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  • Written by Amelie Meyer, Postdoctoral Researcher, Physical Oceanography, Norwegian Polar Institute

The Arctic has been unusually warm since the beginning of 2018. In the past week air temperatures have hovered around 20℃ above normal or even higher. On February 25, the Cape Morris Jesup weather station in northern Greenland recorded 6.1℃, despite the fact that at this time of year, when the sun is still below the horizon, temperatures are typically around -30℃.

Daily Arctic temperatures in 2018 (thick red line), for 1958-2002 (thin lines) and the average for 1958-2002 (thick white line). Zack Labe

A surprising feature of this warming event was how far into (and beyond) the Arctic it has penetrated. Warm air migrated north from the Atlantic Ocean, over the North Pole and towards the Pacific Ocean, bringing above-freezing air temperatures to large areas of the Arctic Ocean for more than 24 hours.

We have not seen a warm intrusion from the Atlantic Ocean on this scale since at least 1980.

Air temperatures at 3pm on February 25, 2018, based on GFS forecast. The warm air incursion is clearly visible in green. ClimateReanalyzer.org/University of Maine

Is this unprecedented?

Warm events in the middle of the northern winter are not unheard of. Large winter storms can bring strong winds that pump warm air into the Arctic from lower latitudes.

For example, during the Norwegian explorer Fridtjof Nansen’s 1896 expedition aboard the icebreaker Fram, the crew observed temperatures of -3℃ on one midwinter’s day. More recently, in December 2015, an Arctic warming event brought temperatures of 2℃ to the North Pole, and the warm weather continued into early 2016.

Winter warming events at the North Pole. Number of days each winter when the air temperature exceeds a given threshold. Graham et al., 2017

But, crucially, this type of event is becoming more common and longer in duration, with higher peak temperatures.

Record low sea ice extent

February 26 brought a new record low for sea ice extent: maximum sea ice extent on that day was 14.20 million square kilometres, which is 1.29 million km2 below the 1981-2010 average for that day. This follows several years with record low winter maximum sea ice extents in 2015, 2016 and 2017.

Arctic sea ice extent for January and February 2018 (orange line), compared with the 1980s average (purple line), 1990s average (cyan line), and 2000s average (blue line). Zack Labe/JAXA AMSR2

The current warm conditions in the Arctic have implications for sea ice year-round. Sea ice grows in winter and melts in summer. The warm air temperatures will slow down sea ice growth, and strong winds will push it around, breaking it up in places – as happened north of Greenland earlier this week.

Open water where the ice is broken will release extra heat into the atmosphere. By the time the spring sun comes around, the sea ice pack is thinned and weakened, and may melt more easily.

Cold weather in Europe

While the Arctic has been hot, Europe has been bitterly cold this week: London recorded -6℃; Berlin reached -14℃; and the Alps plunged to -27℃. Rome received 5-15cm of snow on Monday, and up to 40cm of snow fell in Britain on Wednesday.

It might sound counter-intuitive, but this cold weather is directly linked to the recent warming event in the Arctic.

Temperature anomalies for February 25, 2018, showing a warm Arctic and cold Europe and parts of Russia. Browns and reds indicate above-average temperatures; blues indicate below-average temperatures. Climate Re-analyzer/University of Maine

Normally, the cold air above the polar region is contained in the Arctic by a ring-like band of strong winds called the polar vortex. But in the middle of February this year, the polar vortex split into two vortices: one over Eurasia and the other over North America.

Between these two features, a strong high-pressure system gradually formed. As a result, warm air was pumped up into the Arctic on the west side of the high, while cold air was channelled southwards to the east of it. Hence the exceptionally warm air in the Arctic and the cold snap in Europe.

Illustration of the Arctic polar vortex and northern hemisphere weather patterns. XNR Productions

Is the polar vortex changing?

The polar vortex is driven by the strong temperature differences between the warm mid-latitudes and the cold Arctic. With the Arctic warming more rapidly than the mid-latitudes, this temperature difference is decreasing and some scientists believe that the polar vortex is weakening.

Research suggests that the polar vortex has become “wavier” as a result of this weakening. A wavier jet stream would lead to more frequent cold outbreaks of polar air at lower latitudes, and at the same time cause warm air to intrude into the Arctic. However, other researchers have argued that “large uncertainties regarding the magnitude of such an influence remain”.

Generally speaking, warming at every latitude makes cold spells at low latitudes less likely, and warm intrusions at high latitudes more likely, unless the Arctic warming leads to a fundamental change in the dynamics of the atmosphere.

Read more: Climate shenanigans at the ends of the Earth: why has sea ice gone haywire?

Since 1979, Arctic warming events have grown more frequent. However, climate projections indicate that there will be fewer Arctic storms in the latter part of this century, and thus fewer Arctic warming events.

As scientists, we were startled by the extent of this week’s Arctic warming, and will be working hard to understand the short- and long-term implications. All eyes will be on the upcoming maximum winter Arctic sea ice extent, which is likely to happen in the next few weeks and could possibly set a new record low.

Read more http://theconversation.com/the-freak-warm-arctic-weather-is-unusual-but-getting-less-so-92590