福岛核事故影响下森林表土中放射性铯的潜在移动性保持。

Retention of potentially mobile radiocesium in forest surface soils affected by the Fukushima nuclear accident.

机构信息

Nuclear Science and Engineering Directorate, Japan Atomic Energy Agency, Ibaraki 319-1195, Japan.

出版信息

Sci Rep. 2012;2:1005. doi: 10.1038/srep01005. Epub 2012 Dec 19.

DOI:10.1038/srep01005

PMID:23256039

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3525936/

Abstract

The fate of (137)Cs derived from the Fukushima nuclear accident fallout and associated radiological hazards are largely dependent on its mobility in the surface soils of forest ecosystems. Thus, we quantified microbial and adsorptive retentions of (137)Cs in forest surface (0-3 cm) soils. The K(2)SO(4) extraction process liberated 2.1%-12.8% of the total (137)Cs from the soils. Two soils with a higher content of clay- and silt-sized particles, organic carbon content, and cation exchange capacity showed higher (137)Cs extractability. Microbial biomass was observed in all of the soils. However, the (137)Cs extractability did not increase after destruction of the microbial biomass by chloroform fumigation, providing no evidence for microbial retention of the Fukushima-fallout (137)Cs. The results indicate that uptake of (137)Cs by soil microorganisms is less important for retention of potentially mobile (137)Cs in the forest surface soils compared to ion-exchange adsorption on non-specific sites provided by abiotic components.

摘要

福岛核事故沉降物中（137）Cs 的命运及其相关的放射性危害在很大程度上取决于其在森林生态系统地表土壤中的迁移能力。因此，我们量化了森林地表（0-3 厘米）土壤中（137）Cs 的微生物和吸附保留。K2SO4 提取过程从土壤中释放出 2.1%-12.8%的总（137）Cs。两种粘土和粉土颗粒、有机碳含量和阳离子交换容量较高的土壤表现出更高的（137）Cs 可提取性。所有土壤中都观察到微生物生物量。然而，用三氯甲烷熏蒸破坏微生物生物量后，（137）Cs 的可提取性并没有增加，这表明微生物对福岛沉降物（137）Cs 的保留作用不大。结果表明，与非生物成分提供的非特异性位点上的离子交换吸附相比，土壤微生物对（137）Cs 的吸收对森林地表土壤中潜在可迁移（137）Cs 的保留作用不太重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d984/3525936/f71338914767/srep01005-f1.jpg

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福岛核事故影响下森林表土中放射性铯的潜在移动性保持。

Retention of potentially mobile radiocesium in forest surface soils affected by the Fukushima nuclear accident.

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