I recently posted this somewhere else on the vast intertubes, but it's a more "optimistic" look at the same thing:

"Consider that if it is assumed that 5 billion people is an upper limit to the population that can be sustained (which is optimistic in the extreme by everything I've read, but I want to be optimistic sometimes), and we started trying to get back down to there from where we are (6.7 billion or so), it would take 23 years of a net loss of 200,000 people a day. Right now, about 150,000 people a day die, with 400,000 or so being born. Those numbers would essentially need to reverse. In all seriousness, and a minimum of morbidness: any ideas?"

Now, I acknowledge that 5 billion is likely a ridiculously high number, although I think 1 billion is too low (I've seen 2 billion argued well in the past), but the actual number declined to is almost unimportant. Society can't stop producing young people, especially where manual labour is needed. Discussing this type of thing with people who haven't had the same sort of thoughts is almost impossible. As you say, there's no rational solution here (barring miraculous technology, which I refuse to rule out as possible, but also refuse to count on happening). Living in Canada, which may be one of the few countries living below it's long-term carrying capacity right now (hey, we've got farmland and water everywhere), it's an easy problem to ignore for now. I think one of the assumptions that most people in the world make is that if we really tried to feed everyone, we could (and this is of course true right now). This is another in a long line of assumptions that will change in the near future.

Paul, congratulations on writing a fantastic article. However I have very serious problems with one line of the text:

It is important to recognize that humanity is not, overall, in a position of overshoot at the moment. Our numbers are still growing (though the rate of growth is declining).

What is overshoot? There are several definitions to be found on the web, but one very good one is found here:

By definition, overshoot is a condition in which the delayed signals from the environment are not yet strong enough to force an end to growth.
http://www.sustainabilityinstitute.org/limits/symptomsO.html

In other words, we are getting very strong signals from the environment that we are into overshoot but they are not yet strong enough to force and end to growth.

And this great article from The Energy Bulletin:

A species may greatly overshoot the long term carrying capacity of its environment. (Its population may become greatly larger than its environment can sustain.) Overshoot becomes possible when a species encounters a rich and previously unexploited stock of resources that promotes its reproduction.
http://www.energybulletin.net/4735.html

Can our numbers still be growing though we are in overshoot? Of course! Overshoot occurs when a population exceeds the long term carrying capacity of its environment. Like the reindeer of St. Matthew Island. They were probably in overshoot when their numbers reached 1000 but they continued to multiply until their numbers reached 6000 before there was a total collapse.

While they were in overshoot, the reindeer completely destroyed their support system, the lichens they were living on, so their numbers plunged to under 30. We are currently deep into overshoot. Were it not so we would not be destroying the environment. We would not be drawing down the water tables, drying up rivers and lakes, destroying the rain forest, destroying our topsoil, over fishing the oceans, causing deserts to expand, driving thousands of species into extinction, polluting our water and atmosphere, and a thousand other things.

But things are far worse than that. I am saying, even with our current consumption of fossil fuel, we are still deep into overshoot; else the above things would not be happening. But look close at The Energy Bulletin article. “Overshoot happens when a species encounters a rich and previously unexplored stock of resources that promote reproduction.” We are in overshoot because we found a rich store of detritus, or fossil fuel. This enabled us to produce massive amounts of food which enabled our population to explode.

The long term carrying capacity of Homo sapiens, if fossil fuels never ran out, would probably be somewhere between two and three billion people or four at the most. But the long term carrying capacity of Homo sapiens without fossil fuel, including coal, is probably less than one billion.

So according to my estimation we are either three billion into overshoot, if our fossil fuel lasts forever, or about six billion into overshoot if it does not.

Ron Patterson

Several comments:

1) Of course, everyone should understand that when you are working with models and simulations, your future projections are going to be smooth curves, but the real world won't actually be that way. Just as the left side of the curve for oil was jagged during the 1970s, so there will be discontinuities on the right side of all your curves.

2) With particular regard to your projections of excess population death rates, even if one accepts all of your assumptions and methodologies, it is likely that such excess deaths will occur in episodes rather than as a constant phenomenon. Examples of such episodes are easy to imagine: pandemics, major wars, tsunamis, hurricanes, earthquakes, famines, etc. The right side of your population curves might thus end up looking more like a stair step than a smooth slope.

3) I do question, however, your assumptions with regard to circa 1850 global population as your assumed non-oil carrying capacity. In 1850 much of North and South America remained unsettled, as well as Australia and a few other places. Furthermore, petroleum made very little difference to the world until more around 1900 or so. During the last half of the 19th century it mostly was being used as a substitute for a depleting whale oil supply. While it is true that every thing we have done in the past century and are likely to do through most of this one will somewhat degrade the natural carrying capacity of the Earth, we also have a huge increase of knowledge on our side to more than offset that fact. For example, we know how to make efficient wind generators and PV panels and geothermal generators. We know how to make devices to do jobs with much lower energy inputs than we used to. While not always applied consistently in a world of too-cheap energy, we do know how to produce food sustainably and at higher sustainable yields than we did a century ago. The list goes on and on. Thus, I think you are being much too pessimistic with your 1 billion figure for your end scenario global population. I am thinking that at least 2 billion is at least possible, and maybe more.

4) The trouble with applying the Hubbert peak oil model to global oil is that is masks some things that will be going on at a global level that do not go on at the level of an individual oil well or field or even an entire nation. In particular, on the right side of the peak, global oil prices will be rising inevitably and inexorably as supplies decline. This doesn't happen when an individual field or even an entire national inventory of fields go into decline. When an individual well or field or nation goes into decline, consumers just shift to supplies from another producer, with little or no impact upon prices or upon levels of demand. However, when there are no other sources of supply left to switch to and prices go up, then there is going to have to be some conservation and energy efficiency. Based upon our experience in the 1970s, we can assume that when we enter into an episode of big and continuing price increases, there is in fact going to be some elasticity of demand. This in turn will serve to somewhat mitigate the pressure on prices. The post-peak oil situation might thus turn out to not be quite as catastrophic as some imagine it to be. Worse than the 1970s, probably, and without end for much of the century. But that may be just barely manageable enough to allow for a somewhat softer landing to a somewhat higher sustainable carrying capacity than you anticipate.

great article. depressing how few comments this has gotten today. I did a presentation on food production related to peak oil & I could not get my mind off the pop. chart. Eventually that was the only chart I used. Especially when you overlay with FF it is so telling. Nice job breaking down the 3 components re oil/ng to food. One fact that stood out in my research was that rice was the primary grain to benefit from the green revolution. Bodes ill for some of the most populated parts of the world & I have read China's use of chemical fertilizers has increased significantly.

Irrigation & the tractor + fertilizers has allowed the use of many marginal lands. Of course our lawns might be a small compensation for this if we are smart enough to put them to use. We have mined our soil & it too will have a depleton curve.

I allow some sense of the pressures that overshoot will bear upon us to come through from reading your article; however the death rate parts-well conceptualized- are difficult to take in.

Good job.

I re-ran the simulation for target populations in a range of 0.5 to 3 billion, and for the maintenance case of 6.5 billion. The results are:

Target population: 6.5 billion (maintain current population)
Average excess death rate: 48 million/year
Peak excess death rate: 73 million in 2044

Target population: 3 billion
Average excess death rate: 87 million/year
Peak excess death rate: 145 million in 2034

Target population: 2 billion
Average excess death rate: 93 million/year
Peak excess death rate: 165 million in 2030

Target population: 1 billion
Average excess death rate: 101 million/year
Peak excess death rate: 200 million in 2028

Target population: 0.5 billion
Average excess death rate: 102 million/year
Peak excess death rate: 223 million in 2025

Two things pop out at me here:

The first is that the difference in rates required to go from 2 billion to half a billion are relatively trivial. To me this implies that the risk of outright species annihilation is quite real if our population starts dropping as fast as it would take to get us back to a couple of billion people.

The second is that even maintaining our current unsustainable population level would involve horrifying changes, on the level of giving humanity a permanent case of Spanish Flu.

Some perspective: The great calamities of the 20th century - two world wars, the regimes of Stalin and Mao, the Russian and Chinese civil wars and the 1918 Spanish flu - produced a total of 170 million excess deaths. If they had all happened simultaneously, they would have produced a peak rate of about "only" 70 million excess deaths per year, with 50 million of those from the Spanish Flu. That is below the average yearly number my simulation says would be required to reduce our population to 3 billion in 75 years.

Have I mentioned that numeracy sucks? It's no wonder so many avoid it like the plague...

Hello GliderGuider,

Well Done! I lean towards the more pessimistic 95% plus decimation level of James Lovelock's Gaia Theory, but certainly not advocating for it.

A few million wretches huddled on the shores of Hudson Bay and Northern Siberia waiting for the next mild temperate global climate cycle. Hopefully, no Toba-like volcanic event will push them to the very brink of extinction.

The general collapse of global communications, along with the ability to gather and dispense these horrifying statistics, will keep most people uniformed on what is happening on the global scale. Besides, I speculate that they will be too physically exhausted; too busy trying to eke out a mere existence to have much time to seriously and psychologically contemplate global devastation concepts. Finally, a full comprehension of deaths in such huge numbers would drive anyone mad.

Bob Shaw in Phx,Az Are Humans Smarter than Yeast?

I begin my peak oil writing topic by showing my students Albert Bartlett's phenomenal presentation. He says, "Zero population growth is gonna happen." It's like peeling the skins off their poor, innocent eyes.

All of Shake-speare's tragic heroes, too, have to face the dreadful import of their actions. "Howl, howl, howl!" All art is prophetic.

Our great tragedy is that, like the proverbial coyote, we can see what's about to happen to us. Blessed are the yeasts, without eyes or brains.

Our fate's awfulness lies in its simplicity: we will be embarrassed AND humiliated. Like Oedipus, we have done something stupid but understandable: he tried to run away from the Curse of the gods, and we have thought we could evade the laws of nature. Sorry, but you just can't do that. Not in this universe.

The laws of thermodynamics, population theory, etc. are as well known as the curse of Oedipus. Yet we simply turned our backs on them.

It's not that we're no smarter than yeasts: that's a diversion. The issue is control: we simply have not been able to control our numbers. Curtain.

Who of us will be able to face the next ten years without gouging our eyes out?

P.S. My only objection is your subtitle: Should read "herd of elephants in the room."

GG

You're missing the real elephant in the room:

1) Changes of this magnitude are rarely gradual and proportional. Instead they are concentrated in events.

2) The sooner the absolute number decreases, the better off the remaining souls are.

3) Removing first world numbers has more effect than removing third world.

4) Disease is the most effective agent. There are lots of knock on effects that can increase the total numbers, as well as reducing per capita resource numbers even further.

5) There is first mover advantage in forcing the event to your timetable and liking.

Someone will have recognised that...

It is like we made a bargain with the devil. We got everything we asked for, not realizing we would lose everything and our soul when the clock struck midnight.

But it is also like the Titanic. Once the ship hit the iceberg most of the people were dead men walking, but not everyone. Some lived. And it is worth understanding this better so as to maximize the survivor ratio.

What is an oil driven die off going to look like:

If I understand W. Catton's point in Overshoot correctly, what we can expect is that there will be crop failures in one area, and lacking transportation oil, crop surpluses will not be transferred (as they are today) and the population collapses. They eat the seed corn. They eat the live stock. And the carrying capacity of the whole region drops to much below what it first was. Not sure how this can be eased without any oil.

That increase in number of deaths per year figure is not huge, so it might happen in more subtle ways. (we need a demographer).

What if childhood mortality increases? Hmmm. Probably the fertility rate will climb to offset that. So even lots of young deaths won't reach this result.

What about deaths among the older population? That would not change the fertility rate either.

So these extra deaths that are being discussed are really extra deaths of people in their prime child bearing years. Women actually. That makes this extra horrific, because if healthy adults are dying, then the mortality rate of children and elderly I expect to be more severe.

Does anyone know the difference in mortality for women between medically assisted child birth and unassisted? I know several women who would have died without medical assistance. I wonder if that rate is 4% higher. That is not much change, but would account for the whole population drop.

If that is true, the key would be education for women, medical aid, and more birth control. Trade voluntary reduction for extra deaths.

Anyone have a copy of the computer simulator that comes with "Limits to Growth"? I just ordered a copy but it is not here yet. It would be worth exploring some scenarios.

I've been interested in demographics for some time and have finally found a decent source of information for plotting timelines and noting correlations at
EarthTrends .

The correlations between population and food, and population and crude oil (read: energy) use are striking. But when I looked at some other correlations, I was struck by some that came up being totally counter-intuitive. For example the rise in calories per capita since roughly the beginning of the 'green revolution' has correlated in an almost perfect negative way with the drop in birthrates. If one uses total fertility, the negative correlation is even more striking.

Sorry for the thumbnail, I haven't figured out Imageshack yet, but you can click it to get the big picture.

I haven't yet graphed the figures, but my suspicion is that the best correlate with dropping birthrates is population density, even though, I'm sure, many factors such as education act as 'enablers' for lower birthrates.

It is figures like this that make the population picture more complex. The overall population is still rising because of the 'shadow' effect of a large number of child-bearing age women, even though each woman is having on average fewer and fewer children. Basically this gives lie to the mantra that the more well fed 'people' are the more children they have, as long as we look at the individual case and not the entire population. Also striking is the fact that the birthrate and tfr drops are happening across all socio-economic-cultural groups, ruling out a wealth effect and other effects particular to a given culture or religion. In my opinion, this also rules out attributing the drop to something like General Adaptation Syndrome as one would be hard put to demonstrate an increase in physiological stress level on a global scale.

So, what does this negative correlation mean? I don't know, but I think it at least indicates a close look at population issues and possibly refraining from making simplistic stereotypes likening humans with mice or yeast in their demographic behavior.

I once drafted a story about a population crash and a subsequent reordering of the world economy. What triggered the collapse was a series of random sinkings of cargo vessels and tankers caused by a group of terrorists gaining use of a few submarines. The high rate of insurance claims lead Lloyd's of London to end its centuries long practice of insuring shipping. Without insurance international shipping drops to near zero. Crop failures in one area cannot be compensated for with food imports so mass starvation follows. Civil wars breakout and half the world's people are living the nightmare of Iraq. Wildfires incinerate most of the world's large cities. It would only take a few months to wipe out 90% of the earth's population. Peak Oil was not a factor.

Oh jeez. This is just an awful trite portrait of doom laden with many unwritten assumptions that we have no reason to beleive...

First and foremost, that there aren't energy substitutes for fossil fuels. These have been discussed ad-nausium from the most obvious contender with exojoules of proven performance and thousands of years of fuel avaliable, nuclear power. Then theres wind and solar as plausible sources for industrial scalability. The only question is if the rapid infrastructure change is inflationary to the global economy... There aren't existential risks of global population even in the cards.

The second assumption being made is that the correlation between per-capita energy use and population is causal and necissary. Even in the wildly implausible world where we cant ramp up as much in energy substitutes as we have today its still incredibly unlikely that we cant support the basics of health and nutrition on a lower energy budget for the global population.

Having workable replacements for oil that will scale to an America/Europe scale don't get you from here to there. The Global South is being forced from the oil market by prices. If they fall into collapse, refugee flows will get unbelievable. We can't stop economic refugee and smuggling flows over our Southern Border now (granted, we could reduce them), how are we going to hold them back when folks are literally running for their lives?

Solve that, then you have to deal with Peak Aluminum/Iron/topsoil/fossil water, each of which gets more difficult as you have less wiggle room on other resources to get through. Other shocks get harder to deal with as well with less wiggle room, thus leading to a higher "preventable" death rates from disasters, pandemics, war, and such.

I suspect 1)the author is overly pessimistic on oil decline rates as well as replacements and 2) that being wrong to low side as good as it is for me and mine in the near term may not be good news for humanity in the long term.

A projection is only as good as your initial assumptions. I would certainly agree that in a couple of centuries we will be back down to a sustainable population, one way or another. But I am skeptical about the ferocity of the decline you depict.
You are not accounting for waste. Today's waste is tomorrow's opportunity to improve efficiency.

Our oil-use at present is extremely inefficient. In a post-peak world of mass starvation (as you depict) there would be very powerful incentives to conserve and to improve efficiency. Look at how fast weapons technology improved during WWII - and imagine the same energy and ingenuity applied to finding way to grow more food with less oil.
And remember that oil would be diverted from non-essential activities into food production.

You also ignore the potential for coal to provide energy and chemical feedstock to aid in food production. People won't be worrying about carbon emissions if they are starving.
Thus food production would decline at a much slower rate than oil production.

If we are to believe in things we cannot see or touch, how do we tell the true belief from the false belief?

I once thought I'd write a book on this subect as if it was an event in our future. Then it occurred to me that it has begun. So I took a look at this world from my garden in Seguin, Texas and asked questions no one wants to hear. In spite of being a published writer, I could find no home for the book and was forced to self-publish.

Ruminations from the Garden

Buy it. Don't like it? I'll buy your copy.

Want a free electronic version?

Shoot me an e-mail.

I did inhale.

One of the issues that hasn't been considered enough is how a society that is shrinking would be organized economically.

All the current popular ideas postulate permanent growth and limitless resources. This is the basis of capitalism. One invests now and gets a return with interest later. The interest can only be generated by exploiting some resource that is not be used currently. With a steady-state or declining population base there is no growth to pay the interest.

Since most economists get their support from the business community (either directly or indirectly) there is little incentive to work on a design for a society which will limit business opportunities.

I've taken a stab at what a no-growth society would look like:

Planning for a Steady-State Economy

As an aside, my estimates are that the current US population could be sustained if we scaled our standard of living back to that similar to Bulgaria. This is livable, but not what people in the US are willing to contemplate.

I wonder whether population decline might not be rather steep. We know that the die-off of yeast is relatively quick. I think we may hit several problems that are likely to contribute to quick die-off:

- climate change affecting what can be grown in an area
- water shortages
- pollution issues (just one kind could wipe out large numbers of people in an area)
- monetary problems, so food cannot be purchased, even if available
- war over remaining resources
- lack of basic skills needed to live without fossil fuels

Nice work, thanks for your efforts.

As other said there are many assumptions behind your analysis. The main one being that the use of fossil fuel acted like a steroid on the human population growth increasing dramatically the carrying capacity. However, other factors had a huge impact such as breakthroughs in medicine (antibiotics, vaccination campaign, hygiene, etc.), the access to clean water, to name a few.

Our global use of oil is roughly constant around 4.4 barrels/capita/year but of course with huge regional differences (US around 25 b/c/y and third world countries <1 b/c/y). So it's not easy to define a minimal threshold that would avoid a population contraction. Note that that we are now using 20% less barrels per capita since the 70s peak without a slowing down in population growth.

IMO, the big question mark is how demand for petroleum products will adjust once past the geologic peak. It's very obvious that burning oil derivatives for personal transportation is a very wasteful lifestyle that would have to disappear. More worrisome is our dependency on fossil fuels in order to grow food. I'm not an expert but I believe that natural gas is used in the production of fertilizers mainly as a source of nitrogen, can we find substitutes?

The big question is what is our minimal need for oil/natural gas (once all the substitutes and changes in lifestyles are taken into account) in order to ensure the availability of food to all. Also oil will no disappear tomorrow, for instance syncrude from tar sands will be available for a long time but with a modest flow rate so there will always be a trickle of oil for some basic needs.

Great post, GliderGuider.

This is a difficult subject to embrace, even harder to discuss.

Your straw target of population of around 1 billion Homo Sapiens is probably in the neighborhood.

The takeoff of population seems to predate the onset of oil - it was probably coal.

North and South America were already fully populated when the Europeans arrived. That Was the long-term sustainable population.

We entered overshoot when we exceeded the sustainable population. As I am fond of saying, overpopulation is not something that may happen someday unless we do something, it is something that happened 100 years ago. Or 200.

The thing I observe in discussions of sustainable carrying capacity is that people uniformly dismiss the non-human world. Yes, if every hectare of land and every drop of the ocean, every beam of incident sunlight were reserved for H.S. and our favored domesticated crops and livestock the sustainable population might be as high as 2 billion.

But we have never had a sustainable population in the absense of a healty, intact ecosystem of non-humans.

Our ecosystem is certainly not healthy now, but H.S. population is being sustained by fossil fuels.

The sustainable population of H.S. in the absence of F.F. and a wrecked environment might be - zero.

I for one do not recommend the experiment.

Happily, none of us (and no-one, really) will determine some target population and act to reach it.

This is not a discussion about what should happen, but about what will happen.

I suspect that H.S. population will drop to around a half-billion. That will take enough pressure off the non-human world that the rate of species extinction will come back into balance with the rate of spontaneous speciatio. H.S. will slowly rebound to the one billion level over a period of (several) centuries as we figure out how to live sustainably on a ravaged Earth.

Another way I have of visualizing this is in terms of that big tsunami we had a couple of years ago. There were 200,000 excess deaths in one day. A horrible tragedy. We can expect three or more times that level of excess deaths, every day, from now on.

As others have commented, the simulation produces a smooth curve, and the reality will be irregular. Since some times the mortality rates will be lower, other times they will necessarily be higher.

The lowest rate of mortality will likely be the population who is in the 17 to 25 age bracket when the overall mortality rates peak. Call it 15-20 years from now. Look at the little ones. The 2 to 5 year olds may have a 5% chance of survival. The rest of us, not so much.

Don't forget that the area of land available for growing
food could well be sharply reduced by rising sea-levels
due to global warming, hence limiting the population
carrying capacity of the Earth.
Jay Hanson predicted that bio-weapons would be used to
sharply reduce population to sustainable levels, this
being justified as a "new start and golden future for
mankind".
Guess who the chosen survivors will be?.
Just watch out for any signs of politicians, the rich and
powerful, senior members of the armed forces, judiciary,
etc.(plus their families), being vaccinated.

The Die-off will likely be uneven spread around the globe. Due to populationdensity, water recources etc.

Also one important factor will likely be, how politically and governementally stable different countrys are. If the governemental system collapses, then it´s game over. Also the stable countrys must be prepared to defend its borders from refugees, otherwise they collapse anyway.

If i talk about Sweden, which since long is a stable country, i am still wondering how we will manage. During WWII we were about 6 million inhabitants as i recall it, and then we had food rationing because of the blocades. Now we are 9 million because of a huge immigration. Can we really feed 9 million people? I have no answer, because i am not an expert on AG matters.

Personally i am glad that me and my wife have no children. We are in our 60-ies and have done a good deal of preps. I wonder if we will be 85 or so?

6 Billion could live the way India and China currently do on 30 million barrels of oil. This is all BullS*** about a die-off. Yes it does happen in the most likely sceanrio where the rich countries hoard it for their extravagant lifestyle but it has ZIP, ZERO ,NADA to do with carrying capacity. Look at India and its population growth. True millions starve yet population increases on such small amounts of per capita oil. If we used India's figures we could have 6 Billion on 18 million barrels of oil.

I think this prediction is completely wrong.

The projection of population and deaths is for an immediate doubling from the current 57 million deaths per year to 110 million (the current 60 million + another 50 million) by 2012.

Look at the changed death rate.
http://www.prb.org/pdf05/05WorldDataSheet_Eng.pdf

http://www.earth-policy.org/Indicators/Pop/2004.htm

So the prediction is that by 2009, 2010 we should start seeing an additional 10 to 20 million deaths globally.

I am willing to put up $100 that this will not happen. We can negotiate the terms of the bet(s).

In the USA
the 1980 deaths of 1,989,841 was a death rate of 0.88%
the 2003 deaths of 2,448,288 was a death rate of 0.84%
the 2004 deaths of 2,398,343 was a death rate of 0.82%
So total deaths is falling now to go along with a falling death rate (falling for decades).

=====
http://advancednano.blogspot.com

Oddly enough the swing to the right and religiosity in the United States is probably due to ecologically minded people coming of age in the 70s deciding not to have children -- leaving the children of religious zealots to inherit the earth. This is also happening in Europe and Russia with the muslim populations. It's the prisoner's dillema. In China right now if you can pay the $25,000 fine per child you can have as many kids as you want. Now that's social darwinism codified in law!

The problem with overpopulation, especially when considering energy issues, is absolutely staggering, no doubt. The human interactoins make it all the messier. I imagine with millions of "extra" deaths going down, people aren't going to be sitting back watching. Cataclysmic social disruptions seems inevitable. Sort of a positive feedback.

This seems like a factor that is almost impossible to gague.

However, I was wondering if in your model you could take into account the reduction in life expectancy. Without the extreme medical and pharmacological interventions taken for granted today, typical life expectancies would have to drop at least 10 years, I would guess a good bit more (not even considering further reduction due to malnutrition and so forth). Some number (my guess would be not that much, but not insignificant) of the "excess deaths" you mention could be an effect of this reduction.

This would affect developed countries in particular. In Japan for instance, by 2020 about a third of the population in projected to be 65+. Factor in a suddenly much decrease life expentancy, the Japanese population could be in freefall pretty quick without even factoring in the food and energy shortages.

I should mention I am not making a value judgement and the relative worth of the lives of older people. The increase of life spans over the past decades have, however, required huge energy and technology inputs that won't be available in the future in the same way they are now. And I suppose you could claim Mother Nature doesn't consider any of us much use after we have reproduced, thus serving our genetic purpose.

I would like to make the point in passing that populations in the developed Western world (Europeans and Japanese) are everywhere declining, and have been for some time.
This appears to be an inevitable byproduct of what was termed in the article "women's empowerment and education," ie, primarily, the entry of women into the workplace as careerists.

I don't personally mind the idea of a moderately declining population, though of course everywhere but Japan this is presented as a crisis (both to the sustainability of the pension system and the continuation of economic growth), and everywhere but Japan the “solution” offered is essentially unlimited importation of foreigners (as it were, dissolving the people and electing another).

National suicide is rather beyond the limited scope of proper discussion on a message board like the Oil Drum, but even confining ourselves to the physical demographic problem of increasing numbers it is obvious that the West could stop population growth cold in its territory by keeping non-Westerners out. This would not address growth globally, of course, but it could mitigate the effects in the West locally by confining them elsewhere. (Actually, contrary to some of our more hysterical open borders “environmentalist” advocates, I think this would act to slow population globally too, denying both a safety valve to increased growth in the Third World and minimizing the extent to which that population could continue its explosive expansion by feeding directly upon the resources of the West.)

Now, the only people likely to be receptive to population control on a personal level are the people least responsible for the problem – namely, morally overwrought Westerners who will react by restricting (or eliminating) their own reproduction (while hectoring the rest of us about our duties to the planet, no doubt). These people don’t have that many children anyway, and they will simply be replaced by those who do. (I recommend the vegan diet to those among them who want to speed that process up.)

On another note, it is amusing to me how someone can talk about billions of “excess deaths” as the unavoidable consequence of resource scarcity while dismissing potential mitigations of that scarcity for reasons that would seem, ahem, less than compelling: if you really believe that billions of people are about to die, wouldn’t stopping that be somewhat more important than preventing “greenhouse gases” from coal or “radioactive waste” from nuclear power?

I somehow suspect that people outside of the Global Warming/Peak Oil echo chamber will be hostile to the idea that greenhouse gases and nuclear waste are more of a problem than staving off mass death.

Hi Glider,

Good article, but too bad about its being (a bit) late (by about 100 years). #:-)

About agriculture, I think that quantity of food production by oil or by organic means would result in a near dead heat. (though soil degradation would be very great in our oil based Agi compared to organic.)

I think the greater effect oil has had is the concentration of populations through its use as a means of collection transportation and redistribution of food (through non agi work).

Looking at your graph of pop and oil, one could also add a line graphing numbers of people on the farm against those in the city which might fit well against population increase?

All this is quite academic as far as the overall resulting overpopulation collapse is concerned but I think would suggest that the collapse could be better controlled where the population is agi based rather than city based. Unfortunately to benefit by a slow collapse one needs the energy to get there. (nothing short of a nuclear blast needed here?)

Malthus triumphs in both situations but where agi is damned to slowly go by foot to Olduvai (with only a slight chance of a reprieve), industrial society, with concentrated population and degraded land, will get there on a one way street by Cadillac. ( Late post ,this, as I got lost on the freeway and mistakenly posted on Drumbeat yesterday, might as well have stayed lost, all the above amounts to is a slightly different view of the same dead body). I think I will go plant a parsnip now, as at least they are very good energy producing and storing items.

Thank you, GG:
The comments here seem to be embroidering the edges of your work, mostly; no one has much of a counter to your conclusions.

I'd like to add to what others have said about the inhomogeniety and nonlinearity that we're likely to realize in the real world, in contrast to the smooth curves of your models.

Half the people on the planet live in just three countries, all of them in Asia. You think it'll be bad here in the US when the tankers are no longer delivering crude? China is dependent on shiploads of soya from Brazil and Argentina for its daily bread, and there will be no escape for them when the food stops coming. The huge oceans that have protected North American countries so well may save our bacon yet.

After famine, the next horseman is pestilence. Words cannot describe the crush of humanity across southern Asia, and that density will prove lethal when they begin to fall ill. Did anyone catch the NYT article today about the mass die-off of the hogs in Guangong province?

http://www.nytimes.com/2007/05/07/world/asia/07cnd-hongkong.html?ex=1336...

Nothing happens in a small or local way under the kind of population pressure there is in southeastern China. Just as the 13th-century Europeans carried the Plague with them as they fled the affected areas, so too will those who are still able to move spread the pain as far across the land as they can walk.

One other point: The population graph looks like a single exponential to me, and though it has a few minor zigs and zags to it, we don't need the Green Revolution or anything else to explain the kneee in the curve around 1880. It's just the nature of the function.

Well, that does it then. If there were any lingering doubts then this outstanding article should put them to rest, for there's clearly only one rational thing left to do: Nuke Iran.

Cheers,
Jerry

In the graph World Oil Production and Population 1900 to 2005 there is no correlation between oil production and population between 1945 and 1985, a time frame that includes the 1973-1980 oil crisis. Therefore, the seeming correlation 1985 - 2005 is likely coincidental (caused by the scaling of the graphs). If oil production would have declined further 1985 to 2000, population would not have followed.

In short: population was increasing and did not care at all about the decline in oil production 1980 to 1985. What is the evidence that it will do from 2005 forward? What is the threshold per capita oil consumption for a population decline to occur etc.? All these questions are not answered.

The beginning of rapid population growth in the 19th century, before the use of petroleum for agriculture, was probably due to the invention of steel plows.

The rich get richer and
The poor get children
In the mean time
In between time
Ain't we got fun?

...I guess the second line will need to be changed

Yellow Gold (bullion)
Black Gold (oil)
Green Gold (land)
Human Gold (your children)

.... will you still need me, will you still feed me, when I'm sixty four?

Great post Stoneleigh.

As part of my Masters degree I recently submitted an assignment covering food and oil. My conclusion was that to maintain food production at current levels that oil is needed and any reduction in oil inputs will result in a reduction in food production, but such reduction is not likely to be linear. There are a host of other problems with food production including soil degradation, increased resistance to pesticides, water availability etc etc, but the conclusions are the same.

Food or fuel is an incredibly contentious issue. Crops grown for fuel tend to be grown in richer areas of the world. People in poorer countries are already dying while new SUV's are sold every day. Expect this problem to get worse.

The die off has begun. The resource wars in the Middle East, people dying of starvation in Africa and other poorer countries etc etc are evidence that this is so. Our climate is also changing, so things can only get worse.

I differ slightly with Stoneleigh, but only on timing. I think the production plateau we are on could be maintained for a while yet and then production will decline more slowly. I think the bell curve will be assymetric - on the way up we had as much as we wanted without restraint so the curve is very steep. On the way down people will work very hard to maintain utility by any means, so JH Kunstlers book title "The Long Emergency" is most apt.

Without attracting too much heat; and with the benefit of a strong and detailed understanding of the first and second laws of thermodynamics, I would contend that we humans might even find a way out of this pickle.

We might just learn to live with fewer kids, a lot less energy, find new ways of living sustainably using local resources; and find we cannot afford the energy to wage war, thus we might also live in harmony.

It is a very long shot, but we humans are nothing if not resourceful.

Good , tough work on this, GG.
A year ago I gave the following testimony at the Portland City Council meeting which later created the Peak Oil Task Force (report available here-- http://www.portlandonline.com/osd/index.cfm?c=ecije
Thought this would be a good time to share it:

We often eat more oil by weight now, than we do the food itself that’s produced by its energy and fertilizer. Measured in calories, it’s at least seven, maybe ten to one, oil to food. We are eating our children’s future. And we face an uncertain future ourselves. We won’t be able to afford this. If gas prices triple in twenty months, as some have estimated, prices for food may triple as well. And if the world economy collapses, --it’s dicey now with the Strait of Hormuz so narrow— whether we eat will depend on how close the food is to us, and whether we have food security. We can grow a lot of our own food, but not if we eat the seed corn. We need to start banking two or three years’ worth of food to keep us going, while we make the necessary changes.
We’re downriver here from two river systems which carry themselves through great farming country. But there is a move afoot to remove the locks on the Willamette near Oregon City, for some reason. We’ll need those locks to return to cheap river transport, to keep ourselves fed. We’ll need rail as well.
Food security is the most important thing.
But as a musician, I’m reminded of the musical equivalent of the burning of the Library at Alexandria: the death of the harpsichords, during the French winter of 1790, instruments from the Palace at Versailles and elsewhere, the pride of Handel, Couperin, Rameau and the Bach family. Peter Paul Rubens painted scenes on some of these. They were split into kindling by the dozens, hacked, splintered and burnt, -- a fragrant night fire of spruce and maple, fifteen or twenty flickering faces lit up around it -- and these instruments were burned in joy (can you believe it?) in the winter of 1790, happily burned by tuneful cockaded peasants, who wanted only not to freeze to death that very night.
Can I blame them? How on earth do we think we can avoid doing exactly this kind of thing, or worse, when cheap energy is gone, and it gets cold?

Are we just naturally a warmer people?

The commenter's obsession with the death rate disturbs me. If extremely bad economic times are coming, it will have a catastrophic effect on the birth rate. We saw this in the Depression of the 1930's, when the population of a number of countries, such as France, actually declined. Or take a look at the decline in Russia since the breakup of the Soviet Union; the decline in both longevity and the birth rate was precipitous. Simply the fact that we can now control human fertility in ways that were unthinkable a hundred years ago, should enable at least some countries to have a rapid controlled lowering of their population. Labor-intensive scientific organic farming can probably sustain a population of far in excess of one billion for the earth, but at a low standard of living.
The article is very good for stimulating discussion, but is too pessimistic and speculative, even if it is couched in a lot of facts and figures. We need to get much more specific and scientific, and not just get caught up in general theories and models. The biggest danger in modeling is to oversimplify very complex phenomena.

The commenter's obsession with the death rate disturbs me. If extremely bad economic times are coming, it will have a catastrophic effect on the birth rate. We saw this in the Depression of the 1930's, when the population of a number of countries, such as France, actually declined. Or take a look at the decline in Russia since the breakup of the Soviet Union; the decline in both longevity and the birth rate was precipitous. Simply the fact that we can now control human fertility in ways that were unthinkable a hundred years ago, should enable at least some countries to have a rapid controlled lowering of their population. Labor-intensive scientific organic farming can probably sustain a population of far in excess of one billion for the earth, but at a low standard of living.
The article is very good for stimulating discussion, but is too pessimistic and speculative, even if it is couched in a lot of facts and figures. We need to get much more specific and scientific, and not just get caught up in general theories and models. The biggest danger in modeling is to oversimplify very complex phenomena.

I have two points. The first is that your claim that the carrying capacity is somehow linearly related to energy production is flawed. The second is that positing that we cannot maintain or increase our energy production in the future doesn't seem to be a sound judgement.

If you claim that the carrying capacity is related to energy productino in a linear (or very close to linear) manner how do you explain the growth in population in China between 1400 and 1850? The population grew from 60 million to 430 million.
http://afe.easia.columbia.edu/china/geog/poptrend.gif
This statistic (barring the growth of energy via some other mechanism) indicates that there are other possible reasons for increased carrying capacity. Increased technology is a prominent contender. There is nothing to indicate that the pace of technological advance is slowing.

There is every indication that extrapolating current advances in solar energy we will be able to exceed our current energy consumption. Simple calculations based on current technology show that doing so is a problem of logistics, not science.

http://cohesion.rice.edu/NaturalSciences/Smalley/emplibrary/120204%20MRS...

This ignores the advances in fission of lower weight components (i.e. thorium) and developments in fusion.

This report also ignores the incredible growth in educated brainpower (possible to estimate by #PhD's) that is available to attack advanced fusion/fission development.

As the price of energy rises a large section of the exploding population of highly educated individuals will be directed to solve the problem both of energy production and conservation by increased efficiency.

In the face of this intellectual explosion you maintain that our efficiency will remain flat? That cars 30 years from now will still get 25mpg? This is an impossible assertion. The reaction of individuals to the fuel crisis in the 70's shows that we can adapt to lower fuel usage.

Any model of global energy usage/production will very complex but your model seems more about predicting doom than modeling the likely reaction of the world's population to declining oil given current technological capabilities and likely advances (including robust implementation of current established techniques)

While I can't present a model for my intuition, I suspect significant advances in solar energy will make it cheaper than current oil prices per kilowatt (common measure). Given this assumption as well as increasing efficiency I think it highly likely there is adequate time to implement practical fusion technology.

Ben

Great work, GliderGuider!

I agree with your last statement:

It's never too early to prepare for a storm this big.

The chart below might be of interest.

World Population and World Crude Oil & Lease Condensate (C&C) Production Scenarios to 2100

Actual population data on the chart below shows an upward trend which follows the upward C&C production trend. A simple convex growth curve was used to fit the actual data and to forecast population.

The world population is forecast to peak at 7.1 billion in 2024. Afterwards, the population follows a downward trend to 2.5 billion in 2100, in line with the downward trend in C&C production. Let’s hope that people find other forms of sustainable energy.

Click to enlarge (Thin black line is actual world population to 2006; Thin red line is the convex growth formula fit)

Thanks GG. I was expecting to see this graph from EIA, or something similar:

If we look at BTUs from all sources, I bet we can explain most of the rest of that population curve. It doesn't change your conclusion much. Oil is currently 40% of US BTUs; don't know what percentage it is of world BTUs. We can replace those BTUs with various other energy sources, but we're also in the declining EROEI era that Nate pointed out a few posts ago. Things may get quite ugly.

sorry wrong spot

I think you left out a possible scenario that has worked well to avoid overshoot for populations on highly restricted land with highly restricted resources, like the Polynesians... Cannibalism. You have to admit, it solves two of the biggest problems in one go.

The current global death rate is 58 million a year (sourced from the https://www.cia.gov/cia/publications/factbook/index.html, but not confirmed). Assuming that holds as a good long-term average, in the next 93 years, roughly 5.4 billion people will die. If we all stopped having babies today, our population would be just over 1 billion by the end of the century. So that level of population could, in principle, be reached without a level of mass die-off any worse than we have today.

Obviously we're not all going to stop having babies. Currently global fertility is a somewhat over replacement rate. Let's assume it drops from 2.5 now to a little over 1 by 2100, for an average rate of 1.7. If the population is 6.5 billion now, and the current death rate would reduce it to 1 billion by 2100, then I would think that would give us roughly 3 or so billion births in the mean time (need to check this, it assumes some linearisation that is obviously an approximation). So by 2100, assuming a very simplified extrapolation of current trends, the world's population could be 4 to 5 billion.

So a very simplified way of looking at it would be to say we have 93 years to find alternative energy sources and modify food production technology sufficiently to allow the Earth to support 4-5 billion people. Let's assume that we're able, using nuclear, coal and renewable sources, to be able to generate a decent percentage (80%+)of the harnessable energy that we can now. In addition, there will inevitably be new farming techniques (e.g. sky farming, automated organic farming), and modification of our diets to move to more energy-efficient foods (i.e. less red meat, less food in general for many of us). 93 years is a long time - considering what we've achieved in the last 93, even if economies crumble, and our rate of technological progress is dramatically wound back, it seems more than acheivable.
Yes, there will be a lot of starvation, disease, warfare and deaths from accidents and natural disasters: but there always has been.

Conservative governments just don't 'get it'; they think PO and GW will be solved by tokenism. Tonight Australia's government http://www.news.com.au/story/0,23599,21691128-2,00.html
will announce extra grants for rooftop PV installation as well as carbon credits for tree planting. The PV no doubt will become the latest status symbol in upper crust suburbs and the tree credit is just rural pork barrelling. I expect neither to make a meaningful difference.

On the heels of your work Glider,

COMBAT CLIMATE CHANGE WITH FEWER BABIES – OPT REPORT

A radical form of “offsetting” carbon dioxide emissions to prevent climate change is proposed today – having fewer children.

Each new UK citizen less means a lifetime carbon dioxide saving of nearly 750 tonnes, a climate impact equivalent to 620 return flights between London and New York*, the Optimum Population Trust says in a new report.

Based on a “social cost” of carbon dioxide of $85 a tonne**, the report estimates the climate cost of each new Briton over their lifetime at roughly £30,000. The lifetime emission costs of the extra 10 million people projected for the UK by 2074 would therefore be over £300 billion. ***

A 35-pence condom, which could avert that £30,000 cost from a single use, thus represents a “spectacular” potential return on investment – around nine million per cent.

The report adds: “The most effective personal climate change strategy is limiting the number of children one has. The most effective national and global climate change strategy is limiting the size of the population.

Perhaps these ideas can filter in to the mainstream??? (and everyone will logically nod their heads and agree while their emotions drive just them and their partner to have another baby, whilst everyone else demurs....)

Bravo! Great to see a post dedicated to "the elephant in the room"!

I have visited the Oil Drum forum on a fairly regular basis for quite a while now, but this is the first time that I feel compelled to comment myself on an article.

The model that GliderGuider presents is a shallow model. It does not attempt to describe the cause and effect relationship of population growth vs. dwindling resources. It sets a “goal” of 1 billion people in 2082, and describes how we can get from where we are to where we “want” to be within the next 75 years.

Shallow models are useful, precisely because of their simplicity. It is very easy to explain how they work. Yet, they don’t possess any predictive power, i.e., we cannot conclude from the model that this is what is truly going to happen. The “goal” of 1 billion people is a premise, not a consequence of the model.

Some of the statements that GliderGuider made are simply wrong. He claims that “if the numbers of an organism are below the carrying capacity of its environment, its birth rate will increase.” There is no compelling argument for that statement. As long as the numbers of a species are below their carrying capacity, the birth rate will be higher than the death rate with the consequence that the population will grow exponentially toward the carrying capacity. In a finite world, any species will eventually outgrow its resources.

Yet, the human birth rate has not been increasing ever since the beginning of the industrial revolution. On the contrary, it has been constantly shrinking. As little as 200 years ago, most women gave birth to 10-12 children. They had one child after another from the moment they got married until they died at age 35 or so, not much different from the birds who nest in our yards or from the cattle in our barns.

The population explosion that started with the industrial revolution has not been caused by an increase in the birth rate. It has been caused by a dramatic reduction in the death rate. The population explosion wasn’t caused by the availability of fossil fuels, or at least, it wasn’t caused directly by it, but rather, it was caused by improved hygenic conditions and the advances of medicine.

200 years ago, most children wouldn’t live to see the age of five, and of those who survived childhood, the majority died at a young age either of an infectious disease or of the consequences of a wound. The average life expectancy was somewhere around 35 years.

GliderGuider shows a strong positive correlation between oil consumption and population, hypothesizing that the population is controlled by the available oil. This hypothesis is once again not compelling. Correlation doesn’t imply causation. In fact, I would argue just the other way around. If n people consume x resources, then 2n people living under similar economic conditions will consume 2x resources, i.e., it is the population explosion that has led to an increase in the consumption of the available resources.

Let us now do two things. Let us start by assuming that the underlying assumptions of GliderGuider’s model are correct, and discuss the necessary consequences of these assumptions. In a second step, we shall then analyze whether the assumptions are reasonable or not.

GliderGuider has convincingly and correctly shown that, manipulating the birth rate alone within a reasonable range (e.g., using the Chinese “one-family-one-child” control model) will not lead to a decrease of the population to a level of 1 billion within the next 75 years.

In order to “achieve” this “goal,” the death rate must be increased dramatically. He showed that, in order to achieve our goal, we require annual excess death rates of 3% and more over a period of 50 years or more. What precisely does that mean?

Let us look at Iraq, for example. We read every day that 100 Iraqi die a violent death. Multiplied by 365 days, we get 36,500 dead Iraqi every year. Multiplied by 4 years since the invasion, we get 146,000 dead Iraqi. Yet, we read that the true number of Iraqi who have died since the invasion is closer to 600,000. That would be four times as many. Okay, so probably the daily deaths are underreported and, in reality, the number of Iraqi dying a violent death every day is closer to 400. So now, we have 600,000 dead Iraqi in 4 years, i.e., 150,000 dead Iraqi per year. Iraq has a population of 27,000,000. This gives an annual excess death rate of 0.56%.

In order to get an annual excess death rate of 3% or “better,” we would need, on a global scale, a situation that is worth than that of current-day Iraq by a factor of six, and we would need to maintain these conditions for 50 years in a row.

Let us look at world population statistics of the 20^th century:

What happened during WW-I and WW-II? In spite of the horrors of these wars, the world population kept growing. All of the horrors of these wars didn’t even make a dent.

What about the Spanish flu of 1918? We don’t know exactly, how many people died from that flu, but the best estimates are roughly 50,000,000. This corresponds to 2.5% of the world population. So for once, we came close to our “target” of 3%, and yet, there wasn’t even a dent left in the curve, because we didn’t keep at it for sufficiently long.

Even Adolf Eichmann had to learn that killing millions of people and getting rid of their corpses, that’s very hard work. Reducing our population from 6 billion to 1 billion in 75 years, that’s hell come to Earth.

Does this mean that it won’t happen, because it is “too hard to accomplish”? Before I answer that question, i.e., before I answer the question of whether the assumptions underlying GliderGuider’s model are reasonable or not, let me bring up another point.

Are we currently already beyond the carrying capacity of this planet? This question has been answered convincingly by Mathis Wackernagel of the Global Footprint Network. Mathis created a metric of human consumption, called the ecological footprint. It measures, how many hectares of land a person needs (directly and indirectly) for producing the goods (food, energy, clothing, etc.) that the person is consuming on a sustainable basis:

Taking the total available arable landmass of the Earth and dividing it by the current population, we get a sustainable per capita footprint of 1.8 hectares. The average per capita consumption by all of the people on this globe is currently at 2.2 hectares. Hence we are already beyond the carrying capacity of the planet, and have been beyond it for approximately the last 25 years.

This is possible by either consuming non-recoverable resources (like buring oil), or by consuming recoverable resources at a rate faster than the globe can reproduce it (like fishing out the world’s seas). Yet, it cannot be done in a sustainable fashion.

Let me now return to the second question: Are the assumptions on which GliderGuider’s model are based reasonable? Can collapse happen, and will it happen? The anser to the first question is a definite yes. Collapse can happen. The answer to the second question is probably yes. Collapse is quite likely to happen.

In order to justify these assertions, one needs a deep rather than a shallow model, i.e., a model that investigates cause-and-effect relationships. A person who has worked for more than 30 years on such deep world models is Dennis Meadows. Dennis is one of the authors of the book Limits to Growth, which is now in its 3^rd edition, and still is an easily digestable, inexpensive, and worthwhile read.

Dennis doesn’t set a goal for a final (steady-state) population. He simply formulates a set of internally consistent statistical relationships between such properties as birth rate and per capita income, for example. In India, the per capita income is low and the birth rate is high, whereas in the United States, the opposite is the case. Dennis postulates a set of such relationships, and creates a plausible model that can be simulated to produce potential future outcomes. In many of his scenarios, collapse does happen, whereas in others, it doesn’t, or at least, it doesn’t happen within the next 100 years.

Unfortunately, we have a tendency of letting market forces drive the world, rather than making conscious decisions about where we want to go. Market forces drive the model invariably to collapse. The reason is that we are already beyond the carrying capacity of the planet, and market forces try to perpetuate that situation for as long as they can. In order to live well today, we need to continue borrowing money from the future, and this can only be done by continuing within the framework of an exponential growth pattern.

For this reason, collapse can happen and most likely happen.

---------------

A Powerpoint presentation of mine about these and related issues can be found at the web address http://www.inf.ethz.ch/personal/fcellier/Pres/AGS_07.ppt

Thanks GG. as i said earlier great post & reality check.

TOD has been needing this grist for our minds since Stuart's concrete use in china post & i believe one on pop. that got a lot on food production.

re food production i do think with plenty of organic material production per acre can be better than mechanized/chem techniques. This takes numerous hands many hours. the only caveats is irrigation & stable climate; so i am not saying this is really possible but it is in some local circumstances( actually mechanized agri is more dependent on stable climate).

as said upthread this is primarily a soc/psy/pol problem. we need more of this & nate's work.

great to see editors move this post to get the discussion this needs & deserved.

Thank God for the queers. No new babies there.

I did inhale.

This is my first post on The Oil Drum!

First of all, I just wanted to thank you for raising this important subject. However, I also wanted to note a few things.

1) Your third figure, "World Oil Production and Population" doesn't mean much by itself, other than to show that "both world population and oil production have increased substantially in the time period". They match up pretty nicely because the 83 million bpd is set to the 6.5 billion people we have now, but no matter if our current production had steadily risen, but only risen to 23 million bpd by now, or if it had risen even more to 123 million bpd, both lines could still match up well if you set the 123 million bpd point to the 6.5 billion people we have now. Of course, oil has let this growth take place (I don't dispute that at all), but the graph doesn't show much more than simply that. What I mean is that I would caution people that a drop in 25% of oil production would not necessarily correlate to a drop in 25% of the population, as can be seen in the early 1980s, when a substantial drop didn't even make a slight indent on the population. (See note 4.)

2) You state that "Those portions of the population that are operating close to subsistence will experience a reduction in numbers, while those portions of the population that have more than they need will experience a reduction in their level of consumption, but without a corresponding reduction in numbers." I'm not sure that it's quite as simple as that. Perhaps in some cases, those closest to subsistence aren't using so much oil, so the lack thereof would not be as big a shock. However, in places like the United States, where the whole country is far above subsistence but completely relies on fossil fuels, I would expect more death. Once you can't fill up your car, and tens of millions of others can't...and they can't find jobs or buy food (which can't be produced anymore), there will be a downward spiral of death. And most people living close to subsistence level at least live in warm climates, where they don't need artificial heating to survive. Thus, I would expect the population of New Guinea to remain more stable than the population of North America.

3) I think we can throw future birth rate figures out the window. Assumptions about increasing education of women, etc, would not be a factor when nobody can eat, much less women go to school for longer. One thing I should note is this - if, theoretically, none of us on earth had any children from now on, there wouldn't be a rising death rate, as by 2080, there would be almost no people left on earth at that time. Of course, that won't happen, but I can imagine some things that could. Pregnant women, far from empowered, will fear for their lives. Any new baby will take something away from those already here, so pregnant women will become targets. Imagine the U.S. Some white people are starving. They've lost everything. And then a Mexican woman comes by with two children and a large belly. Xenophobia (more than now), racism, and a genuine will to survive will become far more pronounced, and that woman might find that showing herself in public has cost her her life. If more new people means less for us, expect those who create more new people to be faced with violence and death. And remember, survival of the fittest has never meant survival of the nicest, or even survival of those with the best organic agricultural skills. It often means the survival of those who trick others or even kill others for gain. I do not condone that in any way, and I would rather die than commit certain crimes, but mother nature, in reality, is soul-less. (A side note: Hmm...maybe if governments could slip some birth control into the water supplies...)

4) The excess death rate starts from now (or very soon) in your figure, but that would not be the case in reality. Witness the oil shocks. By the early 1980s, the amount of oil produced was lower than before, but people got by. Now, if it had continued, then we would have seen an increase of a death rate. But I would not count on a large increase in the death rate until at least 10 years after peak oil, by which time we will have run out of ways to get by using less.

5) A final note is that I am a vegetarian for moral reasons, but check this out. I believe that soon, choosing to eat meat will not just be a choice to sentence an animal to death, but also a choice to sentence another person to death, too. Here is some information from Wikipedia's "environmental vegetarianism" entry (which quotes other sources):

"According to the USDA, growing crops for farm animals requires nearly half of the U.S. water supply and 80% of its agricultural land. Animals raised for food in the U.S. consume 90% of the soy crop, 80% of the corn crop, and 70% of its grain." (~Hmm...probably less corn now because of ethanol, but still...)

"According to the vegetarian author John Robbins, it takes roughly takes 60, 108, 168, 229 pounds of water to produce a pound of potatoes, wheat, corn and rice respectively. A pound of beef however, requires 12,000 gallons of water."

"A Cornell University ecologist states that 'animal protein production requires more than eight times as much fossil-fuel energy than production of plant protein while yielding animal protein that is only 1.4 times more nutritious for humans than the comparable amount of plant protein.'"

"Cornell scientists have advised that the U.S. could feed 800 million people with grain that livestock eat, although they distinguish 'grain-fed meat production from pasture-raised livestock, calling cattle-grazing a more reasonable use of marginal land.'"

"'One personal act that can have a profound impact on these issues is reducing meat consumption. To produce 1 pound of feedlot beef requires about 2,400 gallons of water and 7 pounds of grain (42). Considering that the average American consumes 97 pounds of beef (and 273 pounds of meat in all) each year, even modest reductions in meat consumption in such a culture would substantially reduce the burden on our natural resources.'"

Some things to think about...

-Charrick1

The following conclusion seems reasonable:

Humanity's use of oil has quadrupled the Earth's carrying capacity since 1900.

That's not a conclusion. That's a wild-assed guess, making everything you wrote afterwards nothing more than idle - and dubious - speculation.

The amount of oil used in farming by the US - perhaps the most notoriously over-user of petroleum in the world - is not evidence of the earth's "true" carrying capacity (this suggests China uses an order of magnitude less oil to produce more food). The proportion of energy currently supplied by oil and natural gas is not evidence (and, since natural gas has different supply constraints than oil, undermines the "sudden single peak" idea), since that only tells us what energy types are cheap now, not what will be available later.

And, of course, your graphs confusing "correlation" with "causation" are not evidence of anything. You appear to be asserting that more energy consumption led to more people, yet it seems rather more likely that more people led to more energy consumption. In that case, all your graphs show is "more people use more stuff than less people!", which is hardly noteworthy.

In general, your article is riddled with similar logical gaps; I'll just point out a few:

These two observations (that oil has expanded the world's carrying capacity and oil use is unsustainable) combine to yield a further implication. While humanity has apparently not yet reached the carrying capacity of a world with oil, we are already in drastic overshoot when you consider a world without oil.

Does not follow.

You've said:
1) CAP(oil) > CAP(base)
2) CAP(oil) cannot be continued.
Thus,
3) POP > CAP(base)

Non sequitur - you've provided no evidence that population is over the base carrying capacity. That it has grown since the introduction of oil use is a post hoc ergo propter hoc fallacy, and is no more valid than the classic "I have a rock that repels tigers" argument.

The date of the peak will mark the point at which we should expect to see the first effects of overshoot.

Does not follow.

Your argument requires the additional assertion that we are currently right at the utter limit of the earth's carrying capacity with the current level of oil consumption. Otherwise, there's no demonstrated reason why the earth's capacity couldn't be, say, 10B with the current level of oil consumption, meaning it could fall substantially before we'd hit the (reduced) limit.

And considering how incredibly inefficient our current use of oil is, it's fairly silly to assume we're right at the boundary.

As oil and natural gas decline, global food output will fall.

Again, does not follow without the further assumption that we're already straining to maintain current production. 90% of the world's oil is not used for food, meaning there is no need for food production to decline until a substantial period after oil peaks.

By assuming that we're already pushing our limits, you're effectively begging the question and assuming the "fast-crash" result you want to conclude. Great for speculative fiction, but not so useful for anything else.

*****

And a few more problems of various types:

The theory of Peak Oil says that the world's oil production can be modeled as a single, enormous oil field, and will therefore exhibit this same production curve.

Nonsense. Hubbert Linearization says that; peak oil requires no such thing. Which is good, because that claim hasn't held up very well in the past.

according to several analyses including a very thorough one (pdf warning) done by a PhD candidate in Sweden

He doesn't validate his model at all with the available data, so his results aren't any more reliable than anyone else's informed opinions.

A full picture of the oil age is given in the graph below. This model incorporates actual production figures up to 2005 and my best estimate of a reasonable shape for the decline curve.

This model embodies another wild-assed guess, and hence pushes your conclusions even further into the realm of your personal beliefs.

It's also perhaps the most pessimistic graph I've seen from any peak oiler, making one question the reasonableness of your assumptions.

much of the world's farmland has been decimated by long term monocropping and will require fertility remediation to produce adequate crops without fertilizer inputs.

Unsupported assertion.

This is due to issues of scale (no alternatives we have come up with so far come within an order of magnitude of the energy required)

Unsupported assertion, probably because it's a false assertion. Solar, for example, could provide many times the total energy we currently use. Your argument against it is that it's "too expensive", yet one might counter that with "so's mass starvation".

*****

I won't comment on your population decline model, simply because your assumptions for it guarantee its end result. Change the assumptions - mostly referred to above - and the result changes to match.

Basically, you could summarize everything you've said into a simple statement of your core belief: "I am convinced we will ultimately fail."

Forgive me if I don't believe you without evidence.

The concept of overshoot is completely misapplied here. Overshoot requires insufficient time to adapt but humans adapt very very rapidly in ways that make a mess of the whole concept.


The core variable here is productivity per acre for food, and the article barely mentions fertilizer production. Yet fertilizer production is only tied to natural gas as a matter of habit, it is not itself a hydrocarbon. It can perhaps better be produced using solar power avoiding the Haber-Bosch process all together.


But, the largest failing of the article is that it takes entirely the wrong approach. To look at this issues one takes the demographic projections and asks the question "How do we manage this?"



Malthus was wrong and so is this.

Although the overshoot idea certainly is correct, there are a number of issues with this particular view.

Nobody knows the sustainable level of population, for the obvious reason that there is no such thing.

Those people who say it's close to 1 billion are envisaging large tracts of uninhabited land and sea where wildlife can flourish. Others take all arable land as a matter of fact and come up with figures 2, 3 or 4 times that high.

Peak oil is also not the full picture, as claimed by the author above. The discovery of oil in 1850 was not the start of a massive population growth; this was already well underway as a result of the industrial revolution, which was powered by coal, not oil.

So any projection into the future should take into account all fossil fuels, including uranium and thorium. It must also take into account the poor use we as a race make of these resources (for instance thorium only cannot power a reactor, it has to be 'ignited' by a uranium core).

Also, studies show that:
A: 15 to 25% of all food is lost to pests before it reaches the retail sector
B: In a country like England, up to one-third of all food from the retail sector up to our own kitchen doesn't get consumed but is waisted.

So, roughly speaking, there's considerable room for improvement in those figures. People in Africa starve simply because food is too expensive for them. Any massive die-off will start in Africa and follow-up in India and, only later, in Latin-America. Oh yes, and poor people in the US of course. The poor will suffer the most, as always.

My educated guess is that a lot of people are being overly pessimistic and sustainable levels of humanity can easily be 3 to 5 Billion. It's just that first we will use up all the fossil fuels, simply because we can and because we're stupid enough to do so. Once all fossil fuels are gone we'll have to start using our brains more. But there's still a lot of fossil fuel left, so lots of (poor) people are going to die.

About 10-20% of our energy goes to producing food.

Food is very important to people, significantly more than driving an SUV.

Therefor reduction in oil usage will first be done by stop driving your SUV.

Before we are unable to produce the food we need because of fossil fuel shortage, it will be a very, very, very long time.

And then we will first produce less meat, because to produce meat, you need a lot of corn. And if food becomes expensive, meat will become even more expensive.

So I would say: Before fuel shortage will drive the population down to 1 billion, will be maybe +200 years from now, not 75 year.

I think a collapse scenario is likely, but due to pollution and the inability of people to voluntarily slow/scale down. It seems to be in our nature.

I think that FF depletion has only a limited contribution.

This is good, but the 4-year-old article "Eating Fossil Fuels" is more complete and better researched.

http://www.mnforsustain.org/oil_eating_fossil_fuels_pfeiffer_d.htm

This guy has done his homework, as some of the critics commenting here have obviously not.

I think the big issue that is not really being hit on here is the degree to which the carrying capacity of the Earth has been and will continue to be reduced by mechanized agriculture and overconsumption. Basically, the soil is so poor that we now -need- fertilizer and big tractors to produce crops on it- the seas are fished out, the forests are gone, the large herd mammals are decimated, etc. So post-industrial humans would have a much harder time "living off the land" than pre-industrial humans.

None of this is permanent- in geological timescales. Hundreds of thousands of years. The planet will heal. But over the next century, when it's going to matter, there's going to be no ecological recovery. If real sustained famine strikes, people are going to be eating the last of everything remotely edible. Dust bowl time.

Also- if you don't think the richest Americans are going to let 100 million poorer Americans starve to death so they can keep driving their cars on ethanol, you haven't been paying attention.

I've mulled this post over for some time and now I'm pretty confident on predicting the chain of events that will lead to collapse. With this I can answer the following questions.
0.) Trigger
1.) Where
2.) How

When is dependent on knowing where and how so if you can solve for where and how you know when.

The trigger 0)
Where is actually caused by a combination of two factors peak oil and global warming. The vital role that peak oil plays is fairly simple Subsidies. When the price of oil remains at a sustained high price countries that practice subsidies will suffer bankruptcy. So the key trigger is a combination of countries that have subsidies and will hit bankruptcy.

How part 1.

How is not peak oil related but caused by a global warming induced natural event. Either a major earthquake from changes is the weight of seawater over a fault or a typhoon or drought or volcanic eruption again related to the interaction of plate tectonics and the changing ocean. In all cases the how is directly related to global warming. So the second major trigger is not oil diretly but a related convergent catastrophe.

How part 2.
The second part of how two involves the previous loss of government from peak oil destroyed subsidies so this region that will experience this natural catastrophe must have initially effectively lost a government control because of subsidies. It need to be in a anarchic state.

How part 3.
The final effect a the real killer is infectious diseases I realized in this thread that we have not considered conditions that would result in long suppressed diseases becoming virulent the combination of civil war and a mega natural disaster ensures that the population is either immediately susceptible to easily cured diseases or that it would become a breeding ground for new virulent forms that are not easily controlled the original anarchic conditions ensure that modern medicine simply cannot reach the population thus nullifying our technology. The key point is a bio-engineered pathogen is not required although the introduction of one would certainly increase the death toll.
You don't need a conspiracy.

Now Where.

The general era for where is pretty obvious the combination of high density urban population and oil subsidies occurs in south Asia. From the Philippines to southern China then over to Bangladesh. This is the region that has the right conditions Africa is actually lower since they simply don't have the urban densities required to be the trigger but certainly India/Africa/Pakistan represent the second stage triggers followed but China. My favorite trigger for the end of the oil civilization is the Philippines followed closely by Bangladesh its a toss up between the two depending on when the natural disastier and social situation collide.

In any case the region is certian but the timing is dependent on a intial collapse of goverment before a natural disaster oocures to ensure that easy access to modern medicans is denide to a dense population. At that point simple virulent mutations will ensure the emergance of a super bug you don't need a biologist.

So this leaves when since in my secario when is a dependent variable of where and how when can be predicted once the initial condition are met, Since the key driver is a large population of starving people without access to medical care we actually have some time between the trigger events and the actual event which is the domino effect spreading of these diseases overwhelming any attempt to get medicines into areas that are war zones.

So from the time of the initial trigger event you coul have up to a year before the SHTF. So I predict that world population will actually undergo a significant decent of say by 30%-50% right at the beginning as the combination of disease disorder and the resulting starvation wipes out a large part of the third world population. Western nations with a lower population will suffer less but considering the magnitude of the problem we are talking about losing 10-30% of the population vs third world so I think less is relative and beyond comprehension in any case. After this regions that have reasonable local resources for food production will go in a steady decline until that undershoot
local resources.

So I'm pretty confident that we can predict where and what the triggers we need to be vigilant for and better we actually have some time 6 months to a year between the initiation of the collapse of the oil civilization and when it becomes hard to use the resources of this civilization to do anything no matter where you are.

This would mean that its a must to at least purchase land and get electric and septic tank installed. You can wait till fairly late if you don't have the money and install a nice trailer as a temporary home. In my opinion thats the min that you should seriously consider over the next 3 years at most. I can't see the triggers not combining within 5 years at best.

Obviously enough land to farm and potable water are the most critical good shelter can easily be met with prefab. A alternative electric generation method is way up their.
Modern mans agenda is some what changed.
Water
Food
Electricity
Shelter
Clothing.

Now to wait.

A simplistic idea I had a while back I feel is appropriate on this subject.

Everyone alive tody will be dead in a 100 years. Population can theoretically be reduced to zero simply by drastically reducing the birth rate. This idea is covered rather badly in the movie "Children of Men"...
http://en.wikipedia.org/wiki/Children_Of_Men

...an masterfully in Clarke's classic "Childhood's End".
http://en.wikipedia.org/wiki/Childhood%27s_End

Idea is as follows - split the human race into say "alpha genesis" and "beta genesis". Choose a date, everyone alive at the time is part of the "alpha genesis". After that date, only some people can procreate, and their children, born after date X, enter *the program* and become "beta genesis".

We are all part of "alpha genesis", which messed up the planet but also produced a vast knowledge base. Our sins may be forgiven and viewed as "growing pains" if we are able to wholeheartedly apply drastic birth-rate reduction.

Say, one out of 20 or 30 fertile aplha females during their lifetime can bear a child, or 0,05 childern per female. Optimum rate over time can be modelled mathematically. In 50 years or so no "alpha" female would be fertile any more, and "beta" need not have draconian restrictions if their population is bred to the optimum size. Avoid all racist, nationalistic and otherwise cretinous selection criteria. (Though as long as there *is* a selection, eugenics might finally get us rid of the worst hereditary diseases.)

Babies born into "beta genesis" would have all imaginable resources and care made available to them. Best nutrition, best schools, most stimulating environments, best of the best of the best that we can now provide. All of us here today would be their carers, until we die.

Over time, ratio of "beta" to "alpha" would shift, and it would be important to minimize the burden us aging "alphas" place on "betas". When I'm no longer able to take care of myself, I shouldn't expect that my money will buy some "beta" youth's time and energy to care for me.

Of course, there is no way to *convince* ALL of humanity to join such a...not mass suicide, but conscious species reduction. Women will want to have babies. For all the talk of educated women having fewer babies, I find that giving up children alltogether is still a harder sell to women than men. But any such newborns would be illegal. Sorry, there are good and simple reasons for that. Simple math. Thermodynamics. Illegal children, illegal adults, no rights, shoot on sight. If 10% refuse to participate, that would create about 7 million extra "alphas" per year. Horrible? Yes. Better than 200 million excess deaths per annum through starvation and violence? 28,6 times.

Falling oil extraction and general energy availability might not prevent us in such a project if excess and ludicrous consumption is curbed. Without private cars or air travel, with FF only available to food production, i suspect we could manage a hundred years without TSHTF.

In this way, a CONTROLLED population reduction/crash is achieved to a sustainable, chosen level in a century. Ideally, with NO excess or premature deaths. No wars, no hunger, only people dying of natural casuses and old age.

And the remaining population and it's civilization could still be an advanced, industrialized, space-faring one. Much smaller, but small is beatiful.

http://www-formal.stanford.edu/jmc/progress/population.html
argues that the current population, while sustainable in a general sense admits that certain areas (china) are over populated. As immigration is strongly limited, you can't talk about overpopulation of the world in general, only specific regions.
This article also assumes nuclear energy is freely available to produce the population limit of >10B (probably false).

on the flip side, at current growth rates (1.2% per year) http://www.chaos.org.uk/~eddy/when/2005/Population.html calculates that the earth would be absolutely full (entire earth at 1/10 pop density of Manhattan) in less than 400 years.

The other thing that isn't discussed is in a full earth, who would want to live at current 'average' conditions, let alone with the resources available in a crowded world.

just 2 different points of view, rather than the 'omg 100 million people a year are going to have to die' doomerism that it talked about above.

(for the record i do believe that the current population is not sustainable, but its a longer term problem, and PO will undercut western society before population density becomes an issue, as the net growth rate in most western countries is roughly 0, china on the other hand might have a few issues with the depletion of their water table)