Effects of local-scale decontamination in a secondary forest 596 contaminated after the Fukushima nuclear power plant accident, Environmental pollution, vol.228, pp.344-597, 2017. ,
599 Tracking the early dispersion of contaminated sediment along rivers draining the Fukushima 600 radioactive pollution plume, Anthropocene, vol.1, pp.23-34, 2013. ,
The impact of 602 typhoons on sediment connectivity: lessons learnt from contaminated coastal catchments of the 603 Fukushima Prefecture (Japan), Earth Surface Processes and Landforms, vol.42, pp.306-317, 2017. ,
, Preliminary Estimation 606 of Release Amounts of 131I and 137Cs Accidentally Discharged from the Fukushima Daiichi Nuclear, p.607
, Power Plant into the Atmosphere, Journal of Nuclear Science and Technology, vol.48, pp.1129-1134, 2011.
Global risk from the atmospheric dispersion of 610 radionuclides by nuclear power plant accidents in the coming decades, Atmospheric Chemistry and 611 Physics, vol.14, pp.4607-4616, 2014. ,
, Commissariat à l'Energie Atomique et aux Energies Alternatives: Les grandeurs et unités de la 613 radioactivité, 2016.
, Paddy-field contamination with 134 Cs and 137 Cs due to, p.616
, Fukushima Dai-ichi Nuclear Power Plant accident and soil-to-rice transfer coefficients, Journal of 617 environmental radioactivity, vol.116, pp.59-64, 2013.
Radiocesium transfer from 619 hillslopes to the Pacific Ocean after the Fukushima Nuclear Power Plant accident: A review, Journal of 620 environmental radioactivity, vol.148, pp.92-110, 2015. ,
Quantifying the dilution 622 of the radiocesium contamination in Fukushima coastal river sediment, Scientific 623 reports, vol.6, 2011. ,
, , p.625
Using spectrocolourimetry to trace sediment source dynamics in coastal catchments 626 draining the main Fukushima radioactive pollution plume, Journal of Soils, vol.627, 2011. ,
Relationship between the 629 adsorption species of cesium and radiocesium interception potential in soils and minerals: an EXAFS 630 study, Journal of environmental radioactivity, vol.138, pp.92-100, 2014. ,
, Preprint. Discussion started, 2019.
Behavior of radioactive cesium 632 during incineration of radioactively contaminated wastes from decontamination, p.633 ,
, Journal of environmental radioactivity, vol.634, pp.290-296, 2017.
Meta-analysis of radiocesium contamination data in Japanese forest 636 trees over the period 2011-2013, The Science of the total environment, vol.637, pp.301-316, 2017. ,
, , p.639
, , p.640
, , p.641
, , p.642
Radiation dose rates now and in the future for residents neighboring 643 restricted areas of the Fukushima Daiichi Nuclear Power Plant, Proceedings of the National Academy 644 of Sciences of the United States of America, vol.111, pp.914-923, 2014. ,
The total amounts of radioactively contaminated 646 materials in forests in Fukushima, 2012. ,
Internal 648 radiocesium contamination of adults and children in Fukushima 7 to 20 months after the Fukushima 649 NPP accident as measured by extensive whole-body-counter surveys, Proceedings of the Japan 650 Academy, Series B, vol.89, pp.157-163, 2013. ,
Source dynamics of 652 radiocesium-contaminated particulate matter deposited in an agricultural water reservoir after the 653 Fukushima nuclear accident, 657 IAEA: Radioactive Waste Management Glossary, IAEA, Vienna, 2003. 658 IAEA: Application of Thermal Technologies for Processing of Radioactive Waste, 1527, IAEA TECDOC 659 1527, vol.612, pp.1079-1090, 2000. ,
, IAEA: The Follow-up IAEA International Mission on Remediation of Large Contaminated Areas Off-site 661 the Fukushima Daiichi Nuclear Power Plant, 2013.
Plutonium 664 isotopic signatures in soils and their variation, p.665, 2011. ,
, , vol.240, pp.167-176, 2018.
, Japanese Ministry of the Environment: Act on Special Measures concerning the Handling, vol.668
, Environment Pollution by Radioactive Materials Discharged by the NPS Accident Associated with the 669 Tohoku District -Off the Pacific Ocean Earthquake That Occurred on March 11, vol.201, 2011.
, Japanese Ministry of the Environment: Plan for disposal of ash contaminated with more than 8,000 672 becquerels and less than 100,000 becquerels of radioactive cesium per kilogram, vol.673, 2011.
, Japanese Ministry of the Environment: Decontamination guidelines, vol.675, 2013.
, Japanese Ministry of the Environment: Remediation. Interim storage facilities, 2019.
, Preprint. Discussion started, 2019.
, , p.683
Assessment of individual radionuclide distributions from 684 the Fukushima nuclear accident covering central-east Japan, Proceedings of the National Academy of 685 Sciences of the United States of America, vol.108, 2011. ,
Factors affecting 687 vertical distribution of Fukushima accident-derived radiocesium in soil under different land-use 688 conditions, The Science of the total environment, vol.431, p.2012 ,
Verification of radiocesium 691 decontamination from farmlands by plants in Fukushima, Journal of plant research, vol.127, pp.51-56, 2014. ,
, , p.694
Low 134 Cs/ 137 Cs ratio anomaly in the 695 north-northwest direction from the Fukushima Dai-ichi Nuclear Power Station, Journal of 696 environmental radioactivity, pp.84-94, 2017. ,
, , p.698
Behavior of accidentally released radiocesium in soil-water environment: Looking at Fukushima 699 from a Chernobyl perspective, Journal of environmental radioactivity, vol.151, issue.3, pp.568-578, 2016. ,
Exchangeability of 137 Cs and K in 702 soils of agricultural fields after decontamination in the eastern coastal area of Fukushima, Soil 703 Science and Plant Nutrition, pp.1-8, 2019. ,
Do forests represent a long-term source of 705 contaminated particulate matter in the Fukushima Prefecture?, Journal of environmental 706 management, vol.183, pp.742-753, 2016. ,
708 Environmental mobility of 110m Ag: lessons learnt from Fukushima accident (Japan) and potential use 709 for tracking the dispersion of contamination within coastal catchments, Journal of environmental, vol.710, pp.44-55, 2014. ,
Depth distribution of cesium-712 137 in paddy fields across the Fukushima pollution plume in 2013, Journal of Environmental 713 Radioactivity, vol.147, pp.157-164, 2015. ,
Radiocesium 715 concentrations in soil and leaf after decontamination practices in a forest plantation highly polluted 716 by the Fukushima accident, Environmental pollution, vol.239, pp.448-456, 2018. ,
Depth profiles of radioactive cesium in soil using a scraper plate over a wide area 720 surrounding the Fukushima Dai-ichi Nuclear Power Plant, vol.139, pp.427-434, 2015. ,
Comparison of the 723 vertical distributions of Fukushima nuclear accident radiocesium in soil before and after the first 724 rainy season, with physicochemical and mineralogical interpretations, Science of the Total 725 Environment, vol.447, pp.301-314, 2013. ,
Distribution 727 and retention of Cs radioisotopes in soil affected by Fukushima nuclear plant accident, Journal of 728 Soils and Sediments, vol.15, pp.374-380, 2015. ,
Assessment of residual 730 doses to population after decontamination in Fukushima Prefecture, Journal of environmental 731 radioactivity, vol.166, pp.74-82, 2017. ,
, Preprint. Discussion started, 2019.
The economics of nuclear decontamination: assessing policy options for the management 733 of land around Fukushima dai-ichi, Environmental Science & Policy, vol.33, pp.63-75, 2013. ,
Export of 736 <sup>134</sup> Cs and <sup>137</sup> Cs in the Fukushima river systems at heavy rains by 737 ,
, Biogeosciences, vol.10, pp.6215-6223, 2011.
Radiocesium sorption in relation to clay 739 mineralogy of paddy soils in Fukushima, Japan, The Science of the total environment, pp.468-469, 2014. ,
, Relationships between Paddy Soil, p.742
, Radiocesium Interception Potentials and Physicochemical Properties in Fukushima, p.743
, , vol.44, pp.780-788, 2015.
, Geochimical Map of the Sea and 745 Land of Japan, 2011.
Monitoring inspection for radioactive substances in agricultural, livestock, forest and 747 fishery products in Fukushima prefecture, Agricultural Implications of the Fukushima Nuclear 748 Accident, pp.11-21, 2016. ,
Radiocesium decontamination of a riverside in Fukushima, Journal 750 of environmental radioactivity, vol.177, pp.58-64, 2017. ,
, , p.752
Comparison between direct measurements and modeled estimates of external radiation 753 exposure among school children 18 to 30 months after the Fukushima nuclear accident in Japan, p.754 ,
, Environ Sci Technol, vol.49, pp.1009-1016, 2015.
The Need for Forest Decontamination: For 756 the Recovery of Fukushima, Radiation protection dosimetry, vol.175, p.2017 ,
759 Quantification of dissolved and particulate radiocesium fluxes in two rivers draining the main 760 radioactive pollution plume in Fukushima, Anthropocene, vol.22, pp.40-50, 2013. ,
An ethical dimension to sustainable 762 restoration and long-term management of contaminated areas, Journal of environmental 763 radioactivity, vol.74, pp.171-183, 2004. ,
, , p.765
Dealing with the aftermath of Fukushima Daiichi nuclear accident: 766 decontamination of radioactive cesium enriched ash, Environ Sci Technol, vol.47, pp.3800-3806, 2013. ,
, , p.769
Application of Prussian blue nanoparticles for the 770 radioactive Cs decontamination in Fukushima region, Journal of environmental radioactivity, vol.771, issue.1, pp.233-237, 2016. ,
Assessment of the 773 measures for the extraction or fixation of radiocesium in soil, Geoderma, vol.267, pp.169-173, 2016. ,
, , p.776
Modification of 137 Cs transfer to rape (Brassica napus L.) phytomass under the influence of soil 777 microorganisms, Journal of environmental radioactivity, vol.149, pp.73-80, 2015. ,
Radiocarbon and radiocesium 779 in litter fall at Kawamata, ~ 45 km NW from the Fukushima Dai-ichi nuclear power plant (Japan), Journal of Radioanalytical and Nuclear Chemistry, vol.780, 2018. ,
, Impact of the Fukushima accident on tritium, radiocarbon and radiocesium, p.783
URL : https://hal.archives-ouvertes.fr/hal-01584220
Discussion started: 1 August 2019 the western North Pacific Ocean: A comparison with pre-Fukushima situation, Journal of environmental radioactivity, vol.784, 2016. ,
Characteristics of radiocesium contaminations in mushrooms 786 after the Fukushima nuclear accident: evaluation of the food monitoring data from, Environmental Science and Pollution Research, vol.25, pp.2409-2416, 2011. ,
Deposition of 789 radiocesium on the river flood plains around Fukushima, Journal of environmental radioactivity, vol.164, pp.36-46, 2016. ,
Soil removal as a decontamination 792 practice and radiocesium accumulation in tadpoles in rice paddies at Fukushima, Environmental 793 pollution, vol.187, pp.112-115, 2014. ,
Soil removal as a decontamination 795 practice and radiocesium accumulation in tadpoles in rice paddies at Fukushima, Environmental 796 Pollution, vol.187, pp.112-115, 2014. ,
Disaster waste characteristics and radiation distribution as 798 a result of the Great East Japan Earthquake, Environ Sci Technol, vol.46, pp.3618-3624, 2012. ,
Fukushima's forgotten radionuclides: a review of the understudied radioactive 801 emissions, Environ Sci Technol, vol.48, pp.4649-4663, 2014. ,
Comparison of the Chernobyl and Fukushima nuclear 803 accidents: a review of the environmental impacts, The Science of the total environment, vol.804, pp.800-817, 2014. ,
, , p.806
Xenon-133 and caesium-137 releases into the atmosphere from the Fukushima Dai-807 ichi nuclear power plant: determination of the source term, atmospheric dispersion, and deposition, p.808 ,
, Atmospheric Chemistry and Physics, vol.12, pp.2313-2343, 2012.
Vertical distribution and temporal 810 changes of 137 Cs in soil profiles under various land uses after the Fukushima Dai-ichi Nuclear Power 811 Plant accident, Journal of environmental radioactivity, vol.139, pp.351-361, 2015. ,
Dose Estimation in Recycling of Decontamination Soil 813 Resulting From The Fukushima NPS Accident For Road Embankments, Health Phys, vol.115, pp.439-447, 2018. ,
816 Comparison of Potentials of Higher Plants for Phytoremediation of Radioactive Cesium from 817 Contaminated Soil, Environmental Control in Biology, vol.54, pp.65-69, 2016. ,
Investigation of 819 Spatial Distribution of Radiocesium in a Paddy Field as a Potential Sink, PLoS ONE, 2013. ,
, , p.822
Measurement of 823 internal radiation exposure among decontamination workers in villages near the crippled Fukushima 824 ,
, Health Phys, vol.105, pp.379-381, 2013.
, , p.826
Assessment of the Annual Additional Effective Doses amongst Minamisoma Children 827 during the Second Year after the Fukushima Daiichi Nuclear Power Plant Disaster, PloS one, vol.10, 2015. ,
Radiocesium discharge from 830 paddy fields with different initial scrapings for decontamination after the Fukushima ,
, Environ Sci Process Impacts, vol.16, pp.2580-2591, 2014.
, , p.833
Radiocarbon Releases from the 2011 Fukushima 834 Nuclear Accident, Scientific reports, vol.6, 2016. ,
, Preprint. Discussion started, 2019.
Radiocesium and radioiodine in 836 soil particles agitated by agricultural practices: field observation after the Fukushima nuclear 837 accident, The Science of the total environment, vol.425, pp.128-134, 2012. ,
Effects of zeolite and vermiculite addition on exchangeable 839 radiocaesium in soil with accelerated ageing, Journal of environmental radioactivity, vol.203, pp.18-24, 2019. ,
, , p.842
Estimation of soil-to-plant transfer factors of radiocesium in 99 wild plant species 843 grown in arable lands 1 year after the Fukushima 1 Nuclear Power Plant accident, Journal of plant, vol.844, pp.11-22, 2014. ,
Cesium-137 846 deposition and contamination of Japanese soils due to the Fukushima nuclear accident, Proceedings 847 of the National Academy of Sciences of the United States of America, vol.108, pp.19530-19534, 2011. ,
, , p.850
A GIS-based evaluation of the effect of decontamination on 851 effective doses due to long-term external exposures in Fukushima, Chemosphere, vol.93, pp.1222-1229, 2013. ,
Cost and effectiveness of decontamination strategies in 854 radiation contaminated areas in Fukushima in regard to external radiation dose, PloS one, vol.8, p.75308, 2013. ,
Assessing cost and effectiveness of radiation decontamination in 857 ,
, Journal of environmental radioactivity, vol.151, 2016.
An extensive study of the 860 concentrations of particulate/dissolved radiocaesium derived from the Fukushima ,
, Power Plant accident in various river systems and their relationship with catchment inventory, Journal of environmental radioactivity, vol.862, 2014.
Time Dependence of the 137 Cs Concentration in Particles 864 Discharged from Rice Paddies to Freshwater Bodies after the Fukushima Daiichi NPP Accident, 865 Environmental science & technology, vol.50, pp.4186-4193, 2016. ,
Release of plutonium isotopes into the environment from the 867 ,
, Fukushima Daiichi Nuclear Power Plant accident: what is known and what needs to be known, p.868
, Environ Sci Technol, vol.47, pp.9584-9595, 2013.
, , 2019.