[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.
“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.”
Something that the Silver Lining Project should take not of.
Something that the Silver Lining Project should take note of.
LOL Willis you really shouldn’t mix good science with bad. I hope there is a follow on essay on your cloud theory.
v/r,
David Riser
Willis Eschenbach says:
August 21, 2013 at 9:33 am
Chris Schoneveld says:
August 21, 2013 at 4:02 am
Willis, could you explain this: ” the net effect of cloud cover (longwave minus shortwave)”?
Sure, but it’s better explained the the citation. Clouds affect the shortwave (solar radiation), they decrease it. They also affect the longwave radiation, but that, they increase. So their net effect is the difference in the absolute values of those two effects
==================================================
I would like to add that the “net” affect should not be related just on a direct comparison, of watts per sq M. The residence time, of the energies involved must be calculated. It is clear that the residence time of SWR in the tropics penetrating the ocean surface is imense compared to LWIR.
Therefore the SWR entering the ocean may still be there for a very long time (potentially decades) where as the LWIR is rapidly escorted back to the atmosphere. In such an example 1/10th the W/M2 SWR may, OVER TIME, add far more heat to the earth then a ten fold larger W/M2 increase in LWIR, if that is daily exited from the planet.
(The short version, “Tomorrows SWR may well be additive totodays, and the day before, whereas tomorrows LWIR will be gone tomorrow.”
Oh, and I found the missing hot spot… http://www.google.com/imgres?q=dogs+with+hot+spots&sa=X&rlz=1T4TSHB_en___US337&biw=853&bih=441&tbm=isch&tbnid=Hftj-5SHxNcvUM:&imgrefurl=http://www.peteducation.com/article.cfm%3Fc%3D2%2B2111%26aid%3D447&docid=1hMFl6Mwu_zKSM&imgurl=http://www.peteducation.com/images/articles/hotspots.jpg&w=146&h=132&ei=LOYVUubPE4KsjALLuYGYBA&zoom=1&ved=1t:3588,r:33,s:0,i:188&iact=rc&page=4&tbnh=105&tbnw=116&start=30&ndsp=12&tx=75&ty=29
Funny stuff. Thank you Willis and everyone. After all their years of well-funded scientific research, the UN, the Nobel Peace Prize … a tiny mouse’s squeak of fear. We need the late Terry-Thomas to conduct an interview; I’ll give it a try.
Dr. T: The future is hard to predict.
Me: Thank you Dr. T for that acute observation. I know we can all learn a great deal from someone of your … credentials. But just one thing: the so-called skeptics are pointing out that your observations have gone downhill over the years, and now you seem a bit less acute than any blowhard in any bar.
Dr. T: The so-called skeptics are deniers. They don’t recognize the truth of the consensus.
Me: But you’ve always had these outbursts of honesty where you admit that the consensus isn’t particularly persuasive, and now there seems to be nothing but a vague fear that something bad might happen.
Dr. T: You don’t seem to recognize the significance … IPCC … hmph hmph … alphabet soup of scientific credentials and, er, journalistic credentials and, er, quite a few bachelor’s degrees in something or other.
Me: But what has actually been learned from all this?
Dr. T: We apply our huge intelligence, our acute judgment, and our scientific understanding in order to constantly refine our conclusions so we can tell the world what the consensus is.
Me: The future is hard to predict?
Dr. T: Not just that. Many years ago, in our first massive tome, we said the future is hard to predict. The media swooned over our insight. A few years later, we said the future is very very hard to predict, and we had a lot of bogus hockey stick graphs. In the report that is about to come out, we say the future is triple hard to predict. The blowhard in the bar is correct, but unlike us with our superb training and insight, he doesn’t know just how correct he is.
Well written, well explained, thank you for writing in a way that opens up the science for us non scientists to understand. In the end it is mostly common sense.
Which brings one to the main point of this article, at what point does a man like Trenberth admit that what he is saying has no common sense? We all know we can see patterns in anything because the mind is designed to pick out patterns, and statistics can be used to prove anything, but at some point integrity has to kick in.
Belief has a role in science, it guides you towards targets which can be tested and falsified, but there comes a point where you have re-engage with those believes and change direction, surely Trenberth has reached such a moment. Or does he have no integrity?
One feels that Climate science has reached a point where the advocates have to choose between admiting they are on the wrong side of the debate, or lose their reputations as scientists of integrity. It is not good enough to clutch at straws.
Love the preview mode! Now can we have a spelling checker?
I’ve reproduced the second part of this post here to share with friend. Let me know if this isn’t okay.
http://cumulativemodel.blogspot.com/2013/08/warm-weather-increases-albedo-in-key.html
Let’s cut to the chase, no matter what is happening in climate, if it’s hot or cold, dry or wet, whenever, wherever, it is due to anthropogenic global warming…so saith the vainglorious overlords,,,
“Dr. Trenberth’s claims both very depressing and very encouraging. ” It’s also encouraging that he claims the key “proof” for AGW is sea levels. If that’s the best he can come up with, the IPCC is clearly lost at sea.
on the face of it Figure 3 seems to indicate that there is overall greater negative correlation (based on surface area) but does anyone know what the relative heat energy levels are given that the tropics receive proportionally far more solar insolation than other latitudes?
Willis, I’ve re-read this brilliant piece of very concentrated science and I’m blown away with its elegance and simplicity. Following your stuff is like eavesdropping on the birth of climate science. How can card-carrying climate scientists stand to be in the wings also only eavesdropping on the birth of what is supposed to be their child. It was good narrative to begin with the desperate, bankrupt, disoriented extinguished “Senior Scientist”, but I fear many of your readers were a bit blinded by mirth and seem to have missed out on something very big in this post.
From your insights over many posts I’ve come to the idea that when there is a lack of fundamental understanding of phenomena, we appeal to chaos theory to ease the stress of not grasping the nub of the science – it must be chaotic. Man, climate is becoming more and more deterministic as your probing continues. Why already, I think we can predict that if on August 20th, 2050, equatorial ocean water will reach a maximum temperature of 31C, it will be a very cloudy and rainy afternoon and if its much cooler than that, it will be a bright sunny day! How good is that?
I have met a beautyspot down at Venice Beach, which turned my hotspot into a wetspot…
Pamela Gray: Dinner with you would be a hoot.
Chris R: Your grant application should be sent to Eliot Spitzer. (A NY joke- in every sense of the word!)
Rattus, Rattus, wherever you are, I was looking for a balancing argument. There being none, to quote Charlie Brown, “Rats!”
These glorified weathermen just said they can’t predict the weather………
Willis,
Your excellent essay/lecture seems to have lost out on much of the serious discussion it deserved in the comments.
You brought up the clown and the class erupted in laughter (me too). The thread took its own course. I hope you can find the opportunity to bring it up again, perhaps with the thermostat hypothesis and related links, for more discussion.
Now is that hot/wet spot located somewhere between a hard spot and a sweet spot?
I’m unconvinced on the hotspot theory, but I’m living in one of this year’s wetspots in Western North Carolina. Every time I drive past NOAA’s National Climate Data Center, I imagine them crouched over a huge bank of monitors, trying to locate the antipodean dryspot. Most people don’t realize that for every wetspot there is a paired dryspot somewhere on the opposite side of the world.
.
From Trenberth…
“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.”
Two points:
(1) Does Trenberth really talk like this?? He has a very incoherent style of explaining anything, especially science (and this is not the first example where I have observed this).
(2) So the people who have spent enormous amounts of U.S. tax dollars on climate modeling research (at NCAR) can’t predict where this mythical “hot spot” will be NEXT YEAR?? This is incredible! They are making climate predictions as far out as 100 years, and yet they have NO way of predicting regional climate NEXT YEAR?? So this begs the question: is the “hot spot” a random weather phenomenon or a (unpredictable) climate feature?
“Craig says:
August 21, 2013 at 6:04 am
STUDY: Climate change causing climate models to become less reliable”
Hilarious stuff.
________________________________________
Agreed! This should be a post.
Should add: “As greehouse gas concentrations and global average temperatures increase, temperatures fall further and futher outside of projections. Just a small amount of warming over the recent half-century has caused temperatures to fall far outside of expectations, and it’s getting worse. The high temperatures which have persisted the past two decades have caused temperatures to fall further outside confidence ranges than earlier years, despite almost no measurable warming.”
Excellent post indeed, Willis! And very funny!
You know I don’t agree with you on the DLR issue, but that is of trivial importance here. Thanks for the TAO and CERES data and analysis. Very enlightening!
“Hotspotting” – with Ewan McGregor, Kevin Trenberth, James Hansen.
Soon in a cinema near you.
/sarc
I keep waiting for Trenberth to break out in song and sing, “Yes we have trouble. Right here in River City. With a capital T that stands Temperature hotspots somewhere. Yes we’ve got trouble….
Tornado chasers soon to be replaced with hotspot chasers. Not to be outdone by the competition, we will soon see entire caravans and their sequal movies for wetspots, dryspots, windspots, snowspots, hailspots, coldspots, tepidspots (loved that one) and the far more elusive -as in children will not know what it is- perfectspot. And there you have it folks. The next horrible climate change outcome. A reduction -nay- extinction, of the perfectspot.
I made the following comment at Climate ‘&’ but it did not get much feedback. I’ll try it here.
A focus on the physical domain in order to avoid discussions of mathematical modeling with the continuous equations, the discrete approximations to these, numerical solution methods used for solution of the discrete approximations, coding of all aspects of the models and methods, and application procedures and users.
The following are well-established.
1. Gaseous CO2, and the gaseous phase of H2O, both are interactive media with respect to radiative energy transport in the wavelengths of interest to the earth’s climate system.
2. The earth’s climate system is an open system relative to radiative energy transport: the systems can both gain and reject radiative energy. Some portion of the planet is rejecting energy out of the earth’s climate system for some portion of every day.
3. The earth’s climate system has never been in the past, is not now in the present, and will never be in the future in thermodynamic equilibrium. In particular, radiative energy transport at the top of the atmosphere has never been in exact balance between the incoming and outgoing energy. Thermodynamic equilibrium between components within the climate system is an impossibility.
4. The liquid phase of water, and, to lesser extent, the solid phase, and various other radiatively interactive solid particulate matter are present in the earth’s atmosphere. Some of the non-gaseous matter in the atmosphere reflect a portion of the incoming radiative energy back out of the earth’s climate system.
5. Relative to the postulated energy imbalance assigned to increases in CO2 concentration, convective transport of energy into the atmosphere from the surface and energy transport / exchange issues associated with the phase changes of water are not minor.
Disregarding any and all possible effects due to human activities other than addition of CO2 into the earth’s climate system, on what basis is it known with absolute certainty that the energy content of the earth’s climate system shall increase over time as the concentration of CO2 increases? That is, what aspect(s) of the earth’s climate system ensures with certainty that over time the energy content of the system must remain above the level associated with a previous state having lower CO2 content.
Corrections of incorrectos will be appreciated.