Unraveling arctic sea ice response to Atmospheric Rivers-insights from sea ice modeling

Atmospheric rivers (ARs) in winter can induce significant melting of sea ice as they approach the ice cover. However, due to the complex physical properties of sea ice, the specific processes within the ice pack that are responsible for its response to ARs remain poorly understood. This study aims to shed light on this question using a stand‐alone sea ice model forced by observed atmospheric boundary conditions. The findings reveal that the AR induced ice melt and hindered ice growth in the marginal seas are attributed to a combination of thermodynamic and dynamic processes. The AR‐wind transports ice floes from the marginal seas back to the central Arctic dynamically, resulting in a thickening of the ice cover in that region. Among the thermodynamic processes, reduced congelation growth (54%–56%), enhanced basal melting (17%–26%), and inhibited snow‐ice formation (11%–21%) play major roles in the sea ice loss in the marginal seas.

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Related Links

Related Dataset #1 : ERA5 hourly data on pressure levels from 1940 to present

Related Dataset #2 : CryoSat-2 Level-4 Sea Ice Elevation, Freeboard, and Thickness, Version 1

Related Dataset #3 : Polar Pathfinder Daily 25 km EASE-Grid Sea Ice Motion Vectors, Version 4

Related Dataset #4 : Replication data for the manuscript "Unraveling Arctic sea ice response to atmospheric rivers: Insights from sea ice modeling"
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Author Zhang, P.
Taylor, P. C.
Webster, M.
Bailey, David A.
Ding, Q.
Li, L.
Publisher UCAR/NCAR - Library
Publication Date 2025-04-28T00:00:00
Digital Object Identifier (DOI) Not Assigned
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Topic Category geoscientificInformation
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Metadata Date 2025-07-10T19:47:13.977183
Metadata Record Identifier edu.ucar.opensky::articles:43576
Metadata Language eng; USA
Suggested Citation Zhang, P., Taylor, P. C., Webster, M., Bailey, David A., Ding, Q., Li, L.. (2025). Unraveling arctic sea ice response to Atmospheric Rivers-insights from sea ice modeling. UCAR/NCAR - Library. https://n2t.net/ark:/85065/d7rv0t5r. Accessed 03 August 2025.

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