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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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Archived Rebuttal

This is the archived Basic rebuttal to the climate myth "CO2 is just a trace gas". Click here to view the latest rebuttal.

What the science says...

Small amounts of very active substances can cause large effects.

At a glance

When the first edition of this rebuttal was posted in August 2011, atmospheric CO2 was at around 390 parts per million (ppm). Now (late April 2023) the number is 424 ppm - and rising. 

To a non-chemist, 424 ppm might sound like a vanishingly small amount, simply because you're comparing a small number (424) with a very big one (1,000,000). It therefore comes as no surprise to find that this apparent contrast was seized upon by practitioners of misinformation. Claiming that things occuring in apparently tiny amounts must be harmless is such an easy talking-point to bandy about, since much of the intended audience is unlikely to deal with such numbers on an everyday basis. But it's also one great big red herring. Why? 

Hundreds of parts per million may not sound like a lot, but in fact many substances have important properties when present at such levels. Here are a few examples:

  • He wasn't driving drunk, he just had a trace of blood alcohol; 800 ppm (0.08%) is thelimit in all 50 US states andlimits are even lower in most other countries.
  • Don't worry about your iron deficiency, iron is only 4.4 ppm of your body's atoms.
  • That ibuprofen pill can't do you any good; it's only 3 ppm of your body weight (200 mg in 60 kg person).
  • The Earth is only 3 ppm of the mass of the solar system.
  • Your children can drink that water, it only contains a trace of arsenic (0.01 ppm is the WHO and US EPA limit).
  • Ozone is only a trace gas: 0.1 ppm is the exposure limit established by the US National Institute for Occupational Safety and Health. The World Health Organization (WHO) recommends an ozone limit of 0.051 ppm.

  • A few parts per million of ink can turn a bucket of water blue. The color is caused by the absorption of the yellow/red colors from sunlight, leaving the blue. Twice as much ink causes a much stronger color, even though the total amount is still only a trace relative to the water.

  • Only 500 ppm of hydrogen sulphide (bad egg gas) in air is a hazardous level, as any health and safety fact-sheet will tell you. It will make you seriously unwell at that kind of concentration. In fact, at above 100 ppm, you can no longer smell the gas because its toxicity has switched off your sense of smell. 

Just a trace-gas? Yeah, right.

It's not the concentration of a substance that necessarily matters. Instead, it's what any substance can do at a certain concentration and that property will of course vary from one substance to another. These are all useful things to recall when someone dismissively tells you that carbon dioxide is “only a trace gas”. It doesn't matter.

Please use this form to provide feedback about this new "At a glance" section. Read a more technical version below or dig deeper via the tabs above!


Further details

Although percentage or parts per million are convenient ways to talk about the relative amounts of gases in the atmosphere, they only tell us how much there is compared to everything else up there. Concentration doesn’t give an absolute amount.

For example, most people will have trouble breathing on top of Mount Everest. The atmosphere still contains 21% oxygen, just like at sea level. But the air is rarefied, meaning the relative proportions of all of its constituent gases are the same but the density of their molecules has reduced by around two thirds. With every breath you take you will only get around a third of the oxygen molecules that you would at sea-level. It's the number of oxygen molecules that matter because through their chemical properties and interactions with our bodies, they support respiration - and therefore life.

We are now emitting some 44 thousand million tonnes of carbon dioxide every year (source: IPCC AR6, WG 3 Technical Summary 2022). Fourty four thousand million tonnes is a hard number to visualise. One way to do so is to consider that it's more than seventy times heavier than the combined weight of the current global human population. Maybe that's even more mind-boggling! But nitrogen makes up 78% of the atmosphere - it's vastly more abundant than CO2. Because of that, the concentration of CO2 - despite such vast emissions figures - just nudges up by a few ppm a year. 

In 1959 the measured CO2 concentration was 316 ppm whereas at the time of writing (2023) it's 424 ppm. That represents an exponential increase of 108 ppm over 64 years - exponential because our annual emissions have now increased vastly, compared to the 1950s and 60s. That's despite the knowledge of the harm being done by them.

Pre-industrial levels of CO2 were around 280 ppm, so the overall increase to date has amounted to some 144 ppm - a 50% increase. That CO2 increase has in turn been sufficient to raise global temperatures by more than a degree celsius relative to pre-industrial times, so we have a bench-mark with which to look at future emissions. Furthermore, because CO2 is a non-condensing greenhouse gas, once it's up there in the atmosphere it stays around for a long time, so much of that 144 ppm increase still has work to do - meaning that the warming already caused by it will continue for many years.

Often we talk about a doubling of CO2 from pre-industrial levels (280 increasing to 560 ppm) and its effect upon temperature: Arrhenius did the first calculation on this over 100 years ago. He could not foretell a time when such a CO2 overloading might occur due to human activity, since the emissions of the very early 1900s were very low compared to now. We now have that doubling firmly in our sights. In the decade of 2013-2023, CO2 levels have risen by nearly 30 ppm. If our emissions flatlined at current rates, we would reach that doubling-point sometime in the 2060s - not that far off at all - and that's assuming there are no nasty surprises waiting for us in terms of feedbacks.

So we know the amount of CO2 in the atmosphere has increased in this manner because we have constantly measured its concentration since the late 1950s. We know from current and historical data that the climate has already significantly warmed,. The link between increasing greenhouse gases and increasing temperature is even clearer now than it was in the 19th Century. CO2 in our atmosphere is trapping energy that would otherwise escape to space. That's an intrinsic property of this particular substance.

If a trace gas can absorb and re-radiate IR at even low concentrations, what do you think will happen if we double that concentration? Twice as many CO2 molecules, all busy doing precisely what they do and for long into the future. CO2 may be a trace gas but because of that intrinsic property it has, that doesn't matter.

Cartoon summary

Cranky Uncle cartoon

This Cranky Uncle cartoon depicts the "Red Herring" fallacy for which the climate myth "CO2 is just a trace gas" is a prime example. It is used to deliberately divert attention to an irrelevant point to distract from a more important point. Please see the accompanying blog post for more information about the cartoon collection.

Updated on 2023-08-13 by John Mason.



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