10억 년 전 화성에 살았다면

Added: 2026-05-27

[00:00:00]Scientists finally did it. [music] They've discovered life on Mars.

[00:00:06]Maybe.

[00:00:07]To fully understand [music] what they've found and what this discovery means for you, well, let me take you back in time.

[00:00:14]But, I'm not just going to take you back 1 billion years. We're going to start much, much further back in history.

[00:00:22]Billions of years ago, [music] Mars wasn't a simple, lifeless, red rock. It had a thick atmosphere, pleasant temperatures, and liquid surface water.

[00:00:32]Think beachfront.

[00:00:34]Back then, Mars might have been a better location [music] for life to take hold than Earth. And maybe it did have living organisms on it. So, let's start at the beginning. And by that, I mean the beginning of the planets in our solar system, around 4 and 1/2 billion years ago.

[00:00:56]On Mars, this period is known as the pre-Noachian.

[00:01:01]Mars has just formed from dust and gas in the protoplanetary disk, just like Earth did. Pieces of debris clamped into a planet with a dense core, a rocky mantle, and a crust. And this planet was slammed with swirling space rocks.

[00:01:17]In its early years, Mars had a very dense atmosphere and an ocean so big it covered 1/3 of the planet.

[00:01:26]At first, the planet was super hot, but slowly, between 4.3 and 4.4 billion years ago, it cooled down.

[00:01:35]Fast forward to the Noachian period, about 4 billion years ago. This was a time of heavy asteroid and comet bombardments and widespread volcanic activity. So, basically, everything that could blast gas, vapor, and dust into the atmosphere was doing it. It was a perfect place for life to put down roots.

[00:01:57]All these gases created a thick atmosphere and the planet heated up thanks to the good old greenhouse [music] effect. Suddenly, Mars had clouds, valleys, lakes, and even rain.

[00:02:11]Likely acid rain. And this acid rain wasn't just destructive, it may have been useful.

[00:02:18]As it dissolved Martian rocks, it released minerals and nutrients into rivers and lakes, providing a chemical buffet for any microbes trying to survive.

[00:02:29]Harsh for you, but a probable paradise for tiny alien life.

[00:02:34]Then, somewhere between 4.1 and 3.7 billion years ago, things started going downhill.

[00:02:41]The interior of Mars cooled off and its magnetic field dissipated. Now, that's a problem for life. You might not think about magnetic fields very often, but without them, planets die. That's because without a magnetosphere, nothing is protecting the planet from solar wind. And that wind strips planets of their atmosphere.

[00:03:05]How does it do it?

[00:03:06]Well, solar wind isn't like the wind you know. It's a stream of charged particles coming from the sun.

[00:03:13]These particles slam into the air molecules and knock off their electrons.

[00:03:19]Without electrons, air molecules become ionized and get knocked into space.

[00:03:26]There's no air left on [music] the planet. So, that's how Mars started to lose its atmosphere. Well, so what?

[00:03:32]Well, keep in mind, without an atmosphere, there's no way to keep the temperature stable and no way to keep water on the ground. That meant that hotspots for life [music] to arise on Mars became smaller. Clock was ticking.

[00:03:46]But, the conditions for life were holding on. All is not lost. You still got this, Mars.

[00:03:59]Now, not long in cosmic terms after losing its magnetic field, Mars started to look more like Earth today. Yeah, 3.7 billion years ago was a great time for this red rock. It was the beginning of the Hesperian period. Mars may still have had a northern ocean around this time, though scientists think [music] it was shrinking fast. Still, it was the perfect place for Mars to be teeming with tiny early Martians.

[00:04:31]At this very same time, Earth kick-started primitive life on its surface. It was the beginning of the chain reaction for all life on our planet. It's also the period of time [music] between 3.2 and 3.8 billion years ago when something mysterious happened on Mars. Something that left potential biosignatures on the Martian rocks.

[00:04:56]When scientists discovered [music] these biosignatures, they knew they were onto something big.

[00:05:02]Well, I actually have one of the scientists who worked on the discovery right here with me, Dr. Ed Cloutis.

[00:05:08]So, Dr. Cloutis, is there life on Mars?

[00:05:12]We haven't found life on Mars. We found possible remains of life on Mars. And when we analyze it in detail, we detected things like organic molecules, [music] which is always a sign of possible life.

[00:05:24]Where we find this assemblage of minerals and [music] organic molecules on Earth, it's inevitably associated with biology. This discovery started when NASA's Perseverance rover was out cruising the Jezero crater, which used to be a huge Martian lake and river delta.

[00:05:42]Perseverance [music] rolled through the Neretva Valles, which is basically Martian for the now dry Neretva Vallis.

[00:05:50]We call it Vallis instead of valley for same reason we call Martian days sols and not days cuz it's Latin and it sounds cooler.

[00:06:00]Anyway, Neretva Vallis is about 400 m wide. That's 1,300 ft. Back in the day, it had a big river flowing through it.

[00:06:09]And it was here that Perseverance investigated sedimentary rocks like clay and silt, which are really good at preserving evidence of previous microbial life.

[00:06:20]Perseverance poked around some odd-looking mudstone rocks and found what could be the signatures of two iron-rich minerals, vivianite and greigite.

[00:06:32]These colorful leopard spots in this image could be fossilized signs that microbial life existed on Mars billions of years ago.

[00:06:42]Yeah, that's right. Microbes. That's what's at the core of the excitement around this core sample that Perseverance investigated.

[00:06:51]When we look at these spots, we could be looking at evidence of ancient life on Mars.

[00:06:57]Now, one thing NASA's rovers can't do is go back in time and capture Mars exactly like it was 3 and 1/2 billion years ago.

[00:07:06]Which is fine because on What If, we don't have a Mars rover. We have something better.

[00:07:12]Or worse. Uh definitely better.

[00:07:16]Hey Chase heads. So, uh this is Mars 3.5 bill years ago. Uh 3 and 1/2 billion years before Chase.

[00:07:24]Before humanity. Before uh I don't know, like big numbers ago.

[00:07:30]Pre-dino. Pre-robot. Pre-robot chicken.

[00:07:33]You know, all that stuff. It actually looks pretty sweet, you know? But life, nah. I don't see it.

[00:07:41]Nothing.

[00:07:42]Well, nobody said there would be walking, talking aliens, but you're looking at a river that's potentially churning with all kinds of single-celled organisms.

[00:07:53]I mean, it's cool here. I always think of Mars as like, you know, red, but it's like beautiful. It's like blue skies, you know, water. Check it out.

[00:08:02]I mean, I guess the dirt is still pretty red, but like, you know, look, Martian clouds. Pretty cool.

[00:08:09]The air's unbreathable. You still need a space suit, but it's pretty, you know, and thankfully, seems pretty safe.

[00:08:21]Look, okay. You guys wanted me to show you what life was like in this potentially historical spot, right? Huh?

[00:08:29]So, here you go.

[00:08:32]It's a bunch of dirt and stuff. You can't see anything without a proper microscope. So, honestly, disappointing. Very disappointing. Yeah, that appearance was disappointing.

[00:08:43]It's true, even though this recent discovery was the best proof of ancient life on Mars, it's very unlikely that life was anything but microbes. And while Perseverance has collected a number of samples, we still have to get [music] those samples back to Earth so we can study them properly.

[00:09:04]The current plan is a sample return mission in 2030, and I believe the samples would come back to Earth in 2031. Yeah, getting those rocks back is a complicated process.

[00:09:16]NASA is looking at sending a whole team of robots to get these samples and bring them back to Earth on [music] a European Space Agency orbiter.

[00:09:42]>> But, until that happens, we won't know for sure if there was ancient life on Mars.

[00:09:48]But, we do know that back in this Hesperian period, Mars was still rocking active volcanoes, only not for long.

[00:09:57]As its magnetic field dissipated, the temperature dropped. Mars was losing its atmosphere and water became locked in ice.

[00:10:08]Whenever asteroids smashed into Mars, the impacts superheated the underground water and created explosive flash floods, Martian tsunamis. And here's something cool to think about. We know that billions of years ago, chunks of Mars often got blasted off the planet and landed on Earth.

[00:10:29]We have over 400 pieces of space rock with Martian origins.

[00:10:34]Which means, if life was common on Mars back 3 and 1/2 billion years ago, could you yourself be from Mars?

[00:10:44]It'd be wild, but anything is possible.

[00:10:48]There's a theory that life on Earth originated from microbes that immigrated to our planet traveling on space dust, meteoroids, asteroids, comets, or even spacecraft.

[00:11:03]Now, Earth didn't see the first multicellular animals until about [music] 800 million years ago. And those were just sponges, but they could be sponges from Mars.

[00:11:15]Who knows?

[00:11:17]But, I'm getting carried away now. And this video is called what if you lived on Mars 1 billion years ago, not 3 billion years ago. So, as exciting as this time was for Mars, let's fast forward a little more.

[00:11:33]By the end of the Hesperian period, things started going downhill for Mars.

[00:11:38]While its neighbor Earth was welcoming life, [music] changing its atmosphere, and reshaping its surface, Mars was losing all the things that life could hold on to.

[00:11:49]2.9 billion years ago, the Martian magnetosphere was gone, and without it, solar winds did what solar winds do and stripped much of the atmosphere.

[00:12:01]The air had become thinner and could no longer retain heat. Very quickly, Mars was becoming cooler and drier, and that's bad news for the water on its surface.

[00:12:12]As the temperatures fell well below freezing, liquid water was disappearing.

[00:12:18]But, it was still there.

[00:12:21]Yeah, at this point, Mars still had some of its briny, salty water in isolated areas, but if you look around, you'll see that most of the oceans, rivers, lakes, gone.

[00:12:34]Volcanoes were on their way out, too.

[00:12:37]As Mars was cooling off, the volcanoes became less frequent, but you could still see Olympus Mons erupting occasionally. And these eruptions temporarily made Mars just a little warmer. Yeah, every time Olympus Mons erupted, it didn't just spread lava, it spewed [music] out greenhouse gases.

[00:13:00]For a short while, Mars [music] may have warmed up, melting ice, and unleashing sudden floods.

[00:13:07]These eruptions could be seen as the planet's last attempt to stay habitable.

[00:13:13]Now, what about all that potential life?

[00:13:17]Well, it's horrible news for those microbes, too.

[00:13:21]Now, back on Earth, microbes were thriving. Cyanobacteria started photosynthesis and pumped oxygen into the air.

[00:13:30]This began changing the composition of Earth's atmosphere.

[00:13:34]But Mars wasn't going in that direction.

[00:13:37]It started to get a cold red desert vibe.

[00:13:41]Even if microbial life did exist 3 [music] and 1/2 billion years on Mars, now? Well, it was dying in this increasingly hostile environment.

[00:13:52]The only chance it had of surviving would be underground, protected from the harsh surface. If anything could survive on Mars, it would have to be tough as hell, [music] and it would probably have to be below the surface, maybe a meter, a few meters. If any Martian microbes survived, they likely abandoned the surface and retreated underground into aquifers, caves, or close to geothermal hotspots, shielded from the radiation, freezing air above.

[00:14:25]Okay, finally, we fast forward to 1 billion years ago. That's what you've been waiting for, right?

[00:14:31]Well, that's too bad, because this is when Mars was inevitably becoming what it is today, a red, lifeless rock.

[00:14:40]This period of Martian history is called the Amazonian. It started 2.9 billion years ago, and it's still going on as of today. Yeah, that's right. Mars has looked like this for a very long time, dry, dusty, rusty red. Whether it was 2 billion years ago or 1 billion or 2 years ago, if you lived on Mars, life would be the same.

[00:15:06]To be clear, there wouldn't be any, at least not that we know of.

[00:15:11]So, here you are in the middle of the red desert. The atmosphere is thin, composed mostly of carbon [music] dioxide, and the surface pressure is low, about 1% of Earth's.

[00:15:25]Surface water doesn't exist, or if it does, it doesn't last. It vaporizes.

[00:15:31]Plus, it's freezing. By now, the average surface temperature has plummeted to about minus 60° C.

[00:15:39]That's -76° F. But, occasionally, But, occasionally, Olympus Mons erupts and warms up the surrounding area.

[00:15:47]If you don't know, Olympus Mons isn't your average volcano.

[00:15:52]At about 22 km, or 14 mi high, it's the largest volcano in the solar system.

[00:16:00]Yeah, three times taller than Mount Everest, and about the size of the entire state of Arizona. It started forming 3 and 1/2 billion years ago. For billions of years, it was growing, turning into a giant. It was able to do this without any interference because Mars doesn't have plate tectonics beneath its crust to move this mountain around. And 1 billion years ago, it was still active. Not as active as in its best years, but wasn't dormant. It spewed lava for hundreds of kilometers, and reshaped and warmed the Martian surface around it.

[00:16:38]Back then, it could have been a Martian's last resort. All that underground heat could have created hydrothermal systems, which are a really good place for microbes to hide from the harsh surface conditions.

[00:16:51]Today, Olympus Mons is silent. Just a giant pimple on the Martian surface. One that's visible from space. I had one of those before senior prom.

[00:17:03]From this point on, Mars didn't change much. Now, without an atmosphere or water, its surface is primarily changed by erosion, some late-stage volcanism, and lava flows. Strong winds also shape Mars, creating sand dunes and flattening the plains.

[00:17:21]There could be underground water, but no oceans.

[00:17:25]And here and there, there's faint evidence of life, like these leopard spots on rocks that shouldn't have spots. You know, the search for life on Mars [music] is going to get harder as time goes on.

[00:17:37]The spacecraft we send now, we decontaminate [music] them as much as we can so that if we do find organic molecules or [music] possible biosignatures, we're pretty sure that it's not uh contamination brought from the Earth. But once you start sending people up there, I mean, we're [music] just bags of microbes and germs, right? So, once we start sending people up there, finding unambiguous signs of life is going to be harder because we're not going to be sure that it's not contaminants that we brought ourselves to Mars.

[00:18:10]Mars actually Oh, look.

[00:18:13]Storm's coming. That's That's not helping at all.

[00:18:19]Maybe one day you'll set foot on Mars, build a base, grow some potatoes, try your best to last longer than 5 seconds here.

[00:18:27]But that's a story for another What if?

[00:18:39]>> [music] [music]