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Temporal trends of 137Cs activity concentration in pond waters in the vicinity of Fukushima Dai-ichi nuclear power plant

Q3 Earth and Planetary Sciences Proceedings of the International Association of Hydrological Sciences Pub Date : 2019-08-01 DOI:10.5194/PIAHS-381-101-2019

Y. Wakiyama, A. Konoplev, T. Wada, T. Takase, Yasunori Igarashi, K. Nanba, Ian Byrnes

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引用次数: 6

Abstract

Abstract. Closed and semi-closed water bodies, such as lakes and ponds, are important water resources in Fukushima area and they are the most sensitive environments to radioactive contamination after the Fukushima Dai-ichi nuclear power plant accident. Wakiyama et al. (2017) investigated 137Cs activity in water and bottom sediment in four ponds; Suzuuchi (SU), Funasawa (FS), Inkyozaka (IZ), and Kashiramori (KM), within 10 km zone from the FDNPP during 2015–2016. This study follows up their observation to address longer time trends of 137Cs activity concentration in pond waters and to show speciation of 137Cs in soil and bottom sediment. Mean total 137Cs activity concentration in water ranged from 2.5 to 29 Bq L−1. There was not found steady trend in the activity concentration of total and particulate 137Cs for four ponds. The concentration of dissolved 137Cs was usually low in winter during the entire observation period in all four ponds. A tendency to a decrease in the 137Cs activity concentration in suspended sediments was found for four ponds and the decreasing rate constants, including radiological decay, on SU, FS, IZ and KM were 0.33, 0.53, 0.29 and 0.25 yr−1, respectively. The results of sequential extractions of soil and bottom sediment samples showed higher proportion of bioavailable 137Cs, i.e., exchangeable and organic bound 137Cs, in bottom sediment than in the soil.

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福岛第一核电站附近池塘水体137Cs活度浓度的时间变化趋势

摘要湖泊、池塘等封闭和半封闭水体是福岛地区重要的水资源，也是福岛第一核电站事故后对放射性污染最敏感的环境。Wakiyama等人(2017)调查了四个池塘水中和底部沉积物中的137cs活性;Suzuuchi (SU)， Funasawa (FS)， Inkyozaka (IZ)和Kashiramori (KM)，在2015-2016年期间距离FDNPP 10公里范围内。本研究对他们的观察进行了跟踪，以解决池塘水体中137Cs活性浓度的较长时间趋势，并显示土壤和底泥中137Cs的形态。水体137Cs活性浓度平均值为2.5 ~ 29 Bq L−1。4个池塘总137Cs和颗粒物137Cs活性浓度变化趋势不稳定。在整个观测期内，4个池塘溶解态137Cs浓度在冬季均较低。4个池塘的悬浮物中137cs活性浓度呈下降趋势，其中SU、FS、izd和KM的下降速率常数分别为0.33、0.53、0.29和0.25 yr−1。土壤和底质样品的连续提取结果表明，底质中生物可利用性137Cs(即交换态和有机结合态137Cs)的比例高于土壤。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Proceedings of the International Association of Hydrological Sciences

Proceedings of the International Association of Hydrological Sciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)

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12 weeks

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