Arctic Ice Watch June 30

In the chart below MASIE shows 2016 Mid-June  Arctic ice extent drew near to average and close to 2015, then dropped lower before again converging on average by the end.  With SII back on line, it is reporting similar extents during June (as it has in the past), though it appears to start underestimating again. (SII and MASIE comparison is here.)

MASIE 2016 day182
This year and last had the same average extents until May when a gap opened up associated with the Beaufort gyre high winds breaking up and moving ice to create 150 k km2 open water in that sea. The difference in Beaufort Sea had reduced to ~45 k below average, but the gap has reopened the last 2 days to ~125 k.

Looking into the details, some marginal seas are melting earlier than last year, while the central, enduring ice pack is relatively unaffected.  In fact, a large difference between 2016 and 2015 comes from the losses from maximums in a single place: Sea of Okhotsk.  To date 1303k km2 of ice was lost this year vs. 753k km2 lost in 2015 in that sea at the same date.

Despite greater losses in Okhotsk, 2016 ice extent in June is fairly ordinary with slight differences across the regions.  At the present pace of declining ice extents, 2016 is running three days ahead of the ten-year average, and six days ahead of 2015.

US Navy predicts summer ice free Arctic by 2016 Greenpeace icebreaking ship, Arctic Sunrise, among broken floes of Arctic sea ice, photographed from the air. This image was taken in the Fram Strait. Good to see Greenpeace doing their bit to create more open water.

US Navy predicts summer ice free Arctic by 2016. Greenpeace icebreaking ship, Arctic Sunrise, among broken floes of Arctic sea ice, photographed from the air. This image was taken in the Fram Strait. Greenpeace doing their bit to create more open water.

As the chart below shows, the seas most down from average this year are Beaufort, Kara, Barents, and Greenland Sea.  Meanwhile higher extents are showing in Chukchi, East Siberian, Laptev, and Hudson Bay, resulting in 2016 below average.

Region 2016182 Day 182
Average
2016-Ave.
 (0) Northern_Hemisphere 9496516 9736362 -239846
 (1) Beaufort_Sea 792915 920245 -127329
 (2) Chukchi_Sea 775436 734342 41094
 (3) East_Siberian_Sea 1065714 1023242 42472
 (4) Laptev_Sea 863015 713555 149460
 (5) Kara_Sea 362414 561945 -199531
 (6) Barents_Sea 25988 110950 -84962
 (7) Greenland_Sea 367846 518951 -151105
 (8) Baffin_Bay_Gulf_of_St._Lawrence 465379 483472 -18093
 (9) Canadian_Archipelago 791274 774241 17033
 (10) Hudson_Bay 803437 658144 145293
 (11) Central_Arctic 3176041 3211595 -35554
 (12) Bering_Sea 0 6730 -6730
 (13) Baltic_Sea 0 6 -6
 (14) Sea_of_Okhotsk 5914 17526 -11612

Comparing the Arctic ice extents with their maximums shows the melting is occurring mostly in the marginal seas, now including Kara Sea as expected in June.

2016182 NH Max Loss % Loss Sea Max % Total Loss
 (0) Northern_Hemisphere 5581083 37.02% 100%
 (1) Beaufort_Sea 277530 25.93% 5%
 (2) Chukchi_Sea 190553 19.73% 3%
 (3) East_Siberian_Sea 21406 1.97% 0%
 (4) Laptev_Sea 34794 3.88% 1%
 (5) Kara_Sea 572574 61.24% 10%
 (6) Barents_Sea 573391 95.66% 10%
 (7) Greenland_Sea 291866 44.24% 5%
 (8) Baffin_Bay_Gulf_of_St._Lawrence 1179203 71.70% 20%
 (9) Canadian_Archipelago 61904 7.26% 1%
 (10) Hudson_Bay 457434 36.28% 8%
 (11) Central_Arctic 70669 2.18% 1%
 (12) Bering_Sea 768232 100.00% 13%
 (13) Baltic_Sea 97582 100.00% 2%
 (14) Sea_of_Okhotsk 1302782 99.55% 22%

It is clear from the above that the bulk of ice losses are coming from Okhotsk, Barents and Bering Seas (95+% melted),along with Kara Sea and Baffin Bay-St. Lawrence (60+% melted).  All of them are marginal seas that will go down close to zero by September.  Note: Some seas are not at max on the NH max day.  Thus, totals from adding losses will vary from NH daily total.

CPC shows the Arctic Oscillation waffling between positive and negative values, recently positive and forecasted to near neutral. Generally, positive AO signifies lower pressures over Arctic ice, with more cloud, lower insolation and less melting.  The outlook at this point is mixed.

September Minimum Outlook

Historically, where will ice be remaining when Arctic melting stops? Over the last 10 years, on average MASIE shows the annual minimum occurring about day 260. Of course in a given year, the daily minimum varies slightly a few days +/- from that.

For comparison, here are sea ice extents reported from 2007, 2012, 2014 and 2015 for day 260:

Arctic Regions 2007 2012 2014 2015
Central Arctic Sea 2.67 2.64 2.98 2.93
BCE 0.50 0.31 1.38 0.89
Greenland & CAA 0.56 0.41 0.55 0.46
Bits & Pieces 0.32 0.04 0.22 0.15
NH Total 4.05 3.40 5.13 4.44

Notes: Extents are in M km2.  BCE region includes Beaufort, Chukchi and Eastern Siberian seas. Greenland Sea (not the ice sheet). Canadian Arctic Archipelago (CAA).  Locations of the Bits and Pieces vary.

As the table shows, low NH minimums come mainly from ice losses in Central Arctic and BCE.  The great 2012 cyclone hit both in order to set the recent record. The recovery since 2012 shows in 2014, with some dropoff last year, mostly in BCE.

Summary

We are well into the melt season, and the resulting minimum will depend upon the vagaries of weather between now and September.  Early on, 2016 was slightly higher than 2015 in March, lower in May and now closing the gap. Note: 2016 melt season is starting without the Blob, with El Nino over, and a cold blob in the North Atlantic.  The AO has been hovering around neutral, now possibly indicating cloud cover reducing the pace of melting.

Meanwhile we can watch and appreciate the beauty of the changing ice conditions.

 

Arctic Reflection: Clouds replace snow and ice as solar reflector NASA photo

Footnote:  Regarding the colder than normal water in the North Atlantic

A 2016 article for EOS is entitled Atlantic Sea Ice Could Grow in the Next Decade

Changing ocean circulation in the North Atlantic could lead to winter sea ice coverage remaining steady and even growing in select regions.

The researchers analyzed simulations from the Community Earth System Model, modeling both atmosphere and ocean circulation. They found that decadal-scale trends in Arctic winter sea ice extent are largely explained by changes in ocean circulation rather than by large-scale external factors like anthropogenic warming.

From the Abstract of Yeager et al.

We present evidence that the extreme negative trends in Arctic winter sea-ice extent in the late 1990s were a predictable consequence of the preceding decade of persistent positive winter North Atlantic Oscillation (NAO) conditions and associated spin-up of the thermohaline circulation (THC). Initialized forecasts made with the Community Earth System Model decadal prediction system indicate that relatively low rates of North Atlantic Deep Water formation in recent years will result in a continuation of a THC spin-down that began more than a decade ago. Consequently, projected 10-year trends in winter Arctic winter sea-ice extent seem likely to be much more positive than has recently been observed, with the possibility of actual decadal growth in Atlantic sea-ice in the near future.

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5 comments

  1. THX1138 · July 1

    I think that it is important to note here that according to Susan J. Crockford, the only sane person in the field in my opinion, thin or very little summer ice affects polar bears very little. Too thick winter ice, however can cause survivability issues with polar bears. I think we can all see that this is simply a non-issue, and we should just leave the polar bears to do what they do best, and that is live nicely in the Arctic, and adapting easily to the natural changes in ice conditions.

    Liked by 1 person

  2. joekano76 · July 1

    Reblogged this on TheFlippinTruth.

    Like

  3. rw · July 4

    A really nice post. Thanks again.

    Like

    • Ron Clutz · July 4

      Thanks for that. Good to know the info is appreciated.

      Like

  4. Hifast · July 13

    Reblogged this on Climate Collections.

    Like

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