Guest Post by Willis Eschenbach
[UPDATE]: I have added a discussion of the size of the model error at the end of this post.
Over at Judith Curry’s climate blog, the NASA climate scientist Dr. Andrew Lacis has been providing some comments. He was asked:
Please provide 5- 10 recent ‘proof points’ which you would draw to our attention as demonstrations that your sophisticated climate models are actually modelling the Earth’s climate accurately.
To this he replied (emphasis mine),
Of note is the paper by Hansen, J., A. Lacis, R. Ruedy, and Mki. Sato, 1992: Potential climate impact of Mount Pinatubo eruption. Geophys. Res. Lett., 19, 215-218, which is downloadable from the GISS webpage.
It contains their model’s prediction of the response to Pinatubo’s eruption, a prediction done only a few months after the eruption occurred in June of 1991:
Figure 1. Predictions by NASA GISS scientists of the effect of Mt. Pinatubo on global temperatures. Scenario “B” was Hansen’s “business as usual” scenario. “El” is the estimated effect of a volcano the size of El Chichón. “2*El” is a volcano twice the size of Chichón. The modelers assumed the volcano would be 1.7 times the size of El Chichón. Photo is of Pinatubo before the eruption.
Excellent, sez’ I, we have an actual testable prediction from the GISS model. And it should be a good one if the model is good, because they weren’t just guessing about inputs. They were using early estimates of aerosol depth that were based on post-eruption observations. But with GISS, you never know …
Here’s Lacis again talking about how the real-world outcome validated the model results. (Does anyone else find this an odd first choice when asked for evidence that climate models work? It is a 20-year-old study by Lacis. Is this his best evidence he has?) But I digress … Lacis says further about the matter:
There we make an actual global climate prediction (global cooling by about 0.5 C 12-18 months following the June 1991 Pinatubo volcanic eruption, followed by a return to the normal rate of global warming after about three years), based on climate model calculations using preliminary estimates of the volcanic aerosol optical depth. These predictions were all confirmed by subsequent measurements of global temperature changes, including the warming of the stratosphere by a couple of degrees due to the volcanic aerosol.
As always, the first step in this procedure is to digitize their data. I use a commercial digitizing software called “GraphClick” on my Mac, there are equivalent programs for the PC, it’s boring tedious hand work. I have made the digitized data available here as an Excel worksheet.
Being the untrusting fellow that I am, I graphed up the actual temperatures for that time from the GISS website. Figure 2 shows that result, along with the annual averages of their Pinatubo prediction (shown in detail below in Figure 3), at the same scale that they used.
Figure 2. Comparison of annual predictions with annual observations. Upper panel is Figure 2(b) from the GISS prediction paper, lower is my emulation from digitized data. Note that prior to 1977 the modern version of the GISS temperature data diverges from the 1992 version of the temperature data. I have used an anomaly of 1990 = 0.35 for the modern GISS data in order to agree with the old GISS version at the start of the prediction period. All other data is as in the original GISS prediction. Pinatubo prediction (blue line) is an annual average of their Figure 3 monthly results.
Again from their paper:
Figure 2 shows the effect of E1 and 2*El aerosol son simulated global mean temperature. Aerosol cooling is too small to prevent 1991 from being one of the warmest years this century, because of the small initial forcing and the thermal inertia of the climate system. However, dramatic cooling occurs by 1992, about 0.5°C in the 2*El case. The latter cooling is about 3 σ [sigma], where σ is the interannual standard deviation of observed global annual-mean temperature.This contrasts with the 1-1/2 σ coolings computed for the Agung (1963)and El Chichon (1982) volcanos
So their model predicted a large event, a “three-sigma” cooling from Pinatubo.
But despite their prediction, it didn’t turn out like that at all. Look at the red line above showing the actual temperature change. If you didn’t know there was a volcano in 1991, that part of the temperature record wouldn’t even catch your eye. Pinatubo did not cause anywhere near the maximum temperature swing predicted by the GISS model. It was not a three-sigma event, just another day in the planetary life.
The paper also gave the monthly predicted reaction to the eruption. Figure 3 shows detailed results, month by month, for their estimate and the observations.
Figure 3. GISS observational temperature dataset, along with model predictions both with and without Pinatubo eruptions. Upper panel is from GISS model paper, lower is my emulation. Scenario B does not contain Pinatubo. Scenario P1 started a bit earlier than P2, to see if the random fluctuations of the model affected the result (it didn’t). Averages are 17-month Gaussian averages. Observational (GISS) temperatures are adjusted so that the 1990 temperature average is equal to the 1990 Scenario B average (pre-eruption conditions). Photo Source
One possibility for the model prediction being so far off would be if Pinatubo didn’t turn out to be as strong as the modelers expected. Their paper was based on very early information, three months after the event, viz:
The P experiments have the same time dependence of global optical depth as the E1 and 2*El experiments, but with r 1.7 times larger than in E1 and the aerosol geographical distribution modified as described below. These changes crudely account for information on Pinatubo provided at an interagency meeting in Washington D.C. on September 11 organized by Lou Walter and Miriam Baltuck of NASA, including aerosol optical depths estimated by Larry Stowe from satellite imagery.
However, their estimates seem to have been quite accurate. The aerosols continued unabated at high levels for months. Optical depth increased by a factor of 1.7 for the first ten months after the eruption. I find this (paywall)
Dutton, E. G., and J. R. Christy, Solar radiative forcing at selected locations and evidence for global lower tropospheric cooling following the eruptions of El Chichon and Pinatubo, Geophys. Res. Lett., 19, 2313-1216, 1992.
As a result of the eruption of Mt. Pinatubo (June 1991), direct solar radiation was observed to decrease by as much as 25-30% at four remote locations widely distributed in latitude. The average total aerosol optical depth for the first 10 months after the Pinatubo eruption at those sites is 1.7 times greater than that observed following the 1982 eruption of El Chichon
and from a 1995 US Geological Service study:
The Atmospheric Impact of the 1991 Mount Pinatubo Eruption ABSTRACT
The 1991 eruption of Pinatubo produced about 5 cubic kilometers of dacitic magma and may be the second largest volcanic eruption of the century. Eruption columns reached 40 kilometers in altitude and emplaced a giant umbrella cloud in the middle to lower stratosphere that injected about 17 megatons of SO2, slightly more than twice the amount yielded by the 1982 eruption of El Chichón, Mexico. The SO2 formed sulfate aerosols that produced the largest perturbation to the stratospheric aerosol layer since the eruption of Krakatau in 1883. … The large aerosol cloud caused dramatic decreases in the amount of net radiation reaching the Earth’s surface, producing a climate forcing that was two times stronger than the aerosols of El Chichón.
So the modelers were working off of accurate information when they made their predictions. Pinatubo was just as strong as they expected, perhaps stronger.
Finally, after all of that, we come to the bottom line, the real question. What was the difference in the total effect of the volcano, both in observations and in reality? What overall difference did it make to the temperature?
Looking at Fig. 3 we can see that there is a difference in more than just maximum temperature drop between model results and data. In the model results, the temperature dropped earlier than was observed. It also dropped faster than actually occurred. Finally, the temperature stayed below normal for longer in the model than in reality.
To measure the combined effect of these differences, we use the sum of the temperature variations, from before the eruption until the temperature returned to pre-eruption levels. It gives us the total effect of the eruption, in “degree-months”. One degree-month is the result of changing the global temperature one degree for one month. It is the same as lowering the temperature half a degree for two months, and so on.
It is a measure of how much the volcano changed the temperature. It is shown in Fig. 3 as the area enclosed by the horizontal colored lines and their respective average temperature data (heavier same color lines). These lines mark the departure from and return to pre-eruption conditions. The area enclosed by each of them is measured in “degree – months” (degrees vertically times months horizontally).
The observations showed that Pinatubo caused a total decrease in the global average temperature of eight degree-months. This occurred over a period of 46 months, until temperatures returned to pre-eruption levels.
The model, however, predicted twice that, sixteen degree-months of cooling. And in the model, temperatures did not return to pre-eruption conditions for 63 months. So that’s the bottom line at the end of the story — the model predicted twice the actual total cooling, and predicted it would take fifty percent longer to recovery than actually happened … bad model, no cookies.
Now, there may be an explanation for that poor performance that I’m not seeing. If so, I invite Dr. Lacis or anyone else to point it out to me. Absent any explanation to the contrary, I would say that if this is his evidence for the accuracy of the models, it is an absolute … that it is a perfect … well, upon further reflection let me just say that I think the study and prediction is absolutely perfect evidence regarding the accuracy of the models, and I thank Dr. Lacis for bringing it to my attention.
[UPDATE] A number of the commenters have said that the Pinatubo prediction wasn’t all that wrong and that the model didn’t miss the mark by all that much. Here’s why that is not correct.
Hansen predicted what is called a “three sigma” event. He got about a two sigma event (2.07 sigma). “Sigma” is a measure of how common it is for something to occur. However, it is far from linear.
A two sigma event is pretty common. It occurs about one time in twenty. So in a dataset the size of GISSTEMP (130 years) we would expect to find somewhere around 130/20 = six or seven two sigma interannual temperature changes. These are the biggest of the inter-annual temperature swings. And in fact, there are eight two-sigma temperature swings in the GISSTEMP data.
A three sigma event, on the other hand, is much, much rarer. It is a one in a thousand event. The biggest inter-annual change in the record is 2.7 sigma. There’s not a single three sigma year in the entire dataset. Nor would we expect one in a 130 year record.
So Hansen was not just making a prediction of something usual. He was making a prediction that we would see a temperature drop never before seen, a once in a thousand year drop.
Why is this important? Remember that Lacis is advancing this result as a reason to believe in climate models.
Now, suppose someone went around saying his climate model was predicting a “thousand-year flood”, the huge kind of millennial flood never before seen in people’s lifetimes. Suppose further that people believed him, and spent lots of money building huge levees to protect their homes and cities and jacking up their houses above predicted flood levels.
And finally, suppose the flood turned out to be the usual kind, the floods that we get every 20 years or so.
After that, do you think the flood guy should go around citing that prediction as evidence that his model can be trusted?
But heck, this is climate science …
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There is no evidence there was a drop in temperature when we are talking about tiny decimal values.
There is no evidence that the drop in temperature – if real- was due to Mount Pinatubo eruption.
Besides -if we assume that temperature was well measured – why Mount Pinatubo supposedly made some parts of World colder and others hotter?
The NASA sells us crap, and Willis answers with their crap.
Theo Goodwin says:
December 29, 2010 at 1:30 pm
MaxL says:
December 29, 2010 at 12:28 pm
“So my suggestion is that you be very specific, from the start, as to exactly what you are verifying and what your criteria of good/bad performance is.”
MaxL, your general comments are appreciated. But don’t you think Willis nailed this one, as he explains in the following:
“So their model predicted a large event, a “three-sigma” cooling from Pinatubo.
———
Yes, you are absolutely correct, Willis showed reality did not match a 3-sigma cooling as the model predicted. That is what the conclusion should reinforce if that was the original intent. It is not up to the author to decide whether this is then a universally bad model…and does not deserve a cookie. Whether this is a good model or bad model would depend on the individual user’s needs. In some cases it may be good enough where other cases may demand much more accuracy. Maybe this is a bit nit-picky but that is what science research should be about.
Theo Goodwin says:
December 29, 2010 at 1:22 pm
Thnx for taking the time to respond to my post. You say..
That’s a matter of perception. I’ve followed Willises challenges to scientists for a while now and tried to encourage them to engage with Willis. They don’t. At best one may have a go at Willis for posting at “non-science” forums like WUWT but they just don’t engage him in the substance of his articles.
TO THEM, Willis is cracking a whip (which makes a horse unused to a whip crack bolt.)
I used a whip crack as an analogy for direct no BS critique and engagement in the science presented. This is what Willis does, to the pleasure and education of the rest of us. But as you say…
In other words, these people, all belonging to the same club, have never critiqued each others work as Willis does. They are not used to the whip cracking.
In fact they often support each others work pig-headedly despite numerous studies pointing out their flaws. The hockey stick being a prime example, and this post by Willis yet another.
So we are in agreement then, no?
if there was no drop, or on one sigma drop) in the temperature following a known increase in aerosols what are we to make of the models including a huge level of aerosol cooling. Indeed, in many models aerosol dimming balances GHG increases.
Robert E. Phelan says:
December 29, 2010 at 6:30 am . Government work, indeed. Measure it with a micrometer, mark it with a grease pencil, cut it with an axe.
Baa Humbug says:
December 29, 2010 at 2:24 pm
Do not label what Willis is doing as whip cracking. Willis is doing ordinary science. Pointing out errors in other scientists’ work is part of the duties of a scientist. Presenting your work fully and openly as a means of helping others find errors in your work is the fundamental duty of a scientist. Scientific Method demands humility of its practitioners. What the Climategate folks did, especially Jones and Mann, is totally unacceptable. Now, you are blaming Willis because he does not avoid criticism of scientists for the purpose of enticing them into a conversation? Converation about what? If he can never point out their mistakes, there is no scientific conversation.
Willis,
Nice article.
Thanks.
John
Good post again Willis. I would appreciate your comments and those of other posters on something slightly OT but very much related. 1988 was reportedly the hottest summer in the US for 52 years and James Hansen, without the backing of NASA, had put his reputation and credibility on the line by appearing before a US Committee to propound his alarmist AGW views.
1989, 1990 and early 1991 showed significant cooling in many parts of the world before the June 15 1991 eruption of Mt.Pinatubo which no doubt exacerbated the downward fall in temperatures. Check the clickable map on the GISS Surface Temperature Analysis site to confirm this for yourselves. The Surface Stations in my home State of Tasmania, Australia show the falls particularly well.
With the cooling that was already underway, Hansen, other scientists and believers supporting the AGW hypothesis must have been put under extreme pressure by critics within and outside NASA. Luckily for them, the eruption seems to have allowed them to get away with ignoring the fact of cooling starting in 1989 and falsely claiming Pinatubo as the main, or even entire reason for the fall. Most temperature graphs of the period, even on Dr.Roy Spencer’s site, perpetuate what is IMHO this somewhat misleading position.
Significantly, following this four-year plunge in temperatures, what E.M.Smith on his excellent Musings from Chiefio website aptly termed “The Great Dying of Thermometers”, took place. In Tasmania, the number of stations from which data was used reduced from the mid-twenties to just two, Hobart and Launceston Airports.
Many may well see this period as the real start of the bastardisation of the raw data.
I don’t think the warmists models are working!
http://blogs.news.com.au/heraldsun/andrewbolt/index.php/heraldsun/comments/i_dont_think_the_warmists_models_are_working/
From Joe Bastardi:
WEDNESDAY, DEC. 29
CAN I BOTHER YOU FOR A MINUTE?
First of all, watch closely, boys and girls, how the core of the worst cold the rest of the winter is southeast of where it has been. The thaw you see now in the northwest is not the end of winter, but the end of that part of the winter… more back and forth now for the UK and Ireland, which is fun and certainly not done, but the worst is over relative to averages. However, over the heart of the continent, you’ve seen bad, and you may again see just as bad (I don’t have the heart to say worse).
I want to ask you a question. If you were in a fight and thought your opponent was finished then all of a sudden he hit you with some thundering shots, wouldn’t you at least think that the fight was not finished. At the least… okay? Common sense? Now even though I BELIEVE this is the start of the cooling over the next 20-30 years in a jagged fashion down, so we are back in the late 1970s according to satellite temps (again all the adjustment to temps being made by people is in the pre satellite era where they are free to do whatever they want with no current measuring crosscheck, which should also make you wonder), I am not willing to say, okay you guys are cooked. You know why? Because even though I think they are, I understand that no fight is done until it’s over and one side is driven from the field. So my personal feeling that it’s over really doesn’t matter, what matters is that you have people that are ignoring major physical realities either by being deceptive, or ignorant of what temperature really is… a measure of energy! And the fact is the higher the average temp is the more the variance in temp has an effect on the global energy budget. I have talked with Joe D’Aleo about a work-up of this to drive home the point about the blocking. It takes much less energy to warm a gas 10 degrees from from the surface up when the average temp is let’s say 0, then it does to cool the atmosphere a few degrees where the normal temp is 40. And when we try to quantify the amount of energy being lost in the tropical Pacific by the cooling there, it BLOWS AWAY the warming in the Arctic. It’s an effective governor on the Earth’s temps and is a precursor to what will be a major switch in the Northern Hemisphere… and once that happens, with the land masses, the temps will really fall. Anyone been watching the Southern Hemisphere, where a lot of the first warning shots started to be fired a few years ago? You can make all the excuses you want, but if you are going to argue the contraction of Northern Hemisphere sea ice is a sign of warming, since the continents are warmed because of previous ocean cycles, then you can’t walk away from the reality of what has to be going on in the hemisphere with the most ocean, and hence a higher energy consideration where sea ice is increasing! Only in a world of fantasy can you think you can have it both ways!!! And the physics of the situation argues against you trying to use the temperature as a metric to determine whether the climate is actually warming in a permanent fashion, or there is simply a distortion of where temperatures are being measured higher, since the amount of energy DECREASES rapidly with temp loss. It takes next to nothing to raise temps that much in the Arctic; it takes a heck of a lot to drop them in the tropics!!!
But all this being said, you can see the crash already starting as forecast here back in the spring on the temps. So if you want to use temps as the metric, I say the fight is still on, and on big time and these people saying it’s over, or explaining that a fight back is a sign they are winning, are either being deceptive or delusional to the idea that they are absolutely right and what is happening is because of what they say. At the very least, it’s a sign that we should let it play out.
The real thing we should be looking at is if there is an accumulation of energy in the Earth’s atmosphere system. Simple temperatures given equal weight energy wise to low and high values would be laughed out of any classroom if one is trying to quantify the total energy! It’s basic. Why do you think there is weather? Because of the constant fight to even out imbalance. Why is there overrunning? Warmer, more moist air with more energy cannot push out a cold, stable air mass with less energy, so it’s forced up and over. The molecules get more excited when they are warmed… etc., etc.
In a way, the whole thing is a bit amusing, if it wasn’t that it could be enslaving.
Ciao for now.
I feel sorry for the little electron people in the GISS mainframe. Not only did they have to suffer a long hard winter after the simulated Pinatubo eruption, they had to do so in the face of catastrophic climate change after it was arbitrarily decided by their gods that CO2 was the most significant forcing in their world. To compound their misery, even if they halt their simulated GHG emissions, the warming bias built into their universe will burn them all to a crisp in a few hundred years anyway. Won’t somebody think of their poor simulated children’s children?
Seriously, was the Pinatubo justification really the best they could come up with?
Why don’t we just look at the record for signs of forcing? Since the end of the last mini ice age we have warmed about 8ths of a degree.Our carbon dioxide has gone up about 50% the last 150 years so we should be seeing half the warming we would get with a doubling of c02.So I am assuming about an additional 8ths of a degree of warming with a full doubling of our c02.This theory assumes no natural variation in our climate and no tipping points either.Lets just pretend they cancel each other out for the sake of this discussion.Some how 8ths of a degree isn’t that scary.
Winters are sure colder than predicted
http://blogs.news.com.au/heraldsun/andrewbolt/index.php/heraldsun/comments/winters_are_sure_colder_than_they_predicted#78324
Whip is metaphor. Whatever that wicked sound, it’s not in their ken.
==========
Even if Dr Lacis was correct, and the GISS model’s “prediction” (shouldn’t it really be “postdiction”?) of the response to the Pinatubo eruption was accurate, what does it tell us about the accuracy of the current GISS model? Nothing. I’m sure there have been thousands, if not hundreds of thousands, of changes made to the GISS model since 1992. Dr Lacis would no doubt say that they have improved the model. I say this begs the question.
This is the dilemma eternally faced by those who model natural phenomena. The temptation to “improve” the model always takes precedence over the need to keep the model static to verify its accuracy.
Stevo says:
December 29, 2010 at 9:41 am
Stevo, I don’t know what you’re drinking, but I want some. I am not talking about errors in the 27th decimal point. I’m not talking about errors in one decimal point. I’m not even talking about minus decimal points, errors in the ones digit or the tens digit. . I’m talking about an error of 100%. Since that looks like 27 decimal points to you, that’s why I want what your drinking.
Because your claim about the decimal places is in error by 10 to the 29th power … which probably is in the running for one of the biggest mis-estimations on record.
The only good news? Your error in your decimal point claim, of 10^29 or 100,000,000,000,000,000,000,000,000,000, sure makes the 100% error of the GISS model look pitifully small … perhaps that’s why you continue to claim that a 100% error is no problem.
Meanwhile, here in the real world, most people don’t use models that give 100% errors to make billion dollar decisions. You can call those folks all the names you like, Stevo, and you can explain to them how the error really isn’t all that big, and you can tell them that they are all fools to dismiss the model, and and you can emphasise how the model is actually useful despite that error, honest it is, but guess what?
They still won’t use the model.
Can you believe the idiocy of the fools? Stupid people! Don’t they know the science is settled, and that a 100% model error is meaningless? Don’t they understand what Dr. Lacis is trying to show us, that that fact that a climate model was tested and shown to make a hundred percent error clearly establishes that we can trust the model to make a hundred-year forecast? What’s wrong with them?
It must be like Judith Curry and the AAAS say, that we just have to use smaller words to explain to those fools why the models can be trusted. Because you see, it’s just communication problem, not a problem of science and substance …
w.
ge0050 says:
December 29, 2010 at 10:26 am
ge0050, thanks for that. Mandelbrot also stated very clearly that climate is just as chaotic as weather. See “Weather and Climate: Mandelbrot’s View“.
w.
It is also worth noting that the IPCC projections are also based on more than 100% error in the models, those ensemble predictions give warming at around 3°C plus or minus 2°C (or roughly that). So you have a 100% error with even trying. Aren’t numbers great!
I am not familiar with the details of the NASA model that was used to predict the effects of a volcano. However, even if the temperature had agreed totally with the effects on temperature predicted by the model as shown in Figure 2 as a blue line, it would not mean that the model predicts anything else with the same degree of accuracy. The question of validation of climate model designed to make long term predictions of temperature based on relatively short term temperature change from a single atmospheric event is questionable at best. Even beyond that is the weighting factors used to predict the cooling are not the same as heating from CO2. If this the best example of validation of the NASA computer model that Dr. Lacis can suggest, he should start looking for another. This is clearly a bad choice. Or perhaps there aren’t any.
Douglas says:
December 29, 2010 at 12:14 pm
Not that I know of, he may have thought that the first one was sufficient to prove his point. Or not. Let me look … no, there’s just the other half of his first comment. It says inter alia:
Now he wants us to believe the models because the models can reproduce the outcome that they have been tuned to reproduce … now there’s a real surprise. I have dealt with the trivial nature of this test, and the linear nature of the GISS model Dr. Lacis is discussing, in “Model Charged with Excessive Use of Forcing”.
So no, Dr. Lacis has not come up with a single reason to believe his models are reasonable. In fact, he hasn’t even shown that they are not a very complicated and expensive way to provide a simple linear transformation to the inputs. I have shown that the GISS model results can be replicated to a very close degree by a simple linear equation. Dr. Lacis has waved his hands. I’m not impressed.
GISS model seems to estimate almost flat response to strong El Nino that was going on during Pinatubo eruption. If you model the real response of El Nino that was missing when comparing this to response of 97/98 El Nino – for example – you can see that GISS model strongly underestimates the cooling that occured.
The same applies to El Chichon eruption during which the strongest El Nino of satellite era was occuring.
The real cooling peak cooling of Pinatubo is almost 1 degree.
Theo Goodwin says:
December 29, 2010 at 3:06 pm
Willis is doing ordinary science. Pointing out errors in other scientists’ work is part of the duties of a scientist. Presenting your work fully and openly as a means of helping others find errors in your work is the fundamental duty of a scientist. Scientific Method demands humility of its practitioners. What the Climategate folks did, especially Jones and Mann, is totally unacceptable.
Agreed, I didn’t need a lesson on the scientific method
Now, you are blaming Willis because he does not avoid criticism of scientists for the purpose of enticing them into a conversation? Converation about what? If he can never point out their mistakes, there is no scientific conversation.
No, re-read my post at 2:24pm where I say “TO THEM Willis is cracking a whip.” That’s their perception IMO. I used that particular analogy. Use whatever you like, in any case we end up with the following…
That was Willis in a reply in the Where did I Put That Energy thread
Willis Eschenbach says:
December 23, 2010 at 4:45 pm
RobB says:
December 23, 2010 at 5:31 am
So, yes Willis is having a scientific conversation Theo, BUT THEY ARE NOT JOINING HIM.
I am as big a Willis fan as any, I say at 2:24pm
“I’ve followed Willises challenges to scientists for a while now and tried to encourage them to engage with Willis. They don’t”
Maybe you’ve got some bright ideas on how to get these people to engage Willis, I’m all ears.
Perhaps Dr. Andrew Lacis did not adjust the effects of the SO2 and other aerosol parameters. As a refresher, here are a few references, including how the models were tuned to historical data by adjusting the parameters for SO2.
Lindzen, Richard S. 2007. Taking GreenHouse Warming Seriously. Energy & Environment 18, no. 7 (12): 937-950. doi:10.1260/095830507782616823.
https://www.cfa.harvard.edu/~wsoon/ArmstrongGreenSoon08-Anatomy-d/Lindzen07-EnE-warm-lindz07.pdf
Wigley, T. M. L., and S. C. B. Raper. 2002. Reasons for Larger Warming Projections in the IPCC Third Assessment Report. Journal of Climate 15, no. 20 (October 15): 2945-2952.
http://journals.ametsoc.org/doi/abs/10.1175/1520-0442%282002%29015%3C2945%3ARFLWPI%3E2.0.CO%3B2
IPCC Task Group on Data and Scenario Support for Impact and Climate Assessment (TGICA). 2007. General Guidelines On The Use Of Scenario Data For Climate Impact And Adaptation Assessment. IPCC, June.
http://www.ipcc-data.org/guidelines/TGICA_guidance_sdciaa_v2_final.pdf
Aerosols: AOGCM experiments which account for both the negative forcing associated with historically observed concentrations of aerosols and greenhouse gas forcing over the same period have achieved a close correspondence of global mean temperature changes compared to observations (e.g. Mitchell et al., 2001 – Figure 10). These experiments have also been projected into the future on the basis of the assumed concentrations of sulphate aerosols, usually under the assumption of the IS92a or SRES scenario SO2 emissions profiles. The effect on climate when aerosols are included, compared to experiments forced by greenhouse gases only, is to suppress global warming. However, none of the SRES emissions scenarios shows regional SO2 concentrations as high as for the IS92a scenario, and by the end of the 21st century all scenarios show that the effects of greenhouse gas forcing dominate over the aerosol effect.