As a side note, it seems to me that the slides 7 and 8 show a very optimistic gas and oil trail post-2100.

There are a few issues to deal with:

1) Note on fig. 2, the temperature charts for the past several interglacials, that trough to peak involves temperature changes of 10 deg. C., or 18 F. Note also that in all but the Holocene there were immediate and progressive declines in warmth, as the interglacial slid inexorably back into the grinding ice age.

If not for anthropomorphic changes since the ancient Greeks, we would probably right now be sliding back into a world where ice sheets were grinding Canada and northern Europe back down to bedrock. As Greg Easterbrook noted in "A Moment on the Earth," an ice sheet is an environmental catastrophe in anyone's book.

If CO2 emissions do not continue to progressively expand after PO, we may actually arrive at a happy medium; no new ice age, and no run away greenhouse warming.

2) I really have to dispute Dr. Hanson's guesstimate about a "50% extinction rate" caused by a 3 deg. C. rise in temp. As noted above in fig 2, the world has periodically seen rapid temperature rises of three times that amount (admittedly from a lower threshold).

We know from the Younger Dryas, as well from earlier temperature shocks, that these changes have happened with startling rapidity, and yet the 17 or so interglacials saw few extinctions until the beginning of the Holocene, which saw an enormous die off of mega fauna, but few changes in micro fauna. (As Tim Flannery put it in "North America: The Eternal Frontier" -- 65 million years of ecological history -- the megafauna disappeared into a black hole; the black hole between the nose and chin of paleolithic hunters.)  

3) Note in fig. 6; there is a 50% decline of CO2 levels (from emissions) in a mere 20 years. 66% reduction in a century, and 78% in 500 years. If an economic crash accompanies PO, GW gas emissions will decline markedly. CO2 levels will have more time to balance. Also, with a crash it will be far more difficult to come up with investment capital to figure out how to exploit shale oil and methane hydrates.

4)which brings us to coal. As Dr. Hanson shows, oil and gas aren't as likely to destroy the climate, but coal may. This suggests two very different objectives:

a) It is imperative that we funnel money and political power to those forces opposing mountain top removal, and which block greater coal exploitation. Further, we need to oppose switching transportation from oil to coal based electricity.

b) We need to be honest about the psychological division in each of our minds. On the one hand we are horrified by runaway climate warming, but we also are horrified by the prospect that PO may cause our global economy to collapse.

This isn't just on our site; it pervades institutional thinking, as typified by The Economist. The Economist has gotten the bug on stopping global warming, but they are not only in denial about PO, but they favor doing everything in their power to increase power supplies to increase the chances for exponential economic growth.

We can't have it both ways. If we demand exponential economic growth (and what other kind is there?) then we must accept all the consequences of global warming and the literal rape of the land from strip mining. But if we accept the limitations of  both global warming and PO, then we must radically change our conception of what constitutes an acceptable economic model.  

CO2 emissions is a problem now.   Because the feedback effects could kill us.  By the time we take action, the biosphere could already have lost its capacity to restore the damage.

And because it will take so long to deal with the CO2 emissions of very long lived equipment: power plants last 50 years, cars last 15 years, planes last 30+ years, etc.  China has something like 100 coal plants under construction, and once built, carbon sequestration is that much harder to implement (to the point where it will probably never be implemented on those plants).

Peak oil?  It's a big unknown.  My own view is that we will hit PO (by the definition of an exhaustible resource) but more likely in 2020-30 than on Thanksgiving Day 2005 (Deffyes' date, I believe).

There are a *lot of alternatives to conventionally produced oil out there: tar sands in Canada, heavy oil in Venezuala, the Fischer-Tropf coal-to-oil process, NGLs.  All of these can, and will be scaled heavily (Canada alone will be 5 m b/d).  And there is still Arctic oil, deep water oil, plus further exploration and production in Africa.

But note the CO2 consequences of widespread coal-to-oil projects.

The state-owned oil companies that control most of the world's oil resources are underinvested and undermanaged.  Saudi Aramco is perhaps the best, but in Mexico, Russia, Iran, Venezuala etc, there are serious issues.  So there is likely to be more oil squeezed out there.

* peak gas, or at least accessible peak gas, worries me more, oddly. We can substitute gas for oil in a lot of applications, but we don't have ready substitutes for gas (except more coal!).  And from Simmons gas graphs at least, 'old gas fields don't fade away, they just die'.  We don't readily have the transport infrastructure to get the gas from where it is, to where it is needed, even if we do have that gas.

At the current slope of the CO2 line, we will pass 500 ppm in 85 years.

But at the rate at which CO2 emissions are increasing, (the second derivative), it will be less than 50 years-- the rate of CO2 emissions is accelerating.

Assuming world GDP grows in the next 44 years as it has since 1950 (2.2% pa real) then world GDP will be 2.7 times what it is now in 2050.  At the post 1990 rate (2.9%) it will be something like 3.7 times.

That would imply a CO2 growth pa of something like 4-5ppm (ie rising less quickly than GDP).

What the Stern Review says is that scientists think 450ppm is probably the safe level, beyond which we should not go.

It then says that is no longer practicable or achievable, so it assumes 550ppm is what we should aim for.

http://www.hm-treasury.gov.uk/media/999/76/CLOSED_SHORT_executive_summary.pdf

If we hit Peak Oil, my suspicion is that CO2 emissions will accelerate because the only practical substitute with current technology is coal.

Kazakhstan is next to China.  It's moot whether you produce coal in Wyoming, and ship it to Georgia (domestic production) or in Saskatchewan and ship it to Alabama (foreign trade).  Kazakhstan-China is the same.

(for that matter India, the world's 3rd largest coal reserves, is next door to China albeit with a mountain range in the way!-- but I think there is a railway through Assam).

Most of the coal burnt in the UK comes in by ship from Columbia and Australia, you could ship Indian coal to the Chinese power plants that way.

Coal is a global commodity. One of the most global commodities.  It was called 'sea coal' in British history not because it came from the sea, but because it was shipped by sea from Newcastle (hence 'shipping coal to Newcastle') to London.

You might see 'peak coal' on anthracite for steel making.  Metallurgical coal is a relatively rare beast.

But ordinary coal?  Not this side of 2100 I don't think.

* caveat: there's no such thing as infinite exponential growth.  But the problem of coal burning is one of CO2 emitted now, that will change the climate for the next few centuries.  If we get to 2100, and we haven't destroyed the planet, then we will be using some form of solar power to run our civilisation ('solar' broadly defined: ie wind, wave, geothermal, solar power satellites, controlled nuclear fusion etc.).

* actually we use 'solar' power now, it just happens to be the solar rays of the Carboniferous period.

China to reduce reliance on oil imports by basing energy supply on coal

China will reduce its reliance on petroleum imports by basing its energy supply on coal and developing new and renewable energies, said a senior official with the National Development and Reform Commission (NDRC) on Tuesday.
The Chinese economy has maintained a growth of over 10 percent for three years running so it is normal for China to see a rise in its oil imports as well as its demand for energy, said Zhang.

"Other industry experts worry that China's coal resources are not so rich: verified exploitable coal reserves were 188.6 billion tons at the end of 2002, but the average resource recovery rate was only 30 percent. Calculated at an annual coal output of 1.9 billion tons, the reserves would last only 30 years."

http://english.eastday.com/eastday/englishedition/business/userobject1ai2215168.html

Therefore allow me a calculation:

188.6 billion tons/2.2 billion tons=85.72 years x .30 =25.7 years reserve at current production rates

and

188.6 billion tonnes x .30 =56.58 billion tonnes URR(Ultimate Recoverable Reserves)

However the growth rate of use of coal is from end 2002 to end 2005 5%/annum or about 100 million tons(from 1.9 billioin tons to currently 2.22 billion tons/annum). With a 10% growth rate for the economy and 70% of energy from coal, there is a high correlation here. They are the factory for the world. World growth is based on cheap coal for China and eventually for India. When China can not mine a larger amount of coal per annum(or import it) we will hit a wall in terms of cheap production and growth in Asia. the Peak Oil argument is based mostly on transport for the industrialized countries. However most world growth is in India and China from coal.

Where is Peak Coal for China?

(presuming possibility of 100 million tons growth per year in production indefinitely which is highly improbable)

Year billion tons/year
2003 1.9
2004 2.0
2005 2.1
2006 2.2
2007 2.3
2008 2.4
2009 2.5
2010 2.6
2011 2.7
2012 2.8
2013 2.9
2012 3.0
2013 3.1
2014 3.2
2015 3.3
2016 3.4
2017 3.5
2018 3.6
2019 3.7
2020 3.8
2021 3.9
2022 4.0
Total 57.0

It is all used up in by 2022(as above) if they use 100 million more tons per year. Otherwise growth in Chinese economy will stall or they will have to compete more vigorously for the oil and gas resources, speeding up the WWIII scenario with USA. As coal is only 2/3 of energy needs in China and car use is growing this conflict will come anyway. The USA will also rely more on coal to replace dwindling oil, masking Peak Oil and Nat Gas with ethanol and Coal to liquid(CTL). The Chinese will probably never be able to achieve such a high level of coal production as above in later years however so their supply will last longer but economic growth will stall quicker causing mass unemployment and revolt and competition for other fuels with US/Japan/EU will come that much faster.

a very good point.

Indeed, one of the key reasons for Britain's early lead in the Industrial Revolution was that it had coal.

Britain ran out of wood.  One solution was international trade and colonialism (New England timber).  But for fuel, it needed a closer source.  And 'sea coals' (how they were transported as opposed to their source) had been used for domestic fuel since the 13th century.

Once the mines in Cornwall needed pumping out, it was a short step to Thomas Newcomen's steam engine.

So if we ran out of oil, we would burn wood, where we had it.

The Dutch Empire in the 17th century was every bit as grand and worldwide as the British, but the British had mountain streams (to power the woolen mills) and the Dutch only had windmills.

And then James Watt transformed the steam engine in the 18th century...

Your Question:"There also seems to be a striking contrast between the hot Arctic and "unchanged" Antarctic. Can some one explain why the Arctic is so much hotter than the Antarctic?"

I refer you to this Wiki-link:

The Artic is an ocean, and the Northern ice probably doesn't get much higher than 10ft above sea level.  The Antarctic is a huge continent with a mile or more of ice piled on top making it the highest avg elevation of any continental landmass.  The high, cold winds flow relentlessly from the cold, high interior downhill towards warmer sealevel; these are called katabatic winds.  This wind motion causes weather fronts from outside Antarctica to  rarely penetrate far into the continent, leaving the center cold and dry.  The Antarctic Circumpolar Current additionally helps prevent easy thermal mixing with warmer waters to the degree of warming the coastlines too.  Thus the year round iceshelves, but larger in winter, of course.

From Wiki:
-------------------------------------
Antarctica is colder than the Arctic for two reasons. First, much of the continent is more than 3 km above sea level, and temperature decreases with elevation. Second, the Arctic Ocean covers the north polar zone: the ocean's relative warmth is transferred through the icepack and prevents temperatures in the Arctic regions from reaching the extremes typical of the land surface of Antarctica.
---------------------------------------
Hope this helps answer your questions. Polar Bears might find Antarctica too cold, Emperor Penguins would think the North Pole is too hot!  But some poor, sun-scorched desert bastard like me finds this fascination with frigid Antarctica to be just right.  Go figure!

Bob Shaw in Phx,Az  Are Humans Smarter than YEast?

You ask good questions, fist of all these charts are continuously shown in a cylindrical projection making the poles straight lines - making them quite awkward to show global data much worse to get an insight of the poles.

Both poles are cooling. This is much more evident in the Antarctic, where only the Larsen peninsula shows a different trend. The Artic is showing both trends, cooling near the pole, heating on the outskirts:

I've never seen a good explanation for this cooling either from the warmers field or from the skeptics field.

This is likely a plot of recent temperatures above a reasonably long term  geophysical average, and is what climate physicists use to discern effects of additional anthropogenic forcing terms such as the greenhouse gases.

The current understanding of those cycles is that changes in orbital parameters (Milankovich and other cycles) caused greater amounts of summer sunlight in the northern hemisphere. This is a very small forcing. But it caused ice to retreat in the north which changed the albedo increasing the warmth in a feedback effect. Some ~800 years after this process started, CO2 concentrations in the atmosphere began to rise and this also amplified the warming trend even further as another feedback mechanism.

... So, CO2 did not trigger the warmings, but it did contribute to them, and according to climate theory and model experiments, Greenhouse Gas forcing was the largest factor in the ultimate change.

Solar radiation changes with time. An increase in solar radiation provokes the system into putting extra CO2 and H2O in the atmosphere. That makes the equilibrium temperature higher than it would if it somehow kept GHG (green house gases) unchanged, in a feedback loop. In this situation, solar radiation is the forcing (it changed outside the system) and GHG are the feedbacks (they changed inside the system). CO2 and other GHG are removed from the atmosphere in a negative feedback, so when solar radiation goes back down the GHG would come down

The actual situation is different. Solar radiation
has not changed much in the last 100 years, but
we have been pumping CO2 and other GHG (but not H20)
and aerosols, changing land use, clearing and
burning forests. We are a forcing. The system responds
to that by trapping heat, raising temperature,
raising H20, melting ice caps which increases
heat absorption, frees more GHG from tundras... Those
are some positive feedbacks. It also responds by
absorbing more CO2 in the sea and in forests, creating
deserts which reflect more heat to the sky. Those are
negative feedbacks.

If an ET came and painted the whole Earth, land and sea white, that would be a forcing. Temperatures would plunge, and the whole Earth would glaciate, in a feedback loop. CO2 would accumulate in the atmosphere (no weathering and no plant growth to take it down), keeping the temperature higher that it should in a negative feedback.

The fact that CO2 was not the forcing in other situations does not mean that it is not a forcing now. The important fact is if raising CO2 raises the temperature, and if raising the temperature raises CO2, then you have a feedback loop. It does not matter which one you raise first.

Solar forcings exist, but they are the wrong scale to explain present warming. H2O is not a forcing, noone is pumping water to the atmosphere, the value is what the system sets it to be and nothing can be done about it directly. CO2 forcing is the right scale and is also controllable by us.

But comments like your sweeping warning and imputing  and the recent wave of attacks on any skepticism is a perversion of science and democracy. Are you arguing my skpeticism has no validity? I have spent 20 plus years working on environemtal protection. Far from an oil lackey or schill.

From Global Warming Working Group 2001 of the IPCC

"To attribute all or part of recent climate change to human activity, therefore, we need to demonstrate that alternative explanations are unlikely to account for a set of observed changes"

"It is important to stress that the attribution process is inherently open-ended, since we have no way of predicting what alternative explanations for observed climate change may be proposed, and be accepted as plausible, in the future. This problem is not unique to the climate change issue, but applies to any problem of establishing cause and effect given a limited sample of observations."

So I counter that we need to beware the agenda of those who dismiss all skepticism without supplying valid arguments or by imputing guily by association. They are asking us to close our eyes, cover our ears and go "nya nya nya!. They are the real preverters of science and democracy!

There is a lot going on on the CCS front

Correct me if I'm wrong, but:

• no-one has ever built a coal-fired power station with CCS


• commercial application of the technology is 10 years away at best


• even if it is made to work, the scale of the problem is enormous

World CO2 emissions from burning coal: 10.43 GT in 2006
http://www.eia.doe.gov/oiaf/ieo/excel/figure_66data.xls

Volume of one ton of CO2 = 556.2m3
http://www.icbe.com/carbondatabase/CO2volumecalculation.asp

10,430,000,000 * 556.2m3 = 5,799,080,000,000m3 = 5,799.1 cubic kilometres per year = 15.89 cubic km per day.

So, to make coal clean, the world has to bury ~16 cubic kilometres of CO2 every day and hope that it stays there.

Of course, by 2012 when Jim Hansen expects developed countries will start sequestering CO2 the DoE forecasts 12.51 GT of coal emissions, which means we'll have to capture, compress and store 19 cubic kilometres of CO2 per day.

Does any of this sound plausible to you?

It started in the USA in 1971 with the Powell Memorandum I reference in the above post. This is as serious as a heart attack.
 

the temperature leads the greenhouse gas change.

There are very few natural mechanisms for massive rapid CO2 release other than volcanic activity.  Volcanic activity and the associated release of CO2 may be implicated in the Permian extinction.  The fact that in general CO2 rise has lagged temperature rise does not preclude anthropogenic CO2 from being a trigger.  We have few other identified natural mechanisms for a CO2 release leading the temperature rise.  This seems to have been a rare order of events in the past.

If CO2 release subsequent to a temperature rise can then accelerate the rise, I have little (no) doubt that an initial CO2 release can act as a trigger.

I'm not sure we are near Peak Oil or Peak Gas (although even 25 years away would be something to worry about and do something about sooner rather than later).

But peak coal?

Without really trying China, India and the US have discovered coal to last them 50 years.  I've never heard of major coal reserves in Africa but I assume there could be some.

Even in Europe we still have significant amounts of coal left: German and Polish lignite.  And the Russians have coal in Siberia.

Greenhouse Gases themselves help the heat remain trapped in the atmosph. longer, then in part creating conditions for more GHG's to add further to the atmosphere.  (Melting Peat Bogs, etc)

Already it is starting to slow down on its own:

http://news.bbc.co.uk/2/hi/science/nature/6170736.stm

Still CO2 is the biggest worry because of its magnitude and length of time in the atmosphere.

In it, Al discusses how 06' is now the the hottest year on record, the earthquakes in Greenland and the frozen methane in Russia among other items.

He can't say it of course, but if you look closely when he tells the camera that's there's 700 billion tons of methane starting to be released back into the atmosphere, you can see it in his eyes... we're f*cked.

A good example of another "surprise" is the whole revelation termed "global dimming" that got pieced together after 9/11.

I am a bit taken aback by the report that Hansen thinks we can tolerate 450 ppm. The pre-industrial level of carbon dioxide in Earth's atmosphere was 280 parts per million (ppm) and is now about 380 ppm. Consider that 100 ppm is what separated the ice age from the warm, stable climate of the past several thousand years, and that the temperature transition from ice age to a warm climate took about a thousand years.

This is important looking forward as there isn't the same scope now to further reduce ice-sheet cover, increasing the forcing as occurred coming out of an ice-age.

This begs a question ....

Have any of the modelers use climatic data
inputs from the 1950-1970s that we know are
accurate in an attempt to see if their models
can accurately predict our current climate ???

I'd feel a lot more comfortable with the desire
to alter our emissions if I were convinced that
the modelers were able to accurately predict the
present climatic circumstances ....

Triff ..

Not to be picky but at this level coal would emit about 1/5th of the CO2 per kwth as natural gas. In the name of fairness you have to extend your proposal to NG powered plants, which would have to sequester at least 80% of its emission.

"In 1988, James Hansen, a climatologist, told the US Congress that temperature would rise 0.3C by the end of the century (it rose 0.1C), and that sea level would rise several feet (no, one inch). The UN set up a transnational bureaucracy, the Intergovernmental Panel on Climate Change (IPCC). The UK taxpayer unwittingly meets the entire cost of its scientific team, which, in 2001, produced the Third Assessment Report, a Bible-length document presenting apocalyptic conclusions well beyond previous reports".

 "The forcings that drive long-term climate change are not known with an accuracy sufficient to define future climate change." -- James Hansen, "Climate forcings in the Industrial era", PNAS, Vol. 95, Issue 22, 12753-12758, October 27, 1998

I am reading some ignorant bullshit on this thread

I am reading some ignorant bullshit on this thread

Heh, quote of the century. Welcome to the internet! If you really don't want people to post "bullshit", why do you have open threads? Are they just for congratulating the authors of the articles on their excellent work?

Skepticism is good. Otherwise how do we distinguish the bullshit fron the truth? There is a legitimate debate about climate change. Unfortunately that debate has become politicized to the extent that even pointing out the uncertainty that the scientists themselves admit is labelled  "denial".

Seriously Dave, you can't control what everyone says, or thinks, you'll just work yourself into an early grave. Stop reading, or get over it.  

Here is a link about what we do know.

http://www.grida.no/climate/ipcc_tar/wg1/095.htm

But remember the ocean is very sensitive to C02 levels and we don't know the forcing that well.

Russian scientists are predicting cooling in the coming decade. Has to do with the sunspot cycle.  (Recall the Little ice age...sunspot cycle)?  

One more thing Cohen...there is an opposing point of view to the flock of sheep that are lapping at the trough of all things made worse by man.  I don't buy it. And until you prove it, don't peddle your poo as  "CASED CLOSED"!

Yup...Criton's book, State of Fear, was aptly named.

http://www.srs.fs.usda.gov/sustain/draft/histry/histry-40.htm#P338_102405

A couple of factors have retarded global CO2 accumulation in the last 50 or so years:

• it appears the oceans are absorbing more CO2 than they were, which is evidenced by the increase in oceanic acidity.  This makes sense in basic chemistry (more CO2, more CO2 exchanged between ocean and atmosphere)

• the developed world has had a massive 'regreening'.  It is sobering to think that in 1870, much of New England was deforested.  Go there now, and it is covered in dense trees-- but they've only been there a century.  The farming was actually bad, and the farmers migrated to the mills, or to the Great Plains as the railways opened those up after the Civil War.

Similar forest management policies have been followed in Germany, France, Japan, since at least the 1870s.  I think Bismark was the one who started planting forests en masse (to improve his hunting, in part).

however  the bad news is it appears that whilst an immature temperate forest absorbs CO2, a mature one releases it (trees die and decay).  So that process is more or less over.  

And looking at estimates of urban and suburban tree cover, the Berkeley Energy Conservation team (the one who discovered the 'urban heat island effect' that you could reduce air conditioning loads by 10% if you made roofs lightly coloured: this is now reflected in a number of local ordnances in the US), showed that urban/suburban tree cover has declined by about 25% in the last 30 years in the US.

So its not likely we are going to have a lot more new trees, at least in developed countries.  And the existing ones aren't going to help our case.

I asked him about peak oil and its impact on climate change (he had presented several ~50-year graphs and I wondered about their base assumptions). I didn't get the impression he really knew anything about peak oil, repeating the common arguments of higher prices making more reserves available and "vast amounts of oil in Canada" etc... I don't believe an imminent peak in oil extraction is on his radar. I had hoped that due to his broad experience and senior position in the scientific community he would have an awareness of imminent peak.

As james Leggett (Solar Century CEO) put it 'on global warming, you meet reasonable people in the oil and gas industry who will consider your arguments.  You do not meet reasonable people in the coal industry'.

A better tack is to get at the power utilities and the power utility regulators, and make them use 'best practice' CO2 technologies.

What we need to do now is get as many IGCCs built as possible.  Because the jump from IGCC to carbon sequestration is a very small one, and relatively cheap.

The other is to make sure as much wind and nuclear capacity gets built as possible, and energy saving technologies are deployed fully.

A lot of that subsidy will be wasted, either encouraging the wrong technologies, or in subsidising activity that would already have taken place.

(the exception being where you are trying to establish a market, get economies of scale and technology spillovers happening.  This more or less happened in Silicon Valley during the first 20 years (the US defence department funded a lot of it) and the aerospace industry (WWII and then Korea funded the creation of the airliners).