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.
http://tinyurl.com/ogsy5qo
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* http://www.sciencebits.com/HUdebate
Total seismic energy? This guy Chalko seems a bit nutty, but he’s calculating an uptic in global seismic energy starting in 1998 that he attributes to global warming. See http://sci-e-research.com/quake-energy.html I was looking for something a little less agenda-driven, but didn’t have time. Maybe someone else has global seismic energy results.
Your mileage may vary.
While reading I assumed he had misused century for decade.The error must be edited.
Using the same logic according to which the pause started at 1997, we can find out warming lasted till 2008.
http://www.woodfortrees.org/plot/rss/from:1979/to:2014/detrend:0.555/plot/rss/from:1979/offset:0.6/plot/rss/from:1979/to:2008/detrend:0.46/plot/rss/from:1997/trend/offset:0.6/plot/rss/from:1979/to:2008/detrend:0.46/trend/plot/rss/offset:0.6/from:1997
(note: graph uses detrending and offsets to put both parts along each other in an easy to compare way. Absolute magnitude of the anomaly has no meaning in it).
One should think that the Pacific Ocean, given the statistics as to how it relates to the earth, should have a major impact on the world’s climate:
“Pacific Ocean, the world’s largest body of water. It lies between North and South America on the east, Asia and Australia on the west, and Antarctica on the south. The Pacific, including adjoining seas, has an area of about 64,186,300 square miles (166,241,700 km 2). It makes up almost 33 per cent of the earth’s total surface and 46 per cent of its water surface, and is larger than all land areas combined. The ocean is commonly divided at the Equator into the North and the South Pacific.
“Maximum dimensions are almost 11,000 miles (17,700 km) east-west (along the Equator) and 9,500 miles (15,200 km) north-south (near the International Date Line). Average depth is about 14,000 feet (4,270 m). Bordering the Pacific are numerous seas. They lie mainly in the west and include the Tasman, Arafura, Coral, South China, Philippine, East China, Japan, Okhotsk, and Bering seas.”
Source: http://geography.howstuffworks.com/oceans-and-seas/the-pacific-ocean.htm
Bob T. has indeed repeated the same mantra for years…albeit, Monckton’s graphics and arguments are a bit more persuasive than Bob’s.
Ditto on requesting clarification on what appears to be a series of typos.
I think it fair to say we know a lot more about the Earth’s climate today than we did 30 years ago, unfortunately it appears to be a drop in the ocean (no pun intended) to what we need to know to fully understand it! I still find it hard to believe that we can meaningfully measure globally averaged temperature to the nearest 1/100th of a degree in either scale, & certainly not rates of warming to the nearest 1/1000th of a degree!
Thank you for your tireless efforts to higlight the truth in the climate record and to withstand the brainwashing attempted by the AGW priests.
It is my contention (totally unproven) that a significant portion of the added atmospheric energy came from a gamma ray burst in mid to late ’97. I also accept that natural ocean oscillations probably had measurable contribution.
If you look at the last graph in your last article, you can see that from mid ’97 to early ’98, the mean temperature increased nearly 0.55 C. A similar increase is seen from early ’08 to early ’10, a time span four times longer than the ’97/’98 SPIKE! I believe that this indicates an external forcing much greater than the ocean dynamics can generate.
Anyone want to join my Gamma Ray Burst club and petition the world governments for lots of money to develope a solar umbrella to protect against the next occurance? Makes as much sense as destroying our carbon based economies to protect against a non-existant CO2 menace.
Bill
Kasuha says:
March 19, 2014 at 8:00 am
Using the same logic according to which the pause started at 1997, we can find out warming lasted till 2008.
Your troll “logic” leaves much to be desired. The start date of the global warming halt period is now, working back. The question is, for how long has this halt lasted, and the answer remains 17 1/2 years.
Trouble with all you skeptical denier types is you just can’t accept the science is always settled-
http://www.telegraph.co.uk/journalists/sarah-knapton/10703970/No-link-found-between-saturated-fat-and-heart-disease.html
And coming on top of the doubts being raised over the usefulness of statin drugs there’s a serious problem of sceptical denialism breaking out everywhere and this must stop as there is an awful lot of Gummint lolly and important reputations at stake here people. Won’t you please think of the schoolchildren having to cope with all of this uncertainty and confusion?
If I were a “warmer” I would be tempted to argue that the step change connected with big El Nino’s is a response to instability caused by accumulation of energy in the climate system, caused by–global warming. Each step ratchets global temperatures up a notch, but is then followed by a period of stability. The only answer I currently have to that is that recent smaller El Ninos have been followed by a return to the current non-trend. Some forecasters are now saying that we are [may be] heading into conditions favorable to a large El NIno. Is there reason to think that future El Ninos will not produce this ratcheting effect?
Lord Monkton
As always I find your insights compelling and persuasive. A number of years ago, I wrote a paper for web publication entitled An Alternative View of Global Warming which explored the inverse relationship between zonal global temperature changes and changes in the strength of the earth’s magnetic field. Unsurprisingly, the greatest changes in both were occurring in the Arctic and there was a very strong inverse relationship between the slopes of zonal geomagnetic changes and zonal temperature anomalies. Interestingly, the abrupt changes in temperature involving rapid decreases, plateaus and increases seem related to the deterioration of the magnetic field strength and the occurrence of a poorly understood phenomenon called geomagnetic jerks. There were jerks just prior to the warming in the 1920’s to early 1940’s and a string of jerks in 1969, 1978, 1990 and 1999 with a hiatus during the relatively flat period in between. I can think of any number of ways the magnetic field changes can influence Earth’s temperature from cosmic rays and cloud formation to an increase in the depth of penetration of the solar wind into our atmosphere. If nothing else, this may explain why the Arctic is warming the most. You may want to take a look. The paper is at:
http://www.appinsys.com/GlobalWarming/Johnston_MagneticGW.pdf
I remember the consensus in the 70’s that said we were going into the next ice age. I was a teenager then. 1979 was when the satellites got launched but, it was cold then. My suggestion would be to look at the observations from the ice and snowpack satellite that NASA launched in 1967 that caused that fury of drivel. 🙂
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Zeke Hausfather,
Interesting observation.
I have the same recollection as you. Up to a few years ago the RSS was seen as running hot compared to UAH, but now the perception is reversed.
Question for Roy Spencer: I wonder what the backstory is? If UAH’s Roy Spencer is reading this thread . . . . perhaps he can add some thoughts?
John
Step changes are easily produced by adding odd-integer harmonic frequencies of form 2𝛑(2k-1)f. Since natural cycles are ubiquitous it is hard (for me) to imagine that such coincidences do not occasionally occur, and will necessarily reverse themselves. To avoid antagonizing our host, I will stop there.
http://en.wikipedia.org/wiki/Square_wave
I do apologize for a couple of typos. I’ve asked Anthony to fix them.
Whaa
“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.”
How do you know it correctly represents the el nino? just because its bigger?
You have 5 data sets ( really more but lets forget that)
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. Further all three rely on algorithms based in physical theory which turns a voltage at the sensor into a brightness and then a brightness into a temperature using radiative transfer equations for microwave.
GISS, HADCRUT, NCDC, Berkeley, Cowtan and Way all create a temperature INDEX not a real temperature but rather a combination of SST and SAT. The all use different methodologies and different data. They “measure” a different aspect of the system than UAH,RSS, and STAR.
You can compare them to each other, but comparing them to UAH,RSS, and STAR is quite a different matter.
Bottom line: you have no basis for assuming that RSS is the most correct. To assert that you would actually have to know what the “real truth” was. You dont. A robust analysis ,as any reader at climate audit would tell you, is one that considers all the data sources. One might be able to argue that RSS is “the best” because it calibrates with radiosondes better, or it calibrates against NCEP better.. if you claim it captures the 1998 El nino better.. you actually have to show your damn work.
Of course in the past skeptics preferred UAH.
fake skeptics will change preferences like this to suit their purpose. They are as bad as Mann.
A real skeptic?
1. Will show all datasets.
2. will present where possible a detailed justification for selecting one dataset over another.
Judgement: Monkton is a fake skeptic.
Read farther. You will find he did include all 5 data sets.
The start date is obviously “right this second!” and searching back. Which bodes poorly for those who desire me to open my pocketbook to prevent more “warming”. From my cold, dead hands…
Combining DanJ’s geomagnetic input with earth rotation speeds as measured via LOD, it appears from literature that an active sun (sun spots en magnetic fields) slows down the rotation speed of the earth. A weak sun (low sunspot numbers and weaker magnetic fields) speeds up the rotation speek, shortening LOD. As understood from Bob Tisdale excursions here, el nino’s may be considered as safety valves preventing the atmosphere from overheating; see the temperature limits elegantly described by Willis Eschenbach.
James Strom– one factor that is working against abnormally strong El Niño events for the next 25 years or so is that the Pacific Decadal Oscillation entered its 30-yr cooling cycle in 2008.
During 30-yr PDO cool cycles, El Niño events tend to be weaker compared to El Niño events during 30-yr PDO warm cycles, while La Niña events during PDO cool cycles tend to be cooler compared to La Niña events during 30-yr warm PDO cycles.
Another phenomenon the CAGW warmunists have to contend with is that the 30-yr AMO warm cycle is starting to wind down and will enter a 30-yr cool cycle around 2022. Making matters even worse for the warmunists is that the current solar peaked last month and will be falling from now until 2020.
To add a cherry on top, the Umbral Magnetic Field (UMF) continues to fall, which Penn & Livingston predict may lead to the next solar cycle being the weakest solar cycle since the Maunder Minimum ended in 1715. If the UMF falls below 1500 gauss, Penn & Livingston believe we may enter a new Grand Solar Minimum, which could mean sunspots virtually disappear for 80 years.
Some scientists attribute the 4 Grand Solar Minimums (Wolf, Sporer, Maunder and Dalton) which to causing the Little Ice Age.
Many cooling events all seem to be converging at the same time, which should help bury the CAGW hypothesis once and for all by around 2020, which will make roughly 25 years of no warming trend, despite roughly 40% of all CO2 emissions since 1750 made over those 25 years.
1970 to 2030 looks like a rerun of 1910 to 1970. In effect slight solar warming from 1800 with the well documented 60 year cycle of warming and cooling imposed.
2000 was the crunch year for CAGW. If correct the normal cycles would be disrupted and the temperature would keep increasing. If CO2 had little or no effect the temperature would level out. It did. CO2 levels have little or no impact on global temperatures.
Even so, the power of the CAGW activists is such that even after a lengthy ‘pause’ senior politicians are crazily anxious to damage their economies on their command!
As a point to ponder – consider the Sahara where temperatures can drop by 35C in a day. If you exclude the warming period then in rather less than 24 hours. A freezer would cool things quicker, but not much else. The Sahara will have the same GHGs as elsewhere on Earth, so where is the CO2 effect?
Here’s something that should be put on 1000 billboards across the world:
Image—A hockey stick with its shaft slanting upwards & to the right and its blade flat. It’s transparently overlaid on a graph of the running mean of GASTA averaged from five sources.
Caption—”Who’s in Denial Now?”
Make that 10,000 billboards.
To be fair they are cherry-picking experts ,as without being able to select the ‘right’ dates, data etc the whole ’cause ‘ goes from having poor data to having no data. However if fair to say that in line with normal climate ‘science ‘ practice , dishonest and hypocritical in application.
May The Seeker After Truth often Come by Here, to enlighten us all.
I’m tempted to say, “I’ll never find another You”.
Bonne chance, mon ami !
Regardless of the starting point you want to choose. what it is clear is that there is little to no correlation between CO2 levels and temperature.
If they were, what would the correlation constant be? It is clear that if you calculate that constant during the nineties (from 1990 to 1999) you will have a different value than if you calculate the constant during the first decade of the XXI century. proving that CO2 levels cannot be the main driver of global mean temperature.