The Norwegian Climate Prediction Model version 1 (NorCPM1) is a new research tool for performing climate reanalyses and seasonal-to-decadal climate predictions. It combines the Norwegian Earth System Model version 1 (NorESM1) – which features interactive aerosol-cloud schemes and an isopycnic-coordinate ocean component with biogeochemistry – with anomaly assimilation of SST and T/S-profile observations using the Ensemble Kalman Filter (EnKF).publishedVersio
The North Atlantic is a crucial region for the prediction of weather and climate of North America an...
The coupled ocean-atmosphere CMCC-CMS model is used to investigate the influence of the stratosphere...
This study aims at improving the forecast skill of climate predictions through the use of ocean synt...
The Norwegian Climate Prediction Model version 1 (NorCPM1) is a new research tool for performing cli...
The Norwegian Climate Prediction Model (NorCPM) is aiming at providing prediction from seasonal-to-d...
The Norwegian Climate Prediction Model (NorCPM) is developed at the Bjerknes Center for Climate Rese...
This study demonstrates that assimilating SST with an advanced data assimilation method yields predi...
Here, we firstly demonstrate the potential of an advanced flow dependent data assimilation method fo...
The second version of the coupled Norwegian Earth System Model (NorESM2) is presented and evaluated....
The second version of the coupled Norwegian Earth System Model (NorESM2) is presented and evaluated....
The skilful prediction of climatic conditions on a forecast horizon of months to decades into the fu...
There is a growing demand for skillful prediction systems in the Arctic. Using the Norwegian Climate...
We investigate the impact of large climatological biases in the tropical Atlantic on reanalysis and ...
The ocean carbon cycle is a key player in the climate system through its role in regulating the atmo...
The Nordic Seas and the Barents Sea is the Atlantic Ocean’s gateway to the Arctic Ocean, and the Gul...
The North Atlantic is a crucial region for the prediction of weather and climate of North America an...
The coupled ocean-atmosphere CMCC-CMS model is used to investigate the influence of the stratosphere...
This study aims at improving the forecast skill of climate predictions through the use of ocean synt...
The Norwegian Climate Prediction Model version 1 (NorCPM1) is a new research tool for performing cli...
The Norwegian Climate Prediction Model (NorCPM) is aiming at providing prediction from seasonal-to-d...
The Norwegian Climate Prediction Model (NorCPM) is developed at the Bjerknes Center for Climate Rese...
This study demonstrates that assimilating SST with an advanced data assimilation method yields predi...
Here, we firstly demonstrate the potential of an advanced flow dependent data assimilation method fo...
The second version of the coupled Norwegian Earth System Model (NorESM2) is presented and evaluated....
The second version of the coupled Norwegian Earth System Model (NorESM2) is presented and evaluated....
The skilful prediction of climatic conditions on a forecast horizon of months to decades into the fu...
There is a growing demand for skillful prediction systems in the Arctic. Using the Norwegian Climate...
We investigate the impact of large climatological biases in the tropical Atlantic on reanalysis and ...
The ocean carbon cycle is a key player in the climate system through its role in regulating the atmo...
The Nordic Seas and the Barents Sea is the Atlantic Ocean’s gateway to the Arctic Ocean, and the Gul...
The North Atlantic is a crucial region for the prediction of weather and climate of North America an...
The coupled ocean-atmosphere CMCC-CMS model is used to investigate the influence of the stratosphere...
This study aims at improving the forecast skill of climate predictions through the use of ocean synt...