“The average surface temperature in the Arctic from January until September of 2016 was by far the highest we’ve observed since 1900,” said Jeremy Mathis, who directs NOAA’s Arctic Research Program. “And this is a critical point, there were record temperature highs set in January, February, October, and November of 2016.”
“The story in the Arctic has been warming in the summertime, you have this big loss of sea ice in the summer….but now we’re seeing temperature records being shattered in the wintertime,” Mathis continued. “And so we’re seeing that this persistent heat is now staying around year round. The fact that we’re breaking temperature records on the warm side in the winter months is what’s really indicating that these trends are what’s here to stay.”
The report, which is peer reviewed for its statements up through September, included a special non-peer reviewed addendum to cover the months of October and November of 2016 — perhaps because they were so extraordinary, featuring record low levels of Arctic sea ice heading into deep winter. (The Artic is the region of the planet north of 60 degrees latitude.) Here, the document noted the “record breaking delay in the freeze up of the sea cover in Fall 2016 is associated with unprecedented warm air and ocean surface temperatures.”
In 2016 overall, warm Arctic temperatures led to the second lowest level of Arctic sea ice ever recorded at the summer minimum in September (many individual months saw all-time record lows), the second earliest beginning to the melt season for the Greenland ice sheet, low snow cover, and much else.
“The 2016 Arctic Report Card further documents the unraveling of the Arctic and the crumbling of the pillars of the global climate system that the Arctic maintains,” said Rafe Pomerance, who is chair of the group Arctic 21 and sits on the Polar Research Board of the National Academy of Sciences. “Governments must urgently work together to establish a future Arctic that minimizes ever greater warming from the loss of sea ice and snow cover and thawing permafrost, and massive sea level rise from the shrinking Greenland ice sheet and other Arctic glaciers.”
One of the most watched — and most controversial — aspects of this rapid Arctic change involves the jet stream. There’s a prominent theory, advanced by Rutgers University’s Jennifer Francis, that the decreasing temperature difference between the Arctic and the mid-latitudes as the Arctic warms is slowing this stratospheric air flow and causing it to take a more elongated and loopy path, which can in turn lead to more weather extremes as weather systems become stuck in place for longer.
NOAA isn’t officially endorsing this theory yet, but it is studying it closely, Mathis said. “As the Arctic destabilizes, these cold air masses can start sliding down into the lower 48 that can give us extreme weather,” he said.
All of this is happening due to global warming resulting from the buildup of carbon dioxide in the atmosphere. But in the Arctic itself, the NOAA report notes, permafrost soils currently contain twice as much buried carbon as resides in the air. And one of the most striking parts of the NOAA report is that this region “appears to be releasing net carbon to the atmosphere,” even after an increase in plant growth in the Arctic that partially offsets soil losses.
The news about the record warm Arctic comes as president-elect Trump has named Rex Tillerson, the chief executive of ExxonMobil, as his secretary of state. As head of the world’s largest private oil company, Tillerson and Exxon “had begun a drilling program in the Arctic’s Kara Sea, where Exxon made a find, and had agreed to explore shale oil areas of West Siberia and deep waters of the Black Sea,” note Steven Mufson and two Washington Post colleagues today. But this was halted by sanctions on Russia.
The irony is that if Arctic drilling goes forward, the resulting fossil fuels will surely make global warming even worse — but global warming, by reducing the amount sea ice, will also have also made drilling easier to pull off.
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