Global temperature update: the Pause is now 18 years 2 months
Guest essay by Christopher Monckton of Brenchley
Since October 1996 there has been no global warming at all (Fig. 1). This month’s RSS temperature plot pushes up the period without any global warming from 18 years 1 month to 18 years 2 months (indeed, very nearly 18 years 3 months). Will this devastating chart be displayed anywhere at the Lima conference? Don’t bet on it.
Figure 1. The least-squares linear-regression trend on the RSS satellite monthly global mean surface temperature anomaly dataset shows no global warming for 18 years 2 months since October 1996.
The hiatus period of 18 years 2 months, or 218 months, is the farthest back one can go in the RSS satellite temperature record and still show a sub-zero trend.
What will the chart look like this time next year, at the beginning of the Paris world-government conference, at which the Treaty of Copenhagen will be dusted off and nodded through by the scientifically illiterate national negotiating delegates of almost 200 nations, ending the freedom and democracy of the West and putting absolute economic and political power in the hands of the grim secretariat of the UN climate convention?
When the November 2015 RSS data are available, how many years and months of zero global warming will have occurred? Enter our friendly competition by putting your best estimate in comments. For guidance, at the December 2012 Doha conference I was banned from UN climate yadayadathons for life for the grave sin of telling the truth that there had been no global warming for 16 years. And an el Nino of unknown magnitude is expected during the boreal winter, followed by a compensating la Nina.
Figure 2. Near-term projections of warming at a rate equivalent to 2.8 [1.9, 4.2] K/century, made with “substantial confidence” in IPCC (1990), January 1990 to November 2014 (orange region and red trend line), vs. observed anomalies (dark blue) and trend (bright blue) at less than 1.4 K/century equivalent, taken as the mean of the RSS and UAH satellite monthly mean lower-troposphere temperature anomalies.
A quarter-century after 1990, the global-warming outturn to date – expressed as the least-squares linear-regression trend on the mean of the RSS and UAH monthly global mean surface temperature anomalies – is 0.34 Cº, equivalent to just 1.4 Cº/century, or a little below half of the central estimate in IPCC (1990) and well below even the least estimate (Fig. 2).
The Great Pause is a growing embarrassment to those who had told us with “substantial confidence” that the science was settled and the debate over. Nature had other ideas. Though approaching 70 mutually incompatible and more or less implausible excuses for the Pause are appearing in nervous reviewed journals and among proselytizing scientists, the possibility that the Pause is occurring because the computer models are simply wrong about the sensitivity of temperature to manmade greenhouse gases can no longer be dismissed, and will be demonstrated in a major paper to be published shortly in the Orient’s leading science journal.
Remarkably, even the IPCC’s latest and much reduced near-term global-warming projections are also excessive (Fig. 3).
Figure 3. Predicted temperature change, January 2005 to October 2014, at a rate equivalent to 1.7 [1.0, 2.3] Cº/century (orange zone with thick red best-estimate trend line), compared with the observed anomalies (dark blue) and zero real-world trend (bright blue), taken as the average of the RSS and UAH satellite lower-troposphere temperature anomalies.
In 1990, the IPCC’s central estimate of near-term warming was higher by two-thirds than it is today. Then it was 2.8 C/century equivalent. Now it is just 1.7 Cº equivalent – and, as Fig. 3 shows, even that is proving to be a substantial exaggeration.
On the RSS satellite data, there has been no global warming statistically distinguishable from zero for more than 26 years. None of the models predicted that, in effect, there would be no global warming for a quarter of a century.
Key facts about global temperature
Ø The RSS satellite dataset shows no global warming at all for 218 months from October 1996 to November 2014 – more than half the 430-month satellite record.
Ø The global warming trend since 1900 is equivalent to 0.8 Cº per century. This is well within natural variability and may not have much to do with us.
Ø Since 1950, when a human influence on global temperature first became theoretically possible, the global warming trend has been equivalent to below 1.2 Cº per century.
Ø The fastest warming rate lasting ten years or more since 1950 occurred over the 33 years from 1974 to 2006. It was equivalent to 2.0 Cº per century.
Ø In 1990, the IPCC’s mid-range prediction of near-term warming was equivalent to 2.8 Cº per century, higher by two-thirds than its current prediction of 1.7 Cº/century.
Ø The global warming trend since 1990, when the IPCC wrote its first report, is equivalent to below 1.4 Cº per century – half of what the IPCC had then predicted.
Ø Though the IPCC has cut its near-term warming prediction, it has not cut its high-end business as usual centennial warming prediction of 4.8 Cº warming to 2100.
Ø The IPCC’s predicted 4.8 Cº warming by 2100 is well over twice the greatest rate of warming lasting more than ten years that has been measured since 1950.
Ø The IPCC’s 4.8 Cº-by-2100 prediction is almost four times the observed real-world warming trend since we might in theory have begun influencing it in 1950.
Ø From September 2001 to September 2014, the warming trend on the mean of the 5 global-temperature datasets is nil. No warming for 13 years 1 month.
Ø Recent extreme weather cannot be blamed on global warming, because there has not been any global warming. It is as simple as that.
Technical note
Our latest topical graph shows the least-squares linear-regression trend on the RSS satellite monthly global mean lower-troposphere dataset for as far back as it is possible to go and still find a zero trend. The start-date is not “cherry-picked” so as to coincide with the temperature spike caused by the 1998 el Niño. Instead, it is calculated so as to find the longest period with a zero trend.
But is the RSS satellite dataset “cherry-picked”? No. There are good reasons to consider it the best of the five principal global-temperature datasets. The indefatigable Steven Goddard demonstrated in the autumn of 2014 that the RSS dataset – at least as far as the Historical Climate Network is concerned – shows less warm bias than the GISS or UAH records. The UAH record is shortly to be revised to reduce its warm bias and bring it closer to conformity with RSS.
Figure 4. Warm biases in temperature. RSS shows less bias than the UAH or GISS records. UAH, in its forthcoming Version 6.0, will be taking steps to reduce the warm bias in its global-temperature reporting.
Steven Goddard writes: “The graph compares UAH, RSS and GISS US temperatures with the actual measured US HCN stations. UAH and GISS both have a huge warming bias, while RSS is close to the measured daily temperature data. The small difference between RSS and HCN is probably because my HCN calculations are not gridded. My conclusion is that RSS is the only credible data set, and all the others have a spurious warming bias.”
Also, the RSS data show the 1998 Great El Nino more clearly than all other datasets. That el Nino, and that alone, caused widespread global coral bleaching, providing an independent verification that RSS is better able to capture such fluctuations without artificially filtering them out than other datasets.
Terrestrial temperatures are measured by thermometers. Thermometers correctly sited in rural areas away from manmade heat sources show warming rates appreciably below those that are published. The satellite datasets are based on measurements made by the most accurate thermometers available – platinum resistance thermometers, which provide an independent verification of the temperature measurements by checking via spaceward mirrors the known temperature of the cosmic background radiation, which is 1% of the freezing point of water, or just 2.73 degrees above absolute zero. It was by measuring minuscule variations in the cosmic background radiation that the NASA anisotropy probe determined the age of the Universe: 13.82 billion years.
The RSS graph (Fig. 1) is accurate. The data are lifted monthly straight from the RSS website. A computer algorithm reads them down from the text file, takes their mean and plots them automatically using an advanced routine that automatically adjusts the aspect ratio of the data window at both axes so as to show the data at maximum scale, for clarity.
The latest monthly data point is visually inspected to ensure that it has been correctly positioned. The light blue trend line plotted across the dark blue spline-curve that shows the actual data is determined by the method of least-squares linear regression, which calculates the y-intercept and slope of the line via two well-established and functionally identical equations that are compared with one another to ensure no discrepancy between them. The IPCC and most other agencies use linear regression to determine global temperature trends. Professor Phil Jones of the University of East Anglia recommends it in one of the Climategate emails. The method is appropriate because global temperature records exhibit little auto-regression.
Dr Stephen Farish, Professor of Epidemiological Statistics at the University of Melbourne, kindly verified the reliability of the algorithm that determines the trend on the graph and the correlation coefficient, which is very low because, though the data are highly variable, the trend is flat.
RSS itself is now taking a serious interest in the length of the Great Pause. Dr Carl Mears, the senior research scientist at RSS, discusses it at remss.com/blog/recent-slowing-rise-global-temperatures.
Dr Mears’ results are summarized in Fig. T1:
Figure T1. Output of 33 IPCC models (turquoise) compared with measured RSS global temperature change (black), 1979-2014. The transient coolings caused by the volcanic eruptions of Chichón (1983) and Pinatubo (1991) are shown, as is the spike in warming caused by the great el Niño of 1998.
Dr Mears writes:
“The denialists like to assume that the cause for the model/observation discrepancy is some kind of problem with the fundamental model physics, and they pooh-pooh any other sort of explanation. This leads them to conclude, very likely erroneously, that the long-term sensitivity of the climate is much less than is currently thought.”
Dr Mears concedes the growing discrepancy between the RSS data and the models, but he alleges “cherry-picking” of the start-date for the global-temperature graph:
“Recently, a number of articles in the mainstream press have pointed out that there appears to have been little or no change in globally averaged temperature over the last two decades. Because of this, we are getting a lot of questions along the lines of ‘I saw this plot on a denialist web site. Is this really your data?’ While some of these reports have ‘cherry-picked’ their end points to make their evidence seem even stronger, there is not much doubt that the rate of warming since the late 1990s is less than that predicted by most of the IPCC AR5 simulations of historical climate. … The denialists really like to fit trends starting in 1997, so that the huge 1997-98 ENSO event is at the start of their time series, resulting in a linear fit with the smallest possible slope.”
In fact, the spike in temperatures caused by the Great el Niño of 1998 is largely offset in the linear-trend calculation by two factors: the not dissimilar spike of the 2010 el Niño, and the sheer length of the Great Pause itself.
Replacing all the monthly RSS anomalies for 1998 with the mean anomaly value of 0.55 K that obtained during the 2010 el Niño and recalculating the trend from September 1996 [not Dr Mears’ “1997”] to September 2014 showed that the trend values “–0.00 C° (–0.00 C°/century)” in the unaltered data (Fig. 1) became “+0.00 C° (+0.00 C°/century)” in the recalculated graph. No cherry-picking, then.
The length of the Great Pause in global warming, significant though it now is, is of less importance than the ever-growing discrepancy between the temperature trends predicted by models and the far less exciting real-world temperature change that has been observed.
IPCC’s First Assessment Report predicted that global temperature would rise by 1.0 [0.7, 1.5] Cº to 2025, equivalent to 2.8 [1.9, 4.2] Cº per century. The executive summary asked, “How much confidence do we have in our predictions?” IPCC pointed out some uncertainties (clouds, oceans, etc.), but concluded:
“Nevertheless, … we have substantial confidence that models can predict at least the broad-scale features of climate change. … There are similarities between results from the coupled models using simple representations of the ocean and those using more sophisticated descriptions, and our understanding of such differences as do occur gives us some confidence in the results.”
That “substantial confidence” was substantial over-confidence. For the rate of global warming since 1990 is about half what the IPCC had then predicted.
Discover more from Watts Up With That?
Subscribe to get the latest posts sent to your email.
This is one of the posts that Sou (Miriam O’Brien) has chosen to comment on at HotWhopper. See my post at MoreOnMiriamO’Brien’sHotWhopper:
http://moreonmiriamobrien.wordpress.com/2014/12/04/miriam-obrien-says-christopher-monckton-picks-some-cherries-plus-rss-and-the-southern-hemisphere/
It includes a link to an archived version of Miriam’s post.
Whose comments did she pick to misrepresent?
Is it just my imagination that she left off the last 4 years of data from her graphs?
Well, I was about to read it when I saw who wrote it. Odious old bigots don’t interest me and Monckton is just that. Yes, I’m a skeptic on warming but I draw a line when it comes to people like Monckton.
You must be fun at parties!
And I bet he’s got lots ‘n’ lots of friends!
I bet at parties he is a lot funnier than you
Eugene WR Gallun
“Cherry-picking”?
If they think the 1997-1998 range is cherry picking, then start in 2000, 2001, 2002, 2003 or 2004. The 10-15 year trend shows the same as the 18 year trend.
UAH, in its forthcoming Version 6.0, will be taking steps to reduce the warm bias in its global-temperature reporting.
Whoah! Really?
My prejudice had always been that UAH had had it right. Partly because of the newer, better equipment thingie, but also, well, just, you know, prejudice.
OTOH, I find the history interesting. First UAH incorrectly reports cooling, but then corrects it by accounting for sat. drift. But it is overcompensation. Meanwhile, RSS starts up and is reporting lower trends than UAH.
And in all that, UAH is essentially skeptical and RSS is essentially the opposite. I always thought that was de facto evidence that both outfits are honest and just trying to get it right.
So now it turns out that RSS may have had it right after all. And we also need to consider LT trend is an upper bound and surface trend should be over 20% lower. This just happens to be what our “unperturbed” Class 1\2 (well sited) USHCN surface station set shows (but this is only land surface, of course).
[snip – fake name, fake email address, policy violation -mod]
[This is “Siberian Husky”. Any more sockpuppetry will result in his comments being unapproved. ~another mod.]
Found this today…..Good read.
http://www.forbes.com/sites/jamestaylor/2014/12/03/media-go-into-panic-how-to-spin-record-cold/2/
Kenny,
Thanks for that lnk. Some of the comments show the really ignorant mind-set of the alarmist lemmings. They constantly use ad-homs and personal attacks, instead of using rational scientific arguments.
That’s probably because they don’t have any good arguments.
It’s a pretty safe bet that
ManBearPigthe warming will continue merrily escaping into the deep oceans, to the utter dismay of the Warmunists and glee of Climate Realists, such that by next November, the length of the Halt will be at least 230 months. Their great hopes for a super duper El Nino have been shattered by what appears to be an El Nono. They just can’t seem to catch a break from mother nature, though they do keep trotting out the 2014-will-be-the-warmest evah meme in desperation. It’s quite amusing actually, to see them squirm.MikeB
December 4, 2014 at 2:29 am
//////////////////////
Mike
it is a pity that you did not attempt to answer the question. Everyone knows the maths, but that was not what the question was getting at.
Solar Energy in is received in bursts: at the equator approximately once every 12 hours, and at the poles there are periods of about 3 months when no energy in is received, whereas energy out is a 24/7 some 365 days of the year.
More importantly, the K & T energy cartoon takes no account of the differences between the eqatorial areas of the planet, which have a greater proportion of oceans where the effect of Solar absorption and DWLWIR absorption is significantly different to that at higher latitudes, and very high latitudes the low grazing angle of incoming Solar and the reflectiveness/albedo of ice.
The K & T energy cartoon does not describe planet Earth. One needs to see what is actually happening 24/7, and the budget and effect of Energy being inputted into the system at all the various latitudes since effect and response is fundamentally different. Averages distort and conceal what is actually going on, an regretfully that inhibits our understanding. The K & T energy cartoon needs to be torn up, and replaced by one that actually describes planet Earth and the processes going on.
Something that’s always bothered me about the global warming theory is that I don’t recall any of the radiative heat transfer associated with it being taught in engineering heat transfer classes. Backradiation from IR absorbing gasses? That was never included in the engineering heat transfer accounting process as far as I can remember. Maybe it was too small to worry about, maybe its more of a physics thing, or I missed that class. So then I asked myself what about using IR absorbing gasses in real world engineered products such as energy efficient windows? Surely just a little bit of energy efficiency improvement there from IR absorbing gasses would translate into better products and more profits. So why aren’t energy efficient windows filled with carbon dioxide to capture the IR heat leaving a room? Because it doesn’t work, you can’t notice the effect of CO2, convection dominates, as well as coatings. The effect of CO2 is puny with windows just like it is puny on planet Earth, where convection and coatings (clouds) dominate. Perhaps someone can dig into the parallels between engineered windows and global warming further, I thought I’d just pass my adventures along. Below is the link to the CO2 sudy.
http://buildings.lbl.gov/sites/all/files/29389.pdf
With the current solar cycle now past peak and the major ocean cycles in or entering cold phases, I predict a small drop in temperatures, as a result by this time next year, my guess is that the pause will be 19 years, 6 months.
All rollicking fun, of course, but one single comment. You speak of linear trends e.g. “1.4C per century”. These are not “trends”, they are slopes. Slopes can reasonably be used to extrapolate a linear function, but the warming expected from CO_2 is not a linear function. In particular, the warming expected from CO_2 as a function of its atmospheric concentration is:
C
C, or it will be one degree C warmer than it is now in 2100 if CO_2 is 600 ppm. 800 ppm? 
C warmer than it is now. A gaudy 1000 ppm — 0.1% CO_2 in the atmosphere, a number that is the right order of CO_2 concentration for most of the last 500 million years — 
C warmer than it is today. This is a bit worse than RCP 9.5, a scenario that assumes that we shut down the nukes, stop burning methane, destroy all solar and wind and hell, blow up the hydroelectric dams and do nothing but burn coal to make electricity and supply it to every human on Earth at 1st world rates of consumption per capita.
where the offset is chosen to match the anomaly to HadCRUT4, the base of the log is selected to match the concentration in the initial year measured at Mauna Loa, and where the de fact sensitivity is obtained from a two parameter nonlinear least squares fit of the form to HadCRUT4 from 1850 through the present.
From this the total climate sensitivity can be given in the usual terms of doubling CO_2 concentration:
The log function, of course, has a decreasing slope, so if CO_2 grew at most linearly one could argue that this is an upper bound on probable end-of-century warming. However, CO_2 concentration is increasing at a nonlinear rate.
It is remarkably difficult to extrapolate observations of the current rate to the year 2100. There are simply too many variables. If, for example, Lockheed-Martin is correct and they have fusion licked to the point where they successfully demonstrate a 50 MW plant that would fit in the back of a semi’s cargo space, we probably won’t even reach 500 ppm. A simple extrapolation of the best sort-of-exponential fit to the Mauna Loa data from 1959 to the present yields around 700 ppm, close to scenario RCP6.5 in IPCC parlance. A more aggressive increase might take us to 900 ppm. A less aggressive increase might take us to 600 ppm or less. In the end, it isn’t a linear trend in time that matters — the only thing that matters, granting that the best fit to CO_2 above is itself extrapolable, is where you think CO_2 will end up.
As for the best fit itself — there are reasons to think it is extrapolable, reasons to think that it isn’t, but they can be discussed when I publish all of this and the associated graphs on WUWT which won’t happen until I shake free enough time to finish the article, difficult with final exams looming. In the meantime, the curve itself predicts (or rather, fits) the 0.8 C rise not just from 1900 but from 1850 — all of HadCRUT4 — if one builds a simply sort-of-exponential model for CO_2 increase from 1850 to the present that smoothly matches Mauna Loa. However, a mere glance at HadCRUT4 over that interval suffices to demonstrate that a straight line linear trend in time does not fit the increase, not at all, and that in fact the temperature increase is steadily accelerating because the exponential increase in CO_2 over time slope wins out over the logarithmic decrease in temperature over increasing CO_2.
The bottom line is that the right game to play is the TCS game. Pick a number, any number. Theory supports TCS anywhere from just under 1 C to around 1.5C. Dress this number with a decent range of uncertainty beyond that, because linear feedbacks positive or negative will track the log and could increase or decrease TCS a bit. Don’t be biased and assume that you know which way it will go — let the data speak, and remember that the more parameters you add to any model to improve on the basic, theory supported exponential fit given above, the less one can count on the resulting model as each additional parameter comes at a Bayesian “cost” and eventually you can fit elephants and make them wiggle trunks. Then dial in whatever you think CO_2 will be in 2100. 600 ppm? No problem.
Personally, I think 600 ppm is pretty reasonable — it allows for a fair bit of short-run increase in burning coal to help the world’s neediest people but then assumes that pure economics and technological advance will make coal burning plants ECONOMICALLY undesirable long before 2100. Photovoltaics, batteries, natural gas, both Uranium and Thorium fission, and the long-running dream of fusion, or something nobody has thought of (yet) is likely to change everything. Fusion alone would change everything.
Now, I’ve tried to dress the log-only model three different ways so far — with an empirical harmonic variation (which works incredibly well, too bad I have no clue what its cause could possibly be), with the PDO data back to 1900 (which doesn’t help at all, so no, it isn’t “the PDO”) and with volcanos. As far as R can tell, after at least crudely fitting VEI to observed transmission at the top of the troposphere on Mauna Loa, have basically no effect on the climate whatsoever from 1850 to the present — sadly I cannot go back to 1800 and see if VEI 7 Tambora actually had a noticable effect on the climate. This precisely matches Willis’ observations and supports the validity of his “hunt the volcano” game. Even Pinatubo (VEI 6) is indistinguishable from the normal climate quasi-oscillatory variations around the CO_2-only curve, although one can get a TINY improvement in the fit back to 1850 including volcanoes.
What I haven’t done yet (but would like to) is see if any of the quantitative measures of solar activity, fed into R with the baseline CO_2-only fit, do anything at all. I’m guessing that the answer is no, but I like to see for myself. So far, I’m rejecting hypotheses right and left, so why stop now? The only additional hypothesis I can’t reject is the one I can’t support — a pure harmonic variation of amplitude 0.1 and period of 67 years, which produces an amazingly good fit to all of HadCRUT4 and predicts/fits the pause “perfectly”! Perfectly in statistical terms, of course. And no, 67 years is not meaningfully harmonic with Jupiter. Or Saturn. Or the PDO. And in a chaotic system it doesn’t need to be! It could just be an accident!
Nothing in this says that the fit above is correct. For one thing, it won’t work to describe global temperature over the last 1000, 2000, or 10,000, or 100,000 years. For another, I don’t have any reliable data — data worth the effort of fitting — over any of those intervals, not for global temperature. I don’t particularly trust the early part of HadCRUT4, and don’t trust GISS at all (not with a man in charge who was painting lurid pictures of 5 meter sea level rise by the year 2100 ex cathedra from a position of nominal sober responsibility — direct evidence that any trace of scientific objectivity was long since fled and making his organizations treatments of the data highly suspect). I don’t trust the models used to infill, interpolate, extrapolate, krige, and otherwise deal with the enormous sparsity of the data in the 19th century and earlier, where there were still enormous holes in the global map of scientific observations period, and even if I did, fitting a model with a model is one of the deadly sins of modelling theory for which I can offer little excuse for even when I do it myself, but at least in the case of HadCRUT4 I can imagine that there is a foundation of sorts in actual thermometric data without too much systematic bias. Bias of any sort — say its neglect of the UHI effect — would in all probability reduce the best fit TCS and hence reduce all of the “contingent predictions” above per CO_2 scenario.
Hope this helps. And yeah, yeah, I’ll print out the actual fits, put up the R source of the routines that fit the data along with the data itself, and so on, “soon”. As soon as this crazy semester is over, most likely. But in the meantime, they are pretty solid. For grins, here is the money figure that I suspect won’t change much between now and then:
http://www.phy.duke.edu/~rgb/Toft-CO2-PDO.jpg
Really, this says it all.
rgb
Now some might say that if you look at a snapshot of a chaotic system you will always find some sort of cycle that has no real basis and won’t therefore pan out.
But I’ve found a correlation with Mars, Venus ands Mercury (and the Sun) at this respected website.
Sure, but in my case the data contains what, 2.5 periods? Do a fourier transform of the data to get that as an important harmonic over 2.5 periods and people would laugh at you. And I can’t explain it. And yes, in a chaotic system it may not need “explanation” (or be susceptible to any simple one). But I can and will try to “eliminate the usual suspects” in a two-factor model, CO_2 fit as an ln function and “whatever”. The only rule is that “whatever” has to be hooked to data, not to a statement like “that must be the PDO”. There is data on the PDO, and it doesn’t improve the fit to include any linear transform of the data (and no reason to think on examination that any other reasonable transform would work). Volcanoes are really absurd as an explanation. VEI is a log scale, and you have to reach VEI 5 or greater to see as much as a transient (2-5 year) dip in TOT insolation. VEI 4 is just noise on a log scale. VEI 5 is conditional — El Chichon blew out lots of SO_2 and produced a dip almost as large as Pinatubo in TOT insolation, but Mt. St. Helens, also VEI5, didn’t make so much as a blip in TOT insolation. It’s not just about the volume of ejecta, in other words — its chemistry is arguably much more important (as was pointed out in a recent post here, IIRC). VEI 6 Pinatubo you have to kind of squint your eyes and believe in fairies, but there is arguably a tiny dip that you can at least TRY to attribute to Pinatubo even though it could just as easily have been produced by pure chaotic noise like all of the other similar dips throughout the record when there were no big volcanoes. Besides, we have TOT data from Mauna Loa back into the 1950’s — we don’t have to guess. There are three, and only three, episodes where volcanoes COULD affect the temperature, and there is damn little evidence that they did even when you know exactly where to look.
Correlation is not causality, and I think it is wise to apply a Bayesian filter to hypotheses before admitting them even speculatively into a discussion of models, especially when you are trying to fit something that could easily be noise over an enormously short baseline. I can see no possible way non-Earth planets could affect Earth’s climate. Really. Even if they did, it would be via doing something to the sun, and nobody has been able to build a convincing model connnecting the sun to planetary climate outside of the obvious — it’s the primary source of energy. But I’m finding the climate (or rather, global average temperature MODEL fit to an explanatory MODEL) to be enormously insensitive to nearly everything, at least over the last 165 years. Look at the graph! There isn’t much left to explain!
One could, of course, assert another cause that completely alters this fit — a supposed “slow natural variation” of some sort that we cannot compute or fit with any model because it is a non-Markovian result of long-time-scale dynamics we are clueless about. And I fully acknowledge the possibility, and agree that this makes the fits above far from certain as future predictors. All one can do is note that:
a) They are damn good fits. As these things go, remembering that we are really talking fitting a less than 1% effect in absolute temperature variation and that even HadCRUT4’s errors — which for once I actually plotted on the data, note well — are likely too conservative, especially in the 19th century. But they are substantial in the 20th as well! Even CO_2 only rarely comes out of the error bars — the harmonic variation addition damn near shoots them right down the middle. The latter means basically that even if one does find additional stuff to explain it, it had better have a period of 67 years and amplitude of 0.1 C OR greatly increase the model complexity and hence decrease the confidence one can rationally give the model without future verification.
b) My two-parameter, physics based fit beats the pants off of nearly all of the CMIP5 models. It wins hands down, even without the harmonic correction. WITH the harmonic correction — well again, in order for the CMIP5 models singly or collectively to be taken seriously, they need to be able to explain a 67 year pseudoharmonic variation around a CO_2-linked variation with a TCS of 1.81 because the latter works!
Any working model has to basically reproduce my model above, or it won’t work! It is difficult indeed to see how anybody could build a model that would beat it, at least not on this past data. And this model suggests that the climate is enormously insensitive to nearly everything. There just isn’t a lot left to explain, and while one can always introduce additional causes with lots of confounding covariance and get the same result, one has to be very careful when doing so as elephant fitting looms as the ultimate empty exercise in statistics. Too many parameters and you will succeed, but have no way of believing it until you see it extrapolate.
This model might extrapolate for a significant value of might. Time will tell. I wouldn’t be at all surprised if it didn’t, though. The Earth is a chaotic system with unpredictable large scale long time dynamics.
Dr Brown,
This is good work – IF we can believe that the adjustments to the data in HADCRUT are appropriate and that their method of homogenizing and extrapolating the raw readings are appropriate and IF we can accept that the stations themselves are actually representative of the climate zones they represent. The problem is you may have just shown the bias of the database as they have been under tremendous pressure to match the average anomalies to CO2 concentration in the first place. They may be exactly correct (if somewhat over-confident of their error analysis), but I am not convinced yet that the method of slicing and dicing provides for good data to analyze. Given all that, I for one will look forward to reading your article.
In about 100 years we should be able to repeat this with the satellite data sets and get a better read. I am not sure the thermometer record ever passes the sparseness tests of information theory to be useful anyway.
Dear Owen,
is the scaling of standard error?
of our knowledge in the present, and I’m not certain I believe the present error estimate of roughly 0.1 C as that seems incredibly — in the literal sense — optimistic.
Absolutely. As I noted in the post, modelling a model is likely to give you a great fit — to the model — and I share your cynicism about how well we know the increasingly remote past temperatures (by “well” I mean specifically, “within what accuracy” as opposed to even the statistical “precision” of the measurments themselves). I suspect that a brutally honest appraisal would conclude that we know them far, far better in 2014 than in, say, 1880, but a mere glance at HadCRUT4’s own published error bars says otherwise. It says that the total error range in 1880 was around 0.3C (roughly symmetrical, although for some reason they post upper and lower bounds separately as if they have some quantitative basis for doing so, which I doubt). In 2014 it is 0.2 C. Really? We have only twice as much data in 2014 as we had in 1880, because
It is this sort of thing that is so puzzling. On the face of it it is completely absurd. There is simply no possible way our knowledge of the global temperature anomaly in 1880 was within a factor of
But it is not for me to critique the global temperature anomalies, at least not today. Today I’m taking HadCRUT4 at face value and fitting it with a bit of physics (or rather, that’s what I’ll be doing soon). I doubt that they cooked HadCRUT4 to produce this climate sensitivity because if they did, wow does it fall short! It predicts less than the AR4 median estimate under the worse than worst case scenario, the science fiction scenario, of a cCO_2 of 1000 ppm by 2100. For a more reasonable 600 ppm it predicts one whole degree C of additional warming.
This is a reasonable number, hoist to the top of the flagpole by their own petard (to brutally abuse a metaphor or three) so let’s all salute it! HadCRUT4, extrapolated by a physically motivated two paramter fit, predicts 1 C of additional warming by 600 ppm. Now let’s indulge in some serious cost-benefit analysis in the extreme measures we are taking and their cost in both human life and graft and corruption to prevent a catastrophe that is, in fact, unsupported by the data. If anyone had done the fit I present above first, the game would have been over. There is really nothing more to say. The upper bounds of catastrophe are around 2.4 C warmer than today, and that’s only if cCO_2 reaches 1000 ppm, which is unlikely in the extreme if we did absolutely nothing.
rgb
IMO, HadCRUT4 is every bit as manipulated as GISSTEMP, by Jones’ own admission. Neither “surface” record is worthy of any statistical analysis aiming to reflect the real world. Without all their unwarranted (to say the least) “adjustments”, any remotely valid historical series would show the world now warmer than 320 years ago, during the Maunder Minimum depths of the LIA, & even 160 years ago, at its end, but probably not than 80 years ago, IMO. (I seem to recall Jones also owning up that in the raw data, the 1930s were as warm as now, but can’t swear to that & haven’t looked for the reference, so feel free to ignore this sentence, & apologies to Dr. Jones if incorrect.) However, the US was definitely warmer in the ’30s than now.
Chichon doesn’t show up well in temperature data because it coincided with a super El Niño. As a then rancher, I well recall the weather effects of Pinatubo. But volcanic eruptions of VEI 6 & 7 don’t affect climate, even tropical ones. Their effects don’t last long enough. The world’s climate system soon returns to whatever its underlying forces dictate. It is possible however that different climate states affect the frequency of seismic activity. If big eruptions don’t show up in the “data”, it’s because the “data” are corrupt, not because it doesn’t happen. The atmospheric effects are recorded in historical documents as well as valid weather data.
IMO, the effect of CO2 is so slight, given the plethora of feedbacks on a homeostatic earth, as to be negligible. I agree with Reid Bryson, Father of Climatology & historically brilliant naval meteorologist, on the effect of doubling CO2. To green the planet further, 800 to 1300 ppm would be ideal, ie at or below real greenhouse concentrations. More than that might conceivably possibly cause some non-climatic problems, although I doubt it.
You are of course right about historic CO2 concentrations. For the first half of the Paleozoic Era, the order of magnitude was ten thousand ppm (since coefficient of ~3 is the “halfway” point in logarithmic comparisons, & concentrations were 4000 to 7000 ppm or more), then on the order of 1000 ppm for the rest of the Paleozoic, Mesozoic & early epochs of the Cenozoic (~350-3000). The only notable excursion was during the Late Carboniferous/Early Permian Period ice age, but even then the order of magnitude was borderline with the hundreds (that possibly 350 ppm). The drawdown of CO2 from the Devonian Period was probably due to the spread of large land plants.
But all that said, I appreciate your work, despite the limitations of the corrupted “data” with which you must contend. Would like to see you run a similar analysis on a less manipulated but large regional set, such as the US. It’s a large enough land area to be statistically meaningful, IMO.
rgbatduke
December 4, 2014 at 9:30 am
There is a limit to how much Hadley can cook the T books since 1979 because the satellites are watching, however it can & does cool the past with reckless abandon. And they probably didn’t expect anyone to run such a TCS test on their rigged data as yours anyway. Plus, they know that the models will inflate the possible warming from increased CO2 levels with unjustified positive feedback assumptions.
The many shameless shenanigans up to which Hadley got rival those of GISS & indeed exceed that execrable, miserable excuse for a self-serving government agency, particularly in CRU’s treatment of the oceans.
IMO your heuristic exercise is valuable, but because of the abominably bad “data” set upon which you’re forced to rely, doesn’t reflect reality. Still useful though to demonstrate the possible outer limits of the fictional world maintained the CACA Team.
Reality.
http://www.ospo.noaa.gov/data/mspps/np_images/amsua_ts_des.gif
Please submit for peer review, its wasted here !
Help
I am in a graduate class and have just been handed the UN report where Nov is close to the hottest on record etc. How does this report relate to the hiatus?
When one is at a plateau structure in data, it takes very little change to make something the hottest ever because you are bouncing around the highest point anyway. The problem is the next month might be the coldest of the plateau period, and still be among the X hottest ever. (where X is the length of the plateau). At this point it is all propaganda. The satellite records put it into the top 3 or 4 years, which makes me think that some of the adjustments or homogenization process may be what is responsible for the HADCRUT result they are trumpeting.
+1
It bears no relation whatsoever. It is nothing but a blatant, purposeful red herring on their part, and a diversion tactic.
Asking commenters on the WUWT site may not be the best way to get accurate information on global temperatures or climate change in general. There are variety of actual scientific sites (i.e http://www.ncdc.noaa.gov/sotc/global/ ) which would serve your purpose better.
Sir Harry, could you post some links to more un-biased sources please?
You trust government numbers?
Interesting.
Or, you could just go to e.g. the CRU website or the Mauna Loa website and download their raw numbers. Or you could go to woodfortrees and plot them without even having to find and download them. Or you could go to the enormous and probably semi-illegal hassle of having to sign up with the system being used to distribute raw numbers from things like climate models. Or…
Personally, I like my data raw instead of cooked. I promise, the HadCRUT4 numbers I fit above (and I’m sure Monckton’s number in the top article) come from valid and verifiable sources. And as far as I know, nobody who actually knows anything about climate science at all would think about challenging them as they’d know them well enough to recognize them anyway.
Do you? Know them that well? Or are you just indulging your logical fallacy in public for political reasons?
rgb
Actually, Hadley Centre’s numbers are not verifiable. They lost the “data” they claimed to have gotten from the Met for their original shot at GASTA. HadCRTU4 is anti-scientific, since there’s no way to check out the data &, like GISS, they try to keep their data handling methodologies secret. Jones asked why he should hand over the data & code requested under FOIA, when all the scientists would do with it is criticize?
And it gets worse from there. So far are their “data” from being raw, that they are cooked to a crisp.
Raw data are stats Tartar. Uncooked.
RSS & UAH have the year to date at 7th. Individual months are even less significant.
Question! Here’s something I need some help with; hopeful you guys can provide it. The green house gas hypothesis (it’s a hypothesis, correct? For it to be a theory, would there not have to be some proof?) holds that as co2 increases the atmosphere will warm. Is this a correct summation of the theory? If so, then why do the climate change folks only discuss datasets that refer to the warming of the surface? Isn’t the theory about the ATMOSPHERE, not the SURFACE?
GISS, HadCRUT(X) and the like only measure surface temperatures. RSS and UAH measure the atmosphere, correct? If this is the case, which of these data sets will show the status of Green House Warming per the hypothesis?
(Anthony, I had asked you to remove all my comments in the past as it has impacted me negatively in the business community here in Oregon. Apparently they maintain db’s of these type of things that organization like NIKE use to evaluate if you are a cultural fit or not (third party db’s they subscribe too). I recently was brought on and then released from NIKE following a review of their DB and was found to “not be a cultural fit” based on their findings. This means I can post again as everything I’ve ever posted is apparently kept in other DB’s so what’s the point in trying to keep quite now, eh?)
Ouch. And people wonder why I recommend never using your real name online? Cultural fit? You think for yourself and ask questions? Bad person, bad, bad person.
Real name or no, you are cross linked. Your real name is very easy to find. All you have to do is screw up one time on a post somewhere and these bots that crawl everything will find it and link it. I am embarrassed to say–at this point–that I’ve worked on some of these systems. I find that if one lives by the sword, they die by it, eh?
Personally, I don’t think it is a hypothesis, I think it is a part of radiation theory. One can directly compute it, completely understand it at the level of detailed quantum computations, photograph it in action via looking up/looking down spectrographs at the top and bottom of the atmosphere, and it works (as I show above) to at least reasonably explain the temperature changes over the last 150 years. The thing is, the computations rely on some approximations that don’t leave the effect itself in any reasonable doubt, but that do leave the exact magnitude of it less than perfectly known, and then there are feedbacks and all of the morass of nonlinear chaotic dynamics in the Earth’s general climate system where this is only a single input. Possibly confounding things exist in abundance, because even though most of the simple/obvious things can be eliminated as independent factors of importance, the Earth’s climate system is obviously quite capable of changing “all by itself” even when everything else is kept constant!
If you want to ask about a dubious concept in climate science, try this one:
“Equilibrium Climate”
That’s probably damn near an oxymoron.
rgb
That so-called greenhouse gases like H2O & CO2 absorb & radiate photons of different energies is an observation, not an hypothesis or theory. The effects this fact may have on climate however do form an hypothesis, with unsettled issues at every stage. The atmosphere, land & oceans interact complexly.
Eyeballing figure 2 it looks as if the horizontal no warming line could be soon extended to 1991 instead of the Lord Monkton’s 1996 ?
Thanks for including the info from Steve’s site and explaining why you use RSS. I’ve always wondered why and now I know.
Maybe you could include the USCRN as well next time. Only 10 years of data and only for continental USA but all from class 1 locations with an impeccable setup.It would be interesting to see how it is doing.
Our best temperature measurement for the USA , the USCRN is dead flat since inception, 10 years, NO warming, NO “adjustments” NO BS.
You can search WUWT and find an article on this.
If 67 is an harmonic then perhaps it is .618 of the number to be looking for, 108 or 175 or something to do with the golden section which seems to crop up in the solar system.
Meanwhile at the ground level the CET temp record shows 2014 as the hottest year evahh…
http://www.metoffice.gov.uk/hadobs/hadcet/graphs/HadCET_graph_ylybars_uptodate.gif
Let’s have none of this! Mr. M’s head is firmly in the (RSS) clouds – otherwise known as the ‘Brenchly Bubble’. It’s only us mortals that have to deal with surface temperarures
And 1690 is the coldest decade on record and a decade whereby something like a quarter of Scotland’s population died from cold. And what is the result of this supposed “hottest year”? Another 37,000 extra deaths in the winter months will ignored by heartless greenblobbiest zealots.
At some point the pause will end. It may go up. It may go down. The one thing we can be sure is is that the climate continually changes and will not stay the same for long. Prepare for the pause to end. If temperatures go down it will be game over for the alarmists. But if they go up there will be loud triumphant noises of vindication from the alarmist camp.
There are signs the pause may be ending and temperatures may go up. UAH shows an increase, although not enough to end the pause. RSS is the only one of the big five global records to show a large pause at this stage. The land based records are showing increases.
However I no longer have much trust for any of the main land based records – the extent of the automated tweaking has just been too large. However we are going to see claims of ‘warmest ever’ this year based on the land based records accompanied by big media releases trumpeting the end of the pause. This coincidentally seems nicely timed to fuel a political big push in Peru. Coincidence? Yeah right!
I trust UAH and RSS, and some of the smaller regional high quality land based networks which are not showing an increase. I also trust argo sea temperature data, at least from 2004. If those records all go up I will concede that the pause is over.
A rise is much less dangerous than a fall so I’d almost prefer to see a rise. I think the world could stand to be a bit warmer. However a fall would end this nonsense and discredit those who peddle it. A rise would mean we would be back arguing about sensitivities and rates; a more subtle and much less clearcut thing; and the circus would go on.
UAH is considering reducing its warming bias. This will be a transparent process subject to criticism, as they practice science there.
The “surface” data sets are worse than worthless generally, since they’re shamelessly designed to show more warming than actually has occurred. But the media don’t know that & wouldn’t broadcast that fact if they did.
Just a little cooling won’t flush CACA. It will have to be deep & sustained to derail the gravy train before retirement of the current generation of ersatz “climate scientists”, aka GIGO modelers. Otherwise, the Team will keep making lame excuses & the media will ignore the reality. After you’ve announced that warming causes cooling, what else won’t you do?
Forget “why is there a pause”, the question I’m starting to ask is “how come it’s not gone down already”. OK, it took me some time to twig that 1/f natural variation like the climate doesn’t have an equal probability of going higher or lower when it is already higher, but now that I’ve realised that natural variation is stronger than any human factors and that it must tend to make lower values more likely, I’ve realised the most likely next move is down.
Unfortunately it’s not the easiest of things to understand so I’ve put a demo on line at uburns.com.
“When the November 2015 RSS data are available, how many years and months of zero global warming will have occurred?”
Eyeballing the graphs, it wouldn’t take all that much to take the line back to 1988, which would make the hiatus 26+ years. That may well happen in the next few years, but will it happen by Nov 2015? I think not quite. So my contest entry for Nov 2015 is a conservative 19 years 6 months.
Chris (m’lord 🙂 ), may I offer a prediction for the RSS GP: Thanksgiving, 2015. It’s bound to be a turkey!
…a turkey: as in bad news for the IPCC.
Hi ive followed the climate discussion for about 7 years now argued with politisians journalists meteorologists etc….here in Sweden its like you must believe in the carbonreligion and the UN.Im looking forward to experience if UAH and RSS temp data shows a decline the years ahead ! . WOW ! What would the alarmists say ?
Checking your figures I find the last one (fig T1 by Carl Mears)most informatuve even though he does not understand what he is looking at. On the positive side is that he is using satellite data, not ground- based temperatures and as a result the hiatus in the eighties and nineties is not wiped out by any non-existent temperature rise as fakers like GISS, NCDC, and HadCRUT habitually do. His baseline actually goes through the center of gravity of the all five El Nino peaks visible to the left of the super El Nino. A similar line should have been drawn through the temperature segment to the right of the super El Nino because that is the current hiatus we are experiencing now. These two independent hiatus regions do not line up and must not be included in a common graph. This is why the attempted explanations in figure 2 are entirely wrong. The cause of this double hiatus is the existence of a short step warming that starts in 1999, immediately after the super El Nino has subsided, and in only three years raises global temperature by a third of a degree Celsius. This step warming is actually the only warming the world has had since 1979. It and the super El Nino of 1998 together separate the two hiatuses on both sides of the graph. The one on the right is ours and is interrupted by a La Nina in 2008 and an El Nino in 2010. But their common center of gravity lines up with the rest of the hiatus and does not change global mean temperature. At the present time the people hoping to end the hiatus are waiting for a new El Nino to save them but their vigil is in vain. El Nino simply has nothing to do with global warming. This is very easy to see from a study of the ENSO oscillation to the left of the super El Nino. What you need to do is to get a high resolution (at least monthly), unsmoothed temperature graph. Next, draw a broad, transparent red band over it in such a way that most of the noise visible is included under it. This noise is from cloudiness variations and because of this fact its amplitude is basically fixed except for a few outliers. There are five El Nino peaks with La Nina valleys between them in there. Now put a yellow dot at the center point of each line connecting an El Nino peak with its neighboring La Nina valley. These points define global mean temperature. Connecting the points will tell you what global mean temperature is doing. To see an example look at Figure 15 in my book “What Warming?” There is a mild amount of scatter there but you can fit a straight horizontal line to it. The fact that this line is horizontal proves that El Nino has nothing whatsoever to do with global warming. Do that on both sides of the graph and you get two horizontal straight lines that pass each other at a distance of one third of a degree. That is the handiwork of the step warming that followed the super El Nino. We don’t know how this short-period warming was able to keep the temperature of the twenty-first century at this high level for decades after it. The billions that Uncle Sam spends on climate research are not available for silly things like understanding why climate behaves like this. There are a few more things about the Mears graph that I have to point out. El Chichon and Pinatubo are two volcanoes his greenie models are set up to react to. That is done by inserting these two locations into the model code. The models are then set up to show cooling after each such location they come across. Looking at the graph you see that Pinatubo is indeed followed bt an apparent cooling exactly where all the models bend down. They similarly bend down at the El Chichon location but there is no corresponding cooling there because an El Nino sits where they are looking for cooling. Just why does this search for cooling work with Pinatubo but not with El Chichon? The answer is very simple: that “cooling” is not cooling but a misidentified La Nina valley. There is no such thing as volcanic cooling for plate-boundary volcanism. The hit or miss affair of finding volcanic cooling is simply due to the random fit between timing of eruptions with respect to the ENSO oscillation. All identified volcanic cooling valleys are nothing more than misidentified La Nina valleys. This is how it works. If an eruption coincides with an El Nino peak as Pinatubo does there will be a La Nina valley just after that El Nino peak is over and it gets appropriated as the cooling produced by the eruption. But if the eruption coincides with the bottom of a La Nina valley as El Chichon did it will be followed by an El Nino peak, and there will be no valley that can be misappropriated and named after the volcano. This is how El Chichon got cheated out of its “volcanic cooling” valley. This applies universally for all known volcanoes except for super volcanoes that we so far have fortunately avoided. I explained it very clearly in my book but these so-called “scientists” simply don’t read the literature unless it has been through their buddy-review system (if then!). Their code writers for climate models are certainly ignorant of what volcanic cooling is all about. And one more thing about his models. He states that “… we have substantial confidence that models can predict at least the broad-scale features of climate change. …” Broad scale features is not enough. They are all off the mark. It got started with Hansen in 1988 when he showed model climate predictions to the Senate.
His model A was “business as usual,” meaning normal climate we could trace. It turned out that his predictions were way off the mark, all much higher than was observeed as we lived through the predicted times. He used an IBM mainframe but now they have supercomputers and write million-line code. It has not helped, however, they are still no better than Hansen was 26 years ago. Not only are they off the mark, but the majority of errors are on the warm side, predicting more warmth to come than actually happened. It is not likely that this is purely by chance. They have had 26 years to put their house in order. It has not happened and it looks likely that they will not get there. The only rational thing to do with a non-working system is to shut it down. A businessman who is told that all the business forecasts given to him during the last 26 years have been wrong would not hesitate to close it down.
Arro,
One day we’ll have to introduce you to these things called “paragraphs”. In html-related blog pages, you don’t get them using carriage return followed by tab. You get them in context by two carriage returns. That is, to end this paragraph I hit Enter…
TWO TIMES. That inserts a blank line that then visually separates out a paragraph. Otherwise since it ignores the tab character you get your paragraphs visually run together as in the above. Very difficult to read. Please. Try the two line skip trick.
rgb (see, works for signatures too!)
Also, while I agree with the sentiment, I cannot strongly agree with the strength of your conclusions regarding volcanism. When I fit a very simple delta-correlated exponential decay model to discrete volcanism with a strength monotonic in VEI (volcano explosive index, basically a measure of the ejecta volume) I can get SOME agreement with Mauna Loa measurements of top of troposphere insolation. When I fit this modulation of transparency as an additional factor (on top of the basic log dependence on CO_2) I actually do get a tiny bit of improvement and get a p-value for the fit amplitude of .002. This isn’t exciting, granted, but it is almost certainly significant. To put it another way, there are enough coincidences between variations in global temperature and major volcanic events that they clearly exceed random chance as a causal factor, even though their effect is minimal (indistinguishable from the El Nino/La Nina noise, perhaps, but that isn’t the same thing as nonexistent) and transient (lasts no more than 3 to 5 years at most, often less).
And I cannot include Tambora in my fits, as we have no reliable — let me rephrase this, no even arguably, or possibly reliable — global temperature anomaly that extends back that far. So we are stuck with anecdotal accounts of coincidence between Tambora and a lagged year without a summer and so on. From what I can see, a volcano needs to score a 6 VEI before it has much chance of emerging from the noise (for a very few years) as a temperature reducer. Pinatubo barely makes it. Krakatoa barely makes it. Santa Maria in 1902 makes it with a convincing T downturn. Novarupta in 1912, OTOH, happens as temperatures are rising and doesn’t make a dent. 4’s and 5’s are mostly ignored — no effect resolvable from the noise.
This is El Chichon’s real problem. El Nino, La Nina, it was only a five VEI. In spite of the fact that it and Mt. St Helen were nearly back to back fives, in spite of the fact that it was SO_2-rich for its size and actually did spike down top of troposphere insolation for a year, this makes barely a ripple in global temperature, indistinguishable from noise or “unexplained natural variation” that spikes up and down all over the record.
So it is probably better to say that volcanoes have almost no effect until they reach VEI 6, a small but resolvable, transient effect at VEI 6, and I’m guessing that Tambora, at VEI 7, actually did act as a proximate cause to the year without a summer and the extreme cold that persisted, anecdotally, across the 3-5 years that followed it.
The really interesting eruptions are the much larger ones — things like Yellowstone — that happen only once every ten or twenty thousand years, or even more rarely. Those tend to last a long time, give of lots of interesting chemicals and ash, and probably have a profound effect on the climate.
But even a megaton-equivalent bomb like Mt. St. Helens has a pretty much invisible impact on the climate.
Open question — really, really big nukes are pretty close to VEI 6. The Tsar Bomba in 1961 probably qualified at 50 MT, close to an order of magnitude larger than Mt. St Helens. Yet I can see little evidence that it had a similar effect to a VEI 6 volcano, or even to the tiny dips that might go with the double whammy of Mount Agung and Shiveluch in 1963 and 1964, both 5’s (they did have a noticeable effect on TOT insolation at Mauna Loa).
Again, it looks like chemistry is more important than sheer volume of dust, ejecta, etc, and the climate is remarkably resistant to warming caused by even big volcanoes. Big yes, but small compared to the size of the planet, small compared to the effect many other things have, small compared to the capacity of the stabilizing negative feedback mechanisms apparently operating all of the time.
rgb
Chemistry is important. It’s the sulfur compounds that matter, along with the location of the eruption & other factors.
The energy of nuclear explosions is spent in ways totally different from volcanic eruptions. They’re not really comparable in effects at all, although of course surface bursts are more similar than air bursts.
Tambora does show up in the CET, so its effects aren’t just in anecdotal historical documents.
http://www.climate4you.com/ClimateAndVolcanoes.htm
PS: Many here have tried to get Arno to adopt the convention of paragraphs, but as you can see, so far without success.
Milodon, I just don’t see it. I followed your link and looked at the CET record across Tambora and it is absolutely indistinguishable from the record and fluctuations on either side. To put it another way, if we removed the helpful blue bar, and erased the dates on the x-axis, could you identify where Tambora happened? I couldn’t, even though Tambora was VEI 7 and it should stand out like a sore thumb instead of being invisible in the noise.
Later down in the same article it is the same story. They don’t even bother showing Krakatoa against e.g. HadCRUT-whatever, which is a shame because there is actually a semi-coincident dip there (at VEI 6). Semi-coincident because there are dips and spikes of similar magnitude on either side that cannot possibly be correlated with any volcano. So is it causal? Maybe. R thinks it might be, but comparatively weakly, with a p-value of order 0.001, not .0000000….1.
Then they show good old Pinatubo. They again provide the helpful shaded region because again, without it you could never look at the data and go “Wow, a big cooling spike happened right here, must have been Pinatubo”. There are roughly 25 big, sharp dips in HadCRUT4 from 1850 to the present. Given 165 years, a sudden cooling spike of order 0.2C or more happens ever 6 to 7 years. Of these, three are well correlated with VEI 6 volcanoes, and one VEI 6 volcano blows right into the teeth of a stubborn warming spike of over 0.3 C and doesn’t seem to alter it in any way. Once again, given HadCRUT4 with the dates removed (or given HadCRUT4 with no real idea when big volcanoes happened to blow) I defy anyone to pick four candidates for the four VEI 6 volcanoes in this interval and get two right without prior knowledge.
So no, what you sent me seems to represent somebody’s overly vivid imagination more than anything concrete. Again, I don’t doubt that Tambora had an effect. There is lots of anecdotal stuff to support it, but I’ll point out that my mother observed snowfall in upstate New York every month of the year at least one time in only five years of living there back in the 1950s. No help from volcanoes. I myself saw it in May and in September, and that was in the late 1960s. So separating out a true correlation from anecdote and accident remains a problem.
rgb
So when are you going to give up on this futile quest. You know you’re wrong. We know you’re wrong. Everybody knows you’re a freaking nut case. The claim is “global warming”. Not just surface warming. Evidence is overwhelming that the ocean is also warming along with the atmosphere. It’s the total heat being absorbed, not just that being absorbed by the air mass.
“John” may like to see the annex to our paper on what went wrong with the models to be published in a leading science journal in two weeks’ time. Watch this space for further announcements. There is no “missing heat” in the oceans.
John,
We are here to help you.The IPCC (have you heard of this outfit?) defines global warming as an increase in atm. temperature at the surface.
But surface temps have been flat.There has been no warming. No need to wring your poor hands.
SST (and OHC) is determined by insolation only. IR has no effect on SST or OHC. CO2 has nothing to do with OHC. So, relax, have a beer or sip some vin and think happy thoughts. Atmospheric CO2 is entirely beneficial. Say that to yourself several times a day, and you will soon feel better.
Listen, John (if that’s your real name!)
Many might call Sir Christopher a fruit cake, but the man’s just trying to make money.
There is no Ocean Warming:
http://www.nodc.noaa.gov/OC5/3M_HEAT_CONTENT/
All these graphs are made up by dishonest scientists in the pay of those trying to bring in a communist world government
Well written!