福島の山地森林のスギ立木における樹皮から木部に向かう放射性セシウムの分布と移行プロセス

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Published in地学雑誌 Vol. 134; no. 3; pp. 309 - 321
Main Authors 雨宮 浩樹, 佐々木 祥人, 新里 忠史, 菅野 拓
Format Journal Article
LanguageJapanese
Published 公益社団法人 東京地学協会 25.06.2025
Subjects
スギ
山地森林
放射性セシウム
東京電力福島第一原子力発電所事故
移行プロセス
Online AccessGet full text
ISSN0022-135X
1884-0884
DOI10.5026/jgeography.134.309

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Author 菅野 拓
佐々木 祥人
新里 忠史
雨宮 浩樹
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  fullname: 新里 忠史
  organization: 日本原子力研究開発機構廃炉環境国際共同研究センター
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  fullname: 菅野 拓
  organization: 原子力エンジニアリング
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References Riesen, T.K., Avila, R., Moberg, L. and Hubbard, L. (1999): Review of forest models developed after the Chernobyl NPP accident. in Contaminated Forests edited by Linkov, I. and Schell, W.R., Kluwer Academic Publishers, 151-160.
Taiz, L. and Zeiger, E. (2004): Plant Physiology (Third edition) translated by Nishitani, K. and Shimazaki, K., Baifukan. Taiz, L. and Zeiger, E. (2002): Plant Physiology (Third edition). Sinauer Associates, Inc.
Ohashi, S., Kuroda, K., Takano, T., Suzuki, Y., Fujiwara, T., Abe, H., Kagawa, A., Sugiyama, M., Kubojima, Y., Zhang, C. and Yamamoto, K. (2017): Temporal trends in 137Cs concentrations in the bark, sapwood, heartwood, and whole wood of four tree species in Japanese forests from 2011 to 2016. Journal of Environmental Radioactivity, 178-179, 335-342.
Avila, R., Moberg, L., Hubbard, L., Fesenko, S., Spiridonov, S. and Alexakhin, R. (1999): Conceptual overview of Forestland — a model to interpret and predict temporal and spatial patterns of radioactively contaminated forest landscapes. in Contaminated Forests edited by Linkov, I. and Schell, W.R., Kluwer Academic Publishers, 173-184.
Okumura, T. (2021): Inner structures and physicochemical properties of radiocesium-bearing microparticles emitted by the FDNPP accident. Chikyukagaku (Geochemistry), 55, 31-40.
Japan Nuclear Cycle Development Institute (2000): Second Progress Report on Research and Development for the Geological Disposal of HLW in Japan, H12: Project to Establish the Scientific and Technical Basis for HLW Disposal in Japan. Supporting Report 3 Safety Assessment of the Geological Disposal System (Wagakuni Ni Okeru Koreberu Hoshasei Haikibutsu Chiso Shobun No Gijutsuteki Shinraisei Chiso Shobun Kenkyu Kaihatsu Dai 2 Ji Torimatome Bunsatsu 3 Chiso Shobun Shisutemu No Anzen Hyoka). JNC-TN1410 2000-004.
Shaw, G. and Belli, M. (1999): The Rife models of radionuclide fluxes in European forests. in Contaminated Forests edited by Linkov, I. and Schell, W.R., Kluwer Academic Publishers, 161-171.
Sakamoto, F., Onuki, T., Kozai, N., Yamasaki, S., Yoshida, Z. and Nanba, K. (2013): Determination of local-area distribution and relocation of radioactive cesium in trees from Fukushima Daiichi Nuclear Power Plant by autoradiography analysis. Transactions of the Atomic Energy Society of Japan, 12, 257-266.
Dvornik, A. and Zhuchenko, T. (1999): Model Forestlife and prediction of radioactive contamination of forests in Belarus. in Contaminated Forests edited by Linkov, I. and Schell, W.R., Kluwer Academic Publishers, 185-194.
Kaunisto, S., Aro, L. and Rantavaara, A. (2002): Effect of fertilization on the potassium and radiocaesium distribution in tree stands (Pinus sylvestris L.) and peat on a pine mire. Environmental Pollution, 117, 111-119.
Adachi, K., Kajino, M., Zaizen, Y. and Igarashi, Y. (2013): Emission of spherical cesium-bearing particles from an early stage of the Fukushima nuclear accident. Scientific Reports, 3, 2554.
Shimazaki, K. (2023): Stomata Enabled the Plant to Prosper on Land (Kiko Rikujo Shokubutsu No Hanei Wo Sasaerumono). Shokabo.
Okada, N., Hirakawa, Y. and Katayama, Y. (2012): Radial movement of sapwood-injected rubidium into heartwood of Japanese cedar (Cryptomeria japonica) in the growing period. Journal of Wood Science, 58, 1-8.
Iizuka, K., Ohshima, J., Ishiguro, F., Miyamoto, N., Aizawa, M., Ohkubo, T., Takenaka, C. and Yokota, S. (2019): Translocation of 137Cs in the woody parts of Sugi (Cryptomeria japonica). in Radiocesium Dynamics in a Japanese Forest Ecosystem edited by Takenaka, C., Hijii, N., Kaneko, N. and Ohkubo, T., Springer, 119-128.
Shaw, G., Avila, R., Fesenko, S., Dvornik, A. and Zhuchenko, T. (2003): Modelling the behaviour of radiocaesium in forest ecosystems. in Modelling Radioactivity in the Environment edited by Scott. M., Elsevier Science Ltd., 315-351.
Crank, J. (1975): The Mathematics of Diffusion (Second edition). Oxford University Press.
Nagakura, J., Abe, H., Zhang, C., Takano, T. and Takahashi, M. (2016): Cesium, rubidium and potassium content in the needles and wood of Japanese cedar trees harvested from the sites of different radiocesium deposition levels. Japanese Journal of Forest Environment, 58, 51-59.
Momoshima, N., Eto, I., Kotofuji, H., Takashima, Y., Koike, M., Imaizumi, Y. and Harada, T. (1995): Distribution and chemical characteristics of cations in annual rings of Japanese cedar. Journal of Environmental Quality, 24, 1141-1149.
Momoshima, N., Takashima, Y., Koike, M., Imaizumi, Y. and Harada, T. (1994): Distribution and extraction behavior of elements in annual rings of Cryptomeria japonica and Abies firma. Bunseki Kagaku, 43, 891-895.
Ogawa, H., Hirano, Y., Igei, S., Yokota, K., Arai, S., Ito, H., Kumata, A. and Yoshida, H. (2016): Changes in the distribution of radiocesium in the wood of Japanese cedar trees from 2011 to 2013. Journal of Environmental Radioactivity, 161, 51-57.
Title etc. translated by T.N.
Motojima, T. (2009): Numerical simulation and analysis solution of advection-dispersion partial differential equations. in Tracer Test of Groundwater (Chikasui No Toresa Shiken) edited by Working Group of the In-situ Tracer Test of Japanese Association of Groundwater Hydrology, Gihodo Shuppan, 168-182.
Imamura, N., Watanabe, M. and Manaka, T. (2021): Estimation of the rate of 137Cs root uptake into stemwood of Japanese cedar using an isotopic approach. Science of the Total Environment, 755, 142478.
Wang, W. (2019): Surface adsorption of 137Cs through tree bark. in Radiocesium Dynamics in a Japanese Forest Ecosystem edited by Takenaka, C., Hijii, N., Kaneko, N. and Ohkubo, T., Springer, 105-118.
Fesenko, S.V., Soukhova, N.V., Sanzharova, N.I., Avila, R., Spiridonov, S.I., Klein, D., Lucot, E. and Badot, P.-M. (2001): Identification of processes governing long-term accumulation of 137Cs by forest trees following the Chernobyl accident. Radiation and Environmental Biophysics, 40, 105-113.
Hashimoto, S., Tanaka, T., Komatsu, M., Gonze, M.-A., Sakashita, W., Kurikami, H., Nishina, K., Ota, M., Ohashi, S., Calmon, P., Coppin, F., Imamura, N., Hayasi, S., Hirak, K., Hurtevent, P., Koarashi, J., Manka, T., Miura, S., Shinomiya, Y., Shaw, G. and Thiry, Y. (2021): Dynamics of radiocaesium within forests in Fukushima–results and analysis of a model inter-comparison. Journal of Environmental Radioactivity, 238-239, 106721.
Ministry of Education, Culture, Sports, Science & Technology of Japan (MEXT) (2013): 1) The Measurement Results of the 6th Airborne Survey, and 2) the Measurement Results of the Airborne Survey Outside the 80 km Radius from the Fukushima Daiichi Nuclear Power Plant (1 Dai 6 Ji Kokuki Monitaringu No Sokutei Kekka Oyobi 2 Fukushima Daiichi Genshiryoku Hatsudensho Kara 80 km Kengai No Kokuki Monitaringu No Sokutei Kekka Ni Tsuite).* https://radioactivity.nra.go.jp/cont/ja/results/airborne/air-dose/191_258_0301_18.pdf [Cited 2024/3/21].
Okumura, T., Yamaguchi, N., Dohi, T., Iijima, K. and Kogure, T. (2019): Dissolution behaviour of radiocaesium-bearing microparticles released from the Fukushima nuclear plant. Scientific Reports, 9, 3520.
Nimis, P.L. (1996): Radiocesium in plants of forest ecosystem. Studia Geobotanica, 15, 3-49.
Yokota, T. and Goto, K. (1963): The rate of moisture sorption and desorption of wood. Bulletin of the Forestry and Forest Products Research Institute, 158, 45-70.
Sakamoto, F., Onuki, T., Kozai, N., Igarashi, S., Yamasaki, S., Yoshida, Z. and Tanaka, S. (2012): Local area distribution of fallout radionuclides from Fukushima Daiichi Nuclear Power Plant determined by autoradiography analysis. Transactions of the Atomic Energy Society of Japan, 11, 1-7.
Yokota, T. and Goto, K. (1967): Diffusion coefficients of moisture through coniferous woods in the sorption and desorption processes. Bulletin of the Forestry and Forest Products Research Institute, 198, 201-224.
Harada, H. and Sato, H. (1966): On the dry matter and nutrient contents of the stem of mature Cryptomeria trees, and their distribution to the bark, sapwood and heartwood. Journal of the Japanese Forest Society, 48, 315-324.
References_xml – reference: Motojima, T. (2009): Numerical simulation and analysis solution of advection-dispersion partial differential equations. in Tracer Test of Groundwater (Chikasui No Toresa Shiken) edited by Working Group of the In-situ Tracer Test of Japanese Association of Groundwater Hydrology, Gihodo Shuppan, 168-182.*
– reference: Ministry of Education, Culture, Sports, Science & Technology of Japan (MEXT) (2013): 1) The Measurement Results of the 6th Airborne Survey, and 2) the Measurement Results of the Airborne Survey Outside the 80 km Radius from the Fukushima Daiichi Nuclear Power Plant (1 Dai 6 Ji Kokuki Monitaringu No Sokutei Kekka Oyobi 2 Fukushima Daiichi Genshiryoku Hatsudensho Kara 80 km Kengai No Kokuki Monitaringu No Sokutei Kekka Ni Tsuite).* https://radioactivity.nra.go.jp/cont/ja/results/airborne/air-dose/191_258_0301_18.pdf [Cited 2024/3/21].
– reference: Ogawa, H., Hirano, Y., Igei, S., Yokota, K., Arai, S., Ito, H., Kumata, A. and Yoshida, H. (2016): Changes in the distribution of radiocesium in the wood of Japanese cedar trees from 2011 to 2013. Journal of Environmental Radioactivity, 161, 51-57.
– reference: Shaw, G., Avila, R., Fesenko, S., Dvornik, A. and Zhuchenko, T. (2003): Modelling the behaviour of radiocaesium in forest ecosystems. in Modelling Radioactivity in the Environment edited by Scott. M., Elsevier Science Ltd., 315-351.
– reference: Japan Nuclear Cycle Development Institute (2000): Second Progress Report on Research and Development for the Geological Disposal of HLW in Japan, H12: Project to Establish the Scientific and Technical Basis for HLW Disposal in Japan. Supporting Report 3 Safety Assessment of the Geological Disposal System (Wagakuni Ni Okeru Koreberu Hoshasei Haikibutsu Chiso Shobun No Gijutsuteki Shinraisei Chiso Shobun Kenkyu Kaihatsu Dai 2 Ji Torimatome Bunsatsu 3 Chiso Shobun Shisutemu No Anzen Hyoka). JNC-TN1410 2000-004.*
– reference: Iizuka, K., Ohshima, J., Ishiguro, F., Miyamoto, N., Aizawa, M., Ohkubo, T., Takenaka, C. and Yokota, S. (2019): Translocation of 137Cs in the woody parts of Sugi (Cryptomeria japonica). in Radiocesium Dynamics in a Japanese Forest Ecosystem edited by Takenaka, C., Hijii, N., Kaneko, N. and Ohkubo, T., Springer, 119-128.
– reference: Kaunisto, S., Aro, L. and Rantavaara, A. (2002): Effect of fertilization on the potassium and radiocaesium distribution in tree stands (Pinus sylvestris L.) and peat on a pine mire. Environmental Pollution, 117, 111-119.
– reference: Ohashi, S., Kuroda, K., Takano, T., Suzuki, Y., Fujiwara, T., Abe, H., Kagawa, A., Sugiyama, M., Kubojima, Y., Zhang, C. and Yamamoto, K. (2017): Temporal trends in 137Cs concentrations in the bark, sapwood, heartwood, and whole wood of four tree species in Japanese forests from 2011 to 2016. Journal of Environmental Radioactivity, 178-179, 335-342.
– reference: Yokota, T. and Goto, K. (1967): Diffusion coefficients of moisture through coniferous woods in the sorption and desorption processes. Bulletin of the Forestry and Forest Products Research Institute, 198, 201-224.
– reference: Momoshima, N., Takashima, Y., Koike, M., Imaizumi, Y. and Harada, T. (1994): Distribution and extraction behavior of elements in annual rings of Cryptomeria japonica and Abies firma. Bunseki Kagaku, 43, 891-895.
– reference: Shaw, G. and Belli, M. (1999): The Rife models of radionuclide fluxes in European forests. in Contaminated Forests edited by Linkov, I. and Schell, W.R., Kluwer Academic Publishers, 161-171.
– reference: Momoshima, N., Eto, I., Kotofuji, H., Takashima, Y., Koike, M., Imaizumi, Y. and Harada, T. (1995): Distribution and chemical characteristics of cations in annual rings of Japanese cedar. Journal of Environmental Quality, 24, 1141-1149.
– reference: Okumura, T. (2021): Inner structures and physicochemical properties of radiocesium-bearing microparticles emitted by the FDNPP accident. Chikyukagaku (Geochemistry), 55, 31-40.
– reference: Wang, W. (2019): Surface adsorption of 137Cs through tree bark. in Radiocesium Dynamics in a Japanese Forest Ecosystem edited by Takenaka, C., Hijii, N., Kaneko, N. and Ohkubo, T., Springer, 105-118.
– reference: Okada, N., Hirakawa, Y. and Katayama, Y. (2012): Radial movement of sapwood-injected rubidium into heartwood of Japanese cedar (Cryptomeria japonica) in the growing period. Journal of Wood Science, 58, 1-8.
– reference: Shimazaki, K. (2023): Stomata Enabled the Plant to Prosper on Land (Kiko Rikujo Shokubutsu No Hanei Wo Sasaerumono). Shokabo.*
– reference: * Title etc. translated by T.N.
– reference: Avila, R., Moberg, L., Hubbard, L., Fesenko, S., Spiridonov, S. and Alexakhin, R. (1999): Conceptual overview of Forestland — a model to interpret and predict temporal and spatial patterns of radioactively contaminated forest landscapes. in Contaminated Forests edited by Linkov, I. and Schell, W.R., Kluwer Academic Publishers, 173-184.
– reference: Sakamoto, F., Onuki, T., Kozai, N., Igarashi, S., Yamasaki, S., Yoshida, Z. and Tanaka, S. (2012): Local area distribution of fallout radionuclides from Fukushima Daiichi Nuclear Power Plant determined by autoradiography analysis. Transactions of the Atomic Energy Society of Japan, 11, 1-7.
– reference: Nimis, P.L. (1996): Radiocesium in plants of forest ecosystem. Studia Geobotanica, 15, 3-49.
– reference: Sakamoto, F., Onuki, T., Kozai, N., Yamasaki, S., Yoshida, Z. and Nanba, K. (2013): Determination of local-area distribution and relocation of radioactive cesium in trees from Fukushima Daiichi Nuclear Power Plant by autoradiography analysis. Transactions of the Atomic Energy Society of Japan, 12, 257-266.
– reference: Fesenko, S.V., Soukhova, N.V., Sanzharova, N.I., Avila, R., Spiridonov, S.I., Klein, D., Lucot, E. and Badot, P.-M. (2001): Identification of processes governing long-term accumulation of 137Cs by forest trees following the Chernobyl accident. Radiation and Environmental Biophysics, 40, 105-113.
– reference: Nagakura, J., Abe, H., Zhang, C., Takano, T. and Takahashi, M. (2016): Cesium, rubidium and potassium content in the needles and wood of Japanese cedar trees harvested from the sites of different radiocesium deposition levels. Japanese Journal of Forest Environment, 58, 51-59.
– reference: Okumura, T., Yamaguchi, N., Dohi, T., Iijima, K. and Kogure, T. (2019): Dissolution behaviour of radiocaesium-bearing microparticles released from the Fukushima nuclear plant. Scientific Reports, 9, 3520.
– reference: Dvornik, A. and Zhuchenko, T. (1999): Model Forestlife and prediction of radioactive contamination of forests in Belarus. in Contaminated Forests edited by Linkov, I. and Schell, W.R., Kluwer Academic Publishers, 185-194.
– reference: Hashimoto, S., Tanaka, T., Komatsu, M., Gonze, M.-A., Sakashita, W., Kurikami, H., Nishina, K., Ota, M., Ohashi, S., Calmon, P., Coppin, F., Imamura, N., Hayasi, S., Hirak, K., Hurtevent, P., Koarashi, J., Manka, T., Miura, S., Shinomiya, Y., Shaw, G. and Thiry, Y. (2021): Dynamics of radiocaesium within forests in Fukushima–results and analysis of a model inter-comparison. Journal of Environmental Radioactivity, 238-239, 106721.
– reference: Taiz, L. and Zeiger, E. (2004): Plant Physiology (Third edition) translated by Nishitani, K. and Shimazaki, K., Baifukan. Taiz, L. and Zeiger, E. (2002): Plant Physiology (Third edition). Sinauer Associates, Inc.
– reference: Yokota, T. and Goto, K. (1963): The rate of moisture sorption and desorption of wood. Bulletin of the Forestry and Forest Products Research Institute, 158, 45-70.
– reference: Adachi, K., Kajino, M., Zaizen, Y. and Igarashi, Y. (2013): Emission of spherical cesium-bearing particles from an early stage of the Fukushima nuclear accident. Scientific Reports, 3, 2554.
– reference: Imamura, N., Watanabe, M. and Manaka, T. (2021): Estimation of the rate of 137Cs root uptake into stemwood of Japanese cedar using an isotopic approach. Science of the Total Environment, 755, 142478.
– reference: Riesen, T.K., Avila, R., Moberg, L. and Hubbard, L. (1999): Review of forest models developed after the Chernobyl NPP accident. in Contaminated Forests edited by Linkov, I. and Schell, W.R., Kluwer Academic Publishers, 151-160.
– reference: Crank, J. (1975): The Mathematics of Diffusion (Second edition). Oxford University Press.
– reference: Harada, H. and Sato, H. (1966): On the dry matter and nutrient contents of the stem of mature Cryptomeria trees, and their distribution to the bark, sapwood and heartwood. Journal of the Japanese Forest Society, 48, 315-324.
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SubjectTerms スギ
山地森林
放射性セシウム
東京電力福島第一原子力発電所事故
移行プロセス
Title 福島の山地森林のスギ立木における樹皮から木部に向かう放射性セシウムの分布と移行プロセス
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