The mysterious origins of life on Earth – Luka Seamus Wright

Billions of years ago on the young planet Earth
simple organic compounds assembled into more complex coalitions
that could grow and reproduce.
They were the very first life on Earth,
and they gave rise to every one of the billions of species
that have inhabited our planet since.
At the time, Earth was almost completely devoid
of what we’d recognize as a suitable environment for living things.
The young planet had widespread volcanic activity
and an atmosphere that created hostile conditions.
So where on Earth could life begin?
To begin the search for the cradle of life,
it’s important to first understand the basic necessities for any life form.
Elements and compounds essential to life include hydrogen, methane, nitrogen,
carbon dioxide, phosphates, and ammonia.
In order for these ingredients to comingle and react with each other,
they need a liquid solvent: water.
And in order to grow and reproduce,
all life needs a source of energy.
Life forms are divided into two camps:
autotrophs, like plants, that generate their own energy,
and heterotrophs, like animals, that consume other organisms for energy.
The first life form wouldn’t have had other organisms to consume, of course,
so it must have been an autotroph,
generating energy either from the sun or from chemical gradients.
So what locations meet these criteria?
Places on land or close to the surface of the ocean
have the advantage of access to sunlight.
But at the time when life began, the UV radiation on Earth’s surface
was likely too harsh for life to survive there.
One setting offers protection from this radiation
and an alternative energy source:
the hydrothermal vents that wind across the ocean floor,
covered by kilometers of seawater and bathed in complete darkness.
A hydrothermal vent is a fissure in the Earth’s crust
where seawater seeps into magma chambers
and is ejected back out at high temperatures,
along with a rich slurry of minerals and simple chemical compounds.
Energy is particularly concentrated
at the steep chemical gradients of hydrothermal vents.
There’s another line of evidence that points to hydrothermal vents:
the Last Universal Common Ancestor of life, or LUCA for short.
LUCA wasn’t the first life form, but it’s as far back as we can trace.
Even so, we don’t actually know what LUCA looked like—
there’s no LUCA fossil, no modern-day LUCA still around—
instead, scientists identified genes that are commonly found in species
across all three domains of life that exist today.
Since these genes are shared across species and domains,
they must have been inherited from a common ancestor.
These shared genes tell us that LUCA lived in a hot, oxygen-free place
and harvested energy from a chemical gradient—
like the ones at hydrothermal vents.
There are two kinds of hydrothermal vent:
black smokers and white smokers.
Black smokers release acidic, carbon-dioxide-rich water,
heated to hundreds of degrees Celsius and packed with sulphur, iron, copper,
and other metals essential to life.
But scientists now believe that black smokers were too hot for LUCA—
so now the top candidates for the cradle of life are white smokers.
Among the white smokers,
a field of hydrothermal vents on the Mid-Atlantic Ridge called Lost City
has become the most favored candidate for the cradle of life.
The seawater expelled here is highly alkaline and lacks carbon dioxide,
but is rich in methane and offers more hospitable temperatures.
Adjacent black smokers may have contributed the carbon dioxide necessary
for life to evolve at Lost City,
giving it all the components to support the first organisms
that radiated into the incredible diversity of life on Earth today.
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