Add to ORKGThere is an observed relationship linking Arctic sea ice conditions in autumn to mid-latitude weather the following winter. Of interest in this study is a hypothesized stratospheric pathway whereby reduced sea ice in the Barents and Kara seas enhances upward wave activity and wave-breaking in the stratosphere, leading to a weakening of the polar vortex and a transition of the North Atlantic Oscillation (NAO) to its negative phase. The Causal Effect Networks (CEN) framework is used to explore the stratospheric pathway between late autumn Barents–Kara sea ice and the February NAO, focusing on its seasonal evolution, timescale dependence, and robustness. Results indicate that the pathway is statistically detectable and has been relatively acti...
Pronounced changes in the Arctic environment add a new potential driver of anomalous weather pattern...
Changes in Arctic sea ice have been proposed to affect the mid-latitude winter atmospheric circulati...
Recent enhanced warming and sea ice depletion in the Arctic have been put forward as potential drive...
There is an observed relationship linking Arctic sea ice conditions in autumn to mid-latitude weathe...
The Arctic is warming at a much faster rate than the rest of the globe, with large declines in sea i...
The relationship of Barents-Kara sea ice concentration in October and November with atmospheric circ...
The recent accelerated Arctic sea ice decline has been proposed as a possible forcing factor for mid...
In recent years, the Northern Hemisphere midlatitudes have suffered from severe winters like the ext...
This paper examines the possible linkage between the recent reduction in Arctic sea-ice extent and t...
Rapid melting of sea ice and an increased warming have been observed over the Arctic since 1990s and...
During the past few decades, Arctic sea-ice has declined rapidly in both autumn and winter, which is...
The study addresses the question, if observed changes in terms of Arctic-midlatitude linkages during...
The study addresses the question, if Arctic sea ice decline is the main driver of observed changes i...
Arctic sea ice extent in autumn is significantly correlated with the winter North Atlantic Oscillati...
The Arctic is a key indicator of global climate change. Annual surface temperatures are increasing a...
Pronounced changes in the Arctic environment add a new potential driver of anomalous weather pattern...
Changes in Arctic sea ice have been proposed to affect the mid-latitude winter atmospheric circulati...
Recent enhanced warming and sea ice depletion in the Arctic have been put forward as potential drive...
There is an observed relationship linking Arctic sea ice conditions in autumn to mid-latitude weathe...
The Arctic is warming at a much faster rate than the rest of the globe, with large declines in sea i...
The relationship of Barents-Kara sea ice concentration in October and November with atmospheric circ...
The recent accelerated Arctic sea ice decline has been proposed as a possible forcing factor for mid...
In recent years, the Northern Hemisphere midlatitudes have suffered from severe winters like the ext...
This paper examines the possible linkage between the recent reduction in Arctic sea-ice extent and t...
Rapid melting of sea ice and an increased warming have been observed over the Arctic since 1990s and...
During the past few decades, Arctic sea-ice has declined rapidly in both autumn and winter, which is...
The study addresses the question, if observed changes in terms of Arctic-midlatitude linkages during...
The study addresses the question, if Arctic sea ice decline is the main driver of observed changes i...
Arctic sea ice extent in autumn is significantly correlated with the winter North Atlantic Oscillati...
The Arctic is a key indicator of global climate change. Annual surface temperatures are increasing a...
Pronounced changes in the Arctic environment add a new potential driver of anomalous weather pattern...
Changes in Arctic sea ice have been proposed to affect the mid-latitude winter atmospheric circulati...
Recent enhanced warming and sea ice depletion in the Arctic have been put forward as potential drive...