The 2007-2008 Global Cooling Event: Evidence for Clouds as the Cause
September 26th, 2009 by Roy W. Spencer, Ph. D.
As I work on finishing our forcing/feedback paper for re-submission to Journal of Geophysical Research – a process that has been going on for months now – I keep finding new pieces of evidence in the data that keep changing the paper’s focus in small ways.
For instance, yesterday I realized that NASA Langley has recently updated their CERES global radiative budget measurement dataset through 2008 (it had previously ran from March 2000 through August 2007).
I’ve been anxiously awaiting this update because of the major global cooling event we saw during late 2007 and early 2008. A plot of daily running 91-day global averages in UAH lower tropospheric (LT) temperature anomalies is shown below, which reveals the dramatic 2007-08 cool event.
I was especially interested to see if this was caused by a natural increase in low clouds reducing the amount of sunlight absorbed by the climate system. As readers of my blog know, I believe that most climate change – including “global warming” – in the last 100 years or more has been caused by natural changes in low cloud cover, which in turn have been caused by natural, chaotic fluctuations in global circulation patterns in the atmosphere-ocean system. The leading candidate for this, in my opinion, is the Pacific Decadal Oscillation…possibly augmented by more frequent El Nino activity in the last 30 years.
Now that we have 9 years of CERES data from the Terra satellite, we can more closely examine a possible low cloud connection to climate change. The next figure shows the changes in the Earth’s net radiative balance as measured by the Terra CERES system. By “net” I mean the sum of reflected shortwave energy (sunlight), or “SW”, and emitted longwave energy (infrared) or “LW”.
The changes in the radiative balance of the Earth seen above can be thought of conceptually in terms of forcing and feedback, which are combined together in some unknown proportion that varies over time. Making the interpretation even more uncertain is that some proportion of the feedback is due not only to radiative forcing, but also to non-radiative forcing of temperature change.
So the variations we see in the above chart is the combined result of three processes: (1) radiative forcing (both internal and external), which can be expected to cause a temperature change; (2) radiative feedback upon any radiatively forced temperature changes; and (3) radiative feedback upon any NON-radiatively forced temperature changes (e.g., from tropical intraseasonal oscillations in rainfall). It turns out that feedback can only be uniquely measured in response to NON-radiatively forced temperature changes, but that’s a different discussion.
The SW component of the total flux measured by CERES looks like this…note the large spike upward in reflected sunlight coinciding with the late 2007 cooling:
And here’s the LW (infrared) component…note the very low emission late in 2007, a portion of which must be from the colder atmosphere emitting less infrared radiation.
As I discuss at length in the paper I am preparing, the physical interpretation of which of these 3 processes is dominant is helped by drawing a phase space diagram of the Net (LW+SW) radiative flux anomalies versus temperature anomalies (now shown as monthly running 3-month averages), which shows that the 2007-08 cooling event has a classic radiative forcing signature:
The spiral (or loop) pattern is the result of the fact that the temperature response of the ocean lags the forcing. This is in contrast to feedback, a process for which there is no time lag. The dashed line represents the feedback I believe to be operating in the climate system on these interannual (year-to-year) time scales, around 6 W m-2 K-1 as we published in 2007…and as Lindzen and Choi (2009) recently published from the older Earth Radiation Budget Satellite data.
The ability to separate forcing from feedback is crucial in the global warming debate. While this signature of internal radiative forcing of the 2007-08 event is clear, it is not possible to determine the feedback in response to that temperature change – it’s signature is overwhelmed by the radiative forcing.
Since the fluctuations in Net (LW+SW) radiative flux are a combination of forcing and feedback, we can use the tropospheric temperature variations to remove an estimate of the feedback component in order to isolate the forcing. [While experts will questions this step, it is entirely consistent with the procedures of Forster and Gregory (2006 J. Climate) and Forster and Taylor (2006 J. of Climate), who subtracted known radiative forcings from the total flux to isolate the feedback].
The method is simple: The forcing equals the Net flux minus the feedback parameter (6 W m-2 K-1) times the LT temperature variations shown in the first figure above. The result looks like this:
What we see are 3 major peaks in radiant energy loss forcing the system: in 2000, 2004, and late 2007. If you look at the features in the separate SW and LW plots above, it is obvious the main signature is in the SW…probably due to natural increases in cloud cover, mostly low clouds, causing internal radiative forcing of the system
If we instead assume a much smaller feedback parameter, say in the mid-range of what the IPCC models exhibit, 1.5 W m-2 K-1, then the estimate of the radiative forcing looks like this:
Note the trend lines in either case show a net increase of at least 1 W m-2 in the radiant energy entering the climate system. The anthropogenic greenhouse gas component of this would be (I believe) about 0.4 W m-2, or a little less that half. I’ll update this if someone gives me a better estimate.
So, what might all of this mean in the climate debate? First, nature can cause some pretty substantial forcings…what if these occur on the time scales associated with global warming (decades to centuries)?
But what is really curious is that the 9-year change in radiative forcing (warming influence) of the system seen in the last two figures is at least TWICE that expected from the carbon dioxide component alone, and yet essentially no warming has occurred over that period (see first illustration above). How could this be, if the climate system is as sensitive as the IPCC claims it to be?
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I was interested in the following two comments (my emphasis added):
…probably due to natural increases in cloud cover, mostly low clouds, causing internal radiative forcing of the system
I think this is quite an assumption.
and
what if these occur on the time scales associated with global warming (decades to centuries)?
Yes, what if? That is a good question that cannot be answered now nor can we wait a few centuries using our satellites to find out.
Here is a paper that can be freely downloaded titled:
Trends in Observed Cloudiness and Earth’s Radiation Budget
What Do We Not Know and What Do We Need to Know?
It is quite sobering because it shows how poorly we understand cloud trends and their impacts.
Oops, here is that link:
http://meteora.ucsd.edu/~jnorris/reprints/02_Norris%20and%20Slingo.pdf
jeez (01:51:48) :
Nasif Nahle
Another definition for enthalpy is ΔU = Cp (T2 – T1). It is the change of internal energy what we know as “enthalpy”; how could a variation be “dark”?
Perhaps this could help?
I don’t need classes of English 101, but straight answers to those questions. People who know me understand perfectly my English.
Nasif Nahle
While I tend to avoid citing wikipedia due to the inherent problems with political bias, in the hard physics world they can often be relatively accurate.
This should explain everything to you.
Otherwise, I can explain it to you, but I can’t understand it for you.
Further to Richard Mackey’s posting on the Saros Cycle, our local newspaper, the Telegraph-Journal, carried a long article on that very topic on Sept 26. I just went to the website of the paper for the article [http://telegraphjournal.canadaeast.com/front/article/804396} and was surprised to find an entirely different article! (It is worth a read, but the “missing” one has more information.) I believe that they transposed the article on the topic that was supposed to appear on Monday (28th). Anyone interested in the subject of the Saros Cycle, Saxby Gale, etc., should have a look at the “generic” website [http://telegraphjournal.canadaeast.com/] on Monday and see if the article that appeared in print on Saturday is posted on Monday.
IanM
OT, For those of you interested in the ongoing Chaitén Eruption, today provides a clear view: http://www.aipchile.cl/camara/detail.php?cameraID=116
Mr. Spencer,
I always look forward to posts from you. Thank you for this one.
Also, I remember your prediction of when public opinion of global warming could change : you said it might take cooler weather to change it since the science wasn’t. And you were right. The harsher winters in both the Northern and Southern Hemispheres of the last 2 to 3 years are making people have doubts about Al Gore’s global warming.
The Farmers Almanac (if it’s ok to refer to that) says this winter will be a harsh one too. So public opinion should continue in the same trend.
The science (the data) was what formed my viewpoint of global warming/climate change. You had an important part in that. That was because I did a search on my own ; “Seek and you will find.” I can only wish the general public would have done the same. AGW would be long gone if it had.
Thank you again Mr. Spencer. I will be looking forward to your next post here,
Gene Nemetz, a fellow Yooper.
Hey, Scott, why can’t we ‘wait a few centuries’ to understand the natural cycles. The knowledge will come when it does, not because of an exogenous need.
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Hey moderator, how did I know about Scott’s comment. Heh.
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I did something like that on ‘The Open Mind’ last year; it about drove Tamino nuts. Answer, Scott has published his question at Tom Fuller’s site already.
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Stephen…the ocean temperature lags the radiative forcing response to a natural cloud change, but as you said, that cloud change could have been initiated by the ocean itself.
If it was an ocean TEMPERATURE change that initiated a cloud change, then that is (by definition) FEEDBACK. In that case, the radiative change associated with the cloud change is seen concurrent with the ocean temperature change, which causes a straight line on the phase space plot.
But if it’s radiative forcing, not a direct or indirect result of an ocean temperature change, then the resulting temperature change has a 90 deg. phase lag with the forcing.
I would have never figured this out intuitively without running the simple forcing-feedback model and trying different kinds of forcings and feedbacks.
….that explanation was a little muddled:
The radiative response to an ocean temperature change (say, more clouds, less vapor, or whatever) is by definition FEEDBACK.
RADIATIVE FORCING is a radiative imbalance caused by anything other than an ocean temperature change, and the temperature response to it lags the radiative forcing by 90 degrees. It causes loops or spirals in phase space plots. The feedback in response to this temperature change can not be measured because it is drowned out by the radiative forcing.
NON-RADIATIVE FORCING is something like increased winds causing increased evaporation causing anomalous cooling….it leads to linear striations in phase space plots, the slope of which is the feedback parameter.
So, feedback can only be clearly seen in response to non-radiative forcing (e.g. evaporation or ocean upwelling driven temperature changes), not radiative forcing (e.g. cloud changes brought about through and processes not caused by a surface temperature change)
tallbloke (03:30:26) : “It’s doubly perplexing because according to ARGO data the oceans have been ’slightly cooling’ since 2003. If the energy from the oceans has been lost to the air, and the air hasn’t warmed up, it must be escaping to space. Yet the anomalies indicate no big increase in outgoing radiation.”
Look at the second to last figure.
tallbloke (03:49:08) : You know, I’ve been wondering about this myself, since it would be nice to see an apples to apples comparison with Lindzen’s ERBE analysis.
Roy, when might we expect your results to get published? It would be nice if you had some kind of bar on the webpage which tells us what stage you are at so we don’t need to keep asking. I get this idea because-big dork that I am-I read a lot of web comics, and many of them actually release print volumes etc. and anyway, the point is that they tell you when the scripts are written, when the line art is done, when the coloring is done, when the volumes are in print, shipping, etc.
You could have something that says what stage of publication your latest work is. In preparation, submitted, in review, undergoing revision (let’s hope that this isn’t continually necessary), Accepted for publication, and In Press.
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tallbloke (03:30:26) :
Could something else in/on the ocean be absorbing energy and sequestering it in a form not available as sensible heat?
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Yes, mixing w/cooler subsurface water. The “heat” is diluted and much of it no longer interacts w/the atmosphere (going below surface), but would show up in an “ocean heat” accounting.
Colder surface ocean water acts as a heat-sink, its effect depending on the amount & depth of mixing.
michel (23:47:49) :
When the history of this lamentable episode is written, Dr Spencer will have an honorable and prominent place in it.
For most of us, Dr Spencer has an honorable and prominent place in the present.
His work is where the Rubber meets the road in the climate change debate, if the GCMs reflected the reality that he is measuring the debate would be over and the socialists would have to find a different excuse to run the world.
Off track, but I couldn’t find anywhere esle to ask. What’s up with the DMI polar temp page. I get the dreaded 404 advisor.
Scratching my head over the 0.4 W/m^2 for increase in GHG forcing since 2000. For CO2 only, using 368 ppm in 2000 and 385 ppm in 2008, get
ln (385/368) x 3.7 w/m^2 for doubling/ ln 2 = 0.24 w/m^2, or about 1/4 of the total change in forcing.
Thanks for the comment. Things get curiouser and curiouser.
If it was actually clouds, then all those bloody high-flying airplanes must have something to do with it because they sure spoil a lot of nice days with their jet trails crossing blue skies and then growing into clouds which eventually cover the sky. Few true blue days anymore.
Scott A. Mandia (07:22:22) :
I was interested in the following two comments (my emphasis added):
…probably due to natural increases in cloud cover, mostly low clouds, causing internal radiative forcing of the system
I think this is quite an assumption.
I think that you will find that Dr. Spencer is fairly “up to speed” on the issues involved in the Earth’s radiation budget. When you become familiar with his work you will find that he is refreshing forthcoming about what is known and unknown.
and
what if these occur on the time scales associated with global warming (decades to centuries)?
Yes, what if? That is a good question that cannot be answered now nor can we wait a few centuries using our satellites to find out
Perhaps a visit to his web page, http://www.drroyspencer.com, would be educational. Dr. Spencer is the Science Team leader for the Advanced Microwave Scanning Radiometer flying on NASA’s Aqua satellite. The methodologies developed by Dr. Spencer and Dr. John Christy are the reason that we can measure global temperatures from space.
You are preaching to the Pope.
Leif Svalgaard (01:57:03) :
Mike McMillan (01:38:23) :
Of course, and the Moon is more important than the Sun…”
Can you provide us a link to the data?
Back in 1997, it was attributed to Pvt. Kozma Prutkov:
http://www.tos.org/oceanography/issues/issue_archive/issue_pdfs/10_3/10.3_munk_wunsch.pdf
Of course we know there is a discernible heating effect on the poles by the lunar reflected radiation:
http://www.agu.org/pubs/crossref/1997/96GL03702.shtml
Noblesse Oblige (10:33:49) :
http://www.esrl.noaa.gov/gmd/aggi/
forcing from all GHG’s change from 2000 to 2008 is 2.74-2.477=.263
Well, that doesn’t explain it. Golly, maybe something else? Global Brightening?
I’m still waiting for an answer on this question.
“How many PPM of H2O are there in the atmosphere at any given time? What is the history?”
I would also like to know; At what levels of the atmosphere does CO2 and H2O occupy?
Surely there is at least one scientist out there who can answer these questions.
beng (09:55:21) :
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tallbloke (03:30:26) :
Could something else in/on the ocean be absorbing energy and sequestering it in a form not available as sensible heat?
*******
Yes, mixing w/cooler subsurface water. The “heat” is diluted and much of it no longer interacts w/the atmosphere (going below surface), but would show up in an “ocean heat” accounting.
My point was that it isn’t showing up in the ocean heat accounting. ARGO measures Ocean Heat Content to a depth of 700m, and shows a ‘slight cooling’ since 2003 according to data custodian Josh WIllis. It shows a steeper cooling according to researcher Craig Loehle.
Colder surface ocean water acts as a heat-sink, its effect depending on the amount & depth of mixing.
Not too sure what you mean by this. By and large, much more heat goes from the ocean into the air above it’s surface than is conducted into it. Solar radiation penetrates the sea to a depth of several tens of metres and the energy transferred makes it’s way back out of the ocean as long wave radiation plus evaporation plus night time convection/conduction. Long wave radiation in the atmosphere can’t penetrate the ocean surface, and the opportunity for warmer air to conduct heat to a cooler ocean surface is limited.
The path of energy cycling through the Earth system is mostly Sun -> Ocean -> air -> space
As is often the case – the Land of the Long White Cloud (Aotearoa) doesn’t even feature on the image above. Why are we always just around the corner? 🙂
From an Auckland covered in grey clouds…
timetochooseagain (11:25:13) :
“Golly, maybe something else? Global Brightening?”
Not likely. Aerosols emissions should have increased over this period, presumably reducing overall forcing.
“Roy Spencer (09:21:53) :
Stephen…the ocean temperature lags the radiative forcing response to a natural cloud change, but as you said, that cloud change could have been initiated by the ocean itself.”
Thanks Roy. We are still on the same wavelength.