Guest Post by Willis Eschenbach
In “Another day, overshot to hell” Anthony Watts commented on the “Overshoot Day” promoted by Mathis Wackernagel and the Global Footprint Network (GFN). This is based on the idea of the “ecological footprint”. Your “ecological footprint” (EF) is how many acres (hectares) of land it takes to support you, to grow the grain for your bread and the timber for your house and so on. It’s a simple and visual way to measure our impact on the planet.
Unfortunately, the particular form of the EF as advanced by Mathis Wackernagel and the GFN contains three fatal flaws. It wildly underestimates the available rain-fed cropland. It assumes that people in Britain farm like people in Africa. And it arbitrarily assigns huge weighting to CO2.
Figure 1. The effect of CO2 on the Wackernagel version of the “Ecological Footprint”. Image from Bambi meets Godzilla, a cartoon worth watching.
Here’s the stern warning from the Global Footprint Network folks:
Earth’s Overdraft Notice
On August 21, we exceed nature’s budget
It has taken humanity less than nine months to exhaust its ecological budget for the year, according to Global Footprint Network calculations.
Today, humanity reaches Earth Overshoot Day: the day of the year in which human demand on the biosphere exceeds what it can regenerate. As of today, humanity has demanded all the ecological services – from filtering CO2 to producing the raw materials for food – that nature can regenerate this year. For the rest of the year, we will meet our ecological demand by depleting resource stocks and accumulating greenhouse gases in the atmosphere.
“If you spent your entire annual income in nine months, you would probably be extremely concerned,” said Global Footprint Network President Mathis Wackernagel. “The situation is no less dire when it comes to our ecological budget. Climate change, biodiversity loss, deforestation, water and food shortages are all clear signs: We can no longer finance our consumption on credit. Nature is foreclosing.”
First, the mandatory disclosure of personal interests.
Mathis Wackernagel was the co-developer of the idea of the “ecological footprint”. He has since built it into a business called the Global Footprint Network (GFN), licensing out the software to do the calculations. From 2001 to about 2005 I discussed these issues both in person and by email with Mathis. I invite him to respond on this thread, and I’m sure that I speak for Anthony when I say that he is more than welcome to write a guest post for WUWT. Onwards to the issues.
Ecological Footprint
The basic idea of the ecological footprint is simple, and quite interesting. How much land does it take to support you? How many hectares of land are required to grow the wheat for your bread, or the strawberries for your cereal? Add up your wheat footprint and your strawberry footprint and all the other footprints for whatever you consume, and you have your own ecological footprint.
So for example, suppose the local land annually produces one bushel of wheat per square cubit of area farmed. If you eat three bushels of wheat per year, your wheat footprint is three square cubits. That’s how much land it takes to produce the wheat you ate. (Of course we’d use modern measures.)
The formula for calculating the ecological footprint EF for a given product can then be seen to be
EF = Consumption / Yield
or including units,
EF (hectares) = Consumption (kg or tonnes per year) / Yield (kg or tonnes per hectare per year)
So that’s the footprint plan, and an interesting plan it is. However, as always, the devil is in the details. In this case the details are how Mathis and the GFN define certain values.
ISSUE 1: Underestimating Available Cropland
One of the central questions to be answered is, how much cropland do we have on the planet, used and unused? Available cropland means land that has the rain and the soil and the temperature and the other criteria to allow rain-fed agriculture. Mathis and the GFN say that the world is nearly out of cropland, and that’s one of the reasons that they say we are at the ecological end-of-times.
In the GFN calculation of the ecological footprint, the amount of land on the planet that is available for use as cropland is taken from the United Nations Food and Agriculture Organization (UN FAO) website. What GFN use as available cropland is the FAO category called “Arable land and Permanent crops”. This is a huge misunderstanding. Those FAO categories are defined in the FAO Glossary as: (emphasis mine)
Title
Arable land
Definition
Arable land is the land under temporary agricultural crops (multiple-cropped areas are counted only once), temporary meadows for mowing or pasture, land under market and kitchen gardens and land temporarily fallow (less than five years). The abandoned land resulting from shifting cultivation is not included in this category. Data for “Arable land” are not meant to indicate the amount of land that is potentially cultivable. Data are expressed in 1000 hectares.
Title
Permanent crops
Definition
Crops are divided into temporary and permanent crops. Permanent crops are sown or planted once, and then occupy the land for some years and need not be replanted after each annual harvest, such as cocoa, coffee and rubber. This category includes flowering shrubs, fruit trees, nut trees and vines, but excludes trees grown for wood or timber.
The FAO specifically says that “Arable land” does not mean available potential cropland, as Mathis and the GFN maintain. It is no surprise that they think we’re out of cropland — they are using the wrong figures for available cropland, despite a clear warning from the FAO not to do just that.
The premier study on this question is again from the FAO. It is called the “Global Agro-Ecological Zone Study” or GAEZ Study. It is a study using global digital terrain maps, soil maps, precipitation and temperature maps, and other global databases. They identified “agro-ecological zones”, that is, zones which have common types of vegetation and soil, and thus are suitable for one or more agricultural crops or crop combinations. The result is a database with a huge amount of information on everything from desert areas to amounts of cropland to the area occupied by cities and roads. Here, for example, are the climate constraints (as opposed to say soil constraints) on plant growth:
Figure 2. Climate constraints on plant growth, per GAEZ. Plate Source.
The GAEZ study has some fascinating results in a variety of charts, tables, and maps. For example, there is more available rain-fed cropland sitting unused in South America than there is land under cultivation in North America. And there is enough unused rain-fed cropland in Sudan (over 75 million hectares) to feed every person in Africa. Some areas are short of available cropland, but the world as a whole is not short of available cropland.
Meanwhile, Mathis and the GFN claim that the Sudanese have no more land to farm. They say the Sudanese are farming almost 100% of the cropland available. By contrast, the FAO says that Sudan has 92,391,000 hectares of land suitable for rainfed agriculture, and it also says that they are farming 16,433, 000 hectares, or only 18%, of that land.
So when the GFN folks say we’re running out of cropland for agriculture, don’t be fooled. The Earth still has a lot of cropland. Our footprint is large … but not that large. I encourage everyone interested in the subject to read at least the GAEZ Summary.
ISSUE 2: Do the Germans farm with wooden plows?
Mathis and I are deeply divided on the next question. When you calculate say the wheat footprint of a country like say Russia, or Cambodia, should you use the local yield of the wheat they actually ate, or the global average wheat yield?
Mathis uses global average yield. I say use the actual yield from wherever the food was grown.
I say that if the folks in Scotland grow three thistles per hectare of land, and they eat a twelve thistles per year, that their thistle footprint is four hectares. It doesn’t matter if people somewhere else on the planet get six thistles per hectare of land, or if they can only grow one thistle per ten hectares. It doesn’t matter what the global average thistle yield is. I say the hardy Scots have a thistle footprint of four hectares.
Mathis says that … well, I’m not sure what his arguments are these days. He used to argue that using global yield rates compensated for the fact that some countries have good land for thistles, and some don’t. In fact, it was in researching that claim that I came across the GAEZ study. The GAEZ study actually has on-line, country-by-country data regarding cropland availability and cropland quality. Using that data, I was able to show that the use of global average yield did not compensate for varying cropland quality. That news was not well received by Mathis, and may not be unrelated to his cutting off all further communication with me.
However, there is a more subtle and devastating problem with their use of global average yields. In our example above, suppose the global average thistle yield is only one thistle per hectare. Using Scottish yields, we get the Scottish thistle footprint (consumption / yield) of four hectares. That’s a consumption of twelve thistles per year, divided by the Scottish yield of three thistles per hectare per year, equals four hectares.
But if we use the global average thistle yield of one thistle per hectare, suddenly the Scottish thistle footprint jumps up to twelve hectares! In other words, using their method, Scotland is getting penalized because they are better at growing thistles than the world average.
So when the Global Footprint folks say that England, or the US, or any industrialized countries have huge footprints, that’s absolute nonsense. The footprints of all the industrialized countries are artificially inflated by GFN, purely because they are efficient and get high yields. And the higher the yield, the higher the penalty. A country producing wheat at four times the global average wheat yield has its wheat footprint multiplied by four.
And conversely, if a country has a yield that is lower than the global average, their footprint gets artificially shrunk. Shrunk! Some countries use more hectares than the rest of the world for a unit of production, and for that the number of hectares of their footprint is reduced? I don’t think so …
I pointed this all out to Mathis. He ignored it. My conclusion was that any measuring system that penalized efficiency and high yield, and rewarded low efficiency and low yield, was off the rails. Too bad, the ecological footprint was such a good idea at the start.
So yes, the Scots would have a large thistle footprint … but only if they farmed with oxen and wooden plows like the global average farmer. But they don’t, and that’s the point. Scots farmers are both hard-working and canny, it’s a verifiable and well-attested fact. By farming hard and farming smart they have reduced their thistle footprint. It takes less land to produce their thistles, and good on them. Inflating their footprint because they are more efficient than the world average is nonsense.
ISSUE 3: Overestimating CO2
In any measure intended to show total impact, like the ecological footprint (measured in hectares or acres), we may choose to include things that can’t be measured in hectares or acres, things that have no “area”. For example, one might want to include say river pollution in the footprint … but how does one measure dead fish in hectares? You can’t.
As a result, if you want to include those incommensurate factors, I say you need to divide your analysis into measurable (wheat yield) and incommensurate (river pollution) sections. Because once we leave the measurable, we are in the world of “pick a number, any number”. Someone who is passionate about rivers will say river pollution should translate into a large ecological footprint, lots of hectares per unit of pollution. Someone who is not passionate may give it a smaller number. Mathis and the GFN folks give river pollution a value of … well … zero. Pollution, according to them, has no ecological footprint. Curious, huh? The ecological footprint as used by Mathis and GFN assigns zero footprint to air, land, or water pollution.
What they are passionate about, of course, is CO2. So it is accorded a huge footprint. The “CO2 footprint” is the reason that their model says we’ve … what was it? … “exhausted our ecological budget”.
But that’s just picking a number. They picked zero for the ecological footprint of say a mine that kills all riverine life downstream of the mine. They picked a big number for CO2. It’s just picking numbers, because there is no way to measure either dead fish or CO2 in hectares.
CO2 is in the incommensurate section of the EF indicator, not the measurement-based section. If we look at actual measurements, we’re nowhere near exhausting our ecological budget. That is an illusion sustained by the high conversion numbers for CO2 into hectares.
CONCLUSIONS.
1. Mathis and the GFN say we are running out of cropland. Not true.
2. Their use of global average yields artificially reduces the footprints of inefficient nations practising antiquated, low yield agriculture. At the same time, it artificially increases the footprints of high-yield nations. Double not true, or more.
3. The true footprint for any product is calculated using the actual yield figures for wherever that actual product was grown. Using any other yield than the actual yield figures for that particular product gives us distorted results, as discussed immediately above.
4. They combine actual measurable data with CO2 data, which cannot be measured in hectares. Not wrong, just 100% subjective, and should be flagged “WARNING: Contains Absolutely No Science.” …
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Without reading their stuff more, do they consider foods derived from the ocean and the vast potential there as well?
Of the two numbers for arable land, the smaller one assumes that the amount we’re using today is everything that can be used. The bigger one assumes that we could push all other life on the planet out of the prime habitats and that this would somehow be permanently sustainable. Both are low quality assumptions, but I’d guess the lower number is closer to reality. Coming up with a defensible number for this is impossible because it is an arbitrary choice of what percentage of habitat can be destroyed.
As for productivity, your choices are to use the output from farms in areas too poor to afford energy-intensive methods or modern techniques or to use output from industrialized farms that consume more calories of fossil energy than they produce in food energy. Again, both are bad options. Theoretically, it should be possible to pick a number for productivity based on a highly technical and modern farming process that also consumes a small enough amount of energy to be sustainable, but this would require many assumptions.
@Willis
The Ecological Footprint is not a good idea gone bad. It is a bad idea. The basic notion is that there is such a thing as an absolute yardstick for what people care about. Socrates believed in this, and all classical economists from Quesnay and Smith to Ricardo and Marx. The latter three adhered to the labour theory of value, while the former (like Wackernagel) adhered to a land theory of value.
Note that Quesnay’s theory was superceded by Smith’s, which was overturned by Marx’s and, finally, by Jevons, Menger and Walras.
In a way, therefore, Wackernagel’s ecological footprint is a throwback to the 18th century. It’s academic regress. The ecological footprint, if anything, is an indicator of the intelligence of the analyst. (The correlation is negative.)
People might want to read a recent review about future projection (2050) of crop yields (Keith W. Jaggard, Aiming Qi and Eric S. Ober 2010 Possible changes to arable crop yields by 2050 Phil. Trans. R. Soc. B vol. 365 no. 1554 2835-2851).
Available free at http://rstb.royalsocietypublishing.org/content/365/1554/2835.full?sid=adda7bd3-4e81-45ed-835c-fff7236714b4. Below is the abstract:
More on food security here: http://rstb.royalsocietypublishing.org/content/365/1554.toc
Is cutting down rain forests to grow bio-fool considered crop rotation?
That image above: It’s Godzilla massaging Al Baby’s back!
If we are truly enlightened we can turn deserts into grasslands, farms and cities. But who among the elite want to raise the lot of the poor?
Crap dressed in a pretty wrapper, anti-science. When will it stop, trying to con people. Anybody else noticing how science is getting a bad name, in the name of science. The destruction of science can be permanent, as people just turn it off, anybody who has an interest, the time to stand and protest this type bull-crap is now.
It obviously will not stop soon it appears, today the EPA asked for comments on banning lead, in bullets and fishing weights … And what about all the lead laying around on the ground from natural sources? For instance, anybody been to Colorado’s “Leadville”. why do you think the town was named Leadville in the first place?
We must return to common sense.
Dave Stephens says:
August 26, 2010 at 3:28 am
P.T. Barnum said it best (well, the musical anyway)
There is a sucker born every minute
Dave,
You missed the follow-up to this quote by one of his aides: “If only one is born every minute, then why are there so many?”
All GFN is doing is recycling discredited Thomas Malthus hysteria. It is pretty easy to build a model with assumed fixed resources, and assumed arithmetic rates of growth, with their partner in crime, ceterus paribus, that then spits out a doomsday prediction that we will run out of said resources. The problem inevitably is in the model assumptions and ignoring the error factors. Ceterus paribus does not exist in the real world, factors change, growth rates are incorrectly estimated, and time gives us yet another goofy doomsday scenario to mock.
More Malthusian malfeasance.
The supply and demand for food are issues of the market. Ignorance of the laws of the market are no excuse for someone pretending to science.
Supply meets demand at a price.
This means not only that the price adjusts, but also that supply and demand adjust. Supply will fall (or rise) to the level of the demand at any given price. The drive toward efficiency of cropland use, indeed the very supply of cropland (versus other use of the land) is controlled by the price available for crops grown on the land.
Only a dysfunctional economy (eg centrally planned by the “scientists” who wrote this paper) would have more cropland than is needed by current and near term economic demand. The deserts and mountainsides, even the sea, become cropland when the economics justify. Innumerable historic examples give proof (Eg California deserts converted to foodbasket to the world, mountainside terraced rice farming in SE Asia, kelp farming in Japan, ……)
These writers and their Malthusian ilk are perpetual sophomores, blinded by ideology from seeing how markets function in the real world. Food supplies will meet demand, if governments stay out of the way. Leave the particulars to the experts (the farmers, the wholesalers, the shippers, and the retailers) and they will do for us what we need.
KW
Karen says:
August 26, 2010 at 6:09 am
Willis, I keep thinking about the population growth people mention in their comments. I was wondering if you could do a comprehensive paper about that. Because from what I’m gathering from these comments is that they’re are more people born in a day or better yet in a year then die in a given day/year. I’ve been thinking about looking into this myself, but you do such incredible analysis of all types of subject matters, I thought I’d ask if you’d look into this.
Karen, check out the World Clock at:
http://www.poodwaddle.com/clocks/worldclock/
It’s a great resource for checking births, deaths, mortality rates for various diseases etc. There are some useful statistics on food production also.
THAT… is what Willis is talkin ’bout!!
Hope all these guys save their footprints in the nearest police station, they will be needed in the near future to make them accountable.
My problem with the whole thing is that provably, when the standard of living goes up, the birthrate drops. The whole idea of overloading the planet revolves around the ceteris paribus, all other things remaining equal, but they don’t. People think, people act, and as can readily be observed, the actions aren’t necessarily readily predictable. Innovation isn’t predictable.
I think the Austrian School of Economics has gotten it right, just like I think real science trumps pseudo-science.
We are already having sincere doubts about history. I am not sure now who won the II WW.
http://www.green-agenda.com/
This is why so many dogs all over the world bear the name of “Malthus”, dogs don’t deserve it!
Ref – “The Complete Unabridged Book of Human Nature”, Adam ‘n Eve Enterprizes, Garden of Eden Press, Ltd. (Out of Print, Last volume destroyed in the Great Fire of The Library of Alexandria, Egypt, 48BC )
“Figures lie and liers figure.” (Adam)
tmtisfre
Very good. I would also add some of Matt Ridley’s work.
Thousands of Marine Biologists around the world would disagree with this ill-defined attempt to enter into a discipline that is, perhaps, difficult for the writers to understand .
Not at all “beyond dispute.” See E. M . Smith’s elegant disquisitions on the subject:
http://chiefio.wordpress.com/2009/05/08/there-is-no-shortage-of-stuff/
http://chiefio.wordpress.com/2009/03/20/there-is-no-energy-shortage/
“THERE IS NO SHORTAGE OF STUFF, AND THERE NEVER WILL BE”—E. M. Smith
/Mr Lynn
In Anglo-Saxon times in England it was know as a hide: depending on the type of land you lived on, your ‘hide’ was the amount land you needed to support your household which was kith, kin and servants.
Nothing changes…
Willis, I partly agree about issue #2. Your point seems to assume that people only eat local food. They don’t.
Let’s pretend that someone in the antarctic manages to get 1 thistle to grow from a piece of penguin dung spread out over a whole hectar. Their yield is close to 0 but not quite. Let’s pretend it would take 4 gazillion hectars of Antarctic thistle to satisfy a Scotsman.
So consider…
Scots eating Scottish thistle: 4 hectares
Scots eating Antarctic thistle: 4 gazillion hectares
But what about the denizens of Antarctica who eat thistle? They are not going to farm gazillions of penguin-manured land compared when it’s cheaper to ship it from Scotland.
So although I agree that global average is wrong for the same reasons you do, I think it is because the true footprint depends on where one gets the goods. Assuming it’s local isn’t the right answer either.
And yet, I don’t know how to get the right answer.
Enneagram says:
August 26, 2010 at 9:25 am
Thanks for the link to that very intersting website (I have filed it away next to my 9/11 conspiracy favourites) and your other very informative comments today. It is people like you that make it hard for me to take the scpetic movement seriously.
To the moderators: Looking at Enneagram’s comments of late (8 in this post alone –and counting) do you think it might be time to give this person a rest for a week or two because of irrelevant, nuisance-only comments. The standard of the site is very much diminsished with contributions like these.
MJK
According to Ridley fossil fuels allowed England, and hence the rest of the world, to avoid the Malthusian limits on growth with a subsequent return to poverty and self sufficiency. His arguments are persuasive.