Guest Post by Ira Glickstein
Solar “light” radiation in = Earth “heat” radiation to Space out! That’s old news to those of us who understand all energy is fungible (may be converted to different forms of energy) and energy/mass is conserved (cannot be created nor destroyed).
My Visualizing series [Physical Analogy, Atmospheric Windows, Emission Spectra, and Molecules/Photons] has garnered almost 2000 comments, mostly positive. I’ve learned a lot from WUWT readers who know more than I do. However, some commenters seem to have been taken in by scientific-sounding objections to the basic science behind the Atmospheric “Greenhouse Effect”. Their objections seemed to add more heat than light to the discussion. This posting is designed to get back to basics and perhaps transform our heated arguments into more enlightened understanding :^)
As I’ve mentioned before, during my long career as a system engineer I’ve worked with many talented mathematical analysts who always provided precise results, mostly correct, but some precisely wrong, usually due to mistaken assumptions. I got into the habit of doing a “back of the envelope” calculation of my own as a “sanity check” on their results. If their results matched within reasonable limits, I accepted them. If not, I investigated further. In those days my analysis was really done using a slide rule and scrap paper, but I now use spreadsheets.
The graphic above is based on an excellent spreadsheet from http://serc.carleton.edu/files/introgeo/models/mathematical/examples/XLPlanck.xls. It uses Planck’s Law to calculate the black body radiation spectrum from the Sun, as observed at the top of the Earth’s Atmosphere. It also may be used to calculate the radiation spectrum from the Earth System (Atmosphere and Surface, see below for explanation) at any assumed temperature. (I will refer to this spreadsheet as “Carleton” in this posting.)
I modified the Carleton spreadsheet to compute the mean Solar radiation per square meter absorbed by the Earth System, which turns out to be 240 Watts/m^2. I then used the spreadsheet to determine the effective mean temperature of the Earth System that would emit an equal amount of energy to Space, and that turned out to be 255 Kelvins (-18ºC which is 1ºF).
Since the mean temperature at the surface of the Earth is 288 Kelvins (+15ºC which is 59ºF), that leaves 33 Kelvins (33ºC which is 58ºF) to be accounted for. Guess how we acount for it?
The yellow curve (above left) shows that Solar radiation is in a tall, narrow “shortwave” range, from about 0.1μm (microns, or millionths of a meter) to about 4μm, which we call ultra-violet, visual, and near-infrared. The vertical axis is Intensity of the radiation, measured in Watts/m^2/μm, and the horizontal axis is Wavelength, measured in μm. If you divide the area under the yellow curve into vertical strips, and add up the total area, you get 240 Watts/m^2.
Since we humans sense the visual portion of this radiation as “light”, that is the name we give it, and that has led to the false assumption that it contains no “heat” (or “thermal”) energy.
The violet curve (above right) shows that, assuming a mean temperature of 255 K, Earth System radiation to Space is in a squat, wide “longwave” range, from about 5μm to beyond 40μm, which we call mid- and far-infrared. If you divide the area under the violet curve into vertical strips, and add up the total area, you get the same 240 Watts/m^2 as is under the yellow curve.
DETAILED EXPLANATION
The graph on the left shows the actual observed Solar radiation spectrum (in red) as measured at the top of the Atmosphere. It is superimposed on a black body model (in blue) showing very good correlation. Thus, while the Sun is not exactly a black body, it is OK to assume it is for this type of “sanity check” exercise.
If you calculate the area under the curve you get about 1366 Watts/m^2. That means that a square meter of perfect black body material, held perpendicular to the Sun, would absorb 1366 Watts.
However, the Earth is not a perfect black body, neither is it a flat surface perpendicular to the Sun! So, to plot the yellow curve at the top of this posting, I had to adjust that value accordingly. There are two adjustments:
- The Earth may be approximated as a sphere, with the Sun shining on only half of it at any given time. The adjustment factor for this correction is 0.25.
- The albedo (reflectiveness) of the Earth system, primarily clouds and light-colored areas on the Surface such as ice, causes some of the Solar radiation to be reflected back out to Space without contributing any energy to the Earth System. The adjustment factor for this correction is 0.7.
After applying these adjustments, the net Solar energy absorbed by the Earth System is 240 Watts/m^2.
The graph on the right shows the black body model for an Earth System at a mean temperature of 255 K, a temperature that results in the same 240 Watts/m^2 being emitted out to Space.
Of course, the Earth System is not a perfect black body, as shown by the graph in the upper panel of the illustration below, which plots actual observations from 20 km looking down. (Adapted from Grant Petty, A First Course in Atmospheric Radiation, Figure 8.2, http://www.sundogpublishing.com/AtmosRad/Excerpts/index.html.)
The actual measured radiation is the dark squiggly curve. Note that it jigs and jags up and down between the topmost dashed curve, which is the black body spectrum for a temperature of 270 K and a lower dashed curve which is the black body spectrum for 230 K. This data was taken over the Arctic, most likely during the daytime. The Petty book also has a graph looking down from over the Tropical Pacific which ranges from 300 K down to 210 K. Observations will vary by tens of degrees from day to night, summer to winter, and Tropical to Polar.
However, it is clear that my result, based on matching 240 Watts/m^2, is within a reasonable range of the true mean temperature of the Earth System as viewed from Space.
NOTE ABOUT THE ABOVE ILLUSTRATION
WUWT readers will notice some apparent inconsistencies in the graphs above. The top and bottom panels, from Petty, peak at 15μm to 20μm, while the purple, blue, and black curves in the middle panel, and the Earth System curves from the Carleton spreadsheet I used (see above) peak in the 9μm to 11μm range. Also, the Petty black body curves peak at a “Radiance” around 100 mW/m^2/sr cm^-1 while the black body curves from Carleton peak at an “Intensity” of around 14 W/m^2/μm. Furthermore, if you look closely at the Petty curves, the labels on the black body curves are mirror image! What is going on?
Well, I know some of the reasons, but not all. (I hope commenters who are more fluent in this than I am will confirm my explanations and provide more information about the differences between “Radiance” and “Intensity”.) I have Googled and Wikied the Internet and am still somewhat confused. Here is what I know:
- The horizontal axis in Petty’s plots are what he calls “Wavenumber”, increasing from left to right, which is the number of waves that fit into a cm (centimeter, one hundredth of a meter).
- This is proportional to the frequency of the radiation, and the frequency is the inverse of the wavelength. Thus, his plots are the mirror image of plots based on wavelength increasing from left to right.
- The spreadsheet I used, and my previous experience with visual, and near-, mid-, and far-IR as used in military systems, always uses wavelength increasing from left to right.
- So, when I constructed the above illustration, I reversed Petty’s curves, which explains why the labels on the black body curves are mirror image.
- Fortunately, Petty also included a wavelength legend, which I faithfully reproduced, in non-mirror image, at the top of each plot.
But, that still does not explain why the Petty black body curves peak at a longer wavelength than the Carleton spreadsheet and other graphics on the Internet. I tried to reproduce Petty’s blackbody curves by multiplying the Carleton values by the wavelength (μm) and that did not move the peak to the right enough. So, I multiplied by the wavelength again (μm^2) and, voila, the peaks agreed! (I hope some WUWT reader will explain why the Petty graphs have this perverse effect. advTHANKSance!)
ANSWERING THE OBJECTIONS TO BASIC ATMOSPHERIC “GREENHOUSE EFFECT” SCIENCE
First of all, let me be clear where I am coming from. I’m a Lukewarmer-Skeptic who accepts that H2O, CO2 and other so-called “greenhouse gases” in the Atmosphere do cause the mean temperature of the Earth Surface and Atmosphere to be higher than they would be if everything was the same (Solar radiation, Earth System Albedo, …) but the Atmosphere was pure nitrogen. The main scientific question for me, is how much does the increase in human-caused CO2 and human-caused albedo reduction increase the mean temperature above what it would be with natural cycles and processes? My answer is “not much”, because perhaps 0.1ºC to 0.2ºC of the supposed 0.8ºC increase since 1880 is due to human activities. The rest is due to natural cycles and processes over which we humans have no control. The main public policy question for me, is how much should we (society) do about it? Again, my answer is “not much”, because the effect is small and a limited increase in temperatures and CO2 may turn out to have a net benefit.
So, my motivation for this Visualizing series is not to add to the Alarmist “the sky is falling” panic, but rather to help my fellow Skeptics avoid the natural temptation to fall into an “equal and opposite” falsehood, which some of those on my side, who I call “Disbelievers”, do when they fail to acknowledge the basic facts of the role of H2O and CO2 and other gases in helping to keep temperatures in a livable range.
Objection #1: Visual and near-visual radiation is merely “light” which lacks the “quality” or “oomph” to impart warmth to objects upon which it happens to fall.
Answer #1: A NASA webpage targeted at children is sometimes cited because they say the near-IR beam from a TV remote control is not warm to the touch. Of course, that is not because it is near-visual radiation, but rather because it is very low power. All energy is fungible, and can be changed from one form to another. Thus, the 240 Watts/m^2 of visible and near-visible Solar energy that reaches and is absorbed by the Earth System, has the effect of warming the Earth System exactly as much as an equal number of Watts/m^2 of “thermal” mid- and far-IR radiation.
Objection #2: The Atmosphere, which is cooler than the Earth Surface, cannot warm the Earth Surface.
Answer #2: The Second law of Thermodynamics is often cited as the source of this falsehood. The correct interpretation is that the Second Law refers to net warming, which can only pass from the warmer to the cooler object. The back-radiation from the Atmosphere to the Earth Surface has been measured (see lower panel in the above illustration). All matter above absolute zero emits radiation and, once emitted, that radiation does not know if it is travelling from a warmer to a cooler surface or vice-versa. Once it arrives it will either be reflected or absorbed, according to its wavelength and the characteristics of the material it happens to impact.
Objection #3: The Atmospheric “Greenhouse Effect” is fictional. A glass greenhouse works mainly by preventing or reducing convection and the Atmosphere does not work that way at all.
Answer #3: I always try to put “scare quotes” around the word “greenhouse” unless referring to the glass variety because the term is misleading. Yes, a glass greenhouse works by restricting convection, and the fact that glass passes shortwave radiation and not longwave makes only a minor contribution. Thus, I agree it is unfortunate that the established term for the Atmospheric warming effect is a bit of a misnomer. However, we are stuck with it. But, enough of semantics. Notice that the Earth System mean temperature I had to use to provide 240 Watts/m^2 of radiation to Space to balance the input absorbed from by the Earth System from the Sun was 255 K. However, the actual mean temperature at the Surface is closer to 288 K. How to explain the extra 33 K (33ºC or 58ºF)? The only rational explanation is the back-radiation from the Atmosphere to the Surface.
Further to my last post, I mispelt the name of the commentator. It should have read Hans Schreuder.
Lots of discussion about the theory.
But nobody is talking about what really happens on the surface of the Earth or what really happens up in the troposphere.
The actual Earth surface and the troposphere does not react the way this theoritical framework indicates.
Show me some actual radiation and temperature measurements of a location on Earth that meets this framework. Your backyard does not follow this framework – something else is happening.
R Stevenson says:
I integrate between spectral band wavelengths of 12.5 to 16.5 microns for CO2.
From 12.5 to 13.3 microns, CO2 absorbs (and emits) almost no radiation. On the other side, the band goes to about 16.98 microns.
When I integrate from 2 micron to infinity, assuming a constant pressure, 15c, and 1 km of thickness, CO2 alone absorbs about 73 of the available 390 W/m2. I suspect that there will always be a little more energy absorbed as the thickness is increased. However, once the amount remaining is “small enough”, it is common to consider the gas to be opaque. It is also important to note that about 54 of the 73 W/m2 overlaps with water vapor. Because of this overlap, doubling CO2 produces a net increase of only 4 W/m2 (according to my calculations).
JAE says:
May 10, 2011 at 4:03 pm
New calcs of radiative GHE shows the GHE is only 8-9 deg. C:
http://activistteacher.blogspot.com/2011/05/radiation-physics-constraints-on-global.html
Contains a fundamental error, doesn’t understand the definition of Bond albedo, and misapplies Kirchoff’s Law (doesn’t understand that a and ε are functions of wavelength).
Smokey:
You might want to look at what Richard Lindzen has to say about this. Even you might admit that he knows a little bit more about atmospheric science than you do…and you might even believe him since he agrees with your ideologically-driven point-of-view on AGW in general. His wording that the data is wrong and the models / theory are right on this particular point is even stronger than mine ( wattsupwiththat.com/2011/01/17/richard-lindzen-a-case-against-precipitous-climate-action/ ):
(The one difference between Lindzen and the consensus view is that Lindzen seems to think that the tropical surface data is suspect whereas the more standard view is that the problems are most likely mainly with the radiosonde & satellite data / analysis.)
Phil: Maybe so, maybe not. You need to EXPLAIN WHY you disagree. With some kind of evidence, links, etc. Sorry, but I don’t know you and cannot take your word on this.
Joel Shore,
“So, that is my basic complaint about the argument that a faster water cycle somehow provides a negative feedback: To the extent that this expected to be true, it is incorporated into the models. If you want to argue that the models underestimate the effect, this has testable consequences for the temperature distribution in the atmosphere…And, at this point, the data for the temperature distribution do not seem to support this conclusion, if anything going the other way.”
I mentioned the Wentz 2007 article in the journal Science that showed none of the models produced more than half the increase in precipitation seen in the observations, so how can you say the speedup is “incorporated into the models”. The presence or absence of a hot spot was never going to be decisive, even if it was as prominent as the models had it, it wouldn’t indicate whether feedback was positive or negative. The modelers were just scrambling to see the presence of something they claimed would be prominent. The lack of the temperature profile that you claim is expected from more turnover of the water cycle, can possibly be explained by the models under representing the efficiency with which greenhouse gases cool the upper troposphere, there is already good evidence that the stratosphere is cooler, that is attributed to this mechanism. But it is the models that aren’t matching the most basic observations of a faster water cycle.
When Joel Shore says: “your ideologically-driven point-of-view on AGW,” you can be sure it’s merely Joel’s psychological projection. I personally have no such ‘ideological’ view. I simply point out the fact that there is zero evidence of global harm due to CO2, and that CO2 enhances plant growth; therefore CO2 is harmless and beneficial.
Joel Shore always avoids trying to show evidence of global CO2 damage, because there is none. He is blinded by his own ideology. Alarmists like Shore have the onus of showing that their beliefs in CAGW are supported by empirical, testable evidence. Since they have failed, they project their own faults onto scientific skeptics.
Someone please wake me when the alarmist crowd begins to follow the scientific method.
JAE,
Here is one specific flaw in http://activistteacher.blogspot.com/2011/05/radiation-physics-constraints-on-global.html
This reference (and many others like it) show that white paint can have an emissivity of ~ 0.9 for thermal IR, but white paint will have an albedo of ~ 0.9 for visible light. Here is empirical evidence that his interpretation of Kirchhoff’s law is wrong because absorption can and does vary with wavelength.
{a} are weighted averages, where the weightings are completely different. There is no reason to expect the two values to be closely related.
That last sentence should have been:
{e} and {a} are weighted averages, where the weightings are completely different. There is no reason to expect the two values to be closely related.
Dave Springer,
High temperatures are achievable with infrared lasers:
http://en.wikipedia.org/wiki/Shiva_laser
A high enough concentration of photons of any wavelength can cause heating. I think however, there are practical limitations to being able to perform Fresnel lens heating from wall radiation.
jae says:
May 10, 2011 at 6:46 pm
Phil: Maybe so, maybe not. You need to EXPLAIN WHY you disagree. With some kind of evidence, links, etc. Sorry, but I don’t know you and cannot take your word on this.
But you accept the unsupported statements in that paper?
Try this for size:
http://hyperphysics.phy-astr.gsu.edu/hbase/phyopt/albedo.html
Includes this “The bond albedo is the total radiation reflected from an object compared to the total incident radiation from the Sun. The bond albedo for the Earth is given as 0.29 by de Pater and Lissauer, ”
The Activist teacher paper asserts: “It is a violation of Kirchoff’s Law to admit {a} = 0.30 yet use {ε} = 1 in calculating the Earth’s surface temperature, irrespective of the assumed amount of greenhouse effect.”
However as shown above the Bond albedo applies for the range of solar wavelengths, i.e. up to ~5 microns. It is therefore inappropriate to apply Kirchoff’s law to determine {ε} for the surface emission range (~5 – 50 microns), the value of 0.7 that Rancort derives is applicable to the UV to 5 microns range, not to the IR.
Joel Shore;
Hope you are still following this thread, could you hit my blog or otherwise provide your email address? I’ve got something I’d like to run by you.
Ira Glickstein, PhD Reur May 9, 2011 at 9:01 pm
You should retract your over-the-top insults to JAE; they give you a negative persona. You should have been able to work-out that JAE made a simple mistake, which BTW he shortly realized and corrected just before your rant. An apology is in order.
I can only conclude that his suggestion that radiative hypotheses are the lesser in importance than other thermodynamics is inconvenient for you to discuss. I’ve followed JAE for several years and find his research and thinking on convection and thermalization etc to be of great interest. BTW Ira, HEAT is a different form of energy to EMR, regardless of wavelength. (the popular restriction of “thermal EMR” to IR is plain nonsense)
JAE:
You may be interested to know that I had an interesting Email exchange with Roy Spencer a while back where I asked in part if in a nominally warming world there would possibly be increased evapo-transpiration. If so, according to Trenberth, given that this is the largest HEAT loss from the surface, there ought be increased surface cooling, or in other words, a negative feedback. Roy eventually withdrew, but to summarise, he admitted that what he collectively called convection was indeed important, but that everyone is too busy working on the radiative stuff. (including himself)
Ho hum.
JAE,
Further my post above, where I wrote:
…everyone is too busy working on the radiative stuff…
That might also translate to:
“everyone is too busy competing on the radiative stuff”
(including Roy Spencer)
Joel Shore
I said ….. ” However from now on I will keep in mind that you should not be taken too seriously. ”
You replied
…….”I would be perfectly happy if you were to just ignore me” …….
If you wish to be taken seriously then avoid distorting words like HEAT which is inexcusable for someone with a Physics degree.
When you do that your give the impression that;
1. Your version of the IPCC position requires this distortion to be convincing.
2. Or perhaps you really don’t know what your talking about.
I am personally much more likely to be persuaded by the likes of Nick Stokes or Rodrigo Caballero who can present the IPCC case without departing from the traditional language of Clausius and Feynman.
Read through Rodrigo Caballero’s Lecture Notes to see what I mean.
http://maths.ucd.ie/met/msc/PhysMet/PhysMetLectNotes.pdf
No wonder an educated person like Professor Gerlach “blew his top” when he found your paper full of elementary mistakes.
Robert Clemenzi says:
May 10, 2011 at 5:39 pm
When I integrate from 2 micron to infinity, assuming a constant pressure, 15c, and 1 km of thickness, CO2 alone absorbs about 73 of the available 390 W/m2. I suspect that there will always be a little more energy absorbed as the thickness is
Robert,
We seem to be in close agreement on my spreadsheet model when I integrate between 0.5 microns and infinity at 15 C etc., CO2 absorbs 25.3 Btu/hft^2 (79.8W/m^2) of the available 124 Btu/hft^2 (391W/m^2) ie 20%.
For water vapour alone, my spreadsheet integration gives 248W/m^2 absorbed of 391W/m^2 available or 63%.
Using charts developed by Hottel I obtain absorptivities giving extinction distances of 3000 to 4000m for CO2 at 380ppm and 2000m when CO2 is doubled. Your extinction distance is less at 1km.
Robert Clemenzi
Further to above on my spreadsheet 97% of the absorbable IR is in 15micron band for CO2.
I am impressed with Ira Glickstein’s post, and his clear willingness to share his logic and computations in order to invite criticism, correction, and further development. That speaks to me of scientific integrity, and it is refreshing to encounter it in the climate debate which is often dominated by what might be, at best, called ‘courtroom integrity’ in which antagonists vie with each other to present watertight cases immune to argument and contradiction.
The whole idea of dealing with global mean temperatures and averaged-out energy budgets is by itself crude, and one commenter at least has noted that when an observed global warming of the order of 1C is small compared to the coarseness and sensitivity of such back of an envelope calculations, we need to look elsewhere to resolve disputes.
I presume the answer lies in admitting more of the complexity of real case into the computations: if not the spinning, irregularly surfaced sphere, then at least the huge differential in solar heating ‘twixt the equatorial and the polar regions, the great daily poleward energy transfers which compensate thanks in large part to massive convective systems. I am with the commenter who sees the atmosphere primarily as a coolant – taking heat out of the tropical surface, and helping it escape to the temperate/polar zones and to space. Surely in there somewhere lies the possibility of crucial hypotheses to help clarify our differences of opinion and be capable of observational test/refutation/confirmation. The effects of additional CO2 seem, to me, to be likely to be so small that such hypotheses will be for correspondingly small, probably only regional or local, effects that might yet be measurable. I presume further that we would benefit from increased measurement of radiation environments and temperatures at various heights, coupled with measurements of moisture, cloud, and CO2 levels. A few years of good data there would, it seems to me (a mere outside observer of this science), produce a productive environment for scientific progress.
Dave Springer says:
May 10, 2011 at 8:55 am
CO2 extinction altitude can be seen in the spectrum looking down from 20 kilometers above the arctic ocean. IIRC the spectrum follows a 270K blackbody curve where the atmosphere is IR transparent i.e. it “sees” the temperature of the ocean surface but in the 15um region it drops down to follow a 250K blackbody curve. Going by dry adiabatic lapse rate (arctic air is fairly dry) of 1K per 100 meters the IR sensor is “seeing” the air temperature in the 15um range at a height of 2000 meters. I’m not an optics expert but I believe that altitude represents the optical depth of the atmosphere at 15um or in other words the extinction altitude. In any case there is no way in hell the extinction depth is in tens of meters.
That is the best contribution so far
JAE says:
May 10, 2011 at 8:56 am
“Huh? I hope you are not saying that everything radiates in the IR frequencies. To repeat a comment I made above somewhere:”
Solids, liquids, and dense gases emit continous blackbody spectra characteristic of their temperature. We were talking about atmospheric nitrogen which is a dense gas and its temperature, at least in the lower and middle atmosphere, puts its blackbody emission spectrum in the far infrared.
What part of that don’t you understand?
Smokey says:
I just want to point out for the benefit of the readers what has transpired here. For the last several months, Smokey (often quoting me out of context) has hounded me for saying that I thought it was more likely that the models are correct and the data incorrect in regard to tropical tropospheric amplification.
Now that it has been pointed out to him in my previous comment http://wattsupwiththat.com/2011/05/07/visualizing-the-greenhouse-effect-light-and-heat/#comment-657690 that Richard Lindzen says the same thing…except in even more unambiguous terms (stating flat-out that the data must be wrong), one might expect that a person with decent standards of personal responsibility would either
(1) Apologize to me.
(2) Rebuke Lindzen in equally-harsh words as he has rebuked me.
What has Smokey done instead? He has avoided the issue entirely.
Some links to comments on this thread which encouraged or informed my earlier one (3:07am)
(1) ‘Too simple’ models:
“This goes to the heart of the problem. Anthropogenic effects are so tiny as to easily buried in the noise of the real world and in the error margins of all these toy models of the real world.” Dave Springer May 8 8:08am
Anthony Zeeman May 8 10:58am
Roger Sowell May 8 4:02pm
David May 10 12:54am
richard verney May 10 4:03pm
(2) Coolants:
Richard M May 9 4:16pm
Boris Gimbarzevsky May 9 8:38pm
Radiation and/or temperatures at different heights and contexts:
wayne May 7 11:56pm
Bryan May 8 1:13am
Martin Lewitt May 9 3:02am
richard verney May 9 9:53am
Robert Clemenzi May 10 12:25am
Boris Gimbarzevsky May 10 1:51am
(3) Importance of convection:
Cematafried May 8 5:55am
Leanard Weistein May 8 6:36am
Dave in Delaware May 8 7:03am
Nullius in Verba May 8 7:06am and May 8 12:53pm
Alistair May 8 7:56am
richard verney May 9 9:53am
Dave Springer May 9 9:23am
(4) meridional contrasts / transfers:
davidmhoffer May 8 3:05am
Gilles May 8 10:02am
Bryan says:
In regards to our paper, you (and G&T) seem to be the only ones who are incapable of doing simple word replacements in a few places that have been described to you in detail. Besides which, I have been more careful in these threads to use the word “heat” more precisely; however, it seems that people peddling pseudoscience not only get inordinately hung up on word choices but then also don’t accept the concept of corrections.
While any actual physicists reading our paper may say we should have been a little more precise in our usage of the word “heat” in a few places, they will consider this to be “going a few miles above the speed limit” in comparison to Gerlich and Tscheuschner’s “serial killing”, i.e., huge scientific blunders in regards to the 2nd Law of Thermodynamics and the greenhouse effect. It is only people peddling pseudoscience who purposely try to misinterpret what other people are saying in order to confuse others.
Typo: Need (3) added to give
‘(3) Radiation and/or temperatures ate different heights and contexts:’
and then existing (3) -> (4), and existing (4) -> (5).