Posted on 10/19/2006 12:06:39 PM PDT by dangus
The demographic situation of the world is not simply overpopulation. In many regions of the world, it is severe underpopulation. Globally, there is a mix of both. Yet the focus has been nearly exclusively on overpopulation, to the point where underpopulated groups foolishly try to reduce their own population. This could have devestating effects.
In the early 1960s, the earth's population was expanding at a rate of 2.2% per year. At that rate, it would double every 32 years. By the year 2050, the Earth's population would be over 20 billion. As recently as a decade ago, many demographers guessed the world's population would be about 12 billion by 2050. Today, the midrange guess is about 9 billion, only about 40 percent larger than it is today.
This is not the result of the UN Popularion Conference in Beijing in the early 1990s. In fact, that conference was only called after population stabilization appeared likely; the population of babies had already begun to decline.
The trick to studying population growth is that a reduction in the number of babies only causes a reduction in the number of women of childbearing years (henceforth, "fertile women," if you will excuse me using such words in such dry economic contexts) some 15 to 40 years later. The total population will continue to expand until the number of babies born drops below the death rate, which is typically similar to what the birth rate had been seventy years earlier.
Even when lowering birth rates cause a severe drop in the overall number of births, the drop typically reverses itself about 20 years later, due to growing number of fertile women from the previous generation. In the US, where this effect was very mild, this was known as the "baby boom echo," or "Generation Y." (see image) For population stablization to occur long-term, at this point, the number of births should stabilize. If it decreases again, the birth rate may have to rise sharply to account for inevitable steep declines in the number of fertile women.
Globally, the population of babies peaked in the late 1980s. Currently, the population of babies has rebounded to be roughly the same as it was 15 to 20 years ago. The United Nations, and to a slightly lesser extent, the United States Department of Census (USC), expects the population of succeeding generations to grow moderately. (US Census' data) This is based, however, on the presumption that most nations with very low fertility rates will see their rates rebound, at least to 1.7 babies per woman.
If such researchers are wrong about rebounding birth rates, massive depopulation may occur. And there is no reason to suspect the USC may be right. For instance, the USC expects the Japanese fertility rate to increase 25%. Even in China, they expect an immediate and substantial reversal in fertility. But what if these reversals do not happen?
Unless the Chinese birthrate increases, there could be 300 million fewer people in 2050 than predicted. According to my own research, between 2030 and 2090, the Chinese population could fall by about half.
Female population of various age cohorts in China, in thousands, using my estimation techniques described below
Year | 0-4 | 5 to 9 | 10 to 14 | 15 to 19 | 20 to 24 | 25 to 29 | 30 to 35 | 36 to 40 | 41 to 45 | All women | Total Pop |
2000 | 44127 | 48918 | 59998 | 49749 | 46472 | 57617 | 60607 | 50000 | 39465 | 609512 | nc |
|
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2005 | 38382 | 43844 | 48817 | 59779 | 49381 | 46066 | 57205 | 60182 | 49571 | 626639 | nc |
2010 | 38024 | 38136 | 43753 | 48639 | 59337 | 48950 | 45737 | 56804 | 59666 | 640776 | 1336827 |
2015 | 36028 | 37781 | 38057 | 43594 | 48279 | 58818 | 48600 | 45416 | 56316 | 649865 | 1355789 |
2020 | 34333 | 35797 | 37703 | 37918 | 43271 | 47857 | 58398 | 48259 | 45026 | 654675 | 1365824 |
2025 | 32824 | 34113 | 35723 | 37565 | 37638 | 42893 | 47515 | 57988 | 47845 | 654563 | 1365590 |
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2030 | 30265 | 32614 | 34043 | 35593 | 37287 | 37309 | 42587 | 47182 | 57491 | 645678 | 1347053 |
2035 | 27548 | 30071 | 32546 | 33919 | 35330 | 36961 | 37042 | 42288 | 46777 | 626924 | 1307928 |
2040 | 25736 | 27371 | 30009 | 32427 | 33668 | 35021 | 36697 | 36782 | 41925 | 605452 | 1263132 |
2045 | 24388 | 25571 | 27314 | 29899 | 32188 | 33374 | 34771 | 36440 | 36467 | 576558 | 1202851 |
2050 | 23092 | 24232 | 25518 | 27215 | 29678 | 31906 | 33135 | 34527 | 36127 | 542441 | 1131673 |
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2055 | 21646 | 22943 | 24182 | 25425 | 27013 | 29419 | 31678 | 32903 | 34230 | 510371 | 1064768 |
2060 | 20239 | 21507 | 22896 | 24094 | 25237 | 26777 | 29209 | 31456 | 32620 | 482920 | 1007498 |
2065 | 18873 | 20109 | 21462 | 22813 | 23916 | 25016 | 26586 | 29004 | 31186 | 452911 | 944892 |
2070 | 17601 | 18752 | 20067 | 21384 | 22644 | 23707 | 24837 | 26399 | 28755 | 419130 | 874415 |
2075 | 16496 | 17488 | 18713 | 19994 | 21226 | 22446 | 23537 | 24663 | 26173 | 391850 | 817501 |
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2080 | 15511 | 16390 | 17452 | 18645 | 19846 | 21040 | 22285 | 23372 | 24452 | 367584 | 766876 |
2085 | 14562 | 15412 | 16357 | 17389 | 18507 | 19673 | 20890 | 22129 | 23171 | 346039 | 721928 |
2090 | 13632 | 14469 | 15380 | 16297 | 17260 | 18346 | 19532 | 20743 | 21939 | 324630 | 677263 |
[Data up to present day is from US Department of Census International database. For subsequent data, I presumed that the same proportion of people at each age would die as died during the 2000-2005 period. For instance, if in 2005, the 20-24-year-old cohort was .993 times the size as the 15-19-year-old cohort was in 2000, I presumed that in 2025, the 20-24-year-old cohort would be .993 times the size as the 15-19-year-old cohort was in 2020.
[For the number of births, I measured the current ratio of births to women in their reproductive years, and multiplied it by the number of women in their reproductive years in each subsequent timeframe. Women in their reproductive years are counted as every woman between 20 and 40, and half of the women between 15 and 20, and half of the women between 40 and 45. Whether or not that actually represents the distribution of births within those years, it should at least provide a reasonable basis for comparison.
[Lastly, I extrapolated from female population to total population based on a constant ratio of women to all people. Again, this may be imprecise, but should produce reasonable results. ]
The following table shows the fertility rates of the world's most populous nations (with some extras to fairly represent all global regions). (Keep in mind, however, that China, for instance, has about 20 times the population of Iran, Egypt or Germany.) A score of 2.0 indicates that there are two babies born per woman, which would be enough to maintain the population if every baby born survived throughout childbearing years.
1990
2006
2015
2.0 reached
Bangladesh
3.8
3.1
2.95
?
Brazil
2.56
1.9
1.75
2003
Burma
3.08
1.98
1.78
2005
China
2.19
1.73
1.85
1991
Egypt
6
3.4
2.8
?
Germany
1.45
1.39
1.45
Early
India
3.8
2.9
2.49
2050
Indonesia
3.03
2.44
2.15
2021
Iran
5.3
1.73
1.7
1999
Japan
1.52
1.4
1.46
Early
Kenya
5.6
4.91
3.3
2040
Korea, South
1.59
1.27
1.36
Early
Malaysia
4.3
3.1
2.9
?
Mexico
3.9
2.7
2.5
?
Nigeria
6.43
5.49
5.16
?
Pakistan
6.47
4.14
2.94
2050
Philippines
4.12
3.1
2.66
?
Poland
2.06
1.26
1.34
Early
Russia
1.87
1.38
1.48
Early
Saudi Arabia
6.62
4
3.45
?
South Africa
3.6
2.2
1.88
2010
Thailand
4.2
1.5
1.7
1996
Turkey
3.1
1.92
1.76
2003
UK
1.83
1.66
1.67
Early
USA
2.08
2.09
2.13
?
Viet Nam
3.65
1.91
1.78
2003
Now here's the kicker!
The Global financial system is based on the presumption of ever-increasing scarcity. No matter how bad the economy gets, investment of any surplus is sensible, since any loss in the value of the investment is certain to be regained at a later date. With a growing population, even if the economic efficiency declines, demand must increase, making investing safe. Investment, then, creates greater economic efficiency. What would happen if our financial system could not depend on the certainty of increasing scarcity?
I'm not stating this as an alarmist: I purposely distinguish between finance (a system of investing) and economics (a system of fulfilling needs). If the global population shrinks, one could, on the surface, expect that there will be more product per person, not less, providing that the economy does not shrink as fast. But, if we needed to, could we build a financial system that would not result in an economic collapse if investmentment could not rely on increasing scarcity?
Excellent points.
Thanks for taking the time to put this data together in an HTML format.
Like I said, in the long run. What you described was a minor anomaly and it only impacted Europe. Global population has been mostly on the upswing for 5000 years.
depopulation = deflation
No, what Wideawake described was short-term. What I described lasted many hundreds of years. And as far as "impacting only Europe," that's irrelevant; there was not global trade. (In fact, increased trade is partly what ended the period.) Previous to the industrialism, the world had a growth rate which averaged about 0.1% per year, which is to say, practically zero, and definitely not great enough to give any investor confidence that the law of increasing scarcity would benefit him.
But, if we needed to, could we build a financial system that would not result in an economic collapse if investment could not rely on increasing scarcity?
Nothing is as it seems. Not under-population. Not overpopulation. Not limited resources. Not scarcity. Abundance.
1) Technology advances exponentially. Leading the exponential explosion at the knee of the curve are nanotechnology, microbiology, genetics, robotics and AI (artificial intelligence). Building from the bottom up as opposed to from the top down puts man in control. In surgery it compares cutting with a scalpel to using a nanotechnology "blade". By comparison, scalpels cut like a chain saw. The Law of Accelerating Returns.
2) "We are on the cusp of a new era that has the potential to be an era of abundance. In the coming decades, molecular manufacturing will be a reality. The Nanotechnology Glossary3 defines molecular manufacturing as "the automated building of products from the bottom up, molecule by molecule, with atomic precision. This will make products that are extremely lightweight, flexible, durable, and potentially very 'smart'." And cheap..."The (Needed) New Economics of Abundance
"Ray Kurzweil is a computer scientist, software developer, inventor, entrepreneur, philosopher, and a leading proponent of radical life extension. He is the coauthor (with Terry Grossman, M.D.) of Fantastic Voyage: Live Long Enough to Live Forever, which is one of the most intriguing and exciting books on life extension around. Kurzweil and Grossmans approach to health and longevity combines the most current and practical medical knowledge with a soundly-based, yet awe-inspiring visionary perspective of whats to come..." Reprogramming your Biochemistry for Immortality -- And: Living Forever
Conscious humans increasingly understand nature to increasingly control nature. Knowledge begets new knowledge. Scarcity to abundance. Mortal to immortal. Limited to limitless.
Quite true. However on a country level I'm coming around to believing that the recent economic situation in Japan is the first recession/depression that is a result of sub-replacement fertility.
With a rate of 2.1 being neutral I wonder what our number would be if it weren't for immigration and the higher birth rates associated with immigrates.
I largely agree with you, but I'm tempted to think of the Romans who lost the ability to manage the complexity of their civilization, and, the way you write, the Tower of Babel! :^D
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