Little influence of Arctic amplification on mid-latitude climate

Little influence of Arctic amplification on mid-latitude climate

Observations1–3 and model simulations3,4 show enhanced warming in the Arctic under increasing greenhouse gases, a phenomenon known as the Arctic amplification (AA)5, that is likely caused by sea-ice loss1,3. AA reduces meridional temperature gradients linked to circulation, thus mid-latitude weather...

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Bibliographic Details
Published in:Nature climate change 2020-03, Vol.10 (3), p.231-237
Main Authors: Dai, Aiguo, Song, Mirong
Format: Article
Language:eng
Subjects:
Ablation
Amplification
Arctic climate changes
Arctic climates
Atmospheric models
attribution
Climate
Climate change
Climate models
climate-change impacts
Computer simulation
ENVIRONMENTAL SCIENCES
environmental sciences & ecology
Gases
Global warming
Greenhouse effect
Greenhouse gases
Ice
Latitude
meteorology & atmospheric sciences
Natural variability
Polar environments
Precipitation
Regression analysis
Sea ice
Simulation
Snow
Snowfall
Statistical analysis
Statistical methods
Temperature
Temperature gradients
Troposphere
Weather
Wind
Winter precipitation
Zonal winds
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Summary:Observations1–3 and model simulations3,4 show enhanced warming in the Arctic under increasing greenhouse gases, a phenomenon known as the Arctic amplification (AA)5, that is likely caused by sea-ice loss1,3. AA reduces meridional temperature gradients linked to circulation, thus mid-latitude weather and climate changes have been attributed to AA, often on the basis of regression analysis and atmospheric simulations6–19. However, other modelling studies20–22 show only a weak link. This inconsistency may result from deficiencies in separating the effects of AA from those of natural variability or background warming. Here, using coupled model simulations with and without AA, we show that cold-season precipitation, snowfall and circulation changes over northern mid-latitudes come mostly from background warming. AA and sea-ice loss increase precipitation and snowfall above ~60° N and reduce meridional temperature gradients above ~45° N in the lower–mid troposphere. However, minimal impact on the mean climate is seen below ~60° N, with weak reduction in zonal wind over 50°–70° N and 150–700 hPa, mainly over the North Atlantic and northern central Asia. These results suggest that the climatic impacts of AA are probably small outside the high latitudes, thus caution is needed in attributing mid-latitude changes to AA and sea-ice loss on the basis of statistical analyses that cannot distinguish the impact of AA from other correlated changes.Warming in the Arctic has been thought to cause mid-latitude weather and climate changes. Simulations show Arctic changes have small influence outside of high latitudes, with background global warming exerting more influence over mid-latitude winter precipitation and wind changes.
ISSN:1758-678X
1758-6798