From the Massachusetts Institute of Technology
The missing piece of the climate puzzle
In classrooms and everyday conversation, explanations of global warming hinge on the greenhouse gas effect. In short, climate depends on the balance between two different kinds of radiation: The Earth absorbs incoming visible light from the sun, called “shortwave radiation,” and emits infrared light, or “longwave radiation,” into space.
Upsetting that energy balance are rising levels of greenhouse gases, such as carbon dioxide (CO2), that increasingly absorb some of the outgoing longwave radiation and trap it in the atmosphere. Energy accumulates in the climate system, and warming occurs. But in a paper out this week in the Proceedings of the National Academy of Sciences, MIT researchers show that this canonical view of global warming is only half the story.
In computer modeling of Earth’s climate under elevating CO2 concentrations, the greenhouse gas effect does indeed lead to global warming. Yet something puzzling happens: While one would expect the longwave radiation that escapes into space to decline with increasing CO2, the amount actually begins to rise. At the same time, the atmosphere absorbs more and more incoming solar radiation; it’s this enhanced shortwave absorption that ultimately sustains global warming.
“The finding was a curiosity, conflicting with the basic understanding of global warming,” says lead author Aaron Donohoe, a former MIT postdoc who is now a research associate at the University of Washington’s Applied Physics Laboratory. “It made us think that there must be something really weird going in the models in the years after CO2 was added. We wanted to resolve the paradox that climate models show warming via enhanced shortwave radiation, not decreased longwave radiation.”
Donohoe, along with MIT postdoc Kyle Armour and others at Washington, spent many a late night throwing out guesses as to why climate models generate this illogical finding before realizing that it makes perfect sense — but for reasons no one had clarified and laid down in the literature.
They found the answer by drawing on both computer simulations and a simple energy-balance model. As longwave radiation gets trapped by CO2, the Earth starts to warm, impacting various parts of the climate system. Sea ice and snow cover melt, turning brilliant white reflectors of sunlight into darker spots. The atmosphere grows moister because warmer air can hold more water vapor, which absorbs more shortwave radiation. Both of these feedbacks lessen the amount of shortwave radiation that bounces back into space, and the planet warms rapidly at the surface.
Meanwhile, like any physical body experiencing warming, Earth sheds longwave radiation more effectively, canceling out the longwave-trapping effects of CO2. However, a darker Earth now absorbs more sunlight, tipping the scales to net warming from shortwave radiation.
“So there are two types of radiation important to climate, and one of them gets affected by CO2, but it’s the other one that’s directly driving global warming — that’s the surprising thing,”
…says Armour, who is a postdoc in MIT’s Department of Earth, Atmospheric and Planetary Sciences.
Out in the real world, aerosols in air pollution act to reflect a lot of sunlight, and so Earth has not experienced as much warming from shortwave solar radiation as it otherwise might have. But the authors calculate that enough warming will have occurred by midcentury to switch the main driver of global warming to increased solar radiation absorption.
The paper is not challenging the physics of climate models; its value lies in helping the community interpret their output. “While this study does not change our understanding of the fundamentals of global warming, it is always useful to have simpler models that help us understand why our more comprehensive climate models sometimes behave in superficially counterintuitive ways,” says Isaac Held, a senior scientist at NOAA’s Geophysical Fluid Dynamics Laboratory who was not involved in this research.
One way the study can be useful is in guiding what researchers look for in satellite observations of Earth’s radiation budget, as they track anthropogenic climate change in the decades to come. “I think the default assumption would be to see the outgoing longwave radiation decrease as greenhouse gases rise, but that’s probably not going to happen,” Donohoe says. “We would actually see the absorption of shortwave radiation increase. Will we actually ever see the longwave trapping effects of CO2 in future observations? I think the answer is probably no.”
The study sorts out another tricky climate-modeling issue — namely, the substantial disagreement between different models in when shortwave radiation takes over the heavy lifting in global warming. The authors demonstrate that the source of the differences lies in the way in which a model represents changes in cloud cover with global warming, another big factor in how well Earth can reflect shortwave solar energy.
###
The paper: http://www.pnas.org/content/111/47/16700 (open access)
Shortwave and longwave radiative contributions to global warming under increasing CO2
Significance
The greenhouse effect is well-established. Increased concentrations of greenhouse gases, such as CO2, reduce the amount of outgoing longwave radiation (OLR) to space; thus, energy accumulates in the climate system, and the planet warms. However, climate models forced with CO2 reveal that global energy accumulation is, instead, primarily caused by an increase in absorbed solar radiation (ASR). This study resolves this apparent paradox. The solution is in the climate feedbacks that increase ASR with warming—the moistening of the atmosphere and the reduction of snow and sea ice cover. Observations and model simulations suggest that even though global warming is set into motion by greenhouse gases that reduce OLR, it is ultimately sustained by the climate feedbacks that enhance ASR.
Abstract
In response to increasing concentrations of atmospheric CO2, high-end general circulation models (GCMs) simulate an accumulation of energy at the top of the atmosphere not through a reduction in outgoing longwave radiation (OLR)—as one might expect from greenhouse gas forcing—but through an enhancement of net absorbed solar radiation (ASR). A simple linear radiative feedback framework is used to explain this counterintuitive behavior. It is found that the timescale over which OLR returns to its initial value after a CO2perturbation depends sensitively on the magnitude of shortwave (SW) feedbacks. If SW feedbacks are sufficiently positive, OLR recovers within merely several decades, and any subsequent global energy accumulation is because of enhanced ASR only. In the GCM mean, this OLR recovery timescale is only 20 y because of robust SW water vapor and surface albedo feedbacks. However, a large spread in the net SW feedback across models (because of clouds) produces a range of OLR responses; in those few models with a weak SW feedback, OLR takes centuries to recover, and energy accumulation is dominated by reduced OLR. Observational constraints of radiative feedbacks—from satellite radiation and surface temperature data—suggest an OLR recovery timescale of decades or less, consistent with the majority of GCMs. Altogether, these results suggest that, although greenhouse gas forcing predominantly acts to reduce OLR, the resulting global warming is likely caused by enhanced ASR.
Note: This study was published in November 2014, but was not covered by WUWT then. Thanks to Dennis Wingo for bringing it to our attention.
Donohoe is already cited by 22 papers
https://scholar.google.com/scholar?cites=18255791899792307663&as_sdt=800005&sciodt=0,15&hl=en
So, they agree that the “Science is NOT Settled” then.
“Climate Science” is not science. It is simply a way for lazy people to avoid having to engage in meaningful work.
Post docs = Looking for a job.
Fiddling with a computer model seems to be considered a resume enhancer by these people. This is not science.
So much bs.
Nothing about the so called “greenhouse effect” is “established”. It’s all based on pseudoscience. Equating radiation with heat when the two concepts are completely different to one another.
This blog perpetuates the fraud, by deceiving people into thinking that there are just differences of scientific opinion on how much warming CO2 can induce. But a cursory glance at any astronomy website with an article on the gas giants, will quickly confirm that heating via atmospheric compression is a well established fact and that the simple equation T=Pn/Rp derived from the ideal gas laws, is more than adequate to predict and calculate the temperature of any planet with a substantial atmosphere. That this formula works without ANY reference to “greenhouse gasses”.
This is not a scientific debate. This is a fraud. And those who profit by prolonging it via fake skepticism are just as culpable.
And what does the work? Gravity. Most of the LWIR leaving the planet happens to be centered at the 30 degree latitude belts where descending dry air (gravitational potential energy being converted to kinetic energy) causes higher pressure. Much of the 30 degree latitude area of Earth loses more heat into space than it receives from the sun, despite CO2 being well mixed in the troposphere.
Models, models, models. Theory, theory, guessing.
There is too much going on to model. We can only measure what is really happening.
And now for the CERES satellite of long-wave going back to space. No change.
BUT, here is something NEW.
Shortwave solar radiation being reflected back to space. It is going DOWN now and this is the first time it has shown up like this. I don’t think this has ever been noted by anyone yet. I think there must be a new methodology because this was not apparent before. There you go, the first piece of new science in climate science in a decade.
I have commented on this paper on other blogs with the question: What is the contribution of greenhouse gases to the global warming?
I think the question is actualized by the 2014 Donohoe et al paper, as they show that it is the absorbed solar radiation (ASR) that makes the earth warmer.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4250165/
«In computer modeling of Earth’s climate under elevating CO2 concentrations, the greenhouse gas effect does indeed lead to global warming. Yet something puzzling happens: While one would expect the longwave radiation that escapes into space to decline with increasing CO2, the amount actually begins to rise. At the same time, the atmosphere absorbs more and more incoming solar radiation; it’s this enhanced shortwave absorption that ultimately sustains global warming.»
« As longwave radiation gets trapped by CO2, the Earth starts to warm, impacting various parts of the climate system. Sea ice and snow cover melt, turning brilliant white reflectors of sunlight into darker spots. The atmosphere grows moister because warmer air can hold more water vapor, which absorbs more shortwave radiation. Both of these feedbacks lessen the amount of shortwave radiation that bounces back into space, and the planet warms rapidly at the surface.
Meanwhile, like any physical body experiencing warming, Earth sheds longwave radiation more effectively, canceling out the longwave-trapping effects of CO2. However, a darker Earth now absorbs more sunlight, tipping the scales to net warming from shortwave radiation.»
From:The missing piece of the climate puzzle. Researchers show that a canonical view of global warming tells only half the story. By Genevieve Wanucha, 2014.
Both measurements and models show that there is no reduction in IR radiation out at Top-of-atmosphere. Instead it has been a slight increase the last 40 years. https://www.ncdc.noaa.gov/teleconnections/enso/indicators/olr/
So the increased heat uptake is coming from increased absorbed solar radiation. The OHC has increased by 7,5W m2 pr decade between 1992 and 2015, according to Lijing Cheng, Kevin E. Trenberth, John Fasullo, Tim Boyer, John Abraham, and Jiang Zhu (2017): Improved estimates of ocean heat content from 1960 to 2015. I don`t know how correct this is, but it clearly show the direction.
The conclusion of this should be that only global warming can be directly attributed to increased Green House Gases.However the GHG theories say that iongwave radiationI has an indirect effect by redistributing energy and lay the ground for SW heating by feedbacks. But it is difficult to say how big this indirect effect is. And it also means that natural variations may play a greater role than revised canonical view will admit. There are variations in wind pattern, ocean currents and arctic melting.
The surface temperature is a different matter. Here I think that GHGs and longwave radiation play a part. There is some change in Downwelling Longwave Radiation that has some effect. Most studies operate with DLR increase of about 2 W m2 pr decade. Wang and Liang, 2009, have the value of 2,2 W, and is perhaps the most thorough study. The redistribution from this will change the lapse rate, and have some effect on surface temperatures and perhaps on ocean overturning. So when it comes to climate, both short wave and longwave radiation are of interest. Pressure systems and circulation will be affected. Variations in air pressure over 60 years range have clear consequences for temperature variations and regional sea level change. And they are part of change in wind patterns, ocean currents and arctic melting. AMO had great effect on arctic warming from 1915 to 1940, and on sea levels in the nothern Atlantic. But there may be longer variations that are interesting for the understanding of recent climate change, like the climate dynamics of LIA.
I am sorry that some of this came out wrong. What I wanted to state was: The conclusion of this should be that global warming cannot be directly attributed to increased Green House Gases. However the GHG theories say that longwave radiation has an indirect effect by redistributing energy and lay the ground for SW heating by feedbacks. But it is difficult to say how big this indirect effect is.
Very interesting Bill. Thanks for sharing. A decrease in outgoing SW might indicate an increase in tropical cloud cover. It would be interesting to see how these changes map out over the earth’s surface. Maybe Willis can give us an update.
This is nor weird. Real world is doing the same according to Ceres Ebaf.
Shortwave out is decreasing, which means that the albedo is decreasing.
First, annual changes in the energy balance at TOA (average values in the subtitle):
Second, inferred change in albedo, including seasonal variation:
Notice that all of these futuer predictions make the insane assumption that atmospheric CO2 levels will continue to increase. I’d love to hear them explain how that is going to happen.
that’s the only NOT insane part of the theory. Human emision are ~10ppm/year, when they were virtually nil a century ago. Human are releasing the CO2 that was buried in carboniferous era, and it returns where it came from: atmosphere. And life is happy, sucking up part of this CO2, but it will take sometime before it eats up again of this plant food.
So the message of this research is, “We had it wrong until now.” Is the science settled, or not?
So much of the discussion is supposition and models. When is someone going to go back to the beginning and do some actual measurements of what is actually happening?
Some of the satellite measurements seem to have made a start.
The answer is simple: yes, no, maybe.
Well they were still right but for the wrong reasons, a common theme in climastrology.
uh? i understood thay were wrong, but still for the right reason. Anyway. Never mind.
I think increased absorption of shortwave radiation from the sun would result in NEGATIVE feedback.
With no greenhouse gases, the earth will either heat up or cool down
until
the outgoing flux from the earth is equal to the incoming flux from
the sun.
Sun –> Atmosphere O –>
For the final balance,
4 units from Sun(space) to Earth surface
4/3 units from Atmosphere to Earth surface
Earth radiates 8/3 units to space and 8/3 units to atmosphere.
Atmosphere gets 8/3 units from Earth surface and radiates 8/6 to space, 8/6 to Earth surface.
Space(Sun) sends 4 units to Earth, receives 8/3 from Earth surface, 8/6 from atmosphere, for total of 4 units.
Everything is in balance.
Apply the same reasoning to an atmospheric absorption of infrared. Considering only infrared, with NO atmosphere, 4 units of infrared from Sun to Earth surface, 4 units from Earth surface to space: no greenhouse effect.
Now throw in an ultraviolet absorbing atmosphere. When balance is reached, the Sun sends 4 ultraviolet Joule units/sec to atmosphere. The atmosphere receives 4 units from the Sun, 4 from Earth surface.
Atmosphere radiates 4 units to space, 4 to Earth’s surface.
Earth surface receives no ultraviolet Joules/sec from the Sun, 4 Joules/sec from Earth’s atmosphere, for no change in wattage.
Note that before being absorbed by the atmosphere, those 4 infrared joules/sec went directly to Earth’s surface, where thanks to the greenhouse effect, Earth’s temperature went up and Earth surface radiated 5 1/3 Joules/sec.
With atmospheric absorption of the infrared, Earth’s surface only got the 4 joule/secs from the atmosphere rather than from the Sun, wiping out the multiplier greenhouse effect for that additional ultraviolet absorbed by the atmosphere.
The Horse And The Dog, H2O vs. CO2
Both water vapor and carbon dioxide act as insulators against infrared light, where generally only the CO2 is put in focus as the cause of making the climate warmer. My logic sense tells me that there is some truth in this, but the relationship has a magnitude of proportional misconception.
There is a tremendous amount more H2O than CO2 in the atmosphere, and H2O is significantly more effective per molecule than CO2.
I would like to compare this with a horse and a dog climbing a scale, whereas the scale shows 400kg, namely 390kg plus 10kg. Now the dog is joined by it’s twin, and the scale shows 410kg. Oh dear, we now have twice as many dogs, so how come we only get 2.5% increase in weight (insulation)?
How do these “greenhouse gases” trap longwave radiation?
The magical CO2 molecule just keeps gobbling up heat and never lets it go. The average temperature of the Earth is about 15C, but if you look at the details it’s actually just an average temperature of CO2 molecules floating around at 1,500C and N2 floating around near absolute zero. It’s “well established.”
The ONLY^3 reason RGHE theory even exists is to explain how the average surface (1.5 m above ground) temperature of 288 K/15 C (K-T balance 289 K/16 C) minus 255 K/-18C , the average surface (now ground) temperature w/o an atmosphere (Which is just completely BOGUS!) equals 33 C warmer w/ than w/o atmosphere.
That Δ33 C notion is absolute rubbish and when it flies into the nearest dumpster it hauls RGHE “theory” in right behind it.
The sooner that is realized and accepted the sooner all of us will have to find something better to do with our time and the taxpayers’ money. Maybe that’s what keeps RGHE staggering down the road.
The genesis of RGHE theory is the incorrect notion that the atmosphere warms the surface (and that is NOT the ground). Explaining the mechanism behind this erroneous notion demands some truly contorted physics, thermo and heat transfer, i.e. energy out of nowhere, cold to hot w/o work, perpetual motion.
Is space cold or hot? There are no molecules in space so our common definitions of hot/cold/heat/energy don’t apply.
The temperatures of objects in space, e.g. the Earth, Moon, space station, Mars, Venus, etc. are determined by the radiation flowing past them. In the case of the Earth, the solar irradiance of 1,368 W/m^2 has a Stefan Boltzmann black body equilibrium temperature of 394 K, 121 C, 250 F. That’s hot. Sort of.
https://science.nasa.gov/science-news/science-at-nasa/2001/ast21mar_1/
But an object’s albedo reflects away some of that energy and reduces that temperature.
The Earth’s albedo reflects away about 30% of the Sun’s 1,368 W/m^2 energy leaving 70% or 958 W/m^2 to “warm” the surface (1.5 m above ground) and at an S-B BB equilibrium temperature of 361 K, 33 C cooler (394-361) than the earth with no atmosphere or albedo.
https://springerplus.springeropen.com/articles/10.1186/2193-1801-3-723
The Earth’s albedo/atmosphere doesn’t keep the Earth warm, it keeps the Earth cool.
Bring science, I did. (5,800 views and zero rebuttals.)
http://writerbeat.com/articles/14306-Greenhouse—We-don-t-need-no-stinkin-greenhouse-Warning-science-ahead-
http://writerbeat.com/articles/15582-To-be-33C-or-not-to-be-33C
http://writerbeat.com/articles/16255-Atmospheric-Layers-and-Thermodynamic-Ping-Pong
****************
https://science.nasa.gov/science-news/science-at-nasa/2001/ast21mar_1/
“The first design consideration for thermal control is insulation — to keep
heat in for warmth and to keep it out for cooling.”
“Here on Earth, environmental heat is transferred in the air primarily by
conduction (collisions between individual air molecules) and convection
(the circulation or bulk motion of air).”
Oops! WHAT?! Did they forget to mention RGHE “theory?” Global warming? Climate change? Bad scientists! Oh, wait. These must be engineers who actually USE science.
“This is why you can insulate your house basically using the air trapped
inside your insulation,” said Andrew Hong, an engineer (SEE!!) and thermal
control specialist at NASA’s Johnson Space Center. “Air is a poor
conductor of heat, and the fibers of home insulation that hold the air still
minimize convection.”
“”In space there is no air for conduction or convection,” he added. Space
is a radiation-dominated environment. Objects heat up by absorbing
sunlight and they cool off by emitting infrared energy, a form of
radiation which is invisible to the human eye.”
Uhh, that’s in SPACE where radiation rules NOT on EARTH.
“Without thermal controls, the temperature of the orbiting Space
Station’s Sun-facing side would soar to 250 degrees F (121 C), while
thermometers on the dark side would plunge to minus 250 degrees F
(-157 C). There might be a comfortable spot somewhere in the middle of
the Station, but searching for it wouldn’t be much fun!”
121 C plus 273 C = 394 K Ta-dahhh!!!!!
Shiny insulation keeps the ISS COOL!!!! Just like the earth’s albedo/atmosphere keeps the earth COOL!!! NOT hot like RGHE’s BOGUS “Theory.”
well, you are right, but far to long, and far too angry (not that you don’t have reason to be, but, anyway… keep cool 😉 )
ANGRY, ANGRY! Moi!!!!
How could you tell from the post?
“Want to live in this lousy world, keep cool, boy, cooly cool, boy…” West Side Story
I can’t believe this albedo decrease is a one – way street. The cloud level may change eventually.
“I paid my four bits to see the high divin’ act … and I’m-a gonna see the high diving act!”
And if it don’t start warming up pretty quick, I wanna a refund on all this carbon tax I am paying.
Unfortunately, Magicarbon™ is currently busy creating Extremeweather™, and also Hideyheat™, and that has left very little Ninjaheat™ available for warming, but have no fear; it will, and when it does, pow, zoom, to the moon the temperatures will go. It has been written by the Climate Oracles and Carbon Wizards, so must be true.
of course you DO must have fear.
No refund, you paid for the show (not for the heat), you had the show, didn’t you?
Let the future sort it out.
The article above states “The atmosphere grows moister because warmer air can hold more water vapor, which absorbs more shortwave radiation.” However, the studies if seen, while a few years old, show relative humidity declining. Anyone aware of any more recent studies that show otherwise?
water vapor absorbs shortwave radiation ? i.e. visible light ? not so fast … if not in the form of a cloud but a CLEAR gas then no it doesn’t …
The article above states “The atmosphere grows moister because warmer air can hold more water vapor, which absorbs more shortwave radiation.” However, the studies if seen, while a few years old, show relative humidity declining. Anyone aware of any more recent studies that show otherwise?
There are more cosmic rays around recently. These will tend to desaturate the atmosphere. Dangerous to speculate without full knowledge of all of the factors involved. Radiation based analyses are suspect in this convection zone called the troposlphere.
I’ve been making that case for years. I’m glad to see people are finally looking at the basic physics behind this issue. Funny how my lack of knowledge of Slimate Clience allowed me to reach the correct conclusion before the experts. No PhD. needed, just common sense.
Climate “Science” on Trial; CO2 is a Weak GHG, it has no Permanent Dipole
https://co2islife.wordpress.com/2017/01/30/climate-science-on-trial-co2-is-a-weak-ghg-it-has-no-dipole/
SO, we have rediscovered albedo feedback, have we?
are they trying to say 2 wrongs make a right ? the GW theory and models are right but for DIFFERENT reasons than before ? talk about moving the goalposts …
The pseudoscience becomes even more comic-book’ish. And we can see why in their explanation of the pseudoscience, it’s all about radiative emissions to them. The more important thermodynamic processes, i.e. convection and conduction, have no place in climastrology.
It’s from modelling, right? On the other hand, we have two hemispheres and annual average incoming shortwave radiation is exactly the same for them due to a peculiar property of Keplerian orbits. The curious fact is (as measured by CERES), that annual cumulative absorbed shortwave radiation is also the same in spite of the clear sky albedo of the Southern hemisphere being much lower due to prevalence of oceans there. That only means it has more cloud cover and the difference is somehow equalizes their all sky albedoes. As if there were a sweet spot for albedo or something.
Unfortunately representation of clouds, the main reflector of incoming shortwave radiation, is abysmal in computational climate models. It is a well known fact, no need to say more.
see The Observed Hemispheric Symmetry in Reflected Shortwave Irradiance
“Sea ice and snow cover melt, turning brilliant white reflectors of sunlight into darker spots. The atmosphere grows moister because warmer air can hold more water vapor, which absorbs more shortwave radiation. Both of these feedbacks lessen the amount of shortwave radiation that bounces back into space, and the planet warms rapidly at the surface.”
More solar near infrared being absorbed by the atmosphere means less of it reaching the surface. That would inhibit both daytime heating and nighttime cooling of the surface.
It seems like they are building theories from models. Although, maybe “explanations from models” is closer, to be fair.
Exactly. The models just do what they are programmed to do, and these dimwits are ‘investigating’ them to see why instead of examining the code. They then portray their results as if they pertain to the real world.
It’s a form of insanity, and seems to be spreading. It even works on this crowd. Most comments here start referring to the real world, which this is not in any way related to (literally).
Right, but this is like saying there are two types of kickers that are important to the game of football, and then continuing on to say the game of football is all about kicking.