Coupled climate models used for long-term future climate projections and seasonal or decadal predictions share a systematic and persistent warm sea surface temperature (SST) bias in the tropical Atlantic. This study attempts to better understand the physical mechanisms responsible for the development of systematic biases in the tropical Atlantic using the so-called Transpose-CMIP protocol in a multi-model context. Six global climate models have been used to perform seasonal forecasts starting both in May and February over the period 2000–2009. In all models, the growth of SST biases is rapid. Significant biases are seen in the first month of forecast and, by 6 months, the root-mean-square SST bias is 80% of the climatological bias. These co...
The key role of the South Atlantic Anticyclone (SAA) on the seasonal cycle of the tropical Atlantic ...
In current-generation climate models, the warm sea surface temperature (SST) bias problem is most co...
Most of the coupled models contain a strong warm bias in sea surface temperature (SST) over the Atla...
Coupled climate models used for long-term future climate projections and seasonal or decadal predict...
Coupled climate models used for long-term future climate projections and seasonal or decadal predict...
As many coupled atmosphere-ocean general circulation models, the coupled Earth System Model develope...
The substantial warm sea surface temperature bias in the eastern Tropical Atlantic reported in most ...
Sea surface temperature (SST) biases in the tropical Atlantic are a long-standing problem among coup...
Most of the current coupled general circulation models show a strong warm bias in the eastern Tropic...
Due to strong mean state‐biases most coupled models are unable to simulate equatorial Atlantic varia...
A long-standing problem in climate modeling is the inaccurate simulation of tropical Atlantic (TA) s...
Variability in the tropical Atlantic Ocean is dominated by the seasonal cycle. A defining feature is...
Coupled general circulation model (GCM) simulations participating in the Coupled Model Intercomparis...
The key role of the South Atlantic Anticyclone (SAA) on the seasonal cycle of the tropical Atlantic ...
In current-generation climate models, the warm sea surface temperature (SST) bias problem is most co...
Most of the coupled models contain a strong warm bias in sea surface temperature (SST) over the Atla...
Coupled climate models used for long-term future climate projections and seasonal or decadal predict...
Coupled climate models used for long-term future climate projections and seasonal or decadal predict...
As many coupled atmosphere-ocean general circulation models, the coupled Earth System Model develope...
The substantial warm sea surface temperature bias in the eastern Tropical Atlantic reported in most ...
Sea surface temperature (SST) biases in the tropical Atlantic are a long-standing problem among coup...
Most of the current coupled general circulation models show a strong warm bias in the eastern Tropic...
Due to strong mean state‐biases most coupled models are unable to simulate equatorial Atlantic varia...
A long-standing problem in climate modeling is the inaccurate simulation of tropical Atlantic (TA) s...
Variability in the tropical Atlantic Ocean is dominated by the seasonal cycle. A defining feature is...
Coupled general circulation model (GCM) simulations participating in the Coupled Model Intercomparis...
The key role of the South Atlantic Anticyclone (SAA) on the seasonal cycle of the tropical Atlantic ...
In current-generation climate models, the warm sea surface temperature (SST) bias problem is most co...
Most of the coupled models contain a strong warm bias in sea surface temperature (SST) over the Atla...