Study finds evidence for a climate-change regime shift in the 1980s

Climate study finds evidence of global shift in the 1980s

Anthropogenic warming, volcanic eruption sparked biggest change in 1,000 years

from ScienceDaily, November 24, 2015

Summary:  Planet Earth experienced a global climate shift in the late 1980s on an unprecedented scale, fueled by anthropogenic warming and a volcanic eruption, according to new research. Scientists say that a major step change, or 'regime shift,' in Earth's biophysical systems, from the upper atmosphere to the depths of the ocean and from the Arctic to Antarctica, was centered around 1987, and was sparked by the El Chichón volcanic eruption in Mexico five years earlier.

Volcano (stock image). Human-made warming and volcanic eruption in the 1980s fuelled the biggest change in 1,000 years, say scientists.

Credit: © beppulos / Fotolia

Planet Earth experienced a global climate shift in the late 1980s on an unprecedented scale, fuelled by anthropogenic warming and a volcanic eruption, according to new research published this week.

Scientists say that a major step change, or 'regime shift,' in Earth's biophysical systems, from the upper atmosphere to the depths of the ocean and from the Arctic to Antarctica, was centred around 1987, and was sparked by the El Chichón volcanic eruption in Mexico five years earlier.

Their study, published in Global Change Biology, documents a range of associated events caused by the shift, from a 60% increase in winter river flow into the Baltic Sea to a 400% increase in the average duration of wildfires in the Western United States. It also suggests that climate change is not a gradual process, but one subject to sudden increases, with the 1980s' shift representing the largest in an estimated 1,000 years.

Philip C. Reid, Professor of Oceanography at Plymouth University's Marine Institute, and Senior Research Fellow at the Sir Alister Hardy Foundation for Ocean Science (SAHFOS), is the lead author of the report, Global impacts of the 1980s' regime shift.

"We demonstrate, based on 72 long time-series, that a major change took place in the world, centred on 1987, that involved a step change and move to a new regime in a wide range of Earth systems," said Professor Reid.

"Our work contradicts the perceived view that major volcanic eruptions just lead to a cooling of the world. In the case of the regime shift it looks as if global warming has reached a tipping point where the cooling that follows such eruptions rebounds with a rapid rise in temperature in a very short time. The speed of this change has had a pronounced effect on many biological, physical and chemical systems throughout the world, but is especially evident in the Northern temperate zone and Arctic."

Over the course of three years, the scientists -- drawing upon a range of climate models, using data from nearly 6,500 meteorological stations, and consulting innumerable scientists and their studies round the world -- found evidence of the shift across a wide range of biophysical indicators, such as the temperature and salinity of the oceans, the pH level of rivers, the timing of land events, including the behaviour of plants and birds, the amount of ice and snow in the cryosphere (the frozen world), and wind speed changes.

They detected a marked decline in the growth rate of CO2 in the atmosphere after the regime shift, coinciding with a sudden growth in land and ocean carbon sinks -- such as new vegetation spreading into polar areas previously under ice and snow. And they found that the annual timing of the regime shift appeared to have moved regionally around the world from west to east, starting with South America in 1984, North America (1985), North Atlantic (1986), Europe (1987), and Asia (1988).

These dates coincide with significant shifts to an earlier flowering date for cherry trees around Earth in Washington, DC, Switzerland, and Japan and coincided with the first evidence of the extinction of amphibians linked to global warming, such as the harlequin frog and golden toad in Central and South America.

Second author Renata E. Hari, Eawag, Dübendorf, Switzerland, said: "The 1980s regime shift may be the beginning of the acceleration of the warming shown by the IPCC. It is an example of the unforeseen compounding effects that may occur if unavoidable natural events like major volcanic eruptions interact with anthropogenic warming."

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Story Source:

The above post is reprinted from materials provided by University of Plymouth. The original item was written by Andrew Merrington. Note: Materials may be edited for content and length.

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Journal Reference:

1. Philip C. Reid, Renata E. Hari, Grégory Beaugrand, David M. Livingstone, Christoph Marty, Dietmar Straile, Jonathan Barichivich, Eric Goberville, Rita Adrian, Yasuyuki Aono, Ross Brown, James Foster, Pavel Groisman, Pierre Hélaouët, Huang-Hsiung Hsu, Richard Kirby, Jeff Knight, Alexandra Kraberg, Jianping Li, Tzu-Ting Lo, Ranga B. Myneni, Ryan P. North, J. Alan Pounds, Tim Sparks, René Stübi, Yongjun Tian, Karen H. Wiltshire, Dong Xiao, Zaichun Zhu. Global impacts of the 1980s regime shift. Global Change Biology, 2015; DOI: 10.1111/gcb.13106

http://www.sciencedaily.com/releases/2015/11/151124081517.htm

"COP-21 is ignoring huge danger": Press Release by the Arctic Methane Emergency Group

PRESS RELEASE by the Arctic Methane Emergency Group, AMEG

November 2015

Transforming to a safer world

COP-21 is ignoring huge danger

COP-21 will not save humanity from catastrophic climate change and metres of sea level rise, if they continue to rely on IPCC assessments.

The world expects IPCC to ensure the safety of future generations, by producing realistic assessments of the dangers from climate change and by giving good advice to governments on how to deal with these dangers and prevent catastrophe.  But IPCC has absolutely failed in their obligation, under UNFCCC Article 2, to give adequate warning of the planetary emergency resulting from past and continued anthropogenic interference on two counts: excess CO2 in the atmosphere; and an Arctic soon to become seasonally free of sea ice.

Removing excess CO2

IPCC have consistently understated the dangers from global warming and ocean acidification arising from excess CO2 in the atmosphere.  A safe, sustainable target level for CO2 concentration has not been established, as required by UNFCCC Article 2; and other constraints, such as a limit on ocean acidification, rate of sea level rise and Arctic warming, have not been established either.

It is cogently argued by leading climate expert, Professor James Hansen, that the limit for CO2 should be set at 350 ppm or below.  It will require a massive effort in carbon dioxide removal to achieve this level within a few decades.  A similar limit on CO2 is required to avoid excessive ocean acidification, which, in combination with global warming, is already causing coral reefs to die.  By ignoring the dangers of ocean acidification, the whole marine food chain has been put at risk. 

IPCC has set a carbon budget of around 1000 gigatons of carbon for total allowed CO2 emissions, of which they say about half has been spent, leaving a remaining budget of less than 500 gigatons to achieve the 2 degrees target.  But other greenhouse gases together add 75% to the climate forcing from CO2.  This means that the CO2eq level is around 490 ppm.  If allowance is also made for climate forcing from black carbon and albedo loss, then it appears that the budget has already been used up.  The IPCC has failed to do the necessary calculations to establish the real position on carbon budget and what has to be achieved to have a good chance of preventing dangerous interference with the climate system, as UNFCCC require IPCC to establish.

Emissions reduction by itself will not remove CO2 from the atmosphere. While focussing on emissions reduction IPCC have been ignoring the urgency and immensity of the task to remove excess CO2 from the atmosphere, which will require a revolution in agriculture, forestry and marine management to put carbon in the ground and improve food production at the same time.  Any delay in getting started on these revolutions will increase the risk of disaster in decades to come.

It is proposed that the funding of the CO2 removal initiative should come from a carbon levy on fossil fuel producers.  This would provide justice, in that the people who benefit from taking carbon out of the ground would be paying for the carbon to be returned to the ground.  The levy would be ramped up until the CO2 level starts to fall towards the target 350 ppm.

Preventing the Arctic Ocean becoming seasonally free of sea ice

But, more serious still than the problem of excess CO2, IPCC has failed to acknowledge the dangers arising from rapid Arctic warming and the rapid decline of Arctic sea ice.  The Arctic Ocean could become seasonally free of sea ice within a few years.  This rapid decline is the real “elephant in the room”.  The sea ice has provided a reflective surface to keep the Arctic cool, maintain permafrost and stabilise our planet’s temperature, sea level and climate.  Now the sea ice is declining to a much lower level, and IPCC is ignoring the implications.

Because of this glaring omission from IPCC reports, it may soon be too late to prevent the Arctic getting locked into a state of low sea ice and rapid warming, from which there will be no escape.  Continued rapid warming will inevitably lead to several absolute catastrophes for the world:

• accelerated meltdown of the Greenland Ice Sheet to give metres of sea level rise within decades;
• accelerated meltdown of permafrost, releasing vast quantities of the potent greenhouse gas, methane, which both accelerates the Arctic warming in a positive feedback loop and counters attempts to limit global warming to a safe level;
• destabilisation of the planet’s climate system, giving ever worse weather extremes compounded by global warming and El Niño events.

Conclusion

In brief, humanity faces a planetary emergency from precipitous decline of Arctic sea ice as well as from an excess of CO2 in the atmosphere.  COP-21 must now prepare to take the necessary interventions. 

Our condemnation of IPCC assessment reports is not idle speculation or doom-mongering but based on the best available scientific evidence.  There now has to be a strenuous, focussed and determined effort to find solutions to these problems and make the necessary interventions.  Of particular urgency, the Arctic has to be cooled such as to prevent further decline of sea ice.   This is a significant engineering challenge.  Any delay risks the passing of a point of no return, whereby the challenge becomes impossible.

By facing up to the truth of the situation, means can surely be found to avoid catastrophe, using mankind’s collective intelligence, technology and vast resources. 

All nations must now work together to stave off the huge threats facing our civilisation. 

Submitted on behalf of the Arctic Methane Emergency Group, 5 November 2015

By John Nissen, chair AMEG (www.ameg.me)

Email: johnnissen2003@gmail.com

More at AMEG's website at:  http://ameg.me/

Join us on facebook:  https://www.facebook.com/ArcticMethaneEmergencyGroup/

SHOW THIS TO EVERYONE: NYT's INCREDIBLE ARTICLE ON THE DISINTEGRATION OF GREENLAND'S ICE SHEET

Dear Readers,

I don't know if the link will open for you if you are not a subscriber, but I suspect it will.

As shocking and dramatic as this report on Greenland's rapidly melting and disintegrating ice sheet is, everyone should see it and show it to all their friends and contacts.

I have never seen anything that shows what is going on in Greenland like this report.

At the very end, there is another video.  Near the end, you can see in the lower right hand corner where the surface has even collapsed due to a sub surface channel.  I had already heard of some much larger collapses due to the draining of subsurface lakes within the ice.

Link: http://www.nytimes.com/interactive/2015/10/27/world/greenland-is-melting-away.html?_r=0

Sea levels along the Northeast rose 4-5 inches in just 2 years

by James Gerken, Huffington Post, February 27, 2015

Sea levels across the Northeast coast of the United States rose nearly 3.9 inches between 2009 and 2010, according to a new study from researchers at the University of Arizona and the National Oceanic and Atmospheric Administration. The waters near Portland, Maine, saw an even greater rise -- 5 inches -- over the two-year period.

While scientists have been observing higher sea levels across the globe in recent decades, the study found a much more extreme rise than previous averages. Such an event is "unprecedented" in the history of the tide gauge record, according to the researchers, and represents a 1-in-850 year event.

"Unlike storm surge, this event caused persistent and widespread coastal flooding even without apparent weather processes," the study's authors wrote. "In terms of beach erosion, the impact of the 2009-2010 [sea level rise] event is almost as significant as some hurricane events."

The analysis relied on data from dozens of tide gauges along the eastern seaboard. The nearly 4-inch rise for the Northeast represents the average of 14 tide gauges located between New York and Canada. Tide gauges farther south in the Mid-Atlantic and Southeast indicated a sea level rise far less extreme in 2009 and closer to average in some areas. The jump occurred most quickly between April 2009 and March 2010.

The study found that the increase in the Northeast was caused by a 30% slowdown in a major ocean current system known as the Atlantic meridional overturning circulation (AMOC) and a fluctuation in atmospheric pressure at sea level. The Gulf Steam is one component of the AMOC, which moves warm water northward in the upper levels of the Atlantic.

A 2014 study of the AMOC over that period found the slowdown also contributed to severe winter conditions in northwestern Europe and the intensity of the 2010 Atlantic hurricane season, which was the third-most active on record.

The U.N.'s Intergovernmental Panel on Climate wrote in its latest report that AMOC currents are "very likely" to weaken in the 21st century. Models project that unusual rises in sea level, like that observed in the study, will be bigger and more frequent along the Northeastern seaboard this century, study coauthor Jianjun Yin told The Huffington Post.

And events like the one observed in the study, combined with ongoing global sea level rise, "will pose an even higher coastal flooding risk," Yin told Mashable.

A 2012 study determined that sea levels between North Carolina and Boston are rising at a rate three to four times faster than the global average. Yet this only represents a rise of 2-3.7 mm/yr year since 1980, far less than the 100 millimeters observed in the Northeast between 2009 and 2010.

This week's study, published in Nature Communications, follows a new report from the New York City Panel on Climate Change that warns of significant sea level rise and coastal flooding threats for the city in coming decades. Sea levels in New York City have already risen more than a foot since 1900, and the trend is very likely to accelerate: If greenhouse gas emissions from human activities are not curtailed, the panel projects seas to rise by an additional 11-21 inches by the middle of the century, by 18-39 inches by the 2080s, and by as much as 6 feet by the end of the century.

Why Greenland is likely to melt much more quickly

Scientists who have examined the role of the bedrock on which the Greenland ice sheet rests think it shows the huge island is more vulnerable than realised to global warming

by Tim Radford, Climate News Network, October 1, 2014

LONDON - Climate scientists have thought a little more deeply about the state of the Greenland ice sheet and their conclusions are ominous.

They think that the northern hemisphere’s largest assembly of ice and compacted snow is more vulnerable to climate change than anybody had previously thought.

Marion Bougamont of the Scott Polar Research Institute in Cambridge, UK, and colleagues report in Nature Communications that they factored in not just a mathematical model of the melting ice from Greenland, but also the role of the soft, yielding and absorbent mud and rock beneath.

The Greenland ice sheet is the planet’s second largest body of terrestrial ice. It covers 1.7 million square kilometres and if it were all to melt, the world’s sea levels would rise by more than seven metres.

Right now, about 200 gigatonnes of Greenland ice a year turn to water and run into the sea. This alone raises sea levels at the rate of 0.6 millimetres a year. In fact the increase in sea levels from all causes – glacier retreat worldwide, ice cap melting and ocean thermal expansion -  is now 3 mm a year.

Researchers have repeatedly found evidence of an acceleration of melting, in some cases by looking at what is happening within the ice or on the surface, or by taking a new look at satellite data.

Less stable

But the latest calculation goes even deeper: into the mud below the ice. According to the new model, and to evidence from surveys, melting will be complicated by the conditions deep under the ice.

The ice sheets are moving, naturally and at different speeds, causing the ice to shear or flow, and the assumption has always been that the ice is flowing over hard and impermeable rock. A closer look suggests a different process.

Lakes of summer meltwater tend to form on the ice sheet surface: if the ice below fractures, these lakes can drain in a matter of hours. The meltwater flows down within the ice, and into the sediment below it.

“The soft sediment gets weaker as it tries to soak up more water, making it less resistant, so that the ice above moves faster. The Greenland ice sheet is not nearly as stable as we think,” said Poul Christofferson, a co-author.

And Dr Bougamont said: “There are two sources of net ice loss: melting on the surface and increased flow of the ice itself, and there is a connection between these mechanisms that isn’t taken into account by standard ice sheet models.”

Rapid change

At present, the annual flow of ice meltwater is more or less stable. In warmer years, the ice sheet becomes more vulnerable because more meltwater gets to the muddy absorbent bedrock. Because there is a limit to how much the sediment below can hold, the ice sheet becomes more vulnerable during extreme events such as heat waves.

And, of course, if under such a scenario it is vulnerable, it continues to become more vulnerable as average temperatures rise and extreme events become more frequent, and more extreme. And a closer look at recent geological history shows just how fast change can happen.

In a separate study in Nature Communications, Katharine Grant of the Australian National University and colleagues report that they examined evidence of the melting process at the close of each of the last five ice ages.

They looked at data from wind-blown dust in sediment cores from the Red Sea, and matched these with records from Chinese stalagmites to confirm a picture of pronounced climate change at the end of each ice age, and calculated that sea levels rose at the rate of 5.5 metres per century.

These however were exceptional events, and there were more than 100 smaller sea level events in between the big five.

“Time periods with less than twice the modern global ice volume show almost no indications of sea level rise faster than about 2 metres per century,” said Dr Grant. “Those with close to the modern amount of ice on Earth show rates of up to one to 1.5 metres per century.” 

"Synchronization of North Pacific and Greenland climates preceded abrupt deglacial warming," by S.K. Praetorius & A.C. Mix, Science 345 (2014); doi: 10.1126/science.1252000

Science, 345(6195) (25 July 2014) 444-448; doi: 10.1126/science.1252000

Synchronization of North Pacific and Greenland climates preceded abrupt deglacial warming  

Summer K. Praetorius* and Alan C. Mix

College of Earth, Ocean, and Atmospheric Sciences, Oregon State University, Corvallis, OR 97331, U.S.A.

Abstract

Some proposed mechanisms for transmission of major climate change events between the North Pacific and North Atlantic predict opposing patterns of variations; others suggest synchronization. Resolving this conflict has implications for regulation of poleward heat transport and global climate change. New multidecadal-resolution foraminiferal oxygen isotope records from the Gulf of Alaska (GOA) reveal sudden shifts between intervals of synchroneity and asynchroneity with the North Greenland Ice Core Project (NGRIP) δ¹⁸O record over the past 18,000 years. Synchronization of these regions occurred 15,500 to 11,000 years ago, just prior to and throughout the most abrupt climate transitions of the last 20,000 years, suggesting that dynamic coupling of North Pacific and North Atlantic climates may lead to critical transitions in Earth’s climate system.

*Correspondence: spraetor@coas.oregonstate.edu

http://www.sciencemag.org/content/345/6195/444.abstract

Michael Mann, SciAm: Earth Will Cross the Climate Danger Threshold by 2036

The rate of global land-surface temperature rise may have hit a plateau, but a climate crisis still looms in the near future

by Michael E. Mann, Scientific American, March 18, 2014

Danger Zone in 22 Years: Click on this link to enlarge the image above:  http://3.bp.blogspot.com/-8wW24ozPt5w/UynuOlBWnNI/AAAAAAAADBo/HBLWVy8kNaA/s1600/MikeMann.SciAm.FalseHope.March2014.png

If the Northern Hemisphere's surface temperatures rise more than two degrees Celsius above preindustrial levels (baseline), human civilization will suffer dangerous harm, scientists say. When will that occur if the world keeps burning fossil fuels at current rates? The answer comes from entering estimates for equilibrium climate sensitivity (ECS)—how sensitive the atmosphere is to the heating effect of greenhouse gases (five solid curves)—into a so-called energy balance model of climate. The estimate that best agrees with recorded data reflecting the sensitivity of the earth's climate (white) indicates that the world will cross the two degrees C threshold in 2036, only 22 years from now (orange). If the reported recent slowdown in the rate of temperature rise, sometimes inappropriately called “the pause,” proves to be part of a more persistent pattern, then a different estimate (gold) best fits the past 15 years or so, and it gives the world until 2046 to cross the danger line.

Credit: Pitch Interactive; SOURCE: MICHAEL E. MANN

In Brief

• The rate at which the earth's temperature has been rising eased slightly in the past decade, but temperature is still increasing; calling the slowdown a “pause” is false.
• New calculations by the author indicate that if the world continues to burn fossil fuels at the current rate, global warming will rise to two degrees Celsius by 2036, crossing a threshold that will harm human civilization.
• To avoid the threshold, nations will have to keep carbon dioxide levels below 405 parts per million.

More In This Article

• 

  Why Global Warming Will Cross a Dangerous Threshold in 2036

“Temperatures have been flat for 15 years—nobody can properly explain it,” the Wall Street Journal says. “Global warming ‘pause’ may last for 20 more years, and Arctic sea ice has already started to recover,” the Daily Mail says. Such reassuring claims about climate abound in the popular media, but they are misleading at best. Global warming continues unabated, and it remains an urgent problem.

The misunderstanding stems from data showing that during the past decade there was a slowing in the rate at which the earth's average surface temperature had been increasing. The event is commonly referred to as “the pause,” but that is a misnomer: temperatures still rose, just not as fast as during the prior decade. The important question is, What does the short-term slowdown portend for how the world may warm in the future?

The Intergovernmental Panel on Climate Change (IPCC) is charged with answering such questions. In response to the data, the IPCC in its September 2013 report lowered one aspect of its prediction for future warming. Its forecasts, released every five to seven years, drive climate policy worldwide, so even the small change raised debate over how fast the planet is warming and how much time we have to stop it. The IPCC has not yet weighed in on the impacts of the warming or how to mitigate it, which it will do in reports that were due this March and April. Yet I have done some calculations that I think can answer those questions now: If the world keeps burning fossil fuels at the current rate, it will cross a threshold into environmental ruin by 2036. The “faux pause” could buy the planet a few extra years beyond that date to reduce greenhouse gas emissions and avoid the crossover—but only a few.

A Sensitive Debate
The dramatic nature of global warming captured world attention in 2001, when the IPCC published a graph that my co-authors and I devised, which became known as the “hockey stick.” The shaft of the stick, horizontal and sloping gently downward from left to right, indicated only modest changes in Northern Hemisphere temperature for almost 1,000 years—as far back as our data went. The upturned blade of the stick, at the right, indicated an abrupt and unprecedented rise since the mid-1800s. The graph became a lightning rod in the climate change debate, and I, as a result, reluctantly became a public figure. In its September 2013 report, the IPCC extended the stick back in time, concluding that the recent warming was likely unprecedented for at least 1,400 years.

Although the earth has experienced exceptional warming over the past century, to estimate how much more will occur we need to know how temperature will respond to the ongoing human-caused rise in atmospheric greenhouse gases, primarily carbon dioxide. Scientists call this responsiveness “equilibrium climate sensitivity” (ECS). ECS is a common measure of the heating effect of greenhouse gases. It represents the warming at the earth's surface that is expected after the concentration of CO₂ in the atmosphere doubles and the climate subsequently stabilizes (reaches equilibrium).

The preindustrial level of CO₂ was about 280 parts per million (ppm), so double is roughly 560 ppm. Scientists expect this doubling to occur later this century if nations continue to burn fossil fuels as they do now—the “business as usual” scenario—instead of curtailing fossil-fuel use. The more sensitive the atmosphere is to a rise in CO₂, the higher the ECS, and the faster the temperature will rise. ECS is shorthand for the amount of warming expected, given a particular fossil-fuel emissions scenario.

It is difficult to determine an exact value of ECS because warming is affected by feedback mechanisms, including clouds, ice and other factors. Different modeling groups come to different conclusions on what the precise effects of these feedbacks may be. Clouds could be the most significant. They can have both a cooling effect, by blocking out incoming sunlight, and a warming effect, by absorbing some of the heat energy that the earth sends out toward space. Which of these effects dominates depends on the type, distribution and altitude of the clouds—difficult for climate models to predict. Other feedback factors relate to how much water vapor there will be in a warmer atmosphere and how fast sea ice and continental ice sheets will melt.

Because the nature of these feedback factors is uncertain, the IPCC provides a range for ECS, rather than a single number. In the September report—the IPCC's fifth major assessment—the panel settled on a range of 1.5 to 4.5 degrees Celsius (roughly three to eight degrees Fahrenheit). The IPCC had lowered the bottom end of the range, down from the two degrees C it had set in its Fourth Assessment Report, issued in 2007. The IPCC based the lowered bound on one narrow line of evidence: the slowing of surface warming during the past decade—yes, the faux pause.

Many climate scientists—myself included—think that a single decade is too brief to accurately measure global warming and that the IPCC was unduly influenced by this one, short-term number. Furthermore, other explanations for the speed bump do not contradict the preponderance of evidence that suggests that temperatures will continue to rise. For example, the accumulated effect of volcanic eruptions during the past decade, including the Icelandic volcano with the impossible name, Eyjafjallajökull, may have had a greater cooling effect on the earth's surface than has been accounted for in most climate model simulations. There was also a slight but measurable decrease in the sun's output that was not taken into account in the IPCC's simulations.

Natural variability in the amount of heat the oceans absorb may have played a role. In the latter half of the decade, La Niña conditions persisted in the eastern and central tropical Pacific, keeping global surface temperatures about 0.1 degree C colder than average—a small effect compared with long-term global warming but a substantial one over a decade. Finally, one recent study suggests that incomplete sampling of Arctic temperatures led to underestimation of how much the globe actually warmed.

None of these plausible explanations would imply that climate is less sensitive to greenhouse gases. Other measurements also do not support the IPCC's revised lower bound of 1.5 degrees C. When all the forms of evidence are combined, they point to a most likely value for ECS that is close to three degrees C. And as it turns out, the climate models the IPCC actually used in its Fifth Assessment Report imply an even higher value of 3.2 degrees C. The IPCC's lower bound for ECS, in other words, probably does not have much significance for future world climate—and neither does the faux pause.

For argument's sake, however, let us take the pause at face value. What would it mean if the actual ECS were half a degree lower than previously thought? Would it change the risks presented by business-as-usual fossil-fuel burning? How quickly would the earth cross the critical threshold?

A Date with Destiny: 2036
Most scientists concur that two degrees C of warming above the temperature during preindustrial time would harm all sectors of civilization—food, water, health, land, national security, energy and economic prosperity. ECS is a guide to when that will happen if we continue emitting CO₂ at our business-as-usual pace.

I recently calculated hypothetical future temperatures by plugging different ECS values into a so-called energy balance model, which scientists use to investigate possible climate scenarios. The computer model determines how the average surface temperature responds to changing natural factors, such as volcanoes and the sun, and human factors—greenhouse gases, aerosol pollutants, and so on. (Although climate models have critics, they reflect our best ability to describe how the climate system works, based on physics, chemistry and biology. And they have a proved track record: for example, the actual warming in recent years was accurately predicted by the models decades ago.)

I then instructed the model to project forward under the assumption of business-as-usual greenhouse gas emissions. I ran the model again and again, for ECS values ranging from the IPCC's lower bound (1.5 degrees C) to its upper bound (4.5 degrees C). The curves for an ECS of 2.5 degrees and three degrees C fit the instrument readings most closely. The curves for a substantially lower (1.5 degrees C) and higher (4.5 degrees C) ECS did not fit the recent instrumental record at all, reinforcing the notion that they are not realistic.

To my wonder, I found that for an ECS of three degrees C, our planet would cross the dangerous warming threshold of two degrees C in 2036, only 22 years from now. When I considered the lower ECS value of 2.5 degrees C, the world would cross the threshold in 2046, just 10 years later [see graph on pages 78 and 79].

So even if we accept a lower ECS value, it hardly signals the end of global warming or even a pause. Instead it simply buys us a little bit of time—potentially valuable time—to prevent our planet from crossing the threshold.

Cautious Optimism
These findings have implications for what we all must do to prevent disaster. An ECS of three degrees C means that if we are to limit global warming to below two degrees C forever, we need to keep CO₂ concentrations far below twice preindustrial levels, closer to 450 ppm. Ironically, if the world burns significantly less coal, that would lessen CO₂ emissions but also reduce aerosols in the atmosphere that block the sun (such as sulfate particulates), so we would have to limit CO₂ to below roughly 405 ppm.

We are well on our way to surpassing these limits. In 2013 atmospheric CO₂ briefly reached 400 ppm for the first time in recorded history—and perhaps for the first time in millions of years, according to geologic evidence. To avoid breaching the 405-ppm threshold, fossil-fuel burning would essentially have to cease immediately. To avoid the 450-ppm threshold, global carbon emissions could rise only for a few more years and then would have to ramp down by several percent a year. That is a tall task. If the ECS is indeed 2.5 degrees C, it will make that goal a bit easier.

Even so, there is considerable reason for concern. The conclusion that limiting CO₂below 450 ppm will prevent warming beyond two degrees C is based on a conservative definition of climate sensitivity that considers only the so-called fast feedbacks in the climate system, such as changes in clouds, water vapor and melting sea ice. Some climate scientists, including James E. Hansen, former head of the nasa Goddard Institute for Space Studies, say we must also consider slower feedbacks such as changes in the continental ice sheets. When these are taken into account, Hansen and others maintain, we need to get back down to the lower level of CO₂ that existed during the mid-20th century—about 350 ppm. That would require widespread deployment of expensive “air capture” technology that actively removes CO₂ from the atmosphere.

Furthermore, the notion that two degrees C of warming is a “safe” limit is subjective. It is based on when most of the globe will be exposed to potentially irreversible climate changes. Yet destructive change has already arrived in some regions. In the Arctic, loss of sea ice and thawing permafrost are wreaking havoc on indigenous peoples and ecosystems. In low-lying island nations, land and freshwater are disappearing because of rising sea levels and erosion. For these regions, current warming, and the further warming (at least 0.5 degree C) guaranteed by CO₂ already emitted, constitutes damaging climate change today.

Let us hope that a lower climate sensitivity of 2.5 degrees C turns out to be correct. If so, it offers cautious optimism. It provides encouragement that we can avert irreparable harm to our planet. That is, if—and only if—we accept the urgency of making a transition away from our reliance on fossil fuels for energy.

This article was originally published with the title "False Hope."

http://www.scientificamerican.com/article/earth-will-cross-the-climate-danger-threshold-by-2036/

WORTH WATCHING: Abrupt Climate Change -- Expecting the Unexpected

by Peter Sinclair, "This Is Not Cool," Yale Forum on Climate Change and the Media, February 13, 2014



Especially pleased to include interviews with more scientists here from our AGU sessions in December.  Links with the unfolding dramas in California and the UK are obvious.

http://climatecrocks.com/2014/02/13/new-video-abrupt-climate-change-and-the-expected-unexpected/

Dahr Jamail: Are We Falling Off the Climate Precipice? Scientists Consider Extinction

Tomgram: Dahr Jamail, The Climate Change Scorecard
by Dahr Jamail, Tom Dispatch, December 17, 2013

Since a nuclear weapon went off over Hiroshima, we have been living with visions of global catastrophe, apocalyptic end times, and extinction that were once the sole property of religion.  Since August 6, 1945, it has been possible for us to imagine how human beings, not God, could put an end to our lives on this planet.  Conceptually speaking, that may be the single most striking development of our age and, to this day, it remains both terrifying and hard to take in.  Nonetheless, the apocalyptic possibilities lurking in our scientific-military development stirred popular culture over the decades to a riot of world-ending possibilities.

In more recent decades, a second world-ending (or at least world-as-we-know-it ending) possibility has crept into human consciousness.  Until relatively recently, our burning of fossil fuels and spewing carbon dioxide into the atmosphere represented such a slow-motion approach to end times that we didn’t even notice what was happening.  Only in the 1970s did the idea of global warming or climate change begin to penetrate the scientific community, as in the 1990s it edged its way into the rest of our world, and slowly into popular culture, too.

Still, despite ever more powerful weather disruptions -- what the news now likes to call “extreme weather” events, including monster typhoons, hurricanes, and winter storms, wildfires, heat waves, droughts, and global temperature records -- disaster has still seemed far enough off.  Despite a drumbeat of news about startling environmental changes -- massive ice melts in Arctic waters, glaciers shrinking worldwide, the Greenland ice shield beginning to melt, as well as the growing acidification of ocean waters -- none of this, not even Superstorm Sandy smashing into that iconic global capital, New York, and drowning part of its subway system, has broken through as a climate change 9/11.  Not in the United States anyway.

We’ve gone, that is, from no motion to slow motion to a kind of denial of motion.  And yet in the scientific community, where people continue to study the effects of global warming, the tone is changing.  It is, you might say, growing more apocalyptic.  Just in recent weeks, a report from the National Academy of Scientists suggested that “hard-to-predict sudden changes” in the environment due to the effects of climate change might drive the planet to a “tipping point.”  Beyond that, “major and rapid changes [could] occur” -- and these might be devastating, including that “wild card,” the sudden melting of parts of the vast Antarctic ice shelf, driving sea levels far higher.

At the same time, the renowned climate scientist James Hansen and 17 colleagues published a hair-raising report in the journal PLoS.  They suggest that the accepted target of keeping global temperature rise to two degrees Celsius is a fool’s errand.  If global temperatures come anywhere near that level -- the rise so far has been less than one degree since the industrial revolution began -- it will already be too late, they claim, to avoid disastrous consequences.

Consider this the background “temperature” for Dahr Jamail’s latest piece for TomDispatch, an exploration of what climate scientists just beyond the mainstream are thinking about how climate change will affect life on this planet.  What, in other words, is the worst that we could possibly face in the decades to come?  The answer: a nightmare scenario.  So buckle your seat belt.  There’s a tumultuous ride ahead. Tom

Are We Falling Off the Climate Precipice?
Scientists Consider Extinction 
By Dahr Jamail

I grew up planning for my future, wondering which college I would attend, what to study, and later on, where to work, which articles to write, what my next book might be, how to pay a mortgage, and which mountaineering trip I might like to take next.

Now, I wonder about the future of our planet. During a recent visit with my eight-year-old niece and 10- and 12-year-old nephews, I stopped myself from asking them what they wanted to do when they grew up, or any of the future-oriented questions I used to ask myself. I did so because the reality of their generation may be that questions like where they will work could be replaced by: Where will they get their fresh water? What food will be available? And what parts of their country and the rest of the world will still be habitable?

The reason, of course, is climate change -- and just how bad it might be came home to me in the summer of 2010.  I was climbing Mount Rainier in Washington State, taking the same route I had used in a 1994 ascent.  Instead of experiencing the metal tips of the crampons attached to my boots crunching into the ice of a glacier, I was aware that, at high altitudes, they were still scraping against exposed volcanic rock. In the pre-dawn night, sparks shot from my steps.

The route had changed dramatically enough to stun me. I paused at one point to glance down the steep cliffs at a glacier bathed in soft moonlight 100 meters below. It took my breath away when I realized that I was looking at what was left of the enormous glacier I’d climbed in 1994, the one that -- right at this spot -- had left those crampons crunching on ice. I stopped in my tracks, breathing the rarefied air of such altitudes, my mind working hard to grasp the climate-change-induced drama that had unfolded since I was last at that spot.

I haven’t returned to Mount Rainier to see just how much further that glacier has receded in the last few years, but recently I went on a search to find out just how bad it might turn out to be. I discovered a set of perfectly serious scientists -- not the majority of all climate scientists by any means, but thoughtful outliers -- who suggest that it isn’t just really, really bad; it’s catastrophic.  Some of them even think that, if the record ongoing releases of carbon dioxide into the atmosphere, thanks to the burning of fossil fuels, are aided and abetted by massive releases of methane, an even more powerful greenhouse gas, life as we humans have known it might be at an end on this planet. They fear that we may be at -- and over -- a climate change precipice hair-raisingly quickly.

Mind you, the more conservative climate science types, represented by the prestigious Intergovernmental Panel on Climate Change (IPCC), paint scenarios that are only modestly less hair-raising, but let’s spend a little time, as I’ve done, with what might be called scientists at the edge and hear just what they have to say. 

“We’ve Never Been Here as a Species”

“We as a species have never experienced 400 parts per million of carbon dioxide in the atmosphere,” Guy McPherson, professor emeritus of evolutionary biology, natural resources, and ecology at the University of Arizona and a climate change expert of 25 years, told me. “We’ve never been on a planet with no Arctic ice, and we will hit the average of 400 ppm... within the next couple of years. At that time, we’ll also see the loss of Arctic ice in the summers… This planet has not experienced an ice-free Arctic for at least the last three million years.”

For the uninitiate, in the simplest terms, here’s what an ice-free Arctic would mean when it comes to heating the planet: minus the reflective ice cover on Arctic waters, solar radiation would be absorbed, not reflected, by the Arctic Ocean.  That would heat those waters, and hence the planet, further. This effect has the potential to change global weather patterns, vary the flow of winds, and even someday possibly alter the position of the jet stream. Polar jet streams are fast flowing rivers of wind positioned high in the Earth’s atmosphere that push cold and warm air masses around, playing a critical role in determining the weather of our planet.

McPherson, who maintains the blog Nature Bats Last, added, “We’ve never been here as a species and the implications are truly dire and profound for our species and the rest of the living planet.”

While his perspective is more extreme than that of the mainstream scientific community, which sees true disaster many decades into our future, he’s far from the only scientist expressing such concerns. Professor Peter Wadhams, a leading Arctic expert at Cambridge University, has been measuring Arctic ice for 40 years, and his findings underscore McPherson’s fears.  “The fall-off in ice volume is so fast it is going to bring us to zero very quickly,” Wadhams told a reporter. According to current data, he estimates “with 95% confidence” that the Arctic will have completely ice-free summers by 2018.  (U.S. Navy researchers have predicted an ice-free Arctic even earlier -- by 2016.)

British scientist John Nissen, chairman of the Arctic Methane Emergency Group (of which Wadhams is a member), suggests that if the summer sea ice loss passes “the point of no return,” and “catastrophic Arctic methane feedbacks” kick in, we’ll be in an “instant planetary emergency.”

McPherson, Wadhams, and Nissen represent just the tip of a melting iceberg of scientists who are now warning us about looming disaster, especially involving Arctic methane releases. In the atmosphere, methane is a greenhouse gas that, on a relatively short-term time scale, is far more destructive than carbon dioxide (CO2).  It is 23 times as powerful as CO2 per molecule on a 100-year timescale, 105 times more potent when it comes to heating the planet on a 20-year timescale -- and the Arctic permafrost, onshore and off, is packed with the stuff.  “The seabed,” says Wadhams, “is offshore permafrost, but is now warming and melting. We are now seeing great plumes of methane bubbling up in the Siberian Sea… millions of square miles where methane cover is being released.”

According to a study just published in Nature Geoscience, twice as much methane as previously thought is being released from the East Siberian Arctic Shelf, a two million square kilometer area off the coast of Northern Siberia. Its researchers found that at least 17 teragrams (one million tons) of methane are being released into the atmosphere each year, whereas a 2010 study had found only seven teragrams heading into the atmosphere.

The day after Nature Geoscience released its study, a group of scientists from Harvard and other leading academic institutions published a report in the Proceedings of the National Academy of Sciences showing that the amount of methane being emitted in the U.S. both from oil and agricultural operations could be 50% greater than previous estimates and 1.5 times higher than estimates of the Environmental Protection Agency.

How serious is the potential global methane build-up? Not all scientists think it’s an immediate threat or even the major threat we face, but Ira Leifer, an atmospheric and marine scientist at the University of California, Santa Barbara, and one of the authors of the recent Arctic Methane study pointed out to me that “the Permian mass extinction that occurred 250 million years ago is related to methane and thought to be the key to what caused the extinction of most species on the planet.” In that extinction episode, it is estimated that 95% of all species were wiped out.

Also known as “The Great Dying,” it was triggered by a massive lava flow in an area of Siberia that led to an increase in global temperatures of six degrees Celsius. That, in turn, caused the melting of frozen methane deposits under the seas.  Released into the atmosphere, it caused temperatures to skyrocket further. All of this occurred over a period of approximately 80,000 years.

We are currently in the midst of what scientists consider the sixth mass extinction in planetary history, with between 150 and 200 species going extinct daily, a pace 1,000 times greater than the “natural” or “background” extinction rate. This event may already be comparable to, or even exceed, both the speed and intensity of the Permian mass extinction. The difference being that ours is human caused, isn’t going to take 80,000 years, has so far lasted just a few centuries, and is now gaining speed in a non-linear fashion.

It is possible that, on top of the vast quantities of carbon dioxide from fossil fuels that continue to enter the atmosphere in record amounts yearly, an increased release of methane could signal the beginning of the sort of process that led to the Great Dying. Some scientists fear that the situation is already so serious and so many self-reinforcing feedback loops are already in play that we are in the process of causing our own extinction. Worse yet, some are convinced that it could happen far more quickly than generally believed possible -- even in the course of just the next few decades.

The Sleeping Giant Stirs

According to a NASA research report, “Is a Sleeping Climate Giant Stirring in the Arctic?”: “Over hundreds of millennia, Arctic permafrost soils have accumulated vast stores of organic carbon -- an estimated 1,400 to 1,850 petagrams of it (a petagram is 2.2 trillion pounds, or 1 billion metric tons). That's about half of all the estimated organic carbon stored in Earth's soils. In comparison, about 350 petagrams of carbon have been emitted from all fossil-fuel combustion and human activities since 1850. Most of this carbon is located in thaw-vulnerable top soils within 10 feet (3 meters) of the surface.”

NASA scientists, along with others, are learning that the Arctic permafrost -- and its stored carbon -- may not be as permanently frosted as its name implies.  Research scientist Charles Miller of NASA's Jet Propulsion Laboratory is the principal investigator of the Carbon in Arctic Reservoirs Vulnerability Experiment (CARVE), a five-year NASA-led field campaign to study how climate change is affecting the Arctic's carbon cycle. He told NASA, "Permafrost soils are warming even faster than Arctic air temperatures -- as much as 2.7 to 4.5 degrees Fahrenheit (1.5 to 2.5 degrees Celsius) in just the past 30 years. As heat from Earth's surface penetrates into permafrost, it threatens to mobilize these organic carbon reservoirs and release them into the atmosphere as carbon dioxide and methane, upsetting the Arctic's carbon balance and greatly exacerbating global warming."

He fears the potential results should a full-scale permafrost melt take place. As he points out, “Changes in climate may trigger transformations that are simply not reversible within our lifetimes, potentially causing rapid changes in the Earth system that will require adaptations by people and ecosystems."

The recent NASA study highlights the discovery of active and growing methane vents up to 150 kilometers across. A scientist on a research ship in the area described this as a bubbling as far as the eye can see in which the seawater looks like a vast pool of seltzer. Between the summers of 2010 and 2011, in fact, scientists found that in the course of a year methane vents only 30 centimeters across had grown a kilometer wide, a 3,333% increase and an example of the non-linear rapidity with which parts of the planet are responding to climate disruption.

Miller revealed another alarming finding: "Some of the methane and carbon dioxide concentrations we've measured have been large, and we're seeing very different patterns from what models suggest," he said of some of CARVE’s earlier findings. "We saw large, regional-scale episodic bursts of higher than normal carbon dioxide and methane in interior Alaska and across the North Slope during the spring thaw, and they lasted until after the fall refreeze. To cite another example, in July 2012 we saw methane levels over swamps in the Innoko Wilderness that were 650 parts per billion higher than normal background levels. That's similar to what you might find in a large city."

Moving beneath the Arctic Ocean where methane hydrates -- often described as methane gas surrounded by ice -- exist, a March 2010 report in Science indicated that these cumulatively contain the equivalent of 1,000-10,000 gigatons of carbon. Compare this total to the 240 gigatons of carbon humanity has emitted into the atmosphere since the industrial revolution began.

A study published in the prestigious journal Nature this July suggested that a 50-gigaton “burp” of methane from thawing Arctic permafrost beneath the East Siberian sea is “highly possible at anytime.” That would be the equivalent of at least 1,000 gigatons of carbon dioxide.

Even the relatively staid IPCC has warned of such a scenario: "The possibility of abrupt climate change and/or abrupt changes in the earth system triggered by climate change, with potentially catastrophic consequences, cannot be ruled out. Positive feedback from warming may cause the release of carbon or methane from the terrestrial biosphere and oceans."

In the last two centuries, the amount of methane in the atmosphere has increased from 0.7 parts per million to 1.7 parts per million. The introduction of methane in such quantities into the atmosphere may, some climate scientists fear, make increases in the global temperature of four to six degrees Celsius inevitable.

The ability of the human psyche to take in and grasp such information is being tested. And while that is happening, yet more data continues to pour in -- and the news is not good.

Out of the Frying Pan, Into the Fire

Consider this timeline:

* Late 2007: The Intergovernmental Panel on Climate Change (IPCC) announces that the planet will see a one degree Celsius temperature increase due to climate change by 2100.

* Late 2008: The Hadley Centre for Meteorological Research predicts a 2C increase by 2100. 

* Mid-2009: The U.N. Environment Programme predicts a 3.5C increase by 2100. Such an increase would remove habitat for human beings on this planet, as nearly all the plankton in the oceans would be destroyed, and associated temperature swings would kill off many land plants. Humans have never lived on a planet at 3.5C above baseline.

* October 2009: The Hadley Centre for Meteorological Research releases an updated prediction, suggesting a 4C temperature increase by 2060. 

* November 2009: The Global Carbon Project, which monitors the global carbon cycle, and the Copenhagen Diagnosis, a climate science report, predict 6C and 7C temperature increases, respectively, by 2100.

* December 2010: The U.N. Environment Programme predicts up to a 5C increase by 2050. 

* 2012: The conservative International Energy Agency’s World Energy Outlook report for that year states that we are on track to reach a 2C increase by 2017.

* November 2013: The International Energy Agency predicts a 3.5C increase by 2035.

A briefing provided to the failed U.N. Conference of the Parties in Copenhagen in 2009 provided this summary: “The long-term sea level that corresponds to current CO2 concentration is about 23 meters above today’s levels, and the temperatures will be 6 degrees C or more higher. These estimates are based on real long-term climate records, not on models.”

On December 3rd, a study by 18 eminent scientists, including the former head of NASA’s Goddard Institute for Space Studies, James Hansen, showed that the long-held, internationally agreed upon target to limit rises in global average temperatures to 2 degrees Celsius was in error and far above the 1C threshold that would need to be maintained in order to avoid the effects of catastrophic climate change.

And keep in mind that the various major assessments of future global temperatures seldom assume the worst about possible self-reinforcing climate feedback loops like the methane one.

“Things Are Looking Really Dire”

Climate-change-related deaths are already estimated at five million annually, and the process seems to be accelerating more rapidly than most climate models have suggested.  Even without taking into account the release of frozen methane in the Arctic, some scientists are already painting a truly bleak picture of the human future. Take Canadian Wildlife Service biologist Neil Dawe, who in August told a reporter that he wouldn't be surprised if the generation after him witnessed the extinction of humanity. All around the estuary near his office on Vancouver Island, he has been witnessing the unraveling of “the web of life,” and “it’s happening very quickly.”

"Economic growth is the biggest destroyer of the ecology," Dawe says. "Those people who think you can have a growing economy and a healthy environment are wrong. If we don't reduce our numbers, nature will do it for us." And he isn’t hopeful humans will be able to save themselves. "Everything is worse and we're still doing the same things. Because ecosystems are so resilient, they don't exact immediate punishment on the stupid."

The University of Arizona’s Guy McPherson has similar fears. “We will have very few humans on the planet because of lack of habitat,” he says. Of recent studies showing the toll temperature increases will take on that habitat, he adds, “They are only looking at CO2 in the atmosphere.”

Here’s the question: Could some version of extinction or near-extinction overcome humanity, thanks to climate change -- and possibly incredibly fast? Similar things have happened in the past. Fifty-five million years ago, a five degree Celsius rise in average global temperatures seems to have occurred in just 13 years, according to a study published in the October 2013 issue of the Proceedings of the National Academy of Sciences. Areport in the August 2013 issue of Science revealed that in the near-term Earth’s climate will change 10 times faster than at any other moment in the last 65 million years.

“The Arctic is warming faster than anywhere else on the planet,” climate scientist James Hansen has said. “There are potential irreversible effects of melting the Arctic sea ice. If it begins to allow the Arctic Ocean to warm up, and warm the ocean floor, then we’ll begin to release methane hydrates. And if we let that happen, that is a potential tipping point that we don’t want to happen. If we burn all the fossil fuels then we certainly will cause the methane hydrates, eventually, to come out and cause several degrees more warming, and it’s not clear that civilization could survive that extreme climate change.”

Yet, long before humanity has burned all fossil fuel reserves on the planet, massive amounts of methane will be released. While the human body is potentially capable of handling a six to nine degree Celsius rise in the planetary temperature, the crops and habitat we use for food production are not.  As McPherson put it, “If we see a 3.5 to 4C baseline increase, I see no way to have habitat. We are at .85C above baseline and we’ve already triggered all these self-reinforcing feedback loops.”

He adds: “All the evidence points to a locked-in 3.5 to 5 degree C global temperature rise above the 1850 ‘norm’ by mid-century, possibly much sooner. This guarantees a positive feedback, already underway, leading to 4.5 to 6 or more degrees above ‘norm’ and that is a level lethal to life. This is partly due to the fact that humans have to eat and plants can’t adapt fast enough to make that possible for the seven to nine billion of us -- so we’ll die.”

If you think McPherson’s comment about lack of adaptability goes over the edge, consider that the rate of evolution trails the rate of climate change by a factor of 10,000, according to a paper in the August 2013 issue of Ecology Letters. Furthermore, David Wasdel, director of the Apollo-Gaia Project and an expert on multiple feedback dynamics, says, “We are experiencing change 200 to 300 times faster than any of the previous major extinction events.”

Wasdel cites with particular alarm scientific reports showing that the oceans have already lost 40% of their phytoplankton, the base of the global oceanic food chain, because of climate-change-induced acidification and atmospheric temperature variations. (According to the Center for Ocean Solutions: “The oceans have absorbed almost one-half of human-released CO2 emissions since the Industrial Revolution. Although this has moderated the effect of greenhouse gas emissions, it is chemically altering marine ecosystems 100 times more rapidly than it has changed in at least the last 650,000 years.”)

“This is already a mass extinction event,” Wasdel adds. “The question is, how far is it going to go? How serious does it become? If we are not able to stop the rate of increase of temperature itself, and get that back under control, then a high temperature event, perhaps another 5-6 degrees [C], would obliterate at least 60% to 80% of the populations and species of life on Earth.”

What Comes Next?

In November 2012, even Jim Yong Kim, president of the World Bank Group (an international financial institution that provides loans to developing countries), warned that “a 4C warmer world can, and must be, avoided. Lack of action on climate change threatens to make the world our children inherit a completely different world than we are living in today.”

A World Bank-commissioned report warned that we are indeed on track to a “4C world” marked by extreme heat waves and life-threatening sea-level rise.

The three living diplomats who have led U.N. climate change talks claim there is little chance the next climate treaty, if it is ever approved, will prevent the world from overheating. "There is nothing that can be agreed in 2015 that would be consistent with the 2 degrees," says Yvo de Boer, who was executive secretary of the United Nations Framework Convention on Climate Change in 2009, when attempts to reach a deal at a summit in Copenhagen crumbled. "The only way that a 2015 agreement can achieve a 2-degree goal is to shut down the whole global economy."

Atmospheric and marine scientist Ira Leifer is particularly concerned about the changing rainfall patterns a recently leaked IPCC draft report suggested for our future: “When I look at what the models predicted for a 4C world, I see very little rain over vast swaths of populations. If Spain becomes like Algeria, where do all the Spaniards get the water to survive? We have parts of the world which have high populations which have high rainfall and crops that exist there, and when that rainfall and those crops go away and the country starts looking more like some of North Africa, what keeps the people alive?”

The IPCC report suggests that we can expect a generalized shifting of global rain patterns further north, robbing areas that now get plentiful rain of future water supplies. History shows us that when food supplies collapse, wars begin, while famine and disease spread.  All of these things, scientists now fear, could happen on an unprecedented scale, especially given the interconnected nature of the global economy.

“Some scientists are indicating we should make plans to adapt to a 4C world,” Leifer comments. “While prudent, one wonders what portion of the living population now could adapt to such a world, and my view is that it’s just a few thousand people [seeking refuge] in the Arctic or Antarctica.”

Not surprisingly, scientists with such views are often not the most popular guys in the global room. McPherson, for instance, has often been labeled “Guy McStinction” -- to which he responds, “I’m just reporting the results from other scientists. Nearly all of these results are published in established, esteemed literature. I don’t think anybody is taking issue with NASA, or Nature, or Science, or the Proceedings of the National Academy of Sciences.  [Those] and the others I report are reasonably well known and come from legitimate sources, like NOAA [the National Oceanic and Atmospheric Administration], for example. I’m not making this information up, I’m just connecting a couple of dots, and it’s something many people have difficulty with.”

McPherson does not hold out much hope for the future, nor for a governmental willingness to make anything close to the radical changes that would be necessary to quickly ease the flow of greenhouse gases into the atmosphere; nor does he expect the mainstream media to put much effort into reporting on all of this because, as he says, “There’s not much money in the end of civilization, and even less to be made in human extinction.” The destruction of the planet, on the other hand, is a good bet, he believes, “because there is money in this, and as long as that’s the case, it is going to continue.”

Leifer, however, is convinced that there is a moral obligation never to give up and that the path to global destruction could be altered. “In the short term, if you can make it in the economic interests of people to do the right thing, it’ll happen very fast.” He offers an analogy when it comes to whether humanity will be willing to act to mitigate the effects of climate change: “People do all sorts of things to lower their risk of cancer, not because you are guaranteed not to get it, but because you do what you can and take out the health protections and insurance you need in order to try to lower your risk of getting it.”

The signs of a worsening climate crisis are all around us, whether we allow ourselves to see them or not. Certainly, the scientific community gets it. As do countless communities across the globe where the effects of climate change are already being experienced in striking ways and local preparations for climatic disasters, including increasingly powerful floods, droughts, wildfires, heat waves, and storms are underway. Evacuations from low-lying South Pacific islands have already begun. People in such areas, out of necessity, are starting to try to teach their children how to adapt to, and live in, what we are causing our world to become.

My niece and nephews are doing something similar. They are growing vegetables in a backyard garden and their eight chickens provide more than enough eggs for the family.  Their parents are intent on teaching them how to be ever more self-sustaining.  But none of these heartfelt actions can mitigate what is already underway when it comes to the global climate.

I am 45 years old, and I often wonder how my generation will survive the impending climate crisis. What will happen to our world if the summer Arctic waters are indeed ice-free only a few years from now? What will my life look like if I live to experience a 3.5 Celsius global temperature increase?

Above all, I wonder how coming generations will survive.

Dahr Jamail has written extensively about climate change as well as the BP oil disaster in the Gulf of Mexico. He is a recipient of numerous awards, including the Martha Gellhorn Award for Journalism and the James Aronson Award for Social Justice Journalism. He is the author of two books: Beyond the Green Zone: Dispatches from an Unembedded Journalist in Occupied Iraq and The Will to Resist: Soldiers Who Refuse to Fight in Iraq and Afghanistan. He currently works for al-Jazeera English in Doha, Qatar.

Copyright 2013 Dahr Jamail

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