Guest Post by Willis Eschenbach
There’s an interesting measure of atmospheric CO2, called the “airborne fraction”. The airborne fraction is the fraction of the CO2 emitted each year which remains in the atmosphere. When humans emit say 9 gigatonnes of carbon, only about half of that remains in the air. The other half of the emitted carbon is absorbed, “sequestered” in some semi-permanent fashion, by various carbon sinks in the land and the ocean.
Dr. James Hansen of NASA, another in the long line of climate alarmists who don’t mind shafting the poor with expensive energy, has come out with a most surprising statement in his latest paper, Climate forcing growth rates: doubling down on our Faustian bargain, hereinafter Hansen 2012. The statement involves Hansen et al.’s explanation for a claimed recent decrease in the airborne fraction. Here’s their graphic showing the changes in the airborne fraction since 1960.
Figure 1. Hansen 2012 Figure 3. I’ve added a vertical line highlighting June 1991.
[ORIGINAL CAPTION] Fossil fuel CO2 emissions (left scale) and airborne fraction, i.e., the ratio of observed atmospheric CO2 increase to fossil fuel CO2 emissions. Final three points are 5-, 3- and 1-year means.
I do wish people would show the underlying data and not just averages, but setting that aside, here are the authors’ claims about the drop in the airborne fraction (blue line) post 2000:
We suggest that the surge of fossil fuel use, mainly coal, since 2000 is a basic cause of the large increase of carbon uptake by the combined terrestrial and ocean carbon sinks. One mechanism by which fossil fuel emissions increase carbon uptake is by fertilizing the biosphere via provision of nutrients essential for tissue building, especially nitrogen, which plays a critical role in controlling net primary productivity and is limited in many ecosystems (Gruber and Galloway 2008). Modeling (e.g., Thornton et al 2009) and field studies (Magnani et al 2007) confirm a major role of nitrogen deposition, working in concert with CO2 fertilization, in causing a large increase in net primary productivity of temperate and boreal forests.
This is an interesting argument, but it has a few moving parts. Let me list them.
1) Increased coal use leads to increased net primary productivity (NPP) .
2) Increased NPP is evidence of increased carbon absorption.
3) Increased carbon absorption leads to increased biologically driven carbon sequestration.
4) Increased biologically driven sequestration explains the post-2000 decrease in airborne fraction.
I’m good with claims number 1 and number 2, but from there they get increasingly unlikely for various reasons. I’ll go get the data and show the actual airborne fraction, but first, let me quote a bit more from Hansen 2012, this time regarding Pinatubo.
Remarkably, and we will argue importantly, the airborne fraction has declined since 2000 (figure 3) during a period without any large volcanic eruptions. The 7-year running mean of the airborne fraction had remained close to 60% up to 2000, except for the period affected by Pinatubo.
and also …
Thus we see the decreased CO2 airborne fraction since 2000 as sharing some of the same causes as the decreased airborne fraction after the Pinatubo eruption (figure 3).
I looked at the chart, and I looked at the dates. Pinatubo was in June of 1991. Here’s what I get from the data:
Figure 2. Annual airborne fraction (red line), along with 7-year average (blue). Green line shows theoretical airborne fraction assuming exponential decay of excess CO2.
So to start with, from both his graph and mine I’m saying absolutely no way to Hansen’s claim that there was a “decreased airborne fraction after the Pinatubo eruption”. Hansen seems obsessed with Pinatubo. He previously has claimed (falsely) that it represented a successful test of his GISS climate model. See here, here , and here for a discussion of how poorly the models actually did with Pinatubo.
He is now claiming (again falsely) that there is some drop in the airborne fraction after Pinatubo. I’m sorry, but that’s a totally false statement. There’s no sign of any unusual drop post-Pinatubo in this record at all, neither in the annual data nor in the average data. The majority of the drop he seems to be pointing to occurred well before Pinatubo occurred …
In passing, let me comment that any reviewer who let any of that Pinatubo nonsense past them should resign their commission. It was the first thing I noticed when I looked at the paper.
There’s a second problem with what Hansen et al. have done. They say regarding their 7-year average (blue line) that: Final three points are 5-, 3- and 1-year means. Sadly, this means that the final point in the 7-year average is forced to be equal to the last point in the raw data … easily the worst choice of ways to handle the final points of any average, almost guaranteed to have the largest error.
But that method does have one advantage in this case. It greatly exaggerates the amount of the recent drop. Note for example that had the data ended one year earlier, the final point in his average would have had a value 60% … here’s what the 7-year average figured their way would have looked like if the data had ended in 2010.
Figure 3. As in Figure 2, but with the 7-year average ending in 2010 using their method. Note that the final point is forced to equal the 2010 value.
As you can see, their curious treatment of the 7-year average at the end of the data is the only thing that makes the trend look so bad. When changing the data length by one year makes that kind of change in an average, you can assume that your results are far, far from robust.
But neither of those is the main problem with their claim. The main problem is that the general slight decrease in the airborne fraction is an expected result of the exponential decay of the excess atmospheric CO2. As the green line shows, the actual results are in no way different from the value we’d expect to see. The green line shows the result of the exponential decay of the excess CO2 if we assume a half-life of about 46 years. The expected value decreases slightly from 1970 to 2011.
It’s worth noting that if CO2 emissions leveled off entirely, the airborne fraction would gradually decay to zero. This is because if emissions level off, eventually the excess CO2 level will be such that the annual sequestration will equal the annual emission with nothing to remain airborne.
To close, let me return to their claim:
We suggest that the surge of fossil fuel use, mainly coal, since 2000 is a basic cause of the large increase of carbon uptake by the combined terrestrial and ocean carbon sinks.
I must confess that I hadn’t looked at fuel use by type in a while, so I was unaware of a large spike in coal use.
Figure 4. Carbon emissions by fuel type. Note the steady rise of natural gas, which will only increase with the advent of fracking.
So yes, coal use has indeed spiked since 2000, with a jump in coal emissions putting it back out in front of oil. I assume, although I’ve not checked, that this is the result of the huge increase in coal for electricity generation in India and China. And good on them, the folks in that part of the planet desperately need cheap energy.
Returning to the claims in Hansen 2012, it is true that the carbon uptake by the various sinks has constantly increased over time. This increase, however, appears to be much more related to the exponential decay of the CO2, and has less to do with the changes in the biosphere. We know this because the change in the amount sequestered is much larger than the change in the NPP.
Here are the figures. In 1960 the natural sinks were sequestering about 1 gigatonne of excess carbon annually. By 2011, this had risen to 4.5 gigatonnes annually. I agree that CO2 fertilization is real, but clearly this 4.5-fold increase in total tonnage of excess carbon sequestered cannot all be the result of increased NPP from CO2 fertilization.
So while I’m glad to hear that Hansen thinks that coal is good for something, I fear his explanation for the increase in the amount sequestered is not correct. The increases in the amount sequestered have been much, much larger (450% since 1960) than the increase in the amount of sequestration due to greater NPP.
Before I leave, let me remind folks what cheap electricity and energy from coal does for us all, rich and poor alike, every day of the year.
Figure 5. Daily output of coal energy. SOURCE
That huge benefit to the poor and the rich is what Hansen is trying to get rid of … but he and others have very little with which to replace it. So all that happens is that the price of energy goes up, and the poor once again are impoverished the most.
Brilliant plan, that fellow Hansen truly cares about the future … he just doesn’t seem to care if he hurts people in the present.
My best to everyone,
w.
Martin van Etten says:
March 31, 2013 at 3:04 am
They may be part of your discussion, Martin, but they are not part of Hansen’s discussion other than by accident.
Look, Martin, when Hansen makes claims that are garbage, they will still be garbage after I read the people that he cited but ignored. We’ve already agreed that he misrepresented the work of the cited authors as regards Pinatubo … perhaps after that it’s important to you who else’s work he’s misrepresented.
Me, I don’t care whose work Hansen is distorting and munging this week. I am quite content to point out Hansen’s own incorrect statements. I don’t care which authors he misunderstood to arrive at those misrepresentations.
If you think it’s important to find out just whose ideas Hansen is garbling, be my guest. The details of his lack of understanding might be of interest to you. To me, the putative sources of Hansens’s colossal misunderstandings are about as interesting as the nocturnal habits of banana slugs … but heck, Martin, report back to us on what you find, it should be good for at least a bitter laugh …
w.
Margaret Smith says:
March 30, 2013 at 11:28 pm
——————-
It’s pronounced In-Hoff
Spoken quickly it becomes In-Off.
Although his words on CAGW sound like he’s saying e-nuff.
cn
Martin van Etten says:
March 31, 2013 at 3:21 am
Oh, that’s great. Martin, you accused me of plagiarizing a damn vertical line representing a date. That’s the most asinine accusation of plagiarism I’ve heard in my entire life.
Now, instead of just taking it back, you are claiming that if I’d seen that vertical line before I would indeed have been guilty of plagiarism … but since I didn’t read that paper and see that line, I’m innocent. Phew, I was worried for a minute …
Thanks heaps for determining that I’m innocent, I feel much better now.
You have taken back your accusation of plagiarism, Martin. It was gracious of you to attempt an apology, and it is certainly accepted … but the stupidity of first making a ridiculous accusation, and now repeating (with qualifications) your accusation in your “apology” still remains. Plagiarism of a vertical line representing June 1991? Really?
You’ve truly lost the plot, my friend, that’s not plagiarism even if I’d seen that vertical line twenty times. A simple apology would have sufficed, but noooo, you had to keep digging …
Martin, you seem like a nice bright guy who has unfortunately grabbed the wrong end of the stick. Hang around, you might learn something.
w.
ferdberple says:
March 31, 2013 at 8:33 am
Thanks for the explanation, Ferd, that’s happened to me more than once, and with me the “technical reasons” usually involved brain lacunae. I appreciate your note.
w.
Hoser says:
March 31, 2013 at 4:22 am
Thus, diffusion is an important process, which is likely not well characterized in ice.
In fact, it is so low that it is near unmeasurable. There is one estimate, based on the migration around melt layers of the Siple Dome ice core:
http://catalogue.nla.gov.au/Record/3773250
The resolution of about 20 years at 2.74 kyr gets about 22 years, taking into account the migration and at full depth (70 kyrs) that increases to 40 years. Not a big deal for a “warm” ice core at average -23°C. For the “cold” inland ice cores like Vostok and Dome C (at average -40°C), the migration is orders of magnitude smaller.
Moreover, if there was substantial migration, over ice ages and interglacials the ratio between temperature and CO2 levels would fade away for each interglacial 100 kyr back in time. That is not the case for even the Dome C 800 kyr ice core.
Consequently, ice core data may be blurred and dimmed with short term changes on the order of a century or more
Depends of the accumulation rate: the two fastest accumulation ice cores of Law Dome (1.5 m ice equivalent per year!) have a resolution of ~8 years, including a 20 year overlap with direct measurements at the South Pole. But these do only go back some 150 years in time before hitting bedrock. See the discussion of ice core gas age distribution at:
http://courses.washington.edu/proxies/GHG.pdf
In these ice cores one can detect a one-year peak of 20 ppmv or a sustained increase of 2 ppmv over the full resolution period. As we have several ice cores with overlapping periods for the same average gas age (but with worsening resolution back in time), we may be confident that at least in the past Holocene, there were no sustained periods of more than a decade with 100 ppmv extra as we see today:
http://www.ferdinand-engelbeen.be/klimaat/klim_img/antarctic_cores_010kyr.jpg
I’m trying to remind people the CO2 we produce passes through other reservoirs with a half-life of 10 years. It could be trapped there, but it isn’t. Why not?
Different processes at work: the fast processes which exchange CO2 over the seasons are mainly temperature (and for vegetation also drought) controlled. The sea surface releases 16 ppmv CO2 for a hemispheric increase of 1°C in spring and reverse in fall. Land vegetation captures huge amounts in spring when the temperature reaches the necessary minimum and reverse in fall. But both (countercurrent) processes are limited in capacity. The overall global change in CO2 over the seasons is only 5 ppmv (10 GtC) for a 1°C change (mainly in the NH summer), while the total fluxes involved are about 150 GtC.
The processes of interest are slower: deep ocean exchanges are far less temperature dependent, but are CO2 partial pressure (difference) dependent. Longer term storage of carbon in roots, peat and humus needs time too. Both are enhanced by increased CO2 levels, but changing much slower than the fast processes (half life time app. 40 years). The advantage is that these processes are quasi unlimited in capacity.
The fate of the 14C spike is mainly a result of the fast exchanges and only in the second place of the slower processes.
Have a look at what happens if 100 GtC of human emissions were released at once some 160 years ago:
http://www.ferdinand-engelbeen.be/klimaat/klim_img/fract_level_pulse.jpg
The fate of the original “human” release (FA: human fraction in air) is the same as for the 14C spike: decreasing with a half life of about 8 years. The fate of the increased total carbon (tCA) is of a different order: a half life of about 40 years towards the old equilibrium. Despite that after a few decades all human CO2 disappeared into other reservoirs (exchanged by natural CO2, nCA), the excess above equilibrium still is 100% caused by the one-time pulse. FL is the human fraction in the upper ocean layer, not of interest here.
This was based on realistic exchanges between the different carbon reservoirs.
If you take the continuous increasing human emissions as input, that gives following trends:
http://www.ferdinand-engelbeen.be/klimaat/klim_img/fract_level_emiss.jpg
Thus in my informed opinion, based on all available observations, humans are responsible for the increase of CO2 over the past 160 years. If that is a problem is a complete different question and in my opinion, there are a lot of indications that a modest increase in temperature would be quite beneficial for biodiversity and humanity.
Chuck Nolan says:
March 31, 2013 at 11:00 am
wayne says:
March 31, 2013 at 9:23 am
Thanks folks
Margaret
ferdberple:
I am replying to your post addressed to me at March 31, 2013 at 9:12 am.
As I said, I am not competent to discuss the formation processes of oil and gas but I can state – for the reasons I explained – with absolute certainty that all types of coal are biogenic.
Hence, I fail to understand why those who wish to promote investigations of possible non-biogenic petrochemicals insist on including coal in their arguments.
Why not discuss oil and gas formation where they may have a case?
Why insist on including coal where it is easy to demonstrate that their assertions are wrong?
Whether or not coal is biogenic is not relevant to whether oil and/or gas are biogenic.
Richard
att Mr Eschenbach:
the point is not plagiarism, the only serious point is your NOT reading the references Jim Hansen has provided AND taking a slanderish position towards Hansen and breaking down his article on false arguments:
I’m quoting you:: “He is now claiming (again falsely ) that there is some drop in the airborne fraction after Pinatubo”
If you had read the Keeling-article Hansen is referring to, you would have noticed ‘your’ blue line and a discussion about the contribution of the Mount Pinatubo eruption to the decline of the airborne fraction of CO2;
you would have read on page 668: ” The inferred anomalous oceanic sink of 0,6 Gt C immediately AFTER the Pinatubo eruption…etc (Keeling)
and (this is also relevant for the discussion): ” Perhaps, however the Pinatubo eruption was only incidental to a declining CO2 anomaly;
I recall your quotation from Hansen:
“Remarkably, and we will argue importantly, the airborne fraction has declined since 2000 (figure 3) during a period without any large volcanic eruptions. The 7-year running mean of the airborne fraction had remained close to 60% up to 2000, except for the period affected by Pinatubo.
there is a second sentence immediately hereafter:
” The airborne fraction is affected by factors other than ….( – )…most notably by changes in the rate of fossil fuel emissions” (Here Hansen referring to Gloor, Sarmiento and Gruber – see the literature list);
than you come with this curious statement or should I say question:
“Hansen may have been aware, although you provide no evidence to support that claim .”
although you provide no evidence?”
Willis, think a moment about the question how did “I” or even “you” came to know about these articles (answer: finding the two references (11 and 12 in Hansens article, and running to the University library to READ what its all about ; (you could have used your online subscription , that’s even more easy….;
nevertheless: do you seriously claim that Hansen did not read his OWN references?
Willis, the main problem with your article is this remark (third alinea below figure 2):
“…..let me comment that any reviewer who let any of that Pinatubo NONSENSE past them should resign their commission…”
you have no argument at all for this expression: Pinatubo NONSENSE;
it is very much a pity that you are so eager to defamer and slander Jim Hansen, that you completely forget the motto of this weblog, the ambition to be the best ‘scientific’ weblog on climate change;
because while holding on to this position, you are avoiding the main points of the ‘Hansen 2013’ article, that is the discussion on the ” doubling down on the Faustian bargain” as Hansen calls it;
I quote you again:
“but heck, Martin, report back to us on what you find, it should be good for at least a bitter laugh …”
so I did!
How can one slander someone who is so disingenuous ? This so called scientist (Hansen) looks to me to have finally seen the wheels coming off the AGW bus and is trying to cover his own ass!
Im not a scientist so I cannot qualify Mr Eschenbach”s science but I can read and have a reasonable memory and can apply common sense, these skills, sadly lacking up to now in the corrupt research emanating from Hansen and cohorts are in abundant this and most of Escenbachs posts (I say most as I wont claim to have read them all) Perhaps you should look up the meaning of slander??
Martin van Etten says:
March 31, 2013 at 5:38 pm
Listen, you obnoxious little man. You accused me of plagiarism, which in my world is a damn serious charge, and confirms you as a dirty little worm for making the charge without a scrap of evidence.
So I responded in a manner appropriate to such seriousness.
Now you want to say that the point is not plagiarism? That your accusation of plagiarism wasn’t important, it wasn’t the point?
Maybe you plagiarize so much that such an accusation isn’t the point with you, Martin, I don’t know. But in my world, I don’t get accused of that because I don’t do it. You want to accuse me of plagiarism and then get all uppity like I’m the one at fault when I takes your nasty accusation seriously?
Go away, and don’t come back until you’ve learned some manners.
And as to you whining that I did not read some specific one or the other of the SIXTY-ONE references in Hansen’s paper? The obvious problem is not that I have not read them.
The problem is that HANSEN has not read them, or if he has, he is misrepresenting them.
On second thought, Martin, don’t come back when you’ve learned some manners. Come back when you’ve learned some manners AND you can tell us with a straight face that YOU have read all sixty-one of the references … you’ve busted me for not doing something you haven’t done yourself, Martin.
But given your other accusations, I suppose that should come as no shock. You’ve revealed yourself to be as lacking in morals and scruples as is Hansen, you’re willing to accuse a man of plagiarism with no evidence at all. So I guess it shouldn’t surprise me that you’re willing to bust me for not doing something you haven’t done … and you wonder why the AGW side is losing the argument?
w.
Please forgive me for being slow. If this airborne fraction is decreasing, does that mean that proportionally more CO2 is being sequestered in the oceans and land? And, if that’s the case, then hasn’t Hansen shot a hole in global warming alarmism? And knowing how those guys operate, that seems unlikely, so I must not be getting something.
I would by far rather have coal powered power stations than nuclear!
Tad says:
March 31, 2013 at 7:16 pm
Please forgive me for being slow. If this airborne fraction is decreasing, does that mean that proportionally more CO2 is being sequestered in the oceans and land?
You are completely right: Hansen is going opposite to the “mainstream” IPCC scientists who said for years that several of the fast reacting CO2 sinks in nature were saturating, thus that the airborne fraction would increase over time and the first signs were already there. Now Hansen says the opposite, according to him thanks to increased coal burning.
In reality, it seems that there is little change over time and the year by year variability (mainly temperature dependent) levels off to a near fixed ratio:
http://www.ferdinand-engelbeen.be/klimaat/klim_img/acc_co2_1900_2004.jpg
But I need to make an update for the past years…
From a process viewpoint, that means that nature as a whole reacts as a simple linear first order process against a disturbance (in this case the human emissions) and the near fixed airborne fraction is the result of the slightly exponential increase of the emissions over time. With fixed emissions, the airborne fraction would go towards zero and CO2 levels asymptotic towards a new equilibrium higher than the old (temperature controlled) one.
att Mr Willis Eschenbach
you have not commented on the AND part of the first statement;
references 11 and 12 concern your false allegation that Hansen blames the decrease of airborn fraction of CO2 on Pinatubo;
he did not make such a statement, you did put him these words in his mouth, and than started blaming him!
unforutnately you did not correct this false conduct and your nonsense comment about “Pinatubo Nonsense”;
you don’t have to read all references, just read these two the forst one of the respected scientist Keeling (maybe you remember his name…) and the more recent from Gloor, Sarmiento & Gruber
a little copy paste into Google and you will find easyly these articles; why are you s stubborn, I even went to the library to read them fully;
than this nonsense, (I’m quoting you): “The problem is that HANSEN has not read them, or if he has, he is misrepresenting them.”
I have been fair and nice with you, but now you make me angry! I may be a “worm”, you are just a stupid stubborn child that cannot admit that he did something wrong (defaming Hansen with false allegations)
Willes, please think!
if Hansen is trying to make a point that the use of coal is causing some nitrogen fertilisation and extra CO2 uptake by the vegetation, t(hat together with the cooling because of aerosols, is preventing temperatures to rise in the last decennium) – in a period without volcanism – why should he emphasize the role of volcanism in the Pinatubo period? Please try to explain yourself! WHY?
To my way of thinking, it you are presenting a 7 year moving average, you start with data, say A1 to A7 for years say, 2001 to 2007, add them and divide by 7, then put this against 2004 – the mid year. Ditto for subsequent years, A2 to A8, etc. Eventually your last set of data is A12 for 2012. So you add A6 to A12, divide by 7 and put this against 2009, and THEN STOP! Is this wrong or too difficult?
To throw another cat into the dog fight, Arrhenius was writing around 1896, I think, about the global warming potential of carbon dioxide and other gases. I believe that he calculated the earth was on average about 15 C warmer, due to the atmosphere, than it would have been without it. But only a few years before had radio activity been discovered and it was not then realised that the earth was warm because of the decay of uranium and other radioactive elements. How much does heat from radioactivity contribute to the earth’s normal temperature? I have read in Environmental Home type magazines that you can harness geothermal heat for your house by surrounding it with an insulating layer several metres wide, and provided your house is properly insulated you can obtain a house internal temperature of around 15 C just from the leakage of heat upwards.
A final point, all the carbon dioxide in coal and oil, and in chalk, limestone and marble, was at one time in the atmosphere, and was sequestered by trees, and by diatoms/foraminifera. Yet there was no “Venusian” runaway greenhouse catastrophe. Why then should we fear one now, especially as it would be impossible to use ALL the coal and oil, and why convert chalk, etc, to atmospheric CO2?