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James_Miller comments on Brainstorming for post topics - Less Wrong
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They might not, but then again we might learn how to create super-high IQ people before we learn to genetically engineer high-loyalty people and consequently the super-geniuses would pose a future risk to the Chinese communist party.
I don't see the Chinese Communist Party being worried about that. I suspect that if they embark on an IQ-enhancement program, its goal and likely results will be a small rise in average IQ, not a collection of flawed supergeniuses.
IVF is a difficult, painful, somewhat dangerous process which requires a lot of money, cooperation, and apparatus, while embryo selection doesn't sound like it would cost much more for higher levels of selection; if you're going to do it at all, it makes more sense to maximize bang for your buck by going for geniuses than settling for near-invisible increases in averages. If nothing else, where do you get all the gynecologists from? To do a nationwide program would require hundreds of thousands of specialists (at a minimum; China has 18 million babies a year).
The problem is that no one knows how to go for geniuses. The first step has to be, essentially, large-scale experimentation which, I suspect, will start with just culling out "defects". China likely has the will and the ethics to do this, the West certainly does not.
I don't follow. If you have the sorts of genotype/phenotype databases which let you select for a few variants to increase average intelligence a little bit, then you aren't technologically very far from having the databases to select for a lot of variants to increase average intelligence a lot. I don't see any reason to expect long-term stagnation where interventions can easily increase by a few points but a lot of points is just impossible.
First, no one has databases which let you select even a few variants. We know a bunch of mutations which reliably decrease intelligence. I don't think we know what reliably increases it.
Second, the idea that we can just pile all the small improvements together to get a supergenius relies on unlikely assumptions, for example the additivity of these improvements and lack of negative side-effects.
I am aware of this. But you were the one discussing the hypothetical that the Chinese government would be more likely to do an embryo selection program aimed at modest national-wide increases in averages; clearly you are presupposing that such databases exist, and so I'm not sure why you're objecting that your hypothetical is currently a hypothetical.
My understanding is that, far from being an 'unlikely assumption', methods like twin studies & GCTA used to estimate aspects of the genetic contribution to intelligence have long shown that the majority (usually something like ~70%, going off Meng's citations) is in fact additive.
High IQ types don't have that many problems.
I probably wasn't clear. The hypothetical program would not be aimed at modest nation-wide increases. It would be aimed at figuring out how to genetically engineer intelligence. I expect that its first fruits would be modest increases in the averages of the program subjects -- not the averages of the whole population of China.
The studies examined normal ranges of intelligence. The additivity may or may not hold when pushing into genius territory.
That's not self-evident to me for very high IQ types. Besides, the attempts to genetically engineer high IQ might find different paths in that general direction, some are likely to have serious side effects.
There's no a priori reason to expect additivity to suddenly fail when going outside. That's the point of additivity: if they depended on the presence or absence of other variants to have effect, then that would fall into the non-additive parts.
When we look at regressions for IQ, we almost always see strong positive effects going as high as we can meaningfully measure or get sample sizes. Consider the SMPY studies. I'm not aware of any results from their longitudinal results showing worse problems than your average 100 IQ schmoe. And it should be self-evident: do you associate MIT or Stanford or Harvard or Tsinghua graduates with extremely high flameout rates, shorter lifespans, lower incomes, any of that...?
If there were serious common side effects from the common variants detected by current GWAS, as a statistical necessity, those variants would have been disease hits before they were intelligence hits of small effect.
We just don't know at this point. On general grounds I'm suspicious of claims that in highly complex systems stochastic relationships observed for the middle of the distribution necessarily hold far into the tails. In this case I have no strong opinions on whether it will or will not hold.
By "very high IQ types" I mean geniuses. MIT, Stanford, etc. do not graduate geniuses, they graduate merely high-IQ people. Off the top of my head, I would expect geniuses to have a higher rate of mental/emotional issues and a shorter lifespan, though that's a prior, I haven't looked at data.
I'm talking about different paths.