The Green Ocean is concerned with biogeochemical processes, the transfer of simple chemical substances between ocean life and the ocean environment. The green ocean encompasses, for example, variations in the biological carbon pump, chlorophyll-a concentrations, ocean nutrients, and primary production, as well as ocean acidification and ocean deoxygenation.
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MOI BIO4
Operational analysis and forecast system (01/01/2009-> now) of the Global Ocean biogeochemistry with data assimilation with a weekly update of the ocean fields. Key parameters: Dissolved Inorganic Carbon/ Alkalinity/ Oxygen/ Calcium/ Carbonate/ Phosphate/ Particulate Organic Carbon/ Silicate/ Iron/ Chlorophyll/ Chlorophyll in Nanophytoplankton/ Chlorophyll in Diatoms/ Nanophytoplankton/ Diatoms/ Micro & Mezo Zooplankton/ Oxygen/ Net primary production/ pH. These data are distributed on a 1/4° native grid (~28km at the equator).
Operational analysis and forecast system (01/01/2009-> now) of the Global Ocean biogeochemistry with data assimilation with a weekly update of the ocean fields. Key parameters: Dissolved Inorganic Carbon/ Alkalinity/ Oxygen/ Calcium/ Carbonate/ Phosphate/ Particulate Organic Carbon/ Silicate/ Iron/ Chlorophyll/ Chlorophyll in Nanophytoplankton/ Chlorophyll in Diatoms/ Nanophytoplankton/ Diatoms/ Micro & Mezo Zooplankton/ Oxygen/ Net primary production/ pH. These data are distributed on a 1/4° native grid (~28km at the equator).
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MOI BIORYS4_FREE
A 25-year global ocean biogeochemical model simulation without data assimilation (01/01/1993 – > [year-1]) - Daily and monthly mean files of chlorophyll, nitrate, phosphate, silicate, alkalinity, oxygen and primary production (iron and phytoplankton concentration in addition in monthly files), and other parameters. These data are distributed on a 1/4° native grid (~28km at the equator).
A 25-year global ocean biogeochemical model simulation without data assimilation (01/01/1993 – > [year-1]) - Daily and monthly mean files of chlorophyll, nitrate, phosphate, silicate, alkalinity, oxygen and primary production (iron and phytoplankton concentration in addition in monthly files), and other parameters. These data are distributed on a 1/4° native grid (~28km at the equator).
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MOI GLO12
Daily-mean, hourly-mean and 6hourly-instantaneous analysis and forecast data [01/01/2007->D-14 to D+13] of the Global Ocean physics and sea ice parameters with a weekly update of the analysis and the forecast, providing : Temperature, Salinity, Sea Surface Height, Currents and Sea Ice thickness, fraction and velocities. Numerical files are displayed on a 1/12° native grid (~9.3km at the equator).
Daily-mean, hourly-mean and 6hourly-instantaneous analysis and forecast data [01/01/2007->D-14 to D+13] of the Global Ocean physics and sea ice parameters with a weekly update of the analysis and the forecast, providing : Temperature, Salinity, Sea Surface Height, Currents and Sea Ice thickness, fraction and velocities. Numerical files are displayed on a 1/12° native grid (~9.3km at the equator).
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MOI GLORYS4_FREE
24-year model simulation without data assimilation [ 01/01/1993 - 27/12/2017 ] of the physics and sea ice parameters of the global ocean. There are daily and monthly averages over the entire water column. The numerical data are divided into different files that contain 3D information on potential temperature, salinity and currents and 2D information on sea surface level, potential bottom temperature, mixed layer thickness, sea ice thickness, sea ice fraction and sea ice velocities. These data are distributed on a 1/4° native grid (~28km at the equator).
24-year model simulation without data assimilation [ 01/01/1993 - 27/12/2017 ] of the physics and sea ice parameters of the global ocean. There are daily and monthly averages over the entire water column. The numerical data are divided into different files that contain 3D information on potential temperature, salinity and currents and 2D information on sea surface level, potential bottom temperature, mixed layer thickness, sea ice thickness, sea ice fraction and sea ice velocities. These data are distributed on a 1/4° native grid (~28km at the equator).
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