[I’m making this excellent essay a top sticky post for a day or two, I urge sharing it far and wide. New stories will appear below this one. – Anthony]
Guest Post by Willis Eschenbach
Dr. Kevin Trenberth is a mainstream climate scientist, best known for inadvertently telling the world the truth about the parlous state of climate science itself. In the Climategate emails published in 2009, it was revealed that in private he had said:
The fact is that we can’t account for the lack of warming at the moment and it is a travesty that we can’t.
This from a spokesman for the folks who have been telling us for years that the science is settled …
However, the problem seems to be solved. Kevin Trenberth, Distinguished Senior Scientist, (as he is described on his web page) has emailed Joe Romm, Distinguished Senior Climate Alarmist, about the status of Dr. Trenberth’s tireless quest to find the missing heat, stating (emphasis in Romm’s post):
“We can confidently say that the risk of drought and heat waves has gone up and the odds of a hot spot somewhere on the planet have increased but the hotspot moves around and the location is not very predictable. This year perhaps it is East Asia: China, or earlier Siberia? It has been much wetter and cooler in the US (except for SW), whereas last year the hot spot was the US. Earlier this year it was Australia (Tasmania etc) in January (southern summer). We can name spots for all summers going back quite a few years: Australia in 2009, the Russian heat wave in 2010, Texas in 2011, etc.”
I’ll return to the serious question of Dr. Trenberth’s missing heat in a moment. But first, let’s consider Dr. Trenberth’ statement, starting with the section highlighted in bold in Joe’s post, viz:
“We can confidently say that the risk of drought and heat waves has gone up and the odds of a hot spot somewhere on the planet have increased but the hotspot moves around and the location is not very predictable.”
That single sentence contains all the required elements of a good novel—unpredictability, increasing risks, a dangerous moving “hotspot”, confident experts, a planet in peril … all the stuff that goes into an exciting story, it’s perfect for a direct-to-DVD movie.
The only problem with Dr. Trenberth’s statement is that like all novels, it’s fiction. To start with, Dr. Trenberth is very careful not to claim that droughts and heat waves and “hotspots” have actually increased. Did you notice that? You need to watch statements about climate very closely. He didn’t say that the number of droughts or heat waves have gone up. That’s a falsifiable statement, and one which is decidedly not true, so he prudently avoided that pitfall. The IPCC itself has said that we have no evidence of any increases in drought, in heat waves, or in any other climate extremes, despite a couple of centuries involving a couple of degrees of warming. But then, Dr. Trenberth didn’t say droughts or heat waves have gone up, did he?
He said the risk of droughts and heat waves has gone up. He said the “odds of a hot spot somewhere on the planet” have gone up. Presumably, this deep knowledge of the probability of future climate catastrophes has been vouchsafed to Dr. Trenberth by means of the climate models … the same climate models that are part of the “travesty” because they can’t account for the missing heat. He’s citing risks and odds based on climate models that were unable to forecast the current hiatus in warming which has gone on for fifteen years or so now, despite continuing increases in CO2 and methane and black carbon and the like …
The part that I particularly enjoyed is the foreboding, menacing quality of his claim that there is now some roving “hotspot”, whose location “moves around” and “is not very predictable”. Dang, what if the dreaded “hotspot” comes to my town? Does he mean we might be faced with the much-feared phenomenon known locally as “a really hot summer”. We know those summers, when bad things happen, like the time when Jimmy Fugate punched out the eleventh guy, by Jimmy’s actual count, who had said “Hot enough for ya?” to him on that fateful August day … but although I digress, we know the danger is real, because as Dr. Trenberth warns us, the hot spot is on the move, viz:
It has been much wetter and cooler in the US (except for SW), whereas last year the hot spot was the US. Earlier this year it was Australia (Tasmania etc) in January (southern summer). We can name [hot]spots for all summers going back quite a few years …
I gotta admit, this is stunning news. Dr. Trenberth is giving us inside climate information, full of extra scientificity, that every summer some places are extra-hot, while you’d be amazed to find out, other locations have extra-cool summers. We’re in one of the latter where I live. Around here, this has been one of the coolest summers in recent years.
So following in Dr. Trenberth’s trail-blazing footsteps, here’s my new climate theory. It revolves around the dreaded “coldspot”. You may be shocked when I tell you that every summer there’s a “coldspot” somewhere in the world, a place where the summer is much colder than usual. Last year the coldspot was Russia. This year it has moved to Northern California where I live. Here’s what makes coldspots so dangerous, as highlighted by Dr. Trenberth. The coldspot “moves around and the location is not very predictable” … so you should be very afraid, because science.
I mean … are we supposed to take this talk of “moving hotspots” seriously? Is this how desperate the alarmists are getting?
Joe Romm’s quote of Dr. Trenberth closes with this suitably ominous line, which I assume is preparing us for the sequel …
Similarly with risk of high rains and floods: They are occurring but the location moves.
Ahhh, Dr. Trenberth is referring to the dreaded “wetspot”, and he doesn’t mean the one the baby leaves on your shoulder. Did you know that every year during the rainy season there’s a “wetspot” somewhere in the world, a place where it rains more than usual? And did you know the wetspot moves around the world and the location is not very predictable? There’s no end to the insights available in Dr. Trenberth’s concepts …
I have to say, I find Dr. Trenberth’s claims both very depressing and very encouraging. They’re depressing because they are a million miles from science. It’s just a frightening tale for children around the campfire, about how the risks of bad things are rising, and it’s worse than we thought.
But it’s encouraging, because when the intellectual leaders of the climate alarmism movement sink to peddling those kinds of scare stories, it’s a clear indication that they’re way short of actual scientific arguments to back up their inchoate fears of Thermageddon.
In any case, let me move on to the more serious topic I mentioned above, regarding Dr. Trenberth’s infamous “missing heat”. Let me suggest where some of it is going. It’s going back out to space.
One of the main thermal controls on the planet’s heat balance is the relationship between surface temperature on one hand, and the time of day of cumulus and cumulonimbus formation in the tropics. On days when the surface is warmer, clouds form earlier in the day. The opposite is true when the surface is cooler, clouds form later. This control operates on an hourly basis. I’ve shown how this affects the daily evolution of tropical temperature here and here using the TAO moored buoy data. Here’s a bit of what I demonstrated in those posts. Figure 2, from the second citation, shows how cold mornings and warm mornings affect the evolution of the temperature of the ensuing day.
Figure 2. Average of all TAO buoy records (heavy black line), as well as averages of the same data divided into days when dawn is warmer than average (heavy red line), and days when dawn is cooler than average (heavy blue line) for each buoy. Light straight lines show the difference between the previous and the following 1:00 AM temperatures.
The control of the surface temperature is exerted in two main ways: 1) in the morning, cumulus cloud formation reduces incoming solar radiation by reflecting it back to space, and 2) in the afternoon, thunderstorms both increase cloud coverage and remove energy from the surface and transport it to the upper troposphere. We can see both of these going on in the average temperatures above.
The black line in Figure 2 shows the average day’s cycle. The onset of cumulus is complete by about 10:00. The afternoon is warmer than the morning. As you would expect with an average, the 1 AM temperatures are equal (thin black line).
The days when the dawn is warmer than average for each buoy (red line) show a different pattern. There is less cooling from 1AM to dawn. Cumulus development is stronger when it occurs, driving the temperature down further than on average. In addition, afternoon thunderstorms not only keep the afternoon temperatures down, they also drive evening and night cooling. As a result, when the day is warmer at dawn, the following morning is cooler.
In general, the reverse occurs on the cooler days (blue line). Cooling from 1 AM until dawn is strong. Warming is equally strong. Morning cumulus formation is weak, as is the afternoon thunderstorm foundation. As a result, when the dawn is cooler, temperatures continue to climb during the day, and the following 1AM is warmer than the preceding 1 AM.
Regarding the reduction in incoming solar energy, in a succeeding post called “Cloud Radiation Forcing in the TAO Dataset“, I provided measurements of the difference between the shortwave and longwave radiation effects of tropical clouds, based on the same TAO buoy data. The measurements showed that around noon, when cumulus usually form, the net effect of cloud cover (longwave minus shortwave) was a reduction of half a kilowatt per square metre in net downwelling radiative energy.
In addition to that reduction in downwelling radiation, there is another longer-term effect. This is that we lose not only the direct energy of the solar radiation, but also the subsequent “greenhouse radiation” resulting from the solar radiation. In the TAO buoy dataset, the 24/7 average downwelling solar radiation reaching the surface is about 250 W/m2. Via the poorly-named “greenhouse effect” this results in a 24/7 average downwelling longwave radiation of about 420 w/m2. So for every ten W/m2 of solar we lose through reflection to space, we also lose an additional seventeen W/m2 of the resulting longwave radiation.
This means that if the tropical clouds form one hour earlier or later on average, that reduces or increases net downwelling radiation by about 50 W/m2 on a 24/7 basis. This 100 W/m2 swing in incoming energy, based solely on a ± one-hour variation in tropical cloud onset time, exercises a very strong daily control on the total amount of energy entering the planetary system. This is because most of the sun’s energy enters the climate system in the tropics. As one example, if the tropical clouds form on average at five minutes before eleven AM instead of right at eleven AM, that is a swing of 4 W/m2 on a 24/7 basis, enough to offset the tropical effects of a doubling of CO2 …
Not only that, but the control system is virtually invisible, in that there are few long-term minute-by-minute records of daily cloud onset times. Who would notice a change of half an hour in the average time of cumulus formation? It is only the advent of modern nearly constant recording of variables like downwelling long and shortwave radiation that has let me demonstrate the effect of the cloud onset on tropical temperatures using the TAO buoy dataset.
While writing this here on a cold and foggy night, I realized that I had the data to add greatly to my understanding of this question. Remember that I have made a curious claim. This is that in the tropics, as the day gets warmer, the albedo increases. This means that we should find the same thing on a monthly basis—warmer months should result in a greater albedo, there should be a positive correlation between temperature and albedo. This is in contrast to our usual concept of albedo. We usually think of causation going the other way, of increasing albedo causing a decrease in temperature. This is the basis of the feedback from reduced snow and ice. The warmer it gets, the less the snow and ice albedo. This is a negative correlation between albedo and temperature, albedo going down with increasing temperature. So my theory was that unlike at the poles, in the tropics the albedo should be positively correlated with the temperature. However, I’d never thought of a way to actually demonstrate the strength of that relationship at a global level.
So I took a break from writing to look at the correlation of surface temperature and albedo in the CERES satellite dataset. Here’s that result, hot off of the presses this very evening, science at its most raw:
Figure 3. Correlation between albedo and temperature, as shown by the CERES dataset. Underlying data sources and discussion are here.
Gotta confess, I do love results like that. That is a complete confirmation of my claim that in the tropics, as the temperature increases, the albedo increases. Lots of interesting detail there as well … fascinating.
My conclusion is that Dr. Trenberth’s infamous “missing heat” is missing because it never entered the system. It was reflected away by a slight increase in the average albedo, likely caused by a slight change in the cloud onset time or thickness.
My regards to everyone,
w.
Maybe we should call it “dark heat”, similar to dark matter. Our instruments don’t see it, but AGW theory says it’s supposed to be there. So observations-be-damned, we’re going to pretend it’s there.
Eureka!! I’ve found it!! The MISSING HOTSPOT!! It’s painted squarely on the middle of Trenberth’s back!! No wonder he can’t find it! A dog never catches its tail when chasing it.
jones says:
August 21, 2013 at 5:21 am
I’m extremely worried that with all these hotspots and coldspots that we are going to have an awful lot of tepidspots and all the catastrophe that might entail.
Anyone want to lay odds?
Global Tepidity is my greatest fear. Children won’t know what a good cup of tea is.
So the hotspot “moves around and the location is not very predictable,” like a cockroach in a kitchen? Does it leave its ‘footprints’ on the thermometers?
Another reality disconnect: heat waves and drought are very different. Drought comes mostly from atmospheric cooling and drying, not heat.
A Forest Gump misquote is in order here:
“We been through every kind of heat there is. Little bitty stinging heat, and big old FAT heat, heat that flew in sideways, and sometimes the heat seemed to come straight up from underneath. Shoot, it was even hot at night.”
http://youtu.be/s3eLJdb2ZN4
richardscourtney says:
August 21, 2013 at 9:27 am
Leonard Lane:
Re your post at August 21, 2013 at 9:00 am
http://wattsupwiththat.com/2013/08/21/stalking-the-rogue-hotspot/#comment-1396196
in response to the points from johnmarshall.
As you imply, the climate models don’t have the faults he suggests.
———————
Thank you Richard, it does help.
Weather vs climate
RACookPE1978 says:
August 21, 2013 at 8:11 am
Pamela Gray says:
August 21, 2013 at 7:37 am
… I can’t even type wetspot names. Even my fingers are laughing!
“The wetspot always lies about the other side of the bad.”
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I think “bed” is simply misspelled.
BTW, Trenberths hotspot reminds me of UCS’s Brenda Ekwurzel’s Turbocharged Weather Patterns.
New York. 2011 – how Global Warming is causing more snow
August 21, 2013 at 4:44 am
It’d be nice if this was broken into two seperate posts.
I’d like to share the part about the missing heat, but no one I know wants to sit through talk about rhetoric.
How dare you diss “mainstream” Climate Science! It’s rhetoric is its “science”. The farther away its rhetoric is from reality and science, the better! Aka, the Ivory Tower in very high orbit, maybe even unprecedented! NOAA has already erected some kind of post-modern/post-normal science fetish to it, the” Four Pillars of Climate Science,” while the rest of us only need take some LSD.
Clinton. Parse anything he [or she] says very carefully.
Obama. dittto
Trenbirth: sadly, ditto.
Mann: fuhgedaboudit!
“mkelly says:
August 21, 2013 at 7:35 am
Greg says:
August 21, 2013 at 3:53 am
I wonder what is driving this devilish hot spot around the planet. Giant bubbles of CO2, no doubt.
Now I know what went after Number 6 and others whenever they left the village. The bubbles that chased them were giant bubbles of CO2.”
_______________
Am I the only one that caught mkelly’s reference to the classic show “The Prisoner”? Come to think of it, there are many characters in the show that remind me of certain personalities in the climate debate. Perhaps we can cast Willis in the roll of Number 6. Funny how the warmist crowd always seem to be trying to keep folks in the village of AAGW Doctrine.
Craig says:
August 21, 2013 at 6:04 am
STUDY: Climate change causing climate models to become less reliable
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Absolutely brilliant Craig…..LMAO
I heard there is a hot spot in southern Somalia or was it in Egypt? Better go check it out.
So funny, thank you Willis
Gosh Eric Worrall, could you be any meaner? For no apparent reason?
Also funny Bruce Cobb:
Ken Hall,
You mean Nessie?
and Stephen Wilde :
I keep laughing anew–this is all so hilarious.
And funniest of all. Gary says:
Walter Dnes says:
August 21, 2013 at 11:19 am
Maybe we should call it “dark heat”, similar to dark matter. Our instruments don’t see it, but AGW theory says it’s supposed to be there. So observations-be-damned, we’re going to pretend it’s there.
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It’s worse than we thought. The missing dark heat is actually cool heat. Unprecedented!
And the dark energy is anti-energy.
What do the tree rings say? C’mon all you dendrospotometrists… there’s PAPERS to publish!
Day By Day says:
August 21, 2013 at 1:13 pm
So, Richard Muller’s BEST is now Spotted Dick Pudding?
Willis your reasoning makes sense as far as it goes, but when the tropics have had La Nina Periods in the past there was still no evidence of even a hint of a tropical hotspot..
I predict if the tropics cool going forward due to greater La Nina activity going forward that the hot spot will still be missing in action.
Meanwhile relative humidities keep falling at all levels of the atmosphere over the past many years further showing a lack of a positive feedback between co2 and water vapor.
Willis is also admitting that cloud coverage acts as a cooling agent overall in stark contrast to what the global warming models predict.
I agree with that Willis.
While the levity is interesting – I thought I would see why a hotspot was thought to exist. So I went to the fount of all knowledge on that SKS:
“The tropospheric hot spot is due to changes in the lapse rate (Bengtsson 2009, Trenberth 2006, Ramaswamy 2006). As you get higher into the atmosphere, it gets colder. The rate of cooling is called the lapse rate. When the air cools enough for water vapor to condense, latent heat is released. The more moisture in the air, the more heat is released. As it’s more moist in the tropics, the air cools at a slower rate compared to the poles. For example, it cools at around 4°C per kilometre at the equator but a much larger 8 to 9°C per kilometre at the subtropics.
When the surface warms, there’s more evaporation and more moisture in the air. This decreases the lapse rate – there’s less cooling aloft. This means warming aloft is greater than warming at the surface. This amplified trend is the hot spot. It’s all to do with changes in the lapse rate, regardless of what’s causing the warming. If the warming was caused by a brightening sun or reduced sulphate pollution, you’d still see a hot spot. “
http://www.skepticalscience.com/What-causes-the-tropospheric-hot-spot.html
(my bolding)
I have no way of knowing if the explanation above has been slavishly transcribed into code in the various GCMs, but I think I can see an error in the logic of the explanation that would explain a missing hot spot.
Humid air has higher enthalpy than dry air as the water molecules hold heat until state change condensing or freezing. There is no doubt that water changing state from vapor to liquid on condensation then from liquid to ice on freezing releases latent heat. If you look at the GOES satellite imagery the outgoing infrared can be seen – see http://www.ssd.noaa.gov/goes/east/natl/flash-rb.html
Note that the infrared is from latent heat of state change and therefore is temperature independent thus not subject to Stefan Boltzmann’s equations.
The assumption made in the SKS description above is that this ‘warms’ the atmosphere. However, what is released is Electro Magnetic Radiation (EMR). EMR of itself has no ‘temperature’ it needs to be incident on and absorbed by a gas molecule that is sensitive to that particular frequency of radiation to ‘raise its temperature’ i.e. increase the molecule’s kinetic energy. Well we can see some EMR on the satellite imagery so a fair amount is directly radiating to space. The EMR travels in all directions. The non-radiative gases Oxygen and Nitrogen will not be affected they are transparent to the long wave EMR. Carbon Dioxide may scatter some of the long wave EMR in one of three very narrow bands but at height in the tropopause there is little carbon dioxide to scatter the infrared anyway. Those few Carbon Dioxide molecules that do absorb the EMR and which collide with an Oxygen or Nitrogen molecule before re-emitting the energy may raise the kinetic energy of the molecule they collide with – raising the temperature of the atmosphere at that point. However, what is guaranteed to absorb the EMR will be water molecules close to the radiating molecule as it changes state and radiates the EMR. Those water molecules are likely also about to change state or have changed state on cooling; receiving another EMR photon may delay its change of state or reverse its change of state. BUT it will not raise the temperature of the water molecules. That is It will increase the molecule’s energy content rather than the molecule’s kinetic energy.
So there is more energy in the high level tropical troposphere – but it is held by the water molecules not changing state as rapidly not as a ‘hot spot’ with higher temperature i.e. gas molecules with higher kinetic energy. When these water molecules do eventually change state condensing or freezing the EMR mainly escapes to space.
Climate ‘science’ lax use of terms may have led to this, as heat radiation is not equivalent to temperature; carbon dioxide and water vapor are both called ‘green house gases’ but their behavior is fundamentally different.
Am I down a rat-hole – or does that explain the lack of a ‘hot’ spot.
Well, Jupiter has its Hot Spot the Earth needs one too. It is not the hot spot forecasted by the models but it should do, the running Hot Spot.
Maybe it is running to catch the Cold Spot?
Thanks Willis for the good laugh!
Craig: funniest satire I’ve read in a long time. Brilliant. Thank you.
So, what Dr Trenbeth is saying is that during the summer months some part of the globe will have a drought/ heat wave conditions? That is, some part of the globe will be very hot and very dry? Could it be that his “roaming hotspot” is nothing more than seasonal variations determined by synoptic level oscillations in our atmosphere? That is, this magical hot spot is in fact a normal atmospheric condition known as summer? I bet there is an +80% chance of some location on the globe going through a drought/heat wave at any given time. Sheesh.
Ian W:
Re your post at August 21, 2013 at 1:36 pm
http://wattsupwiththat.com/2013/08/21/stalking-the-rogue-hotspot/#comment-1396416
Sorry, but the SkS explanation you quote is plain wrong.
Indeed, if it were right that
then the absence of the Hot Spot would be clear evidence that THERE HAS BEEN NO GLOBAL WARMING FROM ANY CAUSE since 1958 when measurements began.
The true reason for the tropospheric Hot Spot is Water Vapour Feedback (WVF).
Please read my above post at
http://wattsupwiththat.com/2013/08/21/stalking-the-rogue-hotspot/#comment-1395986
and read its link to the pertinent IPCC text for a proper explanation of the Hot Spot.
The absence of the Hot Spot indicates that the WVF is so small as to have no discernible effect. Hence, anthropogenic (i.e. man-made) global warming (AGW) is too small for it to be discernible.
Your explanation of the absence of the Hot Spot is wrong because it is based on information from SkS which is wrong. But you could do worse than going to SkS when researching AGW by going to RC.
Richard