The mysterious origins of life on Earth - Luka Wright
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0:09 - 0:12Billions of years ago
on the young planet Earth -
0:12 - 0:17simple organic compounds assembled
into more complex coalitions -
0:17 - 0:20that could grow and reproduce.
-
0:20 - 0:23They were the very first life on Earth,
-
0:23 - 0:28and they gave rise to every one
of the billions of species -
0:28 - 0:31that have inhabited our planet since.
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0:31 - 0:34At the time, Earth was almost completely
devoid -
0:34 - 0:38of what we’d recognize as a suitable
environment for living things. -
0:38 - 0:42The young planet had widespread
volcanic activity -
0:42 - 0:45and an atmosphere that created
hostile conditions. -
0:45 - 0:49So where on Earth could life begin?
-
0:49 - 0:51To begin the search for
the cradle of life, -
0:51 - 0:57it’s important to first understand the
basic necessities for any life form. -
0:57 - 1:02Elements and compounds essential to life
include hydrogen, methane, nitrogen, -
1:02 - 1:05carbon dioxide, phosphates, and ammonia.
-
1:05 - 1:10In order for these ingredients to comingle
and react with each other, -
1:10 - 1:13they need a liquid solvent: water.
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1:13 - 1:16And in order to grow and reproduce,
-
1:16 - 1:19all life needs a source of energy.
-
1:19 - 1:22Life forms are divided into two camps:
-
1:22 - 1:26autotrophs, like plants, that generate
their own energy, -
1:26 - 1:31and heterotrophs, like animals, that
consume other organisms for energy. -
1:31 - 1:36The first life form wouldn’t have had
other organisms to consume, of course, -
1:36 - 1:38so it must have been an autotroph,
-
1:38 - 1:43generating energy either from the sun
or from chemical gradients. -
1:43 - 1:47So what locations meet these criteria?
-
1:47 - 1:50Places on land or close to the surface
of the ocean -
1:50 - 1:53have the advantage of access to sunlight.
-
1:53 - 1:58But at the time when life began,
the UV radiation on Earth’s surface -
1:58 - 2:01was likely too harsh for life
to survive there. -
2:01 - 2:05One setting offers protection
from this radiation -
2:05 - 2:07and an alternative energy source:
-
2:07 - 2:11the hydrothermal vents that wind across
the ocean floor, -
2:11 - 2:17covered by kilometers of seawater
and bathed in complete darkness. -
2:17 - 2:21A hydrothermal vent is a fissure
in the Earth’s crust -
2:21 - 2:24where seawater seeps into magma
chambers -
2:24 - 2:27and is ejected back out
at high temperatures, -
2:27 - 2:33along with a rich slurry of minerals
and simple chemical compounds. -
2:33 - 2:35Energy is particularly concentrated
-
2:35 - 2:40at the steep chemical gradients
of hydrothermal vents. -
2:40 - 2:43There’s another line of evidence
that points to hydrothermal vents: -
2:43 - 2:49the Last Universal Common Ancestor
of life, or LUCA for short. -
2:49 - 2:54LUCA wasn’t the first life form,
but it’s as far back as we can trace. -
2:54 - 2:58Even so, we don’t actually know what
LUCA looked like— -
2:58 - 3:02there’s no LUCA fossil, no modern-day
LUCA still around— -
3:02 - 3:07instead, scientists identified genes that
are commonly found in species -
3:07 - 3:11across all three domains
of life that exist today. -
3:11 - 3:16Since these genes are shared across
species and domains, -
3:16 - 3:19they must have been inherited from
a common ancestor. -
3:19 - 3:25These shared genes tell us that LUCA lived
in a hot, oxygen-free place -
3:25 - 3:28and harvested energy from a chemical
gradient— -
3:28 - 3:32like the ones at hydrothermal vents.
-
3:32 - 3:35There are two kinds of hydrothermal vent:
-
3:35 - 3:37black smokers and white smokers.
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3:37 - 3:41Black smokers release acidic,
carbon-dioxide-rich water, -
3:41 - 3:47heated to hundreds of degrees Celsius
and packed with sulphur, iron, copper, -
3:47 - 3:50and other metals essential to life.
-
3:50 - 3:55But scientists now believe that black
smokers were too hot for LUCA— -
3:55 - 4:00so now the top candidates for the
cradle of life are white smokers. -
4:00 - 4:02Among the white smokers,
-
4:02 - 4:07a field of hydrothermal vents on the
Mid-Atlantic Ridge called Lost City -
4:07 - 4:11has become the most favored candidate
for the cradle of life. -
4:11 - 4:17The seawater expelled here is highly
alkaline and lacks carbon dioxide, -
4:17 - 4:21but is rich in methane and offers
more hospitable temperatures. -
4:21 - 4:26Adjacent black smokers may have
contributed the carbon dioxide necessary -
4:26 - 4:28for life to evolve at Lost City,
-
4:28 - 4:32giving it all the components to support
the first organisms -
4:32 - 4:36that radiated into the incredible
diversity of life on Earth today.
- Title:
- The mysterious origins of life on Earth - Luka Wright
- Speaker:
- Luka Wright
- Description:
-
more » « less
View full lesson: https://ed.ted.com/lessons/the-mysterious-origins-of-life-on-earth-luka-seamus-wright
Billions of years ago, simple organic compounds assembled into more complex coalitions that could grow and reproduce. At the time, Earth had widespread volcanic activity and a hostile atmosphere that made it almost devoid of a suitable environment for living things. So where did life begin? Luka Wright searches for the cradle of life that gave rise to the billions of species that inhabit our planet.
Lesson by Luka Seamus Wright, directed by Nick Hilditch.
- Video Language:
- English
- Team:
closed TED
- Project:
- TED-Ed
- Duration:
- 04:37
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Tara Ahmadinejad edited English subtitles for The mysterious origins of life on Earth |
Florencia Bracamonte
There seems to be a typo at 1:05 - 1:10 --> commingle: https://www.oxfordlearnersdictionaries.com/definition/english/commingle?q=commingle
Вадим Гузик
There's a typo: commingle (1.05)