Influence of Precipitation on the Spatial Distribution of 210Pb, 7Be, 40K and 137Cs in Moss

K. Wilkins, H. Cathcart, Padraig Hickey, O. Hanley, L. Vintró, J. Aherne
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引用次数: 2

Abstract

Mosses have been widely used as biomonitors of a variety of atmospheric pollutants, including radionuclides. Here we determine the radionuclide activity concentration of 210Pb, 137Cs, 7Be, and 40K in moss tissue (Hylocomium splendens) collected from 24 sites across Ireland and assess the influence of precipitation on radionuclide spatial distribution. Lead-210 was the most abundant radionuclide (range: 226–968 Bq kg–1), followed by 7Be (range:
降水对苔藓中210Pb、7Be、40K和137Cs空间分布的影响
苔藓已被广泛用作多种大气污染物的生物监测仪,包括放射性核素。本文测定了爱尔兰24个地点苔藓组织(Hylocomium splendens)中210Pb、137Cs、7Be和40K的放射性核素活性浓度,并评估了降水对放射性核素空间分布的影响。铅-210是最丰富的放射性核素(范围:226-968 Bq kg-1),其次是7Be(范围:< DL-604 Bq kg-1), 40K(范围:< DL-155 Bq kg-1)和137Cs(范围:< DL-41 Bq kg-1)。尽管切尔诺贝利灾难发生近30年了,但在67%的研究地点检测到137Cs活性浓度;但空间分布与1986年切尔诺贝利的沉降格局不完全一致。相反,137Cs与降雨的相关性较弱,西海岸的浓度较高,这表明2011年福岛第一核电站事故也是一个潜在的来源。年平均降雨量是210Pb活性的显著预测因子(线性回归,R2 = 0.63, p < 0.001)。因此,由于研究地点的降水水平高(平均:1585毫米),210Pb的放射性核素活度最高(平均:541 Bq kg-1)。7Be和40K与降水不相关;相反,40K和7Be之间的相关性显著(rs = 0.7),表明这两种放射性核素都是从基质或通过土壤再悬浮转移的。降水被广泛报道为放射性核素空间分布的一个重要因素;然而,在本研究中,只有210Pb活性浓度受到降水的强烈影响。
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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