The globally averaged sea-surface temperature (SST) has steadily increased in the last four decades, consistent with the rising atmospheric greenhouse gas concentrations. Parts of the tropical Pacific exhibited less warming than the global average or even cooling, which is not captured by state-of-the-art climate models and the reasons are poorly understood. Here we show that the last four decades featured a strengthening atmospheric circulation and stronger trade winds over the tropical Pacific, which counteracted externally-forced SST warming. Climate models do not simulate the trends in the atmospheric circulation irrespective of whether an external forcing is applied or not and model bias is the likely reason. This study raises question...
Strengthening or weakening of the Walker circulation can highly influence the global weather and cli...
In the equatorial and subtropical east Pacific Ocean, strong ocean-atmosphere coupling results in la...
International audienceThe tropical Pacific response to radiative forcing remains uncertain as projec...
The globally averaged sea-surface temperature (SST) has steadily increased in the last four decades,...
Pacific trade winds have displayed unprecedented strengthening in recent decades. This strengthening...
An unprecedented strengthening of Pacific trade winds since the late 1990s (ref. 1) has caused wides...
Despite ongoing increases in atmospheric greenhouse gases, the Earth’s global average surface air te...
An unprecedented strengthening of Pacific trade winds since the late 1990s (ref. 1) has caused wides...
The strengthening of the Pacific trade winds in recent decades has been unmatched in the observation...
It has been widely believed that the tropical Pacific trade winds weakened in the last century and w...
Global mean temperature change simulated by climate models deviates from the observed temperature in...
Climate models generally simulate a long-term slowdown of the Pacific Walker Circulation in a warmin...
Mechanisms of tropical Pacific climate variability and change are studied in numerical experiments o...
Department of Urban and Environmental Engineering (Environmental Science and Engineering)Most climat...
This study analyzes representative concentration pathway 4.5 projections by 18 models from phase 5 o...
Strengthening or weakening of the Walker circulation can highly influence the global weather and cli...
In the equatorial and subtropical east Pacific Ocean, strong ocean-atmosphere coupling results in la...
International audienceThe tropical Pacific response to radiative forcing remains uncertain as projec...
The globally averaged sea-surface temperature (SST) has steadily increased in the last four decades,...
Pacific trade winds have displayed unprecedented strengthening in recent decades. This strengthening...
An unprecedented strengthening of Pacific trade winds since the late 1990s (ref. 1) has caused wides...
Despite ongoing increases in atmospheric greenhouse gases, the Earth’s global average surface air te...
An unprecedented strengthening of Pacific trade winds since the late 1990s (ref. 1) has caused wides...
The strengthening of the Pacific trade winds in recent decades has been unmatched in the observation...
It has been widely believed that the tropical Pacific trade winds weakened in the last century and w...
Global mean temperature change simulated by climate models deviates from the observed temperature in...
Climate models generally simulate a long-term slowdown of the Pacific Walker Circulation in a warmin...
Mechanisms of tropical Pacific climate variability and change are studied in numerical experiments o...
Department of Urban and Environmental Engineering (Environmental Science and Engineering)Most climat...
This study analyzes representative concentration pathway 4.5 projections by 18 models from phase 5 o...
Strengthening or weakening of the Walker circulation can highly influence the global weather and cli...
In the equatorial and subtropical east Pacific Ocean, strong ocean-atmosphere coupling results in la...
International audienceThe tropical Pacific response to radiative forcing remains uncertain as projec...