74 [45] ESTOURNEL, C., BOSC, E., BOCQUET, M., ULSES, C., MARSELAIX, P., WINIAREK, V., OSVATH, I., NGUYEN, C., DUHAUT, T., LYARD, F., MICHAUD, H., AUCLAIR, F., Assessment of the amount of 137Cs released into the Pacific Ocean after the Fukushima accident and analysis of its dispersion in Japanese coastal waters, Journal of Geophysical Research 117 (2012) C1014. [46] MIYAZAWA, Y., MASUMOTO, Y., VARLAMOV, S.M., MIYAMA, T., Transport simulation of the radionuclide from the shelf to the open ocean around Fukushima, Continental Shelf Research 50–51 (2012) 16–29. [47] BEHRENS, E., SCHWARZKOPF, F.U., LUBBECKE, J., BONING, C.W., Model simulations on the long-term dispersal of 137Cs released into the Pacific Ocean o? Fukushima, Environmental Research Letters 7, 034000 (2012) 10 pp. [48] KAWAMURA, H., KOBAYASHI, T., FURUNO, A., USUI, N., KAMACHI, M., Numerical simulation on the long-term variation of radioactive cesium concentration in the North Pacific due to the Fukushima disaster, Journal of Environmental Radioactivity 136 (2014) 64–75. [49] ROSSI, V., SEBILLE, E., GUPTA, A.E., GARÇON, V., ENGLAND, M.H., Multi-decadal projections of surface and interior pathways of the Fukushima Cesium-137 radioactive plume, Deep-Sea Research I 80 (2013) 37–46. [50] ROSSI, V., SEBILLE, E., GUPTA, A.E., GARC¸ON, V., ENGLAND, M.H., Corrigendum to Multi-decadal projections of surface and interior pathways of the Fukushima Cesium-137 radioactive plume, Deep-Sea Research I 93 (2014) 162–164. [51] DIETZE, H., KRIEST, I., 137Cs o? Fukushima Daiichi, Japan, Model based estimates of dilution and fate, Ocean Science 8 (2012) 319–332. [52] HONDA M., AONO T., AOYAMA M., HAMAJIMA Y., KAWAKAMI H., KITAMURA M., MASUMOTO Y., MIYAZAWA Y., TAKIGAWA M., SAINO T., Dispersion of artificial caesium-134 and -137 in the western North Pacific one month after the Fukushima accident, Geochemical Journal 46 (2012) 1–9. [53] BAILLY DU BOIS, P., GARREAU, P., LAGUIONIE, P., KORSAKISSOK, I., Comparison between modelling and measurement of marine dispersion, environmental half-time and 137Cs inventories after the Fukushima Daiichi accident, Ocean Dynamics 64 (2014) 361–383. [54] BAILLY DU BOIS, P., LAGUIONIE, P., BOUST, D., KORSAKISSOK, I., DIDIER, D., FIÉVE, B., Estimation of marine source-term following Fukushima Daiichi accident, Journal of Environmental Radioactivity 114 (2012) 2–9. [55] MIYAZAWA, Y., MASUMOTO, Y., VARLAMOV, S.M., MIYAMA, T., TAKIGAWA, M., HONDA, M., SAINO, T., Inverse estimation of source parameters of oceanic radioactivity dispersion models associated with the Fukushima accident, Biogeosciences 10 (2013) 2349–2363. [56] PERIÁ?EZ, R., SUH, K.S., MIN, B.I., Local scale marine modelling of Fukushima releases, Assessment of water and sediment contamination and sensitivity to water circulation description, Marine Pollution Bulletin 64 (2012) 2333–2339. [57] MIN, B.I., PERIÁ?EZ, R., KIM, I.G., SUH, K.S., Marine Dispersion Assessment of 137Cs Released from the Fukushima Nuclear Accident, Marine Pollution Bulletin 72 (2013) 22–33. [58] CHOI, Y., KIDA, S., TAKAHASHI, K., The impact of oceanic circulation and phase transfer on the dispersion of radionuclides released from the Fukushima Daiichi Nuclear Power Plant, Biogeosciences 10 (2013) 4911–4925.