There may be extraterrestrial life in our solar system - Augusto Carballido

00:06

Deep in our solar system,

00:08

a new era of space exploration is unfolding.

00:12

Beneath the thick ice of Europa,

00:15

in the vapor plumes on Enceladus,

00:17

and within the methane lakes of Titan,

00:20

astrobiologists are on the hunt for extraterrestrial life.

00:25

We’ve honed in on these three moons because each is an ‘ocean world,’

00:30

an environment that contains a liquid ocean–

00:33

and liquid can support the formation of life.

00:37

Living organisms have to be able to grow, reproduce, and feed themselves,

00:42

among other things.

00:44

All of those functions require the formation of complex molecules

00:48

from more basic components.

00:50

Liquids such as water allow chemical compounds to remain in suspension

00:55

instead of sinking under the force of gravity.

00:58

This enables them to interact frequently in a 3-dimensional space and,

01:03

in the right conditions,

01:04

go through chemical reactions that lead to the formation of living matter.

01:09

That alone isn’t enough;

01:12

the small but complex biomolecules that we’re familiar with

01:16

are sensitive to temperature—

01:18

too hot or cold, and they won’t mix.

01:21

Liquid water has an additional advantage

01:24

in that it’s relatively temperature-stable,

01:26

meaning it can insulate molecules against large shifts in heat.

01:31

On Earth, these and other conditions in aquatic environments

01:35

may have supported the emergence of life billions of years ago.

01:39

Tantalizingly, the same could be true in other parts of our solar system,

01:44

like these three icy moons.

01:48

Europa, which is a moon of Jupiter,

01:50

is probably the most intriguing ocean world.

01:53

Beneath a surface layer of ice thicker than Mount Everest,

01:57

there exists a liquid ocean as much as 100 kilometers deep.

02:02

Astrobiologists think this hidden ocean could harbor life.

02:06

Thanks to the Galileo probe,

02:08

we can deduce that its potential salt content

02:11

is similar to that of some lakes on Earth.

02:14

But most of its characteristics will be a mystery until we can explore it further.

02:19

Like Jupiter, Saturn also has moons that might have the right conditions for life.

02:25

For instance– Enceladus is a tiny ball of ice that’s small enough to nestle

02:30

within the surface area of the Gulf of Mexico.

02:33

Similarly to Europa, it likely contains an ocean deep under the ice.

02:38

But Enceladus also has geysers

02:41

that frequently vent water vapor and tiny ice grains into space.

02:46

Astrobiologists are curious about whether these geysers

02:50

are connected to the ocean below.

02:52

They hope to send a probe to test whether the geysers’ plumes of vapor

02:56

contain life-enabling material from that hidden sea.

03:01

Although it’s the best known substance for nurturing life,

03:04

water isn’t necessarily the only medium that can support living things.

03:09

Take Titan, Saturn’s largest moon,

03:12

which has a thick nitrogen atmosphere

03:14

containing methane and many other organic molecules.

03:18

Its clouds condense and rain onto Titan’s surface,

03:22

sustaining lakes and seas full of liquid methane.

03:26

This compound’s particular chemistry means it’s not as supportive a medium as water.

03:32

But, paired with the high quantities of organic material

03:35

that also rain down from the sky,

03:38

these bodies of liquid methane could possibly support unfamiliar life forms.

03:44

So what might indicate that life exists on these or other worlds?

03:49

If it is out there, astrobiologists speculate that it would be microscopic,

03:54

comparable to the bacteria we have on earth.

03:57

This would make it difficult to directly observe from a great distance,

04:01

so astrobiologists seek clues called biosignatures.

04:05

Those may be cells, fossils, or mineral traces left behind by living things.

04:11

And finding any biosignatures will be challenging for many reasons.

04:16

One of the biggest concerns

04:18

is to make sure we sterilize our probes extremely thoroughly.

04:22

Otherwise we could accidentally contaminate ocean worlds

04:26

with Earth’s own bacteria,

04:28

which could destroy alien life.

04:31

Titan, Enceladus, and Europa

04:34

are just three of possibly many ocean worlds that we could explore.

04:38

We already know of several other candidates in our solar system,

04:42

including Jupiter’s moons Callisto and Ganymede,

04:46

Neptune’s Triton, and even Pluto.

04:49

If there’s this much potential for life to exist in our own tiny solar system,

04:54

what unimagined secrets might the rest of the universe contain?