https://orcid.org/0000-0002-8202-2240
References
- Aliyu AS, Evangeliou N, Mousseau TA, Wu J, Ramli AT. 2015. An overview of current knowledge concerning the health and environmental consequences of the Fukushima Daiichi Nuclear Power Plant (FDNPP) accident. Environ Int. 85:213–228.
- Amano H, Akiyama M, Chunlei B, Kawamura T, Kishimoto T, Kuroda T, Muroi T, Odaira T, Ohta Y, Takeda K, et al. 2012. Radiation measurements in the Chiba metropolitan area and radiological aspects of fallout from the Fukushima Dai-ichi Nuclear Power Plants accident. J Environ Radioact. 111:42–52.
- Aoyama M, Kishino M, Jo TS. 2004. Biosorption of Cr (VI) on Japanese cedar bark. Sep Sci and Technol. 39:1149–1162.
- Argun ME, Dursun S, Karatas M. 2009. Removal of Cd (II), Pb (II), Cu (II) and Ni (II) from water using modified pine bark. Desalination. 249:519–527.
- Ayabe Y, Kanasashi T, Hijii N, Takenaka C. 2014. Radiocesium contamination of the web spider Nephila clavata (Nephilidae: arachnida)1.5 years after the Fukushima Dai-ichi Nuclear Power Plant accident. J Environ Radioact. 127:105–110.
- Barci-Funel G, Dalmasso J, Barci VL, Ardisson G. 1995. Study of the transfer of radionuclides in trees at a forest site. Sci Total Environ. 173:369–373.
- Bunzl K, Schimmack W, Kreutzer K, Schierl R. 1989. Interception and retention of Chernobyl-derived 134Cs, 137Cs and 106Ru in a spruce stand. Sci Total Environ. 78:77–87.
- Calmon P, Gonze MA, Mourlon C. 2015. Modeling the early-phase redistribution of radiocesium fallouts in an evergreen coniferous forest after Chernobyl and Fukushima accidents. Sci Total Environ. 529:30–39.
- Calmon P, Thiry Y, Zibold G, Rantavaara A, Fesenko S. 2009. Transfer parameter values in temperate forest ecosystems: a review. J Environ Radioact. 100:757–766.
- Endo I, Ohte N, Iseda K, Tanoi K, Hirose A, Kobayashi NI, Murakami M, Tokuchi N, Ohashi M. 2015. Estimation of radioactive 137-cesium transportation by litterfall, stemflow and throughfall in the forests of Fukushima. J Environ Radioact. 149:176–185.
- Ertel J, Ziegler J. 1991. Cs-134/137 contamination and root uptake of different forest trees before and after the Chernobyl accident. Radiati Environ Biophys. 30:147–157.
- Hasegawa M, Kaneko S, Ikeda S, Akama A, Komatsu M, Ito MT. 2015. Changes in radiocesium concentration in epigeic earthworms in relation to the organic layer 2.5 years after the 2011 Fukushima Dai-ichi Nuclear Power Plant accident. J Environ Radioact. 145:95–101.
- Hashimoto S, Ugawa S, Nanko K, Shichi K. 2012. The total amounts of radioactively contaminated materials in forests in Fukushima, Japan. Sci Rep. 2:416.
- Hölttä T, Mencuccini M, Nikinmaa E. 2009. Linking phloem function to structure: analysis with a coupled xylem-phloem transport model. J Theor Biol. 259:325–327.
- Kato H, Onda Y, Gomi T. 2012. Interception of the Fukushima reactor accident-derived 137Cs, 134Cs and 131I by coniferous forest canopies. Geophys Res Lett. 39:L20403.
- Kohno M, Koizumi Y, Okumura K, Mito I. 1988. Distribution of environmental Cesium-137 in tree rings. J Environ Radioact. 8:15–19.
- Kuroda K, Kagawa A, Tonosaki M. 2013. Radiocesium concentration in the bark, sapwood and heartwood of three tree species collected at Fukushima forests half a year after the Fukushima Dai-ichi nuclear accident. J Environ Radioact. 122:37–42.
- Lepp NW, Dollard GJ. 1974. Studies on lateral movement of 210Pb in woody stems. Oecologia. 16:179–184.
- Mahara Y, Ohta T, Ogawa H, Kumata A. 2014. Atmospheric direct uptake and long-term fate of radiocesium in trees after the Fukusima nuclear accident. Sci Rep. 4:7121.
- Mun S, Ku C, Kim J. 2010. Adsorption of metal and uranyl ions onto amidoximated Pinus densiflora bark. Wood Sci Technol. 44:283–299.
- Niizato T, Abe H, Mitachi K, Sasaki Y, Ishii Y, Watanabe T. 2016. Input and output budgets of radiocesium concerning the forest floor in the mountain forest of Fukushima released from the TEPCO’s Fukushima Dai-ichi Nuclear Power Plant accident. J Environ Qual. 161:11–21.
- Nishikiori T, Watanabe M, Koshikawa MK, Takamatsu T, Ishii Y, Ito S, Takenaka A, Watanabe K, Hayshi S. 2015. Uptake and translocation of radiocesium in cedar leaves following the Fukushima nuclear accident. Sci Total Environ. 52:611–616.
- Ohashi S, Okada N, Tanaka A, Nakai W, Takano S. 2014. Radial and vertical distributions of radiocesium in tree stems of Pinus densiflora and Quercus serrata 1.5 y after the Fukushima nuclear disaster. J Environ Radioact. 134:54–60.
- Ohta T, Torimoto J, Kubota T, Mahara Y. 2016. Front tracking of the translocation of water-soluble cesium deposited on tree leaves of plum. J Radioanal Nucl Chem. 310:109–115.
- Pfautsch S, Renard J, Tjoelker MG, Salih A. 2015. Phloem as Capacitor: radial transfer of water into xylem of tree stems occurs via symplastic transport in ray parenchyma. Plant Physiol. 167:963–971.
- Pröhl G. 2009. Interception of dry and wet deposited radionuclides by vegetation. J Environ Radioact. 100:675–682.
- Pumpanen J, Ohashi M, Endo I, Hari P, Bäck J, Kulmala M, Ohte N. 2016. 137Cs distribution in soil and trees in forest ecosystems after the radioactive fallout- Comparison study between southern Finland and Fukushima, Japan. J Environ Radioact. 161:73–81.
- Sato M, Takata D, Tanoi K, Ohtsuki T, Muramatsu Y. 2015. Radiocesium transfer into the fruit of deciduous fruit trees contaminated during dormancy. Soil Sci Plant Nutr. 61:156–164.
- Sawidis T, Drossos E, Heinrich G, Papastefanou C. 1990. Cesium-137 accumulation in higher plants before and after Chernobyl. Environ Int. 16:163–169.
- Soukhova NV, Fesenko SV, Klein D, Spiridonov SI, Sanzharova NI, Badot PM. 2003. 137Cs distribution among annual rings of different tree species contaminated after the Chernobyl accident. J Environ Radioact. 65:19–28.
- Su PP, Granholm K, Pranovich A, Harju L, Holmbom B, Ivaska A. 2013. A Sorption of metal ions from aqueous solution to spruce bark. Wood Sci Technol. 47:1083–1097.
- Sugiura Y, Kanasashi T, Ogata Y, Ozawa H, Takenaka C. 2016. Radiocesium accumulation properties of Chengiopanax sciadophyllodies. J Environ Radioact. 151:250–257.
- Tagami K, Uchida S, Ishii N, Kagiya S. 2012. Translocation of radiocesium from stems and leaves of plants and the effect on radiocesium concentration in newly emerged plant tissues. J Environ Radioact. 111:65–69.
- Takenaka C, Sasama T. 2000. Ion exchange reactions on the stem surface of Chamaecyparis obtuse Sieb. Et Zucc Trees. 14:354–360.
- Teramage MT, Onda Y, Kato H, Gomi T. 2014. The role of litterfall in transferring Fukushima-derived radiocesium to a coniferous forest floor. Sci Total Environ. 490:435–439.
- Thiry Y, Goor F, Riesen T. 2002. The true distribution and accumulation of radiocaesium in stem of Scots pine (Pinus sylvestris L.). J Environ Radioact. 58:243–259.
- Tikhomirov FA (1990) Urals and Chernobyl accidents: radioecological impact on forest ecosystems. Seminar on comparative assessment of the environmental impact of the radionuclides released during three major nuclear accidents: kyshtym, Windscale, Chernobyl. In CEC (DG XI)-UIR meeting, 1990 Oct 1–5, Report EUR 13574. Luxembourg.
- Wang W, Hanai Y, Takenaka C, Tomioka R, Iizuka K, Ozawa H. 2016. Cesium absorption through bark of Japanese cedar (Cryptomeria japonica). J For Res. 21:251–258.
- Watmough SA, Hutchinson TC. 2003. Uptake of 207Pb and 111Cd through bark of mature sugar maple,white ash and white pine: a field experiment. Environ Pollut. 121:39–48.
- Yoshida N, Kanda J. 2012. Tracking the Fukushima radionuclides. Science. 336:1115–1116.
- Yoshida S, Watanabe M, Suzuki A. 2011. Distribution of radiocesium and stable elements within a pine tree. Radiat Prot Dosim. 146:326–329.
- Zhang L, Qian JL, Planas D. 1995. Mercury concentration in tree rings of black spruce (Picea mariana Mill. B.S.P.) in boreal Quebec, Canada. Water Air Soil Pollution. 81:163–173.
- Zhiyanski M, Sokolovska M, Bech J, Clouvas A, Penev I, Badlin V. 2010. Cesium-137 contamination of oak (Quercus petrae Liebl.) from sub-Mediterranean zone in South Bulgaria. J Environ Radioact. 101:864–886.