Guest Post by Willis Eschenbach
Well, I wasn’t going to mention this paper, but it seems to be getting some play in the blogosphere. Our friend Nicola Scafetta is back again, this time with a paper called “Solar and planetary oscillation control on climate change: hind-cast, forecast and a comparison with the CMIP5 GCMs”. He’s posted it up over at Tallbloke’s Talkshop. Since I’m banned over at Tallbloke’s, I thought I’d discuss it here. The paper itself is here, take your Dramamine before jumping on board. Dr. Scafetta has posted here on WUWT several times before, each time with his latest, greatest, new improved model. Here’s how well Scafetta’s even more latester, greatester new model hindcasts, as well as what it predicts, compared with HadCRUT4:
Figure 1. Figure 16A from Scafetta 2013. This shows his harmonic model alone (black), plus his model added to the average of the CMIP5 models following three different future “Representative Concentration Pathways”, or RCPs. The RCPs give various specified future concentrations of greenhouse gases. HadCRUT4 global surface temperature (GST) is in gray.
So far, in each of his previous three posts on WUWT, Dr. Scafetta has said that the Earth’s surface temperature is ruled by a different combination of cycles depending on the post:
First Post: 20 and 60 year cycles. These were supposed to be related to some astronomical cycles which were never made clear, albeit there was much mumbling about Jupiter and Saturn.
Second Post: 9.1, 10-11, 20 and 60 year cycles. Here are the claims made for these cycles:
9.1 years : this was justified as being sort of near to a calculation of (2X+Y)/4, where X and Y are lunar precession cycles,
“10-11″ years: he never said where he got this one, or why it’s so vague.
20 years: supposedly close to an average of the sun’s barycentric velocity period.
60 years: kinda like three times the synodic period of Jupiter/Saturn. Why three times? Why not?
Third Post: 9.98, 10.9, and 11.86 year cycles. These are claimed to be
9.98 years: slightly different from a long-term average of the spring tidal period of Jupiter and Saturn.
10.9 years: may be related to a quasi 11-year solar cycle … or not.
11.86 years: Jupiter’s sidereal period.
The latest post, however, is simply unbeatable. It has no less than six different cycles, with periods of 9.1, 10.2, 21, 61, 115, and 983 years. I haven’t dared inquire too closely as to the antecedents of those choices, although I do love the “3” in the 983 year cycle. Plus there’s a mystery ingredient, of course.
Seriously, he’s adding together six different cycles. Órale, that’s a lot! Now, each of those cycles has three different parameters that totally define the cycle. These are the period (wavelength), the amplitude (size), and the phase (starting point in time) of the cycle.
This means that not only is Scafetta exercising free choice in the number of cycles that he includes (in this case six). He also has free choice over the three parameters for each cycle (period, amplitude, and phase). That gives him no less than 18 separate tunable parameters.
Just roll that around in your mouth and taste it, “eighteen tunable parameters”. Is there anything that you couldn’t hindcast given 18 different tunable parameters?
Anyhow, if I were handing out awards, I’d certainly give him the first award for having eighteen arbitrary parameters. But then, I’d have to give him another award for his mystery ingredient.
Because of all things, the mystery ingredient in Scafetta’s equation is the average hindcast (and forecast) modeled temperature of the CMIP5 climate models. Plus the mystery ingredient comes with its own amplitude parameter (0.45), along with a hidden parameter for the zero point of the average model temperatures before being multiplied by the amplitude parameter. So that makes twenty different adjustable parameters.
Now, I don’t even know what to say about this method. I’m dumbfounded. He’s starting with the average of the CMIP5 climate models, adjusted by an amplitude parameter and a zeroing parameter. Then he’s figuring the deviations from that adjusted average model result based on his separate 6-cycle, 18-parameter model. The sum of the two is his prediction. I truly lack words to describe that, it’s such an awesome logical jump I can only shake my head in awe at the daring trapeze leaps of faith …
I suppose at this point I need to quote the story again of Freeman Dyson, Enrico Fermi, “Johnny” Von Neumann, and the elephant. Here is Freeman Dyson, with the tale of tragedy:
By the spring of 1953, after heroic efforts, we had plotted theoretical graphs of meson–proton scattering.We joyfully observed that our calculated numbers agreed pretty well with Fermi’s measured numbers. So I made an appointment to meet with Fermi and show him our results. Proudly, I rode the Greyhound bus from Ithaca to Chicago with a package of our theoretical graphs to show to Fermi.
When I arrived in Fermi’s office, I handed the graphs to Fermi, but he hardly glanced at them. He invited me to sit down, and asked me in a friendly way about the health of my wife and our newborn baby son, now fifty years old. Then he delivered his verdict in a quiet, even voice.
“There are two ways of doing calculations in theoretical physics”, he said. “One way, and this is the way I prefer, is to have a clear physical picture of the process that you are calculating. The other way is to have a precise and self-consistent mathematical formalism. You have neither.”
I was slightly stunned, but ventured to ask him why he did not consider the pseudoscalar meson theory to be a self-consistent mathematical formalism. He replied, “Quantum electrodynamics is a good theory because the forces are weak, and when the formalism is ambiguous we have a clear physical picture to guide us.With the pseudoscalar meson theory there is no physical picture, and the forces are so strong that nothing converges. To reach your calculated results, you had to introduce arbitrary cut-off procedures that are not based either on solid physics or on solid mathematics.”
In desperation I asked Fermi whether he was not impressed by the agreement between our calculated numbers and his measured numbers. He replied, “How many arbitrary parameters did you use for your calculations?” I thought for a moment about our cut-off procedures and said, “Four.” He said, “I remember my friend Johnny von Neumann used to say, with four parameters I can fit an elephant, and with five I can make him wiggle his trunk.”
With that, the conversation was over. I thanked Fermi for his time and trouble, and sadly took the next bus back to Ithaca to tell the bad news to the students.
Given that lesson from Dyson, and bearing in mind that Scafetta is using a total of 20 arbitrary parameters … are we supposed to be surprised that Nicola can make an elephant wiggle his trunk? Heck, with that many parameters, he should be able to make that sucker tap dance and spit pickle juice …
Now, you can expect that if Nicola Scafetta shows up, he will argue that somehow the 20 different parameters are not arbitrary, oh, no, they are fixed by the celestial processes. They will likely put forward the same kind of half-ast-ronomical explanation they’ve used before—that this one represents (2X+Y)/4, where X and Y are lunar precession cycles, or that another one’s 60 year cycle is kind of near three times the synodic period of Jupiter and Saturn (59.5766 years) and close is good enough, that kind of thing. Or perhaps they’ll make the argument that Fourier analysis shows peaks that are sort of near to their chosen numbers, and that’s all that’s needed.
The reality is, if you give me a period in years, I can soon come up with several astronomical cycles that can be added, subtracted, and divided to give you something very near the period you’ve given me … which proves nothing.
Scafetta has free choice of how many cycles to include, and free choice as to the length, amplitude, and phase of each those cycles. And even if he can show that the length of one of his cycles is EXACTLY equal to some astronomical constant, not just kind of near it, he still has totally free choice of phase and amplitude for that cycle. So to date, he’s the leading contender for the 2013 Johnny Von Neumann award, which is given for the most tunable parameters in any scientific study.
The other award I’d give this paper would be for Scafetta’s magical Figure 11, which I reproduce below in all its original glory.
Figure 2. Scafetta’s Figure 11 (click to enlarge) ORIGINAL CAPTION: (Left) Schematic representation of the rise and fall of several civilizations since Neolithic times that well correlates with the 14C radio- nucleotide records used for estimating solar activity (adapted from Eddy’s figures in Refs. [90, 91]). Correlated solar-climate multisecular and millennial patterns are recently confirmed [43, 44, 47]. (Right) Kepler’s Trigon diagram of the great Jupiter and Saturn conjunctions between 1583 to 1763 [89], highlighting 20 year and 60 year astronomical cycles, and a slow millennial rotation.
First off, does that graphic, Figure 11 in Scafetta’s opus, make you feel better or worse about Dr. Scafetta’s claims? Does it give you that warm fuzzy feeling about his science? And why are Kepler’s features smooched out sideways and his fingers so long? At least let me give the poor fellow back his original physiognomy.
There, that’s better. Next, you need to consider the stepwise changes he shows in “carbon 14”, and the square-wave nature of the advance and retreat of alpine glaciers at the lower left. That in itself was good, I hadn’t realized that the glaciers advanced and retreated in that regular a fashion, or that carbon 14 was unchanged for years before and after each shift in concentration. And I did appreciate that there were no units for any of the four separate graphs on the page, that counted heavily in his favor. But what I awarded him full style points for was the seamless segue from alpine glaciers to the “winter severity index” in the year 1000 … that was a breathtaking leap.
And as you might expect from a man citing Kepler, Scafetta treats scientific information like fine wine—he doesn’t want anything of recent vintage. Apparently on his planet you have to let science mellow for some decades before you bring it out to breathe … and in that regard, I direct your attention to the citation in the bottom center of his Figure 11, “Source: Geophysical Data, J. Biddy J. B. Eddy (USA) 1978″. (Thanks to Nicola for the correction, the print was too small to read.)
Where he stepped up to the big leagues, though, is in the top line in the chart. Click on the chart to enlarge it if you haven’t done so yet, so you can see all the amazing details. The “Sumeric Maximum”, the collapse of Machu Pichu, the “Greek Minimum”, the end of the Maya civilization, the “Pyramid Maximum” … talk about being “Homeric in scope”, he’s even got the “Homeric Minimum”.
Finally, he highlights the “20 year and 60 year astronomical cycles” in Kepler’s chart at the right. In fact, what he calls the “20 year” cycles shown in Kepler’s dates at the right vary from 10 to 30 years according to Kepler’s own figures shown inside the circle, and what he calls the “60 year astronomical cycles” include cycles from 50 to 70 years …
In any case, I’m posting all of this because I just thought folks might like to know of Nicola Scafetta’s latest stunning success. Using a mere six cycles and only twenty tunable parameters plus the average of a bunch of climate models, he has emulated the historical record with pretty darn good accuracy.
…
And now that he has explained just exactly how to predict the climate into the future, I guess the only mystery left is what he’ll do for an encore performance. Because this most recent paper of his, this one will be very hard to top.
In all seriousness, however, let me make my position clear.
Are there cycles in the climate? Yes, there are cycles. However, they are not regular, clockwork cycles like those of Jupiter and Saturn. Instead, one cycle will appear, and will be around for a while, and then disappear to be replaced by some longer or shorter cycle. It is maddening, frustrating, but that’s the chaotic nature of the beast. The Pacific Decadal Oscillation doesn’t beat like a clock, nor does the El Nino or the Madden-Julian oscillation or any other climate phenomena.
What is the longest cycle that can be detected in a hundred year dataset? My rule of thumb is that even if I have two full cycles, my results are too uncertain to lean on. I want three cycles so I can at least get a sense about the variation. So for a hundred year dataset, any cycle over fifty years in length is a non-starter, and thirty-three years and shorter is what I will start to trust.
Can you successfully hindcast temperatures using other cycles than the ones Scafetta uses? Certainly. He has demonstrated that himself, as this is the fourth combination of arbitrarily chosen cycles that he has used. Note that in each case he has claimed the model was successful. This by no means exhausts the possible cycle combinations that can successfully emulate the historical temperature.
Does Scafetta’s accomplishment mean anything? Sure. It means that with six cycles and no less than twenty tunable parameters, you can do just about anything. Other than that, no. It is meaningless.
Could he actually test his findings? Sure, and I’ve suggested it to him. What you need to do is run the analysis again, but this time using the data from say 1910 to 1959 only. Derive your 20 fitted variables using this data alone.
Then test your 20 fitted variables against the data from 1960 to 2009, and see how the variables pan out.
Then do it the other way around. Train the model on the later data, and see how well it does on the early data. It’s not hard to do. He knows how to do it. But if he has ever done it, I have not seen anywhere that he has reported the results.
How do I know all this? Folks, I can’t tell you how many late nights I’ve spent trying to fit any number and combination of cycles to the historical climate data. I’ve used Fourier analysis and periodicity analysis and machine-learning algorithms and wavelets and stuff I’ve invented myself. Whenever I’ve thought I have something, as soon as it leaves the training data and starts on the out-of-sample data, it starts to diverge from reality. And of course, the divergence increases over time.
But that’s simply the same truth we all know about computer weather forecasting programs—out-of-sample, they don’t do all that well, and quickly become little better than a coin flip.
Finally, even if the cycles fit the data and we ignore the ridiculous number of arbitrary parameters, where is the physical mechanism connecting some (2*X+T)/4 combination of two astronomical cycles, and the climate? As Enrico Fermi pointed out, you need to have either “a clear physical picture of the process that you are calculating” or “a precise and self-consistent mathematical formalism”.
w.
PS—Please don’t write in to say that although Nicola is wrong, you have the proper combination of cycles, based on your special calculations. Also, please don’t try to explain how a cycle of 21 years is really, really similar to the Jupiter-Saturn synodic cycle of 19+ years. I’m not buying cycles of any kind, motorcycles, epicycles, solar cycles, bicycles, circadian cycles, nothing. Sorry. Save them for some other post, they won’t go bad, but please don’t post them here.
Willis, it would be neat if you could try to model the price of Apple`s stock using the same oscillation model… And if successful, to see who would put any money on it.
Willis has nailed it but some folks may miss the import of what he has said.
200 years ago Fourier pointed out that ANY continuous waveform can be created by adding up a series of sine waves. In other words, the fact that Scafetta, or anyone else, can match a waveform using a set of sine waves proves nothing.
The fact that we can decompose any waveform into a set of cycles does not prove that those cycles have any relationship to the cause of the waveform. Suppose that I turn a switch on and then, some time later, I turn it off. The current through the switch will be a rectangular pulse, off-on-off. There will be a set of sine waves that produce that waveform. If you didn’t know about the switch, you could postulate a set of oscillators that produced the waveform. LOL.
MattN said on July 23, 2013 at 4:20 am:
Just because it’s a cycle, and you’re looking for a cycle, doesn’t automatically make it a cycle you want.
For example, who would want to tend the firebox and check the water level while riding a Ballard and Wellington coal-fed steam-powered two wheeler? Answer: nobody did, which is why you never heard of them.
Which is too bad as the three wheeler variant would be useful today in many parts of the world, an idea which deserves to be gaining traction and picking up steam.
K writes: “I can agree with that.
That does not mean you have to write an article full of insults and hate about it.”
I’m afraid this is W.E.’s m.o. I find it extremely distasteful. Why does everything have to be so personal with the man?
Why use 6 parameters when it appears one will suffice?
http://www.globalwarmingart.com/images/thumb/2/28/Sunspot_Numbers.png/800px-Sunspot_Numbers.png
@kadaka (KD Knoebel)
You clearly have no inkling of the concept of a hint of satire. To suggest from my comment that I would lean to RealClimate is really hilarious. I nearly choked from laughter. No, my friend, let me break it to you in simple language… I actually find WUWT often, and that includes Willis, just a tad too warmist for my taste. All this credence still given to “CO2 -> some warming, we just argue about how much”… and then interesting lines of though like astronomical cycles, etc, being treated with disdain leaves me, shall one say, edgy. That said, I do find WUWT very educational most of the time and I do appreciate what is done here (most of the time). But may I also add that Willis’ snidy arrogance gets under my skin from time to time. I am sure I am not the only one who feels that way.
REPLY: I think if you ever met him in person, your vision of “snidy arrogance” would evaporate. Snidy arrogance is what we expect from Dr. Sheldon Cooper (Big Bang Theory TV show). With Willis, a man who has lived with the islanders of the pacific, ridden the rails, fished the seas, acted as a tour guide, worked as a carpenter, and published scientific papers, what we get is a man rooted in reality. – Anthony
Willis
I consider the tone of this post beneath you.
Sarcasm is the lowest form of wit. You ridicule Dr Scafetta for using 18 (or is it 20) different parameters which he consiiders are in play when predicting climate. That is a cheap shot, and even an absurd point.
I am sure that you would accept that climate is inherently more complex than the tides, and that it is inherently far more difficult to predict cliimate than to predict the tides.
One of the more advanced tidal prediction machines, built in the 19th century, had at least 40 different tunable parameters which were taken into account when predicting the tides. This machine was very accurate, and greatly advanced the cause of navigation. At the time the UK quite literally ruled the waves and it was because of innovations like that that the UK was the greatest sea faring nation..
I accept that Scafetta needs to explain and prove the relevance and relationship of the chosen cycle parameters. If it fits there may be something in it, but then again there may not.
So, Milankovitch cycles that are easily discernible from a temperature graph over a timescale that encompasses several glacial maximums aren’t climate drivers?
The question is not whether these cycles affect climate but rather whether they are 1st, 2nd, 3rd, 4th, or greater order variables. Obviously, Milankovitch cycles are a higher order than many other cycles. The cyclical nature of climate is difficult to deny, even Alaskan arctic wildfire preponderance has been found to be cyclical. Nature has trained our brains in the way of the cycle from the daily and annual rhythm of our lives to the discovery of cycles encompassing every facet of nature from the water cycle to the rock cycle. Yes, nature it would seem loves cycles, why should climate be an exception?
grumpyoldmanuk says
“Nicola” is the female diminutive of Nicholas, the correct male diminutive is, ” Nicoli”. Have you mis-spelt Mr Scafetta’s’ name or were his parents influenced by Johnny Cash’s, ” A Boy Named Sue”?
Grumpy, Scafetta is an Italian name, and in Italian Nicola is not a female diminutive, or a diminutive at all, and Nicoli is non-existent as a name AFAIK. Nicola is one variant of the male name, another being Niccolò (as in Macchiavelli). Nicola Tesla was not female either. Please do not comment so confidently on things you know nothing about.
From the article:
Fermi says: “One way, and this is the way I prefer, is to have a clear physical picture of the process that you are calculating. The other way is to have a precise and self-consistent mathematical formalism. You have neither.”
For a moment I thought that was Leif speaking to Vuk.
(I posted this some time ago but it got lost somewhere, so here it is again)
Two primary climate ‘cycles’ are variable about 9.1 years and the decadal one around 64-65 years. They are not primary astronomic (planetary orbital) periodicities but appear to be result from the cross-modulation of the solar and the Earth’s magnetic fields variability
http://www.vukcevic.talktalk.net/GSC1.htm
But how the changes in magnetic fields intensity can influence the climate?
In the last few days I have read number of papers, some from the Stanford University experts running the HAARP experiment (Alaska) and it appears they do have some ideas, not far off from:
http://www.vukcevic.talktalk.net/AGT.htm
hence I am not surprised that another S.U. expert has attempted to ‘rubish’ my findings despite that he has all calculations and couldn’t fault them.
Monckton of Brenchley says:
July 23, 2013 at 3:49 am
I have asked Nicola Scafetta to let me have an equation that will allow me to include his projections alongside those of the IPCC in the monthly Global Warming Prediction Index.
Here is an equation with ‘back-casting’ to 1880, that doesn’t require cycles of any kind extraterrestrial, planetary or solar
http://www.vukcevic.talktalk.net/SST-NAP.htm
and if not just a coincidence, it suggest significant cooling in the N. Atlantic.
I do not think 6 cycles – 18 parameter is inherently untenable. If there are 6 different cycle periods in the data, then it would take 6 cycles to model it.
This is different than say for example a pure brute force 18 parameter polynomial fit where the value is close, but the min/max do not occur. If you 6 periods is excessive, just wait till Scafetta has enough data to work in the Milankovitch cycles, and then perhaps cycles from the galactic orbit. of course continental drift would probably muddle that.
Between the moon and the 4 gas giants, there are 5 or more periods (not just orbit). How all of this interacts might be the reason the climate periods are different from astronomical periods.
Anyways, the multiple mixed periods does show why attempts to model climate on any single period does not work.
@GabrielHBay, July 23, 2013 at 3:53 am
Please, sir, try not to be so bloody precious. Guys like the irascible Mr Eschenbach are worth their weight in gold. His intellectual discipline is second to none and he rightly does not suffer fools gladly. He is the best kind of intellectual opponent. There’s no fawning, no undue flattery. Just a brutal thirst for truth and objectivity, a hunger to strip away all the superfluous and distracting flimflam and get to the heart of a matter. Willis is a rare and genuine intellectual WYSIWYG. A tenacious terrier of a mind that we should all be very grateful for. What’s more, I think everyone else here would agree that he has every right to try and guide thread content below his own post. As always he asked very politely.
If you think you have a valid point, then put up. If not, shut up. If your point is found invalid, it will be eviscerated by the Williserator (or is it Williseraptor?). If credibility is found in your reasoning, WUWT’s own resident bloodhound-terrier cross has proven himself perfectly capable of the graciousness one would expect of such a man of the world. Your sniping is of a much lower order.
So please refrain in future of cluttering up this bastion of fierce minds unless you actually have something worthwhile to bring to the party, there’s a good boy.
GabrielHBay says:
July 23, 2013 at 5:54 am
@kadaka (KD Knoebel)
You clearly have no inkling of the concept of a hint of satire
That was satire? 404
The mystery ingredient is a dataset that already includes regularly updated hindcasts. If you use climate models that already match history in your own model, and weight it correctly, almost any lesser weighted small signal can be added without ruining the hindcast. This product is unspeakably stupid.
Jan,
Agree with you. Who cares who thinks Willis needs sensitivity training or whatever, what’s that got to do with anything anyway? I’m aware I’m cluttering up the thread too, fine, that can make me a bad person, I’m ok with that. It seems like Willis can barely open his mouth but six people jump in to tell him what a jerk he is for speaking straight.
Tom In Florida says:
July 23, 2013 at 6:17 am
For a moment I thought that was Leif speaking to Vuk.
Hi Tom
As you could see from my post above I am rehabilitated ‘cyclomaniac’.
btw, Dr.S and I are best of friends.
I’m a little confused by Willis’ claims. I always thought Scafetta was trying to find physical mechanisms that have deterministic cycles. Essentially, there are no “free” parameters. Maybe Scafetta isn’t there yet, but it is one way to move forward on a subject as complex as climate.
Ridiculing this kind of effort is rather strange. Yes, you may point out the current level of the work may be lacking but please tell us what new scientific endeavor does not suffer from the same problem?
Personally, I think the problem is extremely difficult. You have all the problems related to casual chains and momentum of cycles (climate inertia) that complicate the issue even further. However, I can’t support Willis’ critique.
Playing with 18 variables easily gives good results for the past temperature variations, but principally there is no difference to all these unphysical CO2 calculations, only the results for the future are different.
Does anyone else have a problem with any model tuned to hindcast Hadcrut?
As an engineer two things have always jumped out at me about the climate: you can’t have a stable climate for 4 billion years if it had anywhere near the sensitivity modelers have assigned to it – given the diverse range if perturbations the earth has been subjected to in its history you can rest assured the climate has some very powerful negative feedback.
The next being that any arbitrary continuous signal (e.g temperature) can be represented as a furrier series. So unlike a number of other modelers Scafetta is at least trying to address the fact that there are cycles – and likely a lot of them (way way more than 6). But yes his approach is wrong – if you want to represent the anomaly as a series of underlying cycles then do the math and find however many there are – then try to match them to physical phenomenon. However I can think of two big problems with that effort: the climate has been subjected to numerous non cyclical inputs (volcanos, asteroids, etc) and there are non-trivial entropy factors to consider (e.g decay in orbit and rotation, or cooling mantle, or thickening crust).
Trying to model a system as complex as the earth is likely impossible, but you can rest assured there hasn’t been a model produced yet that is anywhere complex enough to be remotely accurate.
@george
Ok. maybe not GOOD satire, but none the less:
“Strange. Am I the only one who did not get the memo about Willis’ promotion to Uber-Censor who may dictate that lines of thought or investigatioon that he does not support may not be posted here?”
From Wiki:
“Satire is a genre of literature, and sometimes graphic and performing arts, in which vices, follies, abuses, and shortcomings are held up to ridicule, ideally with the intent of shaming individuals, and society itself, into improvement.[1] Although satire is usually meant to be funny, its greater purpose is often constructive social criticism, using wit as a weapon.
A common feature of satire is strong irony or sarcasm—”in satire, irony is militant”[2]—but parody, burlesque, exaggeration,[3] juxtaposition, comparison, analogy, and double entendre are all frequently used in satirical speech and writing.”
Ok, skip the satire. I suspect this is not the place for a discussion on literature. Let’s just say that I fully support what some other commentators have said about Willis’ unbecoming and distasteful tone in this post. My humble apologies to the Willis E. fan club who is clearly out in force… 🙂
More uniformed dribble by Willis. His attitude is condoned and accepted by Watts and mirrors the attitude of those that persecuted anyone who dared question that the Earth was the centre of the universe.
REPLY: You are welcome to disagree, and to offer proof that it is “uninformed dribble”. Step up.- Anthony
@Mark Bofill, July 23, 2013 at 6:31 am
Thanks Mark for your support. Yes, as they say “If you can’t take the heat, get out of the kitchen!”. This is a place for grown-up minds who have learnt some genuine humility, not for the infantile and narcissistic. It’s for people who have drunk deeply of the Pierian spring. And few have drunk deeper than our dear Mr Eschenbach. Sure, he can be barbed and prickly. But I would rather fight beside one growling Willis than with a thousand ‘nice’ but ineffectual windbags looking to puff up their egos.
And now I too am guilty of cluttering up this post – sorry Willis!
When I was at school, we were told one day that at around 1pm when most of the planets aligned, there would be earthquakes, tidal waves and chaos. Nothing happened of course. Someone should tell Scafetta that not every celestial cycle has relevance to what goes on on earth.
Also, he hasn’t included that Virgo is in Saturn, so Barrack Obama wont get his bill through congress this month.