Science Friday - What Was It Like To Witness The End Of The Dinosaurs?
Episode Date: December 3, 2024As part of Science Friday’s 33rd anniversary show, we’re revisiting our listeners’ favorite stories, including this one from 2022.66 million years ago, a massive asteroid hit what we know today ...as the Yucatán Peninsula of Mexico. Many people have a general idea of what happened next: The age of the dinosaurs was brought to a close, making room for mammals like us to thrive.But fewer people know what happened in the days, weeks, and years after impact. Increased research on fossils and geological remains from this time period have helped scientists paint a picture of this era. For large, non-avian dinosaurs like Triceratops and Tyrannosaurus rex, extinction was swift following the asteroid impact. But for creatures that were able to stay underwater and underground, their post-impact stories are more complicated.In 2022, Utah-based science writer Riley Black joined Ira to discuss her book The Last Days of the Dinosaurs.Transcripts for each segment will be available after the show airs on sciencefriday.com. Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.
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What would it have been like to witness the last moments of the dinosaurs just after the asteroid struck the earth?
It raises the air temperature all around the planet to about 500 degrees Fahrenheit.
So if you ever broiled a chicken, that's about what you broil a chicken at.
And T-Rex was more or less a broiled chicken within about 24 hours of this impact.
It's Tuesday, December 3rd, and you're listening to Science Friday.
I'm SciFri producer Dee Petersman.
We're returning with more of our listeners' favorite segments for our 33rd anniversary.
and today we're going back in time, first to 2022, when this interview originally aired,
and then way back to explore what happened on Earth after that massive asteroid wiped out the dinosaurs.
Irafledo talked to an author of a book that traced what happened from the immediate aftermath to thousands of years later.
Joining me is Riley Black, author of The Last Days of the Dinosaur based in Salt Lake City, Utah.
Welcome back to the show.
Thank you so much for having me back on.
You're quite welcome.
I know you have written several books, many about dinosaurs.
Why did you want to focus on the last days of the dinosaur in this book?
Yeah, I realized that I hadn't really done justice to the story to borrow that Seinfeld
line.
I kind of yada yada-a-yattaed this extinction, right?
Because a big rock strikes the planet.
We assume that it's going to cause a mass extinction somehow.
But there have been other impacts.
At other times, I had nothing to do with any major extinction event.
So this seemed different.
And I realized I didn't know as much about it.
as I probably should. And the more that I started to research on this, and I mean,
paleontology is my beat. I write stories about some of these new discoveries. I realized that
I had the story kind of not entirely wrong, but I didn't understand how much we had learned about
it. Yeah. Well, let's begin where you just left off there. You say in your book that there
have been other impacts of similar or greater scale that did not trigger biological disasters.
So what was it about this impact that did? Yeah, that's a really strange thing because it's not
as if this asteroid or whatever this body of rock was, we're pretty sure it was some kind of
asteroid, a carbonaceous chondrite, I think is the best working hypothesis right now.
It wasn't just hanging out, you know, near Earth and decided to stop in. It had been traveling
towards our planet for a very, very long time. And this was kind of like a galactic skill shot,
in a sense. Like, you know, it could have just as easily missed or come closer, hit somewhere else
on the planet. But the fact that it hit at an incredible amount of speed was so very big. And it
hit all this linestone. So basically these ancient fossil deposits, the ancient remnants of reefs
that had existed millions of years before the impact itself that contained all these chemical
compounds that contributed to the impact winter. So when you put all these things together,
the size and the speed, the angle at which it hit, the sheer force of it, all these things came
together and basically the worst case scenario that nothing quite like this has ever happened
before in Earth's history and certainly not at such sort of a vulnerable moment for
life on Earth and all these things came together, not just in the first 24 hours, we had this
incredible heat pulse and all this debris, but in the years following. So it really was every single
way that this could have gone wrong for life on Earth, just about that's how this played out.
It's really spectacular, how quick and violent this was. Yeah. So it was the perfect asteroid storm,
you're saying, is what it is. Oh, absolutely. Yeah. Let's talk about the sequence of events, and that's
what you do in the book. You go through the first days, months, years, eons, thousands,
million years. Let's look at the timeline on this. You're right that this calamity was as
immediate and horrific as a bullet wound. Explain that. Yeah. So when we think about this mass
extinction, at least a lot of the visuals that I get or got growing up about this mass
extinction, you'd see these emaciated dinosaurs wandering through this like nuclear winter
kind of scenario that they made it through the first day, but it was really.
really the debris clouds and the cessation of photosynthesis and all these big environmental changes.
But we now know that they probably didn't even make it that far, that basically all our
favorite non-avian dinosaurs, T-Rex and Triceratops and Montesaurus and all those were probably gone
within about the first 24 hours because what happened in the minutes to hours following this
impact, you had all this pulverized rock, so millions of cubic miles of rock that's been thrown
up into the atmosphere, that start to spread. Basically, they start to spread.
all over the planet.
You know, as they're coming down, each one, each little piece is creating a significant
amount of friction by itself.
Any one of those isn't very much.
But you do enough of that.
It's just so much debris and so much basically damage created by this impact that all
that friction creates an infrared pulse.
It raises the air temperature all around the planet to about 500 degrees Fahrenheit.
So if you ever broiled a chicken, that's about what you broil a chicken at.
And T-Rex was more or less a broiled chicken within about 20.
hours of this impact that if you couldn't get underground, if you couldn't get underwater in
somewhere, had some other way to block yourself from this pulse.
Wow.
You're basically out in the open.
It was so hot that some forests were spontaneously catching fire based upon some of
these models that geologists and paleontologists put together.
So it really was incredibly extreme.
And then we had a cold period.
That's right.
About three years of impact winter.
So you had this terrible heat pulse that did most of the major initial damage.
but in the years that followed, you not only had the soot from forest fires all over the planet,
you not only had all the dust and debris thrown up by the impact itself,
but all these sulfur-based compounds that we know from observations during our own history
are really good at reflecting back sunlight.
So it's estimated that the sunlight reaching the earth was reduced by at least about 20%,
and that was enough to curtail if not stop photosynthesis over much of the planet.
And if you take out plants, that's the basis of our ecosystem, it's the basis of our oceans,
it's the basis of how we got our oxygen.
It's something over those three years that not only temperatures dropped, but ecosystems almost entirely
collapsed, and those survivors during those three years had to get by on scraps.
There was one factor that made this extinction not as bad as it could be, you're right,
and that's a very unlikely source.
I'm talking about volcanoes.
Can you explain this?
Yeah, so in the past, we've had at least five mass extinctions so far.
We may be entering Essex, but most of those five are at least a significant number of them
prior to this asteroid impact at the Eutaceous were caused by volcanic activity.
And in particular, prior to the asteroid impact and after the asteroid impact 66 million years ago,
it had incredible outpourings in what's called the Deccan Traps and what's now India,
just thousands of miles just covered.
by molten rock and all the greenhouse gases that are being spewed into the atmosphere as part of it.
And those greenhouse gases, in fact, counteracted some of the effects of impact winter.
This is not what we think of when we think of volcanic eruptions like this.
We often think about them in terms of causing extinctions, but in this case, it kept the impact winter for being as bad as it otherwise could have been at raised temperatures,
just enough to allow some forms of life to be able to survive.
Otherwise, it would have gone extinct in the chill of that impact winter.
So even though those volcanic eruptions were previously considered to be a contender for this extinction, it turns out that they kind of mitigated the effects of the asteroid impact and kind of came to the rescue for at least some forms of life.
Yeah, that is really something new that we haven't heard before because we've heard of research that says the dinosaurs were already weakened by natural forces and possibly volcanoes.
They were on their way out.
And the asteroid just provided that final push.
But are you saying that's not true?
That's right. It seems to be the opposite case that volcanic eruptions actually assisted some of these surviving animals. Most of the non-avian dinosaurs, if not all of them, are already gone by time, you know, this counteracting force would have come into play. But that's the other part of this is that so much of what we understand about this extinction comes from Western North America. It comes from the Hell Creek formation, the overlying rock layers in Montana and the Dakotas. There's so much that we don't know. So the decline that paleontologists previously thought they saw is because there are,
fewer rocks from the relevant time period. So just as an absolute level, we have less dinosaur
diversity because there aren't as many rocks from the very end of the Cretaceous that actually
preserved them as compared to 10 million years before. So we're really learning in a sense
how much we didn't previously know about this mass extinction and how it played out.
And how long did it take for plant life to come back?
There's a seed bank or there was a seed bank in the soil. So a lot of plants, you know,
they spread their seeds. They spread nuts. They spread their fruits as far.
as they possibly can. And some of those already existed in the soil and would have been shielded
by some of the heat effects. It really only takes about a couple of inches of soil to really shield
what's in the soil from the effects of things like forest fires. We know for modern day forest fires
that get about as hot as that infrared pulse, that it doesn't take all that much. So that seed layer
was there. It actually allowed beaked birds to survive. That's why we have dinosaurs around us now
is because beaked birds were able to subsist on the seeds of nuts that still existed.
But it took at least about 100,000 years before you started to see vegetation make a real recovery.
You have what's called us a fern spike where we see fossil ferns in their spores everywhere in the fossil record around this time.
And that's because ferns are what we call disaster taxa.
They're really good at coming into spaces that have been disturbed, that have been disrupted.
and they're kind of the first initial signs that life is beginning to recover.
And then about a million years after impact, that's when you start to have these thick, dense forests starting to grow up,
that you have the rise of flowering plants and angiosperms rather than conifers.
So it took about a million years before anything recognizable as a forest started to reestablish itself.
After the break, how birds and other animal and plant life reestablished itself post-astroid impact.
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And one of the interesting topics you talk about in the book is the evolution of the bird life following the impact.
In fact, I found it fascinating to learn that it was the evolution of a beak and not the teeth of the dinosaur birds.
Yeah, that's right.
That allowed these birds to survive.
What's there about a beak that nature likes?
Yeah, we've had beaks evolve multiple times, you know, over and over again. And the case of dinosaurs, why beaked birds were able to survive, if you think about what birds and bird-like dinosaurs were doing prior to the impact, you had basically things like Velociraptor covered in feathers, you know, very sharp teeth. We had two birds that were able to eat insects and the lizards and things like that. And then you had beaked birds that primarily ate seeds, nuts, plant material, they were already adapted to this kind of diet. They
I already had things like, you know, a gizzard or ways to grind up that plant food.
So they, in a sense, were pre-adaptive to life after impact, whereas all those carnivorous species,
there's nothing for them to eat because there are no more plants, therefore no more insects.
There are very few small little critters for them to eat.
So basically, if you were a carnivore trying to survive through this impact winter, is much,
much more difficult, whereas beaked birds, they were already adapted to eating things that had
survived, and that's why they're able to hang on.
Interesting. So what else was different about plant than animal life post-impact?
You see forests grow a lot denser. If you think about forests and habitats in the age of the
dinosaurs, basically in those and Cretaceous heyday, it would have looked somewhat similar
to areas in like Eastern Africa today. So more conifers than flowering plants, there's certainly
no grasses, but that kind of open habitat and open woodland, because many dinosaurs,
were big. Where they walked, where they pushed over trees, where they fed, this all influenced
the ecosystem. It shaped it around them. So you're going to have dinosaur-sized holes, basically
through any ecology that you're looking at. But once they were gone, once you don't have things
like triceratops mowing down vegetation or pushing over trees anymore, forests could grow a lot
denser. They could grow a lot closer together and they could grow tall. And that provided a multi-tiered
ecosystem for their survivors, whether you were a bird or a mammal or an insect. Life could be
different at the canopy than on the trunk of the tree than at the surface of the soil or down
below that soil. So I had all these different new opportunities for evolution and pioneering
new niches open up. Right. This is Science Friday from WNYC Studios talking to Riley Black,
author of The Last Days of the Dinosaurs. Really interesting. As I said in the opening,
I read a portion of your book where you said, we, meaning humans, we wouldn't exist without
the obliterating smack of cosmic rock. Why is that? There's no reason to think that the age of
dinosaurs would have stopped without this. I mean, in a sense, we still are because Brits are still here,
but the kind of dinosaurs that we think about and see in the movies all the time, they would still
be here. If you think about 66 million years, there's a very long time. But if you were to
start from the day before impact, so, you know, T-Rex and triceratops are still doing fine.
Project that backwards, 66 million years further into the Cretaceous.
dinosaurs are still around. They were doing fine.
Like, basically there are more time, there's more time between stegosaurus and T-Rex than there's been since T-Rex went extinct.
So dinosaurs were the dominant vertebrates on land.
They're the most prominent vertebrates on land for so very long.
And they'd survive so many different changes between the continents moving around, volcanic eruptions, climate changes, sea level changes.
They would have made it through.
It took something really unexpected and unprecedented to really change up life and what it was.
And our ancestors could have very well gone extinct in this very same extinction.
It's one of the things that blows my mind, honestly, is that there were primates around during the last day of the Cretaceous.
This little animal called Purgatorius is the earliest known primate.
And it was able to survive where the big and terrible dinosaurs weren't.
So it's not just that we evolved as a result of this extinction, but our ancestors, our primate ancestors actually eat right through it.
That is cool.
Are there other things we can see now that are direct remains of this extinction?
You can look almost anywhere, basically, whether it's seeing all the flowering plants and their pollinators.
That's something that those interactions and those kinds of plants were around before impact, but they're much more prominent now.
Or things like beans.
I loved a good taco.
I like to put refried beans on it sometimes.
Beans only came about because legumes evolved about a million years after impact that plant life got this reinvergated kind of evolutionary pulse after the impact.
And basically plants like legumes that are rich in protein are part of that as well.
So whether it's just our own existence or what we eat or the sort of vegetation we see around us,
there are so many little hallmarks that we can draw back to this mass extinction.
Who knew how important beings were?
As you say, Riley, you've written a lot about dinosaurs and written many books.
What surprised you the most about writing this book in your research?
I felt like so much of it was a surprise because I had so many assumptions going into it.
I think what really struck me was how the way the world recovered after impact,
how relatively quick that was.
I mean, a million years has a long time, but to think that prior to the mass extinction,
the largest mammals that we know about were about the size of a house cat,
and then a million years later, the largest mammals that we know about were about the size of a German shepherd.
And that's quite a bit bigger.
and we're starting to understand so much of how and why they evolved.
In the pattern of their pollution, there's a paper that just came out.
I wish I could have included it in the book, but it's still fascinating to me about how
mammals were getting big so quickly that their brains pretty much remained at the same size
as they had been post-impact so that you have much bigger-bodied mammals, but their brains
are about the same size, and it wasn't until about another 10 million years or so after that,
after impact, that you start to see a lot more sort of changes to the,
prefrontal cortex and changes in behaviors and interactions and things like that so that life really
raced to fill in the voids that were left by this mass extinction in such a way that it was a
really formative and interesting time for evolution in general. Like it wasn't a sense of progress
or mammals picking up the torch where dinosaurs had left it, but something entirely new happening
and seeing and understanding some of these interactions that we never got to view before. So much of
this research has come out in the past five or ten years. Even the last year, we've made a lot of
new discoveries. So this is rapidly changing and giving us this view, this timeline that we never
really had before. That conversation with Riley Black recorded in 2022. You folks chose it as one of
your favorite segments from our 33 years. And if you didn't hear your pick today, don't worry.
We've got a few more favorites to pull out of our archives during the December holidays.
And that's all the time we have for today.
Lots of folks help make the show possible, including
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Speaking of going back in time,
tomorrow we'll be revisiting when the band
They Might Be Giants visited Ira in the studio
to play and talk about songs from their album,
Here Come Science.
I'm Cyfry producer Dee Petershmit.
Thanks for listening.