Has Industrialization Diminished the Well-Being of Developing Nations and are Industrialized Countries Responsible?
Guest post by: Indur M. Goklany
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A basic contention of developing countries (DCs) and various UN bureaucracies and multilateral groups during the course of International negotiations on climate change is that industrialized countries (ICs) have a historical responsibility for global warming. This contention underlies much of the justification for insisting not only that industrialized countries reduce their greenhouse gas emissions even as developing countries are given a bye on emission reductions, but that they also subsidize clean energy development and adaptation in developing countries. [It is also part of the rationale that industrialized countries should pay reparations for presumed damages from climate change.]
Based on the above contention, the Kyoto Protocol imposes no direct costs on developing countries and holds out the prospect of large amounts of transfer payments from industrialized to developing countries via the Clean Development Mechanism or an Adaptation Fund. Not surprisingly, virtually every developing country has ratified the Protocol and is adamant that these features be retained in any son-of-Kyoto.
For their part, UN and other multilateral agencies favor this approach because lacking any taxing authority or other ready mechanism for raising revenues, they see revenues in helping manage, facilitate or distribute the enormous amounts of money that, in theory, should be available from ICs to fund mitigation and adaptation in the DCs.
However, as Henry Shue, an Oxford ethicist and apparently a strong believer in the notion that ICs have a historical responsibility for global warming, notes, “Calls for historical responsibility in the context of climate change are mainly calls for the acceptance of accountability for the full consequences of industrialization that relied on fossil fuels.” [Emphasis added.] But the fundamental premise behind this notion of historical responsibility is that the full consequences of fossil fuel based economic development — synonymous with industrialization — are negative. But is this premise valid?
In fact, by virtually any objective measure of human well-being — e.g., life expectancy; infant, child and maternal mortality; prevalence of hunger and malnutrition; child labor; job opportunities for women; educational attainment; income — humanity is far better off today that it was before the start of industrialization.
That human well-being has advanced with economic development is clearly true for industrialized countries. The figure below for the U.S., a surrogate for industrialized countries, shows that life expectancy — perhaps the single most important indicator of human well-being — and GDP per capita — the best single measure for material well-being — increased through the 20th century, even as CO2 emissions, population, and material, metals, and organic chemical use increased.
But what about the net effect of economic development on developing countries?
Indeed, human well-being has also advanced for developing countries. Consider, for example, that:
- The proportion of the developing world’s population living in absolute poverty (i.e., living on less than $1.25 per day in 2005 dollars), was halved from 52 percent to 26 percent between 1981 and 2005. Ironically, higher food prices, partly because of the diversion of crops to biofuels in response to climate change policies, helped push 130-155 million people into absolute poverty in 2008. This is equivalent to 2.5–3.0% of the developing world’s population.
- The proportion of the developing world’s population suffering from chronic hunger had declined from around 30-35 percent in 1969-1971 to 16 percent in 2003-2005. It has since increased to 18% —thanks, once again, in part to climate change policies designed to displace fossil fuels with biofuels (see here, p. 10-11). The UN Food and Agricultural Organization estimates that such policies helped increase the number of people in the developing world suffering from chronic hunger by 75 million in 2007 compared to the 2003-2005 period.
- Life expectancy in developing countries increased from 25-30 years in 1900 to 41 years in the early 1950s to 69 years today.
- Child labor in low income countries declined from 30 to 18 percent between 1960 and 2003.
Such improvements in human well-being in both developing and industrialized countries can be ascribed to the cycle of progress composed of the mutually reinforcing, co-evolving forces of economic growth, technological change and freer trade (see here, pp. 29–33). And fossil fuels have been integral to each facet of this cycle. Without the energy generated by fossil fuels, economic development would be much lower, many of the technologies that we take for granted and have come on line since the dawn of industrialization (e.g., devices that directly or indirectly use electricity or fossil fuels) would have been stillborn, and the current volume of internal and external trade would be impossible to sustain. Even trade in services would be substantially diminished, if not impossible, without energy to generate electricity to power lights, computers, and telecommunications.
In fact, no human activity is possible without energy. Every product we make, move or use requires energy. Even human inactivity cannot be sustained without energy. A human being who is merely lying around needs to replenish his energy just to keep basic bodily functions operating. The amount of energy needed to sustain this is called the basal metabolic rate (BMR). It takes food to replace this energy. Insufficient food, which is defined in terms of the BMR, leads to starvation, stunting, and a host of other physical and medical problems, and eventually death.
Following is a sampling of fossil fuel dependent technologies that have helped advance specific facets of human well-being:
- Hunger. Global food production has never been higher than it is today due to fertilizers, pesticides, irrigation, and farm machinery. But fertilizers and pesticides are manufactured from fossil fuels, and energy is necessary to run irrigation pumps and machinery. The entire suite of technologies that are called the Green Revolution is based on energy. And in today’s world, willy-nilly, energy for the most part means fossil fuels. Additional CO2 in the atmosphere has most likely also contributed to higher food production. Another factor in keeping a check on food prices and reducing hunger is trade within and between countries which enables food surpluses to be moved to food deficit areas. But it takes fossil fuels to move food around in the quantities and the speed necessary for such trade to be an integral part of the global food system, as it indeed is. Moreover, fossil fuel dependant technologies such as refrigeration, rapid transport, and plastic packaging, ensure that more of the crop that is produced is actually consumed. That is, they increase the overall efficiency of the food production system, which also helps reduce food prices and contain hunger worldwide. See here.
- Health. Having sufficient quantity of food is the first step to a healthy population. It’s not surprising that hunger and high mortality rates go hand in hand. In addition, even the most mundane medical and public health technologies depend on energy, most of which is derived from fossil fuels. Such technologies include heating for sterilization; pumping water from treatment plants to consumers and sewage from consumers to treatment plants; and transporting and storing vaccines, antibiotics, and blood. In addition, energy is necessary to operate a variety of medical equipment (e.g., x-rays, electrophoresis, and centrifuges); or undertake a number of medical procedures. Moreover, economic surpluses generated by greenhouse gas producing activities in the US (and other industrialized countries) have helped create technologies to enable safer drinking water and sanitation; treat diseases such as AIDS, malaria, tuberculosis; and increase life expectancies through vaccinations and improvements in nutrition and hygiene. See here.
- Child Labor. Fossil fuel powered machinery has not only made child labor obsolete in all but the poorest societies, but it allows children to be children and, equally importantly, to be more educated in preparation for a more fulfilling and productive life.
- Equal Opportunity for Women and the Disabled. But for home appliances powered for the most part by electricity, more women would be toiling in the home. Moreover, power tools and machinery allow women, the disabled and the weak to work on many tasks that once would have been reserved, for practical purposes, for able-bodied men.
- Education. Today’s populations are much more educated and productive than previous ones in large part due to the availability of relatively cheap fossil fuel generated electrical lighting. And education is a key factor contributing not only to economic development and technological innovation but also personal fulfillment.
In addition, a substantial share of the income of many developing countries comes directly or indirectly from trade, tourism, developmental aid (to the tune of at least $2.3 trillion over the decades), and remittances ($328 billion in 2008 alone) from industrialized countries. Much of this would have been impossible but for the wealth generated in industrialized countries by fossil fuel powered economic development. This economic development also allowed the US (and other developed countries) to offer humanitarian aid to developing countries in times of famine, drought, earthquakes, floods, cyclones, tsunamis and other disasters. Moreover, such aid would have been virtually impossible to deliver in large quantities or in a timely fashion absent fossil fuel fired transportation. Similarly, it would be impossible to sustain the amount of trade and tourism that occurs today without fossil fuels.
Clearly, fossil fuels have advanced human well-being in both industrialized and developing countries. The claim that the net effect of fossil fuels has been detrimental to either group is unsubstantiated.
Remarkably, virtually all the technologies noted above were conceived, and developed in the industrialized countries, and enabled in large part by the wealth generated from the direct or indirect use of fossil fuels and other greenhouse gas generating activities. In fact, because of the diffusion and active transfer of technologies from industrialized to developing countries, the latter are far ahead of today’s industrialized countries at equivalent levels of economic development.
- In 2006, when GDP per capita for low income countries was $1,330 (in 1990 International dollars, adjusted for purchasing power), their life expectancy was 60.4 years. But the US first reached this level in 1921, when its GDP per capita was $5,300. See here (pp. 20-21).
- Even Sub-Saharan Africa, the world’s developmental laggard, is today ahead of where the U.S. used to be. In 2006, its per capita GDP was at the same level as the U.S. in 1820 but the U.S. did not reach Sub-Saharan Africa’s current infant mortality level until 97 years later in 1917, and its current life expectancy until 1902. That is, with respect to infant mortality, Sub-Saharan Africa is 92 years ahead of the US’s pace! With respect to life expectancy, it is 104 years ahead.
Thus, empirical data do not support the underlying premise that industrialization of today’s developed countries has caused net harm to developing countries. In fact, a major harm to developing countries seems to have resulted, in part from climate change policies instituted in industrialized countries. As noted above, information from the World Bank and the Food and Agricultural Organization suggests that no thanks to climate change policy, two of mankind’s signal achievements of the 20th century, namely, the reduction of poverty and hunger in developing countries, are in danger of being retarded if not reversed. Although not addressed above, a third signal achievement of mankind is the almost-plateauing of human demand for cropland, which is the major source of threats to species and biodiversity. But this too is in danger of being overwhelmed now that climate change policies encourage the cultivation of energy crops.
Had it not been for progress and economic surpluses in industrialized countries fueled for the most part by fossil fuels, what would the developing world’s level of human well-being be today? For example, Bangladesh’s life expectancy has gone up from 35 years in the 1940s to 61 now. Its hunger and malnutrition rates would undoubtedly be far higher as agricultural yields would be lower. It would be hard to even list all the ways in which Bangladesh and other developing countries have benefited.
As noted at Reason on-line:
Who knows, even if one assumes that the purported damages from climate change indeed come to pass —there are good reasons to believe that the IPCC has overestimated the impacts of climate change (see here and here) — that a full accounting of the benefits and costs from industrialization may not reveal that developing countries owe developed countries for a net improvement in their well-being!
To summarize, industrialized countries indeed have a historical responsibility for industrialization. But industrialization has been a net boon to humanity not only for industrialized countries but developing countries as well. The real problem may well not be climate change but ill-considered climate change policies that would use crops for energy production thereby increasing hunger, poverty, and the threat to biodiversity.
Now it may be argued that I am ignoring the future impacts of climate change which may tilt the balance so that industrialization, instead of being a net positive turns into a net negative. But as noted by the Economist, which supports the notion that greenhouse gases should be curbed, projections about the future impact of climate change are “no more than educated guesses”, and this is being charitable (see, for instance, here, here, here, and here). Without belaboring this point any further, a little education can be a dangerous thing.
@ur momisugly Indur Goklany (19:57:04) :
“Very interesting. Don’t forget that there was an effort by Greenpeace (and others) to ban chlorine.”
Thanks for writing this excellent article, and thanks to Anthony for posting it. Excellent reading.
Greenpeace’s position on chlorine is quite puzzling, and if implemented would have far-reaching and devastating results on the health of populations.
Here is another excellent summary of the benefits of chlorine:
http://www.waterandhealth.org/drinkingwater/greenpeace.html
It should be noted that chlorine production is very energy-intensive, consuming great quantities of electricity.
“The third most important product from an energy perspective is the production of chlorine and caustic soda. Chlorine is produced through electrolysis of a salt-solution. Chlorine production is the main electricity consuming process in the [U.S.] chemical industry, next to oxygen and nitrogen production. We estimate final electricity use at 173 PJ (48 TWh) and fuel use of 38 PJ. Total primary energy consumption is estimated at 526 PJ (including credits for hydrogen export). The energy intensity is estimated at an electricity consumption of 4380 kWh/tonne chlorine and fuel
consumption of 3.45 GJ/tonne chlorine, where all energy use is allocated to chlorine production. Assuming an average power generation efficiency of 33% the primary energy consumption is estimated at 47.8 GJ/tonne chlorine (allocating all energy use to chlorine).” (emphasis added)
source: http://www.energystar.gov/ia/business/industry/industrial_LBNL-44314.pdf
This is from researchers at Lawrence Berkeley National Laboratory, 2000.
Well so what’s new about that. Many many years ago, Scientific American Magazine (I refuse to call it a Journal) published a special one subject issue on energy.
There was a very interesting paper (article) that reported on world food production versus world energy input; for all kinds of societies from the most primitive nomadic hunter gatherers, to the most sophosticated high tech green revolution intensive agriculturists.
For example they studied a typical Eskimo society that lived on seals etc, and examined how their food production increased with the increasing use of energy; such as energy in the form of explosive powder in the cartridges for the rifles they used to shoot seals, instyead of harpooning them with a whalebone tipped spear. Also the energy in the fuel for their snowmobiles they used instead of dog sled packs, so they could cover more territory faster and find more seals.
Well the final data presentation was a graph of food production output, versus energy input to the food system; for societies all over the world.
Virtually ALL of those data points fell on a single straight line. More energy input translates directly into more food production, and from the most primitive to the most sophisticated, the same relationship still holds.
There were two anomalous point on the graph; places where food production was abnormally high for the amount of energy input. Those two coutries were France and New Zealand, both of which were considerably more efficient, at converting energy into food.
No it wasn’t that they know something that others don’t (they do anyway); but it was that both of those countries enjoy unique agriculturally friendly weather patterns so they grow food very readily. In the case of NZ they just have the right climate, and plenty of mild weather and rain.
The problem of course for world food supplies, is that collectively NZ and France don’t amount to a hill of beans in terms of world food needs. Efficiency they have; but they don’t have production capacity to be a major impact on the world food needs.
So energy is the key to more food. Energy in the form of farm machinery, irrigations sytems; chemical fertilizers, and pesticides, or herbicides. Yes organic farming will doom millions to starvation.
Now this realization that energy input equals food output; is much more sinister than it looks at first glance.
How ’bout those bio-fuels industries !? OOoops ! Energy input equals bio-fuels output; how crazy is that; why not just use the energy you already have, instead of wasting resources to convert it into some less efficient form of energy; all of which raises the carbon footprint, and further lowers the world’s total proven energy reserves.
So you green weenies; why don’t you start running your bio-fuels projects off the energy that you get out of your project; before you even think about supplying bio-fuels for any other needs. Then if you have anything left over after your run your plant off yopur output, you can sell it an make a fortune; and even I will sing your praises.
But please don’t ask us to waste any of our precious energy reserves to subsidize your energy wasting schemes.
This is a great article. It never ceases to amaze me that the liberals and the MSM have have managed to propogate the image that our free enterprise energy system (that has had a huge positive impact on the quality of our lives.) is so evil and needs to punished and taken over by the Government. They manage to demagouge the energy supply system that has materially improved the quality of our life in so many ways as indicated in the article. This includes heating our homes, our transportation fuels, and the many other conveniences such as plastics and chemicals used in so many ways including medical. The infrastructure that delivers our energy daily is massive and was built by private industry and it has only failed us once with gas lines, when run by Jimmy Carter during the oil embargo.
We need to keep in mind that almost every country that nationalized the oil like Mexico and Venezuela have failed to effectively manage their resources after nationalization. When I worked with Pemex decades ago the Mexican Engineers told me that findiing new oil ended when the Foreign Oil companies were kicked out. PEMEX is one of the most corrupt organizations in the world. A similar situation exists in Venezuela today and their oil output is declining.
A little bit of history. During WW2 the oil industry had a major impact on our sucess in winning the war. Under request from our military, they developed a new process that provided our air force with an ample supply of aviation fuel. Without the fuel, we would have never beat the Germans in the Air and Europe would now bw speaking German.
The government take over of our energy system with Cap and tax will destroy our economy and the free enterprise system that has served us so well.
Francis (21:29:17) : I’m old. I remeber the Club of Rome’s ‘Limits to Growth.’ Certainly mercury was among the limiting 10. Maybe gold.
But, as was pointed out later: they neglected to mention oil. Which becomes topical now, wilth recurrent mentions of ‘Peak Oil.’
So there are different ways of being wrong.
And we ran out of natural gas in 1980 (!) per the Club folks. My answer to them is here:
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/
FWIW, I’ve run into a couple of articles claiming the Club of Rome is behind the AGW “movement” as well.
So much money they have, and such tiny minds…
George E. Smith (14:45:15) : So energy is the key to more food. Energy in the form of farm machinery, irrigations sytems; chemical fertilizers, and pesticides, or herbicides.
The limit case to this is hydroponic greenhouses. We can get at least a factor of 10 time more food production with already demonstrated technologies at modest added cost. See the “stuff” link above for details, it includes food. This is not a hypothetical. A large fraction of “store tomatoes” come from greenhouses and a large fraction of “specialty” lettuces come from hydroponic greenhouses. The extra control gives a better product and at lower costs compared with field grown (there are automated systems for floating the lettuces in styrofoam boards to the different stages including packaging…)
Yes organic farming will doom millions to starvation.
Um, I think you are wrong on this. Organic farming still uses tractors, irrigation, fertilizers, and yes, even pesticides; just very specific classes of them. It can be very energy intensive (the one I visited used a propane powered burner to do in weeds rather than a spray…) but the yields are not lower. In some cases they are actually higher.
Where it sucks is in the labor component. It takes about 10 times the labor, and that is why the costs are often higher. (Not all crops are higher in costs, but many).
Google “French Intensive Gardening” or “Marais System” for details on how to get much more food out of not so much dirt without a lot of energy inputs.
It is just faster and easier to do it with less labor and more petrochemicals. It is a labor cost issue, not a land productivity issue.
How ’bout those bio-fuels industries !? OOoops ! Energy input equals bio-fuels output; how crazy is that;
It isn’t a zero sum or negative sum game. Plants are, effectively, solar collectors. The energy gain can be as high as 8 times (for Brazilian sugar cane). That we do it stupidly (using only the corn grain and plowing under the stalks) is not cause to slam the whole approach. Brazil gets a large part of it’s energy this way and it does run closed loop. CZZ Cosan is a publicly traded company doing it in Brazil (and I own shares in them). They are not small. Their land holdings are about the size of the old West Germany IIRC.
The ‘problem’, IMHO, is that plants are not a very efficient solar collector. You can get 10x to 100x the energy per acre with mechanical solar collectors (thermal or photovoltaic). Their feature is that they produce fuel rather than electricity. As we move to electric and plug in hybrid vehicles, this ‘feature’ will fade and biofuels with it.
So you green weenies; why don’t you start running your bio-fuels projects off the energy that you get out of your project;
As noted above, they do exactly this in Brazil. There is also a site (who’s location I’ve forgotten) that is doing it with corn ( and maybe soy? it was a while ago that I read about them..). They co-located the major parts and run closed cycle. Plants harvested, cattle fed distillers grains and silage, bio-diesel from plant oils run the trucks and tractors, fermented cow poo runs the digesters and distillation, fermented corn makes alcohol that is sold. All with net energy gain. (They are smarter about using more of the energy in the plant, not just the corn kernels).
Just because a bunch of folks do it stupidly does not mean it can not be done right and smart.
But please don’t ask us to waste any of our precious energy reserves to subsidize your energy wasting schemes.
And this, I agree with completely. The “subsidy” part of it is entirely political and as with all political subsidy, causes stupid actions.
Oh, and algae yield about 10 times the energy per acre as other crops with far lower energy inputs. We could easily power the whole country on algae derived fuels, if we cared to do it, with very high net gains.
Why don’t we?
Because it costs about $80 / bbl of oil equivalent and OPEC sells oil for less than that. When the price gets high enough for folks to start building alternatives, Saudi pumps a bunch of oil and crashes the price until folks are out of business; then up it goes again…
It isn’t a technology problem, it is a political / market manipulation problem.
E.M.Smith, re OPEC selling oil for less than that.
We can bank on the fact that OPEC (at least the Saudis) know this very well, and do all that they can to keep the price of oil just below the point where petroleum alternatives are economically attractive.
And we (the West) are playing into their hands by building / constructing high-mpg cars, hybrid cars, implementing renewable fuel mandates, and pushing energy conservation (where it reduces oil consumption). Each of these moves has the effect of reducing the demand for oil, thus ensuring that OPEC does not have to keep producing more and more and more. We are prolonging the drama, and postponing the end date further into the future.
OPEC has control of the oil production, and can just as easily cut production as to increase it (probably much easier to reduce). Thus, even if (and that is a BIG IF) the West reduces oil demand by a considerable percentage (10, 20, even 30 percent), all OPEC will do is reduce output by a commensurate amount, and maintain the price of oil.
An even better strategy is for OPEC to do as you wrote, allow the price to increase (and increase their revenues), then periodically flood the market and crash the prices. This makes investors nervous about long-term prospects for their alternative energy projects – especially alternatives to oil. This allows OPEC to maintain a slightly higher long-term price for oil.
I describe some of this in my posts on The Grand Game. (see the middle of the post)
http://energyguysmusings.blogspot.com/2009/07/peak-oil-and-unicorns-both-mythical.html
Excellent article! Bravo!