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Life has existed on one planet for about 4 billion years, as far as we know. But it might

have started right after the Big Bang, when the universe was much stranger and more fantastic

than today. A universe that might have allowed life to develop absolutely anywhere. The cosmos

might be full of the seeds of life, sleeping in a dead desert, waiting for a few drops

of rain to explosively bloom and grow. Tiny and not so tiny aliens might be everywhere.

In this video we are going to put together two highly speculative yet scientifically

grounded possibilities – check out the scientific papers in our sources. To properly explain it

let’s first look at the paradox of life on Earth.

The Life Paradox

For its first few hundred million years,

Earth was a magma hell constantly  bombarded by asteroids.

But basically the second things calmed down and the first oceans formed, life just appeared

and zillions of microbes settled every nook and cranny they found.

This is kind of strange – life on Earth seems to be almost as old as the planet itself.

As if it was waiting around for an opportunity. But life didn’t only appear extremely quickly:

in that tiny time window, it also crossed a huge gap.

To qualify as living things, even microbes need to eat, poop, grow and multiply.

To do that, they need a genome,  the biological instruction manual

that sets the inner workings of an organism.

How dead things with no genome became living things with genomes is one of the biggest

riddles of science. Simplifying a lot, the problem is that to have a functioning genome

you need proteins, and to make those proteins you need a functioning genome. Both proteins

and genomes are super long molecules made of pretty complex blocks

that are extremely difficult to assemble by chance.

It is a chicken-egg paradox with several chickens and eggs.

Once you have a finished cell, the whole system works efficiently. But starting from simple

dead stuff and reaching  that level of sophistication 

by pure chance should require an amazing amount

of time for trial and error. So how did the first living things manage to cross that gap

in just a few hundred million years?

Most theories about the origin of life try to explain that gap by theorizing how some

primitive soup of prebiotic molecules

could have efficiently produced  the first self replicating entities.

But we still don’t know how exactly this would have worked.

Maybe we need to think backwards.

The Clock of Evolution

Think of genomes as a book telling the history of life. As time passed and life evolved,

more characters were introduced: Amoebae, fish, amphibians, dinosaurs and mammals.

Over billions of years, the story of lifegot more and more complex.

A genome can be viewed as a long string of letters with biological instructions.

And from microbes to us today, functional genomes seem to have been increasing in size

at a fairly constant rate.

The functional genome of fish is more than twice that of worms; our functional genome is about

twice bigger than that of fish and so on. It is a bit more complicated, but for now

let’s run with this.

When we put all these clues together, it seems that genomes have been doubling in

size on average every 350 million years or so. As if evolution had been following an

exponential inner clock. But it gets even stranger.

The very first microbes that emerged on Earth, even if they look simple, already seem to

have had pretty long and complex genomes. But how could life have achieved that level

of complexity in such a short time?

There may be an interesting way to solve this riddle: We just take our exponential clock

and extrapolate it back in time, to the simplest conceivable life form – something equivalent

to a being with a genome containing just a few letters. But if we do that we end up

10 billion years in the past. More than twice the age of Earth, which means: If life actually

evolved like this, it did not start here, but somewhere out there, in space.

This would explain why life started to thrive so quickly on our young planet. If it was

already present in space like a seed, it just needed water and warm temperatures to wake

up and go on evolving. And it would also explain the high degree of sophistication of the first

life forms on Earth. They could have been complex already because they might have been

evolving for billions of years somewhere else in the universe.

But could life really be that old? Maybe yes. Actually, life could have started shortly

after the universe itself was born.

A Goldilocks Baby Universe

At its most basic level life needs two things: the right chemical elements to form complex

molecules and a liquid medium like water, in which those molecules can move and interact.

The liquid medium needs to stay warm enough to remain, well, liquid.

So when we search for life in space, we focus on Earth-like planets at just the right distance

from their star – warm enough to sustain liquid water.

But there was actually a time when almost all of the universe might have been habitable.

Right after the Big Bang the universe was extremely hot. But as the cosmos expanded,

it cooled. And between about 10 and 17 million years after the Big Bang, when the universe

was a thousand times younger than today, it was between 100 ºC and 0 ºC – the temperature

at which water is liquid. So for this window of time, more than 13.7 billion years ago,

the whole universe, absolutely every inch of it, had the right temperature

to support life.

Of course, the right temperature alone is not enough for life. We also need

chemical elements like carbon and oxygen, which are forged in the cores of stars.

But were there stars in super early cosmic times? Maybe yes – in regions of the universe where

matter was especially dense. Such stars would have been very massive and gone supernova

in just 3 million years – seeding the baby universe with the chemical elements needed

to form dust, asteroids, planets and the ingredients of life.

Maybe the first ancestors of life were more exotic and didn’t even need water, but thrived

in substances like ammonia or ethane that can stay liquid at temperatures far below

0 °C. They could have been sustained by the lingering warmth of the Big Bang for tens

of millions of years longer, well into a time when we know for sure there were stars and

all the chemical elements.

The real magic of this idea is that while the universe today is extremely deadly and

hostile, back then the conditions for life might have been basically everywhere.

For a period that may have lasted several dozen million years, primordial life might have been

able to emerge on any rock, even between the stars

• sowing the universe with the seeds of what, billions of years later,

would become bacteria, trilobites, dinosaurs, and finally us.

At some point the universe cooled below the right temperature for life to thrive, but

some of those ancestral life forms may have continued to exist in the internal warmth

of the first planets, frozen in asteroids or hibernating in cosmic dust – tiny seeds

roaming the cosmos waiting for new hospitable places to continue evolving. If they did,

life now might be everywhere in the universe.

Will We Ever Know?

All this makes for a nice story. And while both the habitability of the baby universe

and our exponential clock of life are reasonable ideas

– they are still speculative.

One more possibility among many others, trying to explain our existence today.

But if life came to Earth from outer space, then it should have seeded other places in

the solar system too. Maybe there are fossils in dry riverbeds on Mars. Maybe we’ll soon

find life in the warm underground oceans of Enceladus or Europa. Titan has seas, rivers

and lakes of ethane and methane as warm as the universe when it was 90 million years

old. So finding exotic life on Titan would support the idea that life could have originated

in the weird baby universe.

So far, when we look out into the cosmos we don’t see anyone like us. But maybe that’s

because life needed ten billion years or more to reach the level of complexity that

allows for a technological species. Maybe there are millions of worlds filled with microbes,

oceans full of exotic fish, and continents of bizarre animals. And maybe even others

like us, that just recently gained consciousness and are beginning to look at the sky,

wondering if they are alone.

Life could be flourishing right now in uncountable forms and in all kinds of cosmic environments.

And if many of us share a common cosmic origin, we would all be part of a great cosmic family.

The answer may lie in our cosmic backyard.

Let’s go and find out!

It’s time. Let’s reveal the 12,024 Human Era Calendar with a Big Bang!

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us all. A much better representation  of how far our species has come!

This year we’re looking at the  cosmos and all the possible life that  

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beings from the ones on earth. Where in the universe might life exist?

And how would different cosmic  environments affect the basic rules of life?

Join us in 12,024 and find out! Explore strange cosmic habitats and  

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