North Hole

Sea Surface Temperature Anomalies

A dust storm approaches Stratford, Texas, in 1935. From: Wikipedia: Dust Bowl

During the 1930s, North America experienced a devastating drought affecting almost two-thirds of the United States as well as parts of Mexico and Canada. The period is referred to as the Dust Bowl, for its numerous dust storms.

Rapid creation of farms and use of gasoline tractors had caused erosion at massive scale.

Extensive deep plowing of the virgin topsoil of the Great Plains in the preceding decade had removed the natural deep-rooted vegetation that previously kept the soil in place and trapped moisture even during periods of drought and high winds.

So, when the drought came, the dust storms emerged. But what caused the drought?

A 2004 study concludes that the drought was caused by anomalous sea surface temperatures (SST) during that decade and that interactions between the atmosphere and the land surface increased its severity (see image above right with SST anomalies).

Sea Surface Temperature Anomalies in the Arctic

As the above chart shows, SST anomalies in the days of the Dust Bowl were not greater than one degree Celsius. It is in this context that the current situation in the Arctic must be seen. This year, SST anomalies of 5 degrees Celsius or more are showing up in virtually all areas in the Arctic Ocean where the sea ice has disappeared; some areas are exposed to sea surface temperature anomalies higher than 8°C (14.4°F), as discussed in the post Arctic Ocean is turning red.

High SST anomalies can change weather patterns in many places, as discussed in an earlier post on changes to the Polar Jet Stream. The world is now stumbling from one extreme weather event into another, and things look set to get worse every year.

Feedbacks in many ways make things even worse in the Arctic, as described in the post Diagram of Doom. A recent paper by Feng et al. notes that river runoff has significantly increased across the Eurasian Arctic in recent decades, resulting in increased export of young surface carbon. In addition, the paper says, climate change-induced mobilization of old permafrost carbon is well underway in the Arctic. An earlier paper already warned about coastal erosion due to the permafrost melt. In conclusion, the Arctic is hit by climate change like no other place on Earth.

North Hole

As the ice thickness map below shows, holes have appeared in the sea ice in places that once were covered by thick multi-year sea ice.

One such hole, for its proximity to the North Pole, has been aptly named the "North Hole". On the sea ice concentration map below, this hole shows up as a blue spot (i.e. zero ice).

The "Methane Catastrophe"

Why do we care? For starters, methane appears to be rising up from these holes in the sea ice, forming a cloud of high methane concentrations over the Arctic Ocean.

Perhaps this is a good occasion to again look at the methane plume over one km in diameter that appeared in the Laptev Sea end September 2011. The image is part of a paper on the unfolding "Methane Catastrophe".

Back in 2008, Shakhova et al., in the study Anomalies of methane in the atmosphere over the East Siberian shelf: Is there any sign of methane leakage from shallow shelf hydrates? considered release of up to 50 Gt of predicted amount of hydrate storage as highly possible for abrupt release at any time.

For more on the methane threat, please read the post methane hydrates or view the FAQ page.

Action

The threat of the "Methane Catastrophe" requires action to be taken urgently, such as discussed at the Climate Plan.


Links

• Climate Plan
https://arctic-news.blogspot.com/p/climateplan.html

• On the Cause of the 1930s Dust Bowl - by Siegfried Schubert
https://science.sciencemag.org/content/303/5665/1855

• Anomalies of methane in the atmosphere over the East Siberian shelf: Is there any sign of methane leakage from shallow shelf hydrates? - by Natalia Shakhova et al.
http://www.cosis.net/abstracts/EGU2008/01526/EGU2008-A-01526.pdf

• The degradation of submarine permafrost and the destruction of hydrates on the shelf of east arctic seas as a potential cause of the “Methane Catastrophe”: some results of integrated studies in 2011 - by V. I. Sergienko et al.
https://link.springer.com/article/10.1134/S1028334X12080144

• Methane hydrates
https://methane-hydrates.blogspot.com/2013/04/methane-hydrates.html

• Frequently Asked Questions (FAQ)
https://arcticmethane.blogspot.com/p/faq.html

Open Water at North Pole

Images from the North Pole Environmental Observatory are now showing large areas with open water at the North Pole. The image below is from Webcam 2, dated July 22, 2013.

[ click on image to enlarge ]

Furthermore, the number of spots with methane readings of over 1950 ppb appears to be rising. See related posts below to compare. Particularly worrying are the large number of spots over the Kara Sea. Also note the spot over Greenland in the top-left corner of the image below.

[ click on image to enlarge ]

The webcam shows water at the North Pole. Clearly, there still is some ice underneath the water, as is evident from the stakes that have been put into the ice to indicate the depth of surface water.

Surface water can build up as a result of melting as well as due to rain.

As the image on the right shows, the ice is getting very thin. In between the North Pole and Siberia, a wide corridor has developed where the ice is between zero and one meters thick.

Surface water could extend over this corridor, all the way to edge of the ice, in which case it effectively becomes part of open water.

The presence of water in areas close to the North Pole has been discussed in a number of earlier posts, such as this one.

The image below, from the Danish Meteorological Institute, gives some idea of the extent of the sea surface temperature anomalies that have been particularly prominent in the Kara Sea for some time.

Meanwhile, more water has appeared around Webcam2. Below are four later images, the top two images captured on July 24, 2013, the third one captured on July 25, 2013, while the bottom one was captured on July 26, 2013.

Note that the buoy associated with Webcam2, while originally positioned at the North Pole, has meanwhile moved away substantially from that location, as indicated by the image below, from http://imb.crrel.usace.army.mil/

Ice thickness image run July 26, valid July 27, 2013 for scale, see image further above. Buoy data up to July 28, 2013, buoy position: 84.87 N, 4.29 W.

On the animation above right, the track is shown against a sea ice thickness map, showing sea ice at webcam2's current position that is two meters thick.

So, while satellite images may indicate that the sea ice is still several meters thick in many locations, huge amounts of surface water may be present on top. The albedo of water is far lower than ice, so less sunlight is reflected back into space and a lot more heat is absorbed by the water, further accelerating the sea ice melt. This spells bad news for the remaining sea ice, since the melting season still has quite a bit of time to go.

Let's end with a video uploaded at youtube by climatecentral.org covering the period from April 16 to July 25, 2013.

Related posts

- Open Water In Areas Around North Pole (posted June 22, 2013)
- Watching methane over Arctic Ocean (posted July 20, 2013)
- Heat, Fires and Methane (posted July 20, 2013)
- High methane readings over Kara Sea (posted July 18, 2013)
- Methanetracker (posted July 9, 2013)

Open Water In Areas Around North Pole

In some areas around the North Pole, thickness of the sea ice has declined to virtually zero, i.e. open water.

What could have caused this open water? Let's go through some of the background.

North Hemisphere snow cover has been low for some time. Snow cover in May 2013 was the lowest on record for Eurasia. There now is very little snow left, as shown on the image right, adapted from the National Ice Center.

Low snow cover is causing more sunlight to be absorbed, rather than reflected back into space. As can be expected, there now are high surface temperatures in many areas, as illustrated by the NOAA image below. Anomalies can be very high in specific cases. Zyryanka, Siberia, recently recorded a high of 37.4 C, against normal high temperatures of 20 C to 21 C for this time of year. Heat wave conditions were also recorded in Alaska recently (satellite image of Alaska below).

NASA image June 17, 2013, credit: NASA/Jeff Schmaltz, LANCE MODIS Rapid Response Team, NASA GSFC - from caption by Adam Voiland: "Talkeetna, a town about 100 miles north of Anchorage, saw temperatures reach 96°F (36°C) on June 17. Other towns in southern Alaska set all-time record highs, including Cordova, Valez, and Seward. The high temperatures also helped fuel wildfires and hastened the breakup of sea ice in the Chukchi Sea."

Accordingly, a large amount of relatively warm water from rivers has flowed into the Arctic Ocean, in addition to warm water from the Atlantic and Pacific Oceans.

Sea surface temperatures have been anomalously high in many places around the edges of the sea ice, as also shown on the NOAA image below.

Nonetheless, as the above images also make clear, sea surface temperatures closer to the North Pole have until now remained at or below zero degrees Celsius, with sea ice cover appearing to remain in place. The webcam below from the North Pole Environmental Observatory shows that there still is a lot of ice, at least in some parts around the North Pole.

Webcam #2 of the North Pole Environmental Observatory monitoring UPMC's Atmospheric Buoy, June 21, 2013

So, what could have caused the sea ice to experience such a dramatic thickness decline in some areas close to the North Pole?

Firstly, as discussed in earlier posts, there has been strong cyclonic activity over the Arctic Ocean (see also Arctic Sea Ice blog post). This has made the sea ice more prone and vulnerable to the rapid decline that is now taking place in many areas.

Furthermore, Arctic sea ice thickness is very low, as illustrated by the image below.

Arctic sea ice volume/extent ratio, adapted by Sam Carana from an image by Neven (click to enlarge)

Finally, there has been a lot of sunshine at the North Pole. At this time of year, insolation in the Arctic is at its highest. Solstice (June 20 or June 21, 2013, depending on time zone) is the day when the Arctic receives the most hours of sunlight, as Earth reaches its maximum axial tilt toward the sun of 23° 26'. In fact, insolation during the months June and July is higher in the Arctic than anywhere else on Earth, as shown on the image below.

Monthly insolation for selected latitudes -  adapted from Pidwirny, M. (2006), in "Earth-Sun Relationships and Insolation",  Fundamentals of Physical Geography, 2nd Edition. 

In conclusion, the current rapid sea ice thickness decline close to the North Pole is mostly due to a combination of earlier cyclonic activity and lots of sunlight, while the sea ice was already very thin to start with. The cyclone broke up the sea ice at the center of the Arctic Ocean, which is turn made it more prone to melting rapidly. The cyclone did more, though, as contributor to the Arctic-news blog Veli Albert Kallio explains:

"The ocean surface freezes if the temperature falls below -2.5C. The reason for the negative melting point is the presence of 4-5% of sea salt. Only in the polar regions does the sea surface cool sufficiently for sea ice to form during winters.

The sea ice cover is currently thinning near the North Pole between 80-90 degrees north. This part of the ocean is very deep. It receives heat of the Gulf Stream from the south: as the warm water vapourises, its salt content to water increases. This densifies the Gulf Stream which then falls onto the sea floor where it dissipates its heat to the overlying water column. The deep basin of the Arctic Ocean is now getting sufficiently warmed for the thin sea ice cover to thin on top of it. The transportation of heat to the icy surface is combined with the winds that push cold surface water down while rising heat to surface."

Indeed, vertical mixing of the water column was enhanced due to cyclonic activity, and this occurred especially in the parts of the Arctic Ocean that also are the deepest, as illustrated by the animation below.

Legend right: Ice thickness in m from Naval Research Laboratory
Legend bottom: Sea depth (blue) and land height (brown/green)
in m from NIBCAO Arctic map at NOAA

The compilation of images below shows how the decline of sea ice has taken place in a matter of weeks.

[ click to enlarge ]

This spells bad news for the future. It confirms earlier analyses (see links below) that the sea ice will disappear altogether within years. It shows that the sea ice is capable of breaking up abruptly, not only at the outer edges, but also at the center of the Arctic Ocean. As the Arctic sea ice keeps declining in thickness, it does indeed look set to break up and disappear abruptly across most of the Arctic Ocean within a few years. Models that are based on sea ice merely shrinking slowly from the outer edges inward should reconsider their projections accordingly.

Related

- Getting the Picture
http://arctic-news.blogspot.com/2012/08/getting-the-picture.html

- Supplementary evidence by Prof. Peter Wadhams
http://arctic-news.blogspot.com/2012/04/supplementary-evidence-by-prof-peter.html

Future of Arctic Ice: The Three Perspectives

By Veli Albert Kallio

Veli Albert Kallio in front of Peter Wadhams and John Nissen at
APPCCG event, March 13, 2012, House of Commons, London

I use three type sources to assess climate:

1. the peer-reviewed literature and news reports; 
2. the whistle-blower organisations (Wikileaks, Cialeaks that release data files from the US Army, Navy, Air Force, CIA, the US State Department, or intercepted corporate telephone or Internet communications; and 
3. indigenous people’s organisations and their ethnoclimatology people.

June 26, 2012: the Cialeaks released data files from the US stating that the North Pole will be ice free in 2013. These appear to be submarine upward sonar readings of ice from the US Navy. These contrast strongly what NSIDC is saying about the sea ice surviving much longer. I do not know the reason why US Navy and NSIDC advice differently on this point (an exponential trend projection based on PIOMAS data gives zero-ice 2015).

As per the question, where all heat goes after the sea ice has melted, I stick to the advice given in the United Nations General Assembly motion 101292: the Polar Ice responds extremely fast: first the sea ice melts and disintegrates, then followed by intense methane surges and equally rapid losses of the Arctic terrestrial ice cover in Greenland which never melts, but collapses instead.

After the sea ice loss, the permafrost and Greenland Ice Sheet take up a large portion of that energy that was previously used to melt the sea ice during the short summers. As a result, the ocean warms up and rains much more water than now with the flash-floods becoming very frequent in Greenland. As a result many times more water appears on top of Greenland’s Ice Sheet.

Greenland Ice Sheet rapidly metamorphoses from a (cold, dry, stable) moraine-forming ice sheet into a (warm, wet, dynamic) aggregate-forming ice sheet as the water amount within ice sheet and at its base increase. The bottom part of the ice sheet turns increasingly into water-logged, “mushy” ice that loses its internal strength, while pot holes on bedrocks become filled by water.

By 2020's 1/3 of Greenland Ice Sheet's base (between ice and bedrock) is dotted with water ponds at which point the rapid erosion processes (cavitation, plucking and kolking) pulverise the ice so aggressively that an "ice sheet thrust" develops against coastal perimeter at Melville Bay area. Even the dry parts of ice sheet then no longer can hold the ice dome in place and Heindrich Ice Berg Calving Event (H-1) occurs.

After the Heindrich Minus One (H-1) event the North Atlantic Ocean between America and Europe fills by broken ice that triggers a near-instantaneous severe climate cooling: the Last Dryas. Europe will see many years lasting freeze with Dryas Octopetala rapidly taking hold across continent's then barren soils. The ice volume is 10 times less in Greenland than in a similar event when the Hudson Bay Ice Dome reminders collapsed.

This ice evolution history of the First Nations of Americas as expressed on the UN General Assembly motion 101292 and the Plantagon Declarations, were used on the global-warming themed film “A Day After Tomorrow” and also “2012” by director Roland Emmerlich. Unfortunately, the films assigned incorrect physics and caused great annoyance among the Native American Indian communities due to many other inaccuracies in details therein:

“2012” films ‘mystery radiation of sun’ was never caused by neutrinos, but methane: the Bøllinger Years. The ‘core melting’ was due to the displacement of asthenosphere’s fluids as the heavy Foxe-Laurentide Ice Dome destabilised forcing the liquid minerals in asthenosphere to move out of way, the pressures causing huge eruptions and lava floods (asthenosphere is like a “wet sponge”, a composite of solid and liquid minerals).

“A Day After Tomorrow’s freeze failed the Boyle’s Law: ultra-cold stratosphere cannot fall, and cause instantaneous sea level jump that was followed by the Younger Dryas freeze-up, but ice can.

The First Nations of Americas have raised the alarm very clearly continuously for the last 20 years since the first Rio de Janeiro summit in 1992 that the West is living in delusions (including its scientists). Just like the perimeter between the south tip of the Baffin Island and the north tip of Newfoundland once failed, ending the Ice Ages, the rapid melt water accumulation same way destroys now Greenland’s perimeter barrier at Melville Bay. Wet solidus damage causing lava floods and inlet fjord leaks can suddenly speed it up even more unpredictably.

Here is Professor Oren Lyon Jr.’s (Native American Tradition-Keeper and Historian of the Six Nations who worked at the University of Buffalo), the Internet summary of the Plantagon Declarations: http://www.youtube.com/watch?v=4OjjPETcz6A

There is no point just to observe and repeat only points that appear in the professional literature. I want other communities’ perspectives and wisdom to be also realised and acknowledged:

+ either: the ancient experiences of the ancient people,

+ or: for the huge risks that people take to uncover often illegal practises by the corporations who are often acting in tacit co-operation with government officials, scientists or industrialists who are hostile to admit publically the role of greenhouse gases that violate their pet paradigm that the economic growth can be based on infinite growth from fossil-fuelled supply of goods and services.

Veli Albert Kallio, FRGS
International Guru Nanak Peace Prize Nominee for 2008;
sea level rise risk for global security & economic stability.

http://www.facebook.com/albert.kallio

How thick is the Arctic Sea Ice?

How thick is the sea ice in the Arctic? One way to find out is to make a journey on-board an icebreaker.

The video further below shows the US Coast Guard Cutter Healy, as it travels the Arctic Ocean from August 11 - September 28, 2011, approaching the North Pole from Barrow, Alaska, and back, while a camera takes hourly images, compiled in a YouTube video provided by NOAA.

Directly below, an animation showing the route against a backdrop of the Arctic region.

Note: the animation further above is a 5.6 MB file that may take some time to fully load.