Since you mention the TV, it seems there's a big factor missing in both the article and the discussion here. Namely, that sauna time is for many people the only time they ever take to be in silence, without the countless distractions otherwise bombarding our nervous systems. I.e. it's basically a form of informal meditation, which is known to have a lot of benefic impacts on body and mind. So maybe skip the TV part?...
I recently got an outdoor sauna at home, and that's definitely a key benefit ...sitting in silence without any devices, no smart phones, watches or music for at least 15-20 minutes.
> The definition of what constitutes a species is a human construct
That makes it sound like the boundaries between species are arbitrary, but they are not. Sure, there are corner cases where things become debatable, but those are the rare exceptions, not the rule.
> Two bird populations living in the same locale but divided by a mountain range therefore not naturally breeding with each other would classify as a different species, even if they could breed with each other.
This is only the case if the separation has been there long enough for the two groups to develop distinct genetic markers or physical traits (like the beak shape or plumage mentioned in the original comment). The deeper reason they are classified as different species it that they are de-facto on different evolutionary trajectories. Which doesn't happen for human populations because historically, whatever obstacle divide us, we find a way to get around it.
> Seems to me, that we divide other animals based on some of the most minor of phenotypic expressions
It might seem like that to you, but you'd be wrong. Taxonomy prioritizes genetic distance and reproductive isolation over superficial visual traits that humans happen to find striking. While phenotypic variations like skin color or facial structure are highly visible, they represent a microscopic fraction of the overall genome and do not indicate the deep divergence required to define a new species.
And from a genetic standpoint, Homo sapiens is remarkably homogeneous. Two humans from opposite sides of the planet are generally more genetically similar to each other than two chimpanzees from the same patch of forest. Traits like skin color (an adaptation for UV protection) or nose shape (an adaptation for humidity/temperature) are rapid evolutionary adjustments. They change quickly on an evolutionary timescale without requiring a fundamental split in the species' lineage.
In contrast to other animals, because humans never stopped breeding with one another, we never had the chance to "drift" far enough apart to become different species. Geographic distance in humans has historically acted as a filter, not a wall.
So there's your answer. Because of this unique genetic homogeneity (and not because of some imagined woke censorship), speaking of human subspecies would be scientifically mistaken.
1. They might not, but that's not decisive for reproductive isolation. Basically, those two populations have diverged enough that we know, from studying speciation in general, that they are on separate evolutionary trajectories never to join again. That's the decisive factor - they are two distinct branches of the tree of life. That's not the case with any two human populations. Human history shows that we are different from all other animals in this sense: no matter what obstacle – weather geographic or otherwise – separates us from each other, we ultimately find a way to overcome it.
2. You might have picked a bad example with these two species, since they appear to be surprisingly far apart genetically, a lot of their common appearance being explained by convergent evolution not by shared ancestry.
PS: A lot of this stuff is counterintuitive and understandably perplexing, but scientists have worked hard to get to the bottom of things and deserve a bit more credit for it. You base a lot of your arguments on suspicions and gut feeling. I recommend measuring those misgivings against the freely available AI chat apps, it will help you get a grip on both the depth and complexity our scientific understanding of this domain. Ask it for sources, go check those sources, ask deeper question, push back as much as you need. Here's my interaction with Claude on these questions:
> Taxonomy prioritizes genetic distance [..] Two humans from opposite sides of the planet are generally more genetically similar to each other than two chimpanzees from the same patch of forest.
Do you have a source? I've tried looking in the past, but couldn't find good "genetic distance" metrics that could be compared between humans and other species.
The Gemini answer first cites Kaessmann, Wiebe, and Pääbo (1999), which explicitly says it sampled from all 3 at the time recognized major subspecies of chimpanzee (and found it 4x more genetically diverse than humans), not the same patch of forest.
Then it cites Goldberg and Ruvolo (1997), which uses the frankly hilarious "more variation between than within groups" metric. Why hilarious? Because it looks at single genes, while most traits are polygenic. When you look at multiple genes, even with only 2-3 dimensions to display the results (the data has thousands of dimensions), populations can be clearly distinguished [1]. What is the value in such a useless metric? And even then, the paper doesn't state something so extreme - quite the opposite. Direct quote from the paper:
Eastern chimpanzees are not, however, the genetic equivalents of humans. Mean, modal and maximum levels of nucleotide difference are actually slightly lower in eastern chimpanzees than in humans. The last common maternal ancestor of eastern chimpanzees may therefore be even younger than the last common maternal ancestor of all humans.
In fact, even a cursory reading of Gemini's answer shows it to be inconsistent - it states: "In contrast, chimpanzees (Pan troglodytes) exhibit a nucleotide diversity that is often two to four times higher than that of humans, depending on the genomic regions analyzed."
2-4 higher diversity, but there are 4-5 recognized chimpanzee subspecies [2]! Far from "two chimpanzees (implied from the same subspecies) living side-by-side are more different than the two most different humans", it puts humans right on the edge, or slightly past it, of meriting at least one subspecies of our own.
The last study it cites, Fontserè et al. (2022), barely mentions human genetic variation, and doesn't actually provide any quantitative comparisons between it and that of chimpanzees.
Finally, I didn't actually get what I asked for. Nowhere in those articles, or the AI answer, is there anything equivalent to "the genetic distance between Eastern and Western Chimpanzees is X, while the distance between a Norwegian and a Pygmy is Y."
So no, it doesn't actually check out, if you apply minimum scrutiny.
The sibling answer claims the fixation index [F_st, 3] is a measure of genetic distance, but that's not exactly true. E.g. it can't be used to show that dogs are closely related to wolves, less closely to cats, and even less closely to salmon - the F_st for all those comparisons, save perhaps for wolves, would be simply 1. Still, I took your advice, and asked AI (Gemini). I asked:
What is the genetic distance between eastern and western chimpanzees, and how does it compare to the genetic distance between a Spaniard and a Han Chinese?
To summarize its answer (can't share the chat when not logged in, feel free to verify), it claimed the fixation index is used for this purpose, and gave the following numbers:
Western vs. Eastern Chimpanzees F_st = ~0.32
Central vs. Eastern Chimpanzees F_st = ~0.09
Spaniard vs. Han Chinese F_st = ~0.11 – 0.15
The values for the human comparison are more or less in line with [3], but I couldn't find a source for the chimpanzee numbers after a very brief search. I've already spent far too much time debunking a casual AI slop answer.
Interesting, thanks for putting in the worthwhile effort to debunk that assertion. Clearly some hyperbolical claims have made their way into common wisdom and from there into model training data, which is unfortunate and feeds the conspiracy theories.
Because those claims go way beyond what is needed to support the current scientific viewpoint debated here. It's still true that homo sapiens is a startlingly recent species and that the visual characteristics which are so apparent to us (as a mainly visual species) depend on much more superficial genetic changes than one would imagine.
The bottom line, as I see it, is that there is good reason to apply a different standard for assigning (sub-)species status to a given population when we're talking about humans vs. other animals. If we think of a species as a branch of the evolutionary tree (i.e. a separate evolutionary trajectory), in the case of other animals, geographic isolation will, with overwhelming probability, lead to divergence over a long enough time. Human history shows that this is not the case for us humans. Whatever obstacle has divided us in the past, we managed to overcome it and mix our genes again.
Let's take the North Sentinelese people (possibly the most genetically isolated human population extant). It is believed that they were isolated from the main branch of humanity about 50kya. That's obviously a blink of an eye in terms of evolution, but maybe if we would be talking about chimps, scientists would have designated them as a subspecies. Probably not, but let's pretend that's the case. Should we then do the same? Taxonomically sanction that split and consign them to their own branch of the tree? It seems historically misguided, but also morally wrong. Like shutting the door on them. I guess this latter aspect is what's bothering some, but in my opinion it says more about them, than about science in general.
Good points. On the bottleneck hypothesis, a new study came out in 2024 arguing that the 900kya population loss was, if not a statistical artifact, more likely a genetic sweep or genome takeover via adaptive advantage. Whatever might be the truth in this case, it is true that human evolution, especially on the cultural plane, has gone through a bunch of major leaps which have had the effect of one small population eventually dominating the global genetic pool. Basically, a winner-takes-all dynamic. One example would be the Proto Indo-Europeans who have replaced male lineages throughout Europe and beyond. There are other such examples as well, like Neanderthal extinction.
genetic bottleneck does not imply population loss.
it is about unavailability of large gene pool.
this can be population loss, but can also, be a loss of compatability between individuals, due to genomic modification, such as but not limited to chromosomal fusion.
So, the most successful at arrogance? In other words, the least successful at humility? Ironically, since humble and human share a common root. Just playing devil's advocate here, but what you propose is not a good metric to maximize.
Evolution is survival of the fittest. That's not a tautology, it actually says something, namely that the traits which survive and thus propagate tend to be the ones that enable some form of adaptation to its living conditions to the individual. The paper lists a bunch of examples:
- lactose tolerance
- immunity and disease resistance
- lighter skin at northern latitudes
- metabolism and vitamin D processing changes in response to changes in diet after the rise of agriculture
All these traits go beyond just increasing the odds of survival, they improve the life of the individual directly. I.e. they confer fitness. Individuals carrying those traits will, on average, in that ecosystem they are inhabiting, be more healthy than those who don't.
> but that gap gets smaller every year (and will ostensibly be closed)
As long as you build software for humans (and all software we build is for humans, ultimately), you'll need humans at the helm to steer the ship towards a human-friendly solution.
The thing is, do humans _need_ most software? The less surfaces that need to interact with humans, the less you need humans in the loop to design those surfaces.
In a hypothetical world where maybe some AI agents or assistants do the vast majority of random tasks for you, does it matter how pleasing the doordash website looks to you? If anything, it should look "good" to an ai agent so that its easier to navigate. And maybe "looking good" just amounts to exposing some public API to do various things.
UIs are wrappers around APIs. Agents only need to use APIs.
Yes, if it's not redundant software. The ultimate utility is to a human. Sure, at some point humans stopped writing assembly language and employed a compiler instead, so the abstraction level and interfaces change, but it's all still there to serve humans.
To use your example, do you think humans will want to interact with AI agents using a chat interface only? For most tasks humans use computers today, that would be very unwieldy. So the UI will migrate from the website to the AI agent interface. It all transforms, becoming more powerful (hopefully!), but won't go away. And just how the advent of compilers led to an increase of programmers in the world, so will AI agents. This is connected with Javon's paradox as well.
Yeah, for those you can just relax and trust the vibes. It's for complex software projects you need those software engineering chops, otherwise you end up with a intractable mess.
If it's for a complex software project the first question you need to ask is "does this really need to be software at all?"
Honestly this is where most traditional engineers get stuck. They keep attacking the old problem with new tools and being frustrated. I agree that agents are not a great way to build "complex software projects" but I think the problem space that is best solved by a "complex software project" is rapidly shrinking.
I've had multiple vendors try to sell my team a product that we can build the core functionality of ourselves in an afternoon. We don't need that functionality to scale to multiple users, server a variety of needs, be adaptable to new use cases: we're not planning to build a SaaS company with it, we just need a simple problem solved.
But these comments are a treasure trove of anecdotes proving exactly my point.
One thing I've learned by following a link from elsewhere in this thread is that while the total count of neurons in an animal's nervous system is not a good proxy for intelligence, the count of neurons in the forebrain is. By that measure, only the orca ranks higher than humans [1].
That doesn't mean language ability is a natural outcome of crossing a certain threshold of brain complexity; if anything it's more likely the other way around: this complexity being be driven by highly social behavior and communication.
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