Improved knowledge of the contributing sources of uncertainty in projections of Arctic sea ice over the 21st century is essential for evaluating impacts of a changing Arctic environment. Here, we consider the role of internal variability, model structure and emissions scenario in projections of Arctic sea-ice area (SIA) by using six single model initial-condition large ensembles and a suite of models participating in Phase 5 of the Coupled Model Intercomparison Project. For projections of September Arctic SIA change, internal variability accounts for as much as 40%–60% of the total uncertainty in the next decade, while emissions scenario dominates uncertainty toward the end of the century. Model structure accounts for 60%–70% of the total u...
We examine the relationship between the mean and the variability of Arctic sea-ice coverage and volu...
One of the clearest manifestations of ongoing global climate change is the dramatic retreat and thin...
This paper examines the ability of coupled global climate models to predict decadal variability of ...
Improved knowledge of the contributing sources of uncertainty in projections of Arctic sea ice over ...
In agreement with observations, Earth system models participating in the Coupled Model Intercomparis...
The Barents Sea is an area of strong anthropogenic winter sea ice loss that is superimposed by prono...
The Arctic has experienced a warming rate higher than the global mean in the past decades, but previ...
<p>We examine the relationship between the mean and the variability of Arctic sea-ice coverage and v...
The diminishing Arctic sea ice pack has been widely studied, but previous research has mostly focuse...
The barren and inhospitable Arctic region has over recent decades seen large changes in its natural ...
Arctic sea ice plays a central role in the Earth’s climate. Changes in the sea ice on seasonal-to-in...
The relative importance of regional processes inside the Arctic climate system and the large scale a...
We show that intermodel variations in the anthropogenically-forced evolution of September sea ice ex...
International audienceAbstract. We examine the recent (1979–2010) and future (2011–2100) characteris...
To investigate the inherent predictability of sea ice and its representation in climate models, we c...
We examine the relationship between the mean and the variability of Arctic sea-ice coverage and volu...
One of the clearest manifestations of ongoing global climate change is the dramatic retreat and thin...
This paper examines the ability of coupled global climate models to predict decadal variability of ...
Improved knowledge of the contributing sources of uncertainty in projections of Arctic sea ice over ...
In agreement with observations, Earth system models participating in the Coupled Model Intercomparis...
The Barents Sea is an area of strong anthropogenic winter sea ice loss that is superimposed by prono...
The Arctic has experienced a warming rate higher than the global mean in the past decades, but previ...
<p>We examine the relationship between the mean and the variability of Arctic sea-ice coverage and v...
The diminishing Arctic sea ice pack has been widely studied, but previous research has mostly focuse...
The barren and inhospitable Arctic region has over recent decades seen large changes in its natural ...
Arctic sea ice plays a central role in the Earth’s climate. Changes in the sea ice on seasonal-to-in...
The relative importance of regional processes inside the Arctic climate system and the large scale a...
We show that intermodel variations in the anthropogenically-forced evolution of September sea ice ex...
International audienceAbstract. We examine the recent (1979–2010) and future (2011–2100) characteris...
To investigate the inherent predictability of sea ice and its representation in climate models, we c...
We examine the relationship between the mean and the variability of Arctic sea-ice coverage and volu...
One of the clearest manifestations of ongoing global climate change is the dramatic retreat and thin...
This paper examines the ability of coupled global climate models to predict decadal variability of ...