Daniel and Kelly’s Extraordinary Universe - How long have we been human? (featuring Dr. Scott Solomon)
Episode Date: November 25, 2025Daniel and Kelly chat with Dr. Scott Solomon about ancient hominid species, and how we learn about them.See omnystudio.com/listener for privacy information....
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Could you draw up a quick document with the basic business plan?
Just one page as a Google Doc.
And send me the link.
Thanks.
Hey, just finished drawing up that quick one-page business plan for you.
Here's the link.
But there was no link.
There was no business plan.
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If I could go back in time to witness any historical moment, going back in time to observe ancient human species would be near the top of my list.
How do they build their fires?
How do they treat their children?
How do they solve problems and how do they communicate with each other?
Do they dance?
Do they sing?
Do siblings argue with each other?
But, unfortunately, Daniel hasn't figured out time machines yet, so I'm kind of stuck for now.
In the absence of time machines, the best we can do right now is search for fossils and try to learn what we can from things like the shape of these fossils and the DNA that's sometimes left behind.
And lucky for us, we have Dr. Scott Solomon back on the show to tell us about what we've learned so far about ancient hominins.
And that's almost as good as a time machine.
Welcome to Daniel and Kelly's Extraordinary Universe.
Hi, I'm Daniel. I'm a particle physicist, but I don't remember.
remember the moment that I became human.
Hello, I'm Kelly Weiner-Smith. I study parasites and space, and thank goodness we don't
remember the moment we became human. I'm guessing that that is a biologically, you know,
a private moment between your parents, probably. I don't know. I don't feel like I was human
at birth. I don't feel like I was me at birth. I was just a screaming blob. I think it's
fascinating that what emerges from that is a sense of self, a sense of
who you are, but you can't really trace it all the way back. Like, its origins itself are sort of
lost to your own memory. I feel like that's similar to how, like, as a species, we have some
historical memory and some writing, but our own history is lost. But we were there, right? Like,
in principle, we saw all this stuff happen. And if we just, like, kept better records or told
each other about it, we would know the answers to all these questions. Yeah. Yeah. And I think
this is an interesting thread that sort of wove itself throughout our conversation with Scott
Solomon where I think your definition of human encompasses a lot of the things that modern humans
do today, whereas I think a lot of us would be comfortable thinking of humans as, you know,
like not too many steps beyond when our, you know, most common ancestor with chimpanzees came down
from the trees or something like that. No, I'd love to hold like a one million year old stone tool
and think about like, who was the person who made this? Because it was a person and they made it and they
like had lives and loves and argued with their siblings and had betrayals and all sorts of stuff
and maybe even hummed music to themselves. Who knows? But, you know, what was it like to be that
person? It feels like a real connection with our past. But because we were sloppy in our
citations, we don't know who invented the stone tool and who came up with these early ideas and
who first invented music and stuff. And so unfortunately, we can't give those people credit.
Shame on the early humans. Why didn't they develop copyright and patent?
law much earlier. Clearly, that's the peak of humanity.
Lab notebooks, man. It's all about lab notebooks. They had taken better notes. We would know.
But don't you find it frustrating? Like, some of the mysteries in the universe, like, what's inside
a black hole? Like, nobody knows. But these questions, like, where did we come from? How did this all work?
People were there, literally. And so somebody knew, we just forgot. It's like, what? What are we
even doing? That is frustrating. And, you know, with black holes, I feel like that's the kind of thing where
through equations and good equipment.
Maybe one day we'll get answers to some of these.
But things like did our hominid ancestors argue with their siblings?
Like, gosh, that would be really hard to get an answer for.
You know, some of these, like, social things were never going to know.
And that is a little devastating.
Well, the other thing that's frustrating about this whole field is that there are probably
answers waiting for us buried in the earth.
Like, what fraction of human fossils have we found that exist?
you know, some tiny, tiny fraction.
And if you just knew where to go, like, oh, go dig here, go dig there, the answers
are waiting for you.
That's incredibly frustrating in the same way.
Like, the answers are there if we could just get them out from the earth.
If somebody told me that, like, the answer to what's inside a black hole, I buried it
in a treasure chest somewhere on the planet.
Like, I would go figure it out.
Like, I would be on the hunt, you know.
Right.
The rest of your life you would be spending trying to find that.
Yeah.
Exactly.
And so it's so frustrating.
these questions are so important and so meaningful, and the evidence is right there in front
of us, maybe, but we just can't get to it. Anyway, it's fascinating and wonderful to think about.
Well, and I think it's fascinating and wonderful to be the kind of scientists who are searching
for those things, because every once in a while, you do find some amazing piece of information
that suggests, you know, this is probably when we started using fire or something like that.
And so we are bringing Scott Solomon back on the show. He did an amazing episode in the past
about like current and continuing human evolution.
And now we're bringing him here to look to the past.
And he's been to a lot of the archaeological sites
where we look at ancient humans.
He's researched ancient humans a lot
for his upcoming book where he looks forward
to what evolution might look like on Mars.
And we had an absolutely fantastic conversation with Scott today.
Yes, we did. Thank you, Scott.
And Scott suggested to me that we ask our extraordinarily
the philosophical question that Daniel and I
have essentially just been discussing,
which is when did we become human?
So let's see what the extraordinaire's had to say about that.
I think we became human when we started talking.
Technically with the emergence of homo sapiens,
but more likely a couple hundred thousand years later
with the development of culture, symbolism, art, and language.
80 to 100,000 years ago, roughly when we developed chins.
Evolution continually progresses.
There is no specific enduring definition.
By way of example, a person with a substantive,
Stantial set of mutations could be defined as a different species at this particular moment.
We cannot truly define when a proto-human became a human, and when we change in a way that a particular specimen is no longer a human being by the standard of today.
When we got a plausible thumbs.
I think we became human when we came down out of the trees, began to weave leaves for clothing,
learn to use fire to cook our foods, lived in communities, and buried our dead.
Chins and thumbs, amazing.
Yes, we got some fantastic answers.
and let's go ahead and see what our expert Scott Solomon says.
And so Dr. Scott Solomon is a teaching professor
in the Department of Biophysics at Rice University.
He's the author of Future Humans
Inside the Science of Our Continuing Evolution,
and his upcoming book, Becoming Martian,
How Living in Space Will Change Our Bodies and Minds,
is coming out through MIT Press in early 2026.
He hosts the podcast, Wild World with Scott Solomon,
taught what Darwin did.
didn't know the modern science of evolution for the great courses, and you can check out his
streaming series, Becoming Martian on CuriosityStream.
Welcome to the show, Scott.
Thank you.
I'm excited to be back.
Thanks for joining us to talk about humanity.
Let's do it.
Yes, we're so glad you're back.
We had so many good comments from the last episode that you were on talking about evolution.
I think our community doesn't get enough evolution, and they're excited to hear about it.
So let's talk about homo species.
So did a lot of ancient humans.
exist previously and like, how do we know about how many of them there were? Like, do we think
there were a lot of them? Yeah, that's a really good question. So, you know, I guess what we're talking
about is, you know, species that existed once upon a time that are not our species, homo sapiens,
but that are also, you know, close relatives, maybe not in a direct line of descent to us
necessarily. That's kind of an interesting thing to talk about. But we know, for example,
that we shared a common ancestor with chimpanzees. Chimpanzees are among all the species that
are still alive today. They are our closest living relatives. And we know that because mostly
of genetic data. So we can look at the DNA of chimpanzees and all of the other apes and
primates and everything else that's alive, compare it with our own DNA. And they're actually more
closely related to us than they are even to other apes like gorillas, which that part alone
kind of always blows my mind. I think it's incredible, right? You think about chimps and gorillas as
being kind of like similar to each other, but chimps are closer to us than to, you know, any other
living ape other than us. And that's a measure where we just are looking at our DNA and looking
at their DNA and calculating some sort of genetic distance. Is that right? That's part of it. It's actually
even more complex than that. It's kind of cool because, you know, you can just look at like what
percent similarity do we have. And that's one measure of it. Though that measure is weird because we also
have like 50% DNA in common with bananas, right? Exactly. That's right. Well, we do share a common
ancestor with bananas, but you have to go back pretty far. So, yeah, I mean, that's telling us
about common ancestry, right? It's telling us about it's like you have some percent of your DNA
in common with your cousin and even less in common with your like, you know, fourth cousin
twice removed or whatever it is, right? So yeah, if you go back far enough, you can find DNA that we
have in common even with like bacteria. There's not much, but there's a tiny bit. So the more
that we have in common, the more closely related we are in general. But even more specifically,
it gets down to like, yeah, but what DNA? What's the DNA doing? And that's when it gets really
interesting, because then we can actually trace the history of specific genes and see the way
that those genes have changed over time. And that allows us to put together kind of a family
tree of similarities and track exactly how those parts of our genome have changed over time.
So we now know that if it, if you went back in time about six to seven million years ago,
you would find the common ancestor that we shared with chimpanzees, right?
Six or seven million, nice.
Six or seven million.
So, you know, like, you know, I have friends who are historians and we always joke about, like,
to me, that's like yesterday, right?
Like six to seven million years, that's not so long ago for an evolutionary biologist.
Or geologists also, you know, they would kind of probably be on the same page with that.
like, oh, yeah, that's yesterday and, you know, in the history, you know, if you're used to
timescales on the order of hundreds or thousands of years, that's a long time ago, and that's,
and that's fair.
Well, my experiments take 10 to the minus 23 seconds, so six million years.
It feels like a long time.
But not in the history of the universe, right?
I mean, that's like a blink of an eye.
Yeah, absolutely.
So you're saying that we have a common ancestor with chimps, and we know that because we've
looked at the DNA and we can project back based on the rate of change.
and specific genes that have changed. Have we found a fossil that confirms that? Or is this just
based on DNA? Right. That's great. Great question. So, yeah. So we do know a lot about the
history of the lineage. Like if you think about that split between, so there's a common
ancestor of humans and chimpanzees, and then there was some kind of a split that took place.
And there was one lineage that eventually led to chimpanzees and another lineage that eventually
led to us. And we can talk all about what do we know about that? But your question is, like, do we
have fossils to help to fill in the picture of what was happening at the time of the common
ancestor and maybe right afterwards, right, to help complement what we know from genetics.
And the answer is sort of, we do have fossils that go back to around that time.
It turns out that that period of time in the part of the world where this was happening,
which was like tropical Africa, doesn't unfortunately have a ton of great fossils preserved from
exactly that time. So that's one of those things where there are some kind of missing little
gaps in there. But we've filled in more and more and more. And so we are starting to get a really
much more complete picture of not only what was happening around that time, but particularly
of all the things that happened subsequently. Like if you track the lineage that eventually led to
us, turns out it's way more complicated than people used to think.
Right. So, I mean, you can go back to Darwin's time, right? Darwin, he obviously, you know, gave us the first notion that we have this evolutionary history, right? And he speculated that we must be closely related to the great apes, the chimpanzees, gorillas, orangutans. And that was based just on like similar anatomy. Like if you look at the skeleton of a chimp and a gorilla and a human in a museum or something like that, like, you know,
there's a lot of similarities. There's some pretty clear differences, too. But he speculated
that they must be our closest living relatives. And then he also speculated that there must be
some fossil species that once existed that kind of span that gap between us and the common
ancestor that we shared with those apes. And he even predicted that that common ancestor probably
lived somewhere in Africa, mainly because that's where the majority of apes, great apes, that's
chimpanzees, gorillas, orangutans. So there's orangutans in Asia, but gorillas and chimps are only in Africa. So that kind of makes you think, okay, Africa might be where most of this history took place. But at the time, none of those fossils were known. So that was really just kind of like a wild guess. And it took a while, but he turned out to be right.
I'd like to talk about how fossils are formed. But right now, so, okay, so I'm thinking of a V in my head. And,
the bottom of the V has our common ancestor.
One side has chimpanzees and one side has Homo sapiens, which is us.
And we've talked about how there are other Homo species also.
What's the right way to think about where those lines belong on this V that I have in my head?
Yeah.
So if you think about that V, you're right.
Like the point where the two lines come together, that was the common ancestor that we shared with chimpanzees.
Something happened and there was a split.
And then the lineage that eventually led to Homo sapiens, this is where, like, I think a lot of
people have in their mind that like image of like a hunched over ape that like then there's like
slightly standing up a little taller and then a little taller and eventually like leads to to us and
then like it's on the shirts so it's true yeah exactly or the bumper stickers or the memes and
then like often you know like the next step is like you know hunched over a computer or some or you know
some insert joke here right like about the downfall of humanity however you however you perceive it but
But that idea is like, okay, the common ancestor that we share with chimpanzees, we think actually
looked, it wasn't a chimp, but we think it would have looked more chimp-like than human-like.
I think that's a fair statement to make, like, you know, getting back to the question about
do we have fossils.
We have fossils from very close to that time that do look much more chimp-like than human-like.
And what I mean by that is if you look at the structure of their bodies, you know, one of the big
differences between chimps and us is chimpanzees, they don't walk on two feet. They actually can walk
on two feet technically. If you give chimpanzees two very good pieces of food, like two bananas or
something like that, they will hold one in one hand, one in the other hand. And then if you want to get
away from the other chimps, you got to move and you got to walk up right on two. So they'll do it,
but they look super goofy. And the reason is actually interesting. It's because they can't balance on one
foot. So like, you know, if you're sober, you might be able to balance on one foot pretty effectively,
right? That's because our hips and our leg bones and our spine and our foot, you know, all of that
is structured in such a way that enables us to walk in a way that like for a brief moment, you are
kind of balancing on just one foot while the other foot is moving forward. And for a chimp,
they have to lean all the way to one side in order to not fall over when they do that. And they do
So they look really goofy because their kind of bodies moving left and right to not fall over.
It's not a very effective way of getting around.
And so, you know, most of the time what they do is what's called knuckle walking.
They walk on all fours, but rather than, like, putting their hands palm down on the ground,
they put their knuckles down in a way that looks super uncomfortable to me.
Like, I would never want to walk around.
Like, I don't think any toddlers are crawling around with knuckle walking that I've seen.
But, you know, it's an effective way for chimps and gorillas to get around.
All right.
I have lots of questions about chimps and growing bananas and knuckle walking.
But I want to hear the answer to Kelly's question, which is about where those splits happen.
So after the split between the chimps and the proto-humans, are there lots more splits?
How do we think about that?
Yeah.
So basically, after the split with, you know, the chimp lineage, so those very first species that are on our side, on the human side of that split, they would have been walking on.
their knuckles just the same way that chimpanzees and gorillas do. They weren't really able to walk
upright yet. But that starts to happen in the fossil record. So you start to see species that are
around 5 to 6 million years old that have some of the anatomical features that we use for walking
upright in their pelvis, their hips, in their spine, in their legs, right? And there's a lot of
things that you don't necessarily think about that are associated with walking upright, even
like where your neck, the bones in your neck attached to your skull. For us, it's like the bottom
of the skull. But if you look at like a dog or another four-legged animal, it's behind the skull.
So that has to change. There's a lot of anatomical changes that take place to be able to walk
upright. And what's really cool in the fossil record is we start to see some of those individual
components popping up in these species that are from around that, you know, five to six million
year old range. But then you get more splits, right? So what's really, I think, one of the most
fascinating aspects of what we now know about human evolution is it wasn't a straight line. You don't
have this kind of like, you know, one species that was hunched over leads to one that was a little
more upright to another is a little more upright. They kept having more and more events where there was
like one species that split into two, more of those Vs. And so what we actually see is a whole
bunch of different species that are on the human side of the split, but are not necessarily species
that ultimately left any descendants. They don't necessarily lead directly to us, but they were
more closely related to us than they were to chimpanzees. And when we talk about these splits,
it's a nice sort of diagram to have in your head. There's a solid line. It splits. It splits.
another solid line. But in reality, on the ground, you're talking about populations. And those populations
are drifting apart. And so that speciation event takes a little bit of time, right? You have
populations which start to differ and then diverge. And then at some point, they can't make babies
together anymore. And that's when you say they split. It's a bit fuzzier than the cartoon lines
we're drawing in our minds, right? Now, that's exactly right. It is a process. And we can only sort
of see it as a process that played out as one lineage that led to two only after a lot of time
has passed. And actually, we know that sometimes you can start to have a split, but then they
might come back together and sort of like reform. So speciation started to happen, but doesn't
actually go all the way through to completion. They argued about bananas, then they got together
and decided to share the bananas. That's right. There seems to have been a lot of sharing of bananas
in the history of our distant relatives.
Bananas are showing up in this show more than I would have guessed.
It's human evolution.
Of course we're going to go bananas.
Love it.
So I love this conversation because we keep coming up with more and more questions to ask.
But I think that finally gives us a chance to unwind back to our original first question,
which was, were there lots of other homo species previously?
How many do we need to think about as we're tracking the development of the population that would eventually birth us?
Yeah. So we now think that there were something like 20 species, maybe more, that existed between the common ancestor that we shared with chimpanzees and our species, Homo sapiens. Now, the exact number is something that the scientists that study human evolution like to argue about a lot. That's a very kind of contentious. So exactly where to draw those lines between species gets complicated. And partially that has to do with what you were saying, Daniel, about like the process of speciation.
isn't always clean. It can be a messy process. And so sometimes it's like, well, is that really a
different species? Maybe that was like something that started to become different, but maybe didn't
proceed all the way to what we would normally consider to be a new species. That could explain
part of it. And the other part of it is like any species you look at, you know, there's always
variation. Like these guys over there look a little different. These ones over here have an
interesting weird behavior that's different. Any species, right, that you look at. So that always
makes it a little messier when you try to say, like, where do we draw the boundaries around
the edge of what is a species? And just to clarify, when you say 20, do you mean there's like
20 steps along that line between the split between chimps and us? Or do you mean there are 20
sort of parallel tracks there where different kinds of homo species split off? Yeah, exactly.
It's the latter. So it's not the case that there was a stepwise sequence of A led to B, B led to C,
C led to D and count them all up and there's 20.
It's more of picturing like a bush, right?
So you've got like one stem and you can trace that that stem branches off and you get two more leaves over there.
But then on another branch, just over here, there's, you know, there's three stems and they each have three leaves.
So some of these species were living actually at the same time.
And that gets to be really intriguing to think about.
The banana politics were bananas.
So you said we have maybe 20 species, which I'm guessing that number must have arisen from a bunch of fossils that we found.
Do you think we'll be arguing over these same 20 forever, or do you think there's a lot of additional homo fossils out there that we haven't found yet?
And maybe we'll end up saying there's like a hundred homo species.
Yeah, it's a good question.
I mean, I think two things have been happening in the last few decades, both of which are super exciting.
One is that, like, we keep finding new species of, of, you know, I'm going to say hominids.
Hominid is the term that we use to describe anything on our side of the split from chimpanzees, right?
So they're not all in the genus Homo.
We get to the genus Homo at some point in that history, but that's a relatively recent development.
There were other types of hominids that were in different genera like Australopithecus is another one.
So folks might be familiar with Lucy.
That was a species known as Australopithecus aphyrinsus, and that is another example of a hominid.
So more on our, it's definitely on our side of that split, but not in the genus Homo.
So of all of those, if you add them all up, then you can get something like 20.
And so like I said, there's new discoveries that keep happening of new species, some of which are in the genus Homo, some of which are in some of these other hominid genera.
So that keeps happening, and that's, of course, super exciting because these are, you know,
helping fill in the full story.
But the other thing that keeps happening is we keep finding more and more examples of things
that we already knew about.
And one of the things that that has been doing is helping us to recognize that sometimes
these two things that we thought were different.
If you find something kind of intermediate in between them, you start to sort of get
a fuller picture and recognize maybe this is actually all one thing.
And maybe we need to, you know, not be always splitting.
everything up, but maybe sort of, you know, we talk about lumpers and splitters in the science
of taxonomy. And people tend to, you know, be more along the lines of kind of, oh, every
difference I see, I'm going to call a new species, those are we call those splitters. And the lumpers
are those that say, well, there's variation within a species. We can lump all these together
into one. And it's always a back and forth. And the reality is often somewhere in between.
But yeah, both of those things are happening right now. And that, like I said, it's super exciting.
but it also means it's hard to predict where we're going to end up in terms of like how many species might there end up being.
Yeah, I don't know.
You're doing such a good job of explaining this stuff, Scott.
I love hearing you talk about humans.
All right.
We're going to take a break.
And when we come back, we're going to hear more about how we go ahead and study hominids.
Hi, Kyle.
Could you draw up a quick document with the basic business plan?
just one page as a Google Doc, and send me the link. Thanks.
Hey, just finished drawing up that quick one-page business plan for you.
Here's the link.
But there was no link. There was no business plan.
It's not his fault. I hadn't programmed Kyle to be able to do that yet.
My name is Evan Ratliff. I decided to create Kyle, my AI co-founder, after hearing a lot of stuff like this from OpenAI CEO Sam Aldman.
There's this betting pool for the first year that there's a one-person billion-dollar company, which would have been like unimaginable without AI and now.
will happen. I got to thinking, could I be that one person? I'd made AI agents before for my
award-winning podcast, Shell Game. This season on Shell Game, I'm trying to build a real company
with a real product run by fake people. Oh, hey, Evan. Good to have you join us. I found some really
interesting data on adoption rates for AI agents and small to medium businesses.
Listen to Shell Game on the IHeart Radio app or wherever you get your podcasts.
Hey there. Dr. Jesse Mills here. I'm the
director of the men's clinic at UCLA Health.
And I want to tell you about my new podcast called The Mailroom.
And I'm Jordan, the show's producer.
And like a lot of guys, I haven't been to the doctor in many years.
I'll be asking the questions we probably should be asking, but aren't.
Because guys usually don't go to the doctor unless a piece of their face is hanging off
or they've broken a bone.
Depends which bone.
Well, that's true.
Every week, we're breaking down the unique world of men's health, from testosterone and fitness
to diets and fertility and things that happen in the best.
bedroom. You mean sleep? Yeah, something like that, Jordan. We'll talk science without the jargon and get
you real answers to the stuff you actually wonder about. It's going to be fun, whether you're 27, 97, or somewhere in
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What up y'all? It's your boy, Kev on stage. I want to tell you about my new podcast called Not My Best Moment, where I talk to artists, athletes, entertainers, creators, friends, people I admire who had massive success about their massive failures. What did they mess up on? What is their heartbreak? And what did they learn from it?
I got judged horribly. The judges were like, you're trash. I don't know how you got on the show. Boo. Somebody had tomatoes.
I'm kidding. But if they had tomatoes, they would have thrown the tomatoes.
Let's be honest.
We've all had those moments we'd rather forget.
We bumped our head.
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But this podcast is about that and how we made it through.
So when they sat me down, they were kind of like, we got into the small talk.
And they were just like, so what do you got?
What?
What ideas?
And I was like, oh, no.
What?
Check out Not My Best Moment with me, Kevin on stage, on the Iheart radio app, Apple Podcast, YouTube, or wherever you get your podcast.
On the podcast Health Stuff, we are tackling all the health questions that keep you up at night.
Yes, I'm Dr. Priyanka Wally, a double board certified physician.
And I'm Hurricane Dibolu, a comedian and someone who once Googled,
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On Health Stuff, we're talking about health in a different way.
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So tune in.
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And we're back.
And we're back. Scott was telling us that there's maybe 20 hominids, but who knows where that number is going to be in the next decades.
So let's go ahead and talk about how we study these.
So first of all, you know, you mentioned that a lot of these species are found in Africa, but that there's not a lot of fossils.
Like, what kind of conditions do you need to get a fossil in the first place?
Yeah.
I mean, when you think about what has to happen for a fossil to be not only formed but also, like, found, it's kind of amazing that we have any.
I mean, first of all, like, when something dies, right, a lot of times what happens is it gets eaten, it gets chewed up, it gets, you know, broken down, destroyed in some way either immediately upon death.
I mean, if something gets eaten, right, you know, if you go to East Africa today and go on.
on a safari and you see the big animals, big predators and, you know, scavengers that live
out there. It's amazing that any bones have made it at all up until today. So first of all,
when that individual died, it had to not have its bones destroyed. But then later, something had to
preserve them. So one of the places that I've been very fortunate to spend some time is a place
in Tanzania called Olduvai Gorge.
And this is a very famous site in the history of, like, our study of human evolution
because a lot of hominid fossils have been found there.
And I co-teach a field course there with my colleague here at Rice University, Manuel
Dominguez-Rodrigo, and he oversees excavations of fossils at Olduvai Gorge.
So we take students there, and, you know, it's incredible because you walk around,
and in this one particular gorge, it's like a canyon, right?
There's literally fossils just strewn about on the ground.
Wow.
And so it's a perfect example of like how if you get the ideal conditions, fossils can actually be common.
This is one of the few places in the world where the conditions were really ideal.
And what I mean by that is, first of all, it was a place where a lot of animals and hominids, it turns out, gathered together.
And the reason is that between, you know, about 1.8 million years ago and a million or so years ago, this area was a, it was a lake. It was a shallow lake. And so, of course, like a waterhole, we all know that's a good place to go to find wildlife. And, you know, hominids would have gone there for water as well. And maybe also for hunting, it turns out. So there's a lot of species there. And then when those individuals died, it turns out that the second thing that is ideal about it is that.
that there are these volcanoes nearby, and these volcanoes will spew out ash periodically
when they erupt, and that ash can bury all of the things in the area, including the
bodies of anything that had recently died, and that then can basically preserve them.
And basically what happens is they go through a process in which all of the kind of organic,
all the carbon-based chemicals in our body.
get gradually converted into minerals, basically into rock, right?
I mean, that's what a fossil is.
It's a rock that has the same, you know, shape as bone or other structures.
And so you had the perfect conditions for preserving all of this there.
And then the third thing, which is really remarkable, is that now you have today a river
running through that area.
And, of course, that caused erosion.
And then the erosion means that the layers that have the fossils are actually
exposed at the surface. Wow. So all of those things kind of all have to take place in order for
a fossil to not only be formed, but also to be accessible. Why can't we develop some sort of
technology that looks into the ground to see if there's a fossil there? Yeah, I know. I was telling,
I said my colleague Manuel Dominguez Rodrigo, every time I'm in the field with him, I'm just so
amazed by how patient he and his team are because they're showing us all of the ways that they
do these excavations. They're so meticulous.
and careful documenting every, you know, millimeter, literally.
And then they're slowly chipping away at the edge of this canyon.
And we're looking at the canyon.
I'm going like, Manuel, what's in there?
Like, aren't you dying to find out what's in there?
And he's like, I mean, yeah, of course.
Like, I don't know how you avoid the temptation to just kind of hack away at it.
But we know that you have to be careful when you do these excavations.
Well, actually, let's put a finer point on that because this is something that I see people
misunderstanding online, you know, when they're impatient.
about excavations all over the place. Why do you have to be so careful? Why can't you just
take a bulldozer and find a bunch of cool fossils? Actually, it's a really good point to discuss
because, you know, there have been times in the past when that is what people have done.
And there still are certain situations in which people still do that today. The problem is,
sure, you might find, well, first of all, you might destroy the fossils in the process of excavating.
That's a real risk. But the second thing is, even if you find them, a lot of what we can learn
about a fossil comes from the exact situation in which it was found. So you can hand me a fossil
bone and I might be able to like tell you some things about it or more to the point. I can hand it
to Manuel and he will tell you some things about it. But you know, we can get a lot more information
by saying, oh yeah, but this fossil was found together with maybe this stone tool or with these
other fossils or maybe there were multiple individuals together in this place. That starts to tell us
something about the, like, social interactions among these individuals.
And they've literally found carcasses of animals with stone tool cut marks on the bones,
and the stone tools are still there.
Like, it's just, it's insane, right?
So cool.
So cool.
So, you can learn so much about what people or hominids were doing at the time by understanding
the exact context in which these were found.
So if you destroy that, you've lost the opportunity to learn anything that we can learn.
And if you rush through your excavation, then you're sort of using it up for future generations where people might develop better technology, less invasive, or understand there's questions that they want to ask that we can no longer ask because people excavated using technique X instead of technique Y.
Yeah. And that's actually something that, you know, archaeologists and paleontologists today recognize and part of their sort of standard practice is to always keep a section that is not excavated and think that might be really interesting, but to preserve it for future generations.
under the assumption, as you said, that, like, at some point in the future, people are going to have
other ways of studying this that we don't have today and we don't want to, you know, cause them to
miss out on that opportunity. So why can't we, like, put a thumper on the surface and, like,
gather a bunch of data and feed it into AI and have it tell us, like, here are all the fossils.
Yeah. So I think there have been some developments along those lines. They can use things like
ground penetrating radar to, like, look underground and try to get some sense of what's there. And you
might be able to find some large things that way, but to find, you know, some of the fossils that
they pull out of these sites are incredibly tiny. And so, you know, I think part of it is just
the resolution of these technologies. And the other thing I think is that, you know, keep in mind,
the fossil is rock. Yeah. And you're looking for one rock embedded within a bunch of other rocks.
So, like, you know, I don't know much about the specifics of how the technology works, but I'm guessing
that just being able to differentiate between those two types of things.
is probably really hard.
Yeah.
You're looking for a needle in a needle stack.
Basically.
How many hominid species has man well found in there?
Well, they have found a few, but, you know, in Olduvigorge generally, there are three
species that are known from the fossil record from that particular site.
And it's actually the place where two of them were first discovered.
So the very first hominid fossil founded Olduvai Gorge was found by Mary Leakey, along with
her husband, Louis Leakey.
They were sort of the pioneers of looking for human hominid fossils.
in that site. And they found one that they called Zing. Z-I-N-J was the nickname. It was short for
Zing Anthropos Boisii is the species. And the genus name has been revised since those days.
It's now known as Paranthropus Boisii. But that was a really big deal. And that's a good
example of a hominid that we think was on a branch that didn't eventually lead to us.
There's, you know, like I said, there's debate among folks in this field about exactly what the shape of that family tree looked like and which species led to which other species, et cetera.
But they were pretty different from us.
They were more sort of like large-bodied, very thick jaw.
They looked like they were eating like grasses or other very, like, fibrous foods that are really hard to break down.
So their skull is quite different from the species that we think are the ones that eventually led to us.
Another species that was first found in Olduvai Gorge is homo habilis.
So this is now in the genus Homo, right?
And so this is something that is certainly more close to Homo sapiens, but still pretty distinct from us.
And in part, it's based on like the size of the head, which of course is, you know, an indication of the size of the brain.
So we talked before about like walking upright being one of the big transitions that took place.
The other major one, I mean, there were a lot, but the other major one was the,
expansion of the brain and therefore the expansion of the skull. And so, in part, our genus
homo is defined by the size of the skull. But we also see within species of homo kind of more and more
expansion of the brain, which, you know, is at least correlated with intelligence. Intelligence is
famously hard to define, hard to measure. It's not, you know, brain size isn't a perfect measurement
of intelligence by any means. But at least in looking at the history of human evolution,
we do think that with a larger brain, generally speaking, you start to see more intelligence
and more sophisticated types of behaviors. It is amazing that we have any fossils given how
hard it is to arrange all those things to happen just the right way. Don't you worry that you're
looking at an unusual, unrepresentative sample of the ancient population because you know
that it doesn't happen evenly everywhere.
For example, if future humans only studied, like, current physics professors, I wouldn't
want them to extrapolate, you know, the whole population based on a few of us.
Don't you worry about that?
And how big a sample are we talking about, like, how many different individuals have we found
fossils of?
Yeah, that's a really good point.
So you've got the small sample size problem.
Anytime you're dealing with fossils, right, you're going to, like I said, it's so hard to, you
know, even have them be preserved, much less find them.
So what often happens is, you know, somebody finds something and it's the first of that kind, right?
And then that makes it hard to draw too many conclusions because we don't know, you know, how representative it was.
But what has fortunately happened in the last, I would say, you know, sort of 50 years or so, especially in the last few decades, is we've found more and more examples of the same, what people generally accept as being the same species.
And like I said, there's some debate about it.
Is this the same? Is this not where you draw the line? But there's some exception. Some of the earliest
species are only known from a few specimens. But as you get more and more recent, as you get to
something like, for example, Homo erectus, that's a really interesting species because we know that
the earliest Homo erectus were found in Africa. But then you start to see Homo erectus popping up in
the Middle East, in parts of Europe, and in parts of Asia and Southeast Asia. In fact, the first one was found
on the island of Java and what is today Indonesia.
So that was the very first member of our lineage,
the very first hominid to leave Africa
and spread out across a lot of the world.
So there's a lot now of fossils of Homo erectus.
Is that like a hundred or a thousand, a million?
How many are we talking about?
Not a million.
I don't know the exact count,
but I would hazard a guess that we're talking about, you know,
hundreds, something like that.
Wow.
And, you know, some of these are very fragmentary.
So you might only have one bone, right?
And in other cases, you'll have part of a skull.
But kind of putting it all together, we have a very good sense of what the entire body looked like.
That's the other thing, right?
It's like you might only have a tiny piece of something and you have to figure out how much information can you get about the entire individual, much less the entire species, from that one little fragment.
In some cases, we can learn a lot.
But, you know, it certainly helps to have more and more pieces of that puzzle.
Can we talk about time frame a little? So I think you said that the split between chimpanzees and humans was like six to seven million years ago. And then you were talking about Manuel's study site. And I never remember the name of the place. So I'm just going to say Manuel's study site. That was 1 million to 1.8 million years ago. What is the like earliest date when there were other hominids around? And this question is going to lead into whether or not we can get DNA out of any of these.
Yeah. Yeah. That's really important question. So yeah. So yeah.
You know, you start to see, let's see, I think Lucy's species that's Australopithecus aphyrinsus
is around three and a half million years ago.
So there you have an example of a species that is definitely walking upright on two feet
very much like us.
We even have footprints.
This is incredible.
There's a site in Tanzania near Olduvigorge where there are preserved footprints where
I mean, it really is, like basically like perfect conditions.
The volcano, one of those volcanoes erupted.
there was ash all over the ground, and then it rained.
So then you have like a wet cement situation, and then some of these individuals walked through
that area, and the ash hardened, and then that was preserved.
So we could actually retrace their exact gate.
You know, the kind of, like, if you go to get fitted for, like, running shoes or something,
they'll go and they'll, like, analyze your gate, like, how long are your strides?
Where are you kind of putting pressure on your foot, and they'll give you the right shoe
to kind of help with your specific gate.
They can do those types of reconstructions
on the gate of Australopithecus aphyrinsus
at three and a half million years ago
because of these tracks.
Incredible.
So cool.
Can they tell if they had to like drag a screaming toddler along or something?
Well, actually.
So there is...
Prehistoric Cheerios were dropped.
There is an indication of older individuals
and younger individuals in some cases.
And we have now also found fossils
of individuals of different ages
for some of these species.
So we're starting to fill in a little bit
of what the kind of, you know,
what does childhood look like for homo erectus
and things like that?
But, you know, the other thing I was going to say
is so for that species,
for Lucy's species,
Australopithecus aphyrinsus,
they were walking upright like us,
but they didn't have a big brain like us yet.
So we're starting to sort of see pieces
that we know walking upright happened first.
So by three and a half million years ago,
you had people walking around
in much the same way that we walk around,
but they didn't have a brain
nearly the size of ours.
It was more of a chimpanzee
brain. So we assume that means most aspects of complex human behavior, language, art, social
dynamics wouldn't have yet been in place. Now, there's a lot of, you know, guesswork that has to be
done. But that's the best guess for that. So you don't get the, you know, the very enlarged brain
happening until just the last couple of million years. And it's, it keeps increasing over the last
two million years. And this is super interesting because you also want to know, well, why? Why did
we become more intelligent at this particular time? Right. And one of the things that is
fascinating is that the time at which our brain started to really shoot up in size coincides with
the time in which the climate in East Africa was very volatile. Like it was, you know, swinging wildly
from, you know, hot and wet to cold and dry, and it kept changing in a much faster way than
it had previously. And so there's this idea that those wild fluctuations in climate led to
uncertainty, right? And you had to kind of keep adapting, adjusting, but maybe in a way that
evolution itself can't keep up with, right? So you can't adapt through natural selection when
the environment is constantly changing. Rather, maybe a better way to do it is to do it is to
develop intelligence that allows you to be more adaptable yourself, to be able to use your
intelligence to work together as a cooperative society to try to solve problems like
finding food, finding water, protecting yourself from enemies. So there's this idea that that
climate being kind of going through these wild changes might have driven the intelligence
of our ancestors. So that leads nicely into a question we have from listener Jesse. And so here's
the question, if there is a physical and or sociological advantage to becoming an upright tool
using intelligent species, would the same advantages apply to the rise of an intelligent alien
species on another habitable planet? And if physical characteristics are essential for becoming an
intelligent species, must they then be more human-like? Surely we could have limbs grown out of our
heads or otherwise. Okay, so I feel like that kind of ties into what is needed to become an
intelligent species. And this is also a question for Daniel, who thinks a lot about aliens.
Well, you know, I love this question for a lot of reasons. One of which is I'm teaching a
class right now on astrobiologies, and we're asking exactly these kinds of questions and talking
about them with our students, like how much can we use the history of life on Earth to think
about what might have already happened on other planets and to think about what could happen
in the future on other planets and other worlds and different lineages of life. And so, you know,
I think there is this idea, at least, that some species on Earth would have become as intelligent as we are.
That's one way of thinking about it, that, like, it happened to be us because, you know, the asteroid hit the Earth and killed the dinosaurs and it ended up being mammals, but maybe we could have had a super intelligent dinosaur slash bird or something like that.
That's, that's, like, one argument that has been made that, like, somebody was going to become super smart, and it happened to be us.
there's another argument that like it doesn't have to happen at all and the conditions had to really just be just right. And in that way of thinking about it, you know, we happen to be at the right place at the right time and have the right kind of combination of traits already in existence that allowed us to sort of evolve through natural selection to be able to, you know, basically solve problems in one particular way.
And that way appears to have been through the use of language and collective problem solving and social, you know, complex social interactions that we know how to manage. And that's kind of a uniquely human way of solving the problems of, you know, adjusting to this extreme environment. So, you know, I tend to kind of lean more that way that like we got lucky, you know, like it didn't have to happen this way. And while, you know, that has implications for understanding our origins.
I also do think it has implications for thinking about what could happen elsewhere, right?
So it doesn't necessarily mean that there has to be intelligent life elsewhere.
But maybe if the conditions are just right and there are species elsewhere that happen to have the conditions that are necessary and be at the right place and the right time, then that might happen for them too.
I think it's really important to try to tell these stories and try to understand our history.
but something I struggle with is knowing how to test these ideas.
Like, it sounds compelling, but, you know, there could be another idea that explains
that there could be another factor.
Usually in science, you don't just tell a compelling story that describes you,
did you try to predict something that happens and say, well, here's a prediction I can use
to test this theory versus that theory.
Are aliens the way we can do that?
You build a model for how intelligence develops, and then you can apply it to some new
data set where you're like, I predict intelligence on this planet, or I predict no
intelligence on this planet? Or is this just an impossible standard because we're talking about
things in the deep past and things that move very slowly? Yeah, no, I think it's a really good,
really good point. And you're right that we always want to be able to back up our assertions with
data. And so otherwise, it's a nice story, but, you know, there's no way to know that that's
the correct interpretation. So one of the problems we have with the study of human evolution is that
as far as we know, it only happened once. And so, you know, even if we could reconstruct the exact
sequence of events that led to us, it still doesn't tell us how generalizable that is. It still
doesn't tell us how likely it was. We can say that it did happen, but we can't necessarily know,
well, if you change X, Y, and Z, would it have played out that same way again? So, I mean,
there are ways to do simulations, right? There are ways to run experiments with other organisms, you know,
that aren't humans that we can try to recreate certain conditions, but it's not quite the same. So I think
Part of this is the inherent problem we have of, you know, human evolution happened once.
There's only one lineage of hominids, although if there were multiple species living in the same place,
that does allow us to ask some questions about the differences that existed between them.
And, you know, maybe someday we'll know why our lineage is the one that survived and not any of the others that very well could have.
All right.
Let's take a break.
And when we get back, we'll take a question from Alberto about whether,
or not, our hominid species has, let's say, mixed our genetic information with some of the other
hominid species in our early history.
Hi, Kyle.
Could you draw up a quick document with the basic business plan?
Just one page as a Google Doc and send me the link.
Thanks.
Hey, just finished drawing up that quick one-page business plan for you.
Here's the link.
But there was no link.
there was no business plan.
It's not his fault.
I hadn't programmed Kyle to be able to do that yet.
My name is Evan Ratliff.
I decided to create Kyle, my AI co-founder,
after hearing a lot of stuff like this
from OpenAI CEO Sam Aldman.
There's this betting pool for the first year
that there's a one-person, a billion-dollar company,
which would have been like unimaginable without AI
and now will happen.
I got to thinking, could I be that one person?
I'd made AI agents before
for my award-winning podcast, Shell Game.
This season on Shell Game, I'm trying to build a real company with a real product run by fake people.
Oh, hey, Evan.
Good to have you join us.
I found some really interesting data on adoption rates for AI agents and small to medium businesses.
Listen to Shell Game on the IHeart Radio app or wherever you get your podcasts.
Hey there, Dr. Jesse Mills here.
I'm the director of the men's clinic at UCLA Health.
And I want to tell you about my new podcast called The Mailroom.
And I'm Jordan, the show's producer.
And like a lot of guys, I haven't been to the doctor in many years.
I'll be asking the questions we probably should be asking, but aren't.
Because guys usually don't go to the doctor unless a piece of their face is hanging off or they've broken a bone.
Depends which bone.
Well, that's true.
Every week, we're breaking down the unique world of men's health, from testosterone and fitness to diets and fertility and things that happen in the bedroom.
You mean sleep?
Yeah, something like that, Jordan.
We'll talk science without the jargon and get you really.
real answers to the stuff you actually wonder about.
It's going to be fun, whether you're 27, 97, or somewhere in between.
Men's Health is about more than six packs and supplements.
It's about energy, confidence, and connection.
We don't just want you to live longer.
We want you to live better.
So check out the mailroom on the IHeart Radio app, Apple Podcasts, or wherever you get your favorite shows.
What up, y'all?
It's your boy, Kevin on stage.
I want to tell you about my new podcast called Not My Best Month.
where I talk to artists, athletes, entertainers, creators, friends,
people I admire who had massive success about their massive failures.
What did they mess up on?
What is their heartbreak?
And what did they learn from it?
I got judged horribly.
The judges were like, you're trash.
I don't know how you got on the show.
Boo, somebody had tomatoes.
I'm kidding.
But if they had tomatoes, they would have thrown the tomatoes.
Let's be honest.
We've all had those moments we'd rather forget.
We bumped our head.
We made a mistake.
The deal fell through.
were embarrassed, we failed.
But this podcast is about that and how we made it through.
So when they sat me down, they were kind of like, we got into the small talk,
and they were just like, so what do you got?
What? What ideas?
And I was like, oh, no.
What?
Check out Not My Best Moment with me, Kevin on stage on the Iheart radio app, Apple Podcast, YouTube,
or wherever you get your podcast.
On the podcast health stuff, we are tackling all the health questions that keep you up at night.
Yes, I'm Dr. Priyank.
Kuali, a double board certified physician.
And I'm Hurricane Dibolu, a comedian and someone who once Googled,
Do I Have Scurvy at 3 a.m?
On health stuff, we're talking about health in a different way.
It's not only about what we can do to improve our health,
but also what our health says about us and the way we're living.
Like our episode where we look at diabetes.
In the United States, I mean, 50% of Americans are pre-diabetic.
How preventable is type 2?
Extremely.
or our in-depth analysis of how incredible mangoes are.
Oh, it's hard to explain to the rest of the world.
Like, your mangoes are fine because mangoes are incredible,
but, like, you don't even know.
You don't know.
You don't know.
It's going to be a fun ride.
So tune in.
Listen to Health Stuff on the IHeart Radio app, Apple Podcasts,
or wherever you get your podcasts.
And we're back, and let's start with a question from Alberto.
All right, so Alberto asked,
I recently learned about another hominin branch called Dnesevans.
Would you be willing to share more information about them?
Are there modern humans that share their DNA?
And I'll add, I think, Neanderthals, we also share some DNA with them.
So, yeah, tell us about our species doing the hanky-panky with some others.
Yeah, I mean, this is one.
example of some of the just absolutely incredible work that has happened in the last few decades that's
really kind of given us a much, much more complete picture of our ancestors and how we got here, but also
like a much, much more, I would say interesting, a much more complex version of the story. So yeah,
so what happened with the Denisovans, this is a discovery that took place in 2008 in a cave called
Denise of a Cave in the Altae Mountains of Siberia. And what was found was,
a part of a finger and a tooth. So not much. Not much to go by. But because this cave is a place
that is pretty cold and dry, that turns out to be pretty good for preserving DNA. And in this case,
they were able to actually extract and sequence the entire genome of the individual that was found
just based on this tiny little fragment of bone and teeth. So this is bone and teeth, not fossils,
just to be clear. So it was in a state that was, I guess, partially fossilized, and so there was still
organic material in there, and so they were able to actually get enough of it. And, you know,
part of what happens with looking at ancient DNA is you can still have some DNA present,
but if it's broken up enough, if it's degraded enough, then you can't necessarily make much sense out
of it. So this was both preserved and intact enough for them to actually sequence the entire genome.
That was published in 2010, and basically what they determined is that this is a new type of hominid,
and they were similar to Neanderthals, because we also have DNA, in fact, complete genomes from Neanderthals that had already been published.
And so this is basically a branch of our family tree that is similar to Neanderthals, and yet distinct enough that they're kind of considered a separate,
separate type of hominid. And I'm not using the term species because there's debates about is it
actually different species? Is it, you know, the same species as us? What we do know is by looking at
the DNA of these denisivans is that we actually still have some of the DNA from denisivins in people
living today. And so yes, we know that our ancestor, I say us as homo sapiens, modern humans, that
At some point in the past, and actually, we now know this happened multiple times in the past,
that there were episodes in which our ancestors, Homo sapiens, mated and had children with denisivans.
And not only that, but that that led to a child, and that child was, you know, cared for and nurtured
and survived itself to be an adult and to go on and have its own kids.
So I think it's useful to point that out, right?
It's not just people talk about, oh, we made it with, you know, Denise Evans, yes, and had kids with them.
And those kids were, you know, presumably loved, right?
I mean, we all know that kids require a lot of care, certainly when they're young.
And so somebody, you know, cared enough for those kids to nurture them and they survived.
And eventually some of their genes have ended up in us.
So it's not a lot of their genes.
And so the highest percentages are like 5% denisivans.
So you can have individuals alive today who like 5% of their genes.
So these are like the parts of our genome that like, you know, the DNA is coding for a protein that does something in the body.
About 5% of that could be traced back to denisivin DNA.
Wow.
I'm intrigued by your use of the word us and denisivins.
Like aren't we the denisivans?
Aren't we all just descendants of all these people?
Yeah, exactly.
And so I think we're starting to come around to thinking about it exactly that way. At least I am, right? So when we say that we, you know, we made it with them, we had kids with them, like, that gives you a sense of like, how did people at the time think about them, right? Like, I'm fascinated by imagining what that world was like, what that interaction was like. And obviously, we don't know any of the details about how the interaction took place. You know, was it consensual or not? Who knows? But we do know that a child was consistent.
received and that child was cared for. And that does, I think, tell us something. I mean,
I've read Clan of the Cave Bear. Yeah, that's right. I mean, that's exactly, exactly.
So there have been a lot of hominids. We argue about how many species there have been. But now there's
only us. And so what happened to the rest of them? Did they breed with us and they're still
with us today? Did they die off? What happened? Yeah. So, I mean, you can think in some sense that
like Denisovins and Neanderthals, because we have some, you know, Neanderthal DNA in a
today as well. In a sense, they're still here. And as Daniel said, they are us, right? I mean,
if we have their DNA, then why do we say that they're extinct? I think the thing is that,
like, now we have enough fossil evidence. And we found more fossil evidence, by the way,
for Denisovins. So what I was talking about is the initial discovery. We have now found
more fossils, including a very intact skull that has a fascinating backstory. And so we're
starting to know more about what physical features they had. We do know a ton about the
physical features of Neanderthals, which lived more in Europe and Central Asia and Western Asia.
And so they had physical features that are different enough from people living today that, you know, for the most part, what people say is, you know, wouldn't pass the subway test, right?
Which is to say that, like, you know, if a Neanderthal or Genisovan were, you know, about to board a subway in New York or any city, for that matter, you know, would someone look twice.
That says a lot because New York City has some weird people on the subway.
Well, exactly.
I think it's, you know, that's why the subway test sort of rings true.
It's like people are willing to accept a whole wide diversity of humanity as just being totally normal.
But the Neanderthals, if a Neanderthal boarded the subway, you might look twice, you know.
So in that sense, it's like, well, humans that look like that aren't around today, but they did leave a legacy.
I mean, they left the legacy in our DNA.
And there's interesting examples of, like, particular genes, traits, things that, you know, happen in our bodies that we can actually trace back to Neanderthals and Denisovins in some cases.
Amazing.
But what happens to the, okay, so forget Denisovins and Neanderthals, the rest of them.
Where did they go?
Yeah.
So in the case of other hominid species, partly we don't know whether any of their DNA has survived in modern humans.
because they lived long enough ago that we haven't been able to get any intact DNA from those fossils
in order to be able to, like, understand their genetics.
So it's possible that some of those older ones, like, you know, homo erectus, for example, you know,
there might be homo erectus genes in us today, and we just don't know because we haven't been
able to look at a homo erectus genome.
But in other cases, there's certainly lineages of hominids that we don't think left any descendants
that are still alive today.
So, yeah, there's a big question of like, why us and not them, right? And there have been debates about did our ancestors kill them? Did we just out-compete them? We were smarter. We were faster. We were better at working together, you know. And so, you know, the short answer is we don't know. That's an ongoing debate. But I think the fascinating part that we now do have a better insight into from looking at Neanderthals and Denisovans is that part of the answer is we mixed with them. We, we
interbred with them. And as you said, we are them in a sense, and they are us. And there's still
with us in some way. And maybe that was what happened further back as well. And we won't know
until we're able to hopefully someday get some DNA or protein, some other kind of, you know,
molecular evidence that would allow us to answer some of those questions. And so as we look back in time,
how far back would you consider our ancestors to be modern humans, the kinds of people who would
get on the subway or could just like be plopped into modern society, grow up in our schools,
and become a totally normal person. Yeah. So it's hard to say where we draw that line. But I mean,
one way to do it is to say our species homo sapiens as we currently define it. Right. So, you know,
paleoanthropologists who study human evolution, they give a name, a species name to every fossil
that they find or every, you know, piece of fossil that they can get a genome from. And so only those,
those that are given the name Homo sapiens are technically our species, as we currently consider it.
So the way you could answer that is how old is our species Homo sapiens?
And the answer is, yet again, that people debate this, but it's between 200,000 and 300,000 years old.
So that's kind of the brackets on when are the earliest fossils that some people attribute to Homo sapiens.
So somewhere in the 200 to 300,000-year-old range, which, again,
I always say, like, to me, that's so recent.
Like, our species is so new to this planet.
That's yesterday in the perspective of evolutionary biology.
But just to underscore that, you're saying,
if you took a baby from a quarter million years ago
and time traveled them into the future
and were raised by a normal human family,
they would be indistinguishable.
Well, there are some ways in which anthropologists
distinguish between what they call archaic homo sapiens
and what they call anatomically modern homo sapiens.
These are getting into, like, what I would consider to be pretty, like, nuanced anatomical
differences in, you know, skull shape and which features are slightly larger in these types
of things.
So this is the sort of splitting hairs part of doing this kind of science that, you know,
can be challenging when you start to get into, like, reading the research papers.
But, you know, it's still homo sapiens.
So as far as I'm concerned, like, I, I,
I think, you know, there's interesting, certainly, questions to ask about, like, well, what changes were taking place.
Certainly, there must have been some differences, even if it's cultural differences between the people living then and the people living today.
But anatomically, physically, right?
Like, if you look at the skull of an early homo sapiens and the skull of somebody from today, they're very similar.
I mean, they're very, very much like us.
You'd have a beer with them.
I would, yeah.
I also feel like Daniel's question is like laid in with his assumption about what makes people human.
Could they survive today in our modern era?
And I think plenty of people would argue that's not the important thing about humans.
It's, you know, maybe social behavior or language or chins.
One of our listeners said chins and I don't understand the chin thing.
The chin thing is super interesting because it's one of the few physical features you can see in the fossils that distinguish homo sapiens from other species.
We are the only hominid that has a chin.
So what did the chin do for us?
I don't think anybody really has given a satisfying answer to that one.
It seems to be an example of a trait that comes about through evolution maybe just randomly and persist.
It doesn't – not all the traits have to have an adaptive value.
It doesn't always have to be useful for something.
They can just come about.
But I do like my chin, so I'm glad we have them.
I like mine too.
All right.
That was fantastic, Scott.
Thank you so much for telling us all about ancient humans.
But you're not just interested in ancient humans.
You're interested in, like, ancient human evolution and future human evolution.
So tell us about your upcoming book.
Yeah, well, I, you know, I've been interested in, like, the idea that humans are still evolving for quite some time, right?
So my first book published in 2016 was called Future Humans Inside the Science of Our Continuing Evolution.
And that's all about the ways in which, you know, natural selection and other evolutionary processes have continued.
until today. But then more recently, I've been exploring this one particular possibility for our
evolutionary future, and that is what would happen if some of us left Earth and created settlements on
other planets, something that you have also thought quite a bit about, Kelly. I know we've had
lots of conversations about the idea of space settlement, and it's been super fun. I love our parallel
careers. Your ants and space, and I'm parasites and space, and we're both in like an evolutionary
an ecology sort of track and a space future of humans in space track. And anyway, it's always
fun talking to you. I guess that tells us that there's a lot of ways to get to space, huh?
That's right. And so, yeah, I mean, so basically, yeah, I've spent the last several years doing a
deep dive into this question of, you know, if at some point people are successful in creating
space settlements, what would that mean for the people living in those space settlements? Like,
what would happen to the descendants of those first pioneers, those first settlers on, you know, Mars or anywhere else for that matter? You know, questions like, could a baby born on Mars come back to Earth? And, you know, would people gradually adapt to the conditions on that planet? And would they eventually become a new species of human? So, yeah, so the book is called Becoming Martian, how living in space will change our bodies
and mines. And it comes out February 17th of 2026. So I'm super excited. And it's actually already available for pre-order if folks want to get a copy. And I got to read it. And I can say that it's amazing. And it starts with a foreword by astronaut Scott Kelly, which is an amazing. The weiner smiths didn't snag an astronaut forward. So Bravo. Not that the weiner smiths are, you know, a bar against which anyone should judge themselves. But I was pretty excited you got an astronaut forward. Well, thank you. No, I was too. That was a real, uh, uh,
wonderful thing that Scott Kelly agreed to contribute a forward. But you and Zach actually helped
tremendously with this book, both in terms of sharing ideas and notes and reading, you know, draft
copies and support all along the way. So super appreciate it. Our pleasure. Yay, space. And
yay, Scott. Okay. So everyone should pick up Becoming Martian and we'll see you on the next episode.
Thanks, everyone. Thanks for having me on again.
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