本文探讨了进化的选择目标，即进化是否旨在创造尽可能多拥有相似DNA的后代的生物体。作者质疑了人类是否具有高包容性遗传适应性，并通过多种视角分析了进化的选择目标，包括物种数量、生物量、能量流等。文章指出，以数量或生物量衡量，人类并非“赢家”，并引发了对更合理的衡量标准的思考，例如熵产生。最终，作者提出一个疑问：是否存在一种衡量标准，能使人类成为进化的“赢家”？

🤔 **进化选择目标：**进化的目标通常被认为是最大化包容性遗传适应性，即创造尽可能多拥有相似DNA的后代的生物体。

🦠 **物种数量与生物量：**地球上数量最多的物种是海洋细菌，而生物量最大的则是植物，尤其是树木。这些物种在各自的领域占据优势，但人类并非以数量或生物量衡量下的“赢家”。

🌿 **能量流与熵产生：**从能量流的角度来看，藻类和草占据了大部分能量，因为能量在食物链中向上传递时会迅速减少。作者提出，熵产生可能是一个更能反映单个生物体贡献的指标。

🤔 **人类的适应性：**文章质疑人类是否具有高包容性遗传适应性，并引发思考：是否存在一种衡量标准，可以使人类成为进化的“赢家”？

❓ **思考与讨论：**文章鼓励读者思考和讨论，以寻找更合理的衡量进化目标的标准。

Published on November 19, 2024 6:24 PM GMT

I think it's common on LessWrong to think of evolution's selection target as inclusive genetic fitness - that evolution tries to create organisms which make as many organisms with similar DNA to themselves as possible. But what exactly does this select for? Do humans have high inclusive genetic fitness?

One way to think of it is that all organisms alive today are "winners"/selected-for by that competition, but that seems unreasonable to me, since some individual organisms clearly have genetic disorders or similar which make them unfit according to this criterion.

There's some sort of consensus that we can assign individual organisms to "species", and then we could count it by the number of members of that species. Supposedly, the most numerous species is Pelagibacter communis, with 10^28 individuals, vastly outnumbering humanity. Maybe we could say that this is the selection target of evolution?

Of course as would be expected, pelagibacter is a very minimalist species, being single-celled and having very few genes. This minimalism also makes it hard to notice, to the point where according to Wikipedia, it was first discovered in 1990. (I wonder if there's another species that's smaller, more common, and even harder to notice...) This raises the question of pure numerousity is the correct way of thinking of it.

If we instead weight by biomass, most life is in the form of plants, and I think more specifically trees. This makes perfect sense to me - trees evolve from a direct competition for height, which is one of the traits most directly related to mass. And in a way, biomass is more sensible to weight by than numerousity, since it is less dependent on the way you slice a species into individual organisms.

But trees are pretty static. Maybe the problem is that since mass has inertia, this weighting implicitly discourages more dynamic species, like humans? An alternative is to weight by energy flow, but in that case, algae and grasses end up accounting for most of it. Sensible, because if you go up the trophic levels, you rapidly lose energy. That said, energy flow does have the dissatisfying (to me) element that it is "shared" between organisms that predate upon each other. I wonder if one could use something like entropy production to get a conceptually similar metric that's more attributable to a single organism.

I don't know of any weightings or metrics where humans are the winners, but it seems likely to me that there is one.

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