Internal climate variability will play a major role in determining change on regional scales under global warming. In the extratropics, large-scale atmospheric circulation is responsible for much of observed regional climate variability, from seasonal to multidecadal timescales. However, the extratropical circulation variability on multidecadal timescales is systematically weaker in coupled climate 1 models. Here we show that projections of future extratropical climate from coupled model simulations significantly underestimate the projected uncertainty range originating from large-scale atmospheric circulation variability. Using observational datasets and large ensembles of coupled climate models, we produce synthetic ensemble projections c...
Knowledge of the characteristics of natural climate variability is vital when assessing the range of...
Unforced internal variability abounds in the climate system and often confounds the identification o...
It is virtually certain that the mean surface temperature of the Earth will continue to increase und...
Internal climate variability will play a major role in determining change on regional scales under g...
For the Northern Hemisphere extratropics, changes in the mid-latitude storm tracks are key to unders...
The uncertainty arising from internal climate variability in climate change projections of the Hadle...
The dominant pattern of Northern Hemisphere extratropical climate variability is the Northern Annula...
Regional information on climate change is urgently needed but often deemed unreliable. To achieve cr...
Separating how model-to-model differences in the forced response (U ) and internal variability (U ) ...
Model simulations of the next few decades are widely used in assessments of climate change impacts a...
Projections of the winter North Atlantic circulation exhibit large spread. Coupled Model Intercompar...
PAGES 2k–PMIP3 groupEstimated external radiative forcings, model results, and proxy-based climate re...
The Earth’s climate system is driven by a complex interplay of internal chaotic dynamics and natural...
This study highlights the relative importance of internally generated versus externally forced clima...
The work presented in this dissertation is driven by three fundamental questions in climate science:...
Knowledge of the characteristics of natural climate variability is vital when assessing the range of...
Unforced internal variability abounds in the climate system and often confounds the identification o...
It is virtually certain that the mean surface temperature of the Earth will continue to increase und...
Internal climate variability will play a major role in determining change on regional scales under g...
For the Northern Hemisphere extratropics, changes in the mid-latitude storm tracks are key to unders...
The uncertainty arising from internal climate variability in climate change projections of the Hadle...
The dominant pattern of Northern Hemisphere extratropical climate variability is the Northern Annula...
Regional information on climate change is urgently needed but often deemed unreliable. To achieve cr...
Separating how model-to-model differences in the forced response (U ) and internal variability (U ) ...
Model simulations of the next few decades are widely used in assessments of climate change impacts a...
Projections of the winter North Atlantic circulation exhibit large spread. Coupled Model Intercompar...
PAGES 2k–PMIP3 groupEstimated external radiative forcings, model results, and proxy-based climate re...
The Earth’s climate system is driven by a complex interplay of internal chaotic dynamics and natural...
This study highlights the relative importance of internally generated versus externally forced clima...
The work presented in this dissertation is driven by three fundamental questions in climate science:...
Knowledge of the characteristics of natural climate variability is vital when assessing the range of...
Unforced internal variability abounds in the climate system and often confounds the identification o...
It is virtually certain that the mean surface temperature of the Earth will continue to increase und...