Modulation of Sea Ice Melt Onset and Retreat in the Laptev Sea by the Timing of Snow Retreat in the West Siberian Plain

Recent years have seen growing interest in improving seasonal predictions of Arctic sea ice conditions, including the timing of ice melt onset and retreat, especially on the regional scale. This paper investigates potential links between regional sea ice melt onset and retreat in the southern Laptev...

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Bibliographic Details
Main Authors: Crawford, AD, Horvath, S, Stroeve, J, Balaji, R, Serreze, MC
Format: Article in Journal/Newspaper
Language:English
Published: AMER GEOPHYSICAL UNION 2018
Subjects:
Science & Technology
Physical Sciences
Meteorology & Atmospheric Sciences
ATMOSPHERIC CIRCULATION
ARCTIC OSCILLATION
CLIMATE
EXTENT
COVER
VARIABILITY
TRANSPORT
MOISTURE
SYSTEM
Arctic
Laptev Sea
Pacific
East Siberian Sea
laptev
Sea ice
Online Access:https://discovery.ucl.ac.uk/id/eprint/10059400/11/Stroeve%20CrawfordADetal_Submission_v3_JGRAtmospheres_Clean.pdf
https://discovery.ucl.ac.uk/id/eprint/10059400/
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Summary:Recent years have seen growing interest in improving seasonal predictions of Arctic sea ice conditions, including the timing of ice melt onset and retreat, especially on the regional scale. This paper investigates potential links between regional sea ice melt onset and retreat in the southern Laptev Sea and retreat of terrestrial snow cover. Past studies have shown that variability of snow extent over Eurasia can substantially impact regional atmospheric circulation patterns over the North Pacific and Arctic Oceans. It is shown here that for the Laptev Sea, earlier melt onset and retreat of sea ice are encouraged by earlier retreat of snow cover over the West Siberian Plain. Earlier snow retreat in spring encourages greater ridging (e.g., at 500 hPa) over the East Siberian Sea through the summer. This results in more frequently southerly flow of warm, moist air over the Laptev Sea. This relationship could provide modest improvements to predictive skill for sea ice melt onset and retreat in the southern Laptev Sea at lead times of approximately 50 and 90 days, respectively. The detrended time series of snow retreat in the West Siberian Plain explains 26 and 29% of the detrended variance of the timing of sea ice melt onset and retreat in southern Laptev Sea, respectively.

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