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.
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Yes, entirely reasonable. It seems most likely that human activities, not confined to fossil fuel burning, are indeed raising the CO2 ppm in the atmosphere.
It is also clear that this will contribute a modest warming effect, that is just physics.
The debate is what, if anything, happens next. Does the effect get amplified by positive feedback, or reduced by negative feedbacks, or overwhelmed by other factors.
Dear Willis!
Out of topic but text for Figure 2 includes … land use/land cover (LU/LC) changes (green line), … It looks white to me (unless I am white/green colour blind).
Good luck with your work!
“So if you are going to believe that this is not a result of human activities”
I’m not comfortable with the use of the words “Believe” or “Disbelieve” in a scientific context. These words are more appropriate to discussions about religion and concepts which are not open to a process of proof.
To pull them into a scientific debate is to allow participants to think and respond in a less rigorous way than they ought.
I don’t have an issue with CO2 concentrations, however regarding your first and “most solid” argument, I wonder if the ice core data has not been “calibrated” or “adjusted” deliberately to match the Mauna Loa record.
Very convincing!
Question: when drawing Fig. 4, which lifetime have you assumed for CO2?
BANG!!!!!!!
The very flat CO2 records pre 1800 may be in part due to CO2 diffusion in ice, which potentially smooths variations that may be present during MWP, for example.
http://catalogue.nla.gov.au/Record/3773250
Not sure this changes any of your post-1800 arguments, tho.
RULES FOR THE DISCUSSION OF ATTRIBUTION OF THE CO2 RISE
Amen!
Was it something we said Willis?
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….
…and to bear in mind that the effect is not a ‘bump’ i.e. it’s unlikely to be not a one-off event or ‘shift’.
PS I’m not a supporter of the ‘catastrophic’ AGW argument. I’ve argued on RC with Michael Mann about the validity of his HS reconstruction, for example.
In addition to the evidence presented above, there are at least two further lines of evidence supporting the hypothesis that the CO2 increase is caused by humans:
– the decline in atmospheric O2 concentrations, measured by Ralph Keeling’s group. See https://bluemoon.ucsd.edu/images/ALLo.pdf Such declines are expected if the CO2 rise is due to combustion, but not if it were due to volcanism or ocean outgassing.
– the ocean surface is on average undersaturated in CO2 and there is net uptake CO2. Hence the rise in CO2 cannot be use to ocean outgassing, or submarine volcanoes. This uptake of CO2 will cause the ocean to become more acidic (==less alkaline). See for example https://bora.uib.no/handle/1956/2090?language=no
I’ve never used warmist as a term of abuse. What are we meant to call people who believe the “CO2 causes warming” theory?
My only objection to being called a denier is its lack of specificness. Especially since I don’t deny that the world is warming – although I do not believe some of he claims of the rate of warming. But as a term, per se, I don’t find denier offensive.
I’m inclined to accept that there is prima facie evidence for human activity being the cause.
However I would prefer to exclude all other possibilities before accepting that as definitive. Bear in mind that it matters not if the climate effect is negligible as seems likely for various reasons.
Areas where I have doubts are as follows:
i) How accurate are the historical methods of measurement on short timescales of say less than 500 years ? The MWP and LIA are not shown by historical CO2 records but current methods do pick up even seasonal variability at Mauna Loa. Perhaps the historical records pre 1850 are just too coarse ?
ii) Mauna Loa shows rapid seasonally related movements in the amount of CO2 recorded so the suggested 800 year lag does not seem to apply on shorter timescales.
iii) How variable is oceanic uptake in global as opposed to local terms ? Could it be that the oceans can provoke substantial changes in the atmospheric content of CO2 over certain timescales with a natural 500/1000 year cycling amounting to as much as say 50 % of the current background level ? The period 1850 to date covers a period of recovery from the LIA and the current ongoing methods of CO2 measurement show a corresponding trend but the historical methods pre 1850 show no such corresponding CO2 and temperature trends either up or down.
iv) We saw a slowdown in the CO2 upward trend in the mid 20th century when there was slight atmospheric cooling yet no corresponding changes with ongoing temperature changes appear in the historical record.
The evidence suggests a significant disjunction between the accuracy of the pre 1850 historical CO2 proxies as against post 1850 instrumental methods similar to the famous disjunction (the hockey stick) from the mid 20th century between tree ring based historical temperature proxies and the late 20th century thermometer recordings. In both cases one gets a hockey stick pattern which should not be apparent in light of what we know about the MWP and LIA from multiple other sources.
I wonder if there is also significance in both temperatures and CO2 levels being involved in tree growth. Could a similar problem with proxy methods be upsetting all of the pre 1850 non thermometer temperature records, pre 1850 CO2 and pre 1950 (that is when they seem to have started to go awry) tree growth proxies ?
There are enough questions to give doubt to the significance of the prima facie evidence of anthropogenic causation.
Certainly modern measuring methods clearly reflect a CO2 link with recent temperature changes but the proxy methods seem to lose the temperature signal altogether apart from what may be a seperate longer term signal in the form of that 800 year lag in the much older samples.
I agree with you.
But there is an argument that increased temperature can cause increased CO2 levels. I am not saying the temperature has increased and that is what has caused the CO2 concentration “hockey stick”. I am asking, what is the sensitivity of CO2 concentration to temperature… i.e. what kind of temperature increased would be required to produce that change in CO2? Presumably they would be massive temperature changes? Just wondering if anyone knows the figures.
Please let me stress the hypothetical nature of my point. I do not support it as a reason for the increase in CO2. I agree that the most likely reason (and the only sensible one I know of) is anthropogenic emmissions.
I would like to give some historic context to the CO2 debate in as much according to Willis’ graph the constancy of CO2 at 280ppm but the variability of temperatures over thousands of years appears to show that CO2 is a weak climate driver.
Graph 1 http://www.ourcivilisation.com/aginatur/cycles/fig3.htm
The above shows reconstructed temperatures to 1400. Many periods within the LIA were surprisingly warm as well as extremely cold -all of this apparently happening with a constant level of CO2.
Graph 2 Shows the temperature diagram used in the IPCC assessment 1990 (figure 7c page 202 assessment 1) This is at the top of page.
http://climateaudit.org/2008/05/09/where-did-ipcc-1990-figure-7c-come-from-httpwwwclimateauditorgp3072previewtrue/
Graph 3 The above was based on a number of graphs from Hubert Lamb (shown lower down the article linked above). The one below shows Winter severity in Europe, 1000 – 1900. Note two cold periods in the 15th and 17th centuries. Based on Lamb, 1969 / Schneider and Mass, 1975.1
Graph 4 Ice cores show constant levels of co2 on which Michael Mann based his hockey stick illustrating constant levels of temperature until the modern era. However when actual real world temperatures (CET) are graphed against total CO2 emissions we see that temperatures are not constant-in fact they are highly variable.
http://c3headlines.typepad.com/.a/6a010536b58035970c0120a7c87805970b-pi
Graph 5 If CET data to 1659 could be extended back in time from 1300AD to around 800AD (Lamb) it would cover the Medieval Warm Period with temperature levels somewhat higher than today, but again with its peaks and troughs. The Roman optimum warm period-around 300 BC to 400AD would also show temperatures at similar levels to the MWP but again with peaks and troughs. (Few extended climatic periods are unremittingly warm or cold).
Temperatures have trended up slowly since the low point of the LIA in the 1690’s. The following link contains a graph showing CET again.
http://cadenzapress.co.uk/download/beck_mencken_hadley.jpg
Looking at the climatic peaks and troughs illustrated in the graph stretching back from the modern era-and extending it with the various graphs through the LIA- it is a reasonable conclusion to draw that at a constant 280ppm that either CO2 is a weak climate driver, or that history has erased higher CO2 measurements that might explain those variations prior to the last half century, when our emissions are thought to be of such a significance that they are changing our climate.
This latter supposition was the approach I took in plotting a fraction of Beck’s records (shown as green dots) against CET records back to 1660 which appear on the graph linked above. Total cumulative man made CO2 emissions throughout this period are represented by the blue line along the bottom and come from CDIAC. In this respect it can be seen in context against all emissions plotted in graph 4 above.
The temperature spikes make much more sense with these additional CO2 measurement points, and bearing in mind the well documented temperatures back to Roman times and beyond-to levels greater than and less than today- it is reasonable to conclude that in as much CO2 is a contributor to the climate driver mechanism, it is as part of natural CO2 variability within the overall carbon cycle whereby nature makes a far greater contribution than man.
If there are no CO2 spikes (high and low) to match the temperature spikes (high and low) either;
a) The temperature spikes did not exist and Dr Mann is correct, or;
b) CO2 levels have had little or no effect on temperature in the past and it needs to be argued why they have suddenly become such a driving force today (despite temperatures today being unremarkable in a historic context).
Tonyb
‘Rules for discussion’, what a piece of work. Should be chiselled on the wall of every academic establishment everywhere. IMO.
Thank you once again, Willis, for the incredible amount of time and thought that goes into your articles, and for your clear exposition of the topic.
I guess it is an important question. If the increase of atmospheric CO2 is attributable to human activity, then it follows that it is possible for changes in human activity to reduce the rate of increase.
But of course, that is only relevant to those who think that reducing the rate of increase is important or desirable.
Okay Willis… you econo-freaka-nature you!
My brain always seems to find tangents to a topic that keep me entertained for hours. I am happy to accept that Willis has, as usual, done his homework properly and that he has made a properly reasoned and validated case for us humints being the cause of the rise of the quantity of CO2 in the atmosphere – but if CO2 is mostly plant food, is that not a GOOD THING that will help our food crops grow? And why does everyone bang on about fossil fuels? As I see it, the burning of non-fossil fuels such as dried cow dung, trees etc is also a problem due to soots etc given off, deforestation, etc.
Mr.Eschenbach, are you crazy? No, you’re not; you’ve given me a lot to think about. Thank you.
looks like the ‘sequestration curve’ is chasing the emissions curve. Is the difference going into oceans or biomass?
BOOM !!!
Is anyone seriously suggesting that the CO2 increase hasn’t, at least in part, been due to humans burning fossil fuels? Can we differentiate natural burning of fossil fuels from the data, and what contribution do they make to the overall CO2 source?
You have Willis’ surname spelt incorrectly at the top.
Willis,
Thanks for another informative post.
I really don’t care what camp someone is from, as long as their numbers add up.