By Christopher Monckton of Brenchley
The dwindling number of paid or unpaid trolls commenting here – dwindling because the less dishonest and less lavishly-funded ones realize the game is up – do not like The Pause. They whine that in order to demonstrate a long period without global warming I have cherry-picked my start date.
No, I have calculated it. I have not, as they suggest, naïvely cherry-picked 1998 as my starting-point so as to take unfair advantage of the Great El Niño of that year. I have not picked 1998 at all.
Instead have determined by iterative calculation the earliest month in the record that shows no global warming at all as far as the present. On the RSS dataset, which I shall use for the analysis to follow, that month is September 1996, giving 17 years 6 months without any global warming.
This graph has become famous. Patrick Moore, one of the founders of Greenpeace (which is now, with frantic mendacity, trying to disown him), displayed it recently on Fox News, followed by weeping and gnashing of Medicaid dentures right across the leftosphere. Marc Morano has the graph as a lead indicator at the inestimable ClimateDepot.com. It is popping up all over the blogs.
The true-believers wring their tentacles and moan about cherry-picking. So let us deal with that allegation, and discover something fascinating on the way.
To put an end to the allegation that we have cherry-picked our start-date, let us start at the beginning of the satellite record. So here you go, from January 1979.
Oo-er! Instead of a zero trend, we now have a terrifying increase in global temperature, at a rate equivalent to a shockingly sizzling – er – 1.24 Cº per century. That is below the 1.7 Cº/century near-term warming predicted in IPeCaC’s 2013 Fifth Assessment Report. Well below the 2 Cº/century predicted in the 2007 Fourth Assessment Report. Scarcely more than a third of the 3.5 Cº/century mid-range estimate in the 1990 First Assessment Report. A quarter of the 5 Cº/century predicted by the over-excitable James Hansen in front of Congress in 1988.
Evidently, the predictions are becoming less and less extreme as time passes. But they are still well over the top compared with reality. Let us illustrate IPeCaC’s latest version of the “consensus” prediction, comparing it with the RSS real-world observation:
Whichever dataset one chooses, whichever starting point one picks, the rate of global warming predicted by the models has been and remains grossly, flagrantly, egregiously in excess of what is actually happening in the real world. It is this central truth that every attempt to explain away the Pause fails to get to grips with.
One of the slyest ways to pretend the Pause does not exist is offered by “Tamino”, one of the Druids’ white-robed, snaggle-bearded, bushy-eyebrowed archpriests.
“Tamino”, taking time off from his sun-worshiping duties at Stonehenge, invites us to suppose that in 1997 we had predicted that the previously-observed warming rate would either continue as is or turn horizontal. Where would the subsequent annual data points lie?
Tamino’s excited conclusion is that “fourteen of sixteen years were hotter than expected even according to the still-warming prediction, and all sixteen were above the no-warming prediction (although one is just barely so)”.
Phew! Global warming has not Paused after all!! The Earth still has a fever!!! Global temperature is continuing to rise – and at a faster rate than before!!!! What a relief!!!!! We said we were more certain about future global warming than about anything in the whole wide world before, evaah – and we were right!!!!!!
Up to a point, Lord Copper. The truth, if one goes looking for it rather than bashing and mashing the data till they fit the desired outcome, is much more interesting.
First, it is not appropriate to use annual data points when monthly data are available. Using the monthly data multiplies 12-fold the degrees of freedom in the analysis, and makes the picture clearer.
Secondly – and this cannot be said too often – trend lines on observed data, particularly where the data are known to be stochastic and the behavior of the underlying object chaotic, are not, repeat not, repeat not a prediction.
Let us play Tamino’s game of breaking the RSS dataset into pieces. But let us break it into three pieces, not two. Let us look at three periods: January 1979 to January 1993, January 1993 to January 1999, and January 1999 to February 2014.
It was Fred Singer who first pointed out this most startling characteristic of the post-1979 temperature record to me. We were sitting in front of the big computer screen and playing with the temperature datasets using my graphing engine in the library at Rannoch, overlooking the loch and the misty mountains beyond.
An otter was flip-flopping past the window, and the ospreys (a ménage a trois that year, with two adult males, a female and two chicks in the nest) were swooping down to catch the occasional trout.
Fred told me there had been very little trend in global temperature until the Great el Niño of 1998, and very little trend thereafter. But, he said, there had been a remarkable step-change in the data in the short period culminating in the Great el Niño.
The trend till January 1993 and the trend from January 1999 are indeed near-identical at just over a quarter of a Celsius degree per century. Not a lot to worry about there. But the trend over the six years January 1993 to January 1999 was a lulu. It was equivalent to a spectacular 9.4 Cº per century.
So, what caused that sudden upward lurch in global temperature? Since absence of correlation necessarily implies absence of causation, we know it was not CO2: for CO2 concentration has been rising monotonically, with no sudden leaps and bounds.
Indeed, no phenomenon in the atmosphere could really have caused this lurch. True, there had been a naturally-occurring reduction in cloud cover over the 18 years 1983-2001, and that had caused a forcing of 2.9 Watts per square meter (Pinker et al., 2005), greater by 25% than the entire 2.3 Watts per square meter of manmade forcing from all sources in the 263 years since 1750.
However, as Dr Pinker’s graph shows, the trend in cloud cover forcing was relatively steady, and there was actually a drop in the cloud-cover forcing in 1993-5.
Since solar activity did not change enough over the period to cause the sudden hike in global temperature, there does not appear to have been any external reason why, for six years, temperature should suddenly have risen at a mean rate equivalent to almost 1 Cº per decade.
Nor was there any more land-based volcanic activity than usual: and, if there had been, it would if anything have caused a temporary cooling.
When the impossible has been eliminated, whatever remains, however improbable, must be the truth. The culprit is plainly not atmospheric, not extra-terrestrial, not land-based, but oceanic.
To kick atmospheric temperature permanently upward by almost 0.3 Cº, and to boot the centennial trend northward by almost a full Celsius degree, something drastic must have happened beneath the waves.
Perhaps the still poorly-monitored pattern of overturning that takes warmer water from the mixed upper stratum of the ocean to the much colder benthic strata temporarily slowed.
Perhaps we shall never know. Our ability to monitor changes in ocean heat content, negligible today, was non-existent then, for the ARGO buoys were not yet on duty: and even today, as Willis Eschenbach has pointed out, the coverage is so sparse that it is the equivalent of taking a single temperature and salinity profile of the whole of Lake Superior less than once a year.
Perhaps there was massive subsea volcanic activity in the equatorial eastern Pacific, beginning in 1993/4 and peaking in 1998. Again, we shall never know, for we do not monitor the 3.5 million subsea volcanoes on Earth (the largest of which, occupying a footprint greater than any other in the entire solar system, was only discovered last year).
But the curious thing about this sudden and remarkable warming over just six years – let us call it the Singer Event – is that so very little consideration is given to it in the ramblings of IPeCaC.
The Singer Event accounts for fully four-fifths of the global warming trend across the entire satellite era. Without it, no one would still be wailing about global warming.
But will you find the Singer Event mentioned or discussed in any of IPeCaC’s Summaries for Policymakers from 2001 onward? Er, no. It doesn’t fit the story-line.
Bluntly, unless and until the cause of the Singer Event is nailed down there is nothing whatsoever in the global temperature record during the satellite era to suggest that CO2 is having any detectable effect on global temperature at all.
Finally, just in case any of the trolls want to whinge about why I have confined the analysis to RSS, I prefer RSS because, alone of the five datasets, it correctly represents the 1998 Great el Niño as being significantly bigger than any other el Niño in the instrumental record.
There have been two previous Great el Niños in the past 300 years. Each of those, like the 1998 event and unlike any other in the global instrumental record, caused corals to bleach worldwide on a large scale. Bleaching is a natural defense mechanism against sudden ocean warming, and the corals have recovered from it just fine, as they have evolved to do.
But the corals are a testament to the fact that the Singer Event is something atypical. And it is the RSS dataset that best reflects how exceptional the Singer Event was.
But here, just to please the trolls, is the entire global temperature record since January 1979, taken as the mean of all five global temperature datasets (it is pardonable to take the mean, because although the coverages and measurement methods vary the discrepancies are small enough that they tend to cancel each other over a long enough period).
The bottom line is that the warming trend since 1979 on the RSS dataset was 0.44 Cº, while on the mean of all the datasets it was not vastly greater at 0.51 Cº. So, when the trolls argue that I am cherry-picking, they are arguing pettily about hundredths of a degree.
The Singer Event is highly visible in the five-datasets graph, and still more so in the earlier RSS graph.
I should be most interested in readers’ comments on the Singer Event, because I have been invited to contribute a paper to the reviewed literature about it. All help, even from the trolls, would be very much appreciated.
“there does not appear to have been any external reason why, for six years, temperature should suddenly have risen at a mean rate equivalent to almost 1 Cº per decade.”
—————-
Ah so, but there is one associated correlation, ……. or correlated association, ….. comet Hale-Bopp showed up at it’s brightest, …. in 1997, ….. right on “cue”, when the Singer Event started it vertical rise.
Those darned ole comets, …. always have been “omens and bearers of bad news”.
The graphic for the square wave link above has got to be the best visual representation I have ever seen to illustrate how multiple cycles superimposed on each other can cause an apparent step change. If you imagine the long period cycle to be 60 years and the next cycle being 11.5 years etc. (or even starting with one of the longer supposed natural cycles) it is easy to imagine how people lacking in life experience (ie too young to remember the previous flip in the flip flop cycle) would think there has been a sudden unexplained “unprecedented” change in the climate.
http://en.wikipedia.org/wiki/File:SquareWaveFourierArrows.gif
If I am reading the comments about the use of Cº correctly … “units” as noted above …
Cº is correct in talking about a relative difference or change. Christopher Monckton of Brenchley’s use of C° is correct.
The difference between the following are all the same:
100°C vs 104°C
-20°C vs -16°C
37°C vs 41°C
The difference between all of the sets is 4C° … the difference is four Celsius degrees NOT 4 degrees Celsius.
4°C is an actual temperature. 4C° is a difference or change … ∆T.
Steven Mosher says:
March 19, 2014 at 8:42 am
“A real skeptic?
1. Will show all datasets.
2. will present where possible a detailed justification for selecting one dataset over another.”
You mean like this
http://climatedatablog.files.wordpress.com/2014/02/hadcrut-giss-rss-and-uah-global-annual-anomalies-aligned-1979-2013-with-gaussian-low-pass-and-savitzky-golay-15-year-filters1.png
and this
http://climatedatablog.files.wordpress.com/2014/02/hadcrut-giss-rss-and-uah-global-annual-anomalies-aligned-1979-2013-with-gaussian-low-pass-and-savitzky-golay-15-year-filters-1979-on.png
Curiously, minus the snark and actually doing the math re attribution, it seems like his lordship was trying to say something like this: http://iopscience.iop.org/1748-9326/6/4/044022/pdf/1748-9326_6_4_044022.pdf
Or maybe he was just trolling his audience. One can never really tell.
Steven Mosher says:
March 19, 2014 at 8:42 am
“UAH, RSS and STAR all measure the troposhere….GISS, HADCRUT, NCDC, Berkeley, Cowtan and Way all create a temperature INDEX not a real temperature but rather a combination of SST and SAT.”
You missed the biggest difference between the two basis sets. One is an area sampling series (satellite) and the other is a point sampled (thermometer) and then in-filled to get to an area series.
They both have different time sampling methodologies as well.
However, whatever their individual methodologies are, they must all eventually converge in their rate of change output, regardless of any other consideration.
When you think that is likely to occur? And who is likely to have to make the biggest adjustments to do so?
It’s all about Sun activity – solar cycles. Expect at least 15 years of global cooling – which would throw the CO2/temp. correlation way off! Then everyone arguing about greenhouse gases are going to feel very foolish.
David C. says:
March 19, 2014 at 7:44 am
There were seven volcanic eruptions in 1989-94 rated VEI 3 or higher, including two big ones in 1991, ie Pinatubo, a 6, & Mt. Hudson in Chile, a high 5 or low 6.
http://en.wikipedia.org/wiki/List_of_large_volcanic_eruptions_of_the_20th_century
These eruptions may have had the effect of increasing the apparent gain during the 1993-91 period. Increased volcanic activity on land (temporarily dropping tropospheric T) might also indicate submarine eruptions, too, with the effect of heating the oceans.
Steven Mosher says:
March 19, 2014 at 8:42 am
…
Judgement: Monkton is a fake skeptic.
**********************************
…. and a story teller, and a salesman with an earned reputation.
The only way to explain the results is that
a) warming or cooling of earth happens mostly via the oceans where there is mass. We know that water “absorbs” in the UV and visible region. Because of the mass, ultimately that light gets converted to heat.
b) looking at the amount of energy allowed through the atmosphere, we know that 1995 was the end of warming, i.e. up until 1995 we were positively adding energy (mostly stored into the oceans). About three years later, we saw the highest output (means) because there is some lag between energy-in (maxima) and energy-out (means).
I have explained it all before. If you don’t get it, you must be blind (or a poor scientist)
http://blogs.24.com/henryp/2013/04/29/the-climate-is-changing/
So, since 1998, we have currently started globally cooling.
It should be noted that we are cooling from the top latitudes down,
e.g. see here:
http://oi40.tinypic.com/2ql5zq8.jpg
With respect to 1998, the following have 1998 as the highest year. In addition, I will indicate how much higher the 1998 anomaly is compared to the next highest anomaly.
RSS (0.078)
UAHversion5.5 (0.025)
UAHversion5.6 (0.021)
Hadcrut3 (0.066)
Hadsst2 (0.045)
Hadsst3 (0.010)
Mosh, Regarding:
“UAH, RSS and STAR all measure the troposhere. You cant tell which is correct by comparing the three. You can only note the differences and try to explain them. They are different because they are not direct observation. They are a data product built from multiple instruments stitched together using corrections and adjustments.”
I have noted your contempt for Monkton is previous comments. Is it not SOP in statistics to graph the mean of three different, but roughly congruent data sets? Is the difference between these sets of sufficient magnitude to alter the conclusions reached, viz, no statistically significant warming since 1998.
Mr. Monckton, do you have a similar cloud cover graph that goes back a little further? I’m curious what cloud cover was like just before the 81-82 el Nino. I suspect unusually low cloud cover over the tropical pacific during the neutral and la nina prior to (and maybe during?) the ’98 el nino are what made the ’98 heat dump so big.
You might look at a regime shift detection routine for Excel at http://www.beringclimate.noaa.gov/regimes/
It will give you a statistical basis for finding dividing points in regular data sets. You must use judgement in setting parameters, but the results are standardized and a bit more defensible.
Cherry-picking is interesting.
When we looked back from 1998 and saw a warming trend over the previous few years, that definitely WAS NOT cherry-picking.
When we look back from 2014 and see no trend over the previous few years, that IS cherry-picking.
Seemples!
It must be one of those irregular verbs:
I carefully selected those trees.
You cherry-picked your dates.
He does not have a clue about climate.
What would 1991 to 1995 have looked like without Mt Pinotubo erupting?
It seems as if Tamino chose a very convenient time to stop his graph, namely around July 1997. The slope to that point is only 0.0068/year, which is certainly nothing to be alarmed about. Naturally, many future points are above this extended line. But had he gone to 1999, the slope would have been much higher at 0.015/year and way fewer years would have been above the extended line. And even 0.015/year is below anything the IPCC predicted.
See:
http://www.woodfortrees.org/plot/rss/from:1979/to:1997.5/trend/plot/rss/from:1979/to:1999/plot/rss/from:1979/to:1999/trend
I would suggest there are actually two “Singer events”, the first being around 1980.
Remember that El Chicon blew up in 1982. The explosion was almost as big as Pinatubo and occurred at the same time as the largest El Nino of the century until then was beginning.
Instead of a big spike, we ended with a drop in temperature.
http://climate.envsci.rutgers.edu/pdf/EGECElChichon.pdf
@wbrozek
If you get my point:
we are cooling most positively (seen) from the top latitudes downwards
You would not yet see much global cooling at the lower latitudes, because all that happens is a shift in rainfall patterns, more towards the [lower latitudes]
More condensation at lower latitudes releases energy, which sort of compensates for the global cooling effect,
you agree?
Mr Mosher continues to wriggle and squeal like a stuck pig. For as long as he persists in starting from his preconceived notions, he will be likely to reach his conclusions by an unsound route. I’ve said it before, in science an open mind is of near-infinitely greater value than an open mouth.
I patiently explained why RSS got the Great el Niño more closely correct than the other four datasets. I pointed out that the bleaching of the corals was far more widespread in 1998 than during any of the other recent el Niños: but Mr Mosher, in breach of the Eschenbach Rule, truncates my explanation and then says I have not explained. That is not very grown-up of him.
Then Mr Mosher, having complained that I have only used one dataset, complains that I have used five. He complains that I should not average datasets that try to measure much the same thing by different methods. But I had already explained to him yesterday that even “Phil” Jones at the “University” of East Anglia compares the two satellite datasets with his terrestrial HadCRUT dataset, on the same graph, showing their near-coincident linear trends. So Mr Mosher has merely recited today the complaint he made yesterday, without even mentioning that that complaint has been comprehensively answered. That is not very grown-up of him.
And, as I said yesterday, if Mr Mosher does not wish “Phil” Jones to combine datasets compiled by different methods, then he should write and tell him so. But no, he will treat a fellow true-believer and a doubter differently, scientifically speaking. That is not very grown-up of him.
Mr Mosher insists that I should prefer UAH, because “in the past skeptics preferred UAH”. Perhaps he does not understand that “skeptics” do not think as the hard-Left herd or hive thinks. We think for ourselves, regardless of what the Party Line says. The fact that some skeptics may have preferred one dataset and some another is neither here nor there. But Mr Mosher, as a frequent visitor here, will know that every month I issue a graph of the IPCC’s range of near-term global warming predictions, compared with the actual temperature change, and that I take that temperature as the mean of the two satellite datasets. Averaging these two satellite datasets gives a result near-identical to averaging the three terrestrial datasets. So I use both satellite datasets together, for that keeps everyone except the incurably grouchy Mr Mosher happy. And being grouchy when there is really no need to be grouchy is not very grown-up of him.
He says I have “changed preferences” to suit my purpose. But what evidence does he have that I have “changed preferences”? And what evidence does he have that I do not publish regular updates of all five global-temperature datasets? To make silly accusations of that kind on no evidence is not very grown-up of him.
He says a real skeptic will show all datasets. And so I do – frequently. Taking the mean of all five, there has been no global warming for at least 13 years, and none distinguishable from the measurement, coverage, and bias uncertainties for at least 18 years. Mr Mosher’s reluctance to admit the reality of the Pause, and the widening discrepancy between what is predicted and what is occurring, and the inexorable detuning of the predictions with each successive IPCC report, is not very grown-up of him.
Then he says, again, that a real skeptic will present a detailed justification for selecting one dataset over another. Here he repeats himself pointlessly, and that is not very grown-up of him.
Marks out of 10: 0. See me after class. Must try harder.
are people really using 10 or 30 years of data and then extending out for over a 100 years? If the earth is in ice age cycles then any data must be referenced to that otherwise its just a decontextualised snapshot.
if earth is in an inter glacial warming period then one would expect warming, melting etc. the sea levels have risen 150m since the last ice age.
by decontextualising the data into 30 year snapshots then projecting the line the co2ers do not have to prove the ‘extra warming’ that they say co2 is causing.
if the co2ers are not claiming the ice age cycles are over then this is natural inter glacial warming and the temperature data shows its not a ‘catastrophic man made co2 express train’. The co2/temperature divergence shows that.
taking decontextualised snapshots and basing a whole narrative on it and demanding billions be spent on projections from it then name calling anyone who points out its limitations really is cherry picking.
Aaron asks whether I have any cloud-cover data before 1983. I am not sure that there are any reliable data before then, because that was the first time the satellites provided global coverage.
JauntyCyclist rightly points out that one should not base 100-year projections on 30-year trends. Indeed, one should not use trends on stochastic data for projection at all. And, in order to remove any naturally-occurring influence from the great ocean oscillations, which follow a 60-year cycle, one must either start a 30-year cycle exactly halfway through a 30-year half-cycle of the PDO, or use 60-year cycles.
Meanwhile, the Pause grows ever longer, month by month: and, even if a humdinger of an el Nino brings it to an end, my best guess is that the discrepancy between the IPCC’s predicted warming rates and what actually occurs will continue to widen.
If the Singer Event were to be major volcanic eruption sufficiently deep in the ocean to produce no visible surface effect (& that seems quite likely) it might be detectable by an element spike, in corals or mud in areas downwater. This is analogous to Alvarez’s Iridium Spike that proved the dinosaurs had been hit by a comet.
If this effect is so significant it may have ramifications for the concept of floating equatorial islands powered by ocean thermal (OTEC) generators. We should probably not build more than a few thousand (housing mere hundreds of millions) before being sure.
Aaron asks whether I have any cloud-cover data before 1983.
Henry says
(I think) forget about the clouds having an “own” agenda
The amount of clouds is a function of what amount of energy is allowed through the atmosphere,
that ended up in the oceans, mostly (70%)
http://blogs.24.com/henryp/2012/10/02/best-sine-wave-fit-for-the-drop-in-global-maximum-temperatures/
if for example ice ages were a 100,000 year sine wave then taking a 30 year snapshot of that and projecting the line is going to do what? You could have 50 x 30 year snapshots with prediction lines. I wouldn’t bet any money on predictions like that