Changes in Winter Temperature Extremes from Future Arctic Sea-Ice Loss and Ocean Warming

Key Points Less severe winter cold extremes in northern mid- and high-latitudes in response to future Arctic sea-ice loss Winter hot extremes increase in severity over high latitudes due to future Arctic sea-ice loss, but warm less than cold extremes In a majority of the latitudes, both cold and hot...

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Bibliographic Details
Main Authors: Lo, Y. T. Eunice, Mitchell, Daniel M., Watson, Peter A G, Screen, James A
Format: Article in Journal/Newspaper
Language:English
Published: 2023
Subjects:
Online Access:https://hdl.handle.net/1983/bc98dec9-5056-4f99-b102-fcfdb20d20f6
https://research-information.bris.ac.uk/en/publications/bc98dec9-5056-4f99-b102-fcfdb20d20f6
https://doi.org/10.1002/essoar.10512271.1
https://research-information.bris.ac.uk/ws/files/353677860/Geophysical_Research_Letters_2023_Lo_Changes_in_Winter_Temperature_Extremes_From_Future_Arctic_Sea_Ice_Loss_and_Ocean.pdf
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Summary:Key Points Less severe winter cold extremes in northern mid- and high-latitudes in response to future Arctic sea-ice loss Winter hot extremes increase in severity over high latitudes due to future Arctic sea-ice loss, but warm less than cold extremes In a majority of the latitudes, both cold and hot extremes warm more in response to future global sea surface temperature change than due to sea-ice loss Abstract Observed rapid Arctic warming and sea-ice loss are likely to continue in the future, unless and after greenhouse gas emissions are reduced to net-zero. Here, we examine the possible effects of future sea-ice loss at 2°C global warming above pre-industrial levels on winter temperature extremes across the Northern Hemisphere, using coordinated experiments from the Polar Amplification Model Intercomparison Project. 1-in-20-year cold extremes are simulated to become less severe at high- and mid-latitudes in response to Arctic sea-ice loss. 1-in-20-year winter warm extremes become warmer at northern high latitudes due to sea-ice loss, but warm by less than cold extremes. We compare the response to sea-ice loss to that from global sea surface temperature (SST) change also at 2°C global warming. SST change causes less severe cold extremes and more severe warm extremes globally. Except northern high latitudes, the response to SST change is of larger magnitude than that to Arctic sea-ice loss.