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.
The history of the last 10,000 years clearly tells us that -despite Dr Mann’s work-the climate goes up and down like a yo yo. It has at times been rather warmer than today and at times much colder. If Co2 has been constant throughout this period it has surely been a very weak climate driver. We need to be told why it has now changed its characteristics and become a much more powerful climate driver in the modern era compared to the past.
The only other credible scenario is that-as would be expected- CO2 does fluctuate in some sort of reflection of the warm and cold periods the Earth experiences as oceans outgas or absorb it. What seems likely, if this alternative scenario is correct, is that the proxies-primarily ice cores-are not an accurate reflection of real world CO2 levels.
There is far too much evidence of warmer and colder times to believe that Dr Mann is correct and that his barely fluctuating temperature scenario can be set neatly besides a similarly flat co2 concentration.
So in conclusion either CO2 is, at best, a weak climate component, or that past levels have not been accurately recorded by ice cores. In either scenario surely CO2 is merely responding to the climate that preceded it, not causing it.
Tonyb
Oslo says:
June 7, 2010 at 3:53 am
Well, as you say – your first graph resembles the Mann hockey stick, and perhaps for good reason, as it seems to utilize the good old “trick” – splicing the instrumental record onto the proxy data.
Here is another graph, clearly showing the instrumental data (red) disjointed from the proxies:
http://www.geo.cornell.edu/eas/energy/_Media/ice_core_co2.png
So the question is, as with the hockey stick: do the figures from the two methods even belong on the same graph?
_________________________________________________________________________
Thank you for that graph. What I see as interesting is the many data points below 200 ppm. Some as low as about 170 or 180 PPM. At these levels some types of plants have great difficulty growing and reproducing. Do we have evidence of massive plant die offs to substantiate the ice core numbers?
At 180 ppm to 200 ppm C3 plants (trees) would have a very difficult time competing with C4 plants (grasses) and could not complete their life cycles especially in warmer or drought (ice age) conditions. Low levels of CO2 also leads to leaf loss to conserve moisture and slow rates of growth in C3 and C4 plants. A history of atmospheric CO2 and its effects on plants, animals, and ecosystems
By J. R. Ehleringer,
Elephants eat trees, that is why they developed trunks. So what did mastodons and woolly mammoths eat?
“elephants:
* Spend 16 to 18 hours a day either feeding or moving toward a source of food or water.
* Consume between 130 to 660 pounds (60 to 300 kg) of food each day.
* Drink between 16 to 40 gallons (60 to 160 l) of water per day.
* Produce between 310 to 400 pounds (140 to 180 kg) of dung per day.
mastodons and mammoths:
…mammoths had ridged molars, primarily for grazing on grasses, mastodon molars had blunt, cone-shaped cusps for browsing on trees and shrubs. Mastodons were smaller than mammoths, reaching about ten feet at the shoulder, and their tusks were straighter and more parallel. Mastodons were about the size of modern elephants,
From the preserved dung of Columbian mammoths found in a Utah cave, a mammoth’s diet consisted primarily of grasses, sedges, and rushes. Just 5% included saltbush wood and fruits, cactus fragments, sagebrush wood, water birch, and blue spruce. So, though primarily a grazer, the Columbian mammoth did a bit of browsing as well. Mammoths
And how about the Giant Sloth
“The giant ground sloth was one of the enormous creatures that thrived during the ice ages. Looking a little bit like an oversized hamster it probably fed on leaves found on the lower branches of trees or bushes. The largest of these ground sloths was Megatherium which grew to the size of a modern elephant with a weight over five tons.
Giant Sloths had very large, dangerous-looking claws. Despite their size they were probably only used to strip leaves or bark from plants. Their teeth were small and blunt in keeping with their herbivore diet. Examinations of their hip bones suggests that they could stand on their hind legs to extend their grazing as high as twenty feet. “
How could these creatures be eating trees when the CO2 levels were at 180 ppm and trees were all but extinct? For that matter given browsing pressure and problems with growing enough to produce seed why didn’t trees become completely extinct? like this?
” Juraj V. says:
[…]
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.
”
That’s a beautiful illustration of what Beenstock & Reingewertz found out – that the temperature anomaly can not be (Granger-)caused by the level of CO2 but only by the differential of the CO2 level, if at all.
The thread about their paper is here:
http://wattsupwiththat.com/2010/02/14/new-paper-on/
There is no doubt in my mind that the CO2 measurements from Mauna Loa and other stations of the same type around the world the are solid, and that the steady exponential rise is they show directly are related human activity one way or another the most likely causes being the that of land use change and a fossil fuel burning used in our somewhat antique power generation technology. I also accept the ice core data as good proxy for the baseline ~280 ppmv CO2 pre-industrial atmospheric concentration, I just little pussled by th small variation (+/- 2ppmv I belive) it shows for the last 2000 years or ,beforehan I would have thougt we should see greater variations, so there is a wisp of a suspion that maybe we are missing something essential there, but ist not very strong or well founded.
But what prompted my comment here was this part of a comment from Ian Hayes
…” I find it interesting that the sequestration rate seems to be getting larger – it is trending above the exponential line.” ….
It reminded me that I had somtime back in time come across a ( now slightly aged it is a critique of some part in the IPCC AR3 report rather than the latest and now much ridiculed AR4) paper by Dr. Jarl Ahlbeck at the (late) John Daly’s website
the link is here , Alhbeck : CO2 Sink 1970-2000…
http://www.john-daly.com/ahlbeck/ahlbeck.htm
It’s an anlysis of resent past and a future forcasting exercise for atmospheric CO2 concentration attributable to human activity, the math is nothing exotic and easy to work through , and I at least can find no fault with it.
What struck me was his his result that the fraction of human CO2 emission ending up in the athmosphere for each year had gone down from either 52% to 39% or 69% to 49% depending on whether the figure for land use change estimate is included in total emission or not.
If he is right and this is not an a spurious signal somehow related to the data from 1970-2000 period that he is using but a the there is a large CO2 sink unaccounted for in the UN dream models eating up an ever larger slice of anthropogenic emission, an he project that the airborne fraction would go down below 20 % by year 2100.
I just wonder what could this sink be , if it exists
” Bart says:
June 7, 2010 at 11:34 am
The problem with this chart is that you are arbitrarily assuming one type of exponential decay for the anthropogenic component of CO2, and implicitly an entirely other, and faster, one for natural CO2. Aside from extremely minor isotopic distribution differences, nature essentially cannot tell the two molecules apart. ”
Plants can: “Carbon 13 is also a stable isotope, but plants prefer Carbon 12 ”
from
http://environmentalchemistry.com/yogi/environmental/200611CO2globalwarming.html
Steve in SC says:
June 7, 2010 at 5:17 am
Busted. Glad someone caught it … my last foray into mangled quotations was:
But nobody busted me for that one …
Also, the title of my last post, “Under the Volcano, Over the Volcano” was a riff on Malcolm Lowry.
Ah, well. As the poet sez …
That’s me, blushing unseen … riiiight …
w.
What is the estimated intake versus outtake of carbon in the oceans at the varying SST’s? From 0C to 30C, what are the ratios in tonnes every 1C?
stevengoddard says:
June 7, 2010 at 6:09 am
Interesting, Steve, I’d never heard of that thought. Do you have any numbers on that (amount absorbed vs amount emitted)?
Martin says:
“Although it would be interesting to know how much (globally) fermentation produces.”….
I challenge warmists to actually live their nonsense by giving up ALL, yes ALL, carbonated beverages. why? Because they are a major source of useless CO2 being ‘freed’ in our system. Millions of bottles an hour being opened must have some effect, and since they are a LUXURY, not a necessity of life, then those most concerned would gladly give up their drink–not a day, or week, but forever. If not, then they are just bandwagoneers on for the ride with little belief in their own ‘belief’.
Try it. Figure it out. To warmists, ALL luxury items contributing must shut down. I guarantee you with all that I am, very few, would give up a beer, or coke, or spritzer for their cause. You will know them by their actions.
Just how much CO2 is released? I don’t know, but EVERY bottle opened is a needless addition in their mind… or should be.
Willis – AGW supporter sounds like a jock strap and AGW believer sounds like a cult member ; I personally prefer Alarmist. It has been my experience that people that consistently preach doom and gloom are consistently wrong : e.g. Paul Ehrlich.
Dave Springer says:
June 7, 2010 at 9:22 am
‘You see, starting with the Clean Air Act of 1963 the US has dramatically reduced the amount of soot it pumps into the atmosphere. No other country in the world has come close to matching that effort. ‘
I disagree. The UK’s Clean Air Act dates from 1956. The fall of the Berlin Wall and the transformation of the former USSR did much the same for vaste swathes of eastern Europe and former Soviet countries.
Other commenters have suggested that this mass removal of aerosols from the atmosphere might have contributed to whatever warming we saw in the latter part of the 20th century.
phlogiston says:
June 7, 2010 at 12:07 pm
You are arguing an entirely different matter. I am not speaking of two molecules specifically defined on a technical level. I am speaking of a naturally occurring molecule and an anthropogenically released one. One sample may be ever so slightly likely to have a different number of neutrons that the other, but across the entire ensemble of natural and anthropogenically released molecules, there is little difference.
KDK,
Don’t forget toilet paper, which is made from beneficent CO2-sequestering trees. According to Laurie David, one sheet is enough. Anything more is a luxury.
I wouldn’t want to be downwind from Ms David.
Pyromancer76 says:
June 7, 2010 at 6:10 am
As I said before, numbers beat opinions. Do you have any evidence that the ice core data has been “neatly fitted”? That’s why I used ice core data from eight different cores, analyzed by nine different investigators. If you think there is collusion between all of them to “fit” the ice core data to a preconceived value, you need to provide some evidence.
Also, the only data that I said was reasonably solid is the Mauna Loa data. The rest has varying degrees and types of problems. But it’s the best we have.
The CDIAC data is based in large part on the country reporting. However, it is quite similar to data used by the Europeans and the US EPA. Yes, I’m sure that there are errors … but I think it is reasonably good. This is supported by the good fit between the emissions data and the atmospheric CO2 data.
While the issue raised by Slioch (called the “Revelle effect”) does change the numbers, it does so only marginally. I made a conscious decision not to discuss it, as it does not add to the evidence either for or against the theory of anthropogenic origin of the CO2 rise. The Revelle effect is small, and it will only show up in the long term. At present, we don’t have enough years of data to determine if it is real, or to estimate its size from the observations.
Both the ice age data and the underlying chemistry suggest that the kind of temperature rise you are talking about (a degree or two) would make only a very small difference in the atmospheric CO2 levels (on the order of 10 ppmv or so). This is hardly visible in Figure 1 (although I note that the Law Dome record dips by about that amount around 1650). I doubt that the 95% CI on the ice core data is that small.
Short answer? Yes, all of the datasets in climate science leave a lot to be desired. But they are all that we have, so all we can do is use them, and keep the caveats visible.
w.
DirkH says:
June 7, 2010 at 12:27 pm
You did it, too. Sorry I confused the matter with an unfortunate turn of phrase. I am not separating molecules into 12C and 13C. The difference in isotopic distribution in naturally and anthropogenically generated CO2 is negligible in terms of how rapidly they should be reabsorbed.
The Real Co2 site by Ernst-Georg Beck is very interesting:
http://www.biomind.de/realCO2/realCO2-1.htm
Especially the Atmospheric CO2 Background 1826-1960 diagram:
http://www.biomind.de/realCO2/bilder/CO2back1826-1960eorevk.jpg
Seems a lot more natural and believable than the ice core flat lining….
Willis,
Another excellent essay. It would have been a perfect essay if you had been able to integrate the plant stomata and GeoCarb data with the ice core data. I think you’d find that the resolution of the ice core data are insufficient and that they consistently run 15 to 40 ppmv lower than the global average. Van Hoof et al., 2005 demonstrated that the ice core CO2 data essentially represent a low-frequency, century to multi-century moving average of past atmospheric CO2 levels.
This blog post might be of some interest: CO2: Ice Cores vs. Plant Stomata.
Based on the stomata data, I think that century-scale variations of CO2 from 275 to 360 ppmv have not been uncommon during the Holocene. I just don’t think the ice cores can resolve those variations.
The West Antarctic Ice Sheet Divide Ice Core Project may yield some much higher resolution Antarctic ice core data than has thus far been available.
mkelly says:
June 7, 2010 at 6:13 am
That’s called the “fallacy of the excluded middle”.
I also doubt that he intentionally lied to Congress. However, he gives no reference to his “original” Siple data, so his claim can’t be verified.
In addition, he claims that to adjust his unverified “original” data, that:
The reason that the air in ice cores is younger than the ice is well understood, and is not disputed by anyone in the field but Jaworowski.
In addition, the air in the Siple cores was found to be younger than the ice by 30 years in two of the cores, and by 58 years in another core. In no case was it “arbitrarily decreed” to be “exactly 83 years younger”.
So in my opinion, Prof. Jaworowski didn’t lie … but he was mistaken. That’s the “middle” that you excluded.
w.
Bart says:
June 7, 2010 at 11:34 am
One way I may have led others astray is that, in the first sentence of my third paragraph, I did talk about the 13C/12C ratio question. But, this sentence was unrelated to the previous two paragraphs. In the first two, I explain why the anthropogenic attribution hypothesis is implausible. In the third, I explain the reasons why I believe the evidences are questionable. I sum these together in the penultimate sentence:
“So, overall, you have questionable evidence supporting an implausible hypothesis.”
tallbloke says:
June 7, 2010 at 6:23 am
Good to see you too, tallbloke. I thought my response to Dr. Ravetz was free of ad hominem attacks, but of course, YMMV.
My language was extreme because, as a result of Dr. Ravetz’s inanities, I have suffered innumerable personal attacks because I don’t buy into his nonsense. In addition, his “post-normal science” theory is responsible in part for the destruction of good scientific practice we see in too much of climate science.
I’m passionate about both of those issues … so sue me.
We now return you to your regularly scheduled dynamite explosion …
Willis: Would be very interesting to see you splice the Mauna Loa CO2 data onto Beck’s CO2 data in one of your nice graph… I am not holding my breath… but i will keep my fingers crossed 🙂
” Steinar Midtskogen says:
June 7, 2010 at 6:59 am
“Humans are most certainly the cause of the recent CO2 increase. A simple graph comparing CO2 with the population should offer an important hint:”
Have you checked against the population of thermites? Because if all humans are disappeared, we will for sure be replaced by just as many kilograms of insects, as there are kilograms of humans.
Suzanne says:
June 7, 2010 at 6:25 am
The lack of accuracy in the dating of the ice core records, increasing as we go back in time, is well known and widely discussed in the field.
My impression (haven’t read too much on the stomatal measurements) is that there are some problems with the stomatal data. One that I haven’t seen discussed much is this:
The assumption is that if there is more CO2, a plant needs less stomata to gather the CO2. The number of stomata is generally as small as possible in plants, because plants lose water through stomata, so they need to keep the number down.
However, what happens when there is a long wet period? Plants would have more stomata, since water loss would be less of a problems … I’m sure you see the difficulty.
On the Mauna Loa thread this was just discussed a couple days ago, including a comment from Beck himself. My conclusion was that the Beck records do not represent the background CO2 level … and Beck agreed.
Huh? These and other questions of confounding variables (e.g. production of CO2 in the ice from included organic materials, estimates of historical firn closure times) are all areas of active discussion.
BBk says:
June 7, 2010 at 4:11 am
“So, what should we expect? In the early decades of a pulse of CO2 being added to the atmosphere, with a “fresh” ocean awaiting, the near exponential decay of CO2 is possible. But as the surface layers of the ocean become more saturated with CO2, its ability to absorb more CO2 declines, and the removal of CO2 from the atmosphere departs from the exponential, and becomes much slower. ”
This assertion ignores diffusion of CO2 from the surface to the lower levels of the ocean. If diffusion (removal of CO2 from the surface to the lower volume) happens at a faster or equal rate to the absorbtion of CO2 from the atmosphere then the ocean can be considered “fresh” until the entire volume “fills.” While, in theory, eventually the ocean would saturate, the rate would be very slow.
Have there been any studies about the rate of diffusion of CO2 through the ocean layers?
My gut feeling is that since we’re dealing with Volume vs Area, that diffusion would, indeed, be a much larger value.
______________________________________________________________________
Your synopsis of the Carbon Cycle completely ignores the fact that CO2 is taken out of the system as a solid and deposited at the bottom of the ocean.
“Calcium occurs in water naturally. Seawater contains approximately 400 ppm calcium…..
The reaction mechanism for carbon weathering is:
H2O + CO2 -> H2CO3 and CaCO3 + H2CO3 -> Ca(HCO3)2
And the total reaction mechanism:
CaCO3 (s) + CO2 (g) + 2H2O (l) -> Ca2+ (aq) + 2 HCO3- (aq)
The product is calcium hydrogen carbonate.”
See: http://www.lenntech.com/periodic/water/calcium/calcium-and-water.htm#ixzz0qCQwTEHV
“…CO2 is also removed from solution to a small extent when proteins are present, by direct combination with amino side groups to form carbamino compounds….” http://www.acidbase.org/index.php?show=sb&action=explode&id=63&sid=66
Then there is the formation of shells and coral that is then deposited on the bottom of the sea, later to become limestone. Not to mention all the ocean plant life utilizing CO2 to grow and then become fish food…..
There is a heck of a lot of information about the carbon/CO2 cycle with the math here from an EPA research scientist: http://www.kidswincom.net/climate.pdf
Statement written for the Hearing before the US Senate Committee on Commerce, Science, and Transportation
Climate Change: Incorrect information on pre-industrial CO2
March 19, 2004
Statement of Prof. Zbigniew Jaworowski
Chairman, Scientific Council of Central Laboratory for Radiological Protection
Warsaw, Poland
The notion of low pre-industrial CO2 atmospheric level, based on such poor knowledge, became a widely accepted Holy Grail of climate warming models. The modelers ignored the evidence from direct measurements of CO2 in atmospheric air indicating that in 19th century its average concentration was 335 ppmv[11] (Figure 2). In Figure 2 encircled values show a biased selection of data used to demonstrate that in 19th century atmosphere the CO2 level was 292 ppmv[12]. A study of stomatal frequency in fossil leaves from Holocene lake deposits in Denmark, showing that 9400 years ago CO2 atmospheric level was 333 ppmv, and 9600 years ago 348 ppmv, falsify the concept of stabilized and low CO2 air concentration until the advent of industrial revolution [13]. ”
11. Slocum, G., Has the amount of carbon dioxide in the atmosphere changed significantly since the beginning of the twentieth century? Month. Weather Rev., 1955(October): p. 225-231.
12. Callendar, G.S., On the amount of carbon dioxide in the atmosphere. Tellus, 1958. 10: p. 243-248.
13. Wagner, F., et al., Century-scale shifts in Early Holocene atmospheric CO2 concentration. Science, 1999. 284: p. 1971-1973.
Sorry again figure 2 would not copy. Please note last sentence about stomata. I have included references (11,12,& 13) .