Changes in ocean properties and circulation lead to a spatially non-uniform pattern of ocean dynamic sea-level change (DSLC). The projections of ocean dynamic sea level presented in the IPCC AR5 were constructed with global climate models (GCMs) from the Coupled Model Intercomparison Project 5 (CMIP5). Since CMIP5 GCMs have a relatively coarse resolution and exclude tides and surges it is unclear whether they are suitable for providing DSLC projections in shallow coastal regions such as the Northwestern European Shelf (NWES). One approach to addressing these shortcomings is dynamical downscaling – i.e. using a high-resolution regional model forced with output from GCMs. Here we use the regional shelf seas model AMM7 to show that, depending ...
A dynamical downscaling is presented that allows an estimation of potential effects of climate chang...
Projections of future sterodynamic sea level change from global climate models are associated with d...
Projections of future sterodynamic sea level change from global climate models are associated with d...
The sea level is changing around the world due to a combination of complex processes, such as change...
Climate change impact studies for the Northwest European Shelf (NWES) make use of various dynamical ...
This dataset accompanies the article Improving sea-level change projections for the Northwestern Eur...
Variability of Sea-Surface Height (SSH) from ocean dynamic processes is an important component of se...
A reliable regional modeling system for uncoupled dynamical downscaling simulations of potential glo...
This paper analyzes regional sea level changes in a climate change simulation using the Max Planck I...
Global climate models (GCMs) have limitations in simulating spatially non-uniform sea-level rise due...
There are a number of sources of uncertainty that impact climate projections for regional seas. We h...
Sea level rise exhibits significant regional differences. Based on Coupled Model Intercomparison Pro...
The representative concentration pathway (RCP) simulations included in phase 5 of the Coupled Model ...
The Coupled Model Intercomparison Project Phase 5 “representative concentration pathways” (CMIP5 RCP...
Sea levels of different atmosphere–ocean general circulation models (AOGCMs) respond to climate chan...
A dynamical downscaling is presented that allows an estimation of potential effects of climate chang...
Projections of future sterodynamic sea level change from global climate models are associated with d...
Projections of future sterodynamic sea level change from global climate models are associated with d...
The sea level is changing around the world due to a combination of complex processes, such as change...
Climate change impact studies for the Northwest European Shelf (NWES) make use of various dynamical ...
This dataset accompanies the article Improving sea-level change projections for the Northwestern Eur...
Variability of Sea-Surface Height (SSH) from ocean dynamic processes is an important component of se...
A reliable regional modeling system for uncoupled dynamical downscaling simulations of potential glo...
This paper analyzes regional sea level changes in a climate change simulation using the Max Planck I...
Global climate models (GCMs) have limitations in simulating spatially non-uniform sea-level rise due...
There are a number of sources of uncertainty that impact climate projections for regional seas. We h...
Sea level rise exhibits significant regional differences. Based on Coupled Model Intercomparison Pro...
The representative concentration pathway (RCP) simulations included in phase 5 of the Coupled Model ...
The Coupled Model Intercomparison Project Phase 5 “representative concentration pathways” (CMIP5 RCP...
Sea levels of different atmosphere–ocean general circulation models (AOGCMs) respond to climate chan...
A dynamical downscaling is presented that allows an estimation of potential effects of climate chang...
Projections of future sterodynamic sea level change from global climate models are associated with d...
Projections of future sterodynamic sea level change from global climate models are associated with d...