Abstract
Radiocaesium-bearing microparticles (CsMPs) composed of silicate glass were released by the Fukushima Daiichi Nuclear Power Plant accident in March 2011. Since CsMPs contain a high concentration of radiocaesium, their dynamics and fate in the environment are urgent issues to be investigated. Here, we show that CsMPs are dissolved by weathering in the environment and that their radioactivity is more rapidly decreased by dissolution than the physical decay of radiocaesium. We conducted dissolution experiments with CsMPs in pure water that absorbed CO2 from the atmosphere and in artificial seawater at several temperatures. The dissolution progress was monitored by the decrease in the 137Cs radioactivity in CsMPs, and the dissolution rate was estimated. The activation energy for the dissolution of CsMPs was estimated to be 65 and 88 kJ/mol and the dissolution rate at 13 °C (approximate annual mean temperature in Fukushima City) was 0.014 and 0.140 μm/y for pure water and seawater, respectively, assuming that radiocaesium is uniformly distributed in spherical CsMPs. The shapes of the CsMPs dissolved in pure water were considerably altered, suggesting that the dissolution proceeded without maintaining the geometry. Tin oxide and iron oxide nanoparticulates formed on the surfaces. Such features were similar to those observed in CsMPs recently collected in Fukushima Prefecture, indicating that weathering dissolution of CsMPs is also occurring in the environment. For the CsMPs dissolved in seawater, a crust of secondary Mg- and Fe-rich minerals was formed, and the glass matrix inside the crust decreased, creating space between the crust and the glass matrix.
Highlights
A significant amount of radiocaesium (134Cs and 137Cs) was released by the Fukushima Daiichi Nuclear Power Plant (FDNPP) accident in March 2011, resulting in radiation contamination around the FDNPP
In the single CsMP experiment, individual CsMPs were isolated from the non-woven fabric cloth (NWC), identified using scanning electron microscopy (SEM), and immersed in pure water or seawater under several temperature conditions
In the multiple CsMP experiment, fragments of the NWC with several CsMPs identified by imaging plate (IP) autoradiography were immersed in pure water or seawater
Summary
A significant amount of radiocaesium (134Cs and 137Cs) was released by the Fukushima Daiichi Nuclear Power Plant (FDNPP) accident in March 2011, resulting in radiation contamination around the FDNPP. Adachi et al.[6] discovered spherical radioactive microparticles with diameters of 2.0–2.6 μm and 137Cs of 0.7–3 Bq in a single particle in aerosol filters collected at Tsukuba, Japan, 170 km southwest from the FDNPP These radiocaesium-bearing microparticles are termed “CsMPs.” Abe et al.[7] reported that these CsMPs contain several 235U fission products, confirming that the CsMPs were formed in the reactors. Yamaguchi et al.[8] found similar CsMPs on ground-cover material for agriculture and leaves in Fukushima Prefecture They used transmission electron microscopy (TEM) to determine that the main component in the CsMPs is silicate glass in which Cl, K, Fe, Zn, Rb, Sn, and Cs are the major dissolved constituent elements. We investigated the dissolution process of CsMPs by analysing the CsMPs before and after dissolution experiments using electron microscope techniques
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