How the Dinosaurs Actually Went Extinct


So you just clicked on this video, you saw the title – you probably think you already
know the answer to this question.
But as it often turns out, the science is more complicated than what we have been told.
First, let’s take a look at the story we’ve heard, and why we’re so sure that an asteroid
impact was a big part of the dinosaurs not existing anymore.
[Intro]
I’m not gonna lie to you.
It was a really bad day.
Some time around 66 million years ago, a giant asteroid about the size of Manhattan careened
into Earth.
It smashed into the ocean on the shores of what we now think of as the Gulf of Mexico
and caused lasting damage to the planet.
The energy of the impact itself vaporized every living thing within a day’s walk.
Then huge chunks of the meteorite that had been thrown up into the atmosphere started
raining back down as molten glass.
The ensuing cloud of ash and dust that was vaulted into the atmosphere obscured the sun
for decades, creating a dim, cold climate plagued by acid rain and firestorms.
Over the millennia that followed, at least 50% of the species on Earth disappeared – 20%
of the world’s species of sharks, rays, and skates; nearly 60% of the plants; 98% of the
warm-water corals; and of course, 100% of the dinosaurs.
For most of us, that collision has become a kind of shorthand explanation for why the
dinosaurs disappeared, and because we associate asteroids with extinction, it’s a scenario
that still scares us.
But as our knowledge expands, we’ve come to see that what killed the dinosaurs, like all
of the other great extinctions that happened before, was probably a lot more complex than
just a big rock falling into the ocean.
Because it turns out, there was more than one disaster movie playing at the cineplex
that was Earth 66 million years ago.
It was such a calamity that it literally, in geological terms, marked the end of an
era.
The dinosaur dominated period of life that we knew as the Cretaceous Era was suddenly
over.
The new normal, marked by the rise of mammals, would be called the Paleogene Era.
The giant die-out that created this transition is now known as the Cretaceous-Palogene Extinction
Event, or the K-Pg for short.
And like many things in science, there’s not a whole lot of consensus about what caused
the K-Pg, but there are a few facts that everyone agrees on.
First, about 66 million years ago, the climate changed, a lot, all over the world.
We can tell by changes in the types of marine fossils from both before and after the event,
along with differences in soil chemistry and other evidence that the climate became much
cooler really fast – by 7 degrees Celsius in some places.
The transition was so abrupt that the layer of rock that separates the before picture
from the after picture is easy to spot with a well-trained eye.
It’s known as the Cretaceous-Palogene Boundary, and the chemistry of this boundary of rock
is itself another weird clue, because it shows up all over the world in the same way – a
sudden appearance of a layer of clay that’s rich in iridium.
Iridium is a metal, and if you’ve never heard of it, that’s because it’s very rare on earth.
We tend to find it most often in meteorites and other celestial deposits.
The last clue that everyone agrees on is simply extinction itself – tons of living things
just disappear from the fossil record.
Tyrannosaurus Rex, the biggest land predator at the time, Bennettitales, a group of tall
plants with thick armored trunks, and whole passel of reptiles that lived alongside the
dinosaurs and are still sometimes mistaken for them.
Aquatic reptiles like mosasaurs and plesiosaurs, and pterosaurs – those freaky flying reptiles
– all of them, gone.
So the reason that the Asteroid Impact Theory is so compelling is that it explains pretty
much all of those things.
The theory first came about because of that iridium.
In 1980 geologist Walter Alvarez was studying clay deposits in Italy that dated back about
65 million years and found that they contained hundreds of times more iridium than normal,
and the more of that stratum of the earth that he sampled in different parts of the
world, the more iridium he found.
Since iridium is rare on earth but plentiful in space-rocks, Alvarez and his father – Nobel
prize winning physicist Luis Alvarez – hypothesized that it was a sign of an enormous asteroid
impact.
Based on the amount of iridium they’d found, they figured that the collision was caused
by a giant metallic rock, about 10 kilometers across – big enough create an impact with
the energy of 180,000,000 megatons of TNT.
Clearly, it was a game changer.
Alvarez and son theorized that this collision must have been what wiped out the dinosaurs.
Soon, scientists stared finding other signs of a colossal asteroid impact – like shocked
quartz.
At K-Pg sites around the world, the quartz looked like it had been transformed – its
crystals rearranged by tremendous pressure that you’d never suspect to find on earth’s
surface.
Then they found tektites – big tear-dropped shaped pieces of glass that form when rocks
are thrown into the atmosphere by an impact and then melt on re-entry.
So all the signs pointed towards a huge, ugly collision.
But there was one thing missing – a crater!
Scientists new about a lot of different impact craters around the world, but none of them
matched the magnitude of the one that the Alvarezes envisioned.
Then researchers started noticing that a lot of the evidence they were studying – the iridium,
the quartz, the glass – was all concentrated in North America, so they focused their search,
using new technology, like satellite imagery and scans that measure the density of rock
beneath the surface, and in 1991 they found what they were looking for – a giant crater
just off the coast of Mexico’s Yucatan Peninsula, about 180 kilometers across – about the size
you’d expect a 10 kilometer asteroid to make, and marked by huge disruptions in the layers
of rock at about 66 million years ago.
It was named after the nearby town of Chicxulub, and that is how the biggest piece of the puzzle
came together – the Asteroid Impact Theory, also known as the Alvarez Hypothesis.
So, like I said, this theory checks off a lot of the boxes when it comes to the evidence
we have.
Explains the abundance of iridium in the rocks?
Check!
Accounts for the drastic and sudden change in climate?
Check!
Was capable of killing 50% of life on earth?
Double-Check!
So the rest is history – by which I mean it became accepted as historical fact, and it’s
the quick and easy answer to the question of what killed the dinosaurs.
Now, you’re not going to find many scientists who say that there was never any impact or
that the theory is totally off-base, but there are many who think that there were other factors
at work and that the extinction might well have started before, and the asteroid came
to finish the job.
It turns out, for instance, that the impact occurred in the middle of the most severe
volcanic activity Earth has ever seen.
India is home to one of the largest lava flows in the world, with volcanic rock covering
an area the size of France and, at some places, nearly two and half kilometers thick.
These formations are known as the Deccan Traps, and they were formed by a series of mind-blowingly
huge eruptions that scientists think began about 500,000 to a million years before the
Yucatan Impact, and kept going for hundreds of thousands of years afterward.
Such violent, prolonged eruptions would have had an unmistakable effect on the climate,
sending ash and dust into the atmosphere, obscuring sunlight, killing vegetation, and
altering weather patterns around the world.
And, sure enough, fossils show changes in things like microscopic marine life that suggest
a steep dive in temperature before the impact by as much as five to eight degrees Celsius.
Now the big-picture impacts of this kind of climate change, whether it was caused by volcanoes
or an asteroid, are probably pretty obvious, but the thing is we’re not sure how exactly
this led to the dinosaur wipe-out.
For instance, despite the fact that we think of dinosaurs as reptiles, they probably weren’t
cold blooded, but from what we can tell about their physiology, they weren’t warm blooded
like modern birds either.
So they might have been somewhere in between, or different types of dinosaurs could have
had different types of metabolisms.
In either case, they weren’t able to adapt as well or as quickly to changing temperatures
as mammals or other kinds of animals.
Another problem dinosaurs likely suffered was simply their own success.
They were by far the largest animals on land, and lots of fossil beds suggest that sometimes
they lived in dense populations.
So dinosaurs were probably competing with each other for food, water, and territory
by the time the curtain started to fall.
Throw in a tiny little variable, like a 7 degree change in temperature, and you can
see how things would fall apart pretty quickly.
While some dinosaurs might have given in pretty quickly to the cold, the plant eaters may
have dwindled more slowly as huge swathes of plant life started to disappear, and then
without any herbivores to prey on, the meat eaters began to vanish.
But that’s just one scenario; in addition to volcanoes exploding and space rocks hurtling
toward us, it also seems that the oceans were disappearing, not because of changes in climate
but because of changes in the plates of the Earth’s crust.
Again, about 65 million years ago, the usually dynamic rifts where plates meet under the
ocean floor began to stagnate.
It’s like the plates just stopped moving, and once they stopped, those rifts began to
settle, sinking down into the earth’s mantle.
As the sea floor dropped, ocean levels dropped with them.
This phenomenon, known as marine regression, completely changed the map of the Earth.
Inland seas, like the one that used to run through the middle of North America disappeared,
and more than 28 million square kilometers of land suddenly became exposed in less than
100,000 years.
Marine regressions don’t happen often, but when they do, they are usually linked to extinction
events because not only do they remodel life on land, turning shorelines into planes and
lakes into deserts, they also wreck everything for aquatic life.
Marine regressions cause big changes in ocean depth and temperature and can create huge
oxygen-poor dead zones.
This is probably why fossils show enormous die-offs in plankton, for instance, tens of
thousands of years before the Chicxulub impact.
With these centers of the food web gone, it makes sense that other saltwater creatures
like sharks and rays and corals, and reptiles like mosasaurs and plesiosaurs, would not
be far behind.
Again, it could have played out in a number of ways, and in a way, it’s kind of fun to
consider all the different scenarios.
Like if the Chicxulub impact never happened, the world would be a very different place1
We might still have a world with pterosaurs and armored trees and me riding a triceratops
at the rodeo.
I definitely wouldn’t do that, let’s be honest.
I don’t even want to ride a horse, a tame, docile, old horse, I’m like “Oww, no.”
But if there were no asteroid, a lot of dinosaurs and marine life would probably be gone anyway.
In that case, the Chicxulub impact may have just been the last nail in the coffin – something
that turned an already really hard day into one of the worst days in the history of the
planet.
The point is, we still don’t have one single answer to what caused the K-Pg extinction
event, though we generally talk about it like we do.
But the more clues we tease out of the ground, the better we’ll be able to understand what
can cause such a diverse group of animals that once ruled the earth to all but disappear.
Thanks for watching this SciShow Infusion, especially to our Subbable subscribers.
To learn how you can support us in exploring the world, just go to subbable.com/scishow.
And as always, if you want to keep getting smarter with us, just go to youtube.com/scishow
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