Lex Fridman Podcast - #348 – Nathalie Cabrol: Search for Alien Life
Episode Date: December 19, 2022Nathalie Cabrol is an astrobiologist at the SETI Institute, directing the Carl Sagan Center for the Study of Life in the Universe. Please support this podcast by checking out our sponsors: - True Clas...sic Tees: https://trueclassictees.com/lex and use code LEX to get 25% off - Shopify: https://shopify.com/lex to get free trial - BetterHelp: https://betterhelp.com/lex to get 10% off - Athletic Greens: https://athleticgreens.com/lex to get 1 month of fish oil EPISODE LINKS: Nathalie's Twitter: https://twitter.com/shasta721 SETI's Website: https://seti.org In Her Orbit (article): https://nytimes.com/interactive/2018/03/22/magazine/voyages-nathalie-cabrol-searching-mars-life-on-earth.html PODCAST INFO: Podcast website: https://lexfridman.com/podcast Apple Podcasts: https://apple.co/2lwqZIr Spotify: https://spoti.fi/2nEwCF8 RSS: https://lexfridman.com/feed/podcast/ YouTube Full Episodes: https://youtube.com/lexfridman YouTube Clips: https://youtube.com/lexclips SUPPORT & CONNECT: - Check out the sponsors above, it's the best way to support this podcast - Support on Patreon: https://www.patreon.com/lexfridman - Twitter: https://twitter.com/lexfridman - Instagram: https://www.instagram.com/lexfridman - LinkedIn: https://www.linkedin.com/in/lexfridman - Facebook: https://www.facebook.com/lexfridman - Medium: https://medium.com/@lexfridman OUTLINE: Here's the timestamps for the episode. On some podcast players you should be able to click the timestamp to jump to that time. (00:00) - Introduction (06:47) - Working in extreme environments (11:26) - Water and life on Mars (19:31) - Origin of life (37:00) - Complexity (40:37) - AI (49:23) - Extinction (57:06) - Fermi Paradox (1:10:48) - SETI research (1:13:39) - Diving in volcanic lakes (1:32:57) - Surviving an earthquake on a volcano (1:43:37) - Resilience of life (1:51:31) - Life below the surface of Mars (2:00:26) - Depression (2:04:08) - Mortality
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The following is a conversation with Natalie Cabral, an astrobiologist and scientist at the
SETI Institute, directing the Carl Sagan Center for the Study of Life in the Universe.
She explores some of the harshest places on Earth, including free diving and volcanic
lakes, all in the pursuit of understanding living organisms beyond Earth.
For this, she holds the woman's world record for diving at altitude, both scuba and free
diving.
She's amazing.
And now, a quick few second mention of each sponsor.
Check them out in the description, it's the best way to support this podcast.
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then it looks like in 1960s printed t-shirts game popularity for self-expression as well as for advertisement protest and
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And I just saw it I was somewhere. I think I was in Boston. It was a souvenir shop and I saw that same shirt
But it was all crisp and nice
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But obviously Metallica is a giant band, but I think this applies to even small things like
podcasts and so on.
I'm just a huge fan of podcasts, a huge fan of a lot of things like audiobooks.
I wish there was more merch for the individual audiobooks.
Maybe that's what I'll do.
I'll do like merch for books I have.
You know, like books on tape, but it'll be books on shirt.
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And now dear friends, here's Natalie Kapal. You are the director of the Carl Sagan Center for Research at the SETI Institute. SETI, of course,
stands for Search for Extraterrestrial Intelligence. One of the things you do is part of that is
travel to some of Earth's most extreme and dangerous environments in search of organisms that live in conditions
analogous to those on Mars.
First, let me ask, what the job posting for the work you do
looks like, is it like Shackleton's ad in 1900
that said people wanted for hazardous journey
to the South Pole.
Small wages bit a cold, long months of complete darkness,
constant danger, and also where do I apply?
That's funny, because there was not really a job cold, long months of complete darkness, constant danger, and also where do I apply?
That's funny, because there was not really a job application.
In fact, when you are a scientist, you have questions in your mind, and you have hypotheses
and you start to list the kind of thing you need to answer.
Then when you see the kind of thing you have to answer, then you kind of know the places
where you need to go to do that.
As far as science is concerned, started with analyzing data from Mars missions and I had
written a PhD about water on Mars, first looking at channels and the history evolution of
water. But then, during my postdoc,
I started to look where that water was pounding.
Interestingly enough, everybody was about channels and water
and whether catastrophic or what not or seepage.
But when you are talking about pounding water like lakes or ocean,
people were starting to wave their arms a little bit.
So it was a little bit of a battle,
interesting enough, yeah.
But that got us on track with my husband.
We were working together and we started
developing the idea, the concept of lakes
in impact craters.
So why in impact craters?
Just because the Viking mission at the time, which is what we were working with,
the resolution and the topography were so poor that there was really no way of telling where you had a real low in the topography.
The only thing you knew was a hole in the ground was an impact crater. So when you saw valleys, what was the Viking mission?
The Viking mission landed on Mars in 1976 and there were two lenders and two orbiters.
So they were really our first feet on the ground on Mars, but they were lenders. They were
not moving. They were not going on.
And that was the data you were looking at.
It was already in the 90s, but we didn't have yet the Mars Global Surveyer and whatnot.
We still work for 20 years. We worked on that. I did my master and my PhD thesis on Viking
missions. You mentioned that the places you go to are defined by the questions you want to ask.
Let's just step back. What questions have always talked at your heart?
Well, that's the thing. That's why I was looking at those images and saw some legs.
And then came time where we started talking about sending landers and rovers on Mars, and
looking maybe at the possibility that Mars was habitable. And legs are particularly good
places to look for those questions.
So this is how it all ties up.
So you were always curious about life out there?
I have been always curious about life in the universe and about questions on how we got
to be here and the bigger question.
Now with 25 years, more in that business, it's more about understanding the origin and nature of life rather than whether
there is life or not on Mars. I mean, this was really for me a stepping stone to bigger questions,
but they were definitely important because they helped me frame my way of thinking about
those questions. And so looking at Mars, at lakes,
understanding what the conditions were,
3.5 billion years ago, or close to 4 billion years ago,
then I knew the type of environment I needed
to explore here on Earth as analogous
to be able to understand what type of life
still survives in those environment
and what kind of instrument and what kind of resolution
do I need to actually detect it.
So this is how the whole thing started.
And it started with a small grant, literally 40K.
It was a discretionary fund.
And this is how I got started in my career.
And so many of these questions you can answer
by looking at life and extreme conditions
here on earth. But let's let's step back a little bit and look at Mars and lakes on Mars. Just
going back to your PhD and before and maybe today, what do we understand about life on Mars?
What do we understand about lakes on Mars? Is there water on Mars? What do you understand about the conditions from four billion years ago on Mars?
Well, we've got a long way.
Remember from the Viking where we had no resolution.
Well, we had a little bit more resolution than with Mariner.
What did you think at that time?
Sorry to interrupt you.
It was.
Just take us back to that mindset.
It was really the exploration, like your first look at a planet. You have to remember that the first mission
that successfully snapped some pictures of Mars was Mariner 4. And then everybody at that time
was still under the spell of, you know, edge wells and the idea that Mars looked with telescope
the idea that Mars looked with telescope so similar to the Earth, polar caps. We could see them with a telescope. And we knew it had season. The actual tilt is pretty much the
same as the one for Earth. So when Mariner 4 left, everybody, not everybody, but a lot
of people thought that we were city crystal cities and domes and stuff, that another
civilization might have evolved in parallel to us in
the source system. And of course, when the first
images came back and Mars looked with that kind of
resolution it had, like the moon, it was a huge
disappointment, then Mariner 9 came and that changed
everything. There was a little bit of drama
because Mars started one of the biggest dust storm it ever experienced. And so for three
months we had an orbiter circling around Mars and not seeing anything. But then when the dust cleared, all of a sudden we started discovering volcanoes, valleys,
ancient channels, dune fields, polar caps, and see when I'm talking to you, I don't need
to invent any words to describe Mars.
And although the myth of extraterrestrial civilization on Mars was gone,
all of a sudden, the imagination of the scientists started to pick up,
because right away we're seeing something that was familiar,
that we could describe. So right away, Viking would put on the fast track,
and the idea was, so Mars looks so much like Earth could have been although it's arid and there is little atmosphere, etc.
Could there be life and of course behind this at the time they were people like
Klein and Sagan Carl Sagan
just you know
Thinking about how can we test the idea of
Biology of life on Mars.
So this is what Viking did. But of course, at the time when the two lenders arrived on Mars,
we didn't have the context of the geology of the environment. We didn't have much data at all.
So the data that Viking sent back was very confusing.
Some people still think today that we discovered life on Mars at the time because some of the
experiment turned out to show a strange signal.
But most of the community think that it can be explained by chemical reaction that we see
today.
So it was so confusing that NASA decided, okay, if we want to be serious about looking
for life on Mars,
we have to understand the environment
because life and environment co-evolve.
So as cause or effect, a planet is going to give you
the physical, chemical environment for life to happen.
These are the boundaries, but once life is here,
it's going to change everything.
One of the
biggest impact of life was to inject oxygen into the atmosphere of the year, two-billion years ago,
and that changed everything, including our signature in space. So there is this kind of evolution.
So if you want to understand one, you have to remove the other from the equation, this kind of a two-in-one equation. So even though oxygen changes our signature today,
what if all life on earth died and now we fast forward a billion years,
what would be the traces left? So the question I'm trying to ask is, if life had existed on Mars,
what would be the signs we would look for?
That's a very good question. The thing is that if you draw the parallel with Earth, it took 82% of Earth history,
geological history, to go from very simple life, microbial life, to complexity. And when I'm saying complexity, I'm not even talking about us. I'm talking about animals.
So, Mars is smaller, lost its magnetic field very fast and lost its atmosphere is very fast.
Life also appeared on Earth very fast. So, the condition being quite similar at that time between the Earth and Mars,
it's assumed for a moment that life appeared on Mars. It would have been simple life when conditions started to degrade, which was less than a billion
years after the planet had formed.
So everything at the surface would have disappeared, except maybe for morphological traces of the
interaction between life and this environment. So on Earth, the best example are what we call stromatellites.
These are rock formation that are built by microbes.
So we know that, we know how to recognize them.
You could have chemical traces as well.
There is some interesting question marks right now,
but carbon isotopes at greaterell Crater because we found
an abundance of C12, which normally is used by life on Earth, but it can be produced by other
things. So it's not that it's a real biosignature in itself, but it's intriguing. We have now the
C12 and we have methane. But going back, it's a time on Mars 3.5 billion years ago where you have
lots of distractions, where you have lots of impact cratering, etc. But we still have
very old rocks that are that survive from that time. So these are good places. That's
why we're sending the rovers in those places, ancient lakes and impact craters and places
where you have very old rocks.
So, when you say ancient lakes and impact craters, the simple question, so impact crater is
a crater created by a giant rock hitting the planet.
And yes, a big rock that can be metal or rock or it can be a comet as well, mostly ice.
So, is that good for life or bad for life? For creating life and destroying life.
Both.
It's actually both.
Interestingly enough, the building blocks of life, the bricks, the stuff we are made of,
carbon, hydrogen, oxygen, nitrogen, and phosphorus, they were included on our planet.
They were built in just because our planet is made of
this kind of rocks, asteroids and comets
coming together by what we call a Christian.
So they were built in.
When an asteroid comes, there is a lot of destruction going on.
But at the same time, those rocks, they bring with them,
those bricks of life, and they create lots of energy.
And if the environment around is favorable, you might possibly be have some sitting going on.
That's one of the aspects of what we call pan-spirumia, which is the fact that
comets and asteroids have the building blocks of life
embedded in them, and that given favorable condition they might be able to sit
planets. This is a theory.
What percent of you, when you're looking up at the stars and wondering about the
stuff, thinks that Pennsylvania has is what happened on Mars or on Earth,
which is the building blocks of life came from elsewhere.
Well, but you know, that's the thing.
Pennsylvania is a vector, potential vector, which means that he actually distributes the
stuff of life left and right, but it doesn't explain the origin of life.
It's not the environment itself.
It just promotes maybe, and we still have to prove this. But what
we know is that the stuff we are made of is very abundant all over the place, including
in interstellar medium. So it's all over. It's all over. The idea is that maybe it just
waits to have the proper environment. And we know what it needs here on earth, it needs water, it needs energy,
shelter, and nutrient. So you're fundamentally interested in the origin of life and the big
leaps that in evolutionary history, that could be like an origin of something, origin of Eucharist,
origin of bodhisattva's origin of whatever.
I just think if we're a civilization here on earth and we survive in other few hundred
years, I think it would be a good idea to take a big gun and just shoot life out there,
like a life gun.
Basically, try to create panseparamia.
That's a good backup solution.
So one way is to actually copy our brains
and actual humans, some complex information
and send it out there.
Another way to preserve life is just to like
send the basic building blocks, send them with your bacteria,
a bunch of whatever the rugged organisms are in there,
to send a bunch of those.
These are not the building blocks.
They are actual organisms.
Right, but it's not a nice shortcut or do we want to,
because you said building blocks are everywhere.
Yeah, the bricks of life, the carbon hydrogen, et cetera,
they were produced by the death of prejudice stars.
So this is how they were produced.
And stars like Arson started to form 10 billion years ago.
That doesn't mean that the sun is the only kind of star that produced life or an evolved life.
But actually was produced 10 billion years ago.
Now what you're talking about is a little different.
And right now there are many efforts
to do the type of thing you are talking about,
which is to put our DNA on the moon,
whatever kind of substrate and preserve it
involved, either in different place on Earth or on the moon.
Some people are already thinking about putting DNA on the moon.
As far as brains concern, it's drawing towards transhumanism,
which is the enhancement of what we are through AI and machine learning.
Of course, having backups is a good thing.
For me, I would say that taking care of our planets and going back to a place where we are in equilibrium
with our environment would be also maybe the best backup possible.
And let evolution do its things.
Right now we are like teenagers with enough brain to create cool tools, but we don't have enough
brain to understand yet the consequences of what we are doing.
And right now we are paying for this.
So the question is whether we are going to be able to move forward and learn from the mistakes we are making to become a mature civilization.
You probably heard of the Drake equation that would be the L at the very end the duration which duration of intelligence
Solution exactly and and or at least
The length of time a civilization remains detectable it can disappear from the radar screen literally for a number of reasons the first one is
the radar screen, literally, for a number of reasons. The first one is destroy itself or being destroyed by external events, or it can become so in tune with the universe and so advanced that it
disappears because it melts really in the background, and it's not visible anymore. There are some wild theories there saying that
civilization might be so advanced that you cannot distinguish them from physical processes.
And that was an example. It doesn't say that this is the case, but some people say, imagine that, in fact,
all the dark matter that we see or we theorized about is in fact some sort of a biological process.
So you can think about a number of things.
Personally, I believe that what you talk about about preserving our information is kind of what
life does. We need to look at ourselves as not different of what the little self that started off was.
And this is what tells you not about the origin of life, but in fact the nature of life,
which is a lot more interesting to me because the nature of life is really what is going to give you
some universal signature to look for it all over the place and not only around pounds of water for life as we know it.
But the nature of life is telling you that life wants to get the most information possible around its surroundings
and complexities, in fact, the ability to gather and exchange and preserve the most information possible.
And so what you're saying is kind of preserving the kind of information we have.
So in the things that we're doing, as life happened, and I say happened because we don't
know what life is, we have 123 definitions of life.
And some people are saying, we don't have any definition.
We only have descriptions of life.
And in that's true.
And that's true.
So think about it for two minutes.
We are looking for something we don't know it is.
But we have a few clues about the nature of life.
They are some really good theories.
The first one was Schrodinger, right?
In the 40s. Right now there is a guy named Jeremy England. It's another biophysical theory of
life. It says life is the indivitable result of thermophysics. This is the best way to beat entropy,
to fight entropy. But when you look at what we are doing, if you want to
know what the nature of life is, look at all languages, and they can be very different languages,
but they all have the same purpose, right? Exchange information, understand, you know,
story information, and also whether it is with somebody at the outside,
also whether it is with somebody at the outside or thoughts in yourself.
That's the same thing the cell was doing.
But now when you're looking at life and at the structure of our languages,
life started with a nothing.
So it's a nothing.
They got together to create an organic molecules.
Then you have complex in organic molecules, then you have complex in organic molecules, then you get to organic molecules, complex in organic molecules, and then you have RNA, DNA, etc.
Look at the structure of our language.
We created alphabets, letters.
That's your anthem.
Then we put them together to create syllables, right?
Those syllables get together to create words.
Words tell you something,
but there are nothing without a verb that gives the direction.
That's RNA and DNA.
And then you can put all the compliments you want.
Our languages are built exactly as life is built.
We are repeating patterns. I call this the
Mandelbrot universe and the fractal universe because this is exactly what it is. I would say that
as much as I do believe to sending probes to explore the universe, I say we should also look inward
to find the answer to some of the profound question of who we are, what's
life, what's the nature of life, because we are expressing life.
So searching not for life, but for the nature of life.
The nature of life, absolutely.
I am more interested in that because the day we understand the nature of life, then
we have a universal biosignature, and it doesn't matter whether
this life responds to the same kind of biochemical processes as we do.
Although it makes sense, I told you about the generational aspect of the bricks of life,
the stuff we are made of, the sun is part of the youngest generation of stars. And the first two generation of stars didn't produce the kind of elements we are made of.
They were stars that were either without metal, just made of aluminum and hydrogen, or poor in metals.
So the stars died of and stars like the sun were born from those. And this is why we have
elements like carbon, hydrogen, oxygen that's run now. And that's the life we are built on. So I think
it's not stupid to be looking for something that looks like us, because right now in the
universe, this is the stuff that's the most abundant, and we see with the exoplanets, with Kepler,
with tests, and now with Jamsweb. We see that there are many, many different type of planets that
may be habitable in the habitable zone of their stars. There are countless stars like the Sun, but more interestingly enough, there are other type of stars, where you do have Haberbl life would be around those stars. The biochemistry
might be quite similar, in fact, and especially for the simple life, because simple life starts
really quickly on Earth. So my take on this is that the universe is full of cyanobacteria,
but as far as intelligent life, it takes more time.
So that can take different aspects.
Do you think it's possible that the universe is full of bacteria?
And even those stars that last a thousand times longer than the Sun,
even on the planets that orbit those stars, maybe it's bacteria,
for billions and billions and billions of years.
We actually don't know what triggered the evolution to complexity on Earth.
That's still a big question, Mark.
Is that the most impressive invention on Earth to you?
That Cambrian revolution is really what took us towards what we are.
And in the meantime, they were the dinosaurs, etc.,
the dinosaur we are wiped out.
So the evolution could have taken a completely different turn.
It's always, I would say, mass extinction
that are going to drive what's the end game.
But, yeah, you take two planets and you change,
those asteroid impacts, all those big geological events
that wipe out like 90% of life at any time.
The thing that seemed to be interesting,
there are two things.
The first one is where you are located on our galaxy.
Matters a lot. We actually are in the abelable zone of our galaxy.
And if you are too close to the center, then it's a lot denser. And remember, we have the
odd cloud around our solar system. And if you are in the regionD Cloud around our Solar System.
And if you are in the region of the Galaxy that's too populated, then you are going to run
gravitational interaction with all these stars.
And since it's more dense, you will have more of the comets that are leaving in the
ORD Cloud being ejected from the OR Earth Cloud and coming towards the inner source system
and collide with planets.
So you will have more of these impacts
if you are too close to the center of the galaxy.
Not to mention the radiation.
There is a place in our galaxy
where it's a really bad neighborhood.
You don't want to be there.
You wouldn't be able to have life.
But what really matters is extensions, but also the climate history of a planet has a role to play. And it
seems that it's a theory. It still has to be backed up by more observation, but
there is a good correlation between not only the passage of the
source system towards the center of the galaxy. There is one place where we get hit by asteroid because of the
interaction I was telling you about. But the other one is the climate with the Minan-Kovic cycles.
Big jumps in life's evolution seem to be associated with snowball
earth episodes. We don't know why yet. Snowball episode intuitively would think
that they are connected to a decrease in life because the whole earth is covered in ice. But for some reason,
there were big jumps in evolution right after each of those episodes. And today, there
are other things like why all of a sudden you have mutation that seems to be responsible
for a big jump in evolution. We are not clear yet. So all of the things when you're thinking about life elsewhere
are going to come into play. And I cannot tell you that a planet that remains habitable
for much longer than the earth will have an evolutionary path that's the same or different.
Depends on the extension, depends on climate, depends on what not.
It's a little bit surreal that we're two descendants of apes.
I think that's some people.
Trying to figure out what the heck is going on.
And I mean, we're very biased.
Even as a, so you, we're biased as humans.
You're less biased as a scientist.
But we still love Earth. We still don't know
anything but this Earth. And so even though you try to get escape from thinking of what
life is in the search for the nature of life, we still kind of connected to the way we understand
the nature of life here on Earth.
So I think that it's a little different than that. We are biased when it comes to the origin
of life. Yes. Because, well, we are the only model we know. And as I said, it makes sense because
it seems that a lot of, you know, stars like the Sun appear till billion years ago. And there are lots of words that really resemble
the earth and lots of water out there and lots of conditions that could be a repeat of what we know
and we know that this biochemistry works. So as again, as I mentioned, what is going to change is
really the evolution of a planet extinction, geology, etc. But our model is probably very abundant.
I'm not saying that the end game is going to resemble us
because of all these extensions, etc.
But this is a good bias.
It's one that has the number for it.
You know, the principle of mediocrity.
I think that in that case, it really
applies where the earth is representative of an abundance
of other words.
Now, of course, there can be other biochemistry.
We have some examples in our own source system.
Titan might be a representative of that.
We are not very clear of the kind of biochemistry that can come out
of a world where you have hydrocarbon, lakes and rains and things like that, but we are going
there. So we will learn something about this. So the bias is right there. The nature of life is different. If really life is the best way the universe has to fight entropy, there is no bias there.
Because physics is the same all across the universe, at least the universe we know.
There might be other universes, but the one we know works with the same physics.
So if life is the best way to fight entropy. You can imagine that life permeates
the entire universe. And then the question might change to like flavors of ice cream. What are
the flavors of complexity that this process, this nature of life leads to? And there we might have
bias about what complexity looks like. What beautiful complexity
looks like. We look at humans that operate a certain physical scale and time scale, and
we think this is intelligence.
We have another problem. We don't know what life is. We don't know what intelligence is,
and we don't know what consciousness is. But we are trying to tackle the big question.
But do we know what complexity is, but we are trying to tackle the big question. But do we know what complexity is also?
You know, no, I think that we have to be honest and as a scientist, and I'm going to step
back and talk about intelligence.
For me, bacteria that has survived, like cyanobacteria, that has survived just like us, four billion
years in one incarnation or another,
and actually they are very similar
to the one that they were 3.5 billion years ago.
It has some intelligence about its environment.
So for complexity, it might be
that we need to take the world literally,
which is an assemblage or additional capacity
to gather, collect collect store information.
Maybe this is something like that or actually use that information to do something with
it.
But I do completely agree with you when you talk about flavor of ice cream.
I think this is exactly it.
And I have a basic education about what physics is doing right now. And I'm
look at quantum physics and what it says about the universe and about the
connection about an atom here and an atom here, a photo here and a photo there.
And I am starting to put maybe wrongfully
two and two together, but in my mind,
and of course it's nothing until I can prove it,
but in my mind, the universe is connected everywhere
in all different places.
So this life connection is something that,
as you said, permeate the universe
and the way to find life might be very different
than to look for the origins of life.
I think it's a good thing to go out there
and look for the origin of life somewhere else,
because it's the manifestation of the nature of life
that's all a sudden becomes apparent, evident to our eye.
But what I think would be our greatest achievement is that if we
can find that process of life, because at that point in my mind the universe or the
sudden is going to illuminate itself with actually its living force, what I can only call a living force.
To me, this is what we are looking at.
A universe that becomes more and more complex with time,
more and more able to gather information,
and interestingly enough, why to understand itself.
So, Sagan was right when he was telling,
we are the universe trying to understand itself.
And the more we go, the more the universe becomes alive,
maybe intelligent, and maybe also conscious.
Conscious, self-aware, through us.
It does make me a little bit sad as a human,
just watching other breakthroughs on artificial intelligence side when applied
to natural sciences, now more and more to physics, that the creatures that will solve the
question of the origin of the nature of life or just the process, the nature of life, will
be AI systems. It makes me a bit sad to...
I don't think so. I don't think so.
Because you think humans will.
At this point in time,
remember who was behind AI?
You know, I'm not buying in the singularities thing yet.
AI is not aware.
AI is being built by humans.
So AI is a tool, an extremely smart tool. As long as we build it, and as long as we use it as a tool, it remains a tool.
And I think there is a lot of bruhaha, and of course, the science fiction and movies, they don't help.
Yeah, I got to push back a little bit. Yes, I agree with you for the most part in terms of Boo-haha and sci-fi.
But there is, like in the work of Deep Mind, we can look at chess so we can look at protein
folding.
So, chess is a simple one to first look at.
What Alpha Zero, which is their game playing engine, was able to discover an Al-Stockfish about chess,
humble the best human players.
Not just is better than them.
It comes up with ideas that the humans don't understand.
And so the AI now is telling you,
even though it's programmed by humans,
the AI is saying, like,
sacrificing upon here is
a good idea, sacrificing a queen or a bishop here is a good idea.
And then you start to kind of intuit as a human why, but you don't deeply understand.
And you can say that AI is not conscious, it doesn't deeply understand what humans do,
but there's still a wisdom and a depth of knowledge in that chest-playing program that
humans don't have.
And the same with the alpha-fold, with protein-folding, there's another applying it to physics to
assimilating nuclear reactions and so on. It feels like there might be a way to understand the
nature of life that we can kind of intuit poetically as humans, but the true understanding will come
from a system that's much more
computational sophisticated.
Again, I would push back on my turn because I still think that human give themselves
ability to do that by building that tool.
So the idea that the tool, we are getting into the getting into the card shift scale and dark forest and all
of these things, we can see the world this way. At this point in time, for me, I still see a great tool.
Now, whether the sci-fi scenario is going to happen, etc. I still think that we are far away from this.
But if that was capable of giving me a new perspective, it's just that we are starting to jump into a deeper cognition of what the universe is,
whether it's through our brain or through a different way of gathering
information. Remember, this is what we do. Yeah, humans are able to actually build tools and then
like integrate them into their way of thinking. Maybe another generation has to be born that is
raised with those tools, but we seem to like take for granted all the cool technologies you integrate into your way
of thinking.
A lot of people are growing up now.
Their mind is integrated with the internet.
You basically reconfigure the way you memorize things.
You no longer have to memorize a lot of resources for thinking versus memory of just strict facts.
So that kind of stuff and we integrate all that.
Yeah, and you know, they are would completely agree with you.
In fact, I wrote about this again in this new book that's coming out.
What is the book coming out?
In January, it will be in French, actually, to start with.
You wrote it in French?
Actually, I wrote it first in English,
and I translated it into French.
So the English version is already pretty much ready to go,
if we find the publisher in the US.
But anyways, the point being here,
that I looked at this as a relationship with technology as a complete change.
To me, this is the singularity, more than anything else, which is the co-evaluation of human
with technology, not anymore with their environment.
Why we are messing up the environment right now?
Why we don't respond to pandemic the way we should, because we are missing of the environment right now, why we don't respond to pandemic the way we should,
because we are disconnected to the environment we are taking our information from and we are
adapting from. Right now exactly as you said, we take the information from the web, from the
phones, etc. We have no filter over that information. Before you were out in the environment,
the information you get is the one the planet is sending you.
Now this information is coming from different way. You have no way of knowing,
and the information is correct or not.
I've got to push back on that.
No, you look at this as an ecosystem, and it explains a lot of our behavior.
See, I like the way you said teenagers.
So, the technology, I think, when we move past the teenager stage, enriches our ability
to sense the earth, to understand what's going on with the environment.
It's just that we're very...
So it's not that technology disconnects us from the environment.
It gives us more tools with which to understand what's going on with the environment.
That's true for the people who are building the tools and know how to use it. Take those tools now, put them in the general public
with no filter, which is happening with social media,
which is happening with a lot of things.
And you see the disaster.
This is creating.
It's not the disaster.
It is.
It's, you sound like a parent talking about a teenager.
Yes.
It's the growing pains of a civilization that is becoming
deeply connected with our, we can communicate it all across the world, even through the
pandemic. That's the good thing about technology. This is also something I wrote. It's not
the tools we create that are bad. It's the way we use them. Yes. But we are learning.
Well, and hopefully we'll do all the learning before it's too late
because our response to what's going on in the environment, our response to pandemics is deeply
connected to this disconnect we have with nature. Anyways, we all agree that we are in growing
pains and hopefully we can move forward because there is a fantastic universe,
something absolutely magical around us,
and I'm talking as a scientist, I mean, there is magic,
not in sense of, you know, trickery,
but in sense of wonder around us.
And there are so many signs where we are getting so close
many signs where we are getting so close to revolutions in cosmology, in astrobiology, in astronomy, which I think to me, this is where the hope lies, and also an awakening of
understanding that we need to be in equilibrium with a planet if we want to move forward,
because even though we have these big dreams of going on Mars and the Moon and listen, I am a planetary geologist, so I am all
for exploration. Right now, the Moon or Mars is not going to save your butt, because for
the logistics, we'll still depend very much on the Earth and for a long time. I think this time we are living in will be remembered as a pivot in our history for a number of reasons.
A time where there is a growing consciousness where we are creating tools that are going a little
bit ahead of us that we have some some difficult time to catch up on with where we have to deal with the
population that's way too big for the planet we have, we need to really learn a sense of balance
and a maturity as a civilization. So how is this going to unfold right now? I have no clue.
going to unfold right now, I have no clue. I draw a lot of optimism from the similar things that happened
a many decades ago when nuclear weapons were developed.
Boy, it was that at the time, even more terrifying.
You just not created weapons that could destroy the entirety of life on Earth,
or not entirety, but a lot of it.
And we somehow found a balance.
And the threat constantly is out there.
And that threat has been made more visceral in recent times because of the war in Ukraine.
But we find a balance somehow.
So, I have a threat of optimism for human civilization, that we figure it out.
We're clever teenagers, I think.
We are clever teenagers. There is definitely a threat of optimism, but I think it's thin.
It's thin because something that has changed as well is the mentality of humans.
is the mentality of humans. Although the threat was terrifying
when nuclear weapons were created,
there was a sense of limits
you were willing to push in the threats.
There was a sense of decency, of moral values. It was not perfect, but it was at
least a time where people could come together from very different perspective and agree that
something was more important than destroying everything.
But that's so hilarious, you say that. Yes, you're talking about a small slither of humans, which is the scientist in Manhattan
project, perhaps.
No, absolutely.
That was also the time when over a hundred million people were tortured and murdered.
No, no, I agree with that.
And Europe.
Absolutely, absolutely.
I'm not talking about scientists here.
I shouldn't be talking about politicians.
We've gone beyond that point now. This is what I'm worried about. I mean, torture, etc.,
unfortunately, we are apes, exactly what you said. So I think that, you know, there is a
lot to be... Not to blame grandpa for that, but because we can always get better. Grandpa was a wild man.
But we have to improve a lot on that side before we can claim that we are a matter of civilization.
When you just because you mentioned the magic, when you look out there, perhaps this is
not a scientific question, but you don't have to be scientific all the time.
Yeah, well, you said magic.
So there's a magic to magic that is in part scientific and in part, I don't know, whatever
fills us with all as humans when we look up at the stars.
Do you think the universe is full of life or not?
You know, when you're sitting, drinking some wine, looking up at the stars and wondering
as a human.
Do you think we're alone or do you think it's life is everywhere?
I am going to make such an unmagical response to that.
My response is, that's the scientific response, that if we are alone, then the universe is a statistical absurdity.
And I have no doubt in my mind, and that is an unscientific response as well, but I have
no doubt in my mind that the universe is still living with life.
What if it keeps dying? This is what life does. But unfortunately, so
the so that extinction is as a process as a part of the process of life and extinction seems
to be a fundamental, both negative and positive component. So what if all the complex life
out there just keeps dying and not making way for like we're actually statistical anomaly
in us being able to survive that L in the Drake equation, being able to survive long
enough to form complex organisms of the kind like mammals are, things with brains,
things that are able to help us.
L is not about that. L is about how long a civilization is capable of being detectable,
which means that rich technologies and being detectable.
Okay, so there's a more nuanced things to out, because you can have intelligence
civilizations that are not very detectable.
Yeah, we had civilization for thousands of years. We started to be detectable 150 years ago.
So it's about technology, technology that we can actually capture from space. You become visible
to your neighbors. And this is all about the Fermi paradox, right? It takes time, obviously, if we're taking, again, ourselves as a model, but this is the
only one we have to get to the point where we become detectable.
But look at the age of the universe, even if life as we understand it, not saying even
as we know it, but as we can understand it, started 10
billion years ago.
And it takes four billion years to get to the point where it becomes detectable.
That means that the first planet where those civilizations started off, starting to be
detectable when we were still cyanobacteria in pond.
So they were throwing messages that were passing above our heads
at that point. And those civilizations, when you look at them now close to 10 billion years
after the start. So their son would be dead. Okay. In the best case scenario, they move somewhere else. And what that means is that civilization are going to rise, die, or move,
and transform themselves. We can see ourselves changing. We know that humans are still changing
as a species. The human being in a thousand or even five hundred years from now might not be
looking a lot like we are doing right now. Who knows where we will be?
We'll might be migrating into our plan, this very system,
we might be migrating somewhere else.
Well, you said migrating, but it seems when you look at life,
it doesn't necessarily migrate, it expands.
So it's not or place A or place B, place A and place B since it's been.
It could be, we are talking about the human civilization here.
So there are different factors.
If you are a cyanobacteria or any type of even a mammal
that doesn't have the technology to escape the planet we were born on,
then it's plan A, it's right there.
You know, whatever happens to your planet, you are tied to it.
You cannot escape it.
For humans, it's a little different.
Yeah, it's A and B or whatever, you know, we can.
So we have to expect that a number of the civilization,
extraterrestrial civilization, that might be technologically advanced, a number
of them will have disappeared just because they run the course of their evolution, or because
their son run out of fuel, and they didn't have a way to escape, or they were wiped out by
any kind of event, and then there will be those that survive.
Everything I've seen from life, it seems obvious that there's life everywhere out there.
In fact, maybe I don't understand the jump from bacteria enough,
but it seems obvious that there's intelligent civilizations out there.
Now, I don't know how intelligent, how to define intelligence,
but there's beautiful complexity. Like, when you look at a, I've looked at enough cellular
automata, which is a very primitive mathematical construction that when you run complexity emerges,
I've looked at that enough to know that it just seems like there's complexity everywhere out there.
So that's why I'm deeply puzzled by the Fermi paradox.
It makes no sense to me.
I mean, I have trivial answers to it.
Why haven't aliens at scale not shown up?
I think the two possible options for me is either too dumb to see it.
They're already here.
They've been talking to us through processes which is don't understand.
What we experience as a life here on Earth is actually, they're ever conscious.
Aliens could be consciousness.
When we feel love for one another, that could be aliens.
When we, I don't know, or feel fear or whatever, that could be aliens.
I have to agree with you.
None of this is scientifically provable.
Right now, we talk a little bit already about that.
But I would say that I do not add there
to the Fermi paradox because it's very anthropomorphic.
It's, you know, it's an interesting exercise.
Let's put it that way.
But it's a typical example of seeing the universe
through our own eyes.
And this is what the limitation is.
Understanding what's going on with complexity, as you said,
and looking at the biophysical model and theories for the nature of life,
I would agree that probably this extraterrestrial message is all around us,
we're not yet capable of picking it up.
But I think, unfortunately, even though that makes me sad, the way to pick it up
is by studying life here and there, doing some of the science you're doing, better understand the nature of life until you realize holy crap, the thing I was
looking for all along has been here all along.
Well, you know, a good example of that and it doesn't need to be an extraterrestrial civilization.
Look at something that I really,
whether or not it's real,
I don't care because in terms of intellectual exercise,
I think it's fantastic.
Look at the shadow biosphere.
The idea that life didn't appear only once on Earth,
but there were many different pathways of it. And today we know when we study
the tree of life that led to us, from Luka to us. And the shadow biosphere is telling us that
there is, or there are, other pathways that came up at the time we are
life originated, but they are so different that we cannot recognize them as being living.
And we cannot pick them up in our test because our tests are being built to recognize life
as we know it. And for me, again, I don't know
if this theory will be verified or it would be discredited. But what I like about it is
that it forces me to think on how do I look for life? I don't know. So that starts here on our planet, not even with little green man. It starts with
very simple life, that can be so different, that it might be just right in front of our nose,
and we don't see it. So that probably starts with the scientific humility of always realizing that
scientific humility of always realizing that we might be too biased in understanding of what is the phenomena we're trying to study.
Yeah, I don't like the term bias because it involves some moral
connotation that you know, but I understand the bias in terms of
scientific pathway, intellectual framework.
Definitely.
What do you think about the UFO sightings?
So the widespread experiences that people have
and seeing different phenomena that they are mysterious,
that people project ideas about whether
Australians are not, but they can't explain it.
And there's pictures and data.
And the government is involved in releasing
footage and all that kind of stuff.
And that seems to captivate the public.
It always does.
It always do.
I mean, you know, there are a number of things that captivate people, especially children,
actually, dinosaurs and aliens.
Still a child.
Yeah, we are also a child at a heart.
And so about you, if I am a scientist and I'm a citizen
So I'm going to tell you a couple of things there's I don't mind talking about that at all because I think as a scientist
This is extremely interesting because the thing I don't know I want to learn about it. This is more knowledge
So we all know the statistics about UFOs
knowledge. So we all know the statistics about UFOs. 95% of them are just natural phenomenon or things that are being misinterpreted. We know that. Then you have the 2% that might
be secret programs by whatever government it's out there. Another person say is about natural
phenomenon that we don't know about yet, and we cannot explain.
And then there is this tiny percentage that don't fall into all these categories of things.
And I think that the report about the UAPs falls into the same kind of scheme except that
now they have at least some patterns of speed of other things that were in the report.
Today, we don't know if these sightings are part of military program or actual UFOs.
I always run into that question because of course, as the director of the Car Second Center at the study institute,
I received a number of emails about the subject.
People actually confused about what the study institute is. We are not studying UFOs.
We are studying, we are actually looking for messages. The way I put it, you know, usually is that
we are studying extraterrestrial in their natural habitat. And the UFO people are trying to understand whether they invaded our
aerial space. So this is very two very different things. And unfortunately, over the years,
I actually respect very much people who are trying to go to the bottom of what UFO are following
some very scientific ways of doing this.
There are very, very credible agencies doing this.
Unfortunately, there is a folklore around UFOs.
And this has been a huge disservice to the scientific community.
And this is why you have been having that much pushback for a long time by the scientific community
because no congressman in the world wants to tell their taxpayer that they are supporting
something that looking for flying saucers and you know when you see what's happening
it's terrifying and I am actually concerned you, about that relationship that people do between folklore and real search
for estatria's intelligence. In fact, it's been so bad that until today, there is no government
agency that is actually funding the city's search. It is a private funded and they were,
what NASA funds right now, which is a progress,
is a search for technosignature,
which means that when you are looking
at the atmosphere of a planet,
you look for some disequilibrium
that could tell you that something is there,
but it's not going to fund an institute or whatnot
that is looking for messages or other things like that. Is that just have to do with a taboo associated with the fall clarity?
Yes, and I think there was a pushback from the political arena decades ago about that.
At the time, we were all flying saucer, we were coming out.
about that at the time where all the flying saucer were coming out.
And then the said institute got it started.
So, but now there is more of a willingness to look at the UEP,
UFO phenomenon from a scientific standpoint.
So much so that the government is actually seeking some help from
scientific institution, and there are programs to start looking into those phenomena.
And as a scientist, I am interested.
What I'm not interested in, again, Carl Sagan comes back here.
I don't want to believe.
I want to know.
And so to know you have to have a real experiment, you have to have
observation and you have things that are done the right way. I don't want to
have somebody that starts with what if as a question and then turns this what if
into the only argument and the only conclusion there is, you understand what I'm saying. But still, I think it's valuable to appreciate the mystery
and not deny the mystery.
So...
No, the mystery's there, but what I don't want is people taking advantage of the public
and making money out of folklore.
Well, let me flip that. I understand.
But so there's a folklore and like the stuff I do, AI and robotics, for example.
There's a clear fear, terminator, and movies,
and all those kind of stuff.
You could say that I'm very concerned
about this miscalibrated understanding
of the public of what robots roll are in society.
Or you could see it as a,
let's use a metaphor of a wave.
You can say this giant wave,
they'll call full-clore,
is a really bad idea.
We need to avoid it.
We need to hide.
We need to build dams.
Or you can be a surfer and ride the wave as a scientist.
To me, the fact that people are wondering about the mystery of UFOs, it means they're
wondering.
No, they are.
But the thing, I will stop surfing that wave when it comes back to bite an entire
scientific discipline. When it hurts the science, sure. For now, the past 60 years,
we were not able to raise money from the government. No grant. It's a discipline that has
no postdoc, a very little postdoc, just because there is a fear of that folklore on the political
arena. People don't want to be associated with that because they confuse the two. So I
stopped there. And as the director of the Carl Sagan Center, I am just very happy to see now
that there is a course correction in the government seeking scientific investigators
for this kind of issues. And hopefully that will write the ship there.
I love it. I love to see it. But I want, and I love it a little disagreement. I'm doing
so obviously respectfully with love and it makes it for a fun conversation. But I think,
you know, just like with surfing
away, there's some level of the more you resist it, the worse it is.
So we didn't resist it.
Yes, it did come from us and we pay the price.
I just think that the role of scientists in part in the 21st century,
I'm talking about social media,
it's to direct this sense of wonder that people have
into a direction of the rigors of science.
I think we do that pretty well.
I would disagree.
I don't think so.
Sadie does much better, but there's other places
in science where...
The search for life is fairly easy place to draw the wonder of
people because it's a profound question that pretty much
everybody has. But I think I just want to highlight the fact
that I think a lot of scientists, my colleagues, friends, think
that all you need to do is science. All you need to do is the
scientific process, the peer review process, the data and so on.
But I think communication is actually
a fundamental part of the process.
Because it has to do with funding,
but also it has to do with where a bunch of humans
trying to ask big questions,
trying to figure this whole puzzle out.
And to be honest, we do have more public presentation at the Institute, then peer-reviewed articles
and believe me, we have lots of peer-reviewed articles. So our scientists are out there and
they are sharing the wonder of discoveries. And it's so easy these days. I mean, there is
not one day. Tell me about writing a book right now about the search for life in the universe.
I mean, it's almost every single day I had to correct
something in the chapters I was writing. So, setty in terms of both signatures and signals is a
pretty active field. So, it's getting better right now, it's getting better. But remember that the
setty institute is not only about the search for extraterrestrial intelligence. This is the root
which is not only about the search for extraterrestrial intelligence. This is the root of the historical root of the institute,
but it's about 10% of what we do.
In fact, we are searching for life in the universe from the origins of life to extraterrestrial
intelligence.
So 90% of everything else is exoplanet.
For instance, we have a good chunk of the capitol team that is actually with the study institute,
and they are working with tests right now.
Some already have some time on the GEMs web.
We have astrobiologists, we have astronomers.
And those are looking for data, for signals, for planets out there inside of our solar system.
Go to analog places to try and understand the type of life that's survived in planetary
type environments.
I mean, people are always surprised when I tell them, you know, whatever flies in the
source system as flown or will be flying, we are involved.
So this is not something that pops in everybody's mind when they are thinking about the the study institute because we started off as the search for extraterrestrial intelligence, but the institute has really bloomed into the search for life along the Drake equation, all the terms of the Drake equation just to clarify because by the way, you're saying about your terms sometimes it's good to return to the basics when you're saying whatever's flown
Settie is a part of the things that are flown so we because we're using we elucid sometimes it's that we humans and sometimes we
Settie yeah, so the Setties is really broadly involved. Oh, yeah a lot of the fingertips reaching out there towards the stuff
Think about Mars involved in landing site selection in instrument that are actually on board,
some of the mission in science teams, for instance, Cassini, Neurizen, also missions that will be
coming. It's the search for life, we do this all across the Drake equation. So, CETI is part of it and it's a root and it's
expanding a little bit right now. We hope it will continue to expand. So, this is a good time
for the Institute. And it also, in my mind, was the very first Astrobiology Institute because we
have this multidisciplinary approach, where I can bring many of the scientists from different
domains and disciplines to think about the question.
And as you know, discoveries happen at the nexus of disciplines.
And it's really a privilege when you are in an institute like that.
You've dived in volcanic lakes at high altitudes to study the creatures within. Can you tell me the technical,
the fun, the human story of that effort? The image that is associated with the scientists is the
person with the white coat in the lab. In fact, a number of us, and instead our athletes doing
extremes, what would be considered extreme stuff.
And I mean, it's fun. It's a little dangerous too, but it's to get data and more knowledge. So there are so many stories. I don't even know where-
Well, the first time you did a danger, stick with a volcano.
So the first one associated to the search for life understanding was in 2002,
where I started climbing those high volcanoes in the Andes that are 20,000 footers.
The view out there is just beautiful. You got, you're so hilarious at spending almost no time
on some epic things. I love it. Okay. Okay. Okay.
How tall these volcanoes? What are you doing with a volcano? What's required to prepare for that?
What does a mission look like that look like? I mean, I mean, that is true. That this is
science embodied. It's like athletics and science and you're studying the extreme conditions
of life on earth, extreme beauty of life on earth
in those conditions.
So what was what was what what are we talking about with this volcano?
What how big is it?
So remember when we were talking about how do I understand how I search for life on Mars?
This is how it started for me.
And then I looked at environment in my head started, you know, going through the environment
on earth that would be good analysis.
And then you only have a few.
And the NDs, in that case, are some of the best in the world, just because of the ability of the place.
And the higher you go, the least atmosphere you have, the more UV radiation you have.
And the NDs are volcanic, hydro-termal, plus you have the climate change radiation you have. And the end is our volcanic hydro-termal,
plus you have the climate change that's coming,
you have evaporation.
It's a picture of Mars 3.5 billion years ago.
And so now you are actually entering a time machine, basically.
So remember I'm a diver.
And the first time I got 2002 to the places we wanted to explore, all of a sudden I was
standing at 14,000 foot looking at 20,000 feet and saying, okay, well, I need to get up
there.
You scared?
No, no, because we are prepared.
And the only thing I didn't know is if I was going to be able to make it to the top, because
now you are dealing with high altitude.
You can deal with high altitude sickness.
You can deal with a number of things.
And for God's sake, these are volcanoes and they are dormant.
They are not extinct.
That can buy two bite-osts a couple of times.
What was your preparation for that kind of, I mean, this is...
There is a lot of hiking and tracking.
And I altitude around here, but not so high
because we don't have anything closer
to those elevations around here in the US.
But in volcanic environment, climbing volcanoes here,
we have plenty of those diving as well.
I am a free diver.
So this is where it's going to be hilarious because I started with a completely rational fear
of pressurized vessels that comes from an incident in my childhood.
And so I became a free diver to avoid having to carry oxygen tanks on my back.
Free diving is diving without...
Without anything, just your lungs, right?
That was that started from childhood.
Yeah, no, it was to the point where
when I saw a pressure vessel
like a methane tank or anything,
I would be going around
and puts a lot of distance between me and that tank.
So I was not going to carry
any oxygen tank. And the first time I actually died at the summit of that, like, was freediving.
People look at me like, I'm nuts. Well, maybe I am a little bit.
People that work with you as well. I mean, that kind of seems kind of nuts.
No, we knew it's a risk. Actually, it's a lot of less of a risk than
getting with conventional air. And I can't explain it that. But ultimately, what decided me to
35 scuba and go over my fear was that as a scientist, I needed more time at the bottom of the lake to sample, you know, rationally,
take my time to think. And I can stay quite long enough as a freediver and a water.
But the last thing you want to do at 20,000 feet is to come up at the surface with empty lungs
because there is not much you can breathe out there to replenish
your oxygen.
So definitely your time and the water is cut short, just for safety.
And I realized that it was not a good trade-off for me at some point.
So I certified scuba and after three years of exploring that like free diving. We finally came up with a full scuba diving expedition,
but we were diving with rebrithers, which means that we dived with pure oxygen.
So rebrithers give you a bag with stuff that looks like cat leaders in it, which is basically to absorb the CO2 that you are
expelling when you are breathing and they're
recycling oxygen this way.
So basically you are re-breathing your own
respiration.
Wow.
Yeah.
How long can you do that?
So what's interesting about that technology?
So it's very interesting because then that completely avoids
the potential issues you may have with the binds.
When you are diving, the risk of bubbles
trapped in your lungs because of different pressures
and different gases.
Oh, so there's a complexity to the flow of oxygen underwater.
When you are breathing regular air, when you are scuba diving here, you know that you
have to do some different, when you're coming back, when you are diving deep, and you have
conventional air, then you need to stop so that you can equalize the gases in your lungs. If you come back too fast, then you can have air bubbles,
stuck, and then you can raise the binds, which you can be paralyzed. You can raise a number
of nasty issues. And we wanted absolutely to and I altitude is that, well, the greater
risk when you are at I altitude is altitude sickness. What is altitude sickness is just you
not having enough oxygen in your blood. So this, you know, this was a good benefit. It was
a good trade-off. We were lucky enough to be also trained by the military.
So we came up with not the civilian re-briever,
which is the big thing on the back that you carry on your back.
We actually were given Navy SEALs commando re-brievers.
You worked with Navy SEALs for this?
The director of military operations.
Yes, we were trained, we were trained like astronauts for three months. I spent more time,
I had a joke that if somebody wanted to reach me, they better put a fun line at the bottom of
the swimming pool because this is where I was. So we trained and we trained and our manual about the safety was about that thick.
So it was a real operation.
That was three years into it because when you are free diving in the year's prior, there
is no risk.
You don't have any other gas in your lung than what you are breathing.
The only risk is come short of air and then you are in trouble, which happened to me
one time, seriously.
So, I'm talking about that time.
I got to ask you about free diving before we return to the re-breathers.
Well, all these legs, I have altitude, they are cold.
They are the minimum temperature that you can have on bodies of water, clear bodies of
water, which is for degrees C. It's very, very cold.
And so you cannot...
It's like a nice bath. It's very, very cold. And so you cannot...
It's a nice bath.
Yeah, it's so fun.
Yeah, so you cannot just dive with a wetsuit.
So the idea was to take a dry suit. And I learned how to free dive with a dry suit,
which is really the worst thing you can do.
What's a wet suit?
What's a dry suit?
So a dry suit, a wet suit is usually
what you use in the ocean when it's not too cold.
You can use also dry suit.
But the wet suit basically is going to keep you warm
because water is getting into the suit.
And at the contact of your skin is getting to body temperature.
And so for a while, you can dive like that.
And in the ocean here, that's fine. That's fine.
The dry suit is the opposite.
It's completely closed, which means that you don't have any contact
with the water outside, and you keep your warmth through your body temperature and even clothing
that you can put into it.
So this dry suit they are used by Dider will go really deep
in very cold water and need to stay a long time on the water.
So what's the bad part?
The bad part is that when you have those dry suits,
is that when you have those dry suits,
you have a lot of air that can be trapped in it. Usually we do what we call burping the suit,
it's not very pleasant expression,
but you get in the water,
and as soon as you get in the water,
you can see the air pockets all over the place, right?
So you burp the suit, you open the valve,
and the air comes out.
Once you have done that, then you look with your lead belt, and you know when you're ready to go down. And so what happened that day is that I actually did burp the suit, but didn't realize that
I burped it completely. And so I went down, and immediately I felt an air pocket going to my legs.
So basically air was dropped in the suit and went on my legs as I was diving like that.
And so I didn't pay too much attention to that.
Because you're diving down.
Yeah, I was diving down.
And so didn't pay too much attention about that. As I was, you know,
busy, just an awkward position. But then I wanted to turn and go up. Well, no can do.
I was just like a buoy. And I was like that. So the first time I say, okay, I try the
second time and the third time. And by the first time I say, okay, I try the second time and the third time.
And by the fourth time, I kind of realized I wasn't trouble.
And the fifth time I say, okay, now you better give it your best try.
Otherwise, it's going to be big trouble.
So this is free diving.
I was free diving.
And then you can.
And I cannot do a rough.
What are you feeling? I mean, is there panic?
No, there is no panic because you can't. And I cannot do a rough. Oh, you're feeling, I mean, is there panic or not? No, there is no panic because you can't.
You cannot afford to be panicking.
In fact, you are always thinking because there is training.
This is the best part about training.
Your training allows you that space to keep you cool
and compose which you need to be in that kind of situation.
And so finally, after the fifth time, I was able to rectify the position
and get myself up. But when I got up, my lungs were empty. I had been in the water for quite some
time. And I knew what was going to happen. So I decided to just be the plank, you know, not move
and don't do anything, just open
my mouth and try to suck oxygen.
But obviously oxygen at 6,000 meters, 20,000 feet, there is not that much.
It's about a little, it's 48% of what you breathe at sea level.
So although it was noon at that time. The sky stayed pretty dark and
starry. So it just started everywhere. Oh my god, yes.
The funny thing was, and that's the first time you experienced that kind of,
I mean, can you possibly train for that? Like, because, oh, can you also pass out?
Oh, you could. I mean, the fact that I was already
seeing dark was a real sign that my brain was starved
of oxygen.
And I had one of my friends or colleagues
on the shore just telling me because I'd
been under for a little while and say, everything OK.
And I remember trying to say something.
And I was just like,
that's I think the best lie I have ever ever.
I give up on that.
You were lying to the friend and maybe to yourself.
No, because I knew I was going to be okay,
but it took me to be still for a few minutes.
Well, can you talk about free diving?
I mean, what's the technical skill involved
here? It just seems, it seems exceptionally difficult. Like for most people that swim,
you go underwater, it's hard. So what's the skill there? You know, I think you probably can
get good or better at free diving by training. So you have different techniques. You can train in swimming pool and you can say, you know,
frankly, for me, I go at the bottom of the swimming pool
and I sit there.
And then you have relaxation techniques.
Some people meditate.
I can't.
I am not a good person that can meditate.
Or if I do, I don't know about it.
But my way of doing things and taking my mind off
the situation I mean is by singing my head. I love music or hearing music and in fact knowing
the kind of song I'm singing I know about the length of time that I'm staying on the water as well.
So this is how you know so this is my own way people have different ways.
What kind of music are we talking about? All sorts of music can be classical, can be pop music,
you know, just songs. When you really know that you are relaxed and something I experienced
actually at 20,000 feet, which was the greatest experience of my life in those terms, is when you forget
that you have water around you. At that point, you cannot tell whether you are the water or
water is you. There is actually no separation anymore. And I felt that when I was training
and swimming pool, I never could have imagined that I would feel that way once on top of that volcano.
And it happened. And it was absolutely amazing. It was, you know, we were talking about how life
consciousness permeates the universe. At that point in time, on that volcano that day,
it took me by surprise. I was not expecting it. Everything around me, the lake
was Arctic blue. With all the ray of the suns, you can, you could tell them apart, every single one of
them. I was surrounded by golden darts. And it was the most incredible experience. And I don't know if it's that kind of environment
that led me to just, you know,
going to whatever state of meditation or whatnot,
but almost certain.
There was no separation anymore between me,
the water, the volcano.
And if I came with questions,
they didn't matter anymore because for that fraction
of a second,
it seemed that I had all the answers in the universe.
Was it the connectedness with everything?
It's what it's called.
You can call it that way.
I still don't know what it means, literally.
But it is that moment where you feel that it doesn't matter.
It really doesn't matter anymore.
It was an absolute peace, absolute understanding, and it was incredible. It was an absolute
awareness. Could you describe it as beautiful?
That could go beyond that. I think that there is clearly in my mind today no words that
can express how perfect this was.
Does that start to speak to why you love diving?
Or is there something special about that place diving at such elevations and volcanoes?
You know, I started diving pretty much.
This is the first thing I did when I was near water.
In fact, there is a very fun little incident with my parents, me being on the
shore of the lake on vacation. I was three years old, maybe. And I had this little life savers,
you know, on my arms. And my parents were not watching. And in my little brain, I still can remember
today saying, well, nothing but can happen to me.
I cannot drown if I go underwater.
See, that's the logic of a three-year-old.
Yes.
It kind of works.
I mean, that's pretty brilliant.
So I removed the life-sivers that I had.
And I just went in the water.
My mom said, before she could do anything, I was under.
And it was like a natural thing.
And for me, I felt immediately at home, and you know, as little as I was, completely.
And it goes beyond that, you know, this sense of connectedness or oneness or whatever,
I always felt good and underwater.
So it doesn't matter really if it's 20,000 feet, the thing that's
matter at that point is that you need to get there. So you need to get with all
the gears, with your hiking, tracking, equipment, high mountaineering gears.
And when you get on top of that, you have to remove all that and don't
issue it. Is there something you can speak to the challenging aspects of that process, or is it just like
this rigorous process that's well designed, you have to go through and you don't think
more stuff about that?
We are humans.
This is where most of the risk is, because you can be well prepared, but for one reason
or another, you get sick, you know, and you
can get sick not only because of a high altitude sickness.
It can be a number of things, or you can be tired, or you can catch a cold.
And then of course you have the mountain itself.
We had a magnitude 7.8 earthquake, heating one day when we were 50 meters away from the
summit. So you can't obviously plan for that?
No, you can't. And that's the acts of God.
You know, working with NASA, although I am the director of the city institute,
my grants are coming from NASA, so I'm a NASA contractor.
And every time we go to those environments,
we have to go through the rigorous process of training with NASA
and checking all the
boxes for safety.
So they are training and training and training us, and I have to thank them because a lot
of those trainings are the things that are in your brain when these kind of things happen.
You know how to react and you are not freaking out.
But in all of the things they are training us for, you have the green risk, the yellow risk, and the red risk.
So the green risk are basically the don't be stupid,
they don't do the kind of thing you wouldn't be doing
at home like it's jumping, you know, on rocks
that are not stable, you can tweak your ankle, you know.
And then you have other risk like altitude sickness,
how you prepare for that, how you recognize that. These are the yellow risk. And then the red risk, like altitude sickness, how you're prepared for, that how you recognize that.
These are the yellow risk.
And then the red risk, the red risks are what they call the acts of gods, the kind of thing
that they can happen.
You know, there is nothing you can do about it, and you accept that when you do that.
So those are volcanic eruptions when you're in this kind of environment, earthquakes, and everything that
an avalanches, for instance. So your end is giant mountain and it's shaking. No, it's not shaking.
That's the interesting part of it. There was a whole background of things that happened that day
when we started off, but we got to 50 meters from the summit. And I have part of my logistics team
that is at the foot of the mountain.
And being so close to the summit,
we have to go under the other hand of lava.
So it's just like we are just under this big vault
of lava and it's actually beautiful.
If you want something beautiful,
it's the outyplano scene from 20,000 feet.
It's just absolutely stunning.
What's the colors?
What are we looking at?
The colors are that of early earth, which means primordial earth.
It's ockers, yellows, oranges, browns, with a dark blue sky.
And so you're just, you know, it's a time machine.
You're just out there and you're climbing 42 degree slopes.
So all of a sudden, I'm right next behind the guide.
And the guide has been with us, its family,
we've been together for 10 years.
And he's starting to do that.
I don't discuss when Macario do that.
I listen and I ask the team to do the same that, you know, I listen,
and I ask the team to do the same thing,
where maybe half a dozen.
And then I want to talk to him and say,
what's going on is on the radio.
And then he gives me the radio.
I'm talking to my logistic chief officer,
who was at the bottom, and he said,
we're having a tremendous earthquake.
He was saying that the, actually the ground was waving. It was saying that the actually the ground was waving.
It was so bad.
And it was freaking out because he said,
everything is avalanching and I'm very puzzled
because we are in a very dangerous part of the volcano.
Nothing's happening.
I turn around and then this is when I realize
there is absolutely everywhere.
Everything that I saw two minutes before it's gone,
just disappearing to a wall of dust. But nothing's happening where we are. Absolutely, everywhere. Everything that I saw two minutes before, it's gone.
Just disappear into a wall of dust.
But nothing's happening where we are.
And our friends down, they were freaking out
because they were seeing everything avalanching.
And especially the other side of the mountain
we were on was avalanching.
So they have no visuals.
They have no visual.
They thought that we are caught in the avalanching.
So I said no, but
so at that point I thought you were screwed. Yeah, and I said okay. So if this is what's happening,
then I'm taking everybody to the summit because we have a very large crater that will take care of
avalanching, will be safe, and I'm waiting for the aftershock because this is what you do
when you have earthquakes.
So here we go, taking everybody in the crater
and now you have half a dozen scientists
in the crater with the crater lake
and this is why we came for.
So we just had a 7.8 earthquake. And what do you think they do?
Well, of course, they do the signs they came to do.
So the only thing is that I couldn't,
because my radio was only working
when I was on the rim of the crater.
But I had a little assistant with me,
a young Bolivian teenager.
He had been shadowing me for three weeks.
So I knew exactly what to do.
And he said, no problem.
Give me your bag.
I'll do the sampling for you.
So I was monitoring the situation.
And I was scared.
I wasn't at that point.
And there was another moment.
My friend downstairs, I could, you know,
at the foot, yeah, we know each other as I say, we're family, this team is family,
we've known each other, I am the gun mother as kids, so we are close.
And I could feel for the first time in my life that he actually was scared.
And he was calling me every 30 seconds, telling me stuff.
I said, you have to stop this now.
Just call me to give me information
that is useful for me to make decisions.
And so I say, OK, what's going on?
All right, it tells me, there is still
a balancing, et cetera.
And then a few minutes later, it calls
me, say, I think that last car is erupting. So now I have to tell you, we are on a volcano.
The next volcano, we share a slope with it. It's a little lower, but that's the most
temperamental volcano of the entire chain. And this one has an history of eruption. And
then my friend is telling me that the volcano seems to be starting to erupt.
If that volcano goes up, we have nowhere to go.
That got my attention.
So if you say scared, I would say that,
I got the realization that what that meant.
I went cold for like a fraction of a second,
but that meant that just my adrenaline started to kick in.
And it was a very, very strange experience
because now you have tunnel vision, it's so bad survival.
And I say, okay, now you are going to tell me
what I need to know, you know, tell me, what do you see?
Say, I see smoke, I say, what kind of smoke?
You say, it's white, I say, no big deal.
That's water a vapor.
Okay. Where is going? Is going to Argentina? That was the opposite direction of where we are.
I said, okay, I'm staying where I am because right now there is no, you know, no danger.
And there are still the issue of the aftershock. I didn't want to have the team caught in the
gully, in the central gully of the volcano,
with an evidence coming at us. So, it was there. And he called me after that and said,
well, you know, it's still going to Argentina. Fine, okay. And then a little later, he calls me and
say, Natalie, things are changing here. Say, okay, what's going on?" I say, well, the cloud is a little yellow
and I was thinking myself, what is the moon, what is the soul for? And then when you have sulfur
mixed with the water vapor or the water in your lungs, this turns into sulfuric acid.
Then you're really screwed.
I say, okay.
Where is the cloud going?
The wing is shifting, it's coming your direction.
Yes, that was a day like that.
I am talking to him on the radio and I'm turning around.
As I turn around, I see the cloud starting to pop
on the opposite side of the rim.
So at that time, we had no choice anymore,
because now you have to figure out what's going to kill you
first.
And so there was the risk or the potential of an evidence.
But at least you can see the rocks.
The gas is going to kill you before you can see it.
So I called everybody back.
We get our stuff.
I didn't give too much detail, but I say it's time
to go downhill and fast.
So which we did, we stopped only when we were at Midcamp.
And then at that point, we saw the cloud just completely covering the summit where we did. We stopped only when we were at mid-camp. And then at that point, we saw the cloud
just completely covering the summit where we were.
So we did well to bail out.
But that was 500 meter higher than we were.
So we are safe. I was just making sure that you would not go down the slope
where we were safe. So we stayed and just rested for a little while.
After that, we descended.
It was all on the adrenaline. I can tell you what.
I had two of my crew with Hedex.
Part of one of them was because of the altitude we climbed really fast.
The other one was because of the cloud.
She was the closest to the cloud when it happened.
We descended fast.
Wow, that was close.
That was close. It's interesting how the human body and mind works because I know
that from the moment my friend told me that the volcano seemed to be erupting, I was going
on adrenaline. But when we got close to them and I saw him, we were getting close to the
cars, I saw him coming towards me and the
slow-pulls and all the adrenaline went away. I was a mess. I had to find the first rock and sit down.
It was gum. I mean, fascinating. So you just basically, physically, mentally,
perhaps the ones you saw. So what's your thing? There was nothing left of me. I got in the car
and I felt in the cars
we were heading back towards.
I could have passed out.
I really fought back and I'm not the kind of passing out
really easy, but there was nothing left.
I had no energy, no nothing.
It's fabulous how you react and how this is embedded
in your brain from
aions of evolution of reaction to
dangerous situation basically.
They drive the survive. Yeah, something like that.
You just told us one heck of a story and as you said, such story comes along with many
of the diving expeditions that you do.
But on the science side, what is that world that simulates, that travels back in time into
the Martian landscape?
What is the science reveal?
So the science reveals that I feel resilient.
When I started that project, I told my husband, I say, this is going to be very fast.
We are going in such nasty environment that we're not going to find anything.
And you know, we'll back home fairly soon. So 20 years later, we are still studying those environments.
That was a gut feeling, like, nothing, not much can possibly survive.
Well, the UV environment is so nasty, but there you find the same micro organism that made
the very first fossils on Earth 3.5 billion years ago, and they keep surviving. They developed
an adaptation Swiss army knife if you prefer. And so you learn about that,
you learn about what they are,
how they adapt through times and through
environmental changes, which is really important.
What are their signatures?
We learn to recognize them,
we learn what kind of instrument we need,
what kind of signature,
whether it's chemical or morphological or whatnot.
So, basically, we learn how to explore.
But, I would say that to me, and this is a realization, interestingly enough, that came three years into the project.
I really woke up literally one morning saying,
you know, we have been coming here for three years now, trying to understand
how to search for life on Mars. But what this place is showing us is what's happening right here
right now on our own planet. And by exploring those extreme environments, we are also reaching
to places not too many people go, and so we're learning more about our own biosphere.
And the diversity of our own life here on Earth. So these are the two main things, you know,
that I would say.
What kind of life survives up there?
On top of those volcanoes, it's about bacteria, you know, mostly.
Is there something specific about that bacteria that's able to be so
rugged? Yes. They have adapted to very high UV radiation and it's not only because they are
at high altitude, it's because early Earth didn't have an ozone layer. So when those, the ancestors
of those bacteria originated.
They have to survive a world where you had lots of short UV coming down at the surface.
And also lots of hydrotormal environment, volcanoes and hot water, lots of salt.
And you see all these toolbox, steel, embedded in those microorganisms.
Today, 4 billion years later, it's just amazing.
And depending on the environment,
they are going to switch some of these defenses
adaptation on or off.
The UV situation there is so nasty that here,
you have bacteria, yes, like that,
I know bacteria, you find them everywhere.
It's really something you find all over the place.
But if you find them here in California, they will turn their protection against UV during the day in summer,
and they will switch it off at the end of the day.
There in the Andes, it's so nasty that that thing stays on all the time. But if you take
samples and bring them back here and start to culture them, like we did on top of a building,
leaving them, you know, you will see the second generation of this organism, they are starting to switch on and off again.
So they are extremely adaptable, extremely rugged,
and that's why they are still here.
And probably that's why we're here, because life finds ways.
So is there some degree to which the harshness of the conditions
enables the flourishing of life versus shuts it down.
Well, it will shut down those that cannot survive. Obviously, you know, this is a statement
that's kept and obvious right there, but it's also the survival of the fittest, and this
is what evolution is, right? So they are here because they were the most adaptable.
And so evolution is going to show the path of the fittest.
The one that cannot resist, they might have a good time for a little while,
but then, you know, we've seen this at much different scale and with complex
life, not so long ago, a hundred thousand years ago, Neanderthal was side by side by
Omosapians, but Neanderthal was completely adapted to a called Earth, to a glacial Earth
of the end of the Pleistocene. And when condition change, it couldn't last.
You think, I mean, there's still some mysteries around that, right?
Like exactly what, what were the harshness of the conditions?
I still really suspicious.
What are homo sapiens?
No, no, no, no.
I really want to know.
No, no, I'm sure he's tough.
That happens.
Shitty stuff happened.
They met, they bred together, they fathered each other.
What humans do?
You had to expect that.
But the thing is that Neanderthal was completely adapted for a very long time to leave
at the edge of those glaciers.
They were probably in a weakened situation when almost sapiens came and started to spread.
So basically this is what life does, it adaps, and if you cannot add up,
and you're more in disappear, and something else takes over.
You hold the women's world record for diving at altitude, both scuba and free diving.
So I have to ask, what
can you describe the details of those records? I never looked for those. I'm not after records,
at all. In fact, I didn't know. I had broken those records when that happened.
We did that as part of our expedition or our scientific expedition. So it's basically sport in
the name of science versus science. No, it's science in the name of science. And it's basically sport in the name of science versus science in the name of science
and it's just a very physical thing that you have to do. So we train ourselves like athletes. Yeah.
But to get the job done. To get the job done. You're holding your breath under water for a very long
time like with with feediving. What what are we talking about? Do you do you think in terms of time?
Is there like layers where you know
through training you're in a good place?
I'm sure you take time off and you get rusty, right?
And I have not been diving in a while,
so probably I need to go back to the drawing board
and the bottom of the swimming pool,
but having training from the past,
I think we will pick up much more faster than.
Basically, I would never have those altitude
that would never go over three minutes.
That would be suicidal.
So the altitude is as much tougher than the pool
back at ground level?
It is, but it's not.
Oh, it's because when you come up,
and you have to get up.
That's not the going in the water.
When I'm under water, I'm fine.
And if I wanted, I could stay longer,
but it wouldn't be very wise.
You've written about the history of life on Mars.
Like you said, you've kind of exploring that
by looking at the lakes here.
Do you think there's been life on Mars?
Do you think there is life on Mars?
Right. So when you're looking at the environment of Mars early on, it's fairly similar to that of early earth.
Never was exactly the same because Mars was always farther from the sun and the earth, right?
So it was always a little cooler, but you have to imagine
maybe the Arctic during the summer, that would be early mars with
a lot going on for it in terms of environment, very favorable to even life as we know it.
So we don't know how fast life happens on earth.
They are science right now showing that it might have actually originated only 200 million
years after the
cross cooled down. Yeah, this still has to be very fiber, but that's the closest. And these are
indirect evidence like carbon left by the activity of life, not life itself. And there is a twist in
the story for Mars is that it seems that Mars came together as a planet faster than the Earth and had water earlier than the Earth.
So it may be that Mars was habitable and might have seen the beginning of life earlier than the earth. So all of this is speculation obviously we haven't found any evidence or
solid evidence yet. I would say an ambiguous evidence but an ambiguous evidence of life
is going to be something interesting to prove because we don't know what life is. Remember,
so I always joke that the only way we would know that there is life on Mars if there was a rabbit jumping in front of the rover, but we might be, you know, gathering, we have what we call a ladder of life detection, which is that you have a series of rungs that you need to go through that actually are not proving you that you discovered life, but are making the possibility that what you discovered
was made only by the environment,
more and more improbable.
So we are trying to prove the contrary, right?
So this is what we have right now.
And as far as I'm concerned,
considering all the unknowns we have, I think there was as much
chance that life originated on Mars that did on Earth. And if it
was at the surface, then it got in trouble after five, I mean,
100 million years, because of the disappearance of the
magnetosphere, the loss of the magnetosphere and the atmosphere.
the disappearance of the magnetosphere, the loss of the magnetosphere and the atmosphere. But as we know, life doesn't only stay in one place.
As soon as it's out there, it's going to adapt, it's going to give itself more chance
to survive.
And that to me means that if life appeared, I would say it's still there and probably on the ground where it can be
in an environment that's more stable.
So I don't know how stability is good or not.
It might not be so good, but they might be in a different type of metabolism through
dormancy, waiting for different climate cycles.
And there is a fact that Mars changes a lot faster than the Earth. And climate
changes are a lot stronger in magnitude. So there might be a place on Mars. We know that
there is a place on Mars deeper in the subsurface where temperature and pressure are good for
liquid water to stay there. So these would be good places for stable habitat. Over time, no matter what happens at the surface. But if life is also caught
between that deep zone and the surface, there is an active layer.
There is a lot of ice in the subsurface of Mars. And when the climate changes,
when the obliquity goes beyond 30 degrees, then
at that point, you will have some activation of that zone. You have thawing of the ice. So all
this region is reactivated and maybe that's a way where you have pathways for life to move from
the deep zone to closer to the surface. This is why
I am one of those scientists who thinks that life might not be so far from the surface than we think.
So we don't have to dig very far to find it? We probably won't. And the reason I'm
I'm so amazing. I'm thinking of that just because of this experience as well of extreme environments.
You have to sit and look and listen basically.
The story of my life, if I want to understand where microbes are located on Mars, I have
to become the microbe, right?
This is the thought experiment.
And if I want to understand where ET is, then I have to become ET. So it's a big stretch, but in extreme environment,
you sit in the desert for a while,
and you just try to understand what is going
from, where the humidity, when it's showing up,
and then you start to understand the patterns
of those things.
What are the useful signals that you need for survival?
You need to know where water is, where the source of energy is going to be drawn from.
You need to find shelters and shelters. Don't mean that, for instance, you can have a water column of a lake or river or not.
Or the ocean. It can be also a very thin layer of dust, or it can be a translucent rock. And you see what we call
endless. These are the same cyanobacteria, but the different version of them. They
live inside the rocks, inside those crystals, because they have the best of life. They
are into translucent crystals, so that they receive the light from the sun, they can do the photosynthesis.
But there is enough of that crystal so that the nasty UV is being stopped.
And they are in their little house.
And when you are looking at temperature within those rocks, they tend to make it to steer than the outside temperature.
So there is a lot of thing going on.
So what I'm saying for Mars is that, yeah, right now,
you don't have a net moisture very much,
160 times thinner than the Earth.
6 milli-bar is really not much, but it's there.
But you still have a lot of UV, the short UV, like the nasty one, UVA,
UVB, UVC that can really mess up your DNA and destroy it beyond repair. But as soon as you have
a little alcove into a rock or a cliff, you know, I'd be looking at those places, but you have to understand Mars or any other planet
for that matter, at the level that matters for the microbe.
And it is.
So then you want with the microbe, one with the microbes, which means that we have lots
of orbital data, which is good to understand habitability at the planet level or at the
regional level.
But we have very little data right now that is very useful to understand habitability
at a scale that matters for the microbes at this point in time.
So we need to do a better job with that.
My idea is to have a raise of environmental station that could have a lot of benefits.
One would be to give us that vision for the microbes.
That would be good for us for biology.
And second, a collection of stations on Mars.
On Mars, yeah.
They give us a good map.
Yeah, high resolution.
We can do that regionally.
And on top of that, so that's
good for us through biology, for the search for life on Mars.
That's good about how to learn where microbes could be, that can be a problem for contamination
both ways.
So that's good for planetary protection.
And since those stations would have communication capabilities on them. That's excellent for human exploration
because normally you have weather stations all over the place that can tell your astronauts.
Learn the pattern when it's a good time to go out or not go out and also house and communicate
when they go and do sort it. So there are a number of things we can do that can tell you lots of information.
Let's rewind the clock a little bit. You grew up in Paris. I was just there. Helen McDonald in
her New York Times amazing profile piece of you writes that your teenage years were troubled.
So how did the challenging early years make the human being the scientist they are today?
challenging early years, make the human being the scientist they are today.
Everything. I think that this is what's taking me on top of those big mountains.
And the irony is for me to be looking for the origin and nature of life,
because I was too close to losing it. But to me, that was a great lesson learned. And that helped me see through the beauty of life,
going on the other side of that.
It became really what made me
and helped me go through absolutely everything
and anything in life, climb mountains
and tell me there is something I want to know.
And I am going to give it my best,
and I won't give up, and I won't give in.
And this is a message that I carried all my life,
and I'm so very grateful that I did,
because all these things that I would have missed.
If I hadn't done that, this is something
that I wrote in my first book.
And part of it is the reason why I wrote it,
just because I felt that there were messages in my path.
Often time teenagers are troubled.
It can be one way or another.
Or if it's that trouble teenage,
you have times in your life where you doubt,
where you know, you're just within your heart and say, what's the purpose?
What's the reason? Why are you carrying on? And when I see all the things that I'm doing,
the dream that I was able to fulfill, what a waste it would have been, you know.
So there's, and there was a point in your life
where you thought about suicide.
Oh yeah, yeah.
And I didn't more than thinking about it.
But I was the lucky one.
For some reason, I'm still here.
I still don't know why, but I'm still here.
And the lesson for me was that never ever again,
because you have to give tomorrow a chance.
You never can think about tomorrow
in the terms of the present. You never know what can happen. You know what is going to happen if you
go through what you want to do. Tomorrow is never happening. And I had the other lessons
came a few years later, where actually somebody was drowning and
I went after that person.
I almost died that day, too, not that I wanted to, but it's just because the condition
were very, very difficult.
That person died from there, although we took him out of the water, but I had a lot of difficulty
coming out.
I came out, but then I thought a lot about that guy. He was in his 30s.
And it was like a sort of echo from a few years before telling me that person would never have tomorrow.
That person would never be able to fulfill his dream or even have dreams of any kind. And I was here and I was going to give
myself the best chance to fulfill all the dreams I wanted to and go after all the questions
I wanted to. And this is what kept me going now, you know.
So, the advice there is even if you don't see an answer to the why question, why live
today. Give tomorrow a chance, always.
Do you think about your death today?
Do you think about your mortality?
Not really.
You've been so close with it so many times.
Yeah, well, that's hard of life.
And you know what?
If something happens to me, what I I'm doing the stuff I love,
what a way of going.
This will happen wherever it catches me.
I don't know, I don't care.
It will be what it will be.
And I had the best of all masters for that.
I had my husband.
My husband and I were 44 years apart in age. And it was just a pure love story.
And he never looked at his age, never thought about himself or defined himself by his age. In fact,
he reinvented the life for himself at an age where everybody retires. We met when he was 66. And that was a blessing
and a curse, but a blessing most of it because we took everything all day as if it was the last.
So we enjoyed life. And right now, it's not so much. You know, I have to really think of him. It just passed away this August, last August. And for me, it's
more like I have to draw from his example. On him always telling me, look forward, trust,
life. Be happy, live. You know, today, every single day, I have to remind several times a day of this.
It's not easy, but it had the recipe.
You never thought about death, because when you start thinking too much about death,
that prevents you from living.
Dimasam?
Oh, gosh, we were so close.
I think we were...
It's more like one spirit in two bodies.
We were at that close.
So missing him doesn't even cut it.
I mean, it's the toughest mountain I ever climbed.
What's the role of love in the human condition?
I think I hope that this is the force that drives the universe.
Although, you know, we might be experiencing the other side of it, maybe just to learn
how important love is.
That might be it, you know.
For me, my experience with my husband, where I never had to wake up every single morning, ever wondering if I was loved,
I had to look in his eyes and look back at me to know it.
So when you get to that point where you don't question it anymore, I would hope for humanity to reach that point,
where you can feel the same love for the person that is unknown in the street, that you
feel for the people you love.
I think that at that point we are going to be reaching the maturity of that civilization
we are hoping for.
And seeing the universe through love, that doesn't run spacecrafts, of course, but putting
love into our intent of going into and settling into another planet instead of, oh my god,
we need to escape because we are freaking messing up with our own planet. I think that this is the answer to so many things.
Is there a part of you that maybe just a little bit wants to step for the Mars,
like you personally?
Oh, yeah, of course, I'm curious. I'm a scientist and I've been working on Mars.
I was actually privileged to be working on Gusev Criter
and deciding for the landing side of the spirit rover,
which means that I worked on that landing side for 15 years
and I got to see it from the ground.
That's the closest to being there and exploring.
Of course, that's not physically be present there.
If you were giving me the opportunity,
of course I would go, but I know one thing.
I would want to come back.
So given the option of dying on Mars,
or dying on Earth, you'd visit Mars,
but you would like to spend your last days here.
Yeah, because of a number of things.
I think that first we're not ready to set on Mars,
regardless of what being said.
It will happen.
It will happen, and because we are explorers, humans,
they're explorers.
So this will happen.
And it's a good thing, depending
on how we go about this, it can be a very good thing.
With time, as much as been exploring,
continue to explore the big questions of
origin and nature of life or exploring over planet,
the love you are talking about, love,
the love for my own planet as grown deeper,
and my concern about it as grown deeper.
So the data that I'm collecting to learn about other planets,
I'm also using it to understand better our home planet
and trying to make it a little better
for the next generation.
So if you were talking about love,
this is love that would drive me back here.
Yeah, this planet is, sometimes I just pause
and I'm in awe at the incredible thing we have here.
And just, I have deep gratitude for all the life forms here,
the beautiful complexity.
Of course, there's darkness behind it,
all the death, all the extinction that led up to us to the sentence of ape sitting
here today, I feel that's a responsibility.
Were the fittest that survived?
Exactly right.
As the dominant species, at least, technologically, etc., maybe not the wisest one, but the dominant
species, we have a responsibility towards the entire biosphere. and so on, maybe not the wisest one, but the dominant species.
We have a responsibility towards the entire biosphere,
because the decisions we are making now normally affect us.
They are affecting the entire biosphere.
And right now, the choices we are making are leading to the disappearance of 150 species every single day.
All the big mammals on this earth today are on the brika
vestigian.
We are within the sixth greatest max, it's extinction.
It's unfolding before our eyes.
And I would strongly suggest that we use our smart to help a little bit the situation.
And we can do this.
I think we can do this.
We just need to redirect our energy.
In the name of love, this was an incredible conversation.
I'm really honored to use it with me. I've been a fan of you work This was an incredible conversation. I'm really honored to
use it with me. I've been a fan of you work for a long time now, so this is
really awesome. Thank you so much for talking to me. You're welcome. Thanks.
Thanks for listening to this conversation with Natalie Cabral. To support this
podcast, please check out our sponsors in the description. And now let me
leave you with some words from Stanislav Lem and Solaris.
How do you expect to communicate with the ocean when we can't even understand one another?
Thank you.