Guest Post by Willis Eschenbach
There seem to be a host of people out there who want to discuss whether humanoids are responsible for the post ~1850 rise in the amount of CO2. People seem madly passionate about this question. So I figure I’ll deal with it by employing the method I used in the 1960s to fire off dynamite shots when I was in the road-building game … light the fuse, and run like hell …
First, the data, as far as it is known. What we have to play with are several lines of evidence, some of which are solid, and some not so solid. These break into three groups: data about the atmospheric levels, data about the emissions, and data about the isotopes.
The most solid of the atmospheric data, as we have been discussing, is the Mauna Loa CO2 data. This in turn is well supported by the ice core data. Here’s what they look like for the last thousand years:
Figure 1. Mauna Loa CO2 data (orange circles), and CO2 data from 8 separate ice cores. Fuji ice core data is analyzed by two methods (wet and dry). Siple ice core data is analyzed by two different groups (Friedli et al., and Neftel et al.). You can see why Michael Mann is madly desirous of establishing the temperature hockeystick … otherwise, he has to explain the Medieval Warm Period without recourse to CO2. Photo shows the outside of the WAIS ice core drilling shed.
So here’s the battle plan:
I’m going to lay out and discuss the data and the major issues as I understand them, and tell you what I think. Then y’all can pick it all apart. Let me preface this by saying that I do think that the recent increase in CO2 levels is due to human activities.
Issue 1. The shape of the historical record.
I will start with Figure 1. As you can see, there is excellent agreement between the eight different ice cores, including the different methods and different analysts for two of the cores. There is also excellent agreement between the ice cores and the Mauna Loa data. Perhaps the agreement is coincidence. Perhaps it is conspiracy. Perhaps it is simple error. Me, I think it represents a good estimate of the historical background CO2 record.
So if you are going to believe that this is not a result of human activities, it would help to answer the question of what else might have that effect. It is not necessary to provide an alternative hypothesis if you disbelieve that humans are the cause … but it would help your case. Me, I can’t think of any obvious other explanation for that precipitous recent rise.
Issue 2. Emissions versus Atmospheric Levels and Sequestration
There are a couple of datasets that give us amounts of CO2 emissions from human activities. The first is the CDIAC emissions dataset. This gives the annual emissions (as tonnes of carbon, not CO2) separately for fossil fuel gas, liquids, and solids. It also gives the amounts for cement production and gas flaring.
The second dataset is much less accurate. It is an estimate of the emissions from changes in land use and land cover, or “LU/LC” as it is known … what is a science if it doesn’t have acronyms? The most comprehensive dataset I’ve found for this is the Houghton dataset. Here are the emissions as shown by those two datasets:
Figure 2. Anthropogenic (human-caused) emissions from fossil fuel burning and cement manufacture (blue line), land use/land cover (LU/LC) changes (white line), and the total of the two (red line).
While this is informative, and looks somewhat like the change in atmospheric CO2, we need something to compare the two directly. The magic number to do this is the number of gigatonnes (billions of tonnes, 1 * 10^9) of carbon that it takes to change the atmospheric CO2 concentration by 1 ppmv. This turns out to be 2.13 gigatonnes of carbon (C) per 1 ppmv.
Using that relationship, we can compare emissions and atmospheric CO2 directly. Figure 3 looks at the cumulative emissions since 1850, along with the atmospheric changes (converted from ppmv to gigatonnes C). When we do so, we see an interesting relationship. Not all of the emitted CO2 ends up in the atmosphere. Some is sequestered (absorbed) by the natural systems of the earth.
Figure 3. Total emissions (fossil, cement, & LU/LC), amount remaining in the atmosphere, and amount sequestered.
Here we see that not all of the carbon that is emitted (in the form of CO2) remains in the atmosphere. Some is absorbed by some combination of the ocean, the biosphere, and the land. How are we to understand this?
To do so, we need to consider a couple of often conflated measurements. One is the residence time of CO2. This is the amount of time that the average CO2 molecule stays in the atmosphere. It can be calculated in a couple of ways, and is likely about 6–8 years.
The other measure, often confused with the first, is the half-life, or alternately the e-folding time of CO2. Suppose we put a pulse of CO2 into an atmospheric system which is at some kind of equilibrium. The pulse will slowly decay, and after a certain time, the system will return to equilibrium. This is called “exponential decay”, since a certain percentage of the excess is removed each year. The strength of the exponential decay is usually measured as the amount of time it takes for the pulse to decay to half its original value (half-life) or to 1/e (0.37) of its original value (e-folding time). The length of this decay (half-life or e-folding time) is much more difficult to calculate than the residence time. The IPCC says it is somewhere between 90 and 200 years. I say it is much less, as does Jacobson.
Now, how can we determine if it is actually the case that we are looking at exponential decay of the added CO2? One way is to compare it to what a calculated exponential decay would look like. Here’s the result, using an e-folding time of 31 years:
Figure 4. Total cumulative emissions (fossil, cement, & LU/LC), cumulative amount remaining in the atmosphere, and cumulative amount sequestered. Calculated sequestered amount (yellow line) and calculated airborne amount (black) are shown as well.
As you can see, the assumption of exponential decay fits the observed data quite well, supporting the idea that the excess atmospheric carbon is indeed from human activities.
Issue 3. 12C and 13C carbon isotopes
Carbon has a couple of natural isotopes, 12C and 13C. 12C is lighter than 13C. Plants preferentially use the lighter isotope (12C). As a result, plant derived materials (including fossil fuels) have a lower amount of 13C with respect to 12C (a lower 13C/12C ratio).
It is claimed (I have not looked very deeply into this) that since about 1850 the amount of 12C in the atmosphere has been increasing. There are several lines of evidence for this: 13C/12C ratios in tree rings, 13C/12C ratios in the ocean, and 13C/12C ratios in sponges. Together, they suggest that the cause of the post 1850 CO2 rise is fossil fuel burning.
However, there are problems with this. For example, here is a Nature article called “Problems in interpreting tree-ring δ 13C records”. The abstract says (emphasis mine):
THE stable carbon isotopic (13C/12C) record of twentieth-century tree rings has been examined1-3 for evidence of the effects of the input of isotopically lighter fossil fuel CO2 (δ 13C~-25‰ relative to the primary PDB standard4), since the onset of major fossil fuel combustion during the mid-nineteenth century, on the 13C/12C ratio of atmospheric CO2(δ 13C~-7‰), which is assimilated by trees by photosynthesis. The decline in δ13C up to 1930 observed in several series of tree-ring measurements has exceeded that anticipated from the input of fossil fuel CO2 to the atmosphere, leading to suggestions of an additional input ‰) during the late nineteenth/early twentieth century. Stuiver has suggested that a lowering of atmospheric δ 13C of 0.7‰, from 1860 to 1930 over and above that due to fossil fuel CO2 can be attributed to a net biospheric CO2 (δ 13C~-25‰) release comparable, in fact, to the total fossil fuel CO2 flux from 1850 to 1970. If information about the role of the biosphere as a source of or a sink for CO2 in the recent past can be derived from tree-ring 13C/12C data it could prove useful in evaluating the response of the whole dynamic carbon cycle to increasing input of fossil fuel CO2 and thus in predicting potential climatic change through the greenhouse effect of resultant atmospheric CO2 concentrations. I report here the trend (Fig. 1a) in whole wood δ 13C from 1883 to 1968 for tree rings of an American elm, grown in a non-forest environment at sea level in Falmouth, Cape Cod, Massachusetts (41°34’N, 70°38’W) on the northeastern coast of the US. Examination of the δ 13C trends in the light of various potential influences demonstrates the difficulty of attributing fluctuations in 13C/12C ratios to a unique cause and suggests that comparison of pre-1850 ratios with temperature records could aid resolution of perturbatory parameters in the twentieth century.
This isotopic line of argument seems like the weakest one to me. The total flux of carbon through the atmosphere is about 211 gigtonnes plus the human contribution. This means that the human contribution to the atmospheric flux ranged from ~2.7% in 1978 to 4% in 2008. During that time, the average of the 11 NOAA measuring stations value for the 13C/12C ratio decreased by -0.7 per mil.
Now, the atmosphere has ~ -7 per mil 13C/12C. Given that, for the amount of CO2 added to the atmosphere to cause a 0.7 mil drop, the added CO2 would need to have had a 13C/12C of around -60 per mil.
But fossil fuels in the current mix have a 13C/12C ration of ~ -28 per mil, only about half of that requried to make such a change. So it is clear that the fossil fuel burning is not the sole cause of the change in the atmospheric 13C/12C ratio. Note that this is the same finding as in the Nature article.
In addition, from an examination of the year-by-year changes it is obvious that there are other large scale effects on the global 13C/12C ratio. From 1984 to 1986, it increased by 0.03 per mil. From ’86 to ’89, it decreased by -0.2. And from ’89 to ’92, it didn’t change at all. Why?
However, at least the sign of the change in atmospheric 13C/12C ratio (decreasing) is in agreement with with theory that at least part of it is from anthropogenic CO2 production from fossil fuel burning.
CONCLUSION
As I said, I think that the preponderance of evidence shows that humans are the main cause of the increase in atmospheric CO2. It is unlikely that the change in CO2 is from the overall temperature increase. During the ice age to interglacial transitions, on average a change of 7°C led to a doubling of CO2. We have seen about a tenth of that change (0.7°C) since 1850, so we’d expect a CO2 change from temperature alone of only about 20 ppmv.
Given all of the issues discussed above, I say humans are responsible for the change in atmospheric CO2 … but obviously, for lots of people, YMMV. Also, please be aware that I don’t think that the change in CO2 will make any meaningful difference to the temperature, for reasons that I explain here.
So having taken a look at the data, we have finally arrived at …
RULES FOR THE DISCUSSION OF ATTRIBUTION OF THE CO2 RISE
1. Numbers trump assertions. If you don’t provide numbers, you won’t get much traction.
2. Ad hominems are meaningless. Saying that some scientist is funded by big oil, or is a member of Greenpeace, or is a geologist rather than an atmospheric physicist, is meaningless. What is important is whether what they say is true or not. Focus on the claims and their veracity, not on the sources of the claims. Sources mean nothing.
3. Appeals to authority are equally meaningless. Who cares what the 12-member Board of the National Academy of Sciences says? Science isn’t run by a vote … thank goodness.
4. Make your cites specific. “The IPCC says …” is useless. “Chapter 7 of the IPCC AR4 says …” is useless. Cite us chapter and verse, specify page and paragraph. I don’t want to have to dig through an entire paper or an IPCC chapter to guess at which one line you are talking about.
5. QUOTE WHAT YOU DISAGREE WITH!!! I can’t stress this enough. Far too often, people attack something that another person hasn’t said. Quote their words, the exact words you think are mistaken, so we can all see if you have understood what they are saying.
6. NO PERSONAL ATTACKS!!! Repeat after me. No personal attacks. No “only a fool would believe …”. No “Are you crazy?”. No speculation about a person’s motives. No “deniers”, no “warmists”, no “econazis”, none of the above. Play nice.
OK, countdown to mayhem in 3, 2, 1 … I’m outta here.
FrankS says:
June 7, 2010 at 4:51 am
For instance the ice cores show a 800 year lag between temp and CO2. So should there be an estimate for this type of change factored in.
The fact that it’s been around 800 years since the Medieval Warm Period should be considered too.
I notice Beck didn’t get a mention either.
“I will start with Figure 1. As you can see, there is excellent agreement between the eight different ice cores, including the different methods and different analysts for two of the cores. There is also excellent agreement between the ice cores and the Mauna Loa data. Perhaps the agreement is coincidence. Perhaps it is conspiracy. Perhaps it is simple error. Me, I think it represents a good estimate of the historical background CO2 record.”
No conspiracy is required, it’s just human psychology. There’s a famous example in physics of just this kind of behavior. In the early 1900s R.A. Millikan discovered that the charge of the electron is quantized, but he got the actual value wrong. It took a long time and many experiments to finally arrive at the right value. If someone measured a value that differed from the original one, they would look for errors until they got agreement with Millikan and stop there, instead of looking for all possible sources of error.
Get yer butt back here, no lighting this fuse then running for the hills…. LOL
Sorry but pretty graphs and nice numbers mean nothing when they only talk about the tiniest percentage of the history of something….anything.
Have we not been over that fact on this site time and time again. 1 thousand years out of 4.5 billion, what it that!
You must start at the beginning.
The first step in understanding must be to say has this happened before. If yes then can we determine why. If no, this is the first time, then we start from the beginning and move forward to see what changed to bring about this increase.
In the case of our little blue marble we have seen from the ice cores that indeed there has been much higher levels of CO2 in the past.
There was a cause then and we know it was not our ancestors running around in there Flintstone cars. Have we determined this cause?? Have we looked for this cause in our last one thousand year time period?
My god man how would you feel if you were present at a murder scene along with the rest of the crowd and the police suddenly turn to you as the guilty party?
You ask them why and they simply say you are here.
Now gather up your notes, take them outside and as a true offering for forgiveness burn them and add your bit of CO2 to the skies.
Once you’ve warmed yourself by the fire as your ancestors once did, seen the immenseness of the sky, felt your insignificance on this giant marble of which we occupy very little space, come back in and start at the beginning.
What was going on in the past that caused the gas levels to change, WHICH gas levels changed the most, did the warmth come before the gas change or after…..while your pondering that one have a beer or two, maybe one in a glass in the fridge and one in a glass on a hot patio.
Oh yes and in an attempt to provide reading material with yet more pretty graphs but at least on a grander scale take a peek at this.( probably 50 articles to refute it as the debate continues)
Nasif Nahle. 2007. Cycles of Global Climate Change. Biology Cabinet Journal Online. Article no. 295.
In the end I agree with Mr. Willis Eschenbach, as the CO2 level has little or nothing to do with the temperature. The debate over CO2 levels is minor in nature and only proves what Einstein said “Not everything that can be measured is important. And not everything that is important can be measured.” At least I think he said this.
Willis said: “So if you are going to believe that this is not a result of human activities, it would help to answer the question of what else might have that effect. It is not necessary to provide an alternative hypothesis if you disbelieve that humans are the cause … but it would help your case. Me, I can’t think of any obvious other explanation for that precipitous recent rise.”
Could not the answer be “the same thing, or things, that caused similar atmospheric CO2 rises in the past”?
If you would say anthropogenic CO2 emissions “may” be causing, or causing a portion, of the recent rise, then you and Richard S. Courtney would appear to be in agreement, would you not?
Isn’t it a bit silly, and IPCCian, to state that if a person truly don’t have another viable hypotheses that can explain the increase in carbon emission, that fairly fits the world increase of tomato use or population or the number of new rice fields or et cetera, then people can’t speak their mind, less they wanna pretty much be ignored.
But essentially in the year of 1850, and before like, and even though the whole world was in a coal burning frenzy and not only from industrialization but also from private coal fired heater and boilers, they somehow only manage to emit about 0.5 gigatonne of carbon.
Personally I just don’t see it.
Humans are most certainly the cause of the recent CO2 increase. A simple graph comparing CO2 with the population should offer an important hint:
http://voksenlia.net/met/co2/pop.jpg
I find it a bit interesting that the correlation between population and CO2 is roughly the same for the past centuries. Does it mean that the level of technology is not that relevant? That a pre-industrial society causes roughly the same CO2 increase per person as the modern society?
Juraj V. says:
June 7, 2010 at 2:53 am
“….Today, the rate of CO2 rise plays well with SST data.
http://climate4you.com/images/CO2%20MaunaLoa%20Last12months-previous12monthsGrowthRateSince1958.gif1998 El Nino is clearly visible, also La Nina and volcanic eruptions. But strange that 2007 La Nina is not visible. More, as oceans start to cool, the rate of rise stabilizes.”
____________________________________________________________________
I would like to look at that but the link seems to be broken.
[Reply: It may be this:
http://www.climate4you.com/images/GISS%20GlobalMonthlyTempSince1958%20AndCO2.gif
or this:
http://www.climate4you.com/images/CO2%20MaunaLoa%20Last12months-previous12monthsGrowthRateSince1958.gif
~dbs]
Agrtee completely, I think this post is the right answer. CO2 increase is human caused, but the increase in CO2 is responsible for only part of, and maybe a very small part of, the temp rise. Just wait, if the sunspots dont come back and we have a very weak solar cycle, well…
The debate about what causes CO2 concentration in the atmosphere is pointless. What matters is: does the increase in CO2 concentration cause warming? The whole thing is about Global Warming, not about CO2 concentration. To indicate that CO2 increase causes warming, you would need to present a curve where temperature oscillations match CO2 concentration, and that curve clearly does not exist for the last 1000 years, nor for the last 150 years.
There is a rule for sales´men: Never, Never, mention the name of your competition, because it would inmediately increase its sales. That is what this post is, consciously or unconsciously doing, paving the way to Cancun.
Gail Combs says:
June 7, 2010 at 7:01 am
Juraj V. says:
June 7, 2010 at 2:53 am
“….Today, the rate of CO2 rise plays well with SST data.
http://climate4you.com/images/CO2%20MaunaLoa%20Last12months-previous12monthsGrowthRateSince1958.gif1998 El Nino is clearly visible, also La Nina and volcanic eruptions. But strange that 2007 La Nina is not visible. More, as oceans start to cool, the rate of rise stabilizes.”
____________________________________________________________________
I would like to look at that but the link seems to be broken.
Delete the terminal ‘1998’ and it works.
Geoff Smith says:
June 7, 2010 at 6:43 am
Now gather up your notes, take them outside and as a true offering for forgiveness burn them and add your bit of CO2 to the skies.
http://biocab.org/carbon_dioxide_geological_timescale.html
You make a good case for human-caused increase in atmospheric CO2. The rise in CO2 levels since 1945 is unprecedented in many thousands of years of geologic history and no natural cause (including volcanic activity) is known to be capable of producing the rise n CO2 over that past 65 years.
So let’s assume that humans have caused the rise in CO2. That still begs the question of whether or not the increase in CO2 is the cause of global warming. CO2 makes up 0.038% of the atmosphere, accounts for only 3.6% of the greenhouse effect, and has increased only 0.008% since ~1945.
‘CO2-pushers’ (for lack of a better term) claim this is enough to increase atmospheric water vapor (which accounts for ~95% of the greenhouse effect) and cause warming. The problem with this is that they haven’t demonstrated that water vapor has increased at all, and in fact, some data suggests decreases in water vapor over past decades.
We have had four climate shifts in the past century (cool, 1880-1915; warm, 1915-1945; cool, 1977-1999; cool, 1999-2010), and Greenland ice core data shows that we have had 40 similar warm/cool oscillations in the past 500 years and temperature increases of up to 15 degree F in as little as 40 years, none of which could possibly be caused by human-made CO2 because they all occurred before CO2 levels rose. Conclusion–naturally caused climatic fluctuations have been commonplace for tens of thousands of years without any relationship to CO2 (other than CO2 goes up after warming occurs).
So my question for you, Willis, is how about doing the same kind of analysis of atmospheric water vapor changes as you did with CO2 and calculating the total maximum effect CO2 by itself–then lite the fuse and run like hell!
The discussion about CO2 is incomplete without a long-range historical graph showing CO2 concentrations over the geologic record so the current trend/amount can be put into perspective. Then of equal interest would be the cause of these CO2 concentrations that far exceed current levels. And while there is little doubt that (some/much/most) of the current up-tick is anthropogenic, the causes that propelled CO2 in the past to much higher levels than we currently see should be discussed, as those were certainly not anthropogenic.
Thanks Hopper for the Stauffer & Berner paper, that clears many things. If I open my mouth further on this subject I’m afraid I might cross one of those lines, so, like Willis, I’m outta here.
(Oh, stick to the numbers… 2.18 seems closer than 2.13)
Re Fig 1. Levels of CO2 do not start to rise in 1850, the rise begins in 1750 or slightly earlier. This ties in nicely with Ferdinand Engelbeen’s graph of 12C/13C ratios which also show divergence beginning in the nmiddle of the 18th century.
Explanations of human interference with the atmosphere should begin around 1750.
JF
With respect to residence time in the atmosphere, I understand that the A bomb tests of the 1950s showed the half life to be five years. This means that the atmosphere is in equilibrium with part of the oceans with a lag of only a few years. My caculations say that on average it is the top 100 metres.
The CDIAC is the nuclear industry’s contribution to global warming hysteria. If you look at their experiments on the growth response of plants to increased CO2, they added ozone to their artificial atmospheres in order to get a negative response.
The cooling of the next 20 years should result in a flat atmospheric CO2 trend.
Can i just point out that if your study doesn’t support the earth is turning into a giant fan-assisted over hypothesis then you’re not getting a grant.
Great work Mr Willis as direct and clear for us novices as ever.
The title is misleading. What’s there to blame anyone for in this piece?
The Keeling curve is so damn perfect it makes one wonder.
Where is Becks curve in the summary? Without it you don’t have the full story. How do we know that the ice core data is accurate? Maybe glacial scientists are just making the same systematic error – there seems to be a lot of assumptions built into gas analysis of ice cores? A lot of things have not been taken into consideration – for example the biology of the snow that creates the ice:
http://www.aad.gov.au/default.asp?casid=2437
Again, if this is correlation = cause, as promulgated by the CAGW, then why don’t we see decreases in CO2 at ML along with decreased fossil fuel consumption and industrial activity by humans during the early 70’s, early 80’s (especially the early 80’s), early 90’s, late 90’s, etc.? Even if there is a lag in response, the decrease should show up? I don’t see it.
And as
Steve Keohane says:
June 7, 2010 at 6:18 am
the contribution of anthropogenic CO2 is utterly overwhelmed by natural sources of CO2 emission, particularly that fluxing in and out of the oceans. The idea that anyone can track anthropogenic CO2 in the midst of these fluxes is just silly, but I suppose careers certainly have been built on far less.
Paul Linsay says:
June 7, 2010 at 6:40 am
No conspiracy is required, it’s just human psychology. There’s a famous example in physics of just this kind of behavior. In the early 1900s R.A. Millikan discovered that the charge of the electron is quantized, but he got the actual value wrong. It took a long time and many experiments to finally arrive at the right value. If someone measured a value that differed from the original one, they would look for errors until they got agreement with Millikan and stop there, instead of looking for all possible sources of error.
This result was actually controversial and Ehrenhaft and his collaborators in particular contested it, consequently there is no chance that deviations from the Millikan value would be ignored. The modern value for e differs from Millikan’s by less than 1% which is mostly due the the modern value for the viscosity of air.
One thing/question I would like to insert about the Mauna Loa CO2 data; http://www.esrl.noaa.gov/gmd/ccgg/trends/
shouldn’t there be any reflection of the large volcanic eruptions during that period – mainly Mt. St. Helens(1980), El Chichon (1982), Mt. Pinatubo(1993), etc. ? Looking at the Full Mauna Loa CO2 record and the Annual Mean Growth Rate for Mauna Loa for those years & shortly after, there is nothing to suggest anything volcanic happened as opposed to the SO2 levels during those same times.
Does it take a Yellowstone-type eruption to make a mark on those measurements or is something else up?
Just wondering…Jeff
Stockholm syndrome anyone?
In psychology, Stockholm syndrome is a term used to describe a paradoxical psychological phenomenon wherein hostages express adulation and have positive feelings towards their captors that appear irrational in light of the danger or risk endured by the victims
http://en.wikipedia.org/wiki/Stockholm_syndrome
RockyRoad says:
“The discussion about CO2 is incomplete without a long-range historical graph showing CO2 concentrations over the geologic record so the current trend/amount can be put into perspective.”
Here’s one chart of the geological record. [click on the chart to embiggen]