Guest post by Indur M. Goklany
Analyses of policies related to fossil fuel usage usually focus on the negative impacts from that usage, while generally ignoring the positive aspects, such as their contribution to global food production and, through that, the alleviation of hunger which, it should be noted, is the first step to maintaining a healthy and productive population. Fossil fuels, however, are critical for food production worldwide. They contribute to food production via a number of pathways:
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They serve as raw materials for the production of fertilizers and pesticides, without which yields would be substantially lower.
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They provide most of the energy needed to move agricultural inputs (including water) and agricultural outputs to and from farms, markets and consumers.
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Fossil fuels also provide the energy for running farm machinery.
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They have helped increase atmospheric carbon dioxide concentration, which increases the rate of photosynthesis and water use efficiency in crops (and other vegetation).
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Much of the decrease in post-harvest losses, from farm to eventual consumption, also depends on fossil fuel powered technologies (e.g., refrigeration, storage in plastic products, and more rapid delivery systems).
Here I will develop a lower bound estimate of the contribution of fossil fuels to global food production. Specifically, I will address nitrogen fertilizers and pesticides, that is, only the first of the five pathways identified above by which fossil fuels enhance food supplies. Consequently, considering only this pathway would understate the contribution of fossil fuels to global food production.
Also since fossil fuels help increase agricultural yields, that limits the amount of habitat converted to cropland. Notably, such conversion is generally regarded to be the greatest threat to ecosystems and biodiversity worldwide (Wilcove et al., 1998; Millennium Ecosystem Assessment, 2005). Therefore higher yields imply higher habitat conservation (Goklany 1998). Here, I will also provide a lower bound estimate the amount of land that has been “saved” from being converted to cropland.
Contribution of Nitrogen Fertilizers to Global Food Production:
Nitrogen, the fourth most abundant element in the human body, is critical for life on earth. It is an essential component of amino acids, proteins, RNA and DNA. Without it, plants would not grow and there would be no food.
It is also the most abundant gas in the atmosphere. However, plants are generally unable to directly use the nitrogen in the air for their growth. For that, nitrogen has to be “fixed” in the soil (or other growth medium) via either natural processes (e.g., through the action of various soil or aquatic bacteria) or synthetic processes. Generally, natural processes are unable to fix nitrogen in the amounts needed to feed humanity. This is why synthetic processes have to be used to fix nitrogen in the form of fertilizers which can then be used to grow crops.
Synthetic fixation of nitrogen is accomplished via the Haber-Bosch process. [Vaclav Smil, writing in Nature, called the Haber-Bosch process the most important invention of the twentieth century (firewalled). I agree. Fritz Haber and Carl Bosch—both Nobel Prizewinners before the Nobel Prize was devalued by the political shenanigans of the Norwegian committee awarding the Nobel Peace Prize—received Nobel Prizes in Chemistry (I believe) in 1918 and 1931, respectively.]
In this process, invented in 1908, hydrogen is first produced from natural gas, and then reacted with nitrogen from the air under very high temperature and pressure in the presence of a catalyst (generally iron). Because the hydrogen is derived from natural gas, and the need for high temperatures and pressures, the entire process is very energy-intensive. According to one estimate, 1% of world’s energy is used for this process.]
Erisman et al. (2008) estimate that in the 100 years since the invention of the Haber-Bosch process, that even as the global population has increased, the percentage of global food production dependent on nitrogen from the Haber-Bosch process has grown. By 2008, they estimate, it was responsible for 48 percent of global food production (see Figure 1). Thus, as they note, “the lives of around half of humanity are made possible by Haber–Bosch nitrogen.” Their estimate, which is generally consistent with earlier estimates (e.g., Smil 1999, Stewart et al. 2005), assumes that in the absence of the Haber-Bosch process, other substitute technologies would have boosted productivity by 20% between 1950 and 2000.
Figure : The percentage of the world’s population estimated to be fed through the Haber-Bosch process, 1908 to 2008 (indicated by the short dashed line, right axis). Trends in human population and nitrogen use throughout the twentieth century are also shown. The total world population is shown by the solid gray line (left axis). The estimate of the number of people that could be sustained without nitrogen from the Haber–Bosch process is shown by the long brown dashed line. The average fertilizer use per hectare of agricultural land (blue symbols) and per capita meat production (green symbols) is also shown. Source: Erisman et al. (2008).
Figure 1 shows that in the absence of the Haber-Bosch process, the world would have had enough food to feed only 3.5 billion people (out of a world population of 6.7 billion) in 2008. It would be even fewer if there were no fossil fuels.
This is because regardless of which substitute technologies are used they would more likely than not rely on energy to one degree or another: No substance can be extracted, moved, processed and distributed without an investment of energy. And in today’s world, energy is synonymous with fossil fuels for practical purposes. Currently, 81% of the world’s energy consumption is derived from fossil fuels (and 6% from nuclear). Consequently, the 48% estimate derived by Erisman et al. (2008) as the contribution of the Haber-Bosch process to world food production is a lower-bound estimate.
Contribution of Pesticides to Global Food Production
Oerke (2006), used data from 19 regions around the world for 2001–03 to estimate losses in five major food crops from the full gamut of pests: pathogens (fungi, chromista, bacteria), viruses, animal pests, and weeds. He estimates that in the absence of pesticides, 50–77 percent of the world’s wheat, rice, corn, potatoes and soybean crop would be lost to pests. Fortunately, pesticides have reduced these losses to 26–40 percent. But most pesticides are made from feedstock derived from petroleum, another fossil fuel.
If one assumes that the mid-point of the above ranges for actual and potential losses due to pests applies to global food production, then in the absence of any pesticides, yields would be 46% lower. However, one ought to expect that in the absence of fossil fuels, substitute pest control methods would be employed. In the following, I will assume that in the absence of fossil fuels, actual yields would be 10% lower, although that might be an overestimat
e. But it will serve the purpose of developing a lower-bound estimate of the contribution of fossil fuels to food production.
A Lower-Bound Estimate of the Contribution of Fossil Fuels to Global Food Production
Combining the lower bound estimates of the contribution of fossil fuels to food production via nitrogenous fertilizer and pesticides indicates that because of fossil fuels, food production increased by at least 114% in 2008. That is, in their absence, food production would have been at least 53% lower.
A Lower-Bound Estimate of the Contribution of Fossil Fuels to Habitat Conservation
The corollary to the above estimate is that, in the absence of fossil fuels, the world would have needed at least 114% more cropland in 2008 to produce the same amount of food as it actually produced with the help of fossil fuels. But, as noted, conversion of habitat to cropland is probably the primary threat to ecosystems and biodiversity worldwide.
The above estimate assumes that the new cropland is just as productive on average as current cropland. But this is doubtful, since the best cropland is likely to already be in use currently. This reinforces the fact that the 114% is a lower bound estimate.
Since today there are 1.53 billion hectares of cropland worldwide (FAOSTAT), we would need an additional 1.75 billion hectares to meet the present level of food demand. To put this number in context, in 2006, the World Resources Institute estimates that there were a total of 1.41 billion hectares set aside for full or partial protection of biodiversity. This includes areas set aside for strict protection to areas set aside for sustainable use of resources.
So it seems fossil fuels have preserved more land from being converted to human use than all the other preservation effort undertaken to date (despite Prince Charles and Richard Attenborough’s best efforts).
Summary
Just the contribution of fossil fuels to global food production would outweigh whatever damage that has been attributed to fossil fuels, whether it is from real pollutants (e.g., particulate matter, sulfur dioxide, etc.) or from hypothesized bogey-molecules such as carbon dioxide. That they have, moreover, also “saved” more habitat from conversion to agriculture is a bonus beyond compare.
So the war with fossil fuels would seem to be counterproductive.
References:
Erisman, J.W., Sutton, M.A., Galloway, J., Klimont, Z, and Winiwarte, W. 2008. How a century of ammonia synthesis changed the world. Nature Geoscience 1: 636–639.
Fogel, R.W. 1995. The Contribution of Improved Nutrition to the Decline of Mortality Rates in Europe and America. In: Simon, J.L. Ed. The State of Humanity. Cambridge, MA, Blackwell, 61–71.
Goklany, I.M. 1998. Saving Habitat and Conserving Biodiversity on a Crowded Planet. BioScience 48: 941-953.
Millennium Ecosystem Assessment [MEA]. 2005. Synthesis Report. Washington, DC, Island Press.
Oerke, E.-C. 2006. Centenary Review: Crop Losses to Pests. Journal of Agricultural Science 144: 31–43.
Smil, V. 1999. Detonator of the population explosion. Nature 400: 415.
Stewart, W.M., Dibb, D.W., Johnston, A.E., and Smyth, T.J. 2005. The Contribution of Commercial Fertilizer Nutrients to Food Production. Agronomy Journal 97: 1–6.
Wilcove, D.S., Rothstein, D., Dubow, J., Phillips, A. and Losos, E. 1998. Quantifying threats to imperiled species in the United States. BioScience 48: 607–615.
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The problem is that to most enviro-mental types, more people is a bad thing. To them, this is just one more reason to hate carbon.
I’m expecting some mighty fine counter-arguments from the usual trolls on this one. Thanks for accentuating the positive, Indur. It’s amazing how quickly the alarmists forget that their alarmism first needs a full stomach.
A few years ago I left the city and worked in Africa on a commercial agriculture project for four years. It was a real education to see where all our food comes from and what goes into producing it. Tractors, trucks, pumps, electricity, fertilizer etc..
I came away with one profound conclusion: FOOD = DIESEL.
Excellent essay Mr. Goklany.
Those who harbor disdain for fossil fuels often focus only on the perceived negatives, while ignoring the obvious benefits. Your post offers a great counter-point to the argument.
This could turn out to be an great series of essays.
Particularity interesting is the fact that weather and climate related deaths have declined substantially, partially thanks to the use of fossil fuels for things like heating and energy. ( In fact, I think it’s been mentioned before that the massive decreases in mortality rates in relation to hypothermia – something that fossil fuel-based heating is definitely something that the rate can be attributed to. )
Absolutely true. Your post also shows why it is important for us to save these where possible Ny using alternative energy so as to preserve this important resource for future generations.
Let us not forget the contribution to packaging through plastics that allow airtight sealing of food yet are light in weight that reduce energy consumption in transport.
You could next go to into the contribution of fossil fuels to medicine and the lives they have saved.
This was an incredible article! Very informative. The environmental left fails to consider things we take for granted (like fertilizer, pesticides and herbicides). I’ve been in some heated debates with steadfast proponents of “organic farming.” You can’t feed the world’s population with that stuff. They demonize Norman Borlaug even though his efforts probably saved a billion from starving to death. Better living through chemistry! I encounter eco-geek patients all the time. They’re usually adherents to some form of “natural healing”…right up to the point where they have a bad tooth, broken bone, raging infection or a disease like asthma or diabetes. Then they tend to abandon their environmental purity. If they ever got hungry enough I’d bet they’d view “fossil fuels” a little differently.
Norman Borlaug is one of my Heros.
The anti carbon agenda is specifically
to eliminate healthy, happy , dark skinned people…
Indur, of course, by now you know, most of the fossil fuel antagonists are Malthusian misanthropists. Most of them would view sustaining our population as an evil thing. They believe the earth’s resources are put there for them, and not the rest of us. They’ve demonstrated scorn and contempt at the thought of feeding the hungry. But, it is great that you would remind the rest of us of some of the great benefits of fossil fuels.
In addition to facilitating the delivery of food, fossil fuels also facilitate in the pick up of groceries. My dad and grandfather spoke of setting aside a whole day every two weeks to drive the team of horses pulling their wagon into town to pick up groceries and other supplies.
Thank you Indur.
Very useful material well presented. With your permission I will make a PDF copy.
A side note re: pesticides. In human health we use chemicals and call them medicine and many are indeed pesticides, i.e. biocides. They are revered by most and have saved millions of lives and made life more enjoyable. But in agriculture we use similar chemicals (that many wrongly revile) and they have also saved many lives and contributed to human health (as you noted). And we call them pesticides. In is unfortunate.
One comment I throw back at those arguing against man-made fertilizers and pesticides is that humans live longer today than at any time in history because of access to health care and medicines, and safe and inexpensive foods … thanks to chemicals.
Thanks again.
Clive
This is a fantastic post/analysis.
Don’t you love it when a complex situation is a actually analyzed with a dynamic methodology instead of the silly one dimensional variable models like level of C02?
Poor Andy Revkin sees the future thru eyes grounded in the present:
“One reality is that current trajectories for human population and resource appetites, when gauged against the current suite of energy choices, do not add up to prosperous societies in a predictable climate later in this century. Another is that nearly all growth in emissions is coming in countries where the real-time imperative of economic growth will long dominate the long-term concern about greenhouse-driven climate change.”
oh dear, what to do, what to do. It is a great tragedy that the NYT supports such luddites, and yet pretends to be the voice of ‘progressivism’ and the ‘young voices’ that represent half the world’s population. I wish they’d drop the pretense and just say that they are old grouchy Malthusians who think that we’re doomed.
http://dotearth.blogs.nytimes.com/2011/12/10/young-voices-at-deadlocked-durban-climate-talks/#more-40525
If the ‘longevity escape velocity’ predictions are correct then we will see population accelerating way past 9 or even 12 billion. I think we can feed that many if we get our act together and let productivity rise. Given the L5 societies space-station designs and the resources of the asteroid belt, now being prospected by the DAWN probe, we could feed and accommodate 700 billion. A UN estimate. Newer space station designs may double that.
Amazing stuff! From my high school chemistry I seem to recall that the Haber-Bosch process is strongly endo-thermic so it requires a massive energy input to work at all.
Having no reason to dispute Indur Goklany’s figures, figures, I won’t.
I will, however, point out that this makes fossil fuels a critical resource in the near term for the well being of the human race. Consuming all natural methane in the next 50 years for energy production, as we are on target to do is a waste of a critical resource in light of the fact that standing energy use can be supplied from renewable resources. This is true, even if the AGW hypothesis is false, but doubly so in that it is true. If some emissions are necessary to simply feed the population, as Indur Goklany indicates, then all the more reason to reduce emissions in areas where they are not necessary.
Minor correction: ‘firewalled’ should be ‘paywalled’
I work in the oil business and I know full well the huge impact we have in the food industry – two hours down the road farming country starts. This is an excellent article highlighting just some of the impact both the natural gas and oil business have in this field. We have more than 200 gas well here in our areas as well as the oil sands. And believe me when farmers are this far north they have to rely on the very best modern farming methods available to make it in this environment.
There are 6000 oil based products across even modern field of human living in use as I write in every home, medicine, and business all over the globe.
Unfortunately, leftists refuse to acknowledge any positives oil companies contribute to humanity. Its almost as if they live inside a fairy tale universe and everything the eat and use is provided by magic. And in this universe the oil companies are dark magic and must be eliminated from their kingdom. There is no magic or medicine known to man capable of bringing these people into the modern world. They remind forever locked inside their fantasy world.
Excellent…! You talk about increased food production via five ways. We need to feed seven
billion, now. We need to stop taking land from the other seven million species, both flora and
fauna. We can begin, although we’re not doing it yet, on a “sustainability” basis.
Seven billion x 150lb/person is a lot..! Other systems, large, are in balance. We are not, yet.
But we’re getting there. Your article helps understanding. Fossil fuels are putting a lot of CO2
up there…and this is good..! The USA and others are going fine, but China and India need
to cut mercury, soot, sulfur, nitrous oxides…carbon other than soot helps. The Idso file on
this is just marvelous. Let’s help the women of Africa get to 2.1…!
If you want to really annoy a Greenie ask them what invention has saved the lives of millions of children in the last 30 years.
Answer is the plastic bottle. Diarhea is the biggest killer of children worldwide, mostly from contaminated water. Plastic bottles allowed distribution of cheap safe drinking water.
And, this actually only scratches the surface. There are untold numbers of uses for that miracle liquid we pump out of the ground on a daily basis. On food production specifically, for example, hexane is widely used to extract vegetable oils. Food preservation relies heavily on ligands such as EDTA.
Tom Curtis says:
December 11, 2011 at 10:14 pm
“…in light of the fact that standing energy use can be supplied from renewable resources.”
If nuclear energy is included in that mix, you have a case. Indeed, nuclear alone would do it. Any other selection which leaves nuclear out is a pipe dream and, if pursued on a massive scale, a misallocation of resources which will leave humanity less well off in the end.
The truth is always difficult.
I agree wholeheartedly and a hundred percent with the analysis above, but would continue to respectfully point out that a HUGE porportion of the nitrates and nitrites intended to feed plants ends up in the watercourses where it does incalculable damage to the subtle creatures that live there.
Very often farmers over fertilize their crops and are actually, literally throwing good money down the drain.
Watch out for the Malthusian Con…you could see the spin doctors at Durban starting to confabulate population growth and climate change – as the failure of Global Warming to Appear deflated their apocalyptic Drivel-athon.
According to the Malthusians we will soon need to resort to all kinds of stressful panic measures (implicitly destructive of the natural eco system) to feed the world.
Trust me…ordinary suburban dwellers could easily recycle a vast amount of their nitrogenous waste into fresh food…if they could be arsed.
Thereby leaving the water clear and the delicate fellas intact.
By the way this also applies to people who only ever wear their clothes once before washing…phospates and other crap destroys the quality of our water and the beneficial creatures that live in it.
I’ve never had a moment for global warming, I’ve always recoginized it as a chimera…but I’ve seen the destruction that nitrate pollution can do with my own eyes…now that’s a REAL problem that could do with a global conference eh?
Figure 1 is totally misleading. The gray line cannot denote 7 bn people and 52% at the same time. Likewise the dashed line… IOW – crap.
Philip Bradley says:
December 11, 2011 at 10:26 pm
“Answer is the plastic bottle.”
Nowhere is Greenie ignorance better displayed than in the chronic debate on “paper, or plastic?” Plastic grocery bags are a godsend. They weigh a fraction of the paper kind, and so can be more easily transported and disposed of without all the pollution generated thereby. They require a fraction of the energy to produce, without all the solvents and phosphates and other pollution necessary for processing paper.
“But, but… they hang around for 10,000 years!” I was getting to that. Isn’t that a wonderful thing? They stay intact, safely buried in landfills, and not leaching nasty stuff into the ground while they decompose. It’s win-win-win. What’s not to like? But, the knee-jerk ignoranti just can’t get over their poorly grounded intuitive aversion to the things. It’s enough to make me spit railroad spikes in frustration. We are our own worst enemy, but not in the way they think (or, more appropriately, fail to).
Consuming all natural methane in the next 50 years for energy production, as we are on target to do is a waste of a critical resource in light of the fact that standing energy use can be supplied from renewable resources.
The only viable ‘renewable’ means of generating a large proportion of the energy we consume is hydro-electricity.
The AGW/Green crowd has fought tooth and nail against hydro-eletric projects for decades.