P. Achim, M. Monfort, G. Le-petit, P. Gross, G. Douysset et al., Analysis of radionuclide releases from the Fukushima Dai-ichi Nuclear Power Plant accident -Part, 2012.

, II. Pure and Applied Geophysics

B. J. Alloway and E. , Heavy Metals in Soils, 2 nd ed, 1995.

L. Borselli, P. Cassi, and D. Torri, Prolegomena to sediment and flow connectivity in the landscape: 434 A GIS and field numerical assessment, Catena, vol.75, pp.268-277, 2008.

K. Buesseler, M. Aoyama, and M. Fukasawa, Impacts of the Fukushima nuclear power plants on 436 marine radioactivity, Environ. Sci. Technol, vol.45, pp.9931-9935, 2011.

K. O. Buesseler, Fishing for answers off Fukushima, Science, vol.338, pp.480-482, 2012.

K. O. Buesseler, S. R. Jayne, N. S. Fisher, I. I. Rypina, H. Baumann et al., , p.439

E. M. Douglass, J. George, A. M. Macdonald, H. Miyamoto, J. Nishikawa et al., Fukushima-derived radionuclides in the ocean and biota off Japan, Proc. Natl. Acad. Sci. USA, vol.440, issue.2012, pp.441-5984

P. C. Burns, R. C. Ewing, and A. Navrotsky, Nuclear fuel in a reactor accident, Science, vol.335, 2012.

, Bilan des conséquences de l'accident de 473, 2012.

. Fukushima and . Au-japon,

. Environnement_28022012 and . Pdf,

H. Kato, Y. Onda, and M. Teramage, Depth distribution of 137 Cs, 134 Cs, and 131 I in soil profile after 478, 2012.

, Fukushima Dai-ichi Nuclear Power Plant Accident, J. Environ. Radioact, vol.111, pp.59-64

, Ag-110m -Nuclide Information, Japanese Atomic Energy Agency (JAEA), 2010.

G. D. Jones, P. D. Forsyth, and G. B. Appleby, Observation of 110m Ag in Chernobyl fallout, Nature, vol.482, p.313, 1986.

J. Koarashi, M. Atarashi-andoh, T. Matsunaga, T. Sato, S. Nagao et al., Factors affecting 490 vertical distribution of Fukushima accident-derived radiocesium in soil under different land-use 491 conditions, Science of the Total Environment, vol.431, pp.392-401, 2012.

L. Petit, G. Douysset, G. Ducros, G. Gross, P. Achim et al., , p.493

C. Jutier, X. Blanchard, T. Taffary, and C. Moulin, Analysis of Radionuclide Releases from the, 2012.

, Fukushima Dai-Ichi Nuclear Power Plant Accident -Part I. Pure and Applied Geophysics

O. Masson, Tracking of airborne radionuclides from the damaged Fukushima Dai-ichi 497 nuclear reactors by European networks, Environ. Sci. Technol, vol.45, pp.7670-7677, 2011.

T. Matsunaga, J. Koarashi, M. Atarashi-andoh, S. Nagao, T. Sato et al., Comparison of the 499 vertical distributions of Fukushima nuclear accident radiocesium in soil before and after the first rainy 500 season, with physicochemical and mineralogical interpretations, Science of the Total Environment, vol.447, pp.301-314, 2013.

M. Meybeck, Global analysis of river systems: from Earth system controls to Anthropocene 503 syndromes, Phil. Trans. R. Soc. Lond. B, vol.358, pp.1935-1955, 2003.

, Preparation of 505 distribution map of radiation doses, etc. (Map of radioactive cesium concentration in soil) by MEXT, Sports Science and Technology (MEXT), 2011.

, (DOE) MEXT and DOE Airborne Monitoring, 2011.

Y. Morino, T. Ohara, M. Watanabe, S. Hayashi, and M. Nishizawa, Episode analysis of deposition 515 of radiocesium from the Fukushima Daiichi nuclear power plant accident. Environmental Science and 516 Technology, 2013.

J. A. Motha, P. J. Wallbrink, P. B. Hairsine, and R. B. Grayson, Tracer properties of eroded sediment 518 and source material, Hydrol. Process, vol.16, 1983.

G. Mouri, M. Shiiba, T. Hori, and T. Oki, Modeling reservoir sedimentation associated with an 520 extreme flood and sediment, Geomorphology, vol.125, pp.263-270, 2011.

, Trial estimation of emission of radioactive materials 522 ( 131 I, 137 Cs) into the atmosphere from Fukushima Dai-ichi nuclear power station, 2011.

D. Oughton, The environmental chemistry of radiocaesium and other nuclides, 1989.

A. S. Rogowski and T. Tamura, Movement of 137 Cs by runoff, erosion and infiltration on the alluvial 527 Captina silt loam, Health Physics, vol.11, issue.12, pp.1333-1340, 1965.

Z. R. Shang and J. K. Leung, 110m Ag root and foliar uptake in vegetables and its migration in soil, 2003.

, Environ. Radioact, vol.65, issue.3, pp.297-307

T. Shozugawa, N. Nogawa, and M. Matsuo, Deposition of fission and activation products after the 536, 2012.

, Fukushima Dai-ichi nuclear power plant accident, J. Env. Pol, vol.163, pp.243-247

M. Simons, S. E. Minson, A. Sladen, F. Ortega, J. Jiang et al., , p.538

R. Chu, D. V. Helmberger, H. Kanamori, E. Hetland, A. W. Moore et al., , 2011.

, Tohoku-Oki Earthquake: Mosaicking the Megathrust from Seconds to Centuries, Science, vol.540, pp.1421-1425

H. J. Simpson, C. R. Olsen, R. M. Trier, and S. C. Williams, Man-made radionuclides and sedimentation 542 in the Hudson River estuary, Science, vol.194, pp.179-183, 1976.

A. Stohl, P. Seibert, G. Wotawa, D. Arnold, J. F. Burkhart et al., , p.544

T. J. Yasunari, Xenon-133 and caesium-137 releases into the atmosphere from the Fukushima Dai-545 ichi nuclear power plant: determination of the source term, atmospheric dispersion, and deposition, 2012.

, Atmos. Chem. Phys, vol.12, pp.2313-2343

K. Tagami, S. Uchida, Y. Uchihori, N. Ishii, H. Kitamura et al., Specific activity and 548 activity ratios of radionuclides in soils collected about 20 km from the Fukushima Daiichi nuclear power 549 plant: Radionuclide release to the south and southwest, Sci. Total Environ, vol.409, pp.4885-4888, 2011.

T. Tamura, Consequences of activity release: selective sorption reactions of cesium with soil 551 minerals, Nucl. Safety, vol.5, pp.262-268, 1964.

S. Ueda, H. Hasegawa, H. Kakiuchi, N. Akata, Y. Ohtsuka et al., , p.27, 2013.

L. Urso, J. C. Kaiser, K. G. Andersson, H. Andorfer, G. Angermair et al., , 2013.

, Modeling of the fate of radionuclides in urban sewer systems after contamination due to nuclear or 557 radiological incidents, Journal of Environmental Radioactivity, vol.118, pp.121-127

, Predicting rainfall erosion losses; in A Guide to Conservation Planning, USDA Agriculture, vol.559, issue.537, p.58, 1978.

K. Van-oost, T. A. Quine, G. Govers, S. De-gryze, J. Six et al., , p.561

G. Heckrath, C. Kosmas, J. V. Giraldez, J. R. Marques-da-silva, and R. Merckx, The impact of 562 agricultural soil erosion on the global carbon cycle, Science, vol.318, issue.5850, pp.626-629, 2007.

D. C. Whitehead, Iodine in soil profiles in relation to iron and aluminium oxides and organic 564 matter, J. Soil Sci, vol.29, pp.88-94, 1978.

V. Winiarek, M. Bocquet, O. Saunier, and A. Mathieu, Estimation of errors in the inverse modeling 566 of accidental release of atmospheric pollutant: application to the reconstruction of the cesium-137 and 567 iodine-131 source terms from the Fukushima Daiichi power plant, J. Geophys. Res, vol.117, 2012.

T. J. Yasunari, A. Stohl, C. Hayano, J. F. Burkhart, S. Eckhardt et al., , p.137, 2011.

, deposition and contamination of Japanese soils due to the Fukushima nuclear accident, Proc. Natl. Acad

, Sci. USA, vol.108, pp.19530-19534

S. Yoshikawa, H. Yamamoto, Y. Hanano, and A. Ishihara, , 2004.