Ok.Winston Blake wrote:Yeah, that's implied.Sikon wrote: Okay. But do note that even stopping aging entirely would not be defeating death utterly, though I know some other life extension advocates are careless about the term. People can still die from causes like those that kill young people today.
Genocide wouldn't be classified as economic output per capita dropping by a factor of a hundred, as that would mean no "per capita" left.Winston Blake wrote:What about the nations that don't exist any more? What about wars? About immortality, all I'm saying is that for it to become the norm, it'd opens up a whole can of worms like requiring worldwide control of sex. Otherwise a lot of people are going to be born only to die in resource conflicts (all other things equal).Sikon wrote: Nations rise and fall, but usually the variance is more in their relative standing than absolute terms. There never was a nation that had economic output per capita literally drop by a factor of a hundred.
Extended lifespan might drop the rate of wars. Besides, nations prosperous by modern standards like modern democracies don't go to war with each other often. Nobody really expects Britain is going to fight France again in the 21st century. Those are the kind of nations which would manage to provide life extension. Of course, the goal is for all nations to provide life extension, but that can only happen by them first becoming more like the first-world nations, which tend to be relatively peaceful. Besides, wars usually kill only a small percentage of the population in relative terms, not like senescence that indirectly kills 100% not killed earlier.
We are talking about the future by the time of life extension, not precisely today's world. Even optimistically, life extension research is going to take time to succeed, then longer for its effects on population to much appear, so they would probably happen after the immediate near-term, after peak oil, after the Middle East conflicts I suspect you are imagining.
After life extension, there would not be particular need for worldwide control of sex if governments acted appropriately. Taking measures to limit population growth is one option, but accepting some population increase is also a legitimate option. If I recall correctly, the Limits to Growth book that was the archetype for modern overpopulation concerns categorized four factors involved in hypothetical "limits to growth": energy, food, resources, and pollution. Even for a future world initially planet-bound with an increasing population, those would not have to be excessive problems, giving time to go beyond earth.
Energy can be solved by nuclear power. Seaweed allows extraction of trace uranium from seawater, where there is a practically unlimited amount, billions of tons. It isn't as cheap as current uranium mines, but that doesn't matter because nuke fuel is still a minor expense.
As for food, if there ever was an actual overall shortage of cropland available, a NASA space station study here estimated that the right techniques can make only 49 square meters of food production area needed per person. Aside from the 24-hour sunlight, all factors involved in that production density could readily be reproduced in greenhouses on earth if the moderate extra expense was really worthwhile. To put that in perspective, even at a quarter of that production density, only four thousandths of earth's 5.1E14 square meter surface area would be enough to produce food for 10 billion people.
Resources? Well, oil is going to decline with or without population growth anyway. Synthetic plastics and hydrocarbon fuels could be produced with the help of nuclear power. One basically just needs a carbon source (coal, CO2, kerogen, etc.), a hydrogen source (water), an energy source (nuclear), a little more, and some chemical engineering. With that, plastics can be produced anywhere from Earth to the asteroid belt. The portion of GDP spent today on the raw material cost of plastics is trivial, so a moderate increase in cost compared to production from oil could be affordable enough. Metals aren't a big deal as the most important ones like iron and aluminum are common in earth's crust, impossible to really run out.
Pollution? That depends much less on population in itself than on how technology is utilized.
Although I would not agree with absolutely everything he says, the Sustainability of Human Progress website here makes many good points about topics ranging from energy to water supply. As implied by me before, the problems blamed on "overpopulation" today are due to violence, poverty, and improper technological usage.
As a reminder, there could be much economic disruption after peak oil, as the world is not properly prepared, but the situation of the more distant future is what is relevant to considering the effects of eventually managing to reduce senescence, as population would take decades to much increase even after success.
Admittedly, governments might not act appropriately and rather act unintelligently, given past behavior. In that case, one hopes the free market still develops the solutions needed, as it has managed so far. However, even if one did suppose poor decisions led to "worldwide control of sex" ending up being used, it could be subtle, as suggested earlier. Nothing as draconian as China's one child policy would be needed, particularly not when two children per couple is the replacement rate, and a large fraction of the population in prosperous countries doesn't even want children.
In summary: So what? Potential costs are barely worth mentioning compared to the benefits.
Well, almost absolute immortality eventually is a possibility, but it wouldn't really be within the foreseeable future. The kind of extreme technology and social changes involved would make prediction of such a distant future too uncertain.Winston Blake wrote:The Immortality Institute seems to think it is in the foreseeable future.Sikon wrote: As suggested above, absolute immortality would not occur, at least not within the foreseeable future, and it could take practically eons to really overwhelm this star system alone even if it did happen, even with a fair number of new children per decade.
Here is an illustration of the difficulty:
Consider a person living in a world where the average life expectancy is 300 years. Normally he has no chance of being close to immortal. Accidents, homicide, and other causes of death make his chance of living more than a few centuries limited. Perhaps rates of such are reduced worldwide with the extra motivation after people live longer, but that still only goes so far with a fragile human body. If he wants to be really close to immortal, his best hope is that technology advances to reach an extreme level before the end of his three-century median life expectancy.
In that case, perhaps he could have his brain's neurons gradually supplemented and replaced over years by nanorobots. With the hypothetical uber-tech, make avatars which are just like his original human body on the outside, including all nerves for senses but have a radio transmitter instead of a brain (or the uber-tech equivalent to radio control). With perfect telepresence, a perfect neural interface, possessing an avatar is utterly indistinguishable to him from having his original human body, from eyesight to touch. Then, he could have no risk of dying in ordinary accidents, as one of his telepresence avatar bodies being destroyed would be harmless.
Still, even then, his chance of surviving for millions of years is reduced by having a single point of failure: his upgraded brain module. To further approach immortality, he might maximize redundancy. An individual insect dies easily and fast, but the class Insecta as a whole lasts for millions of years. Likewise, have his nanotech neuron-clusters gradually move apart and have backups added, connected by electronic communication. His brain could become a swarm of many redundant elements, up to many kilometers wide, protected by shielding, backups, etc. In that case, he might actually approach immortality, lasting for millions or even billions of years. Still, it is not known if any solution to the possible eventual "death" of the universe could be found even in that much time. If he ever died, he would not be absolutely immortal.
The above is just an illustration, but observe how a scenario in which people became very close to truely immortal would be too alien to the present-day world to be really understood, predicted, or foreseen now. Making the rate of deaths from all causes from accidents to violence be essentially zero would not be a simple task, not one likely to be accomplished by anything short of people much different from baseline biological homo sapiens.
Anyway, even considering such as an eventual possibility is beyond the comfort level of most people, who can see more the possibility of becoming like LOTR elves than becoming AI "gods." Maybe the future might be strange in thousands or millions of years, but, for now, the logical focus is on reducing senescence, just increasing life expectancy to up to several centuries. So, it is best not to say absolute immortality is the research goal.
EDIT:
On second thought, the term "immortal" is commonly used to refer to fictional creatures that aren't absolutely immortal, like vampires and even the elves (dying in violence periodically), so the Immortality Institute might mean to use it under a less strict definition than absolutely zero chance of death. Still, the best terminology for public relations would merely talk about reducing the negative effects of aging as the goal.
By the way, if life extension research started making progress within the lifetime of the current generation but didn't seem to succeed in time, it might still not be too late. If a suspended animation technique like this was discovered to work on humans for long enough periods, the elderly near death might have the option of going into hibernation to survive until the research against senescence succeeded. Sure, it is only a possibility, no guarantee, but the key observation is future technology might give some chance.
I'm not surprised, as it was an expansion of your original thought.Winston Blake wrote:Yes, I completely agree.Sikon wrote: The best way to maximize public support while minimizing risks might not be to talk about obtaining "immortality." Rather, describe the goal as reducing the negative effects of aging, as treating senescence. Seeking immortality is a concept associated with Lord Voldemort, Emperor Palpatine, etc. Some research techniques could potentially involve politically controversial methods like stem cells, genetic engineering of human cells, etc. Yet almost nobody would be directly opposed to their grandparents being more healthy. A project reducing the negative effects of aging could be supported by the average person learning their news in 30-second soundbites.
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