Reconstruction of long-term dynamics of Chernobyl-derived 137Cs in the Upa River using bottom sediments in the Scheckino reservoir and semi-empirical modelling

Q3 Earth and Planetary Sciences
A. Konoplev, M. Ivanov, V. Golosov, E. Konstantinov
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引用次数: 9

Abstract

Abstract. Two cores of bottom sediments were collected in 2018 to a depth of ∼200 cm in the deepest part of the Scheckino reservoir on the Upa River (9500 km2), Tula region, Russia. This area was severely contaminated by radiocesium (r-Cs) after the Chernobyl accident in 1986. The fact that 137Cs activity concentrations in a specific horizon of the bottom sediments correspond to 137Cs concentrations associated with suspended matter delivered to the reservoir, provides a basis for constructing the dynamics of particulate 137Cs activity concentrations in the Upa River catchment from 1986 to 2017. Over the time since the Chernobyl accident, the particulate 137Cs concentrations have decreased by more than an order of magnitude, with only minor changes occurring during the last 15 years. Using a typical value for the distribution coefficient Kd for the rivers of the Chernobyl contamination zone, dissolved 137Cs activity concentrations in the Upa River have been estimated and their changes over the past 30 years since the accident have been studied. The resulting estimates of dissolved 137Cs concentrations in the Upa River have been found to be in good agreement with measured data over the period 1987–1991. The proposed and tested method provides a basis for reconstructing the long-term dependence of radionuclide concentrations in rivers and reservoirs based on their vertical distribution in bottom sediments. Reconstructed time dependencies of particulate and dissolved 137Cs activity concentrations in the Upa River were found to be described well by the proposed semi-empirical “diffusion” model based on an assumption that the time dependency of particulate r-Cs in the river corresponds to the time dependency of its concentration in top soil layers across the catchment which can be approximated by a dispersion-convection equation with physically meaningful parameters.
利用Scheckino水库底部沉积物和半经验模型重建Upa河切尔诺贝利137Cs的长期动态
摘要2018年,在俄罗斯图拉地区Upa河(9500平方公里)的Scheckino水库最深处收集了两个深度约200厘米的底部沉积物岩心。1986年切尔诺贝利事故后,该地区受到放射性铯的严重污染。底层沉积物特定层位的137Cs活性浓度与向水库输送的悬浮物相关的137Cs浓度相对应,为构建1986 - 2017年Upa河流域颗粒物137Cs活性浓度动态提供了基础。自切尔诺贝利事故以来,137Cs颗粒浓度下降了一个数量级以上,在过去的15年里只发生了微小的变化。利用切尔诺贝利污染区的河流分布系数Kd的典型值,估计了乌帕河中溶解的137Cs活度浓度,并研究了事故发生后30年来的变化。由此得出的Upa河中溶解137Cs浓度的估计与1987-1991年期间的测量数据非常吻合。所提出和试验的方法为重建河流和水库中放射性核素浓度在底部沉积物中的垂直分布的长期依赖关系提供了基础。本文提出的半经验“扩散”模型可以很好地描述Upa河中颗粒态和溶解态137Cs活性浓度的时间依赖性,该模型假设河流中颗粒态r-Cs的时间依赖性与流域表层土壤中浓度的时间依赖性相对应,该模型可以用具有物理意义参数的弥散-对流方程近似表示。
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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