Record Low Sea Ice Maximum a Lock as Arctic Continues Trend of Ridiculous Warmth

Anyone who’s been paying attention to the Arctic knows that it’s seen a ridiculously warm fall and winter during 2016 and 2017. And, unfortunately, new predicted temperature spikes appear to be on tap for the coming days in one of the more climate-sensitive regions of our world.

(Another big Arctic temperature spike is predicted for later this week with readings expected to hit as high as 5.1 C above average for the entire Arctic. So much warmth in this region will continue to put melt press on sea ice, snow packs, permafrost and glaciers. Image source: Climate Reanalyzer.)

High amplitude waves in the Jet Stream, according to the Global Forecast System Model, are set to drive dual warm air invasions into the Arctic. The first warm air invasion is taking place over North-Central Siberia and is the continuation of a general pattern of warm air delivery that has now lasted for about two weeks through the region of the Kara, Laptev, and East Siberian seas. The second, and albeit weaker, warm air delivery is set to run northward through the Northwest Territories of Canada and on into the Beaufort Sea and Canadian Archipelago.

Temperatures in these warm air invasion zones are expected to rise to between 10 and 30 degrees Celsius above average (18 to 54 F above average). In some places covering these warm wind invasion zones, we are also expected to see sporadic above freezing readings and, in the case of the Laptev — periods of liquid precipitation over the sea ice.

(The record low maximum sea ice extent for 2017 looks more and more like a lock as another big temperature spike rushes into the Arctic.)

Overall, Arctic average temperatures above the 66 degree north latitude line are expected to range between 3 and 5 degrees Celsius above average over the next seven days. As anomaly departures tend to tamp down a bit as spring emerges, these are very high temperature deltas for this time of year.

These continued very high temperature anomalies and what is a trend of extreme and extraordinary warmth for the Arctic has kept sea ice extent measures in record low ranges throughout much of late March. Over the coming days, the most recent warm spate will likely produce an ongoing weakening of ice on the Russian side even as the warmer readings across the Beaufort and Canadian Archipelago will tend to tamp down late season ice thickness building (as typically occurs during late March through April) over the last remnants of multi-year sea ice.

(NASA satellite shot of sea ice shows considerable early melt along the Russian side of the Arctic Ocean.)

In the image above, we find that the ice on the Russian side is already broken, thinning, and opening up into numerous polynyas. Ice is particularly reduced in the Kara (lower right) for this time of year. And the break-ups and mobility of the non-fast ice in the Laptev and East Siberian seas are considerably advanced.

As we reported last week, Arctic sea ice volume trends are now in considerable record low ranges and the excess heat on the Canadian and Russian sides will continue to put pressure on those values. Another instance of the ongoing downfall of global sea ice that kicked into high gear during 2016 and 2017 as human forced warming of the climate system through fossil fuel burning took another step toward ever-warmer conditions.

Links:

LANCE MODIS

Climate Reanalyzer

NSIDC

PIOMAS

Hat tip to Zack Labe

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Arctic Heat Drives Sea Ice Back Into Record Low Territory At Top of Melt Season

record low sea ice cover March 10

(Record low sea ice cover on March 10, 2014 a time that typically features sea ice maximum. Note that all basins show sea ice area and extent below the, already lower than normal, 1979-2000 base-line. Image source: Climate Change Institute.)

Abnormal, warm southerly winds at the lower and upper levels. More large heat pulses driven by high amplitude Jet Stream waves. Tropical heat launching into the Arctic Stratosphere over the Himalayas. Warm water upwelling from the rapidly heating ocean depths.

All conditions that continue to place the Arctic sea ice under a state of constant siege — winter and summer. All again doing their dangerous work in pushing the now critically weakened ice, once more to record low levels.

Under this state of ongoing assault, regions near Svalbard fell into rapid retreat as floes fractured over warming waters in the Bering Sea and west of Greenland. The result is the lowest measure of winter time sea ice area ever seen in any record for this day since Arctic observation began. Yet one more passing milestone in the vicious and rapid progression of human-caused climate change.

2011 Records Fall

According to reports from NSIDC and Cryosphere Today, Arctic sea ice area dropped to a record low of 12.95 million square kilometers on March 10 of 2014. It is a measure more than 2 million square kilometers, or an area roughly the size of Greenland, smaller than that seen during the late 1970s and breaking the previous record low, set just three years ago, by 150,000 square kilometers. Sea ice extent, meanwhile, had fallen to 14.5 million square kilometers, a measure roughly tied with the previous record low set in 2011 and also about 2 million square kilometers below area values seen during the late 1970s.

It is worth noting that the trend lines for both sea ice extent and area are well below previous trends for record low years 2007 (green below) and 2012 (pink below).

Sea ice area march 10 CT

(March 10 Sea Ice Area showing record low for the day. Image source: Pogoda i Klimat. Data Source: Cryosphere Today.)

Melt Hot Spots: Ocean Zones Near Svalbard and Greenland

With the Aqua Satellite again cresting the Arctic, we can peer down through cloud and ice to see dark, open waters peeking through kilometer-wide cracks or dominating entire ocean zones during a very anemic peak freeze. With recent days bringing average Arctic temperatures in the range of 2.5 to 4.5 degrees Celsius above normal and with local spikes in the +20 degrees C above normal range, areas of visible retreat and fragility abound.

These heat spikes combined with strong southerly winds near Svalbard to drive a rapid, far-north, retreat of ice floes on March 9-11 into zones that previously saw open ocean only during summer time. This far northward invasion of dark, open water is the primary culprit of the new record low:

Open Ocean North of Svalbard March 11

(Open ocean north and west of Svalbard on March 11, 2014. It is worth noting that Svalbard is about 600 miles from the North Pole. The Current sea ice edge, during a time when ice extent should be at its maximum, is now just 500 miles from the North Pole. Image source: Lance-Modis.)

A large region of northern Baffin Bay near Northwest Greenland and the Canadian Arctic Archipelago also showed extensive melt and open ocean zones during recent days.

Over past decade, this region has shown increasing susceptibility to warm ocean water upwelling near the Nares Strait with winter-time melting of northern extremities in Baffin Bay. But this year’s melt was particularly strong. An event that coincided with sea-bed earthquakes and anomalously high methane levels (1950 ppb+) in the region through mid-to-late February. It is possible that upwelling is both driven by warm water currents now filling up the Baffin deep water zone and by the somewhat energetic out-gassing of sea bed methane through faults and seeps.

It is worth noting that evidence of these seeps is based on satellite observation and very little in the way of comprehensive seabed methane assessment has been completed by the global scientific community, a gap in understanding that may well come back to haunt us as human-caused warming continues to put increased heat pressure on both deep and shallow ocean carbon stores.

Baffin Bay Nares Extensive cracked ice open water

(Fingerprints of warm water upwelling, sea-bed methane release? Extensive open water, cracked ice in North Baffin Bay, Nares Strait region during height of sea ice extent, 2014. Image source: Lance Modis.)

Heightened risk for record low year, total meltdown

The current record low status for end winter sea ice and the approach of El Nino, which tends to add heat to the European and Asian continents, results in an increased risk that new record lows for sea ice area, extent and volume may be reached by end of summer 2014. Both warm air and water flushing in from the continents have been implicated in large sea ice retreats during recent years and a rapid heating of the large land mass over Arctic Europe and Asia, along with a simultaneous warming of Alaska, should El Nino progress, may amplify both continental heat build up and heat transfer through river outflow into the Arctic Ocean Basin.

In addition, high temperature anomalies during late winter to early spring continue to suppress sea ice recovery late season. The result is that more open ocean is now available to absorb energy from the rising sun or to deliver that energy in the form of waves and currents to the greatly diminished ice pack. The one saving grace, if it can be viewed as such, is a minor, though likely temporary rebound in sea ice volume extending from late last year, likely bringing volume values into the range of 3rd or 4th lowest on record for March.

It is also worth considering that sea ice area trends show an ever-increasing possibility of a record melt year with melt rates similar to 2007, 2011 or 2012 enough to bring 2014 to new record lows.

sia_projections_from_current_date

(Sea ice area projections based on past trends. It is worth noting that the melt season has lengthened by nearly a month since 1979, the result being increasing volumes of ice lost from end of freeze to end of melt. Image source: Jim Pettit. Data Source: NSIDC.)

In any case, this combination of conditions generates a high risk of sea ice reaching new record lows in sea ice area, volume and/or extent come end of summer 2014 (60%). This prediction finds its basis in observed records of past melt seasons and in the fact that very few days remain for a potential late-season uptick in sea ice. If record low values hold and a late season rebound does not occur, it is worth considering this simple fact: each time sea ice reached a new record low maximum sea ice area since 2005,  a new record area melt was achieved by end of summer. That said, not achieving a record low maximum is no guarantee of safety, as 2012 so starkly proved.

It is also worth considering that sea ice may be very close to tipping points and once thinned beyond a certain threshold will be unable maintain integrity. In such an event, warm, dark, increasingly mobile ocean waters eventually overwhelm an ice pack fighting for survival. We may well have seen the beginning of such a consequence during 2012 when powerful and energetic storms that would usually result in sea ice retention only served to hasten record losses. A warning that there are fewer and fewer conditions favoring summer ice retention as the Arctic energy balance is ever more forcibly shoved toward melt.

Given these potentials — the high likelihood for record low area at maximum, the ever-lengthening melt season, and the increasing fragility of ice come end-summer — it is worth considering the unexpected worst case: total sea ice loss or near total ice loss (less than 1 million square kilometers area) by end of summer 2014. At this point, given record low area conditions late in the freeze season, we will assess a slight uptick of total ice loss risk over the previous year from 10 to 15 percent — a somewhat increased risk that sea ice values reach near ice free levels during a catastrophic melt this summer (15%).

If an observed start to the melt season begins early and if melt rates rapidly steepen, we will likely reassess both the likelihood of new records at minimum and a potential ice-free end summer state in the face of increased risks. At this point, both measures are low confidence estimates based on trends analysis, observation of current unprecedented Arctic warmth, and continued fragile ice state conditions.

UPDATE:

March 11 Arctic sea ice area values showed continued decline into record low territory. March 10 to 11 area losses, according to Cryosphere Today, extended an additional 70,000 square kilometers pushing the value down to 12.88 million square kilometers over the entire Arctic. This level is about 130,000 square kilometers below the previous record low value for today set in 2011 at 13.1 million square kilometers.

Abnormal atmospheric warmth over the regions most affected including north and east of Svalbard, Frans Joseph Land, the Kara Sea, a large region of Russia near Dickson, and in the region of the Nares Strait continued to provide melt pressure driving the most recent record low.

Links:

NSIDC

Climate Change Institute

Jim Pettit

Lance Modis

Cryosphere Today

Pogoda i Klimat

Arctic Ice Graphs

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