Occurrence of radioactive cesium-rich micro-particles (CsMPs) in a school building located 2.8 km south-west of the Fukushima Daiichi Nuclear Power Plant

笛田 和希*; 小宮 樹*; 蓑毛 健太*; 堀江 憲路*; 竹原 真美*; 山崎 信哉*; 塩津 弘之  ; 大貫 敏彦*; Grambow, B.*; Law, G. T. W.*; Ewing, R. C.*; 宇都宮 聡*

Fueda, Kazuki*; Komiya, Tatsuki*; Minomo, Kenta*; Horie, Kenji*; Takehara, Mami*; Yamasaki, Shinya*; Shiotsu, Hiroyuki; Onuki, Toshihiko*; Grambow, B.*; Law, G. T. W.*; Ewing, R. C.*; Utsunomiya, Satoshi*

Fukushima Daiichi Nuclear Power Plant (FDNPP) derived radioactive Cs-rich microparticles (CsMPs) present a potential health risk through inhalation. Despite their occurrence in indoor environments impacted by the FDNPP accident, little is known about their prevalence. In this study, we quantitatively analyse the distribution and number of CsMPs in indoor dust samples collected from an elementary school located 2.8 km to the southwest of FDNPP. The school had remained untouched until 2016. Then, using a modified version of the autoradiography based "quantifying CsMPs (mQCP) method," we collected samples and determined the number of CsMPs and Cs radioactive fraction (RF) values of the microparticles (defined as total Cs activity from CsMPs / bulk Cs activity of entire sample). The numbers of CsMPs were determined to be 653 - 2570 particles/g and 296 - 1273 particles/g on the first and second floors of the school, respectively. The corresponding RFs ranged between 6.85 - 38.9 % and 4.48 - 6.61 %, respectively. The number of CsMPs and RF values in additional outdoor samples near the school building were and 23 - 63 particles/g and 1.14 - 1.61 %, respectively. The CsMPs were most abundant on the School's first floor near to the entrance, and the relative abundance was high near to the stairs on the second floor, indicating a likely CsMP dispersion path through the building. Additional wetting of the indoor samples combined with autoradiography revealed that indoor dusts had a distinct absence of intrinsic, soluble Cs species like CsOH. Combined, the results indicate that a significant amount of poorly soluble CsMPs were likely contained in initial radioactive airmass plumes from the FDNPP and that the microparticles could penetrate buildings. Clean-up plans for buildings / residential areas impacted by CsMP containing plumes, and monitoring of areas re-opened to the public, should take account of CsMPs in dusts.