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福岛第一核电站事故后落叶林土壤中 137Cs 的垂直迁移。

137Cs vertical migration in a deciduous forest soil following the Fukushima Dai-ichi Nuclear Power Plant accident.

机构信息

Research Group for Environmental Science, Nuclear Science and Engineering Directorate, Japan Atomic Energy Agency, Ibaraki 319-1195, Japan.

Research Group for Environmental Science, Nuclear Science and Engineering Directorate, Japan Atomic Energy Agency, Ibaraki 319-1195, Japan.

出版信息

J Environ Radioact. 2014 Feb;128:9-14. doi: 10.1016/j.jenvrad.2013.10.019. Epub 2013 Nov 14.

DOI:10.1016/j.jenvrad.2013.10.019
PMID:24239654
Abstract

The large amount of (137)Cs deposited on the forest floor because of the Fukushima Dai-ichi Nuclear Power Plant accident represents a major potential long-term source for mobile (137)Cs. To investigate (137)Cs mobility in forest soils, we investigated the vertical migration of (137)Cs through seepage water, using a lysimetric method. The study was conducted in a deciduous forest soil over a period spanning 2 month to 2 y after the Fukushima nuclear accident. Our observations demonstrated that the major part of (137)Cs in the litter layer moved into the mineral soil within one year after the accident. On the other hand, the topsoil prevented migration of (137)Cs, and only 2% of (137)Cs in the leachate from litter and humus layer penetrated below a 10 cm depth. The annual migration below a 10 cm depth accounted for 0.1% of the total (137)Cs inventory. Therefore, the migration of (137)Cs by seepage water comprised only a very small part of the total (137)Cs inventory in the mineral soil, which was undetectable from the vertical distribution of (137)Cs in the soil profile. In the present and immediate future, most of the (137)Cs deposited on the forest floor will probably remain in the topsoil successively, although a small but certain amount of bioavailable (137)Cs exists in forest surface soil.

摘要

由于福岛第一核电站事故,大量的 (137)Cs 沉积在森林地表,这代表了移动 (137)Cs 的一个主要潜在长期来源。为了研究森林土壤中 (137)Cs 的迁移性,我们使用淋溶法研究了渗漏水中 (137)Cs 的垂直迁移。这项研究是在福岛核事故发生后 2 个月到 2 年的时间里,在落叶林土壤中进行的。我们的观察表明,在事故发生后的一年内,大部分 (137)Cs 都从凋落物层移动到了矿物土壤中。另一方面,表土阻止了 (137)Cs 的迁移,只有凋落物和腐殖质层淋出液中 2%的 (137)Cs 穿透到 10 厘米以下的深度。每年迁移到 10 厘米以下深度的部分仅占 (137)Cs 总库存的 0.1%。因此,渗漏水中 (137)Cs 的迁移量仅占矿物土壤中 (137)Cs 总库存的一小部分,这在土壤剖面中 (137)Cs 的垂直分布中是无法检测到的。在当前和不久的将来,虽然森林地表土壤中存在一定数量的生物可利用 (137)Cs,但沉积在森林地表的大部分 (137)Cs 可能会相继留在表土中。

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