The observed recent surface air temperature development across Svalbard and concurring footprints in local sea ice cover

The Svalbard archipelago in the Arctic North Atlantic is experiencing rapid changes in the surface climate and sea ice distribution, with impacts for the coupled climate system and the local society. This study utilizes observational data of surface air temperature (SAT) from 1980–2016 across the wh...

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Bibliographic Details
Published in:International Journal of Climatology
Main Authors: Dahlke, Sandro, Hughes, Nicholas E., Wagner, Penelope M., Gerland, Sebastian, Wawrzyniak, Tomasz, Ivanov, Boris, Maturilli, Marion
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
ddc:551.6
Arctic warming
climatology
observations
sea ice
surface meteorology
Svalbard
Arctic
Svalbard Archipelago
North Atlantic
Sea ice
Spitsbergen
Online Access:https://doi.org/10.1002/joc.6517
http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/9171
Description
Summary:The Svalbard archipelago in the Arctic North Atlantic is experiencing rapid changes in the surface climate and sea ice distribution, with impacts for the coupled climate system and the local society. This study utilizes observational data of surface air temperature (SAT) from 1980–2016 across the whole Svalbard archipelago, and sea ice extent (SIE) from operational sea ice charts to conduct a systematic assessment of climatologies, long-term changes and regional differences. The proximity to the warm water mass of the West Spitsbergen Current drives a markedly warmer climate in the western coastal regions compared to northern and eastern Svalbard. This imprints on the SIE climatology in southern and western Svalbard, where the annual maxima of 50–60% area ice coverage are substantially less than 80–90% in the northern and eastern fjords. Owing to winter-amplified warming, the local climate is shifting towards more maritime conditions, and SIE reductions of between 5 and 20% per decade in particular regions are found, such that a number of fjords in the west have been virtually ice-free in recent winters. The strongest decline comes along with SAT forcing and occurs over the most recent 1–2 decades in all regions; while in the 1980s and 1990s, enhanced northerly winds and sea ice drift can explain 30–50% of SIE variability around northern Svalbard, where they had correspondingly lead to a SIE increase. With an ongoing warming it is suggested that both the meteorological and cryospheric conditions in eastern Svalbard will become increasingly similar to what is already observed in the western fjords, namely suppressed typical Arctic climate conditions.

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