Global Warming as a Natural Response to Cloud Changes Associated with the Pacific Decadal Oscillation (PDO)
Reposted here from weatherquestions.com
UPDATED – 10/20/08 See discussion section 4
by Roy W. Spencer
(what follows is a simplified version of a paper I am preparing to submit GRL for publication, hopefully by the end of October 2008)
A simple climate model forced by satellite-observed changes in the Earth’s radiative budget associated with the Pacific Decadal Oscillation is shown to mimic the major features of global average temperature change during the 20th Century – including two-thirds of the warming trend. A mostly-natural source of global warming is also consistent with mounting observational evidence that the climate system is much less sensitive to carbon dioxide emissions than the IPCC’s climate models simulate.
1. Introduction
For those who have followed my writings and publications in the last 18 months (e.g. Spencer et al., 2007), you know that we are finding satellite evidence that the climate system could be much less sensitive to greenhouse gas emissions than the U.N.’s Intergovernmental Panel on Climate Change (IPCC, 2007) climate models suggest.
To show that we are not the only researchers who have documented evidence contradicting the IPCC models, I made the following figure to contrast the IPCC-projected warming from a doubling of atmospheric carbon dioxide with the warming that would result if the climate sensitivity is as low as implied by various kinds of observational evidence. The dashed line represents our recent apples-to-apples comparison between satellite-based feedback estimates and IPCC model-diagnosed feedbacks, all computed from 5-year periods (Spencer and Braswell, 2008a):
Fig. 1. Projected warming (assumed here to occur by 2100) from a doubling of atmospheric CO2 from the IPCC versus from various observational indicators. (click for larger image)
The discrepancy between the models and observations seen in Fig. 1 is stark. If the sensitivity of the climate system is as low as some of these observational results suggest, then the IPCC models are grossly in error, and we have little to fear from manmade global warming.
But an insensitive climate system would ALSO mean that the warming we have seen in the last 100 years can not be explained by increasing CO2 alone. This is because the radiative forcing from the extra CO2 would simply be too weak to cause the ~0.7 deg. C warming between 1900 and 2000… there must be some natural warming process going on as well.
Here I present new evidence that most of the warming could actually be the result of a natural cycle in cloud cover forced by a well-known mode of natural climate variability: the Pacific Decadal Oscillation.
2. A Simple Model of Natural Global Warming
As Joe D’Aleo and others have pointed out for years, the Pacific Decadal Oscillation (PDO) has experienced phase shifts that coincided with the major periods of warming and cooling in the 20th Century. As can be seen in the following figure, the pre-1940 warming coincided with the positive phase of the PDO; then, a slight cooling until the late 1970s coincided with a negative phase of the PDO; and finally, the warming since the 1970s has once again coincided with the positive phase of the PDO.
Fig. 2. Variations in (a) global-average surface temperature, and (b) the Pacific Decadal Oscillation (PDO) index during 1900-2000. (click for larger image)
Others have noted that the warming in the 1920s and 1930s led to media reports of decreasing sea ice cover, Arctic and Greenland temperatures just as warm as today, and the opening up of the Northwest Passage in 1939 and 1940.
Since this timing between the phase of the PDO and periods of warming and associated climate change seems like more than mere coincidence, I asked the rather obvious question: What if this known mode of natural climate variability (the PDO) caused a small fluctuation in global-average cloud cover?
Such a cloud change would cause the climate system to go through natural fluctuations in average temperature for extended periods of time. The IPCC simply assumes that this kind of natural cloud variability does not exist, and that the Earth stays in a perpetual state of radiative balance that has only been recently disrupted by mankind’s greenhouse gas emissions. (This is an assumption that many of us meteorologists find simplistic and dubious, at best.)
I used a very simple energy balance climate model, previously suggested to us by Isaac Held and Piers Forster, to investigate this possibility. In this model I ran many thousands of combinations of assumed: (1) ocean depth (through which heat is mixed on multi-decadal to centennial time scales), (2) climate sensitivity, and (3) cloud cover variations directly proportional to the PDO index values.
In effect, I asked the model to show me what combinations of those model parameters yielded a temperature history approximately like that seen during 1900-2000. And here’s an average of all of the simulations that came close to the observed temperature record:
Fig. 3. A simple energy balance model driven by cloud changes associated with the PDO can explain most of the major features of global-average temperature fluctuations during the 20th Century. The best model fits had assumed ocean mixing depths around 800 meters, and feedback parameters of around 3 Watts per square meter per degree C. (click for larger image)
The “PDO-only” (dashed) curve indeed mimics the main features of the behavior of global mean temperatures during the 20th Century — including two-thirds of the warming trend. If I include transient CO2 forcing with the PDO-forced cloud changes (solid line labeled PDO+CO2), then the fit to observed temperatures is even closer.
It is important to point out that, in this exercise, the PDO itself is not an index of temperature; it is an index of radiative forcing which drives the time rate of change of temperature.
Now, the average PDO forcing that was required by the model for the two curves in Fig. 3 ranged from 1.7 to 2.0 Watts per square meter per PDO index value. In other words, for each unit of the PDO index, 1.7 to 2.0 Watts per square meter of extra heating was required during the positive phase of the PDO, that much cooling during the negative phase of the PDO.
But what evidence do we have that any such cloud-induced changes in the Earth’s radiative budget are actually associated with the PDO? I address that question in the next section.
3. Satellite Evidence for Radiative Budget Changes Forced by the Pacific Decadal Oscillation
To see whether there is any observational evidence that the PDO has associated changes in global-average cloudiness, I used NASA Terra satellite measurements of reflected solar (shortwave, SW) and emitted infrared (longwave, LW) radiative fluxes over the global oceans from the CERES instrument during 2000-2005, and compared them to recent variations in the PDO index. The results can be seen in the following figure:
Fig. 4. Three-month running averages of (a) the PDO index during 2000-2005, and (b) corresponding CERES-measured anomalies in the global ocean average radiative budget, with and without the feedback component removed (see Fig. 5). The smooth curves are 2nd order polynomial fits to the data. (click for larger image)
But before a comparison to the PDO can be made, one must recognize that the total radiative flux measured by CERES is a combination of forcing AND feedback (e.g. Gregory et al., 2002; Forster and Gregory, 2006). So, we first must estimate and remove the feedback component to extract any potential radiative forcing associated with the PDO.
As Spencer and Braswell (2008b) have shown with a simple model, the radiative feedback signature in globally-averaged radiative flux versus temperature data is always highly correlated, while the time-varying radiative forcing signature of internal climate fluctuations is uncorrelated because the forcing and temperature response are always 90 degrees out of phase.
The following figure shows the “feedback stripes” associated with intraseasonal fluctuations in the climate system, and the corresponding feedback estimate (8.3 Watts per square meter per degree C) that I removed from the data to get the “forcing-only” curve in Fig. 4b. 
Fig. 5. Three-month running averages of global oceanic radiative flux changes versus tropospheric temperature changes (from AMSU channel 5, see Christy et al., 2003), used to estimate the feedback component of the radiative fluxes so it could be removed to get the forcing (see Fig. 4b). (click for larger image)
(Note that this feedback estimate is not claimed to represent long-term climate sensitivity; it is instead the feedback occurring on intraseasonal and interannual time scales which is mixed in with an unknown amount of internally-generated radiative forcing, probably due to clouds.)
When the feedback is removed, we see a good match in Fig. 4 between the low-frequency behavior of the PDO and the radiative forcing (which is presumably due to clouds). Second-order polynomials were fit to the time series in Fig. 4 and compared to each other to arrive at the PDO-scaling factor of 1.9 Watts per square meter per PDO index value.
It is significant that the observed scale factor (1.9) that converts the PDO index into units of heating or cooling is just what the model required (1.7 to 2.0) to best explain the temperature behavior during the 20th Century. Thus, these recent satellite measurements – even though they span less than 6 years — support the Pacific Decadal Oscillation as a potential major player in global warming and climate change.
4. Discussion
The evidence continues to mount that the IPCC models are too sensitive, and therefore produce too much global warming. If climate sensitivity is indeed considerably less than the IPCC claims it to be, then increasing CO2 alone can not explain recent global warming. The evidence presented here suggests that most of that warming might well have been caused by cloud changes associated with a natural mode of climate variability: the Pacific Decadal Oscillation.
The IPCC has simply assumed that mechanisms of climate change like that addressed here do not exist. But that assumption is quite arbitrary and, as shown here, very likely wrong. My use of only PDO-forced variations in the Earth’s radiative energy budget to explain two-thirds of the global warming trend is no less biased than the IPCC’s use of carbon dioxide to explain global warming without accounting for natural climate variability. If any IPCC scientists would like to dispute that claim, please e-mail me at roy.spencer (at) nsstc.uah.edu.
If the PDO has recently entered into a new, negative phase, then we can expect that global average temperatures, which haven’t risen for at least seven years now, could actually start to fall in the coming years. The recovery of Arctic sea ice now underway might be an early sign that this is indeed happening.
I am posting this information in advance of publication because of its potential importance to pending EPA regulations or congressional legislation which assume that carbon dioxide is a major driver of climate change. Since the mainstream news media now refuse to report on peer-reviewed scientific articles which contradict the views of the IPCC, Al Gore, and James Hansen, I am forced to bypass them entirely.
We need to consider the very real possibility that carbon dioxide – which is necessary for life on Earth and of which there is precious little in the atmosphere – might well be like the innocent bystander who has been unjustly accused of a crime based upon little more than circumstantial evidence.
REFERENCES
Christy, J. R., R. W. Spencer, W. B. Norris, W. D. Braswell, and D. E. Parker (2003),
Error estimates of version 5.0 of MSU/AMSU bulk atmospheric temperatures, J.
Atmos. Oceanic Technol., 20, 613- 629.
Douglass, D.H., and R. S. Knox, 2005. Climate forcing by volcanic eruption of Mount
Pinatubo. Geophys. Res. Lett., 32, doi:10.1029/2004GL022119.
Forster, P. M., and J. M. Gregory (2006), The climate sensitivity and its components
diagnosed from Earth Radiation Budget data, J. Climate, 19, 39-52.
Gregory, J.M., R.J. Stouffer, S.C.B. Raper, P.A. Stott, and N.A. Rayner (2002), An
observationally based estimate of the climate sensitivity, J. Climate, 15, 3117-3121.
Intergovernmental Panel on Climate Change (2007), Climate Change 2007: The Physical
Science Basis, report, 996 pp., Cambridge University Press, New York City.
Schwartz, S. E. (2007), Heat capacity, time constant, and sensitivity of the Earth’s
climate system. J. Geophys. Res., 112, doi:10.1029/2007JD008746.
Spencer, R.W., W. D. Braswell, J. R. Christy, and J. Hnilo (2007), Cloud and radiation
budget changes associated with tropical intraseasonal oscillations, Geophys. Res.
Lett., 34, L15707, doi:10.1029/2007GL029698.
Spencer, R.W., and W.D. Braswell (2008a), Satellite measurements reveal a climate
system less sensitive than in models, Geophys. Res. Lett., submitted.
Spencer, R.W., and W.D. Braswell (2008b), Potential biases in cloud feedback diagnosis:
A simple model demonstration, J. Climate, November 1.
I would like to know if Dr. Spencer’s paper has been “peer” reviewed by Senator Boxer?
In spite of any factual evidence to the contrary, the next elected government will treat CO2 as a pollutant and strive to limit/reduce emissions by the use of economic penalties, “hope”fully, not down to the level of an individual’s respiration.
Here are the Grand Minimum dates, for what it’s worth:
Oort (1010-1050)
Wolf (1280-1340)
Spörer (1415-1534)
Maunder (1645-1715)
Dalton (1790-1840)
“Modern Maunder” 2007? –
The Oort Minimum occurs during the MWP. (I can’t say if it correlated with a downward blip or not.)
The others seem to correlate pretty well with the Little Ice Age.
But, as Prof. Svaalgard will tell us (correctly), correlation does not prove causation.
The trends over the next three decades will tell us a lot.
Thank you for your reply Leif.
I still see a greater correlation than you do but was looking for an explanation outside of TSI.
As I said before, I accept that apparent correlation is not causation and from your evidence, TSI is not the cause.
Dave.
Leif I want to be absolutely certain of this. You say there is absolutely no correlation between solar activity and earth’s temperature? – Anthony
Anthony, I think that would be a gross exaggeration of Leif’s viewpoint.
Dave.
[…] New Paper from Roy Spencer: PDO and Clouds Sphere: Related Content Ask a Question […]
“The Sun may have some influence, but the simple fact that it is still an item under debate shows that whatever influence there may be cannot be significant or primary.”
That’s real scientific, Leif.
evan,
I propose the next minimum be called the “Milli Vanilli Minimum”.
When the music stops, we will find out who has been lip-syncing the scientific method, for personal benefit.
Leif suggests no clear correlation between TSI and global temperaures. I disagree as do various others. I have suggested that to resolve the issue one should combine the solar variations with overall net oceanic oscillations at any particular time and see what sort of correlation we get with changes in global temperature trends. Leif felt that was pointless as it is just one of many apparent correlations and did not deserve special attention.
Due to the content of my articles and the numbers of posters now accepting a solar/oceanic combination as a primary driver if not THE primary driver I really do think that that aspect should be given prominence.
However he does also say that solar insolation is much more variable than TSI which implies that variations in insolation could be effective.
Now I would have thought that a change in TSI however small does govern the total solar energy available for variations in insolation.
Furthermore the term solar activity could include either TSI or SI or even both of them.
I tend to use TSI as a proxy for solar activity generally so even if I am wrong to do that we still need to know why that approach is wrong and why discounting TSI needs to lead us to also discount other parameters of solar activity such as solar insolation.
I’ve made it clear in my articles that I do not regard TSI as representing all the ways that changes in solar activity can affect global temperatures. I’ve only used TSI because there are many other possible mechanisms and TSI seems to me to be a good general indication of solar activity at any particular time.
Leif said “The Sun may have some influence, but the simple fact that it is still an item under debate shows that whatever influence there may be cannot be significant or primary.”
Personally, I believe that should read ‘may not’ rather than ‘cannot’ but it doesn’t rule out the possibility of Solar influence.
He did however say that there was NO correlation.
Dave.
Anthony, since it doesn’t vary it can’t correlate with something that does. TCO is learning that he’s more effective within the pale.
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wattsupwiththat (13:21:03) :
Leif I want to be absolutely certain of this. You say there is absolutely no correlation between solar activity and earth’s temperature? – Anthony
Absolutes are hard and have no place in science. What I say is that the solar activity is not a significant [or primary – as some people will have it] driver of climate, simply because it varies too little. If you would crank up solar activity by a factor of a hundred [some stars have starspots that cover 50% of the surface – the largest sunspots cover 0.5%] there would be a very large climate response. It is all a question of degree or size.
Glenn (13:55:03) :
That’s real scientific, Leif.
Thank you for your support in this endeavor. I always try to present the science as accurately as I can, so good to see that I found a sympathetic ear.
Leif,
Exactly of what interest to the climate change debate, if any, is there in the Sun if there is no correlation to any of its various activities and global temperatures/weather events?
“there is absolutely no correlation between solar activity and earth’s temperature”
Beware of the weasel words ‘solar activity’.
wattsupwiththat (13:21:03) :
Leif I want to be absolutely certain of this. You say there is absolutely no correlation between solar activity and earth’s temperature? – Anthony
If the question was the much narrower one concerning ‘correlation’ only, then there is always a correlation. The issue is how significant it is, and on what time scale? and exactly whose data or which dataset to use. The only way that can be answered is that the person who asks presents the specific two time series that need to be tested. At that point, there are standard statistical test that can tell you the significance of any correlation at a given level of confidence.
A problem with the above is if there are other factors involved because you then either have to quantify the effects of the other factors and subtract them, or have to perform a multivariate analysis. Many people have tried the latter. A recent example is in a paper by Lean and Rind that I have already referred to several times: “According to this analysis, solar forcing contributed negligible long-term warming in the past 25 years and 10% of the warming in the past 100 years.”
I can live with the 10% [although I think it is smaller – TSI and sunspot number corrections and all that], and at that level or below I have no problem with the correlations. Similarly, I can live with a 0.1 degree solar cycle variation of temperature as some people claim.
“The Sun may have some influence, but the simple fact that it is still an item under debate shows that whatever influence there may be cannot be significant or primary.”
Leif, buddy, I flat out refuse to believe the sun has absolutely no influence what-so-ever.
The TSI has little or no influence on the Earth’s climate, regardless of the fact that the Sun is the primary source of the Earth’s radiant energy. Ditto for TMI (Total Moon Irradiance).
Observations of other planets in the Solar Systems have shown a warming similar the “observed” warming on Earth. Is it possible that there is a dark radiant energy within the Solar System or a intragalactic dark radiant energy in the Milky Way Galaxy?
The only acceptable explanation of the Earth’s climate variation since 1900, when the climate was ideal, is the anthropogenic CO2 contribution to the atmospheric concentration of CO2 since that time, because all other factors have remained constant.
A corollary to this consensus theory: Any cessation of warming, or even a cooling, is due to unknown factors which are masking the anthropogenic global warming/climate change.
It’ a mad, mad, mad, mad world, though not as funny, or entertaining as the movie.
MattN (16:28:51) :
“The Sun may have some influence, but the simple fact that it is still an item under debate shows that whatever influence there may be cannot be significant or primary.”
Leif, buddy, I flat out refuse to believe the sun has absolutely no influence what-so-ever.
I don’t think our two statements are in contradiction.
Bobby Lane (16:13:00) :
Exactly of what interest to the climate change debate, if any, is there in the Sun if there is no correlation to any of its various activities and global temperatures/weather events?
None.
Gary Gulrud (16:18:04) :
Beware of the weasel words ’solar activity’.
Yeah, Anthony really is the CYA business, isn’t he, using such words…
Ed Scott (16:46:22) :
Earth’s climate variation since 1900, when the climate was ideal
I, for my part, do not consider the miserable 1900 ideal, but would prefer a climate even warmer than today. Unfortunately, we are [or shall soon be] on the way down to the next glaciation in, perhaps, 40,000 years 🙂
Leif and Gary
Well I never thought of “solar activity” as “weasel words” nor as a CYA…its just what words came to mind when I wrote it. I’ve been pretty busy today and it was just a quick posting.
If you want to accuse your host of being a weasel, or engaging in CYA, go right ahead, but it really doesn’t foster any useful purpose.
wattsupwiththat (17:19:50) :
If you want to accuse your host of engaging in CYA, go right ahead
We need to have a sarcasm on/off tag. Of course, you do not engage in CYA. And, of course, none of us use weasel words or find it necessary to comment derogatorily on anybody.
/sarc off
is what most people use
A belated sarc off.
Leif: “…on the way down to the next glaciation in, perhaps, 40,000 years :-)”
That’s well beyond my immediate concern. 🙂