Guest Post by Willis Eschenbach
In a recent interchange over at Joanne Nova’s always interesting blog, I’d said that the slow changes in the sun have little effect on temperature. Someone asked me, well, what about the cold temperatures during the Maunder and Dalton sunspot minima? And I thought … hey, what about them? I realized that like everyone else, up until now I’ve just accepted the idea of cold temperatures being a result of the solar minima as an article of faith … but I’d never actually looked at the data. And in any case, I thought, what temperature data would we have for the Maunder sunspot minimum, which lasted from 1645 to 1715? So … I went back to the original sources, which as always is a very interesting ride, and I learned a lot.
It turns out that this strong association of sunspot minima and temperature is a fairly recent development. Modern interest in the Maunder sunspot minimum was sparked by John Eddy’s 1976 publication of a paper in Science entitled “The Maunder Minimum”. In that paper, Eddy briefly discusses the question of the relationship between the Maunder sunspot minimum and the global temperature, viz:
The coincidence of Maunder’s “prolonged solar minimum” with the coldest excursion of the “Little Ice Age” has been noted by many who have looked at the possible relations between the sun and terrestrial climate (73). A lasting tree-ring anomaly which spans the same period has been cited as evidence of a concurrent drought in the American Southwest (68, 74). There is also a nearly 1 : 1 agreement in sense and time between major excursions in world temperature (as best they are known) and the earlier excursions of the envelope of solar behavior in the record of 14C, particularly when a 14C lag time is allowed for: the Sporer Minimum of the 16th century is coincident with the other severe temperature dip of the Little Ice Age, and the Grand Maximum coincides with the “medieval Climatic Optimum” of the 11th through 13th centuries (75, 76). These coincidences suggest a possible relationship between the overall envelope of the curve of solar activity and terrestrial climate in which the 11-year solar cycle may be effectively filtered out or simply unrelated to the problem. The mechanism of this solar effect on climate may be the simple one of ponderous long-term changes of small amount in the total radiative output of the sun, or solar constant. These long-term drifts in solar radiation may modulate the envelope of the solar cycle through the solar dynamo to produce the observed long-term trends in solar activity. The continuity, or phase, of the 11-year cycle would be independent of this slow, radiative change, but the amplitude could be controlled by it. According to this interpretation, the cyclic coming and going of sunspots would have little effect on the output of solar radiation, or presumably on weather, but the long-term envelope of sunspot activity carries the indelible signature of slow changes in solar radiation which surely affect our climate (77). [see paper for references]
Now, I have to confess, that all struck me as very weak, with more “suggest” and “maybe” and “could” than I prefer in my science. So I thought I’d look to see where he was getting the temperature data to support his claims. It turns out that he was basing his opinion of the temperature during the Maunder minimum on a climate index from H. H. Lamb, viz:
The Little Ice Age lasted roughly from 1430 to 1850 … if we take H. H. Lamb’s index of Paris London Winter Severity as a global indicator.
After some searching, I found the noted climatologist H. H. Lamb’s England winter severity index in his 1965 paper The Early Medieval Warm Epoch And Its Sequel. He doesn’t give the values for his index, but I digitized his graph. Here are Lamb’s results, showing the winter severity in England. Lower values mean more severe winters.
So let me pose you a small puzzle. Knowing that Eddy is basing his claims about a cold Maunder minimum on Lamb’s winter severity index … where in Lamb’s winter severity index would you say that we would find the Maunder and Dalton minima? …
Figure 1. H.H. Lamb’s index of winter severity in England.
As you can see, there is a reasonable variety in the severity of the winters in England. However, it is not immediately apparent just where in there we might find the Maunder and Dalton minima, although there are several clear possibilities. So to move the discussion along, let me reveal where they are:
Figure 2. As in Figure 1, but with the dates of the Maunder and Dalton minima added.
As we might expect, the Maunder minimum is the coldest part of the record. The Dalton minimum is also cold, but not as cold as the Maunder minimum, again as we’d expect. Both of them have warmer periods both before and after the minima, illustrating the effect of the sun on the … on the … hang on … hmmm, that doesn’t look right … let me check my figures …
…
…
…
… uh-oh
…
…
Well, imagine that. I forgot to divide by the square root of minus one, so I got the dates kinda mixed up, and I put both the Maunder and the Dalton 220 years early … here are the actual dates of the solar minima shown in Lamb’s winter severity index.
Figure 3. H.H. Lamb’s England winter severity index, 1100-1950, overlaid with the actual dates of the four solar minima ascribed to that period. Values are decadal averages 1100-1110,1110-1120, etc., and are centered on the decade.
As you can see …
• The cooling during the Wolf minimum is indistinguishable from the two immediately previous episodes of cooling, none of which get much below the overall average.
• The temperature during the Sporer minimum is warmer than the temperature before and after the minimum.
• The coldest and second coldest decades in the record were not associated with solar minima.
• The fastest cooling in the record, from the 1425 decade to the 1435 decade, also was not associated with a solar minimum.
• Contrary to what we’d expect, the Maunder minimum warmed from start to finish.
• The Dalton minimum is unremarkable in any manner other than being warmer than the decade before the start and the decade after the end of the minimum. Oh, and like the Maunder, it also warmed steadily over the period of the minimum.
Urk … that’s what Eddy based his claims on. Not impressed.
Let me digress with a bit of history. I began this solar expedition over a decade ago thinking, along with many others, that as they say, “It’s the sun, stupid!”. I, and many other people, took it as an unquestioned and unexamined “fact” that the small variations of the sun, both the 11-year cycles and the solar minima, had a discernible effect on the temperature. As a result, I spent endless hours investigating things like the barycentric movement of the sun. I went so far as to write a spreadsheet to calculate the barycentric movement for any period of history, and compared those results to the temperatures.
But the more I looked, the less I found. So I started looking at the various papers claiming that the 11-year cycle was visible in various climate datasets … still nothing. To date, I’ve written up and posted the results of my search for the 11-year cycle in global sea levels, the Central England Temperature record, sea surface temperatures, tropospheric temperatures, global surface temperatures, rainfall amounts, the Armagh Observatory temperatures, the Armagh Observatory daily temperature ranges, river flows, individual tidal stations, solar wind, the 10Beryllium ice core data, and some others I’ve forgotten … nothing.
Not one of them shows any significant 11-year cycle.
And now, for the first time I’m looking at temperature effects of the solar minima … and I’m in the same boat. The more I look, the less I find.
However, we do have some actual observational evidence for the time period of the most recent of the minima, the Dalton minimum, because the Berkeley Earth temperature record goes back to 1750. And while the record is fragmentary and based on a small number of stations, it’s the best we have, and it is likely quite good for comparison of nearby decades. In any case, here are those results:
Figure 4. The Berkeley Earth land temperature anomaly data, along with the Dalton minimum.
Once again, the data absolutely doesn’t support the idea of the sun ruling the temperature. IF the sun indeed caused the variations during the Dalton minimum, it first made the temperature rise, then fall, then rise again to where it started … sorry, but that doesn’t look anything like what we’d expect. For example, if the low spot around 1815 is caused by low solar input, then why does the temperature start rising then, and rise steadily until the end of the Dalton minimum, while the solar input is not rising at all?
So once again, I can’t find evidence to support the theory. As a result, I will throw the question open to the adherents of the theory … what, in your estimation, is the one best piece of temperature evidence that shows that the solar minima cause cold spells?
Now, a few caveats. First, I want to enlist your knowledge and wisdom in the search, so please just give me your one best shot. I’m not interested in someone dumping the results of a google search for “Maunder” on my desk. I want to know what YOU think is the very best evidence that solar minima cause global cooling.
Next, don’t bother saying “the Little Ice Age is the best evidence”. Yes, the Maunder occurred during the Little Ice Age (LIA). But the Lamb index says that the temperature warmed from the start of the Maunder until the end. Neither the Maunder’s location, which was quite late in the LIA, nor the warming Lamb shows from the start to the end of the Maunder, support the idea that the sun caused the LIA cooling.
Next, please don’t fall into the trap of considering climate model results as data. The problem, as I have shown in a number of posts, is that the global temperature outputs of the modern crop of climate models are nothing but linear transforms of their inputs. And since the models include solar variations among their inputs, those solar variations will indeed appear in the model outputs. If you think that is evidence for solar forcing of temperature … well, this is not the thread for you. So no climate model results, please.
So … what do you think is the one very best piece of evidence that the solar minima actually do affect the temperature, the evidence that you’d stand behind and defend?
My regards to you all,
w.
[UPDATE] In the comments, someone said that the Central England Temperature record shows the cooling effects of the solar minima … I’m not finding it:
As you can see, there is very little support for the “solar minima cause cool temperatures” hypothesis in the CET. Just as in the Lamb winter severity data and the Berkeley Earth data, during both the Dalton and Maunder minima we see the temperature WARMING for the last part of the solar minimum. IF the cause is in fact a solar slump … then why would the earth warm up while the sun is still slumping? And in particular, in the CET the Dalton minimum ends up quite a bit warmer than it started … how on earth does this support the “solar slump” claim, that at the end of the Dalton minimum it’s warmer than at the start?
The Usual Request: I know this almost never happens, but if you disagree with something that I or someone else has said, please have the common courtesy to QUOTE THEIR EXACT WORDS that you disagree with. This prevents much confusion and misunderstanding.
Data: Eddy’s paper, The Maunder Minimum
Lamb’s paper, The Early Medieval Warm Epoch And Its Sequel
Berkeley Earth, land temperature anomalies
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Tonyb says:
June 23, 2014 at 4:43 pm
Nonsense. Read the climategate emails, you’ll see that the other scientists thought he was full of bull, and that his study was nonsense. And his credibility was further damaged by his illegal actions in advocating and participating in the destruction of documents sought under a Freedom of Information Act request.
Finally, his wild attacks and his lawsuits have turned the stomach of even hardened activists. As a result, he’s way marginalized at this point, and his credibility is shot.
But my main point is, it has been clearly demonstrated that his hockeystick results were obtained through INCORRECT MATH. Is there some part of that which is not clear? His results are meaningless junk … and you clinging to them and citing them and discussing them as though they had not been thoroughly falsified destroys your own credibility entirely. You lie down with dogs, you get up with fleas—you cite and discuss garbage as though it were science, and everyone will conclude that your science is garbage. You may not like it, my anonymous friend, but that’s how the world works.
w.
Does anyone here know or have a suspicion as to what caused the Medieval Warm Period (in the northern hemisphere only)? – (Some scientists provide evidence of its global nature). Other scientists argue that it was not synchronous, ie they have no evidence that it was not globally synchronous. An obvious outlier suggest it may have been. (If only we had thermometers with good spread back in the day. Even today we argue about thermometer placement in the US OF A).
Dmitri Mauquoy et. al. – 2004
Late Holocene climatic changes in Tierra del Fuego based on multiproxy analyses of peat deposits
Willis writes: “Finally, it appears that that the proxy data that [Kirkby is] using is Mann 2008 … And since that misleading proxy data seems to be what Kirby is relying on the most … well, you can do the math.”
Nope, he is using Moberg 2005 [Kirkby’s reference #29, cited in the caption to Figure 2].
http://arxiv.org/pdf/0804.1938.pdf
“Look at the freakin’ graph … do you see the “high cosmic ray flux” around 1050? Care to point out the “cold temperature” associated with that?
The graph does indeed show a substantial dip in GCR, but only vis a vis the very high levels before and after. At bottom it gets around Dalton level, and the temperature proxies do indeed show a modest (Dalton sized) dip in global temperatures around that time. Not that I wouldn’t expect to see some counter-examples–other things besides solar activity might also affect climate–but I don’t see how this is a counter-example at all.
“why do you believe that cosmic rays are good thermometers?”
I don’t think they are thermometers at all. I think the cosmogenic isotopes that cosmic rays create have the potential to provide a usable proxy for solar activity, if they can be sufficiently dated and calibrated. Thermometers measure temperature, which is a variable that may or may not be driven by solar activity. I want to COMPARE the cosmic ray record to thermometers (to the temperature record) in order to judge whether temperature may be driven by solar activity.
Leif’s link tohis graph of Kirkby’s 14C data before the geomagnetic impact was removed does not seem to be working.
http://www.leif.org/research/Kirby-Flaw-GCR-14C.pdf
Do you have another link Leif?
philjourdan says:
June 23, 2014 at 12:42 pm
Divide by the square root of -1? LOL!
You are imagining things.
@M Simon – A requirement for ‘i’ numbers. 😉
Willis Eschenbach says:
June 23, 2014 at 5:01 pm
Tony Brown of Climate Reason is hardly anonymous.
The idea that sunspots influence temperature goes back to William Herschel.
For many years people have tried to use sunspots to forecast the weather without much success … unless the Farmer’s Almanac and Piers Corbyn count … or maybe not.
Is my second question now spam? I simply asked for the suspected cause of the Medieval Warm Period and its global scale and synchrony. Does anyone have a lead on this?
TODAY we are in a fierce debate about measuring temperature with satellites and modern thermometers. Now go back 1,000 years. How is it that your could grow figs in Germany and the rest of the world was just staying cold? (Mann et al). These are serious questions.
Mann et al
http://www.meteo.psu.edu/holocene/public_html/shared/articles/medclimopt.pdf
lsvalgaard says:
June 23, 2014 at 2:40 pm
“Solar activity has been pretty much flat the past 300 years. For the Maunder Minimum we just had a workshop on that. Here is a report …”
I was the only member of the public in attendance at the Extreme Space Weather Events Workshop you mentioned, via GoToMeeting. I have all 14 Maunder Minimum pre-workshop papers and the presentations. I specifically paid very close attention to what you were saying in your presentations. Dr. Svalgaard, your statement about a “flat” solar output only applies to the Sun’s magnetic cycle, not the sunspot number cycle, which are not the same thing, as you know.
You have reconstructed the magnetic cycle with your IHV index successfully. Good job. You’ve been working on a sunspot reconstruction process also, the results of which you indicate on page 29, the last page of http://www.leif.org/research/Confronting-Models-with-Reconstructions-and-Data.ppt. Anyone who looks at the nearly 300 year SSN history recontruction of yours will come away realizing it isn’t even close to flat over the centuries or even the most recent decades/cycles.
You know we don’t get our light and heat from the Sun via the magnetic flux, you know we get it from the irradiance, the “photon flux”, by definition, also a measure of “brightness”. You also know the F10.7cm flux is used as a solar activity proxy, which has a very nearly linear relationship to SSN over time, and represents radiant activity very well, which is why it is used. You know the Sun’s electric field is the basis for the photon flux definition, and you know that the photon flux is what heats the planets. You also know that the area under either the SSN or F10.7 flux curves integrated over time represents the total amount of solar heating we have received over that time.
Your page 29 SSN graph clearly indicates major differences between cycles. You must know that the amount of heat the planets receive via photon flux has varied significantly over time, cycle to cycle. In fact, a professional like you knows all about the daily solar data reports found here http://www.swpc.noaa.gov/ftpdir/indices/quar_DSD.txt . I recommend everyone look at the day-to-day variation of solar output as registered there in SSN, 10.7 flux, and solar flares. There you will notice activity levels that vary over short time periods in magnitude exceeding the oft-quoted 0.1% variation in TSI. UV is also known to change much more in magnitude than higher wavelengths.
So now everyone else knows that the solar activity that counts towards changing the temperature here, through UV penetration into the ocean and atmospheric water vapor, and through IR, changes day-to-day, week-to-week, monthly, yearly, by the decade, and by the solar cycle. Every solar cycle has a length and magnitude that differ from each other most of the time. The recent “modern maximum” in solar activity – notice I didn’t say “grand maximum” – because it’s not necessary – even if by chance it is true – has provided enough extra heating of the ocean over its cooling rate to accumulate more ocean heat content (OHC). The discharge of that heat over time obscures the direct effect of relative amounts of solar heating, and makes it very difficult to extract an average solar cycle length temperature signal. You can ask Willis about that last part.
For those unfamiliar with the idea of accumulated OHC, please see David Stockwell’s two papers linked at the top of this article http://landshape.org/enm/solar-supersensitivity-a-new-theory/ (his blog is on the Skeptical Views list on the sidebar above, Niche Modelling – David Stockwell) , or yesterdays post by Paul Vaughn here : http://www.billhowell.ca/Paul%20L%20Vaughan/Vaughan%20140622%20Sun%20&%20SAM%20(Southern%20Annular%20Mode).pdf .
You cannot say that the Sun doesn’t vary enough to change the climate, when in fact the Earth responds to the Sun’s variable heating every day, changing the weather statistics every day that are used to generate long-term climate statistics, all the while “yesterday’s” solar heat stored in the ocean is also releasing and affecting temperatures, while the Earth continually cools to space via several outlets. You definitely cannot say with any veracity that the Sun’s heat output has been “flat” for 300 years, going completely against the accumulated experience and history of observers throughout that time, and the very laws of physics, and your own SSN reconstruction.
The challenge we all face is understanding the different contributions to temperature data from heat released via the oceans, solar direct heating, and the various cooling rates over different parts of the globe. Whatever CO2 does in relationship to temperature, IF it does anything, would also be modulated by the ever-changing solar radiant output.
Dr. Svalgaard you are a true pioneer in our understanding of solar activity and geomagnetics. However, the point is, the Sun does vary, enough.
Jimbo says:
June 23, 2014 at 5:18 pm
These are serious questions.
==========
Exactly
Jimbo says:
Does anyone here know or have a suspicion as to what caused the Medieval Warm Period…
I suspect it’s like ringing a bell. You can see it here. The planet emerges from the last great stadial, then rings until it finally stops and enters the next one.
Jimbo says:
June 23, 2014 at 5:03 pm
I suspect the same causes as for the Holocene Climatic Optimum, the Minoan, Roman and Modern Warm Periods, and those between the Optimum and the Minoan.
Anyone who denies that the Medieval Warm Period was global ignores objective reality. The evidence is overwhelming. If anything, it was more pronounced in some other regions of the globe than the North Atlantic zone.
You can see it better here.
dbstealey says:
June 23, 2014 at 5:27 pm
The duration of interglacials depends chiefly on Earth’s orbital and rotational parameters. They vary in length by a factor of at least three, but probably more. Please excuse my source:
http://www.ipcc.ch/publications_and_data/ar4/wg1/en/ch6s6-4.html
Whenever anybody mentions the sunspot cycles and those notable minimal periods, the source of information I turn to is the book, by “Willie” Wei Hok Soon; and Stephen H Yaskell, “The Maunder Minimum, and the Variable Sun-Earth System.”
I’m guessing that Yaskell was more of a ghost author, as it’s a quite lengthy narrative and Dr. Soon probably felt he needed some help with his English. But I don’t know that, and wish I had asked Willie about that, when he referred me to that book of theirs.
It’s an extremely informative book, and Dr. Willie Soon, is a fun person to chat with, even in just a few e-mails.
And I notice, that he is one of the named three “heroes” of climate realism. He is well deserving of that recognition.
Buy the book; it is well worth the modest price.
I really don’t care whether it’s the sun or not. I do want to know the causes of LIA and MWP? I realise that we don’t know. I asked the questions knowing that we don’t know. Yet we ‘do know’ what the hot and bother is all about today. Just food for thought.
I really do want an answer to this simple question. How is it that the Medieval Warm Period was os hemispherical? Read below first.
Bob Weber says:
June 23, 2014 at 5:20 pm
====
Thank you Bob
Leif’s link to his graph of Kirkby’s 14C data before the geomagnetic impact was removed does not seem to be working. Try:
http://www.leif.org/research/Kirby-Flaw-GCR-14C.png
Bob Weber says:
June 23, 2014 at 5:20 pm
Dr. Svalgaard you are a true pioneer in our understanding of solar activity and geomagnetics. However, the point is, the Sun does vary, enough.
The recent work on the SSN, shows that solar activity in the 20th, 19th, and 18th centuries were pretty much the same: http://www.leif.org/research/New-Group-Numbers.png
Of course the Sun varies, but there has been no long-term trend the past 300 years. The variation seems to be quasi-cyclic with about a 100-yr ‘period’. So, I don’t know what you mean by ‘enough’.
Thanks. I am however more concerned with LIA and MWP. Those periods are the cause for great angst. The other periods can be waffled and easily explained away. – solar insolation for example.
Willis says: “Look more closely [at Bond’s graph], Alec. Half the time the isotopes lead the rafting, half the time they trail the rafting … and the rest of the time the isotopes have nothing to do with the rafting.”
Bond apparently posted some supplemental information on this issue when his paper was published. I haven’t looked into it, but it is referenced in the first column on his page 2133 where he writes:
Not sure how they dated the ice rafting debris but it was apparently not by cosmic nucleotides. In other words, they were not directly comparing the temperature proxy (amount of debris) to the solar activity proxies (14C and 10Be) by measuring both within the same geologic layer, but rather were using an independent method to date the rafting debris and comparing it to solar proxies from other sources.
This makes dating error on both sides relevant, with the potential discrepancy being equal to the sum of the possible errors on each side. Bond evidently went through the data by hand to see how many of the timing issues that you are noticing could be due to dating error. Of course these same dating errors also call into question his claimed results.
Web 3 sounds worth a look if anyone knows where to find it, but offhand I wouldn’t expect the dating accuracy to be such that inflection points would all lining up correctly even if solar activity were at all points the dominant climate driver (which I don’t think Bond is claiming).
I love ruds appeal to friends. Like jos appeal to friends with lubos.
Willis and I are friends. We attack each others ideas. Like real friends only can.
Once again nobody can offer evidence.
george e. smith says:
June 23, 2014 at 5:37 pm
Before Edward Walter Maunder (1851-1928) and Annie Scott Dill Russell Maunder (1868-1947), there was Friederich Wilhelm Gustav Spörer (1822-95).
And Frederick William (or Friedrich Wilhelm) Herschel (1738-1822) , of course.
The connection between sunspots and climate wasn’t first noted in 1976.
Steven Mosher says:
June 23, 2014 at 5:52 pm
You haven’t been paying attention. Willis has offered no evidence. Many others have done so.
Jimbo says:
June 23, 2014 at 5:45 pm
I beg to differ. There is no way to hand wave away the Holocene Optimum, the Egyptian, Minoan and Roman Warm Periods and intervening cold periods, or the fact that prior interglacials have been warmer than this one. That the Team is concerned only with the Medieval Warm Period and the LIA doesn’t mean that skeptics should limit their critique of the “consensus” GHG hypothesis to just the past millennium.
But IMO it doesn’t matter, since the explanation for the MWP and LIA should prove the same as for previous warm and cool phases of this and prior interglacials.
“Once again nobody can offer evidence.”
=======
http://berkeleyearth.lbl.gov/auto/Regional/TAVG/Text/global-land-TAVG-Trend.txt
Years 1801-19.
Clearly we need to collect good data for the next 4 or 5 solar minima and maximums; then draw some decent conclusions to design some experiments for the next couple of centuries.
Maybe the models will be useful at that point.