• 注册日期2009-05-02
  • 最后登录2019-03-24
  • 粉丝75
  • 关注46
  • 发帖数12087
  • 来自


更多 发布于:2017-10-18 10:30


Over the last decades, the stratospheric polar vortex has shifted towards more frequent weak states which can explain Eurasian cooling trends in boreal winter in the era of Arctic amplification.
When the strong winds that circle the Arctic slacken, cold polar air can escape and cause extreme winter chills in parts of the Northern hemisphere. A new study finds that these weak states have become more persistent over the past four decades and can be linked to cold winters in Russia and Europe.

This is the first to show that changes in winds high up in the stratosphere substantially contributed to the observed winter cooling trend in northern Eurasia. While it is still a subject of research how the Arctic under climate change impacts the rest of the world, this study lends further support that a changing Arctic impacts the weather across large swaths of the Northern Hemisphere population centers.

"In winter, the freezing Arctic air is normally ‘locked’ by strong circumpolar winds several tens of kilometers high in the atmosphere, known as the stratospheric polar vortex, so that the cold air is confined near the pole," says Marlene Kretschmer from PIK, lead-

author of the study to be published in the Bulletin of the American Meteorological Society.
"We found that there’s a shift towards more-persistent weak states of the polar vortex," she said. "This allows frigid air to break out of the Arctic and threaten Russia and Europe with cold extremes. In fact, this can explain most of the observed cooling of Eurasian winters since 1990."

Winters in the Northeastern US, Europe and especially Asia were recently anomalously cold and some regions like Western Siberia show a downward temperature trend in winter.  In stark contrast, the Arctic has been warming rapidly.

Paradoxically, both phenomena are likely linked: When sea-ice North of Scandinavia and Russia melts, the uncovered ocean releases more warmth into the atmosphere and this can impact the atmosphere up to about 30 km (18.64 miles) in the stratosphere disturbing the polar vortex. Weak states of the high-altitude wind circling the Arctic then favors the occurrence of cold spells in the mid-latitudes. Previous work by Kretschmer and colleagues identified this causal pathway in observational data and it is further supported by several climate computer simulation studies.

"Our latest findings not only confirm the link between a weak polar vortex and severe winter weather, but also calculated how much of the observed cooling in regions like Russia and Scandinavia is linked to the weakening vortex. It turns out to be most," says co-author Judah Cohen from Atmospheric and Environmental Research/Massachusetts Institute of Technology (US).


Temperature Trends 1990-2015 in the Northern Hemisphere - The Arctic right in the centre is warming disproportionally.
[invensys于2017-10-18 10:34编辑了帖子]
喜欢1 评分0


NASA. NOAA. USGS. NSIDC. ESA. National Geographic. Discovery.
  • 注册日期2012-06-22
  • 最后登录2018-09-16
  • 粉丝25
  • 关注22
  • 发帖数644
  • 来自
发布于:2017-11-03 21:25
只适用于特定地区如 1 楼图示。只属于相关因子而非决定因子。可以是两个距离遥远的层面,巧合的结果。热能散失的过程,到底是怎样,则未有明确指出。
回复(0) 喜欢(0)     评分