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THE WCRP CMIP3 Multimodel Dataset: A New Era in Climate Change Research
A coordinated set of global coupled climate model [atmosphere–ocean general circulation model (AOGCM)] experiments for twentieth- and twenty-first-century climate, as well as several climate changeExpand
The Max-Planck-Institute global ocean/sea ice model with orthogonal curvilinear coordinates
Abstract The Hamburg Ocean Primitive Equation model has undergone significant development in recent years. Most notable is the treatment of horizontal discretisation which has undergone transitionExpand
Ocean Circulation and Tropical Variability in the Coupled Model ECHAM5/MPI-OM
Abstract This paper describes the mean ocean circulation and the tropical variability simulated by the Max Planck Institute for Meteorology (MPI-M) coupled atmosphere–ocean general circulation modelExpand
Causes of Decadal Climate Variability over the North Pacific and North America
The cause of decadal climate variability over the North Pacific Ocean and North America is investigated by the analysis of data from a multidecadal integration with a state-of-the-art coupledExpand
Increased El Niño frequency in a climate model forced by future greenhouse warming
The El Niño/Southern Oscillation (ENSO) phenomenon is the strongest natural interannual climate fluctuation. ENSO originates in the tropical Pacific Ocean and has large effects on the ecology of theExpand
DEVELOPMENT OF A EUROPEAN MULTIMODEL ENSEMBLE SYSTEM FOR SEASONAL-TO-INTERANNUAL PREDICTION (DEMETER)
A multi-model ensemble-based system for seasonal-to-interannual prediction has been developed in a joint European project known as DEMETER (Development of a European Multimodel Ensemble PredictionExpand
Advancing decadal-scale climate prediction in the North Atlantic sector
TLDR
The results suggest that global surface temperature may not increase over the next decade, as natural climate variations in the North Atlantic and tropical Pacific temporarily offset the projected anthropogenic warming. Expand
The Coupled Model Intercomparison Project (CMIP)
Abstract The Coupled Model Intercomparison Project (CMIP) was established to study and intercompare climate simulations made with coupled ocean–atmosphere–cryosphere–land GCMs. There are two mainExpand
The impact of decadal-scale Indian Ocean sea surface temperature anomalies on Sahelian rainfall and the North Atlantic Oscillation
The sea surface temperatures (SSTs) of the tropical Indian Ocean show a pronounced warming since the 1950s. We have analyzed the impact of this warming on Sahelian rainfall and on the North AtlanticExpand
OVERVIEW OF THE COUPLED MODEL INTERCOMPARISON PROJECT
Abstract The Coupled Model Intercomparison Project (CMIP) involves study and intercomparison of multi-model simulations of present and future climate. The simulations of the future use idealizedExpand
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