Changes of absorbed dose rate in air in metropolitan Tokyo relating to radiocesium released from the Fukushima Daiichi Nuclear Power Plant accident: Results of a five-year study.

Kazumasa Inoue,Hiroshi Tsuruoka,Shuto Nakazawa,Ken Ichimura,Moeko Arai,Masahiro Fukushi,Yoshiaki Taguchi,Hideo Shimizu,Mizuho Tsukada,Nimelan Veerasamy,Michio Murakami

doi:10.1371/journal.pone.0224449

Abstract

Car-borne surveys were carried out in metropolitan Tokyo, Japan, in 2015, 2016, 2017 and 2018 to estimate the transition of absorbed dose rate in air from the Fukushima Daiichi Nuclear Power Plant accident. Additionally, the future transition of absorbed dose rates in air based on this five-year study and including previously reported measurements done in 2014 by the authors was analyzed because central Tokyo has large areas covered with asphalt and concrete. The average absorbed dose rate in air (range) in the whole area of Tokyo measured in 2018 was 59 ± 9 nGy h-1 (28–105 nGy h-1), and it was slightly decreased compared to the previously reported value measured in 2011 (61 nGy h-1; 30–200 nGy h-1). In the detailed dose rate distribution map, while areas of higher dose rates exceeding 70 nGy h-1 had been observed on the eastern and western ends of Tokyo after 2014, the dose rates in these areas have decreased yearly. Especially, the decreasing dose rate from radiocesium (Cs-134 + Cs-137) in the eastern end of Tokyo which is mainly covered by asphalt was higher than that measured in the western end which is mainly covered by forest. The percent reductions for the eastern end in the years 2014–2015, 2015–2016, 2016–2017 and 2017–2018 were 49%, 21%, 18% and 16%, and those percent reductions for western end were 26%, 18%, 6% and 3%, respectively. Additionally, the decrease for dose rate from radiocesium depended on the types of asphalt, and that on porous asphalt was larger than the decrease on standard asphalt.

Highlights

The distribution of environmental radiation in eastern Japan was dramatically changed after the Fukushima Daiichi Nuclear Power Plant (F1-NPP) accident that occurred in March 2011
The coefficient of determination (R2) from measurement correlations ranged from 0.661 to 0.774 and the calculated R2 for metropolitan Tokyo had lower values compared to those measured in another Japanese report (R2 = 0.967, n = 35) [23]
Car-borne surveys with a NaI(Tl) scintillation spectrometer were carried out for metropolitan Tokyo during 2015–2018 and the changes of absorbed dose rate in air related to the radionuclide releases from the F1-NPP accident were discussed, including data measured in 2011 and 2014

Summary

Introduction

Changes of dose rates in metropolitan Tokyo [1]. This accident was a level 7 nuclear accident on the International Nuclear and Radiological Event Scale. Large amounts of fission products were released into the atmosphere and the Pacific Ocean. The released total amounts of artificial radionuclides were estimated to be 100–500 PBq of 131I and 6–20 PBq of 137Cs and they are about 10% and 20% of the respectively estimated amounts emitted in the Chernobyl accident [2]. Eight years after the F1-NPP accident, Cs-134 (half-life 2.06 y) and Cs-137 (half-life 30.17 y) remain as the major concern from a radiological safety viewpoint

Methods

Results

Conclusion