Japan Geoscience Union Meeting 2016

Presentation information

Oral

Symbol M (Multidisciplinary and Interdisciplinary) » M-AG Applied Geosciences

[M-AG24] Dynamics of radionuclides emitted from Fukuchima Dai-ichi Nuclear Power Plant in the environment

Mon. May 23, 2016 9:00 AM - 10:30 AM A03 (APA HOTEL&RESORT TOKYO BAY MAKUHARI)

Convener:*Kazuyuki Kita(Faculty of Science, Ibaraki University), Yuichi Onda(Center for Research on Isotopes and Environmental Dynamics, University of Tsukuba), Teruyuki Nakajima(Japan Aerospace Exploration Agency), Yasuhito Igarashi(Atmospheric Environment and Applied Meteorology Research Department, Meteorological Research Institute), Masatoshi Yamada(Institute of Radiation Emergency Medicine, Hirosaki University), Chisato Takenaka(Graduate School of Bioagricultural Sciences, Nagoya University), masayoshi yamamoto(Low Level Radioactivity Laboratory, Kanazawa University), Jota Kanda(Graduate School of Marine Science and Technology, Tokyo University of Marine Science and Technology), Atsushi Shinohara(Osaka university), Chair:Yukihiko Satou(Graduate School of Pure and Applied Sciences, University of Tsukuba)

10:15 AM - 10:30 AM

[MAG24-06] How much the radiocesium fallout remain in forest surface soils?

*Eriko Ito1, Satoru Miura1, Michio Aoyama2, Shichi Koji1, Kenji Ono1 (1.Forestry and Forest Products Research Institute, 2.Fukushima University)

Keywords:Cs, Forest soil, inventory

Radioactive contamination in the forested area was caused by the 137Cs discharged from Fukushima Dai-ichi Nuclear Power Plant (FDNPP) accident. To predict longterm redistribution of fallout 137Cs, we investigated global fallout 137Cs (137Cs-GFO) from nuclear weapon tests in the atmosphere in the 1950s and 60s. We examined concentrations and amounts of 137Cs-GFO of three layers of soil samples (0–5, 5–15 and 15–30 cm in depth) at 316 sites all over Japan, which were collected just before the accident. We determined 137Cs-GFO by NaI well-type scintillation counter with its accuracy verified by measurements using a germanium detector. An average of 137Cs-GFO inventories of forest soils in Japan was estimated to be 1.7 ± 1.4 kBq m–2 as of Oct. 2008 with highly nation-wide spatial variation. Otherwise district meteorological observatory estimated accumulated 137Cs-GFO deposits to be 2.4 ± 0.8 kBq m-2. Since the number of measurement by district meteorological observatory was limited (n = 7), we have to compare these data with regards to spatial variation of the initial deposit possibly caused by climate condition. Climate factors used were precipitation normal value, vertical variation of tropopause height, and special rainfall events within atmospheric nuclear test peak period. The precipitation is positively correlated with 137Cs-GFO deposit. The vertical variation of tropopause height affects the 137Cs concentration of atmosphere in the troposphere. Influence of atmospheric nuclear test on the 137Cs concentration of atmosphere peaked from Dec. 1962 to June 1963. Special rainfall events of this period might have a great impact on the 137Cs-GFO deposit. Winter precipitation of the precipitation normal value (October to February) had been explained well the large amount of the 137Cs-GFO distribution trend with greater accumulation in the north-western part along the Sea of Japan side. We made, you create a general mixed model using winter precipitation as a fixed effect and survey points as random effects (model 1). The tropopause altitude daily observations in 2014 were extrapolated to 0.5 degrees mesh, which turned differential data of the one-day intervals and two day intervals, and the increase in tropopause height was extracted. We added monthly frequency of the increase events as an explanatory variable to model 1 (model 2). The model 2 improved estimation accuracy in Akita pref. and Kitakyushu region underestimated in model 1 and in Okinawa pref. and Tokai region overestimated in model 1. To consider the impact of special rainfall events, the AMeDAS point monthly precipitation (1950-1964) was extrapolated into a 0.1-degree mesh data set using the spline interpolation. Precipitation from Dec. 1962 to Feb. 1963 (a heavy snowfall event) was added an explanatory variable to model 1 (model 3). The model 3 remedied the 137Cs-GFO underestimation in some prefectures (Akita, Saga, Fukui and Nagasaki). Within the frame of the above three models, the 137Cs accumulation in forest soils were compared to the cumulative amount of deposit measured in the district meteorological observatory. All of the three models indicated that there was no significant difference in the amount of the 137Cs between the forest soils and the district meteorological observatories. We concluded that most of the 137Cs-GFO had remained in forest soils during the 60 years.