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Akademický článek

CAR36, a regional high-resolution ocean forecasting system for improving drift and beaching of Sargassum in the Caribbean archipelago

Autor: S. Cailleau, L. Bessières, L. Chiendje, F. Dubost, G. Reffray, J.-M. Lellouche, S. van Gennip, C. Régnier, M. Drevillon, M. Tressol, M. Clavier, J. Temple-Boyer, L. Berline

Publikováno v: Geoscientific Model Development, Vol 17, Pp 3157-3173 (2024)

The stranding of Sargassum seaweed on the Caribbean archipelago beaches constitutes real socio-economic, ecological and health problems. Météo-France currently operates a model of Sargassum drift forecast (called MOTHY) forced by ocean currents fro

Externí odkaz: https://doaj.org/article/f9a43e82314d45cfa75113c1243cd11e

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Akademický článek

Impact of sea level changes on future wave conditions along the coasts of western Europe

Autor: A. A. Chaigneau, S. Law-Chune, A. Melet, A. Voldoire, G. Reffray, L. Aouf

Publikováno v: Ocean Science, Vol 19, Pp 1123-1143 (2023)

Wind waves and swells are major drivers of coastal environment changes and coastal hazards such as coastal flooding and erosion. Wave characteristics are sensitive to changes in water depth in shallow and intermediate waters. However, wave models use

Externí odkaz: https://doaj.org/article/125abecd66c64f709bfb6a40b494dcf8

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Akademický článek

IBI-CCS: a regional high-resolution model to simulate sea level in western Europe

Autor: A. A. Chaigneau, G. Reffray, A. Voldoire, A. Melet

Publikováno v: Geoscientific Model Development, Vol 15, Pp 2035-2062 (2022)

Projections of coastal sea level (SL) changes are of great interest for coastal risk assessment and decision making. SL projections are typically produced using global climate models (GCMs), which cannot fully resolve SL changes at the coast due to t

Externí odkaz: https://doaj.org/article/2db643ea60e045bda153f4c28ecaad1b

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Akademický článek

Modelling the marine ecosystem of Iberia–Biscay–Ireland (IBI) European waters for CMEMS operational applications

Autor: E. Gutknecht, G. Reffray, A. Mignot, T. Dabrowski, M. G. Sotillo

Publikováno v: Ocean Science, Vol 15, Pp 1489-1516 (2019)

As part of the Copernicus Marine Environment Monitoring Service (CMEMS), a physical–biogeochemical coupled model system has been developed to monitor and forecast the ocean dynamics and marine ecosystem of the European waters and more specifically

Externí odkaz: https://doaj.org/article/5f7b83c67ab64bc6baa20b87b1126dcc

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Akademický článek

New insight into 3-D mesoscale eddy properties from CMEMS operational models in the western Mediterranean

Autor: E. Mason, S. Ruiz, R. Bourdalle-Badie, G. Reffray, M. García-Sotillo, A. Pascual

Publikováno v: Ocean Science, Vol 15, Pp 1111-1131 (2019)

Rapid evolution of operational ocean forecasting systems is driven by advances in numerics and data assimilation schemes, and increase of in situ and satellite observations. The Copernicus Marine Service (CMEMS) is a major provider of operational pro

Externí odkaz: https://doaj.org/article/6e07a81faa4241f6a1175bc17029d9de

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Akademický článek

Skill assessment of global, regional, and coastal circulation forecast models: evaluating the benefits of dynamical downscaling in IBI (Iberia–Biscay–Ireland) surface waters

Autor: P. Lorente, M. García-Sotillo, A. Amo-Baladrón, R. Aznar, B. Levier, J. C. Sánchez-Garrido, S. Sammartino, Á. de Pascual-Collar, G. Reffray, C. Toledano, E. Álvarez-Fanjul

Publikováno v: Ocean Science, Vol 15, Pp 967-996 (2019)

In this work, a multi-parameter inter-comparison of diverse ocean forecast models was conducted at the sea surface ranging from global to local scales in a two-phase stepwise strategy. Firstly, a comparison of CMEMS GLOBAL and the nested CMEMS IBI re

Externí odkaz: https://doaj.org/article/ebf5682a4ae84bd7a3f2134fc3fc616b

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Akademický článek

Evaluation of an operational ocean model configuration at 1/12° spatial resolution for the Indonesian seas (NEMO2.3/INDO12) – Part 2: Biogeochemistry

Autor: E. Gutknecht, G. Reffray, M. Gehlen, I. Triyulianti, D. Berlianty, P. Gaspar

Publikováno v: Geoscientific Model Development, Vol 9, Iss 4, Pp 1523-1543 (2016)

In the framework of the INDESO (Infrastructure Development of Space Oceanography) project, an operational ocean forecasting system was developed to monitor the state of the Indonesian seas in terms of circulation, biogeochemistry and fisheries. This

Externí odkaz: https://doaj.org/article/bcc8bd879f2b4d94a0d4f48db77688f2

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Akademický článek

Evaluation of an operational ocean model configuration at 1/12° spatial resolution for the Indonesian seas (NEMO2.3/INDO12) – Part 1: Ocean physics

Autor: B. Tranchant, G. Reffray, E. Greiner, D. Nugroho, A. Koch-Larrouy, P. Gaspar

Publikováno v: Geoscientific Model Development, Vol 9, Iss 3, Pp 1037-1064 (2016)

INDO12 is a 1/12° regional version of the NEMO physical ocean model covering the whole Indonesian EEZ (Exclusive Economic Zone). It has been developed and is now running every week in the framework of the INDESO (Infrastructure Development of Space

Externí odkaz: https://doaj.org/article/5b6be53a0f7049e0a2e7530bf5f7f131

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Akademický článek

Modelling turbulent vertical mixing sensitivity using a 1-D version of NEMO

Autor: G. Reffray, R. Bourdalle-Badie, C. Calone

Publikováno v: Geoscientific Model Development, Vol 8, Iss 1, Pp 69-86 (2015)

Through two numerical experiments, a 1-D vertical model called NEMO1D was used to investigate physical and numerical turbulent-mixing behaviour. The results show that all the turbulent closures tested (k+l from Blanke and Delecluse, 1993, and two equ

Externí odkaz: https://doaj.org/article/783bd0835df14ae5bcb5d14e6f9ccee5

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Akademický článek

Forecasting the mixed-layer depth in the Northeast Atlantic: an ensemble approach, with uncertainties based on data from operational ocean forecasting systems

Autor: Y. Drillet, J. M. Lellouche, B. Levier, M. Drévillon, O. Le Galloudec, G. Reffray, C. Regnier, E. Greiner, M. Clavier

Publikováno v: Ocean Science, Vol 10, Iss 6, Pp 1013-1029 (2014)

Operational systems operated by Mercator Ocean provide daily ocean forecasts, and combining these forecasts we can produce ensemble forecast and uncertainty estimates. This study focuses on the mixed-layer depth in the Northeast Atlantic near the Por

Externí odkaz: https://doaj.org/article/d1c627d3d89749efb4c19e26b542e1cf

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