StarTalk Radio - The Power of Adaptability with Herman Pontzer
Episode Date: July 25, 2025What’s the science of what makes humans special? Neil deGrasse Tyson, Chuck Nice, and Gary O’Reilly explore how we evolved to be different from eachother, what's up with Neanderthal DNA, and human...ity's superpower with evolutionary anthropologist, Herman Pontzer.NOTE: StarTalk+ Patrons can listen to this entire episode commercial-free here: https://startalkmedia.com/show/the-power-of-adaptability-with-herman-pontzer/Thanks to our Patrons PMC, Nannette Bartels, Dawn Dudzinski, Bernd Hendricks, crobarian, jobe, Malik, Christopher Jones, Jason Antone, Sean G, Hunky DOrk, Soumik Das, Wayne Arnold, Elizabeth, Rajan Thankurdesai, Wesley Westandorf, Philip Heller, james Liggett, Steve Lustig, Tan, Jimmy Golightly, Juniel Lugo, Patrick Hill, Tan Ngyuyen, kirenia, Flynn Dockery, Gabor Kalman, Roger L Chamorro, PlanetJomo, Rees Jones, Stacy Ford, t, Ash, Cesar Moya, Jacob, Jacob Kelley, Raymond Daigneault, Tyler Fleck, Tatiana Corleto, Paulo Dutra, Ryan Parish, Nic D., JKW, Allison Bergseng, Thomas Jones, Amelia Joselow, Austin Blair, Christian lara, Eric Bayer, Christopher Martin, David Gavrin, UntraProGamerNL, Vance Uribe, Marissa, K.D., Collin Wolfert, and Stephen Mueller for supporting us this week. Subscribe to SiriusXM Podcasts+ to listen to new episodes of StarTalk Radio ad-free and a whole week early.Start a free trial now on Apple Podcasts or by visiting siriusxm.com/podcastsplus.
Transcript
Discussion (0)
Wow, I feel like I more deeply understand who I am in this world.
It's the way it goes.
As a biological entity.
I feel like I more deeply understand Neanderthal sex.
Some perspectives on the origin of who and what we are coming up on Special Edition.
Welcome to StarTalk. are coming up on Special Edition.
Welcome to StarTalk, your place in the universe where science and pop culture collide.
StarTalk begins right now.
This is StarTalk Special Edition.
Today, we're gonna be talking about the human condition
that is center line to what Star Talk's special edition
is all about.
And of course, if it's special edition,
it means we've got Gary O'Reilly.
Hey, Neil.
All right, Gary.
Yep.
Former soccer pro.
Yes.
And of course, Chuck Nice.
Hey, what's happening?
So, Gary, tell me about the human condition and what's going to happen today. All right, I suppose in the court, Chuck Nice, Chuckie Baby. Hey, what's happening? So, Gary, tell me about the human condition
and what's gonna happen today.
All right, I suppose in many ways
this is the specialist edition
because we are talking about the science
behind the things that make us different,
that make us special,
and that as a species makes us adaptable.
So what makes us special,
you mean which makes our species special? Yeah. Among all species of us adaptable. So what makes us special, you mean, which makes our species special?
Yeah.
Among all species of life on Earth.
Mm-hmm.
I mean, humans have survived and thrived
in just about every location, every climate on Earth,
well, so far that is, things are changing.
This adaptability has seen the human form
take many different body shape, sizes,
blood types, and skin colors.
Yet, with all this uniqueness, we are 99.9% similar in our DNA.
So 999.
Nine years.
Yes, it's even more than 99.9.
Go ahead.
OK.
Now seems like a good time to understand a little more
about the diversity, and our diversity,
and adaptability
through the lens of evolution and biology.
So if you would introduce our guest.
I will.
This is an old friend of mine.
Yeah.
Who left town some years ago before COVID.
We hadn't heard back from him.
Well, maybe he wasn't as good a friend as you thought.
He thought.
I'm thinking it, you're saying it.
Professor Herman Puncer, welcome back to Star Talk, dude.
Hey, thanks for having me back.
So the last time you were here was like early COVID.
EC. EC.
EC, early COVID.
And all I remember is that you talked about
zebra testicles, that's all I remember.
It left an impression, that's good, that's good.
You'll have to dig that one up out of the archives.
So right now you're a professor
of evolutionary anthropology.
Ooh. I love that.
That's great.
Ooh, ooh.
And global health at the Duke University's
Global Health Institute.
You got your work cut out for you, too.
I can tell you that right now.
Yeah, it's a strange time to be in academia
and public health. There's a funny intersection at the moment. Yeah, it's a strange time to be in academia and public health is a funny intersection at the moment.
Yeah, yeah. Exactly, okay.
And you're a recognized researcher in human energetics.
I love it.
Human energetics and of course evolution,
which is fundamental to that.
Author of a 2022 book, Burn, and in 2025, Adaptable,
Burn and in 2025, Adaptable,
How Your Unique Body Really Works and Why Biology Unites Us.
Ooh.
Cool.
Penguin Random House.
Yeah.
Interesting title.
Oh yeah.
So let me just say, you left town
and you didn't tell me you left town.
Cause you used to be right here.
Were you at NYU?
Where were you?
I was at Hunter College in the Grad Center.
Here in New York City.
That's right, that's right.
And coming over across town to hang out at the AM&H
occasionally with some of our mutual friends.
Yeah, yeah, yeah.
We're here in my office now at AM&H,
American Museum of Natural History,
for those who just tuned in.
So, can we think of our adaptability
as some kind of superpower,
distinguishing us from all other animals on Earth?
Because I've thought long and hard,
what is special about, we can't fly, we don't run fast,
almost everything that would kill us in the wild
is because the other creature is better at it than we are.
So to think of our adaptability as a unique feature
of being human, I gotta hear more from you on that.
And by the way, what are we doing here,
seeing as though every other animal
is better at something than we are?
Right.
How did we get here?
They got sharper teeth.
They got better eyesight.
They run faster.
They can take to the skies.
They can swim.
They can breathe water.
Like, what the hell?
Breathe water.
Yeah.
In the pantheon of superheroes, like, you know.
We suck.
Yeah.
Yeah, you know, we're the superhero that can,
we're the shifters, you know,
the change, the shape shifters, right?
We can be successful anywhere on the planet
because we've got this crazy kind of dual inheritance
that we talk about.
We have all these cultural things that we inherit
from generation to generation
about how to survive in different environments.
We've got this body that's very,
we might be generalists in a lot of ways, right?
We're good at a lot of different things.
Maybe we're not as good at sprinting as some animals,
as good at climbing,
but we can kind of do it all fairly well.
And we end up getting everywhere across the entire planet.
Think of another species, I don't know if you could,
that's been as successful in as many climates.
Wait, wait, wait, Herman,
the bacteria in your gut are traveling with you.
That's true.
They are as peripatetic.
That's true, and the mitochondria in our cells are all along the way as well. Right, there you go. That's a. They're as pericretetic. That's true. And the mitochondria in our cells are as long as the right as well.
Right.
There you go.
This was smart bacteria.
They knew what, what.
Who to bet on.
Who to bet.
Well, you know, I wanted to call the book protein robot because I like to think of us
as like these kind of damp RVs trundling along the earth, right?
With all of our microbiome on board like passengers with us.
Damp RV. Damn. that sounds hard to clean. Yeah
I'm not writing that over right
But you say in this subtitle of your book why our biology unites us
So where does that what are we to make of that subtitle? Yeah
Well, so I don't know of any other species that has a sort of adaptability range that we do, right?
Everything from the ways that we learn
how to make a living growing up,
because we have these different cultures
that help us adapt to different environments,
to our physical characteristics
that are a little bit different across the globe
in different ways, often as a sort of local adaptation
to different contexts.
Skin colors are a great example of that.
Body proportions are another example of that.
And so we are, all of us, expressions
of this sort of shared common superpower
that our species has, right?
That adaptability is actually the expression of this,
the diversity is the expression of the adaptability.
And so, you know, I think rather than thinking about it
as dividing us, it actually is showing our common origins
in the way.
Yeah, I'm just going to let you know,
you keep talking about diversity
and some people are going to come after you, buddy.
Well, you know, I meant, I wanted to write this book,
when I was writing this book, okay, it was 2022, 2023.
And I thought, well, maybe this whole discussion about,
you know, maybe the sort of universe-wide discussion about diversity
and all those debates are going to be passe
by the time the book's out.
And it turns out, no,
we're still very much talking about all this stuff.
And so I'm glad it came out when it did.
I think the goal is to have it be this sort of common ground.
I want people to understand how the bodies work,
why we're all different, how diversity happens, and have it be this sort of common ground. I want people to understand how the bodies work, why we're all different, how diversity happens,
and have it be a kind of common ground
that we can talk about these kind of big,
often polarizing ideas and discussions
with a common set of facts, common evidence base.
You have your work cut out ahead of you
because everything you're saying that unites us,
our culture uses to divide us.
So you got some work cut out to you to change the definition of diversity in that way.
Just letting you know.
So Herman, is there such a thing as a textbook average human?
And what are the dangers if we start to perpetuate such a thought process?
Yeah. So no, there's not, right?
Wait, wait, wait, wait, wait, wait, wait.
Arithmeticly, there has to be an average.
So your question should have asked,
is there a normal person?
Well, what's normal?
Right, exactly, that's a different thing.
There's always an average.
You can always take an average.
Oh, but here's what I would say about that, Neil.
To push back a little is, and to agree with Gary, which I'm not sure
if that's a good idea yet or not.
You don't have permission to agree with Gary
and disagree with me.
We'll see, we've still got a way to go.
Yeah.
My introduction to human diversity,
well, I began an undergraduate in my coursework,
but my actual physical hands-on introduction to this
was dissecting a human, right?
Ooh, you did that?
Yeah, we were in medical school.
I didn't go to medical school, but I took the
medical school gross anatomy class at Harvard.
And so it was me and 50 aspiring doctors, you
know, disassembling a person on these big
dissection tables.
And every day you show up and you get your tools
out of little case and you start taking a person
apart and, you know, three months and 160 pounds of human later,
you've seen everything.
I know a couple of guys in Staten Island
who do that for different reasons.
Yeah.
Yeah.
But do they pay attention to the nuanced differences?
That's what I want to know.
But what you finally, you know,
what you learn very quickly and the reason, you know,
you might think like, why do we bother doing this?
It's kind of a old fashioned way to do science
or to learn medicine.
But the reason you do it is that you immediately learn
that the branching of arteries through your torso
as it comes out from your aorta
and starts to feed all your organs,
that set of branch, that pattern of branching
is not the same for everybody.
And in fact, often you find a branching pattern
in the person that you're dissecting
that doesn't match any of the variants shown
in your dissecting text, right?
And the nerves are the same way.
And you know, that's just the stuff you can see
with your naked eyes, right?
Our diversity is down to the core.
And so I would say, if you think about,
if you think about like a parts list for humans, right?
Maybe it's, I'd be curious to think about this,
but maybe it's 30,000 different parts
that all kind of come together to make you up.
I would bet that just in the same way
that there's like never been a perfect March Madness bracket,
there is no human that all the pieces
match a textbook disctor piece for piece
because you might be right,
you might be similar to the disector on 99% of them,
but there's 1% where you differ,
it'll be a different 1% that I differ, et cetera, et cetera.
So the mathematical way to say what you just did
is whatever average you might obtain,
it's not useful because the variance is so high
on that average.
Because think about it, I mean, right? You can say an average and you look for someone
who matches the average and no one does
because everyone is scattered around
to the left and right of the average on the chart.
So, okay, not with you on that.
How should that inform us on a sociological level?
Yeah, so once you start to appreciate how diversity, us on a sociological level. Yeah.
So once you start to appreciate how diversity, what
it looks like, that it's sort of multi-dimensional,
it's not just, for example, skin color in this country
is historically used to divide us right
into different categories.
And if you're black or you're white,
you're thought about you're in this category or that category.
If you really understand human diversity, you realize that there are sort of subtle
differences across all these different modalities, you know, in terms of the way our cardiovascular
systems work, digestive systems, skin, of course, sure, nervous systems, all of it.
There aren't sort of neat categories that we can box people into.
And I think it forces us to kind of see diversity
the way that it is, which is, again,
this sort of individualized expression of these common
forces, right?
So it's an expression of our humanness, right?
Rather than, oh, you're in this box, and I'm in this box,
and we can kind of caricature it and pretend
that we know something about you just because we put you
in this particular box.
That's not actually how the body works
or how diversity works.
So to that point, I read a pretty cool paper
out of, I forget which part of Harvard,
but was the basis for the predicate,
there's no such thing as race.
And that race is a completely manufactured construct.
And it was based on what you just said,
that which is there's no box in which you can put
enough people to say, this is what white is,
or this is what black is.
But the thing that I didn't really understand
was how the scientists from Korea had more in common with
one of the scientists from the Netherlands than one of the other scientists from the
Netherlands on the biological level.
Like that was part of it.
Yeah.
Oh, okay.
Yeah.
So, I mean, it depends on what they're measuring, if they're measuring genetic differences or
that kind of thing.
But take this, and here's a kind of toy example,
but it's a real biological phenomenon, blood types.
Okay?
ABO blood type, right?
So I don't know if you know if you're type A or type B
or type O, whatever it is.
All of us in this, the four of us sitting here
might have all the same blood type, right?
Maybe we're all type A.
And that would mean that we have the same genetic variant. And in that way, in
that particular locus, that gene, we're all more similar to each
other than other people who have type B blood. All right, so in
that measure, we're all a group, and we're all different from
somebody else. We go by skin color, the amount of melanin in
our skin, right? Well, there's differences in that, right? Who
has more melanin, who doesn't have as much melanin.
And that might break us down differently.
So there's an unlimited number of boxes that you could-
Exactly, and not only that,
but there aren't even hard edges on the boxes.
Because if you look at something like skin color,
in this country, we often put people
into sort of black or white,
but of course, skin color is everything in between too.
Right, so especially if you look globally, there's no,
you get everything pretty dark
because you have a lot of melanin in your skin,
it's too very light because you have very little,
and there's everything in between,
so there's no hard edge where you say,
okay, now I've stopped this category
and I'm into that category.
And of course, President Obama could have
legitimately been declared as a white president
because he's exactly half white.
But by his European mother, right?
But instead we call him a black president,
because he's exactly half black.
So in one of my books I forgot,
which he imagined him running for president
in an African country.
As the white guy.
As the white guy.
That's hilarious.
Oh no.
That is so funny. Yeah.
I mean, historically it's even crazier.
Like there were people who, you know, groups who now
we consider as sort of obviously white in the U.S.,
people from Ireland, people from Italy,
who in late 1800s would have been considered black.
Yeah.
Yeah.
They weren't white until the powers that be
that are, because it's a socially constructed power move to make these groups white until the powers that be that are, because it's a socially constructed
power move to make these groups, until the powers that be decided that they were in the
white group, that they became white.
Until they felt outnumbered.
Yeah.
They were like, we need some help.
How'd you guys like to be white? I'm Brian Futterman and I support Star Talk on Patreon.
This is Star Talk with Neil deGrasse Tyson. So, Herman, if we look at the latitudes here on Earth, how have humans adapted in terms
of their biology to survive at these different latitudes?
Yeah, so that brings up an important point to start with, which is that a lot of the
variation that we see in head shape, size, all the different physical characteristics
we see, this is all
the rage in the late 1800s was how long versus how wide your head was.
Oh, phrenology.
Oh, yeah, yeah, yeah.
Yeah, if you were dulicocephalic or brachiocephalic or all these things.
Yeah, I remember that.
So almost all of those kind of variations are just noise and slosh and genetic mutation
that's tolerated because there's no strong selection to get rid of it.
Right?
So a lot of the variation that we see, the superficial variation, a lot of that is just
sort of tolerated noise.
Now that said, there are cases where you have a strong enough selection pressure that's
localized and strong enough and long lasting for generations and generations that you get
local adaptation to a particular circumstance,
a particular pressure.
So latitude's a great one.
So.
I have to clarify something here.
Correct me if I'm wrong, Herman.
When you say adaptation,
you mean those who don't have the variation die
so they don't propagate their genes.
So no organism adapts.
You're talking about the ensemble statistics
of a generation where only some that happen
to have the variation walk through the prosinium
into this next world where they can survive better.
Yeah, I just add to that that you can,
one way to sort of lose that game is to die.
The other way to lose that game is to not have any kids.
Right.
Or not have as many as your neighbor.
You don't send your DNA into the future.
Right.
Yeah.
Gotcha.
Gotcha.
Okay.
Pick it up.
Sorry.
So latitude is a great example of a pressure that's stable over time.
You know, the earth has been spinning on the same, you know, the equator has
been the equator for a long, long time.
And it's been hot at the equator for a long, long time and colder towards the
poles.
And so that heat differential, for example, has shaped body size and proportions.
We see populations near the equator that are, on average, tend to be taller, thinner.
Populations near the poles tend to be a bit stockier and heavier.
And that's because you want to get rid of heat if you're in a hot environment at the equator all the time.
You want to hold onto your heat
if you are towards the poles.
So the physics of that, I think we have an explainer on it,
where if you are rounder, you are better insulated
against losing heat, because how are you going to lose heat?
Through your skin, basically.
So the more round you are. Yeah, and if you ever see a pigeon in the winter,
they puff up, they're very round.
Or cats, when they, cats do the same thing.
They make themselves round.
When they're cold.
And we do that too, we'll bring our arms in.
But the fur and the feathers come up
and they trap a layer of air.
That helps too, yeah.
But they also try to round themselves.
Whereas in the summer, the cat is all esplajao
on the pavement.
That's so true.
And it's so funny, when you look at lions,
they lay stretched.
But when your cat is cold, and they're very similar,
they wrap up.
So, okay.
So I just want to make sure the listener got the physics
of what you just implied there.
Absolutely.
Yeah.
Yeah, I got it.
So there's a fun field story there,
a piece of my research that's kind of touched on this
in a way I wasn't expecting.
We do research in Northern Kenya.
There's a population there, they're called the Dasnitch.
They live with their goats and camels and cattle.
It's a pastoralist group, they like the Maasai.
You might've heard of the Maasai.
It's a similar kind of population.
And we started work there in 2017,
and we were talking to one of the NGOs,
the charities that had set up shop
in this little village called Illorette.
It was this German charity.
We're talking to the head of the charity,
and because we wanted to get a sort of
health and nutrition research project started,
we thought we should talk to people who have been doing health and nutrition
sort of outreach.
And he said, oh, it's terrible.
It's terrible here.
Everybody, all the kids, 70% of the kids are malnourished here.
And we thought, oh my gosh, that is really, that is terrible.
And so we kind of thought about that and kept that in our minds.
And as we're kind of visiting that village and the surrounding villages, it doesn't square,
though, with what we're seeing.
These kids don't look malnourished.
These kids are running around, happy, laughing.
Families are big.
People look healthy.
We thought if they say that they're malnourished, then that's important to know, but that seems
counterintuitive based on just interacting with this population. Fast forward a couple years, we've got ourselves a big data set on
thousands of children who've been measured from the day they're born every few months to the time
they're five or six years old. And what you can see when you look at these kids' heights and weights is
that they're born around the same size as all the other kids in the world.
And then their weight starts to fall off a little bit, but their height grows fast.
So by the time they're three, four years old, kids in this population are taller than three
or four-year-olds in most of the rest of the world because they have been adapted.
That population has been adapted to be tall and thin.
And so this German charity was looking at the ratio of weight, which was the same as
everywhere else, maybe a little bit low, to height, which was tall because they were adapted
to be tall, that ratio looked bad.
It made them look malnourished, too thin, too light for their height.
They're just skinny.
They're just skinny, but they're built, they're actually, they are built to be skinny.
So once again, there's a European bias
brought into Africa to pass judgment on who's there.
Yeah, well, I mean.
That'll be us.
And these are folks that.
So had the Kenyan anthropologists gone to Germany,
they would say, y'all some fat ass folk.
Right, too much brats.
Yeah.
Too many brats, guys.
Gotta cut back. I. But I mean,
it's, you know, it even goes further because the, you know, the folks from
Nairobi who I was working with, those folks from Nairobi aren't part of that
ethnic group. They don't share that same, you know, to the same extent, that same
kind of tall thin body build. Right. And so I'm actually more similar to my
Nairobi colleagues, even though our skin colors are different on that dimension,
than either of us are to this northern Kenyan population that's tall and thin. actually more similar to my Nairobi colleagues, even though our skin colors are different on that dimension,
than either of us are to this northern Kenyan population
that's tall and thin.
So like the whole, to even begin by using
the kind of American racial categorization
to try to make sense of what's going on there,
you're sunk from the beginning.
It's folly.
Yeah.
Isn't there an example of adaptability
with people in the Andes?
And then, across in the Himalayas, they're living at a similar altitude, but one of them
will suffer altitude sickness, one of them won't.
Why?
Yeah.
What's up with that?
Yeah. Yeah. So, people, humans have gone into the high altitude parts of the world. Three
big examples of this. The Ethiopian Plateau and those populations aren't well
studied so we don't know a whole lot about that physiology.
The Himalaya, right, Tibetan Nepal, and that's been well studied.
We know a lot about that.
And the Andes in South America.
These are all independent evolutionary forays into high altitude.
And the problem is you don't have any oxygen up there. The air is still 21% oxygen,
but the air pressure is so low
that there just aren't as many molecules
of oxygen available for you to get into your bloodstream.
And so everybody's oxygen star
up at these high, high altitudes.
And so there've been independent evolutionary changes,
adaptations to this same,
this real challenge of getting enough oxygen.
In the Himalayas, there is an allele that helps determine how much red blood cells you make. So,
okay, let me back up. Red blood cells are the cell that carries oxygen. You need that. And they have
a tough job at altitude because there isn't enough oxygen to go around. And so what most people do, most populations do at altitude,
you make a lot more red blood cells, your body responds to the oxygen debt by
making more red blood cells. And that's good for a while, but it makes your blood
thicker and can lead to altitude sickness. And we still see a lot of altitude
sickness in the Andes, for example. They haven't kind of, their bodies haven't
figured out how to deal with that. In the Himalaya, they don't have this issue of altitude
sickness. Why not? Because of the allele that has been gone to fixation is
completely the norm, the norm genetic variant in the Himalaya that helps them
deal with oxygen debt without over producing red blood cells. They produce
enough to get to keep the oxygen going,
but not over produce it and get sick.
They also have bigger lungs, they have a bigger spleen,
which is this reserved red blood cell tank
that we all carry around.
So there's a whole bunch of adaptations that go to try to get enough oxygen in.
So where do the Neanderthals fit into that particular scenario in the Himalayas?
Yeah, I wondered if you wanted to go there.
So...
Let's do it!
Let's do it.
Let's do it.
Call them out.
So the first thing you have to understand is that humans
historically have slept with anything that they encounter.
Don't look at me and say that.
And so humans, right, homo sapiens,
we evolve in Africa about 300,000 years ago.
And as we sort of become so successful, so adaptable,
our superpower at full display, we get into Europe,
we interact with Neanderthals there, what do we do?
We add mix with them, to use the sterile scientific term,
and we have children.
And we can still see the genetic evidence of that today.
But a quick question, I have to slip in there.
You said 300,000 years ago we come out of Africa,
get into Europe and add mix with the Neanderthal
implies Neanderthals either left Africa earlier
or evolved as Neanderthal in Europe.
Yes.
Now we know from DNA testing that pure Africans
have zero Neanderthal DNA.
So there must have been some deep European origins
of the Neanderthal, is that correct?
Yeah, that's right.
Whether it's deeply in Europe or sort of into the Near East
is much debated, but yeah, it's outside of Africa.
So humans and Neanderthals, of course,
have a common ancestor about 600,000 years ago.
Those two branches go their separate ways,
ours in Africa, theirs in the Near East and Europe,
and at some point they become what we would consider
to be the Neanderthal gene pool.
And when our branch comes back in
and intersects with them again,
we have these matings and this admixture.
And so we are fertile with each other
because we have the same common ancestor, even though wexture. And so we are fertile with each other
because we have the same common ancestor.
Even though we're many, many years.
That's right, and it's such a recent one.
Down from the line.
And an interesting fact that I discovered
in my own work for Starry Messenger, that book,
was we grew up with the archetype
of this stupid backward Neanderthal.
Yeah, they're the caveman that knows nothing.
That never stopped dragging its knuckles.
Then we find out that black Africans
have no Neanderthal blood, yet there's admixtures
in current European white people.
And only then did papers, research papers,
start saying how creative and inventive
Neanderthals were.
There was a complete shift in the early 1990s.
Herman, am I right here?
Herman, talk to me, Herman.
Yeah, I mean, that's one retelling.
I think that's pretty, that's fair to the history
of what happened there.
I think there was already a re-imagining
of what Neanderthals were like before that.
But I take the point.
Even Gary Larson was full in on the backward Neanderthal.
Not to mention the Geico guys.
Yeah.
Yeah.
I would say that populations outside of Africa
all have a little bit of Neanderthal in them
because as we kind of get out of Africa into the Near East
and those matings happen,
those genes kind of get washed to every population
that's kind of downstream of that, right?
So Asians, Native Americans will all have a little bit
of Neanderthal in them leftover from that kind of
crossing event that happens in the Near East and Europe.
That makes sense because it's, you know,
those were the crossroads.
All those areas outside of Africa
were actually the crossroads for human travel.
So it kind of makes sense, yeah.
So there's this great example of another kind of discovery
from ancient genome, but by the way,
all of this is mind blowing stuff.
It is from DNA that we've gotten out of fossils, right?
Which is sort of, that's mind blowing to me.
Very Jurassic Park.
Completely, completely.
And we discovered a whole new species of human ancestor,
or human relative, I should say,
that's Neanderthal-like in Asia called the Denisovans.
Oh, I've heard about that.
No, I've heard about that.
I didn't know anything about that.
So the Denisovans, were they contemporary
with the Neanderthal?
Yeah, that's right, that's right.
Kind of Denisovans go one way,
humans and Neanderthals the other way,
and then Neanderthals and humans split a little bit later.
So they're even a kind of more distant relative
of us in a way.
So just, I'd like, because I'd like it knowing,
what's the etymology of Neanderthal
and the etymology of Denisovans?
Denisovans.
So Neanderthals are so named
because those initial fossils was found in the Neander Valley
and in German, valley is tall.
So it's Neanderthal.
Oh.
And that's why it's Neanderthal and not Neanderthal
because T-H-A-L is tall in German.
That's if you want to get pedantic.
This is America, we pronounce it how we want. That's if you want to get pedantic. Which don't we all want to do.
This is America, we pronounce it how we want.
That's right, that's right, that's fair.
And then, don't encourage him.
Don't encourage me.
Shh.
And then Denisovans are found that the site is,
the original site is Denisova.
It's a Denisova cave in Siberia somewhere, I believe.
Mm, okay.
Yeah, and they had just a couple finger bones
and those aren't really diagnostic.
You can't figure out what species it is just from the bone,
from the morphology, the shape of the bones,
but they drilled into it, got the DNA out
and go, holy, this is a whole other group.
This isn't Neanderthals and it's not Homo sapiens.
It's something else.
And that was the discovery that there is this, you know, unappreciated
species that we didn't even know about. So they got the DNA from the bone marrow?
Any of your bone material will have cells in it. So yeah, that's not just the
marrow, but any of it. Why does DNA last that long? It's a pretty delicate
molecule, isn't it? It doesn't last kind of fully intact. So your DNA, if you
stretch it, if you stretch it,
if you took all the DNA in your body
and you stretched it out, you'd be dead.
That's the first thing you should know.
But second of all, it would get to like the moon and back
or something like that, all your DNA stretched out.
Then we've discovered not only is there this other species
of human relative, but there's evidence
of mating with them as well.
So it wasn't just Neanderthals, it was also Denisovans.
And then you find out that this gene variant that has been so key to the success of Himalayan
groups, where did it come from?
It came from Denisovans.
Wow.
So, you know, so there were these mating events with Denisovans. That gene variant ends up in the human gene pool sloshed around.
Doesn't give you any advantage at sea level, you know.
Only when those populations begin to go up at high altitude does it turn out,
oh, by the way, that variant's actually really good at high altitude.
And then it becomes the variant that everybody has
because of the selective process of, selective process of reproduction and survival.
So let me ask you this, just for the sake of people
being able to visualize what we're talking about,
because it seems like you're talking about
different species, but what I'd like is,
if you were to take pictures of our DNA
and superimpose them, what would that look like
and how alike or different will we be?
Between us and the recent ancestors.
So Denisovans, Neanderthal, Homo sapien,
and then you take those pictures,
you kind of superimpose them, what would it look like?
Yeah, so this is exactly what we do
when we get the genetics to begin with,
we're trying to make sense of it.
The best way to picture it is like a tree, right?
So imagine a tree where all the branches are very hard and clustered very tightly around the crown.
That is the entirety of the human species over here. And then there's a branch that comes off real low and
ends up over here somewhere.
That's the Neanderthal
branch. And then it's like you discovered, oh my gosh, I didn't look closely
enough. There's a branch that's even lower and goes out even a bit further, and
that's the Denisovan branch. Okay. Right? And so if you were to overlay the A's,
T's, C's, and G's of the genome on top of each other, you'd find they're very, very
similar. All of those individuals, you have to really compare them
at thousands and thousands of base pairs
to sort of see that clustering,
just because all mammals are pretty similar,
all primates are real similar, you know?
And so all these human ancestors and relatives
are real similar too.
Take me back to when we went from grunts
to articulate speech.
Oh, that's an amazing... What's up with that? That's very hard to know for sure. Take me back to when we went from grunts to articulate speech.
Oh, that's an amazing.
What's up with that?
That's very hard to know for sure.
Stop!
Stop!
Stop!
Stop!
Stop!
Stop!
Stop!
Stop!
You got Morgan Freeman on me.
What happened for us to have grunt versus speech?
Oh yeah, so the anatomy of that is pretty well known.
The anatomy of the vocal tract, for example, has changed, which allows us to have this
sort of two-compartment vocal tract, right?
So your larynx is down here real low, and that gives you a vertical component to sort
of shape the frequencies that come out of your lungs as you make noise.
And then you have this horizontal component from your mouth, and those get shaped differently
and give you all the A-E-I-O-U sounds.
So we know the anatomy of speech very well.
When that evolved, right, that is really hard to know for sure.
And in fact, I don't think anybody knows for sure.
Well, we know it had to be at least
when homo sapiens made it with Neanderthals,
because somebody had to say,
hey girl, what's happening?
What's happening?
Bring your fine ass on over to this cave right here.
Let me holler at you.
Thank you, Chuck, for reenacting.
It's like we were there.
Yeah, it's almost like we were there, yeah. they say time travel is not possible, but I don't know
Okay, so wait so but I heard that our ability to form sounds as you articulately described the two-dimensionality
the frequency and volume and texture of the of our
vocalizations that this was a genetic defect, if you will,
from whatever was going on in the grunting community.
There was some genetic alteration that changed it.
So wait, we all share this mutation?
Yeah, it's a mutation.
It's a mutation.
Everybody else was like,
oh, oh, oh, and then somebody was just like,
oh dear, you're so gush.
My God.
Exactly.
What is it?
I mean, seriously, is this how we're going to communicate?
So we don't want to think of speech as a mutation.
We want to think of it as an adaptation.
Maybe there's no difference.
Yeah, we want it to be a feature, not a bug.
A feature, exactly.
All adaptations start off as mutations.
Ooh!
Ah, there's another T-shirt.
So, you know, natural selection
is the survival of the fittest,
but mutation is the arrival of the fittest.
Ooh!
Mic drop!
Yo, that is dope! Oh, another t-shirt. We're in the moment.
The arrival of the fittest.
You need variation, you need mutations for natural selection.
You just go, oh, yep, that's the one that's going to work here.
And that one's not, right?
If there's no variation, if there's no mutation, there's no way for natural selection to happen. Let's look at this situation of adaption, of our environment.
Adaptation.
Yeah, the adaptation.
You said adaption, that's not a word.
I did.
I know, I'm making them up as I go along.
And you're embarrassing your fellow Brits.
It's our bloody language, but use it as we wish.
Okay.
You're sitting next to me, you are not uttering adaption.
Oh, man, I'll see you after class, sir.
Okay, go.
Go. You're sitting next to me, you are not uttering adaption.
Oh man, I'll see you after class, sir.
Okay, go.
So our adaption is being forced to speed up because of the environments we're being pushed
into, out of rural farming, into town cities, and cities in particular.
At a rapid rate, that is.
Yeah, at a rapid rate.
But are we now being mismatched?
Are we being confronted with circumstances that,
you know, this body is a vote for this environment,
not that environment?
I think the proof is already evident that we are mismatched.
And I think it's more not the,
I'm sorry, Herman, I'm answering the question.
No, no, no, no, Herman's got an answer for this.
Chuck, I do this sometimes.
But I think it's more not the circumstance,
but technology and the circumstance together.
So for instance, in disease, we have diseases now
which are chronic and major,
but how long ago were they not, Herman?
Oh, that's, yeah, so the populations I live with,
hunter-gatherer groups and even farming groups that I work with today,
they are heart disease free, diabetes free.
So the things that we're gonna die from,
they're protected against.
Of course, the flip side is the things
that we're protected against
because of antibiotics and vaccines,
that kind of stuff, really gets them.
But you know, these lifestyle diseases
were only an issue in the last couple hundred years.
Herman, if they're an isolated community,
that means there are no outside viruses, bacteria,
other ailments that could influence them
until they meet someone from the outside such as yourself.
So how many indigenous people have you killed?
With your-
Yeah.
That's a lovely question, Neil.
I really appreciate you bringing that up.
See, at least he's blamed you and not the British.
Because normally I am go-to for that.
We're done blaming you guys.
It's time to blame somebody else here.
So that question raises the point
that I think people get wrong all the time, which is people think that any human population is ever isolated. That's never the case, right?
I mean, there are always interactions, there's always gene flow and people flow and migration and movement.
So there are no isolated groups anymore. Even these groups that we work with who are hunting and gathering or farming,
it isn't that they don't interact with people who aren't, it's just that they like to keep their old ways.
They're basically the Pennsylvania Dutch of Africa.
That's exactly it actually.
That's exactly what it's like.
They live in a world that they interact with people
all the time, but they prefer to keep their own culture.
So you raise this issue about accelerated adaptation.
It's the brain, man, because we have,
our brains are born unfinished, right?
We learn, we've created this entire cultural inheritance that we each inherit and learn,
you know, it takes you 15, 20 years to learn it all. So you could be a proper adult, a
functioning adult. And so we have all this, you know, and that cultural evolution can
happen much faster than our biological evolution can.
So we have these two parallel tracks happening all the time. It's a really fun thing about humans.
There was a study done in comparison on back in the day when there were bus drivers and conductors on board.
And the health of the driver as opposed to the conductor,
even though they go to the same place,
they travel together all the time.
They breathe the same air.
They breathe the same air, they see the same people.
One is sedentary, the other is obviously mobile,
stamping tickets and checking up and down
on the levels of the bus.
These are situations now that we have not really
been involved to have a sedentary lifestyle.
You talk about the hunter-gatherers in Africa.
So what are the overall health implications for modern health now that we're finding
ourselves mismatched with?
Yeah, that was a seminal study in the 1950s showing that the drivers who sat all day ended
up getting heart attacks at a kind of scary rate.
Their buddies who were walking up and down the aisles
didn't, didn't, where they had healthy hearts.
And so that was one of the early clues
that physical activity, daily physical activity
is absolutely essential for keeping your heart healthy.
Well, why is that?
Well, because we've evolved for hundreds of thousands
of years in our
active lifestyle. That's the way our bodies are built. So, yeah, that's the sort of lifestyle
our bodies expect.
So you've got paleo diets. There's no way we're going back to a paleolithic lifestyle.
No.
So what's our answer here?
Well, so the London Busted is a great example, right? Because you have the benefits of activity
without having to, you know, cause play as a neanderthal or something like that. You can,
it's an example of how you can have physical activity in your daily life.
You know, you guys are New Yorkers,
you guys walk around the city and get lots of physical activity.
We meet our step minimum every day.
Right.
And it's not just the steps.
The last study that came out about New Yorkers
who tend to be thinner than most other places
in the country, it's the pace at which New Yorkers walk
as well.
New Yorkers tend to walk much faster than any other place.
So the two together, the fact that they walk everywhere
and they walk briskly is what makes it.
We're in a hurry even when we don't need to be.
There's a lovely study from the 70s
by this husband and wife team.
They looked at the average walking pace
of people down sidewalks and how big the city was.
They went all over the world to do this.
And the bigger, more denser your city is,
the faster you walk.
Oh, cool.
Okay, that makes sense.
So Herman, the history of anthropology
as applied properly or improperly
on our species or on our populations, anthropology as applied properly or improperly
on our species or on our populations.
In almost every case, led to some legislation,
some laws related to those conclusions,
be it to justify slavery, to be it to limit immigration.
So is there a policy implication that your work
would bring to the front that is either progressive
or regressive in the history of this exercise?
I think it does have big societal sort of implications.
When we think about how the body works
and we have a fluency in how our different systems work,
we use that fluency with how our bodies work
to understand diversity.
I think that absolutely it's going to,
and what it's gonna do is,
it's going to inform how we move ahead from,
the really old school ways of thinking about the body
were very genetic determinists, right?
We move into the 1900s and even recent times
and it's very environmental, you know, it's all nurture
and the nurture nature debate.
And I think we're moving to a third period here
where we're in a personalized era, right?
Whether it's personalized genetics
or it's personalized ways of thinking about my health,
right?
And if we-
Personalized diet even perhaps.
Personalized diet.
And if we leave that discussion
just purely to the influencers
or purely to, you know,
the political class that doesn't have any fluency
in how the body works,
or these sort of old school ideas about
these caricatures about our diversity,
we're going to be in real trouble.
So I think that the book does kind of help inform those
big discussions we're having right now. Look,
whether it's IQ, whether it's sex and gender, whether it's health and vaccines,
whether it's, you know, all of these issues that are right, you know, in front of us today,
they all fundamentally rest on how we understand how our bodies work and how our bodies work
differently.
And so, you know, the book isn't trying to get anybody to, you know, I'm not trying to
make anybody think like I think,
but what I do want to have is people,
a common evidence base for us to have those discussions,
a fluency that we can have these discussions
usefully and meaningfully.
So I think there are silent implications.
I think the way that they shake out are going to be,
hopefully make things better for everybody.
And because of that, I'm cutting your funding.
That's it.
You no longer have a dime.
Yeah, I would laugh harder if it was.
I just say if it wasn't so true.
If it weren't so tragic and true.
So Herman, thank you for returning to Star Talk.
Yes.
Oh my gosh, we miss you.
This was a fun conversation guys, thanks.
We miss you.
You have a unique combination of expertise
that deeply informs what we care about
here on Star Talk Special Edition.
So that means we want to sort of have access to you
further going forward.
Hey, I'm always happy to be your
evolutionary anthropologist on a call, I'm here.
Everybody should have ice ahead.
Yeah, now you say it, I want one.
Dude, delight to speak to you.
Thanks for enlightening us yet again.
Thank you.
All right, and of course, we're all going to look
for your book, Adaptable, How Your Unique Body Really Works
and Why Biology Unites Us.
The word unite is something we need today.
So thank you for being a part of that conversation.
This has been Star Talk, special edition.
Neil deGrasse Tyson here, your personal astrophysicist.
As always, keep looking up. Thanks for watching!