Greenland is melting at incredible rate

The combination-image below shows how much the ice on Greenland melted between July 8 (left) and July 12 (right).

On July 8, about 40% of the ice sheet had undergone thawing at or near the surface. In just a few days, the melting had dramatically accelerated and some 97% of the ice sheet surface had thawed by July 12. 

In the image, the areas classified as “probable melt” (light pink) correspond to those sites where at least one satellite detected surface melting. The areas classified as “melt” (dark pink) correspond to sites where two or three satellites detected surface melting. The satellites are measuring different physical properties at different scales and are passing over Greenland at different times. Credit: Nicolo E. DiGirolamo, SSAI/NASA GSFC, and Jesse Allen, NASA Earth Observatory.
For several days this month, Greenland's surface ice cover melted over a larger area than at any time in more than 30 years of satellite observations. Nearly the entire ice cover of Greenland, from its thin, low-lying coastal edges to its two-mile-thick center, experienced some degree of melting at its surface, according to measurements from three independent satellites analyzed by NASA and university scientists.

On average in the summer, about half of the surface of Greenland's ice sheet naturally melts. At high elevations, most of that melt water quickly refreezes in place. Near the coast, some of the melt water is retained by the ice sheet and the rest is lost to the ocean. But this year the extent of ice melting at or near the surface jumped dramatically. According to satellite data, an estimated 97% of the ice sheet surface thawed at some point in mid-July.

This extreme melt event coincided with an unusually strong ridge of warm air, or a heat dome, over Greenland. The ridge was one of a series that has dominated Greenland's weather since the end of May. "Each successive ridge has been stronger than the previous one," said Mote. This latest heat dome started to move over Greenland on July 8, and then parked itself over the ice sheet about three days later. By July 16, it had begun to dissipate.

As the ice warms, it loses albedo, i.e. less sunlight is reflected back into space. Darker surface absorbs more sunlight, accelerating the melting. The image below shows the Greenland ice sheet albedo from 2000 to 2011.

Credit: NOAA Arctic Report Card 2011.

The image below, from the meltfactor blog and by Jason Box and David Decker, shows the steep fall in reflectivity for altitudes up to 3200 meters in July 2012. 



The image below, from the meltfactor blog, shows how the year 2012 compares with the situation at approximately the same time in previous years, 2011 and 2010, which are recognized as being record melt years. 


The photo below shows how dark the ice sheet surface can become.

Photo shot by Jason Box on August 12, 2005
Loss of albedo occurs as the darker bare ground becomes visible where the ice has melted away. Darkening of snow and ice can start even before melting takes place. Warming changes the shape and size of the ice crystals in the snowpack, as described at this NASA Earth Observatory page. As temperatures rise, snow grains clump together and reflect less light than the many-faceted, smaller crystals. Additional heat rounds the sharp edges of the crystals, and round particles absorb more sunlight than jagged ones. 

Dirty ice surrounds a meltwater stream near the margin of the ice sheet. Compared to fresh snow and clean ice, the dark surface absorbs more sunlight, accelerating melting. © Henrik Egede Lassen/Alpha Film, from the Snow, Water, Ice, and Permafrost in the Arctic report from the U.N. Arctic Monitoring and Assessment Programme. From NOAA Climatewatch.
Another factor contributing to darkening is aerosols, in particular soot (i.e. black carbon) from fires and combustion of fuel, dust and organic compounds that enter the atmosphere and that can travel over long distances and settle on ice and snow in the Arctic. 

The July data since 2000, from the meltfactor blog, suggest a exponential fall in reflectivity that, when projected into the future (red line, added by Sam Carana), looks set to go into freefall next year. 

Is a similar thing happening all over the Arctic? Well, the map below, edited from a recent SSMIS Sea Ice Map, shows that sea ice concentration is highest around the North Pole. 



So, can water be expected to show up at the North Pole? Well have a look at the photo from the North Pole webcam below. 


Photo from the North Pole webcam
It does look like melting is going on at the North Pole. Water is significantly darker than ice, meaning the overall reflectivity will be substantially lowered by this water. 

It's important to realize that surface albedo change is just one out of a number of feedbacks, each of which deserves a closer look. 

As shown on the image below, the IPCC describes four types of feedbacks with a joint Radiative Forcing of about 2 W/sq m, i.e. water vapor, cloud, surface albedo and lapse rate. 




The image below, from James Hansen et al., may at first glance give the impression that all aerosols have a cooling effect. 





When components are split out further, it becomes clear though that some aerosols are reflective and have a cooling effect, whereas black carbon has a warming effect, while changes in snow albedo also contribute to warming. On the interactive graph below, you can click on or hover over each component to view their radiative forcing. When isolated from other factors, it's clear that snow albedo has an increasing warming effect.
How much could Earth warm up due to decline of snow and ice? Professor Peter Wadhams estimates that the drop in albedo in case of total loss of Arctic sea ice would be a 1.3 W/sq m rise in radiative forcing globally, while additional decline of ice and snow on land could push the the combined impact well over 2 W/sq m.

Locally, the impact could be even more dramatic. The image below, from Flanner et al., shows how much the snow and ice is cooling the Arctic. 


Image, edited by Sam Carana, from Mark Flanner et al. (2011).
Conversely, above image shows how much the Arctic could warm up without the snow and ice. Due to albedo change, sunlight that was previously reflected back into space will instead warm up the Arctic. What could have a big impact locally is that, where there's no more sea ice left, all the heat that previously went into melting will raise temperatures instead, as described at Warming in the Arctic.

The big danger is methane. Drew Shindell et al. show in Improved Attribution of Climate Forcing to Emissions that inclusion of aerosol responses will give methane a much higher global warming potential (GWP) than the IPCC gave methane in AR4, adding that methane's GWP would likely be further increased by including ecosystem responses. Indeed, as pictured in the image below, accelerated warming in the Arctic could trigger methane releases which could cause further methane releases, escalating into runaway global warming




Runaway Global Warming


If you like, you can order prints of above image at Shutterfly (8 x 10 size works best).

How to part ways with a climate denier that has incredible stamina...



Paul Beckwith, with other scientists in Ottawa
protesting against the "Death of Evidence"
By Paul Beckwith,

On a Canadian chess blog (chesstalk.com) there is a thread called “The NEW One and Only Climate Change Whatever” that has been ongoing for over two years. Basically, I educate the chess community on climate change and many chess players that are rabid deniers gang up and hurl invective and deny fervently. A waste of time for me? Perhaps? Likely not, since it has hardened my resolve and energized me in my climate change study/research/lobbying/etc. etc. In fact, now I generally have great fun at hurling invective back until it starts to get out of hand. Then it is no longer fun or useful so I part-ways with the person, as happened tonight…


Mr/Mrs. XXXXX,

It used to bother me when people such as yourself that know absolutely squat about climate change (a subject in which I am an expert and forever striving to increase that expertise) make claims that are completely without scientific merit, in fact that are downright wrong, quite often intentionally wrong. Why? In most subjects this would not matter. Not so with climate change. Because our climate is collapsing around us and there are still many many people that fail to see this. So humanity will not act, and it will get worse and worse until there will not be a single person on the planet that does not experience gut-wrenching change. People are dying now, and will be dying in ever greater numbers from the near-term changes that are underway. Massive crop failure in the U.S. this year will not starve people in North America but will stress the economy and pocketbooks of many residents. It will starve people already in poverty who pay 25% or 50% of their incomes on food now. North Americans will not panic over one year of crop failure. However if it happens the following year, and the one after that, and after that then the system will snap.

Climate denialism and such nonsense no longer bothers me because I have learned how to deal with such people and views. As is absolutely required for anyone in the field of climatology. How? I initially take the time to explain some science and educate but when it is clear that I am dealing with an immovable object like yourself or yyyyy I just have some fun with it and hurl a few insults, etc. However this gets old and distracting and unproductive very quickly and wastes a lot of time. As it has now, in your case.

It no longer bothers me because our planet is now committed to this gut-wrenching change. The sea ice will be gone very soon and the roller coaster ride will be unstoppable. If I was Obama or Putin or any other world leader I would declare "War on Warming", cool the Arctic with geoengineering to keep the sea ice intact and the methane in the ground and undergo a crash program to slash emissions. But I am not. So I do what I can to educate people/inform them/get the word out. I join organizations like AMEG (Arctic Methane Emergency Group). I meet with politicians at all levels of government and talk about the urgency of climate change and necessity of rapidly cooling the Arctic. I have a clear conscience because I have tried. I know that many people around the world will die, I know that unbelievable changes are starting to occur and will explode in frequency, amplitude, spatial extent and impact over this decade, and I know that the general public will be in shock when their familiar climate system becomes a complete stranger to them...Personally, as I have acquired more and more knowledge over the course of my Ph.D. studies in abrupt climate change, I have passed through the shock stage, and the subsequent unaccepting stage of grief a long time ago, I am in the acceptance stage now.

Apologies, it was a blast to hurl invective back and forth, but I am not playing that game anymore. I will not be reading ANY of your posts on this thread, for a while anyway. I need a XXXXX break.

P.S. I did not take the time to write this post just for your sake alone. I am posting it, with your name removed, in social media under the heading "How to part ways with a climate denier that has incredible stamina . . .". Thanks for the learning experience.

How extreme will it get?

The January-June period was the warmest first half of any year on record for the contiguous United States, reports NOAA in its June 2012 overview. The national temperature of 52.9°F was 4.5°F (2.5°C) above average. 

The United States Department of Agriculture has designated 1,016 primary counties in 26 states as natural disaster areas, making it the largest natural disaster in America ever.  

The U.S. Drought Monitor has declared 80% of the Contiguous U.S. to be abnormally dry or worse, with 61% experiencing drought conditions ranging from moderate to exceptional—the largest percentage in the 12-year history of the service.  

In the 18 primary corn-growing states, 30% of the crop is in poor or very poor condition. In addition, fully half of the nation’s pastures and ranges are in poor or very poor condition. The year-to-date acreage burned by wildfires has increased to 3.1 million. 

NOAA reports record temperatures in many places; in Mc Cook, Neb., it was 115°F (46°C) on June 26, while in Norton Dam, Kan., it was 118°F (48°C) on June 28. Meanwhile, it was 126°F (52°C) in Death Valley National Park on July 10, 2012.

Lake Michigan surface water temperatures recently reached temperatures of up to 83.9°F (29°C), as shown on the image right. Lake Michigan has a surface area of 22,400 square miles (58,000 square kilometers). The lake's average depth is 279 ft (85 m), while its greatest depth is 923 ft (281 m). The image below compares 2012 surface water temperature with the average for 1992-2011.


Earlier this year, in March 2012, another heatwave hit much the same area. A NOAA analysis of the heatwave notes the abrupt onset of the warmth at Minneapolis, Duluth, and International Falls on 10 March. On subsequent days, anomalies of well over 20°C (36°F) were recorded as shown on the image on the right.
Temperature anomalies of 27+°F (15+°C) were recorded in a large area from March 12th to March 23rd, 2012, as shown below. 

 
Global warming is responsible for much of the frequency and intensity of extreme weather events and this is linked to developments in the Arctic, where accelerated warming is changing the jet stream, concludes an analysis by Rutgers University professor Jennifer Francis.

Apart from the obvious impact that droughts and heatwaves have on food and fresh water supply, they also come with wildfires that cause additional emissions, constituting a further positive feedback that further contributes to global warming, while the additional soot makes things even worse in the Arctic.

All this combines to create a situation in the Arctic where extreme local warming events can trigger methane releases, causing further local warming and further releases of methane, in a vicious cycle that threatens to escalate into runaway global warming that feeds on itself.  


The above image pictures the three kinds of warming (red lines) and their main causes:
  1. Emissions by people cause global warming, with temperatures rising around the globe, including the Arctic.
  2. Soot, dust and volatile organic compounds settle down on snow and ice, causing albedo change. More heat is absorbed, rather than reflected as was previously the case. This causes accelerated warming in the Arctic.
  3. Accelerated warming in the Arctic threatens to weaken methane stores in the Arctic with the danger that releases will cause runaway global warming.

In addition, there are at least three feedback effects (gold lines) that make things even worse:
  • Fires feedback: Accelerated warming in the Arctic is changing the Jet Stream, contributing to increased frequency and intensity of droughts and heatwaves.
  • Albedo feedback: Accelerated warming in the Arctic also speeds up the decline of ice and snow cover, further accelerating albedo change.
  • Methane feedback: Methane releases in the Arctic further add to the acceleration of warming in the Arctic, further contributing to weaken Arctic methane stores, in a vicious cycle that threatens to escalate into runaway global warming.


Rapid warming periods in the past constitute an ominous warning. In a paper published about a year ago, Ruhl et al. conclude that the end-Triassic mass extinction, about 200 million years ago, started with global warming due to carbon dioxide from volcanoes. This also caused warming of oceans and melting of hydrates at the bottom of the sea, containing methane created by millions of years of decomposing sea life. The hydrates released some 12,000 gigatons of methane, causing global warming to accelerate and resulting in sudden extinction of about half the species on Earth at the time.

The above image pictures how a similar thing could happen in our times, with global warming leading to accelerated warming in the Arctic, triggering hydrate destabilization and abrupt release of, say, 1 Gt of methane, which would further accelerate Arctic warming and lead to subsequent releases of methane from hydrates.

For more details on above two graphs, see the page How much time is there left to act?

Could extreme weather, like the U.S. is now experiencing, also occur in the Arctic?

Well, it actually did, not too long ago. Above image on the right, from the Cryosphere Today, shows air temperature anomalies in the Arctic of up to 6°C (10.8°F) for the month September 2007.

By how much will the sea warm up during such extreme local warming events?

The image on the right, produced with NOAA data, shows mean coastal sea surface temperatures of over 10°C (50°F) in some areas in the Arctic on August 22, 2007.

How extreme was this?

The image below, from NOAA, shows that sea surface temperature anomalies of over 5.5 were recorded for August 2007 in some areas in the Arctic.



Could such warming reach the bottom of the sea?

Again, this did happen in 2007, when strong polynya activity caused more summertime open water in the Laptev Sea, in turn causing more vertical mixing of the water column during storms in late 2007, according to one study, and bottom water temperatures on the mid-shelf increased by more than 3°C (5.4°F) compared to the long-term mean.

Another study finds that drastic sea ice shrinkage causes increase in storm activities and deepening of the wind-wave-mixing layer down to depth ~50 m (164 ft) that enhance methane release from the water column to the atmosphere. Indeed, the danger is that heat will warm up sediments under the sea, containing methane in hydrates and as free gas, causing large amounts of this methane to escape rather abruptly into the atmosphere.

Would this heat be able to penetrate sediments?
The image on the right, from a study by Hovland et al., shows that hydrates can exist at the end of conduits in the sediment, formed when methane did escape from such hydrates in the past. Heat can travel down such conduits relatively fast, warming up the hydrates and destabilizing them in the process, which can result in huge abrupt releases of methane.

Since waters can be very shallow in the Arctic, much of the methane can rise up through these waters without getting oxidized.

Shakova and Semiletov warn, in a 2010 presentation, that some 75% of the East Siberian Arctic Shelf (ESAS) is shallower than 50 m, as shown on the image below. Furthermore, the ESAS region alone has an accumulated methane potential of some 1700 Gt in the form of free gas and hydrates under the sediment, in addition to organic carbon in its permafrost.


As the methane causes further warming in the atmosphere, this will contribute to the danger of even further methane escaping, further accelerating local warming, in a vicious cycle that can lead to catastrophic conditions well beyond the Arctic.


Above image shows the carbon in the melting permafrost, estimated by Schuur et al. at 1700 Gt. Much of this carbon could also be released as methane under warmer and wetter conditions.

Under warmer and dry conditions, things wouldn't be much better. The 2010 heatwave in Russia provides a gloomy preview of what could happen as temperatures rise at high latitudes. Firestorms in the peat-lands, tundras and forests in Siberia could release huge amounts of emissions, including soot, much of which could settle on the ice in the Himalaya Tibetan plateau, melting the glaciers there and causing short-term flooding, followed by rapid decline of the flow of ten of Asia's largest river systems that originate there, with more than a billion people's livelihoods depending on the continued flow of this water.

Albedo change in the Arctic

Albedo change: Snow cover on the ice reflects between 80% and 90% of sunlight, while the dark ocean without ice cover reflects only 7% of the light, explains Stephen Hudson of the Norwegian Polar Institute. As the sea ice cover decreases, less solar radiation is reflected away from the surface of the Earth in a feedback effect that causes more heat to be absorbed and consequently melting to occur faster still.

Arctic sea ice volumes keep falling. The image below is from the Polar Science Center's Pan-Arctic Ice Ocean Modeling and Assimilation System (PIOMAS, Zhang and Rothrock, 2003).



As shown on the image below, by Wipneus and earlier published at the Arctic Sea Ice Blog, sea ice volume is on track to reach a minimum of 3000 cubic kilometers this summer.



The recent sea ice volume is in line with the exponential trend calculated by Wipneus that is pointing at zero ice volume around 2015 (image below).

 

Will sea ice collapse in 2014?
As described earlier, I believe that a trendline pointing at 2014 fits the data best (image left).

While some ice may persist close to Greenland for a few years more, this applies only to a relatively small area; this does not revert the curve downwards as it applies to the remainder of the Arctic Ocean. Moreover, there is robust evidence that global warming will increase the intensity of extreme weather events, so more heavy winds and more intense storms can be expected to increasingly break up the remaining sea ice in future, driving the smaller parts out of the Arctic Ocean more easily.

Apart from the albedo change that comes with this loss of sea ice, there's also the loss of snow cover on land. Snow cover over Northern Hemisphere lands retreated rapidly in May and June, leaving the Arctic Ocean coastline nearly snow free, says the National Snow & Ice Data Center (NSIDC), adding that this rapid and early retreat of snow cover exposes large, darker underlying surfaces to the sun early in the season, fostering higher air temperatures and warmer soils. 

The NSIDC illustrates this with the edited Rutgers University Global Snow Lab image below.  

Another image from Rutgers University Global Snow Lab, shown below, illustrates the anomalies in snow cover on Northern Hemisphere lands over the years. 


The joint impact of loss of sea ice and loss of snow cover on land will make a huge difference; much more sunlight is now absorbed, instead of reflected back as was previously the case.

Below are calculations by Professor Peter Wadhams, University of Cambridge. Earth has a total surface area of 510,072,000 square km (196,888,000 square miles), as the table below shows, by Michael Pidwirny, or about 510 million square km. 

Surface
Percent of Earth’s Total Surface Area
Area Square Kilometers
Area Square Miles
Earth’s Surface Area Covered by Land
29.2%
148,940,000
57,491,000
Earth’s Surface Area Covered by Water
70.8%
361,132,000
139,397,000
Pacific Ocean
30.5%
155,557,000
60,045,000
Atlantic Ocean
20.8%
76,762,000
29,630,000
Indian Ocean
14.4%
68,556,000
26,463,000
Southern Ocean
4.0%
20,327,000
7,846,000
Arctic Ocean
2.8%
14,056,000
5,426,000

Professor Wadhams estimates the present summer area of sea ice at 4 million square km, with a summer albedo of about 0.60 (surface covered with melt pools). When the sea ice disappears, this is replaced by open water with an albedo of about 0.10. This will reduce the albedo of a fraction 4/510 of the earth's surface by an amount 0.50. The average albedo of Earth at present is about 0.29. So, the disappearance of summer ice will reduce the global average albedo by 0.0039, which is about 1.35% relative to its present value.

As NASA describes, a drop of as little as 0.01 in Earth’s albedo would have a major warming influence on climate—roughly equal to the effect of doubling the amount of carbon dioxide in the atmosphere, which would cause Earth to retain an additional 3.4 watts of energy for every square meter of surface area.

Based on these figures, Professor Wadhams concludes that a drop in albedo of 0.0039 is equivalent to a 1.3 W/sq m increase in radiative forcing globally. 

The albedo change resulting from the snowline retreat on land is similarly large, so the combined impact could be well over 2 W/sq m. By comparison, this would more than double the net 1.6 W/sq m radiative forcing resulting from the emissions caused by all people of the world (see IPCC image below). Professor Wadhams adds: "Remember that this is going to happen in only about 3 years if the predictions of alarmist glaciologists like myself are correct".




References:
  1. PIOMAS, Washington University, Polar Science Center
  2. National Snow & Ice Data Center (NSIDC), July 5, 2012, Rapid sea ice retreat in June
  3. Rutgers University, Global Snow Lab
  4. Wikipedia, Earth
  5. NASA Earth Observatory, May 10, 2005, Earth's Albedo in Decline
  6. IPCC, Working Group I, Fourth Assessment Report, Summary for Policymakers
  7. Pidwirny, M. (2006). "Introduction to the Oceans". Fundamentals of Physical Geography, 2nd Edition.


Supplementary evidence to the EAC from John Nissen on behalf of AMEG

Supplementary evidence to the Environmental Audit Committee (EAC) from John Nissen on behalf of AMEG


The Growing Crisis in the Arctic

I am writing on behalf of AMEG, the Arctic Methane Emergency Group, in regard to conflicting evidence you have received during your inquiry “Protecting the Arctic”.

The inquiry is both a highly commendable reaction to, and a highly authoritative confirmation of, the fact that for the last few decades the Arctic environment is being changed at a rate unprecedented in human history. The world’s scientific establishment is unequivocal that these changes to the Arctic environment, particularly the retreating sea ice, were initiated as a consequence of global greenhouse gas emissions arising from human activities. But, as the sea ice retreats, the open water absorbs more sunshine, warming the water and melting more ice in a vicious cycle known as “positive feedback”. Thus global warming from greenhouse gases is amplified in a process known as “Arctic amplification”. There is good evidence to suggest that the Arctic is currently warming several times faster than the average over the whole planet, see Appendix.

In the course of the EAC’s ongoing inquiry it has focused on the issue of the retreating sea ice because it is this feature of the changing environment that has attracted the interests of the oil, shipping and fishing industries and is also the critical disruptive element in the Arctic environment. AMEG representatives, Professor Peter Wadhams and I, have pointed out extreme dangers associated with the retreat, warranting the designation of a planetary emergency – a crisis of unprecedented magnitude to threaten all mankind – a matter of national and international security.

The EAC invited many organisations to give their evidence on how the near future of the Arctic would play out. AMEG provided compelling evidence that not only was the rate of reduction of sea ice extent and depth much higher than is currently being predicted by models (such as used by the Hadley Centre) but that the consequential release of entrapped methane, an extremely powerful greenhouse gas, was also accelerating, risking catastrophic exacerbation of global warming in coming decades. However the chain reaction of Arctic warming and further methane release could be stifled if the Arctic were cooled quickly by measures including geoengineering.

In her evidence, Professor Julia Slingo of the Meteorological Office flatly contradicted the AMEG evidence, particularly the evidence of rapid sea ice retreat given by Professor Wadhams. Especially, Professor Slingo said she did not find the PIOMAS volume data credible, and she was expecting to see “better data” fitting the Hadley Centre models soon. We wish to point out that it is quite extraordinary that Professor Wadhams, an acknowledged expert on sea ice who has spent many years studying sea ice thickness, should have his evidence thus repudiated. However, the committee might bear in mind that the reputation of the Hadley Centre, part of the Met Office, is largely based on their modelling expertise; and their models are still predicting the sea ice demise many decades in the future. Thus Professor Slingo was in effect attempting to defend the Hadley Centre reputation.

What the committee may not know is that there was a whole assemblage of models used by the IPCC in 2007 for their AR4 report. Most of these models predicted the sea ice survival beyond the end of the century. None of the models showed the positive feedback from sea ice retreat that we refer to above. An excuse could be made that this feedback is difficult to quantify and to model, so was omitted on procedural grounds. However the resultant predictions bore no relation to reality. Even in the 1990s, the observations of sea ice extent were deviating from the most pessimistic of the models. Then in September 2007 the sea ice extent plummeted to a record low, about 40% below the level at start of satellite measurement. Nevertheless, IPCC, supported by models from the Hadley Centre, continued on the assumption that global warming predictions could be made for the whole century without taking into account possible sea ice disappearance and massive methane release. Even with the “wake-up call” of sea ice retreat in 2007, the Hadley Centre would not admit that their models were fundamentally flawed and they continue to ignore the evidence of sea ice volume, which is showing an exponential downward trend.

Note that in their written evidence to EAC, the Met Office says: “In September 2007, sea ice extent reached an all-time low, raising the question of whether the sea ice is likely to melt more quickly than has been projected. There is, however, no evidence to support claims that this represents an exponential acceleration in the decline.” They also assure the EAC to trust models giving 2040 as the earliest date for the Arctic to become ice-free during summer. However the PIOMAS volume data clearly shows acceleration in decline, a close fit to the exponential trend curve, and a likely date for an ice-free September around 2015. (Note that as the volume approaches zero, so must the extent, implying a collapse in extent before 2015.)

And they are even now ignoring the evidence of the growing methane emissions from the East Siberian Arctic Shelf (ESAS) where “vast plumes of methane bubbles, many over a kilometre across” have been reported arising from the seabed by the Russian scientists, Shakhova and Semiletov. In her oral evidence, Professor Slingo shows apparent ignorance of the Arctic methane situation, which may have misled the committee. She ignores the vast area of ESAS (over 2 million square kilometres) and claims that only a small fraction of methane from hydrates reaches the surface. That may be true for methane from the shelf margins at several hundred meters depth; but the shelf itself is mostly less than 40 metres deep, so the methane has little time to be oxidised and most of it reaches the surface. Furthermore she suggests only a small rise in temperature at the seabed, but in ESAS temperature rises of up to 6 degrees have been recorded. Far from the stratification of the water, which Professor Slingo suggests, there has been a growing turbulence as the sea ice cover is removed, resulting in this seabed warming.

This denial of the true situation might mislead the committee into thinking that there is no significant amount of methane entering the atmosphere, let alone a growth. But methane detection stations show recent spikes in methane levels which can only be easily explained by seabed origin. Furthermore satellite measurements have shown a growing anomaly of excess methane over the Arctic Ocean, again suggesting a seabed origin. All this evidence was available to the Met Office but they chose to ignore it.

Thus the Met Office (and Hadley Centre within it) is party to a complete denial of what is actually happening in the Arctic with accelerated warming, precipitous decline in sea ice and ominous rise in methane emissions.

Margaret Thatcher, in her opening of the Hadley Centre, 25th May 1990 said: “Today, with the publication of the Report of the Inter-Governmental Panel on Climate Change, we have an authoritative early warning system… [This] Report confirms that greenhouse gases are increasing substantially as a result of Man's activities; that this will warm the Earth's surface, with serious consequences for us all, and that these consequences are capable of prediction. We want to predict them more accurately and that is why we are opening this Centre today.”

We wish to hold the Met Office and its chief scientist to account for putting out scientifically unfounded and incorrect information to delude the government and public that no possible Arctic planetary emergency exists.

The importance of the sea ice for the planet is not in dispute; it provides a reflective mirror to reflect solar energy back into space, thus cooling the planet. James Lovelock has made his own estimate that loss of sea ice would be equivalent to the warming of all the CO2 that has accumulated in the atmosphere as a result of mankind’s emissions over the past century. In any event, recent research has confirmed that retreat of sea ice to date is a major cause of Arctic amplification. Therefore, if the Arctic Ocean were to become free of sea ice for several months of the year, as possible by 2020 according to the PIOMAS data, there would necessarily be a spurt in Arctic warming. This would be serious in terms of mounting disruption of the Northern Hemisphere climate system (see below). But it would also lead to an inevitable increase in the rate of methane release, risking the onset of an unstoppable methane feedback, whereby the methane causes further Arctic warming and in turn further methane emission in a positive feedback loop. A warning of the danger to all humanity from such methane feedback has been made by top scientists, such as US Energy Secretary and Nobel Laureate, Steven Chu, and NASA climate scientist, Jim Hansen. The likelihood of runaway methane feedback as the sea ice disappears cannot be easily estimated from current evidence, but, even if small, it has to be considered seriously because of the extraordinary devastation were it to get going.

The current disruption of the Northern Hemisphere climate system, with an ever increasing incidence of severe heat waves on the one hand and severe flooding on the other, is likely due to the warming of the Arctic in relation to the tropics, thus reducing the temperature differential that has a stabilising effect on the jet stream and weather system patterns. There is evidence that the jet stream is now getting “stuck” such as to cause the unusual and unpredictable weather which is of considerable concern to farmers. Allowing the Arctic to continue warming is thus a very real danger to food security – which is a strong argument for cooling the Arctic, regardless of other considerations.

The evidence given by Professor Tim Lenton suggesting that the global warming produced by Arctic methane would only amount to 0.1 degree or less, by the end of the century, can be dismissed if you accept that the sea ice cover will be removed as quickly as the PIOMAS data suggests. Even climatologist Professor David Archer of the University of Chicago, who recently claimed that AMEG concerns on methane were “much ado about nothing”, admits that a release of only one fifth of the 50 Gt of methane, which researchers Shakhova and Semiletov say could be released “at any time”, would take global warming over the 2°C limit established by IPCC as “dangerous anthropogenic interference” with the climate system.

But Professors Slingo and Lenton are not alone in their misleading analysis of the situation. We are appalled that there appears to be no recognition within any part of the scientific establishment, whether Government Departments, Research Councils, Institutes or Universities, of the imminence of extremely dangerous developments that would flow from allowing the present incipient runaway situation to develop in the Arctic. This amounts to a collective denial of danger – a collective burial of heads in the sand.

Similarly there appears to be little or no willingness to consider possible actions that could be taken immediately and within the next few years, as necessary in view of the rapidity with which the position in the Arctic is deteriorating.

So, what is to be done? Clearly a major effort has to be made immediately to cool the Arctic otherwise the whole of humanity is put at risk. Even if you, as a committee, concluded that the danger is overstated by AMEG, we would argue that the effort is worthwhile as an insurance policy. Suppose that this effort is made and proves to have been unnecessary, what has been lost? The technology for cooling the Arctic will have been developed for use at a later date or for a different circumstance.

Contrast the anti-precautionary approach espoused by Professor Slingo, Professor Lenton and the people from the modelling community who submitted evidence against geoengineering just before our hearing. They would prefer to see nothing done immediately to cool the Arctic on the grounds that there is uncertainty in the situation, and it is not yet proven whether (i) the Arctic sea ice is disappearing as rapidly as AMEG warns, and (ii) the methane threat is as great as AMEG warns. This is extraordinary for people who one would expect to espouse a precautionary principle in government, as surely they would in any other situation where there is a risk to millions of lives. Unless these people can prove that there is no risk arising from collapse of sea ice and escalation of methane emissions, which clearly they cannot, the committee has a responsibility to advise government that measures to cool the Arctic need to be taken on a precautionary principle.

Governments are expected to protect their own citizens on this principle, even if the danger is not proven. We would like to quote Article 3, paragraph 3, from the UNFCCC Convention, article 3, paragraph 3:
"3. The Parties should take precautionary measures to anticipate, prevent or minimize the causes of climate change and mitigate its adverse effects. Where there are threats of serious or irreversible damage, lack of full scientific certainty should not be used as a reason for postponing such measures, taking into account that policies and measures to deal with climate change should be cost-effective so as to ensure global benefits at the lowest possible cost. To achieve this, such policies and measures should take into account different socio-economic contexts, be comprehensive, cover all relevant sources, sinks and reservoirs of greenhouse gases and adaptation, and comprise all economic sectors. Efforts to address climate change may be carried out cooperatively by interested Parties." (Our underlining)
Note that AMEG considers that the cooling of the Arctic should be seen as one of many efforts to bring the atmosphere and oceans back towards their pre-industrial state, especially since such efforts reduce both immediate and longer-term risks arising from Arctic warming, sea ice retreat and methane release. AMEG is fully supportive of these efforts.

Why do these intelligent people from the modelling community seem to view all geoengineering as intrinsically dangerous? That may be the view in the media and among many environmentalists, but these scientists should be capable of a more rational assessment of each technique on its merits, on the limited scale as required for cooling the Arctic.

The candidate techniques AMEG proposes are all based on natural phenomena that can be observed. They can be switched off if and when any dangerous side-effects become apparent. There is nothing intrinsically dangerous about geoengineering – mankind has been doing it for millennia by altering the environment, albeit inadvertently.

Let’s look on the positive side. Cooling the Arctic and saving the sea ice has the obvious benefit of saving an entire ecosystem. Furthermore common sense suggests that geoengineering will tend to make things better because it is reversing the trends resulting from regional warming. One of the main effects of Arctic warming has been to cause disruption of regional weather patterns in the Northern Hemisphere, with more weather extremes and less long-term predictability of the weather. This has can only have had an adverse effect for farmers who rely on annual cycles like the monsoons. Thus cooling the Arctic should improve this situation. Yet Professor Slingo, in her oral evidence, states that, like the climate forcing from CO2 emissions, geoengineering will have "huge ramifications" implying that it is likely have serious side effects. Of course the very modelling that can be used to anticipate such side effects can also be used to avoid them, by adjusting the parameters of the techniques to be used (see note below). Thus modelling has an important part to play in the successful deployment of geoengineering.
Note: Each geoengineering technique has adjustable parameters, to allow the technique to be tailored to a particular situation. In the case of stratospheric aerosols, the height, latitude and time-of-year for the release of aerosol (or aerosol precursor) can be adjusted for maximum positive effect and minimum negative effect, using models to estimate these effects in advance. In the case of techniques to brighten or remove tropospheric clouds, more localised effects can be obtained; and parameters can be adjusted for different locations of deployment giving a great deal of flexibility as well as control.
Now we have no option other than to employ our best technology and expertise to get out of the crisis situation we have got ourselves into.

We respectfully suggest that modellers should turn their attention to modelling the effects of different geoengineering techniques, showing how unwanted side-effects can be minimised and working out how best to use various techniques in combination. This would be a useful contribution to the enormous challenge now faced to cool the Arctic. They must stop lulling the climate change community, and hence governments, into a false sense of security with their obsolete models which don't take account of reality.

In the light of the above we are writing to plead that you immediately alert the Prime Minister and his cabinet to the above conclusions: how the deteriorating situation in the Arctic has extremely threatening implications for all mankind if measures are not immediately adopted to cool the Arctic in order to reverse the current trends of retreating sea ice, escalating methane release and disruption of Northern Hemisphere climate. We realise that, under normal circumstance, we should wait for your report; but this is no ordinary situation. The sooner measures to cool the Arctic can be taken, the better. This is a daunting challenge, perhaps the biggest ever faced by humanity, but it can be met if there is a determined and concerted effort over the coming weeks and months by top scientists, engineers and yes modellers, tasked specifically to deal with the problems in the Arctic.

Only a directive from the highest levels of government is capable of initiating the programme of action required. The UN and all world governments must be alerted to the perilous situation now exposed.

Traditionally governments have tended to react to events rather than forestall them. But in this case we risk sliding irreversibly into ultimate climate catastrophe. We are close to a point of no return. Not to act as quickly as possible to halt the slide would be an abject failure of the most primary responsibilities of government. And, because such a catastrophe would threaten the life of every person on the planet, not to act would also be suicidal.

We implore the committee to give its full and serious attention to the challenge that this inquiry has thrown up, a challenge that whilst embracing the Arctic environment in its essence goes far beyond that in its enormously far-reaching implications for the rest of the planet. The committee has a unique opportunity to change the course of history.

John Nissen, Chair of AMEG
29th June, 2012

Appendix – “Life in 2032”

One of the questions raised at our hearing on 21st February concerned what life would be like in 20 years’ time, i.e. by 2032. We have considered this in respect of different scenarios, depending on methane emissions. We estimate that the Arctic is warming at about 1 degree per decade, around five times faster than the rest of the planet, and this is mainly because of sea ice retreat and more open water to absorb solar energy. In 10 years, i.e. by 2022, PIOMAS volume data suggests that the Arctic Ocean will be essentially free of ice for 6 months of the year, and the Arctic will then be warming at about 4 degrees per decade. The Arctic temperature will be 5 or 6 degrees hotter than today. The disruptive effect on Northern Hemisphere weather systems will be traumatic, leading to severe food shortages for all and starvation for millions if not billions of people.

If in addition there were an early release of the 50 Gt of methane that Shakhova and Semiletov say could be released from the East Siberian Arctic Shelf “at any time” (due to seabed warming and the instability of methane-holding structures), then we could expect over 3 degrees of global warming by 2032, liable to start runaway methane feedback. Not only would we be facing world-wide starvation but probably global conflict as well.

On the other hand if geoengineering and other measures were successful in cooling the Arctic sufficiently to bring back the sea ice to its pre-2007 volume and extent, then growth of methane emissions into the atmosphere would almost certainly be curtailed and the dreaded methane feedback avoided. The weather systems in the Northern Hemisphere weather systems would be stabilised, allowing the world farming community to plan for providing a growing world population with food. The spread of insect-born disease would be slowed. Conflicts arising from degraded environments would be reduced. And we would have more time to solve the underlying problems to ultimately remove the requirement to use geoengineering technology.

Tolerability of life in 2032 will thus depend on whether governments act quickly in response to today’s rapidly deteriorating situation by taking measures to cool the Arctic.




Editor's note: Above is a copy of the 31st submission to the Protecting the Arctic inquiry of the U.K. Environmental Audit Committee.  Submissions to date are listed below, with links to videos and submissions highlighted in yellow that are particularly relevant to points brought up by the Arctic Methane Emergency Group (AMEG)