Trends in cyclones in the high-latitude North Atlantic during 1979-2016

We report an increase in winter (DJF) cyclone densities in the areas around Svalbard and in northwestern Barents Sea and a decrease in cyclone densities in southeastern Barents Sea during 1979-2016. Despite high interannual variability, the trends are significant at the 90% confidence level. The cha...

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Bibliographic Details
Published in:Quarterly Journal of the Royal Meteorological Society
Main Authors: Wickström, S., Jonassen, M. O., Vihma, T., Uotila, P.
Other Authors: INAR Physics, Staff Services
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2021
Subjects:
Arctic
Barents Sea
Eady growth rate
extratropical cyclones
Scandinavian pattern
sea ice decline
storm tracks
Svalbard
ATMOSPHERIC MOISTURE TRANSPORT
SEA-ICE
ARCTIC CYCLONE
CLIMATE-CHANGE
VARIABILITY
CIRCULATION
ISFJORDEN
MANIFEST
1172 Environmental sciences
1171 Geosciences
Climate change
Isfjord*
Isfjorden
North Atlantic
Sea ice
Online Access:http://hdl.handle.net/10138/325689
Description
Summary:We report an increase in winter (DJF) cyclone densities in the areas around Svalbard and in northwestern Barents Sea and a decrease in cyclone densities in southeastern Barents Sea during 1979-2016. Despite high interannual variability, the trends are significant at the 90% confidence level. The changes appear as a result of a shift into a more meridional winter storm track in the high-latitude North Atlantic, associated with a positive trend in the Scandinavian Pattern. A significant decrease in the Brunt-Vaisala frequency east of Svalbard and a significant increase in the Eady Growth Rate north of Svalbard indicate increased baroclinicity, favouring enhanced cyclone activity in these regions. For the first time, we apply composite analysis to explicitly address regional consequences of these wintertime changes in the high-latitude North Atlantic. We find a tendency toward a warmer and more moist atmospheric state in the Barents Sea and over Svalbard with increased cyclone activity around Svalbard. Peer reviewed

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