129 REFERENCES TO ANNEX XI [XI-1] http://www.jamstec.go.jp/jcope/htdocs/e/home.html [XI-2] 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. [XI-3] 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. [XI-4] MIYAZAWA, Y., ZHANG, R., GUO, X., TAMURA, H., AMBE, D., LEE, J.S., OKUNO, A., YOSHINARI, H., SETOU, T., KOMATSU, K., Water mass variability in the western North Pacific detected in a 15-year eddy resolving ocean reanalysis, Journal of Oceanography 65 (2009) 737–756. [XI-5] 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. [XI-6] 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. [XI-7] PERIÁ?EZ, R., SUH, K.S., MIN, B.I., CASACUBERTA, N., MASQUÉ, P., Numerical modelling of the releases of 90Sr from Fukushima to the ocean: An evaluation of the source term, Environmental Science and Technology 47 (2013) 12305–12313. [XI-8] PERIÁ?EZ, R., SUH, K.S., MIN, B.I., Should we measure plutonium concentrations in marine sediments near Fukushima? Journal of Radioanalytical Nuclear Chemistry 298 (2013) 635–638. [XI-9] MARKATOS, N.C., Mathematical modelling of single-and two-phase ?ow problems in the process industries, Revue de l’Institut Francais du Petrole 48(6) (1993) 631–661. [XI-10] PSALTAKI, M., MARKATOS, N.C., Implementing the Finite-Volume method in simulating the behaviour of pollutants in marine environment, Proc. of the 4th IASME/World Scientific and Engineering Academy and Society International Conference on Continuum Mechanics (CM ’09), 24–26 February 2009, Cambridge, UK (2009) 187–199. [XI-11] PSALTAKI, M., FLOROU, H., TRABIDOU, G., MARKATOS, N.C., Modelling and assessment of pollutant impact on marine environments, 2nd WSEAS International Conference on Computer Engineering and Applications (CEA ’10), 27–29 January 2010, Harvard University, Cambridge USA (2010) 176–180. [XI-12] BARRON, C.N., KARA, A.B., MARTIN, P.J., RHODES, R.C., SMEDSTAD, L.F., Formulation, implementation and examination of vertical coordinate choices in the global Navy Coastal Ocean Model (NCOM), Ocean Modelling 11(3–4) (2006) 347–375. [XI-13] BLECK, R., An oceanic general circulation model framed in hybrid isopycnic- Cartesian coordinates, Ocean Modeling 4(1) (2002) 55–88. [XI-14] KAWAMURA, H., KOBAYASHI, T., FURUNO, A., IN, T., ISHIKAWA, Y., NAKAYAMA, T., SHIMA, S., AWAJI, T., Preliminary numerical experiments on oceanic dispersion of 131I and 137Cs discharged into the ocean because of the Fukushima Daiichi NPP disaster, Journal of Nuclear Science and Technology 48 (2011) 1349–1356.