From the “fighting denial with denial” department comes this desperate ploy and press release written to snare headlines with gullible media. Meanwhile, just a couple of days ago the UK Met office said the global warming pause may continue.
Global warming ‘hiatus’ never happened, Stanford scientists say
A new study reveals that the evidence for a recent pause in the rate of global warming lacks a sound statistical basis. The finding highlights the importance of using appropriate statistical techniques and should improve confidence in climate model projections.
An apparent lull in the recent rate of global warming that has been widely accepted as fact is actually an artifact arising from faulty statistical methods, Stanford scientists say.
The study, titled “Debunking the climate hiatus” and published online this week in the journal Climatic Change, is a comprehensive assessment of the purported slowdown, or hiatus, of global warming. “We translated the various scientific claims and assertions that have been made about the hiatus and tested to see whether they stand up to rigorous statistical scrutiny,” said study lead author Bala Rajaratnam, an assistant professor of statistics and of Earth system science.
The finding calls into question the idea that global warming “stalled” or “paused” during the period between 1998 and 2013. Reconciling the hiatus was a major focus of the 2013 climate change assessment by the Intergovernmental Panel on Climate Change (IPCC).
Using a novel statistical framework that was developed specifically for studying geophysical processes such as global temperature fluctuations, Rajaratnam and his team of Stanford collaborators have shown that the hiatus never happened.
“Our results clearly show that, in terms of the statistics of the long-term global temperature data, there never was a hiatus, a pause or a slowdown in global warming,” said Noah Diffenbaugh, a climate scientist in the School of Earth, Energy & Environmental Sciences, and a co-author of the study.
Faulty ocean buoys
The Stanford group’s findings are the latest in a growing series of papers to cast doubt on the existence of a hiatus. Another study, led by Thomas Karl, the director of the National Centers for Environmental Information of the National Oceanic and Atmospheric Administration (NOAA) and published recently in the journal Science, found that many of the ocean buoys used to measure sea surface temperatures during the past couple of decades gave cooler readings than measurements gathered from ships. The NOAA group suggested that by correcting the buoy measurements, the hiatus signal disappears.
While the Stanford group also concluded that there has not been a hiatus, one important distinction of their work is that they did so using both the older, uncorrected temperature measurements as well as the newer, corrected measurements from the NOAA group.
“By using both datasets, nobody can claim that we made up a new statistical technique in order to get a certain result,” said Rajaratnam, who is also a fellow at the Stanford Woods Institute for the Environment. “We saw that there was a debate in the scientific community about the global warming hiatus, and we realized that the assumptions of the classical statistical tools being used were not appropriate and thus could not give reliable answers.”
More importantly, the Stanford group’s technique does not rely on strong assumptions to work. “If one makes strong assumptions and they are not correct, the validity of the conclusion is called into question,” Rajaratnam said.
A different approach
Rajaratnam worked with Stanford statistician Joseph Romano and Earth system science graduate student Michael Tsiang to take a fresh look at the hiatus claims. The team methodically examined not only the temperature data but also the statistical tools scientists were using to analyze the data. A look at the latter revealed that many of the statistical techniques climate scientists were employing were ones developed for other fields such as biology or medicine, and not ideal for studying geophysical processes. “The underlying assumptions of these analyses often weren’t justified,” Rajaratnam said.
For example, many of the classical statistical tools often assume a random distribution of data points, also known as a normal or Gaussian distribution. They also ignore spatial and temporal dependencies that are important when studying temperature, rainfall and other geophysical phenomena that can change daily or monthly, and which often depend on previous measurements. For example, if it is hot today, there’s a higher chance that it will be hot tomorrow because a heat wave is already in place.
Global surface temperatures are similarly linked, and one of the clearest examples of this can be found in the oceans. “The ocean is very deep and can retain heat for a long time,” said Diffenbaugh, who is also a senior fellow at the Woods Institute. “The temperature that we measure on the surface of the ocean is a reflection not just of what’s happening on the surface at that moment, but also the amount of trapped heat beneath the surface, which has been accumulating for years.”
While designing a framework that would take temporal dependencies into account, the Stanford scientists quickly ran into a problem. Those who argue for a hiatus claim that during the 15-year period between 1998 and 2013, global surface temperatures either did not increase at all, or they rose at a much slower rate than in the years before 1998. Statistically, however, this is a hard claim to test because the number of data points for the purported hiatus period is relatively small, and most classical statistical tools require large numbers of data points.
There is a workaround, however. A technique that Romano invented in 1992, called “subsampling,” is useful for discerning whether a variable – be it surface temperature or stock prices – has changed in the short term based on limited amount of data. “In order to study the hiatus, we took the basic idea of subsampling and then adapted it to cope with the small sample size of the alleged hiatus period,” Romano said. “When we compared the results from our technique with those calculated using classical methods, we found that the statistical confidence obtained using our framework is 100 times stronger than what was reported by the NOAA group.”
The Stanford group’s technique also handled temporal dependency in a more sophisticated way than in past studies. For example, the NOAA study accounted for temporal dependency when calculating sea surface temperature changes, but it did so in a relatively simple way, with one temperature point being affected only by the temperature point directly prior to it. “In reality, however, the temperature could be influenced by not just the previous data points, but six or 10 points before,” Rajaratnam said.
Pulling marbles out of a jar
To understand how the Stanford group’s subsampling technique differs from the classical techniques that had been used before, imagine placing 50 colored marbles, each one representing a particular year, into a jar. The marbles range from blue to red, signifying different average global surface temperatures.
“If you wanted to determine the likelihood of getting 15 marbles of a certain color pattern, you could repeatedly pull out 15 marbles at a time, plot their average color on a graph, and see where your original marble arrangement falls in that distribution,” Tsiang said. “This approach is analogous to how many climate scientists had previously approached the hiatus problem.”
In contrast, the new strategy that Rajaratnam, Romano and Tsiang invented is akin to stringing the marbles together before placing them into the jar. “Stringing the marbles together preserves their relationships to one another, and that’s what our subsampling technique does,” Tsiang said. “If you ignore these dependencies, you can alter the strength of your conclusions or even arrive at the opposite conclusion.”
When the team applied their subsampling technique to the temperature data, they found that the rate of increase of global surface temperature did not stall or slow down from 1998 to 2013 in a statistically significant manner. In fact, the rate of change in global surface temperature was not statistically distinguishable between the recent period and other periods earlier in the historical data.
The Stanford scientists say their findings should go a long way toward restoring confidence in the basic science and climate computer models that form the foundation for climate change predictions.
“Global warming is like other noisy systems that fluctuate wildly but still follow a trend,” Diffenbaugh said. “Think of the U.S. stock market: There have been bull markets and bear markets, but overall it has grown a lot over the past century. What is clear from analyzing the long-term data in a rigorous statistical framework is that, even though climate varies from year-to-year and decade-to-decade, global temperature has increased in the long term, and the recent period does not stand out as being abnormal.”
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Debunking the climate hiatus
Bala Rajaratnam, Joseph Romano, Michael Tsiang, Noah S. Diffenbaugh
Abstract
The reported “hiatus” in the warming of the global climate system during this century has been the subject of intense scientific and public debate, with implications ranging from scientific understanding of the global climate sensitivity to the rate in which greenhouse gas emissions would need to be curbed in order to meet the United Nations global warming target. A number of scientific hypotheses have been put forward to explain the hiatus, including both physical climate processes and data artifacts. However, despite the intense focus on the hiatus in both the scientific and public arenas, rigorous statistical assessment of the uniqueness of the recent temperature time-series within the context of the long-term record has been limited. We apply a rigorous, comprehensive statistical analysis of global temperature data that goes beyond simple linear models to account for temporal dependence and selection effects. We use this framework to test whether the recent period has demonstrated i) a hiatus in the trend in global temperatures, ii) a temperature trend that is statistically distinct from trends prior to the hiatus period, iii) a “stalling” of the global mean temperature, and iv) a change in the distribution of the year-to-year temperature increases. We find compelling evidence that recent claims of a “hiatus” in global warming lack sound scientific basis. Our analysis reveals that there is no hiatus in the increase in the global mean temperature, no statistically significant difference in trends, no stalling of the global mean temperature, and no change in year-to-year temperature increases.
The paper is open access, read it here
They’re right that there is no “pause”, but for the wrong reason. There is no global temperature, no mean global temperature, no average global temperature, therefore there is no pause. All of this is worse than debating how many angels can dance on the head of a pin.
The technique appears to be statistically stronger at rejecting a hiatus because it is statistically weaker at detecting one. If you are going to assume a time longer time dependency for a sequence of years, why not use what we know, that given the multidecade ocean modes, 60 years is about one sample of the climate. The oceans integrate over decades to centuries. The warmer or colder temperatures upwelling from below may be influenced by events decades or centuries before.
Looking at the supplemental data, their treatment of Hypothesis II confirms the hiatus _”Having said this, from Figure 2 there is a clear pattern in the distribution of 16 year linear trends over time: all 16 year trends starting at 1950 all the way to 1961 are lower than the trend during hiatus period, and all 16 year linear trends starting at years 1962 all the way to 1982 are higher than the trend during the hiatus period, with the exception of the 1979-1994 trend.”_ The current hiatus is lower than all prior 16 year periods until you get back to the previous hiatus, which was the mid century cool period thought to correspond to the current hypothesis, whether based upon the Atlantic circulation or the pacific trade winds and PDO. They only reject the hiatus it seems by averaging the whole 1950 to 1997 period together. Of course the problem with a hiatus was based related to expectations set by the 1980s and 90s and the model projections. The latest 16 year trend disappoints those expectations even by their data. There is some trend in the current hiatus under this hypothesis. One test of this the semantic usefulness of this method, is to ask how long the current 16 trend would have to continue before they would recognize it as a hiatus. The answer is they never would, because it would never deviate from that average trend that includes the mid century cooling, yet all of climate science would be scrambling for an explanation of the divergence from expectations.
Using a novel statistical framework that was developed specifically for studying geophysical processes such as global temperature fluctuations, Rajaratnam and his team of Stanford collaborators have shown that the hiatus never happened.
“Our results clearly show that, in terms of the statistics of the long-term global temperature data, there never was a hiatus, a pause or a slowdown in global warming,” said Noah Diffenbaugh, a climate scientist in the School of Earth, Energy & Environmental Sciences, and a co-author of the study.
Faulty ocean buoys
The Stanford group’s findings are the latest in a growing series of papers to cast doubt on the existence of a hiatus. Another study, led by Thomas Karl, the director of the National Centers for Environmental Information of the National Oceanic and Atmospheric Administration (NOAA) and published recently in the journal Science, found that many of the ocean buoys used to measure sea surface temperatures during the past couple of decades gave cooler readings than measurements gathered from ships. The NOAA group suggested that by correcting the buoy measurements, the hiatus signal disappears.
While the Stanford group also concluded that there has not been a hiatus, one important distinction of their work is that they did so using both the older, uncorrected temperature measurements as well as the newer, corrected measurements from the NOAA group.
“By using both datasets, nobody can claim that we made up a new statistical technique in order to get a certain result,” said Rajaratnam, who is also a fellow at the Stanford Woods Institute for the Environment.
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My bold. Am I missing something here? Within four paragraphs there appears to be a complete contradiction – is this a form of what psychologists call projection, but used on oneself?
SteveT
Reblogged this on Climatism and commented:
“The (18+ year) Pause” has most definitely not happened if you measure global temperature via: in-filled, homogenised, UHI effected land based station data from NASA, NOAA, BoM, MET et al.
But “The Pause” is most definitely still happening, if your data source is via more accurate satellite data, that crisscrosses the globe measuring the temperature of every square inch of the lower troposphere, the exact place where global warming is supposed to occur and be measured.
Let’s not forget, satellite temperature data was all the rage in the 90’s when it *was* warming.
Now it’s scoffed at.
Firstly, they use GISS data which is based on making up half the temps (where there are no stations, like in most of Africa,) and adjusting the other half to death.
The pause (in their analysis A) STILL shows up.
Then they start treating everything which increases too fast or too slow as an error, e.g. the 1998 high, but NOT the 1998 low which followed it.
So they basically smoothe the data out of the multidecadal oscillation, and so they don’t find that oscillation any more – since they smoothed it out.
Significantly they say that the ecologist and the grad student had the “concept” first, and the statistician was coopted later to bend the statististics to the preconceived conclusion.
Really, after such a job one HAS to flush.
When I first began viewing the NOAA global temperature graphs there appeared to be a hiatus in temperature rise from 1880 until about 1910 and another from the early 1940’s until the early 1970’s. These were interspersed by two warming periods of about the same length as each of the two periods of hiatus. This struck me as revealing a definite possibility of a stepped pattern of global warming which should have led to the prediction of another hiatus from about 2000 until 2030. Thus if such a pattern does exist then it would appear that there will be warming from around 2030 until about 2060 followed by another hiatus from around 2060 until about 2090. Global warming would then occur during only 40 years in the current century.
“Thus if such a pattern does exist then it would appear that there will be warming from around 2030 until about 2060 followed by another hiatus from around 2060 until about 2090.”
Yep.
You are seeing a ~60 year cycle apparently correlated with the North Atlantic Oscillation superimposed over a part of the ~1000 year cycle responsible for the Minoan, Roman and Medieval Warm Periods and the concomitant cold cycles such as the Dark Ages and the Little Ice Age.
At no point is there any evidence of anthropogenic contribution.
“Statistically, however, this is a hard claim to test because the number of data points for the purported hiatus period is relatively small, and most classical statistical tools require large numbers of data points.”
Which didn’t stop us grafting on those same pitiful data points to get a hockey stick in the first place and jumping to a pitiful conclusion as a result.
Well here is the UK met office declaring that the hiatus [that was apparently a phantom, just the result of dodgy statistical methods] will end at the end of 2015.
http://www.metoffice.gov.uk/media/pdf/8/c/Changes_In_The_Climate_System.pdf
That’s a testable hypothesis at least
Wishful thinking on the part of the Met Office.
The hiatus will end around 2030, thus producing almost incontrovertible evidence that the ~1970-2000 warming period was part of a natural ~60 year cycle, and absolutely nothing to do with anthropogenic CO2 emissions.
Not that such evidence will make any difference to their alarmist prognostications, naturally.
I used the same technique and concluded that global warming never started in the first place.
https://ecowatch.com/2015/09/20/global-warming-hiatus-never-happened/
But, alas, this is what the public sees. Looks like the propaganda campaign is very successful, indeed.
Fresh today…9/20/15
Make sure your coal bins and oil tanks are full. It’ll be a helluva winter.
The abstract itself is largely a political statement. The “hiatus” which is to be statistically defined out of existence is never defined. Hard to reward the report card with no visible grades. –AGF