This paper analyzes regional sea level changes in a climate change simulation using the Max Planck Institute for Meteorology (MPI) coupled atmosphere–ocean general circulation model ECHAM5/MPI-OM. The climate change scenario builds on observed atmospheric greenhouse gas (GHG) concentrations from 1860 to 2000, followed by the International Panel on Climate Change (IPCC) A1B climate change scenario until 2100; from 2100 to 2199, GHG concentrations are fixed at the 2100 level. As compared with the unperturbed control climate, global sea level rises 0.26 m by 2100, and 0.56 m by 2199 through steric expansion; eustatic changes are not included in this simulation. The model’s sea level evolves substantially differently among ocean basins. Sea lev...
Sea level changes resulting from CO2-induced climate changes in ocean density and circulation have b...
In addition to projected increases in global mean sea level over the 21st century, model simulations...
The greenhouse scenario assumes that sea level will rise worldwide at uniform rates because of near-...
This paper analyzes regional sea level changes in a climate change simulation using the Max Planck I...
This paper analyzes regional sea level changes in a climate change simulation using the Max Planck I...
A zonally averaged three-basin ocean–atmosphere model is used to investigate mean steric sea level r...
Changes in surface air temperature resulting from a doubling in atmospheric carbon dioxide drive cha...
The regional response of the global ocean to low-frequency changes in atmospheric pressure loading, ...
Twentieth-century regional sea level changes are estimated from 12 climate models from phase 5 of th...
Mechanistic causes for sea level (SL) change patterns are analyzed as they emerge from the Coupled M...
Sea levels of different atmosphere–ocean general circulation models (AOGCMs) respond to climate chan...
A new climate model (ECHAM5/MPI-OM1) developed for the fourth assessment report of the Intergovernme...
We use a coupled climate model to evaluate ocean bottom pressure changes in the IPCC-A1B climate sce...
The sea level is changing around the world due to a combination of complex processes, such as change...
There is intense scientific and public interest in the Intergovernmental Panel on Climate Change (IP...
Sea level changes resulting from CO2-induced climate changes in ocean density and circulation have b...
In addition to projected increases in global mean sea level over the 21st century, model simulations...
The greenhouse scenario assumes that sea level will rise worldwide at uniform rates because of near-...
This paper analyzes regional sea level changes in a climate change simulation using the Max Planck I...
This paper analyzes regional sea level changes in a climate change simulation using the Max Planck I...
A zonally averaged three-basin ocean–atmosphere model is used to investigate mean steric sea level r...
Changes in surface air temperature resulting from a doubling in atmospheric carbon dioxide drive cha...
The regional response of the global ocean to low-frequency changes in atmospheric pressure loading, ...
Twentieth-century regional sea level changes are estimated from 12 climate models from phase 5 of th...
Mechanistic causes for sea level (SL) change patterns are analyzed as they emerge from the Coupled M...
Sea levels of different atmosphere–ocean general circulation models (AOGCMs) respond to climate chan...
A new climate model (ECHAM5/MPI-OM1) developed for the fourth assessment report of the Intergovernme...
We use a coupled climate model to evaluate ocean bottom pressure changes in the IPCC-A1B climate sce...
The sea level is changing around the world due to a combination of complex processes, such as change...
There is intense scientific and public interest in the Intergovernmental Panel on Climate Change (IP...
Sea level changes resulting from CO2-induced climate changes in ocean density and circulation have b...
In addition to projected increases in global mean sea level over the 21st century, model simulations...
The greenhouse scenario assumes that sea level will rise worldwide at uniform rates because of near-...