Cesium adsorption/desorption behavior of clay minerals considering actual contamination conditions in Fukushima

Cesium adsorption/desorption behavior of clay minerals considering actual contamination conditions in Fukushima

Cesium adsorption/desorption experiments for various clay minerals, considering actual contamination conditions in Fukushima, were conducted using the 137 Cs radioisotope and an autoradiography using imaging plates (IPs). A 50 μl solution containing 0.185 ~ 1.85 Bq of 137 Cs (10 −11  ~ 10 −9  molL −...

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Bibliographic Details
Published in:Scientific reports Vol. 6; no. 1; p. 21543
Main Authors: Mukai, Hiroki, Hirose, Atsushi, Motai, Satoko, Kikuchi, Ryosuke, Tanoi, Keitaro, Nakanishi, Tomoko M., Yaita, Tsuyoshi, Kogure, Toshihiro
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 12-02-2016
Nature Publishing Group
Subjects:
704/172
704/2151/330
Adsorption
Autoradiography
Cesium
Clay minerals
Contamination
Desorption
Humanities and Social Sciences
Hydrochloric acid
Illite
Kaolinite
Minerals
multidisciplinary
pH effects
Science
Sorption
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Summary:Cesium adsorption/desorption experiments for various clay minerals, considering actual contamination conditions in Fukushima, were conducted using the 137 Cs radioisotope and an autoradiography using imaging plates (IPs). A 50 μl solution containing 0.185 ~ 1.85 Bq of 137 Cs (10 −11  ~ 10 −9  molL −1 of 137 Cs) was dropped onto a substrate where various mineral particles were arranged. It was found that partially-vermiculitized biotite, which is termed “weathered biotite” (WB) in this study, from Fukushima sorbed 137 Cs far more than the other clay minerals (fresh biotite, illite, smectite, kaolinite, halloysite, allophane, imogolite) on the same substrate. When WB was absent on the substrate, the amount of 137 Cs sorbed to the other clay minerals was considerably increased, implying that selective sorption to WB caused depletion of radiocesium in the solution and less sorption to the coexisting minerals. Cs-sorption to WB continued for about one day, whereas that to ferruginous smectite was completed within one hour. The sorbed 137 Cs in WB was hardly leached with hydrochloric acid at pH 1, particularly in samples with a longer sorption time. The presence/absence of WB sorbing radiocesium is a key factor affecting the dynamics and fate of radiocesium in Fukushima.
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ISSN:2045-2322
2045-2322
DOI:10.1038/srep21543