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All IPCC definitions taken from Climate Change 2007: The Physical Science Basis. Working Group I Contribution to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Annex I, Glossary, pp. 941-954. Cambridge University Press.

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CO2 emissions change our atmosphere for centuries

What the science says...

Individual carbon dioxide molecules have a short life time of around 5 years in the atmosphere. However, when they leave the atmosphere, they're simply swapping places with carbon dioxide in the ocean. The final amount of extra CO2 that remains in the atmosphere stays there on a time scale of centuries.

Climate Myth...

CO2 has a short residence time

"[T]he overwhelming majority of peer-reviewed studies  [find] that CO2 in the atmosphere remained there a short time." (Lawrence Solomon)

The claim goes like this:

(A) Predictions for the Global Warming Potential (GWP) by the IPCC express the warming effect CO2 has over several time scales; 20, 100 and 500 years.
(B) But CO2 has only a 5 year life time in the atmosphere.
(C) Therefore CO2 cannot cause the long term warming predicted by the IPCC.

This claim is false. (A) is true. (B) is also true. But B is irrelevant and misleading so it does not follow that C is therefore true.

The claim hinges on what life time means. To understand this, we have to first understand what a box model is: In an environmental context, systems are often described by simplified box models. A simple example (from school days) of the water cycle would have just 3 boxes: clouds, rivers, and the ocean.

A representation of the carbon cycle (ignore the numbers for now) would look like this one from NASA.

In the IPCC 4th Assessment Report glossary, "lifetime" has several related meanings. The most relevant one is:

“Turnover time (T) (also called global atmospheric lifetime) is the ratio of the mass M of a reservoir (e.g., a gaseous compound in the atmosphere) and the total rate of removal S from the reservoir: T = M / S. For each removal process, separate turnover times can be defined. In soil carbon biology, this is referred to as Mean Residence Time.”

In other words, life time is the average time an individual particle spends in a given box. It is calculated as the size of box (reservoir) divided by the overall rate of flow into (or out of) a box. The IPCC Third Assessment Report 4.1.4 gives more details.

In the carbon cycle diagram above, there are two sets of numbers. The black numbers are the size, in gigatonnes of carbon (GtC), of the box. The purple numbers are the fluxes (or rate of flow) to and from a box in gigatonnes of carbon per year (Gt/y).

A little quick counting shows that about 200 Gt C leaves and enters the atmosphere each year. As a first approximation then, given the reservoir size of 750 Gt, we can work out that the residence time of a given molecule of CO2 is 750 Gt C / 200 Gt C y-1 = about 3-4 years. (However, careful counting up of the sources (supply) and sinks (removal) shows that there is a net imbalance; carbon in the atmosphere is increasing by about 3.3 Gt per year).

It is true that an individual molecule of CO2 has a short residence time in the atmosphere. However, in most cases when a molecule of CO2 leaves the atmosphere it is simply swapping places with one in the ocean. Thus, the warming potential of CO2 has very little to do with the residence time of individual CO2 molecules in the atmosphere.

What really governs the warming potential is how long the extra CO2 remains in the atmosphere. CO2 is essentially chemically inert in the atmosphere and is only removed by biological uptake and by dissolving into the ocean. Biological uptake (with the exception of fossil fuel formation) is carbon neutral: Every tree that grows will eventually die and decompose, thereby releasing CO2. (Yes, there are maybe some gains to be made from reforestation but they are probably minor compared to fossil fuel releases).

Dissolution of CO2 into the oceans is fast but the problem is that the top of the ocean is “getting full” and the bottleneck is thus the transfer of carbon from surface waters to the deep ocean. This transfer largely occurs by the slow ocean basin circulation and turn over (*3). This turnover takes 500-1000ish years. Therefore a time scale for CO2 warming potential out as far as 500 years is entirely reasonable (See IPCC 4th Assessment Report Section 2.10).

Intermediate rebuttal written by Doug Mackie


Update July 2015:

Here is the relevant lecture-video from Denial101x - Making Sense of Climate Science Denial

Last updated on 5 July 2015 by pattimer. View Archives

Printable Version  |  Offline PDF Version  |  Link to this page

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Update

Updated 'the skeptic argument' on 02/05/2012 to correct formatting errors

Comments

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Comments 151 to 154 out of 154:

  1. Given that CO2 remains in the atmosphere for a very long time, the present amount continues to cause warming.  To set a lower boundary on the problem, let’s say that ALL new human-produced CO2 and methane added to the atmosphere is reduced to ZERO starting tomorrow. Using current models, what is then the predicted change in average global temperature in 2100?  Has anyone run such a simulation?  

  2. Richard @151, to a first approximation, what happens is that CO2 concentrations fall as the ocean absorbs excess CO2 up to an equilibrium point.  At the same time, the temperature response to the CO2 approaches equilibrium itself, a process that given constant CO2 concentration would see the temperaure response increase by about a third.  The two processes have similar time scales, so that the temperature response in fact remains almost constant.  This has now been shown by several teams, with slight divergences in the overall result.  For instance, you may want to look at Frolicher and Joos (2010).

    Of even more interest, however, is Friedlingstein et al (2011).  That is because not only do they show the consequences of (the obviously impossible) complete cessation of emissions (a &b); but also the consequences of three plausible emissions reduction rates of 5, 3, and 1% per annum commenced immediately (c&d); and also of the 3% per annum reductions commenced 10, 20, and 30 years into the future (e&f):

    They also show other permutations such as a 90% reduction (which shows an ongoing long term temperature rise) or 105% reduction (ie, net negative emissions, which show a long term decline in temperature, but not brining it below preindustrial levels for nearly a thousand years). 

  3. Has anyone looked at/studied the affects natural CO2 sequestration within the various forms of carbonate deposition over time, and if it has any correlation to temperature swings?
  4. RDG - yes. The most well known efforts would be the Geocarb models, but that builds on decades of research.

    Large scale release of CO2 from carbonates was one of the hypotheses studied for PETM. There is a large literature here. Perhaps a overview here.

  5. Greetings, I'm new here. I was directed to Murry Salbys 'C-14 proof', apparently 'Control of atmospheric CO2 Part 1&2' in the obscure 'Journal' 'Science of Climate Change'.

    Does anybody has any informations about where exactly he goes wrong in his proof?

    Response:

    [BL] This question was also asked on another thread. I have posted an answer here.

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