Self proclaimed “Hansen’s Bulldog” (now oddly deleted but available at the Wayback machine via this link), the blogger known as “Tamino” loves to bloviate his views about imagined cherrypicking whenever he thinks we aren’t showing everything we are supposed to, such as sea level trend lines shown clearly three times. But, when NASA’s Dr. James Hansen leaves out 25 years worth of data, such things apparently escape his notice. Fortunately for us, Bob Tisdale notices such things and then analyses them. See his note about Figure 13 below in the body of the post. Tisdale also confirms what I suspected, that Hansen’s claim of:
A recent decrease in ocean heat uptake was caused by a delayed rebound effect from Mount Pinatubo aerosols…
Is total bollocks.
On the left, Ocean heat content as Hansen presents it in his recent (non peer reviewed) paper, starting in 1980, or the right, the OHC full dataset, starting in 1955, plotted by Bob Tisdale.
Notes On Hansen et al (2011) – Earth’s Energy Imbalance and Implications
Guest post by Bob Tisdale
UPDATE (April 23, 2011): I’ve added an addition discussion of the delayed rebound effect at the end of the post.
OVERVIEW
Judith Curry’s post Earth’s Energy Imbalance is an introduction to the Hansen et al (2011) paper “Earth’s Energy Imbalance and Implications”. Anthony Watts also prepared a post that discussed the sea level rise suggested by Hansen et al (2011). Refer to the Watts Up With That? post NASA’s Hansen thinks sea level rise will be accelerating – I think not, offering a new paper and updated story on Hansen to show why.
The following are comments about the presentation of NODC Ocean Heat Content (Levitus et al 2009) data in Hansen et al (2011). The signal that causes the decadal variations in the Global Ocean Heat “Uptake” data appears to originate in the Tropical Pacific. The post also discusses their proposed “delayed rebound effect” in Ocean Heat Uptake, their failure to include Sea Level Pressure as a variable that impacts Ocean Heat Content, and their use of outdated Total Solar Irradiance data as a forcing.
INTRODUCTION
Hansen et al used NODC Ocean Content data as one of their primary data sources to illustrate Earth’s energy imbalance. The NODC OHC dataset is based on the Levitus et al (2009) paper “Global ocean heat content (1955-2008) in light of recent instrumentation problems”, Geophysical Research Letters. Refer to Manuscript. It was revised in 2010 as noted in the October 18, 2010 post Update And Changes To NODC Ocean Heat Content Data. As described in the NODC’s explanation of ocean heat content (OHC) data changes, the changes result from “data additions and data quality control,” from a switch in base climatology, and from revised Expendable Bathythermograph (XBT) bias calculations.
In their Figure 13, Hansen et al present what they called Ocean Heat Uptake. Their Figure 13 is Figure 1 in this post. We’ll concentrate on the green curve in the right-hand cell, the one identified as the “Updates of Levitus et al (2009)” dataset.
Figure 1
I’ve reproduced the Ocean Heat Uptake curve in Figure 2, using the NODC OHC data. The KNMI Climate Explorer is the source of the data, so it’s presented in Gigajoules per square meter (GJ/m^2). The curves are the same in Figures 1 and 2, but the units are different. Hansen et al also appear to use half years (1980.5, 1981.5, etc.) in their graph. Basically, what Hansen et al are illustrating with their Ocean Heat Uptake data are 6-year running trends of the Global Ocean Heat Content data. To start the data, the linear trend of the global ocean heat content for the period of 1978 to 1983 is determined and its value plotted at 1980. The 1981 data point would include the linear trend of the OHC data for 1979 to 1984, and so on, until the last point in 2007, which includes the linear trend for the period of 2005 to 2010. The graph shows that global OHC, based on 6-year trends, was dropping from 1980 to 1982/83. It rose from 1982/83 to 1990, increasing fastest in 1988. There was very little rise in Ocean Heat Content for the 6-year period centered on 1990. Then from 1990 to 2005 OHC rose at varying rates, and basically stopped rising for the 6-year period centered on 2005.
Figure 2
Hansen et al selected 1980 as a start year for their Ocean Heat Uptake graph, but the NODC OHC dataset begins in 1955. If we look at the Ocean Heat Uptake data using the full term of the data, Figure 3, we can see that 1980 was well chosen. The six-year period centered on 1980 had greatest drop in OHC since the period centered on 1965. Choosing 1980 for the start year (Figures 1 and 2) makes the increasing changes through the early 2000s seem significant. But with the entire dataset presented, the early period of positive trends from the late 1970s to the late 1980s suppresses the appearance of the recent wiggles. Highlighting “zero” also changes the perspective.
Figure 3
For those interested, Figure 4 is a comparison of annual NODC Global Ocean Heat Content data versus the Ocean Heat Uptake data, from 1955 to 2010. The OHC data has been scaled by a factor of 0.1 to help visual comparisons. Keep in mind the Ocean Heat Uptake (running 6-year trend) data is “centered” on the 3rdof 6 years, so it skews the dataset slightly.
Figure 4
ENSO DRIVES TROPICAL PACIFIC OCEAN HEAT CONTENT
Back in 2009, my first post on the NODC Ocean Heat Content data after it was included in the KNMI Climate Explorer was a discussion of the impacts of the El Niño-Southern Oscillation (ENSO) on Ocean Heat Content. Refer to the post ENSO Dominates NODC Ocean Heat Content (0-700 Meters) Data. And for those who are not familiar with ENSO, refer to the post An Introduction To ENSO, AMO, and PDO – Part 1.
Figure 5 compares Tropical Pacific (24S-24N, 120E-90W) Ocean Heat Content to scaled NINO3.4 Sea Surface Temperature (SST) anomalies. The NINO3.4 SST anomalies are a commonly used proxy for the frequency and magnitude of El Niño and La Niña events. This comparison illustrates the impact of ENSO on Tropical Pacific Ocean Heat Content.
Figure 5
El Niño events discharge heat from the tropical Pacific, and the tropical Pacific OHC drops in response. In most instances, La Niña events recharge only part of heat released during the El Niño, and the tropical Pacific OHC rebounds but not fully. The La Niña events accomplish this through the strengthening of the Pacific trade winds, which reduces cloud cover over the tropical Pacific, which in turn increases Downward Shortwave Radiations (visible light), which warms the Tropical Pacific. And some of that water that was warmed by the sun collects in the West Pacific Warm Pool until the next El Niño. Then there are the significant La Niña events that can cause the tropical Pacific to gain more heat than was released by El Niño before it. Refer again to Figure 5. The initial portion of the 1973/74/75/76 La Niña not only recharged the heat released during the major 1972/73 El Niño, it also caused an upward shift in the amount of warm waters available for upcoming El Niño events. Then Tropical Pacific Ocean Heat Content decreased from 1980 to 1995, varying in response to the individual El Niño and La Niña events. The 1995/96 La Niña had a significant effect on the tropical Pacific OHC. Note the substantial rise in OHC at that time. The explanation can be found in McPhaden (1999) “Genesis and Evolution of the 1997-98 El Niño.McPhaden writes, “For at least a year before the onset of the 1997–98 El Niño, there was a buildup of heat content in the western equatorial Pacific due to stronger than normal trade winds associated with a weak La Niña in 1995–96.” That weak La Niña caused another upward shift in Tropical Pacific OHC, which served as the fuel for the 1997/98 El Niño. The 1998/99/00/01 La Niña then recharged the Ocean Heat Content, and tropical Pacific OHC has been fluctuating at its new elevated level since then.
THE RELATIONSHIP BETWEEN TROPICAL PACIFIC AND GLOBAL OCEAN HEAT UPTAKE
If we compare Global Ocean Heat Uptake to Tropical Pacific Ocean Heat Uptake, Figure 6, we can see that the Tropical Pacific Ocean Heat Uptake is a major component of Global Ocean Heat Uptake. The two dataset correlate quite well. (For those interested, the correlation coefficient is approximately 0.81.)
Figure 6
If we present the OHC data in monthly format and use 73-month trends instead of 6-year trends, Figure 7, it appears the variations in Global Ocean Heat Uptake are actually responses to Tropical Pacific Ocean Heat Uptake. And since ENSO is the driver of Tropical Pacific Ocean Heat Content , would it then seem logical that variations in Global Ocean Heat Uptake are responses to ENSO? Again, refer to the post ENSO Dominates NODC Ocean Heat Content (0-700 Meters) Data. Since ENSO has a substantial footprint in most climate variables, I’m surprised Hansen et al (2011) didn’t look for the relationship between Tropical Pacific and Global Ocean Heat Uptake, or if they did, why they didn’t note the relationship.
Figure 7
A DELAYED REBOUND EFFECT FROM MOUNT PINATUBO?
Hansen et al (2011) write in the abstract, “A recent decrease in ocean heat uptake was caused by a delayed rebound effect from Mount Pinatubo aerosols and a deep prolonged solar minimum.”
First, it’s difficult to find the impact of Mount Pinatubo on the Ocean Heat Content data for many of the ocean basins. Refer once again to the post ENSO Dominates NODC Ocean Heat Content (0-700 Meters) Data. I included GISS Aerosol Optical Thickness Data (a proxy for the timing and magnitude of explosive volcanic eruptions) in many of the graphs. Only two of the ocean basins, the South Atlantic and South Indian Oceans , show clear signs of the effects from Mount Pinatubo in 1991, but they rebounded quickly, as one would expect. Refer to Figures 9 and 11 in that post. Since the Ocean Heat Content data for the basins show few signs of being impacted by Mount Pinatubo, the claim of a delayed rebound is surprising.
Second, as shown in the recent post ARGO-Era NODC Ocean Heat Content Data (0-700 Meters) Through December 2010, the recent flattening of Global OHC data is caused primarily by the significant drops in the OHC of the North Atlantic and South Pacific, Figure 8. But these are countered by the significant rises in the Indian and South Atlantic Oceans. Are Hansen et al suggesting that the “delayed rebound effect” is only impacting the North Atlantic and South Pacific basins? If Hansen et al are proposing a mechanism for the “delayed rebound effect”, I did not find it. I would have to believe it would be Meridional Overturning Circulation (MOC), and would be based on the assumptions that the cooler waters created by the Mount Pinatubo eruption would be circulated to depths below the 700 meter reach of the NODC OHC dataset and then reemerge 20-plus years later. If so, then the MOC circulation time would have be the similar in the North Atlantic and South Pacific, but not the other ocean basins. And if they are proposing MOC now in their Energy Balance Models, they should also consider that warm and cool waters distributed by ENSO would also be subducted to depths below 700 meters and then reemerge “x” decades later, with more warm water than cool being redistributed during epochs when El Niño events dominate, and vice versa when La Niña events dominate.
Figure 8
The recently negative trends in the North Atlantic and South Pacific OHC data can also be seen in the Ocean Heat Uptake data for the individual ocean basins. That is, for those ocean basins, the Ocean Heat Uptake data have dropped into negative values recently. The North Atlantic is illustrated in Figure 9. Note how the North Atlantic shows escalating trends from 1980 to 2005 but they drop very quickly to negative trends in recent years. The South Pacific is shown in Figure 13. Note how its Ocean Heat Uptake data cycles back and forth from positive to negative, indicating that a negative trend is not unusual for the South Pacific. I’ve also included the global Ocean Heat Uptake data in the graphs of the individual ocean basins as a reference.
Figure 9
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Figure 10
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Figure 11
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Figure 12
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Figure 13
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SEA LEVEL PRESSURE
I find no mention of Sea Level Pressure in Hansen et al (2011), yet changes in Sea Level Pressure can cause significant changes in Ocean Heat Content. Refer to the posts North Atlantic Ocean Heat Content (0-700 Meters) Is Governed By Natural Variables and North Pacific Ocean Heat Content Shift In The Late 1980s.
SOLAR RADIATION FORCING
Figure 14 shows the Solar Forcing data and impacts presented by Hansen et al (2011). The Total Solar Irradiance (TSI) data in the left-hand cell appears to be based on an early reconstruction by Judith Lean, including background effects, with current TSI data spliced onto the end. The Lean TSI dataset is outdated. Note the early rise in solar minimums from the 1880s to the 1940s.The current understanding of TSI variability is that the minimum TSI in 1880 should be in the vicinity of the recent solar minimums. In other words, that rise from the 1880s to the 1940s does not exist. The use of outdated TSI was discussed in the post IPCC 20th Century Simulations Get a Boost from Outdated Solar Forcings, which was also cross posted at WattsUpWithThat: IPCC 20th Century Simulations Get a Boost from Outdated Solar Forcings. Refer to the comments there by Leif Svalgaard, Solar Physicist from Stanford University. The red curve in the middle cell of Figure 14 shows the impact of the variations in TSI on Global Surface Temperatures. For the last three solar cycles, the temperature variations from solar minimum to maximum should be on the order of 0.07 to 0.1 deg C. Hansen et al (2011) are showing considerably less impact from solar variability.
Figure 14
CLOSING
Hopefully, someday, researchers investigating the causes of Ocean Heat Content variability will treat ENSO as a process instead of noise. El Niño events release heat from the Tropical Pacific, La Niña events recharge it, sometimes overcharge it, and ENSO redistributes heat within the oceans.
I’ll end the post with two animations of Ocean Heat Content from the post ARGO-Era NODC Ocean Heat Content Data (0-700 Meters) Through December 2010. The NINO3.4 SST anomalies to the right serves as a timeline and as an indicator of ENSO phase.
Animation 1
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Animation 2
Refer also to the post More Detail On The Multiyear Aftereffects Of ENSO – Part 2 – La Nina Events Recharge The Heat Released By El Nino Events AND…During Major Traditional ENSO Events, Warm Water Is Redistributed Via Ocean Currents. While it is primarily a discussion of Sea Surface Temperature, there are also discussions of Ocean Heat Content.
SOURCE
The Ocean Heat Content and Sea Surface Temperature data presented in this post are available through the KNMI Climate Explorer:
http://climexp.knmi.nl/selectfield_obs.cgi?someone@somewhere
UPDATE (April 23,2011) – ON THE REBOUND
Hansen et al describe the rebound as:
“Fig. 22e shows the effect of volcanic aerosols. Volcanoes cause a negative planetary energy imbalance during the 1-2 years that the aerosols are present in the stratosphere, followed by a rebound to a positive planetary energy imbalance. This rebound is most clearly defined after the Pinatubo eruption, being noticeable for more than a decade, because of the absence of other volcanoes in that period.”
I’ve cropped Cells e from their Figure 22 and included it as Figure 15 of this post. The “rebound” is the “overcorrection” in the Energy Imbalance data in the right-hand cell.
Figure 15
Hansen et al continue:
“The physical origin of the rebound is simple. Solar heating of Earth returns to its pre-volcano level as aerosols exit the stratosphere. However, thermal emission to space is reduced for a longer period because the ocean was cooled by the volcanic aerosols. In calculations via the response function, using equations (1) and (2), the volcanic aerosols introduce a dF/dt of one sign and within a few years a dF/dt of opposite sign. The integrated (cumulative) dF/dt due to the volcano is zero but the negative dF/dt occurred earlier, so its effect on temperature, defined by the climate response function, is greater. The effect of the temporal spacing between the negative and positive changes of F decreases as time advances subsequent to the eruption.”
The problem with the hypothesis: As discussed earlier, the Ocean Heat Content data shows little impact from Mount Pinatubo. The Global Ocean Heat Content would need to drop appreciably in order for the proposed “overcorrection” to exist.
Would love to see Hansen and Tisdale debate this in real time.
Bet Hansen would be completely out of his league.
Besides the fact that he is an astronomer, yet he controls probably the most powerful scientific misinformation engine known to man, and continues to drag NASA into things oceanic and meteorologic….(SINCE WHEN was NASA supposed to be in charge of geophysics?)…why should anybody ever take him seriously?
Where’s the data, James???
And how the hell do you [at the borderline criminal expense of the taxpayer] continue to get away with this??
Time to light the torches.
Chris
Norfolk, VA, USA
Do we see this hypothesized “delayed” effect during other volcanic eruptions of similar size?? This is the first I’ve heard of it…
“…total bollocks”
Mainstream ‘Climate Science’ in a nutshell.
Total bollocks Mr. Watts? What a concise and polite way of putting it.
Kindest Regards
Hansen reminds me of Jamie Dimon from GhoulMan Sachs.’ Doing Gods work.’
Overwhelming self belief is a corrupting mechanism.
regards
Well, if I was the “esteemed” Dr. Hansen, who knew all about how the weather/climate would behave in the future, I would at this point in time have to “double down” on my predictions. After all I’ve testified to the US Congress about my ability to predict the weather for the next hundred years, or so. If the predictions seem a bit off, my next step is to find a “plausible” explanation as to why I am REALLY, REALLY, CORRECT and there is just this one little detail I “forgot” to include in my calculations. It was “the volcano that done it………..” Honest Sir, I had nothing to do with changing the PREDICTIONS, it was the VOLCANO THAT DONE IT, I SWEAR……..
Cheers, Kevin.
Hansen’s “delayed rebound effect” strikes me as perfectly equivalent to a Ptolemaic Epicycle, an added embellishment to a geocentric solar system to better explain results of newer observations.
Hansen’s climate universe is CO2 centric. What if the real climate system not driven primarily by CO2 concentrations. Then by choosing a poor model, Hansen is forced into every increasing complexity, epicycles on epicycles, to explain observed behavior.
It may well take a radical change of model, a Copernican view, to properly simplify the climate mental model into something more trustworthy. Maybe it will be a solar centric system, where solar output variances drive earth climate over geologic time.
This is essencially how Dr. Hansen sees the overall issue of climate sensitivity. Using modern data and forcing estimates (all of which contain significant error margins and unknowns, but humor me here…) and after correcting the upward greenhouse forcing for the long-term aerosol cooling effect, the numbers (0.6C/1.6 w/m^2) still yields a sensitivity to 2xCO2 of only 1.4C. You must then include a large oceanic thermal lag time to supply between 0.4 to 0.6C extra degrees of heating, yielding 1.2C/1.6 w/m^2, or 2.8C for 2xCO2. This explanation of a long recovery due to slow ocean rebound effects is just a reflection of this idea of very large oceanic thermal lags. Take it or leave it, I am just explainign where he gets his “ideas’ from. As Tisdale showed, the data just do not support this position. Seems like they support a shorter ocean lag and an unrealized warming of closer to 0.1C, or thereabouts. This still keeps the sensitivity to 2xCO2 below the lowest IPCC estimate, which is interesting.
Tamino. The Scott Farkus of the Climate blogs.
REPLY: I think you mean “Scut Farkus“, but I LOL’d nonetheless. – Anthony
Stephen Rasey says:
April 23, 2011 at 8:44 pm
“Hansen’s “delayed rebound effect” strikes me as perfectly equivalent to a Ptolemaic Epicycle, an added embellishment to a geocentric solar system to better explain results of newer observations. Hansen’s climate universe is CO2 centric.”
Yes, that nails it. Endless revisions of epicycles upon epicycles, but no plausible account of what is actually happening. By “climate,” the Warmista mean “whatever can be associated with CO2 in the atmosphere.” By “planetary motion,” Ptolemy meant “whatever can be associated with perfect circles in the heavens.” There comes a time when even the most faithful must admit that epicycles or CO2 have no relationship to what humans can observe in the environment. We have yet to find our Kepler, the one who will sweep away the madness of epicycles and introduce actual physical hypotheses which explain to scientists and all intelligent persons what is going on that drives our environment. Climate science is in its infancy. Those who do not recognize that fact are as hidebound as the followers of Ptolemy. Yet the situation is worse for them. Galileo created scientific method and the followers of Ptolemy have the excuse that they had not benefited from Galileo’s work. But what is Hansen’s excuse? He has long had the opportunity to benefit from Galileo’s work.
Stephen Rasey says: “Hansen’s “delayed rebound effect” strikes me as perfectly equivalent to a Ptolemaic Epicycle, an added embellishment to a geocentric solar system to better explain results of newer observations…It may well take a radical change of model, a Copernican view, to properly simplify the climate mental model into something more trustworthy. Maybe it will be a solar centric system…”
Great simile! I guess it’s hard to be Copernicus when you think you’re a Messiah.
Hopefully, someday, researchers investigating the causes of Ocean Heat Content variability will treat ENSO as a process instead of noise.
I’m reminded of some of the previous controversies in science. Old farts generally do not age gracefully and will have to die off before what you wish for comes true. [The issue of the “channeled scablands” of Eastern Washington State is the one I know best, but there are others.] In the current case, the old farts believe in GHGs and will likely not look for other processes.
Good post!
a jones says:
“Total bollocks Mr. Watts? What a concise and polite way of putting it.”
A lot kinder than I would put it. [snip – reference to violence – Anthony]
” El Niño events release heat from the Tropical Pacific, La Niña events recharge it, sometimes overcharge it, and ENSO redistributes heat within the oceans.”
Absolutely right but that only implies that ENSO dominates the rate of energy release from ocean to air.
The other half of the equation is the rate of energy input to the oceans and I suggest that for that we must direct attention to global cloud quantities and albedo.
For all intents and purposes simple TSI has been discounted as the most important parameter. Instead we must look at chemical changes in the atmosphere as a result of changes in the mix of wavelengths and particles from the sun which appear to affect surface pressure distribution and cloudiness.
Solar input to the oceans is the only available fuel and ENSO merely represents the ‘burn rate’.
Both are independently variable and capable of either supplementing or offsetting each others effects at different times.
Off topic
– from the Easter Blizzard post
FergalR says: April 23, 2011 at 4:32 pm
Mike McMillan says: April 23, 2011 at 8:39 pm
Lobbyists who cleared ‘Climategate’ academics funded by taxpayers and the BBC
http://www.telegraph.co.uk/earth/environment/climatechange/8469883/Lobbyists-who-cleared-Climategate-academics-funded-by-taxpayers-and-the-BBC.html
Thank you,
Also James Delingpole with 5590 comments on the Press Complaints Commission’s ruling.
UEA: the sweet smell of napalm in the morning…
http://blogs.telegraph.co.uk/news/jamesdelingpole/100083071/uea-the-sweet-smell-of-napalm-in-the-morning/
Case of Alleged Data Fabrication (Victor Ninov- see bottom of page)
http://www.csepdf.com/element-case.html
(thanks Willis, yclept from your Kilwa post)
Respectfully.
The model Ptlomeu. Describes something.
Pinatubo does not describe anything.
If you have an extra hour of your life which you don’t mind never getting back you might want to watch the video of Hansen’s presentation of his paper that Anthony links in his initial post. To keep from going comatose from his mostly mumbled babbling, try to keep a tally of the number of times he covers his face with his hand, including those where he is attempting to speak. Though I personally don’t place a great deal of stock in such things, people who make a study of body language are nearly unanimous in declaring such postures as strong indicators of prevarication.
Dunno about delayed rebound effect. More like diminished reality effect if you ask me.
A widely held impression of many Europeans is that the United States is stuffed full of weird religious cults, run by fraudsters.
Hansen and AGW just reinforce this point of view.
Off Topic
We should stop calling what Hansen posts on his website as “papers”.
After it’s been peer-reviewed and published in the academic literature, then it’s a paper.
Before that, it’s a blog post. Hansen can format his post as he chooses, but that doesn’t make it part of the published literature.
(before anyone jumps on me, no i have nothing against blogs and no i am not saying anything about whether the content of a blog is true or not)
Stephen Wilde says: “Absolutely right but that only implies that ENSO dominates the rate of energy release from ocean to air.”
Read what you quoted again, Stephen: “El Niño events release heat from the Tropical Pacific, La Niña events recharge it, sometimes overcharge it, and ENSO redistributes heat within the oceans.” That’s a discussion of Ocean Heat Content, not air temperature.
John F. Hultquist says: “I’m reminded of some of the previous controversies in science. Old farts generally do not age gracefully and will have to die off before what you wish for comes true.”
Since some might consider me to be a member of the “old fart” community, I might have to rewrite the opening sentence of the Closing to, “Hopefully, someday, but probably not in my lifetime…”
The volcano ate his homework.
Hansen lives in his own little world. Unfortunately it is not this one.
Its the sneering derisory tone here that is so disturbing.
And what’s with “[snip – reference to violence – Anthony]”? Surely “[snip – total &@ur momisugly!!@ur momisugly£($*]” would be better?
[*snip! ~jove, mod]