Warming Caused by Soot, Not CO2
From the Resilient Earth
Submitted by Doug L. Hoffman on Wed, 07/15/2009 – 13:19
A new paper in Science reports that a careful study of satellite data show the assumed cooling effect of aerosols in the atmosphere to be significantly less than previously estimated. Unfortunately, the assumed greater cooling has been used in climate models for years. In such models, the global-mean warming is determined by the balance of the radiative forcings—warming by greenhouse gases balanced against cooling by aerosols. Since a greater cooling effect has been used in climate models, the result has been to credit CO2 with a larger warming effect than it really has.
This question is of great importance to climate modelers because they have to be able to simulate the effect of GHG warming in order to accurately predict future climate change. The amount of temperature increase set into a climate model for a doubling of atmospheric CO2 is called the model’s sensitivity. As Dr. David Evans explained in a recent paper: “Yes, every emitted molecule of carbon dioxide (CO2) causes some warming—but the crucial question is how much warming do the CO2 emissions cause? If atmospheric CO2 levels doubled, would the temperature rise by 0.1°, 1.0°, or by 10.0° C?”
Temperature sensitivity scenarios from IPCC AR4.
The absorption frequencies of CO2 are already saturated, meaning that the atmosphere already captures close to 100% of the radiation at those frequencies. Consequently, as the level of CO2 in the atmosphere increases, the rise in temperature for a given increase in CO2 becomes smaller. This sorely limits the amount of warming further increases in CO2 can engender. Because CO2 on its own cannot account for the observed temperature rise in the past century, climate modelers assume that linkages exist between CO2 and other climate influences, mainly water vapor (for a more detailed explanation of what determines the Global Warming Potential of a gas see my comment “It’s not that simple”).
To compensate for the missing “forcing,” models are tuned to include a certain amount of extra warming linked to carbon dioxide levels—extra warming that comes from unestablished feedback mechanisms whose existence is simply assumed. Aerosol cooling and climate sensitivity in the models must balance each other in order to match historical conditions. Since the climate warmed slightly last century the amount of warming must have exceeded the amount of cooling. As Dr. Roy Spencer, meteorologist and former NASA scientist, puts it: “They program climate models so that they are sensitive enough to produce the warming in the last 50 years with increasing carbon dioxide concentrations. They then point to this as ‘proof’ that the CO2 caused the warming, but this is simply reasoning in a circle.”
A large aerosol cooling, therefore, implies a correspondingly large climate sensitivity. Conversely, reduced aerosol cooling implies lower GHG warming, which in turn implies lower model sensitivity. The upshot of this is that sensitivity values used in models for the past quarter of a century have been set too high. Using elevated sensitivity settings has significant implications for model predictions of future global temperature increases. The low-end value of model sensitivity used by the IPCC is 2°C. Using this value results, naturally, in the lowest predictions for future temperature increases. According to the paper “Consistency Between Satellite-Derived and Modeled Estimates of the Direct Aerosol Effect” published in Science on july 10, 2009, Gunnar Myhre states that previous values for aerosol cooling are too high—by as much as 40 percent—implying the IPCC’s model sensitivity settings are too high also. Here is the abstract of the paper:
In the Intergovernmental Panel on Climate Change Fourth Assessment Report, the direct aerosol effect is reported to have a radiative forcing estimate of –0.5 Watt per square meter (W m–2), offsetting the warming from CO2 by almost one-third. The uncertainty, however, ranges from –0.9 to –0.1 W m–2, which is largely due to differences between estimates from global aerosol models and observation-based estimates, with the latter tending to have stronger (more negative) radiative forcing. This study demonstrates consistency between a global aerosol model and adjustment to an observation-based method, producing a global and annual mean radiative forcing that is weaker than –0.5 W m–2, with a best estimate of –0.3 W m–2. The physical explanation for the earlier discrepancy is that the relative increase in anthropogenic black carbon (absorbing aerosols) is much larger than the overall increase in the anthropogenic abundance of aerosols.
The complex influence of atmospheric aerosols on the climate system and the influence of humans on aerosols are among the key uncertainties in the understanding recent climate change. Rated as one of the most significant yet poorly understood forcings by the IPCC there has been much activity in aerosol research recently (see Airborne Bacteria Discredit Climate Modeling Dogma and African Dust Heats Up Atlantic Tropics). Some particles absorb sunlight, contributing to climate warming, while others reflect sunlight, leading to cooling. The main anthropogenic aerosols that cause cooling are sulfate, nitrate, and organic carbon, whereas black carbon absorbs solar radiation. The global mean effect of human caused aerosols (in other words, pollution) is a cooling, but the relative contributions of the different types of aerosols determine the magnitude of this cooling. Readjusting that balance is what Myhre’s paper is all about.
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Discrepancies between recent satellite observations and the values needed to make climate models work right have vexed modelers. “A reliable quantification of the aerosol radiative forcing is essential to understand climate change,” states Johannes Quaas of the Max Planck Institute for Meteorology in Hamburg, Germany. Writing in the same issue of Science Dr. Quaas continued, “however, a large part of the discrepancy has remained unexplained.” With a systematic set of sensitivity studies, Myhre explains most of the remainder of the discrepancy. His paper shows that with a consistent data set of anthropogenic aerosol distributions and properties, the data-based and model-based approaches converge.
Myhre argues that since preindustrial times, soot particle concentrations have increased much more than other aerosols. Unlike many other aerosols, which scatter sunlight, soot strongly absorbs solar radiation. At the top of the atmosphere, where the Earth’s energy balance is determined, scattering has a cooling effect, whereas absorption has a warming effect. If soot increases more than scattering aerosols, the overall aerosol cooling effect is smaller than it would be otherwise. According to Dr. Myhre’s work, the correct cooling value is some 40% less than that previously accepted by the IPCC.
Not that climate modelers are unaware of the problems with their creations. Numerous papers have been published that detail problems predicting ice cover, precipitation and temperature correctly. This is due to inadequate modeling of the ENSO, aerosols and the bane of climate modelers, cloud cover. Apologists for climate modeling will claim that the models are still correct, just not as accurate or as detailed as they might be. Can a model that is only partially correct be trusted? Quoting again from Roy Spencer’s recent blog post:
It is also important to understand that even if a climate model handled 95% of the processes in the climate system perfectly, this does not mean the model will be 95% accurate in its predictions. All it takes is one important process to be wrong for the models to be seriously in error.
Can such a seemingly simple mistake in a single model parameter really lead to invalid results? Consider the graph below, a representation of the predictions made by James Hansen to the US Congress in 1988, plotted against how the climate actually behaved. Pretty much what one would expect if the sensitivity of the model was set too high, yet we are still supposed to believe in the model’s results. No wonder even the IPCC doesn’t call their model results predictions, preferring the more nebulous term “scenarios.”
Now that we know the models used by climate scientists were all tuned incorrectly what does this imply for the warnings of impending ecological disaster? What impact does this discovery have on the predictions of melting icecaps, rising ocean levels, increased storm activity and soaring global temperatures? Quite simply they got it wrong, at least in as much as those predictions were based on model results. To again quote from David Evans’ paper:
None of the climate models in 2001 predicted that temperatures would not rise from 2001 to 2009—they were all wrong. All of the models wrongly predict a huge dominating tropical hotspot in the atmospheric warming pattern—no such hotspot has been observed, and if it was there we would have easily detected it.
Once again we see the shaky ground that climate models are built on. Once again a new paper in a peer reviewed journal has brought to light significant flaws in the ways models are configured—forced to match known historical results even when erroneous values are used for fundamental parameters. I have said many times that, with enough tweaking, a model can be made to fit any set of reference data—but such bogus validation does not mean the model will accurately predict the future. When will climate science realize that its reputation has been left in tatters by these false prophets made of computer code?
Be safe, enjoy the interglacial and stay skeptical.
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ADDENDUM BY ANTHONY
I’d like to add this graph showing CO2’s temperature response to supplement the one Doug Hoffman cites from IPCC AR4. here we see that we are indeed pretty close to saturation of the response.
The “blue fuzz” represents measured global CO2 increases in our modern times.
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Hans Erren (00:08:35) :I think it is more appropriate to graph CO2 the way it is shown here. The concentration is increasing almost linearly with time, it isn’t doubling with time. Therefore the chart makes clear the behavior as a unit of CO2 is added. Anyway, the behavior is the same no matter how you chart it.
Bernie and Anthony,
How does the saturation relate to the global imbalance of CO2?
Does the animation (you have shown it many times) from the NOAA site indicate that the earth “breathes” almost exclusively in the northern hemisphere?
http://www.esrl.noaa.gov/gmd/ccgg/globalview/
Nick Stokes and DJ
Thanks for the criticism of elements of the posting, but please give the courtesy of also addressing the main issue re aerosols. Otherwise some might get the impression that you are merely using a diversionary tactic.
Anthony, I very much appreciate the chart. I have frequently heard about the decreasing impact of increasing CO2, but had never seen how close we were to nil effect. The graphic will help me in my personal battle against warmists and starry-eyed 20-somethings that think Lord Obama can do no wrong.
As a layman (and businessman, not scientist), this would seem to fit nicely in what one could observe if China has been the source of more heat-absorbing soot. While natural or man-made forces are still not well understood, the warming of recent decades corresponds nicely to the rise of China’s coal-fueled manufacturing prominence. We all recognize the irony of unilaterally punishing the US economy by forcing more manufacturing to China under cap-and-trade, but this lunacy would be even more severe than our leaders in the US politburo could ever imagine if the relative soot emissions from our coal plants are only a fraction of that from China whereas our CO2 emissions are more similar.
Can anyone point me to a study of relative soot emissions from major economies?
If soot is a bigger driver than marginal CO2 in warming the climate and China’s soot emissions are much greater than those in the US, shouldn’t we be doing everything in our power to INCREASE the US manufacturing base and slow the growth of China’s? Cap-and-trade (and other policies of our Dear Leader) have us barreling in the opposite direction.
God help us.
If the cooling effect of aerosols is lowered, then that leads to more warming, not less! Look for climate modelers to move their predictions higher as a result of this.
Also, to use that graph to evaluate Hansen’s model, you need to establish that Scenario A matches what actually happened. Steve McIntyre concluded Scenario B was the most likely(Post 2645).
Please rephrase “the assume greater cooling” so we know whether they assume greater cooling, they assumed greater cooling, the assumed greater cooling, or theta sum greater cooling.
Remarkable: Despite higher CO2 levels!
Record challenging cool wave, temperatures to drop 23 degree below normal!
The high temperature at International Falls, Minn., Thursday will be a mere 56 degrees; this is an incredible 23 degrees below normal. This very cool air mass will impact the entire Midwest and Great Lakes over the next 72 hours. The turn to cooler weather will be felt as far south as Mississippi and Alabama this weekend. The northern parts of those two states will have highs barely above 80 with sunshine Saturday, which is almost unheard of in July. From northern Tennessee into Kentucky, readings in the upper 70s will be the rule this weekend, and some 50s will show up at night. In both Chicago and Detroit the temperature will do well to reach 70 Saturday afternoon.
The cool wave can attributed to a large southward undulation of the jet stream which is drawing polar air out of central Canada. Normally, the jet stream is much weaker and much farther north this time of year.
Story by AccuWeather.com Expert Senior Meteorologist John Kocet.
http://www.accuweather.com/news-story.asp?partner=rss&article=4
Climate modelers used aerosol cooling as their explanation of the cooling in the mid 20th century. This is going to screw up their whole century.
I worked hard to understand this since it struck me as a reasoned and reasonable and very important contribution to this subject. Combined with the Nature Geoscience paper and RealClimate’s less strident stance, as well as Richard Courtney’s comments:
http://www.climatedepot.com/a/1979/UN-IPCC-Scientist–Global-warming-propagandists-have-recognized-that-their-natural-climate-change-denial-of-the-last-decade-is-not-sustainable-anymore
I saw something that might allow a proper debate between the serious scientists on both sides of the argument.
Unfortunately not. Before we have any chance to consider the implications we have DJ complaining that he is being censored (something I am not aware of happening on this blog) and doing his best to pick holes in Hoffman’s contribution (for which many thanks, by the way).
Is there any possibility that common sense will eventually surface and those who currently take pro- or anti- views on the science can come to a common view at least as to how the research should be carried out?
I realise that fanatics like Hansen, Gore, Holdren, Monbiot et al are probably so deeply mired in their belief systems that they are beyond salvation but there must be some rational scientists left out there who are still prepared to admit that there might be “more things in heaven and earth then are dreamt of in [their] philosophy”.
DJ (01:51:27) :
Please note that I am not a climate scientist nor a modeller, but scientifically educated to be sceptical.
It seems to me that whilst you complain correctly about the cherry-picking of Hansen’s Scenario A to compare with subsequently measured lower temperatures, you are yourself being disingenuous. This is why it seems to me that Hansen et al were attempting to predict the future:
In the paper reference http://www.pnas.org/content/103/39/14288.full which you cite, Hansen wrote, “The congressional testimony in 1988 (13) included a graph (Fig. 2) of simulated global temperature for three scenarios (A, B, and C) and maps of simulated temperature change for scenario B. The three scenarios were used to bracket likely possibilities.”
If the three scenarios were used to bracket ‘likely possibilities’, that says to me that Hansen was predicting that future temperature would fall within the range projected by scenarios A (higher) to C (lower). If Doug L. Hoffman had included Scenarios B and C in the graph which (you complain) contains only Scenario A, the measured, recently experienced temperatures would be seen to be dramatically below those projected by A, significantly below those projected by B and approximately up to the whole bracket range below the temperatures projected by C.
The likely possibilities predicted by Hansen have failed to materialise.
I should appreciate your comments.
First, The ones who don’t understand the terms ‘scenario’ and ‘projection’ are the global warming alarmists. After all, they are the ones using climate model outputs as they were the word of God. You cannot dictate world politics based on projections, but apparently, you can if you believe they are accurate predictions.
And second, for a good study of Hansen 1988 scenarios A, B and C versus reality, check out Lucy Skywalker’s Blackboard:
http://rankexploits.com/musings/2008/temperature-anomaly-compared-to-hansen-a-b-c-giss-seems-to-overpredict-warming/
You’ll find out that the projection for Scenario B was far from good. Projection C is the closest to what actually happened. It is really simple to figure out by using your link too, actually, since Scenario B projects an increment of temperatures during the last 10 years, increment that didn’t happen.
You beat me on that.
Clouds are aerosols.
Dave in Delaware (05:29:28) :
re DJ (01:51:27) :
“The effects of cloud cover were effectively removed by using a cloud-clearing algorithm.”
Another Al Gore ithm.
Murray Carpenter (05:33:17) :
Good question.
I would think we might be “up to half a brick by now!!” But I haven’t done the math(s).
What must have an effect on sea level though must be the thousands of miles of ever erupting submarine volcanoes along the mid ocean ridges. And also the thousands of miles of subduction zones.
The boxing day 2004 tsunami earthwquake was caused by the east Indian Ocean plate being uplifted by about 10m if I recall. The plate is about 1000km long by a couple of hundred kilometres wide. That’s a fair sized brick!
Nick Stokes wrote:
Mr Hoffman clearly doesn’t understanding the usage of scenario. It is not another word for prediction. It’s an input that is determined by human decisions, and can’t be predicted scientifically. In Hansen’s 1988 paper, it referred to future CO2 emission. He said CO2 emission might, depending on governments, increase exponentially (scenario A), linearly (B) or tail off (C). He calculated a projection for each scenario.
As it turned out, CO2 did not increase exponentially. It was close to linear (scenario B). It is thoroughly misleading to plot the scenario A case as if it was Hansen’s projection. The projection for scenario B, the CO2 emission that did occur, was very good.
Actually, the CO2 growth rate has increased in recent years faster than expected, bringing the emission levels closer to scenario A than B.
Ooops, the second paragraph also should have been quoted.
If SO2 is one of the cooling sulfates, is its cleanup from our smokestacks and tailpipes, done to mitigate “acid rain”, now going to be exploited by the proponents of AGW?
Bob
DJ said: “Given 2 of 3 comments have been gagged today – don’t anticipate this one to get through the fact filter.”
There are numerous ways of complaining about censorship but it’s interesting that you chose a completely irrational one. Without a computer model I can’t really anticipate something that has already happened. I assume that you didn’t anticipate your comment getting through the fact filter, so, your recommendation that we not anticipate it was addressed to the ether (or the ethereal moderator).
As for scenarios A and B; they are not that far apart at 2010. Observations, on the other hand, are not very close, even when only brought to 2005.
I don’t recall where I saw them, but when searching for CO2 absorbtion frequencies escaping to space the only areas that had this IR radiation being picked up in space was at the poles. I wondered at the time if this was due to polar temperature.
OT — According to weather.com Ann Arbor, MI has set a MONTHLY low temperature record for both the month of June and July of this year:
http://www.weather.com/weather/monthly/48103?month=0
http://www.weather.com/weather/monthly/48103?month=-1
It reached 33 degrees on June 5th and 42 degrees and July 14th, both records for their respective month. It has been a very mild summer so far here, to say the least.
Obviously, file under weather not climate.
What warming? What sea level rise (we’re not even close to the highest sea levels reached during the early Holocene)? What catastrophe?
One should remember that the spectral absorption lines are much narrower than potrayed in most of these. CO2 absorbs at many discrete wavelengths not just a block for example from 4 to 5 um A more detailed transmissio plot of the atmosphere is given below:
http://img151.imageshack.us/img151/278/atmtransmwave.jpg
A research paper showing the narrowness of the bands for water/ch4/co2 is available here:
http://www.dtic.mil/cgi-bin/GetTRDoc?AD=ADA039380&Location=U2&doc=GetTRDoc.pdf
Note that as pressure increases absorption increases (i.e. more nearer ground)
Note that as temp changes from 245 to 310 the absoption peak changes from 13.86um to 13.89um which will mean high level co2 will absorb a different wavelength to ground level. As DJ said in DJ (01:51:27) : CO2 is not saturated. it is nearing saturation!
I’m somewhat confuddled now on Hansen’s three scenarios. My understanding is that Scenario A was what Hansen expected if there were no effective efforts to reduce C02. He called it “Business as usual” and assumed C02 growth rates of the 1970s and 1980s would continue indefinitely. Scenario C was described as “draconian measures”.
If people are saying that we’re really on “Scenario B” now, isn’t that the same as admitting there has already been significant effective reduction of the growth of C02 in the atmosphere?
geo, that was my take exactly. It shows that we don’t in fact, need draconian measures (such as moving the world to centrally planned socialism/communism economies)…
“Scenario A assumes continued exponential trace gas growth, scenario B assumes a reduced linear linear growth of trace gases, and scenario C assumes a rapid curtailment of trace gas emissions such that the net climate forcing ceases to increase after the year 2000.”
Hansen’s 1988 Abstract…LINK
Hansen’s 1988 Full Text…LINK