Guest Post by Willis Eschenbach
I see that Susan Solomon and her climate police have rounded up the usual suspects, which in this case are volcanic eruptions, in their desperation to explain the so-called “pause” in global warming that’s stretching towards two decades now. Their problem is that for a long while the climate alarmists have been shouting about about TWO DEGREES! PREPARE FOR TWO DEGREES OF DOOM BY 2100!! But to warm two degrees by 2100, you have to warm at 0.2°C per decade, or around 0.4°C during “the pause” … so they are now left trying to explain a missing warming that’s two-thirds of the 20th century warming of 0.6°C. One hates to confess to schadenfreude, but I’m sworn to honesty in these pages …
In any case, I got to thinking about their explanation that it wuz the volcanoes what done it, guv’nor, honest it wuz, and I did something I’d never thought to do. I calculated how much actual loss of solar energy occurs when there is a volcanic eruption. I did this by using the Mauna Loa atmospheric transmission data. These observations record what percentage of the solar energy is being absorbed by the atmosphere above the observatory. I multiplied this absorption percentage by the 24/7 average amount of solar energy (after albedo) which strikes Mauna Loa, which turns out to be 287 W/m2. (As you’d expect from their tropical location, this is larger than the global average of 240 W/m2 of sunlight after albedo). Figure 1 shows that result, which was a surprise to me:
Figure 1. Amount of solar energy absorbed by the atmosphere above Mauna Loa, Hawaii. Data Source
Now, before I discuss the surprising aspects of this graph, let me note that the Mauna Loa data very sensitively measures the effect of volcanic eruptions. Even small volcanoes show up in the record, and the big volcanoes are clearly visible. Given that … is there anyone out there foolish enough to buy the Susan Solomon explanation that the cause of the pause can be found in the volcanoes? I guess there must be people like that, the claim has been uncritically accepted in far too many circles, but really … who ya gonna trust? Susan Solomon, or your own lying eyes?
I’ll return to the question of the pause, but first let me talk of surprises. The thing that was surprising to me in this was the size of the loss of solar energy. The El Chichón and Pinatubo eruptions reduced the downwelling solar energy by maxima of forty and thirty watts per square metre at Mauna Loa. This is a huge reduction, much more than I would have guessed.
One measure of how much energy is lost is the total loss until such time as the absorption returns to its pre-eruption value. It turns out that in the case of both El Chichon and Pinatubo, the net loss of solar energy was about 450 watt-months per square metre. The loss was spread more widely (5 years) in the case of El Chichon than in the case of Pinatubo (3 years) before it returned to normal.
This means that for the period 1982-1987, Mauna Loa was running at 450 W-months/m2 divided by 60 months equals an average deficit of no less than 7.5 W/m2 of incoming energy over the five-year period … and it’s worse for Pinatubo, since that involved the same total energy but only lasted for three years. So for the three years from 1991-1994, Mauna Loa was running at a whacking great average solar energy deficit of 14 W/m2 …
Now, how much difference did this surprisingly large lack of incoming energy make? According to the IPCC, climate sensitivity is 3° per doubling of CO2, and a doubling of CO2 is a forcing increase of 3.7 W/m2 … and Mauna Loa was running at 14W/m2 shy of normal, that’s almost four doublings of CO2. So according to the IPCC, that kind of a decrease in forcing should have lead to a temperature drop of 11°C … so what actually happened?
Well, we’re in fantastic luck, because the temperature records at Mauna Loa are very good. Here’s what they say (study here):
Figure 2. Mauna Loa temperatures. Vertical red lines show the dates of the El Chichon (March 1982) and Pinatubo (June 1991) Graph from B. D. Malamud et al.: Temperature trends at the Mauna Loa observatory, Hawaii.
As you can see, despite the large decrease in incoming sunshine, there is absolutely no visible change in either the noon or the midnight temperatures … go figure. What happened from the volcano is nothing at all. No effect.
Now, y’all may recall that I have argued over and over against the concept of climate sensitivity. This is the widely-accepted hypothesis that the changes in temperature are determined by the changes in forcing. I’m a climate heretic—I don’t think climate works that way at all.
In particular, despite widespread skepticism, I have persisted in saying that volcanoes basically don’t do jack in the way of affecting the global temperature. I can finally demonstrate that unequivocally because I’ve stumbled across a very well-documented and precisely measured natural experiment.
At Mauna Loa we have a clear example of a measured decrease of 7 W/m2 in the average incoming solar energy for five years (1982-1987), and a decrease of 14 W/m2 for 3 years (1991-1994) … and there is absolutely no sign of either forcing decrease in the temperature record of the very place where the solar decrease was measured.
As I’ve said over and over, the emergent phenomena of the climate system respond instantly (hours or days, not months or years) to any change in the temperature. If it cools, we rapidly get a drop in albedo, which allows in more sun, and the balance is restored. If it warms, very soon thereafter albedo increases, we get less sun, and again the balance is restored. So while I was surprised by the size of the drop in downwelling solar energy, I was not surprised that we can’t find the signal of the solar drop in the temperature records.
Setting that question aside, let me return to the “pause”. Solomon et al. used the Vernier aerosol optical depth (AOD) dataset, which is available here. It is a calculated global dataset based on various observations. The explanation of the calculations is here. If anything, there is less recent variation in that dataset than in the Mauna Loa dataset. Figure 3 compares the two over the period of the satellite temperature observations.
Figure 3. Compares the negative of the aerosol optical depth with the Mauna Loa transmissivity data. Mauna Loa data rescaled to match AOD data for comparison purposes only.
So it doesn’t much matter which one we use to compare to the temperature data. Let me use the Mauna Loa transmissivity data, since the native units are in the same range as the temperature anomaly. Figure 4 shows the comparison of the Mauna Loa transmission data with the UAH MSU satellite-based lower troposphere temperature data:
Figure 4. Satellite lower tropospheric temperatures (blue) and Mauna Loa solar transmission (black line). Note that while Pinatubo happened at the start of a temperature drop, El Chichon happened at the start of a temperature rise. In addition, in neither case are the rise or the drop notable—the drop 1988-1989 or 2007-2009 is indistinguishable from the post-Pinatubo drop.
Finally, lest some folks claim that because Mauna Loa is in the northern hemisphere we can’t compare it to the global temperature changes, Figure 5 shows the comparison of the Mauna Loa with the northern hemisphere temperatures:
Like I said … I know there must be folks out there that can be convinced that the changes in the black line, the known effects of the volcanoes, are the reason that there is a “pause” in the global temperatures … I’m not one of them.
CONCLUSIONS:
• I may never find better evidence of the lack of connection between changes in forcing and changes in temperature than the measured large drop in solar forcing and the total lack of corresponding temperature change at Mauna Loa. It is a superb natural experiment, and has been very precisely measured for over half a century. It provides strong evidence in favor of my hypothesis that the temperature is controlled by emergent phenomena, and has very little to do with forcing.
• The change in forcing from the 21st century volcanoes is trivially small in both the Vernier AOD dataset and the Mauna Loa dataset. It is far too small to have the effect that they are claiming. I don’t care what the climate models told Solomon et al., the post-2000 changes in volcanic forcing are meaningless.
• My oft-repeated claims about the lack of effect of volcanoes on the global temperature are completely borne out by these results.
My regards to all,
w.
AS ALWAYS: If you disagree with me or anyone, please quote the words you disagree with. That way we can all know exactly what it is you have a problem with. Vague handwaving claims go nowhere.
MAUNA LOA TRANSMISSION DATA: From their website
The “apparent” transmission, or transmission ratio (Ellis & Pueschel, Science, 1971), is derived from broadband (0.3 to 2.8um) direct solar irradiance observations at the Mauna Loa Observatory (19.533 ° N, 155.578 ° W, elev. 3.4 km) in Hawaii. Data are for clear-sky mornings between solar elevations of 11.3 and 30 degrees.
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I agree with your conclusions here but I think it is fair to mention that there is not necesarily a linear relation between size of volcanic eruption and changes in temperature. Som of the large prehistoric volcanic eruptions might have had large effects on temperature simply because they were so large that they reached a treshold size. Another thing is that volcanoes are very different. The Pinatubo for example was a short explosive eruption throwing large amounts of dust into the atmosphere whereas the Laki eruption on icland lasted a year or so but was primarily lava flows and emissions af gasses like sulfuric fumes. Historic records show a large climate effect in Northern Europe during the Laki eruption and the harvest is reported to have failed for several years. This eruption was so big that the smell of sulfur reached Denmark a distance of almost 2000 km.
François – you’re right that Paris was cooler 50 years ago. But what about 80 years ago? My guess: It probably was almost the same as today. I found some temperatures here: http://www.tutiempo.net/en/Climate/Paris_Le_Bourget/71500.htm and plotted them: http://espen.vestre.net/tmp/paris-le-bourget-all.png
You can recognize the European climate shift around 1988 (apparent in most Central Europe temperature series), but since then it has been cooling (or at least not warming, I forgot to check the significance of that trend and don’t have my spreadsheet here right now) for 25 years! See this chart: http://espen.vestre.net/tmp/paris-le-bourget.png
Thanks Willis. This seems so simple and cogent an argument that one wonders what Santer et. al. (12 authors ? really ?) really were after ? We can only wonder…
BTW, only $32 to see the article – what a deal.
Willis,
‘CONCLUSIONS:
• I many never’
I may never?
[Thanks, fixed. Perfect is good enough. -w.]
If it took 3 and 5 years respectively for absorption rates to recover from the major eruptions of Pinatubo and El Chichon, why did it take so long after the relatively minor Mt Agung event?
Hi Willis,
one thing was not mentioned. How can volcanoes be “the cause”, when (according to your figures) there has been no major eruption after Pinatubo ?
Well I take Solomon claims as a sign there is a god, for who else to arrange it so that volcanic eruptions could have so much influence to actually balance out the effect of AGW but only for the period when ‘the pause ‘ during other periods it could only have been ‘climate doom ‘ and volcanic eruptions play no role , along with the sun and lots of other elements which we often poorly understand.
Larry Brasfield says:
February 24, 2014 at 9:18 pm
I’m not arguing with what you say here, but maybe with something unsaid. The light which was not transmitted, accounted for as a transmission drop, has one of two other paths to take: (1) It can be reflected back to space; or (2) it can be absorbed.
A lot of volcanic debris is gray/black lava injected in the stratosphere, but only with huge eruptions like the Pinatubo. Most plumes don’t reach the stratosphere and are rained out within days/weeks. Most of the debris is heavy and drops out into the troposphere and surface within months.
Of interest is the SO2 which follows the plume. That remains in the stratosphere and is turned into SO3 (by ozone) which attracts a lot of water. That takes time, as there is very little water in the stratosphere, which also makes that it takes years before the drops are heavy enough to drop out of the stratosphere. It is these water drops which scatter sunlight in all directions, including partly back to space.
The main effect is not on temperature, but on CO2 uptake bij plants: the scattering makes that more leaves which are in the shadow of other leaves during part of the day then receive more scattered sunlight, which makes that the CO2 increase after the Pinatubo eruption was minimal, including any CO2 from the eruption itself…
François says:
February 24, 2014 at 10:14 pm
I don’t understand your arithmetics, when you are trying to find .6 degrees missing when it really should be only .4. There is a reality, come to Paris and I will show you olive trees blooming there, that would never have occurred fifty years ago. What is your explanation? urban heat island effect?
—————————
Here is a link about UHI in Paris during heat waves. The increases in temperature a enormous
http://www.nasa.gov/pdf/505253main_dousset.pdf
Steve McIntyre has more data. 10 degrees for big cities and 5 degrees for smaller cities etc…
http://climateaudit.org/2010/12/15/new-light-on-uhi/
In Tokyo air conditioning alone increases temperatures by 2 degrees.
Steyn smiles. He knows a lawyer to recommend …
—————-
Lordy, it won’t be long before suing Mann becomes a class action.
re Bolt
2 replies by Mann
One he apologises for use of the term “lie”
the other says that Bolt promoted falsehoods, but they were not necessarily “lies”.
http://blogs.news.com.au/heraldsun/andrewbolt/index.php/heraldsun/comments/warning_to_michael_mann_apologise_for_your_lie_or_risk_facing_from_me_what_/
Manfred says:
…How can volcanoes be “the cause”, when (according to your figures) there has been no major eruption after Pinatubo ?…
Great question!
Six years ago I made the case that the series of big volcanoes from 1963 to 1991 (Agung, el Chichon, and Pinatubo) threw enough stuff into the stratosphere to cool the earth by a few tenths of a degree, and that since 1995 the stratosphere has been clear. The punch line was that half of the warming over the past 40 years can be attributed to the this clearing – that volcanoes cooled the climate early on, and after Pinatubo was over and gone, the earth warmed back up. It was a good enough story that the New Scientist wrote it up:
http://www.newscientist.com/article/dn13376-lunar-eclipse-may-shed-light-on-climate-change.html?feedId=earth_rss20
I presented an update last year that showed the lack of volcanoes for the past 17 years actually contributed more to the overall warming than did CO2 and other greenhouse gases:
http://www.esrl.noaa.gov/gmd/annualconference/slides/69-130415-A.pdf
Of course, the New Scientist went for a second opinion, from none other than Susan Solomon. Solomon stated that volcanoes were adequately accounted for in the IPCC models and that volcanoes had no detectable (in the models) effect on the warming.
So now the same Susan Solomon claims the teeny volcanoes since 2000, all of which are less than a tenth the magnitude of the likes of Agung, el Chichon, and Pinatubo, can now outweigh the greenhouse effect. Meanwhile, those big guys way back then had no effect.
Curiously, the New Scientist has yet to call me for a second opinion on Solomon’s excuses for the “pause”.
This seems like a good basis for a retraction of the paper by Susan Solomon.
Which could become a little rolling snowball.
Willis,
This is a very interesting analysis. Very interesting indeed. A few questions:
– Playing devils advocate, I can imagine a (consensus/orthodox) response regarding the the Mauna Loa connection between reduced insolation after the eruptions and local temperatures along the lines of; the vulcanism has a global impact on temperature and not a regional one. The individual location is going to be affected by local conditions and may not necessarily respond to a localised reduction in sunshine in the way the overall climate system might. How might you counter that?
– Secondly, and related to the first, what is the location of the temperature station wrt the measurements for solar irradiance? Are they the same station? Obviously it’s Mauna Loa, but are the locations identical or is the temperature taken at a lower altitude? If so how would that effect the connection between temp and irradiance?
– I agree, no response at all in the temp record from what appears to be a really big reduction of insolation is really surprising. Are you saying there is virtually no lag in the response of the system to correct for it? If there is a lag, how long do you think? A few hours, days, months?
FWIW (probably not very much) I agree broadly with your “emergent phenomena” hypothesis. With a little bit left over for known unknowns, and unknown unknowns.
The more reasons they find to explain the not happening CAGW, the more they admit their theory is wrong without saying so, meanwhile losing the scientific battle.
Never interrupt your enemy when he is making a mistake. Just watch and smile.
Manfred says: February 24, 2014 at 11:44 pm
One thing was not mentioned. How can volcanoes be “the cause”, when (according to your figures) there has been no major eruption after Pinatubo ?
___________________________________
+10
How can they “it was the volcanos” and keep a straight face, when there have been no significant volcanos??
Surely, this must be some kind of criminal offence. (Misuse of public funds in the US, I believe…)
SR
Something is fishy here Did Solomon have no idea of the Mauna Loa apparent transmission data? Then she would have know that it weren’t the volcanoes.
But what does it mean that this reference is the first listed on the NOAA site:
Solomon, S., J. S. Daniel, R. R. Neely III, J. P. Vernier, E. G. Dutton, and L. W. Thomason, 2011: The Persistently Variable “Background” Stratospheric Aerosol Layer and Global Climate Change. Science, Published online 21 July, Science Express, 2011,DOI:10.1126/science.1206027]
http://www.esrl.noaa.gov/gmd/grad/mloapt.html
So what does that mean?
– Is it another Solomon or she has a very short memory?
– Willis is wrong somehow?
– Somebody does a lot of wishful thinking?
– honest mistake?
– noble cause corruption?
Willis, you say (in reference to fig 1):
“The El Chichón and Pinatubo eruptions reduced the downwelling solar energy by maxima of forty and thirty watts per square metre at Mauna Loa.”
I keep looking at fig.1, and I make it around 60 and 50 watts per square metre respectively. I may well be misinterpreting the graph, or maybe what you’re talking about doesn’t directly relate to the graph: I can’t claim to be a whizz kid when it comes to physics. Whatever, I’m puzzled about where your 40 and 30 figures come from. Could you please clarify?
Willis,
The 14 W/m^2 you measure at Mauna Loa is not comparable to the 3.7 W/m^2/K climate sensitivity. The units are different. The latter is per degrees kelvin change in surface temperature, and the forcing is at TOA (about 10,000 m altitude). Mauna Loa Observatory is at 3,400 m elevation.
The effect of Mt. Pinatubo eruption is global, not local in Hawaii, since the aerosols circulate in the stratosphere. And in fact global temperature did drop circa 1991.
There is another experiment you can do. It’s to do with the lags in the atmosphere. How quickly do atmospheric temperatures change when the forcings are changed.
To do the experiment, you need to change the forcings. Now plenty of people say you can’t experiment with the climate, but its not the case.
Go out, measure the temperature at midday. Then we turn the forcing off, and see how quickly the temperature drops. You don’t have long to wait. About 12 hours will do it. The sun gets ‘turned off’ once a day, and you can see the change.
It turns out the change is very rapid. Diurnal temperature variations are large, highest for deserts, lowest for oceans, but rapid in all cases.
Hard to justify any long term lags to changes in forcings.
You’re forgetting about all the volcanoes in the deep oceans that are erupting all the time without or knowledge. /sarc
This is why I get really annoyed with people like Roy Spencer who insist on saying that co² causes an increase in forcings (ooooh I hate those words) and therefore a rise in global temps.
Global temp as a parametre stinks and forcings as a concept in nonsense. BUT on question remains in my empty head all the time: How does an ice age form ? Milankovic possible but there are many if and buts around the predicted incoming energy change. So what else is there.?
This is why I get really annoyed with people like Roy Spencer who insist on saying that co² causes an increase in forcings
===========
My pet hate is that El Nino is an input into the system and not an output of the system
Willis, as always, very interesting. Thank you. Many/most of us appreciate your work. However, some fear it.
David L says:
February 25, 2014 at 1:29 am
You’re forgetting about all the volcanoes in the deep oceans that are erupting all the time without or knowledge. /sarc
NO NO NO.
We do know about them. They’re the ones making the bottom of the sea warmer.
That’s where the heat is hiding, but that naughty heat can’t fool us…
Only yesterday Willis, I compared the CET with the big drops in transmissivity and found nothing obvious. I am strongly being converted to the argument that temperature is governed by pressure. How else can you explain that massive instantaneous swings in the amount of infrared coming down from the sky (clouds v clear sky) has very little effect on ground and air temperature.