediments movements. Rate constants of natural attenuation on the sites of the Takase River and floodplain of Niida River was found to be in range 0.2-0.4 year-1. For the site in the lower reach of the Niida River, collimated shield dose readings from soil surfaces slightly increased during the period of observation from February to July 2016. Generally, due to more precipitation, steeper slopes, higher temperatures and increased biological activities in soils, self-purification of radioactive contamination in Fukushima associated with vertical and lateral radionuclide migration is faster than in Chernobyl. In many cases, monitored natural attenuation along with appropriate restrictions seems to be optimal option for water remediation in Fukushima contaminated areas.

Item Type:Articles
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Cresswell, Dr Alan
Authors: Konoplev, A., Golosov, V., Wakiyama, Y., Takase, T., Yoschenko, V., Yoshihara, T., Parenyuk, O., Cresswell, A., Ivanov, M., Carradine, M., Nanba, K., and Onda, Y.
Subjects:G Geography. Anthropology. Recreation > GB Physical geography
G Geography. Anthropology. Recreation > GE Environmental Sciences
College/School:College of Science and Engineering > Scottish Universities Environmental Research Centre
Journal Name:Journal of Environmental Radioactivity
Publisher:Elsevier
ISSN:0265-931X
ISSN (Online):1879-1700
Published Online:30 August 2017
Copyright Holders:Copyright © 2017 Elsevier Ltd.
First Published:First published in Journal of Environmental Radioactivity 186: 23-33
Publisher Policy:Reproduced in accordance with the publisher copyright policy

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