Revisiting the Cause of the 1989-2009 Arctic Surface Warming Using the Surface Energy Budget: Downward Infrared Radiation Dominates the Surface Fluxes

The Arctic has been warming faster than elsewhere, especially during the cold season. According to the leading theory, ice-albedo feedback warms the Arctic Ocean during the summer, and the heat gained by the ocean is released during the winter, causing the cold-season warming. Screen and Simmonds (2...

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Bibliographic Details
Published in:Geophysical Research Letters
Main Authors: Lee, Sukyoung, Gong, Tingting, Feldstein, Steven B., Screen, James A., Simmonds, Ian
Format: Report
Language:English
Published: AMER GEOPHYSICAL UNION 2017
Subjects:
Geology
Geosciences
Multidisciplinary
SEA-ICE
AMPLIFICATION
TEMPERATURE
OCEAN
Arctic
Arctic Ocean
Simmonds
albedo
Sea ice
Online Access:http://ir.qdio.ac.cn/handle/337002/157369
https://doi.org/10.1002/2017GL075375
Description
Summary:The Arctic has been warming faster than elsewhere, especially during the cold season. According to the leading theory, ice-albedo feedback warms the Arctic Ocean during the summer, and the heat gained by the ocean is released during the winter, causing the cold-season warming. Screen and Simmonds (2010; SS10) concluded that the theory is correct by comparing trend patterns in surface air temperature (SAT), surface turbulence heat flux (HF), and net surface infrared radiation (IR). However, in this comparison, downward IR is more appropriate to use. By analyzing the same data used in SS10 using the surface energy budget, it is shown here that over most of the Arctic the skin temperature trend, which closely resembles the SAT trend, is largely accounted for by the downward IR, not the HF, trend. Plain Language Summary The Arctic has been warming faster than elsewhere, especially during the fall and winter. According to the leading theory, ice-albedo feedback warms the Arctic Ocean during the summer, and the heat gained by the ocean is released during the fall and winter, causing warming in these seasons. Deviating from this theory, it is shown here that over most of the Arctic, the skin temperature trend, which closely resembles the SAT trend, is largely accounted for by the downward infrared radiation, not the ocean-to-atmosphere heat flux, trend.

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