A

This is an iHeart podcast. Guaranteed Human One of the things I love about Turkey hunt is it is a game of cat and mouse. The whole thing comes down to the setup. You get that wrong. Turkey nuggets are not on your menu. That is why I use the Onx Hunt app when I'm hunting turkeys. I think of it like an old Victor mouse trap. You use it right, it works. When you hear a gobbler like sound off in the dark, you you can open up the map on Onx and try to get a good sense of where he is and you can use the compass mode on there. If you really want to figure out where he is, then you can take a look around the landscape and build a setup that's going to put you where that bird wants to be. At the same time, I know with certainty where public ground ends and private ground begins. So I'm not guessing or second guessing or worrying about where I am and getting in trouble with somebody. I I like to just hunt knowing I'm in the right spot. If spring turkey season puts you in the woods, download the Onx Hunt app and set your trap right here at Meat Eater World headquarters we like some to Cova's boots. People running up and down the hallways and to Covas all the time. I got a pair of their mock toe boots. A lot of guys running around their square toe boots. We got people running around in their regular old cowboy boots. It's a great look. Anywhere worth going is worth going in good boots and you find your perfect pair with To Covis to Cova's crafts quality western boots for everyone from generational ranchers and lifelong cowboys to first time boot buyers to Cova's boots are hand crafted with over 200 meticulous steps for broken in comfort Right out of the box. You pick a pair of these suckers up and you know you're dealing with a premium leather product. Shop to Coba's online at toas.com or swing by one of over 50 stores coast to coast for the full experience with free drinks, boot shines and complimentary boot branding. Right now get 10% off@toas.com meater when you sign up for email and text. That's 10% off at t c o v a s.com meater to covas.com meater see site for details. To Covas Point your toes west hey, it's Steven Rinella. If you're looking to build a deck that's tough, long lasting and still affordable, Summit decking from Deckorators is a great option. Summit uses Deckorators patented Surestone technology so the boards won't splinter, sag, chalk or crack over time. And it comes in three colors that really capture the natural look of wood. It's the best decking you didn't know you could afford. Peak build season is coming up, so order a sample today. Visit decorators.com meater to get your free Summit sample. That's decorators with A K. Again, decorators.com me eater. This is the Meat Eater podcast coming at you shirtless, severely bug bitten, and in my case, underwearless. We hunt with the Meat Eater podcast. You can't predict anything. Brought to you by First Light. When I'm hunting, I need gear that won't quit. First Light builds. No compromise gear that keeps me in the field longer. No shortcuts, just gear that works. Check it out@first light.com. that's F I R S T T L I T E.com Holy smokes. We're joined today by paleontologist and writer Steve Brusotti, who has this very popular science collection. And it started out with the Rise and Fall of the dinosaurs, Correct?

B

That's right.

A

Big time. New York Times bestseller.

B

It got on the list. It was a shock. A dinosaur book on the bestseller list, which was awesome.

A

And then the Rise and Rain of the Mammals. She tells the story of the mammals. And then the new book out right now, the Story of birds.

B

And that's literally out like today the day.

A

Oh, really?

B

Yeah. This is the publication day. Yeah.

A

So congratulations, man.

B

I'm honored to be here with you on the day the book comes out.

A

Yeah. I got an admission to make, though, and I just had to come out and say it. I haven't read the books.

B

Well, I'm glad you're honest.

A

If I could touch them, though, and absorb all the knowledge if I could touch them and absorb all the knowledge and then have that in my head so I could be like that guy.

B

Yeah.

A

And also, like dominate that end of trivia.

B

I would actually do that. Oh, yeah. Well, you know, there's a lot of factoids and a lot of trivia in these books, but really they're pop science books and they. And they're meant for everybody. You know, I'm a professor, I'm a scientist. I teach at the University of Edinburgh in Scotland. Alum from the Midwest here in America. And I do so much academic writing for my job. These books, I like to make them accessible to everybody and to be the kind of books that when I was a Teenager growing up in Illinois, out in farm country. It was really through books that I got into science and nature and conservation. And so I try to write in this sort of style that can hopefully reach kids and. And reach people of all walks of life.

A

Yeah, they make it approachable.

B

Yeah, absolutely.

A

So you. You teach at University of Edinburgh.

B

Yep, that's right.

A

You're a writer. And also in your. Your bio, you do some of the consulting.

B

Yeah.

A

On the Jurassic park stuff. And we had. Years ago, we had the paleontologist Jack Horner on.

B

Yeah.

A

Who. Who had like that same gig at a time.

B

That's right.

A

So what's that like? What's that about?

B

Yeah, it's cool. So I've worked on the last two films after Jack retired. So I. On Jurassic World, Dominion, that's the one that came out in 2022 with Sam Neill and Laura Dern and Jeff Goldblum and then Chris Pratt and Bryce Howard. You know, that storylines converged in that film. And then I worked on the most recent one, Rebirth, which came out last summer, and that's the one with Scarlett Johansson and Jonathan Bailey and Mahersal Ali. Great films, a lot of fun. I mean, my job is really just to consult on the science. I'm the paleontology consultant. So I. What it is.

A

You're not the story doctor.

B

No, no, I don't. I don't write the sc. I don't direct the film. I don't, you know, of course not. What it is is that I basically just have this line of communication with the directors, with the writers, with the artists that are designing the dinosaurs. And it's a lot of phone calls, chats over zoom, a lot of emails where they're showing me stuff as they're developing the characters and asking me questions about the real dinosaurs. And so they, you know, they do care about accuracy and realism. Of course, they're monster movies, but they really are interested in the science. And there's always been a great SC and nature and conservation message through those films. So I'm just glad that they do it. I think it's super cool that these filmmakers for, you know, a multi billion dollar franchise care enough about the science that they want a scientist on board to help out.

A

You know what connects us in a weird way? You worked on that movie. In that movie, Scarlett Johansson wears an FHF chest harness.

B

No kidding.

A

Which is one of our companies, FHF Gear.

B

No kidding.

A

So American made chest harnesses. And she's got one on in the movie.

B

I thought you were gonna Say, oh, we're both Steve's and we're both from the Midwest and we're both Italian American. So that's so in that. Is that. When is she wearing that? When they're doing, like the rock climbing?

A

Never watching. I just know it.

B

Never read my books. Never watched the films.

A

I'm trying to be honest, man.

B

No, that's cool. You'll have to. You'll have to watch it and see because that's. That's super neat. I mean, they're very realistic with the costumes and with the set designs. It's incredible. I mean, they. For Dominion, they had me take a lot of photos of some of our field sites where we're out collecting fossils and digging up dinosaurs. And they use those images to build this set of a dinosaur dig. And when I walked on to the set, I mean, I thought I was in the badlands. It was incredible. So the realism on these things is tremendous. When you have budgets of hundreds of millions of dollars, you can do that.

A

So on the storybirds, let me ask you this question. I guess it's been over the last 10 years. I mean, you can correct me. 10 years, 12 years, 15 years or something. It's like people have started to say, like, if you're looking at, I like to hunt turkeys.

B

Right.

A

You're looking at a wild turkey.

B

Yeah.

A

And people are like, it's a dinosaur, man. You know, like, it was all like this idea, bro. Yeah, right, yeah. That when you're. You look at a sandhill crane, you know, in a sandhill crane walking along with his babies in tower, and it's kind of hunting around, you know, and people would be like, that's it. Like, that is a dinosaur. They never went away. How accurate is that understanding?

B

That's true. That's true. So modern day birds are dinosaurs. And what I mean by that is they're part of the dinosaur family tree. They evolved from other dinosaurs. They're just a strange type of dinosaur that got small and evolved wings and developed the ability to fly, and they're the only dinosaur that lives on today. All the other dinosaurs died out when that asteroid smashed into the Earth 66 million years ago. So really we need to think of birds how we think of bats, you know. What is a bat? Well, a bat is a mammal, like many of the mammals you have here. Why is it a mammal? It evolved from other mammals as part of the mammal family tree. It has hair, it feeds its baby's milk, it has molar teeth, all the classic mammal stuff. But bats are Just unusual mammals.

A

Yes.

B

They're different than elephants or whales or dogs or cats. But they're an unusual mammal that got small, evolve wings, develop the ability to fly. Birds are the dinosaur version of that. So when you're hunting turkeys, you're hunting dinosaurs.

A

But if you took like what if, if you took a wild turkey now. Yeah, okay. Or sandhill crane, whatever the hell one you want, you take a wild turkey now and you brought that wild turkey back to 60.

B

Yeah.

A

One million years ago and cut that turkey loose.

B

Yeah.

A

Would it be, would it be that there was something not quite right about that turkey?

B

Yeah, that would be a wild experiment to do. I mean, I think that if you took a turkey or if you took something like a cassowary, you know those giant flightless birds from Australia with the huge claws on their feet. I mean to me they look like raptor dinosaurs reincarnated. I mean, and if you, you know, anybody out there listening who maybe is a bit skeptical of this dinosaur bird connection, I mean, first of all, just like look at a chicken and look at the scally foot of a chicken. It looks like a little foot of a T. Rex. And believe it or not, it was that sort of similarity, that sort of obvious in your face realism of bird feet looking like, you know, dinosaur feet that led the first scientists in the 1860s to propose the idea that birds came from dinosaurs. So it's.

A

Oh, that's been around long.

B

It's been around, but you're right that it hasn't.

A

It's been around since the early 2000s.

B

No. So it's, I think it percolated a lot more into like public, you know, consciousness. And the reason, I think there's probably a few reasons, but I think the biggest reason is that in the mid to late 90s, the first fossils of feather covered dinosaurs were discovered. Now it's very hard to turn a feather into a fossil, you know, because a feather is soft, it's like skin or hair or muscle. You know, that stuff is hardly ever fossilized. When we find a dinosaur fossil, it's usually the bones, the teeth, the hard bits that can get buried and turned to stone and survive the rigors of millions of years. So feathers really challenging to fossilize. But in China there just so happen to be about 125 million years ago these volcanic fields, and occasionally they would erupt and they would bury these entire ecosystems. Kind of like when Vesuvius erupted and buried Pompeii.

A

Buried all those dudes in Pompeii.

B

Yeah. And so you get people in Pompeii that were just like, freeze frame.

A

They're like midsection.

B

Yes. They're making breakfast or like they're walking the dog. And so it's like that with these dinosaurs and that locked in the feathers. And this was the first time, this one in a trillion fossilization occurrence, the first time that we could see directly that, yes, a lot of dinosaurs had feathers. And that really sealed the deal, because this idea that birds came from dinosaurs, it goes all the way back to the 1860s, all the way back to Charles Darwin himself when he was writing about evolution. But it really lacked that final, you know, trump card, that final nail in the coffin.

A

How clear are those. How clear are those feather fossils?

B

Oh, they're incredible. They're beautiful. I have some images in the story birds of some of them.

A

It shows one of those fossils that

B

shows them, and I've been really lucky.

A

There's no argument.

B

No, it's in your face. I mean. And there's a variety of feathers. Some of the feathers are more downy, more fluffy, you know, like some birds have today, especially baby birds. Some are elaborate quill pen feathers that form giant, you know, wings on the arms, sometimes even on the lakes. And they're beautiful. And I've been very, very lucky to spend a lot of time in China working with Chinese scientists who get these fossils from the farmers. It's farmers in northeastern China. And I love this because I come from farm country, you know, and they're growing some of the same crops that they grow in Illinois. They're growing corn, especially out there. And the farmers are out working the land and they're cracking open the rocks and they're finding these beautiful fossils. And I have seen. I've seen farmers bring these into small museums in China, and they show us what this is. And it's a dinosaur gloriously covered in feathers, really just like the feathers of modern birds. I mean, it is absolutely stunning. And I tell a story in. In the story Birds and also a similar. I tell some similar stories in the Rise and Fall of the Dinosaurs because I touch on the dinosaur bird connection in that book. But stories of going to China, walking into one of these small museums, like opening a door, being confronted with this beautiful skeleton of a raptor dinosaur, like a velociraptor type dinosaur covered in feathers. I mean, it is. It is just astounding.

A

Yeah, Because. Yeah, when I was a kid, if you had a dinosaur book, everything was green and scaly.

B

Yeah, same here. When I was growing, like in the late 80s and early 90s, back home in Ottawa, Illinois, where I'm from, in northern Illinois. In grade school, Wallace Grade school, I went to out in the middle of the farm country, literally in the library in town. I remember the books. I remember the dinosaur books. I wasn't that into dinosaurs as a kid. That came a bit later when I was a teenager. But I remember those books. And those books, I mean, they would say things like, we'll never know the colors of dinosaurs. It's impossible. Dinosaurs probably looked like giant overgrown crocodiles and lizards. They were probably covered in scales and were green and gray and just kind of dull and kind of plodding and kind of stupid. But that idea, that image of dinosaurs has really changed now. And we know that a lot of them, of course, were covered in feathers. We can even tell the colors of some of those feathers, the melanin, the pigments, the same pigments that give birds their feather colors. Today we can find those fossilized, and that tells us that they were brown or they were black or they were white or they were ginger or the feathers were iridescent, like a crow's feathers. And we know that. We know a lot of dinosaurs were much more intelligent than we used to think.

A

Yeah. How do you know that? Yeah, Let me, Let me preface this.

B

Yeah.

A

I have a. I have a 11 year old.

B

Yeah.

A

And, well, not just him, because I've been doing this the whole time I've been a parent. Like, we're always checking out where. I was checking out whatever kind of new dinosaur thing is out there. Right. Right now we're watching the dinosaurs on Netflix, which is kind of excruciatingly narrated by Morgan Freeman.

B

Yeah.

A

A lot of the stuff in there, man, like, I sit there, I was watching. I'll watch it last night. My little boy laying in bed for bed before bedtime. And a lot of times I'm saying to him as we're laying there, I'm like, that's, man. Like, I'm like, they don't. Like, how do you know that?

B

Like, yeah, that's good. I mean, we should be skeptical.

A

You know, they have them that they constantly vocalize.

B

Yeah.

A

They never shut up.

B

Yeah.

A

So even if a. Even if a T. Rex comes to attack something, he growls at it. He, like, it doesn't make sense.

B

Right.

A

He growls on his approach and he's like, well, how do you know? I'm like, because. Because there's just things that animals are like and animals don't perpetually vocalize.

B

Yeah.

A

But the biggest thing that I'm like, when I keep telling him, I'm like, I. There's a quote from my friend. I won't give the reason. I. He said this one time, I told him something, he said to me, I don't know why that's not true. But that's not true.

B

Okay. Yeah. Well, yeah.

A

When I see those giant pterodactyl.

B

Yeah.

A

Things. Yeah. The proportions. Yeah. The super thin neck.

B

Yeah.

A

The giant head walking around on his elbows.

B

Yeah.

A

I'm like, I don't know. I don't know. But that's not right.

B

That one is right. That one is right. Because.

A

Elbows. But I'm saying, like, the ratio of head size and neck size and wing size.

B

No, it's totally weird. Right. But that. So. So you're right about the vocalizations and these things and a lot of the films and a lot of the dinosaur documentaries. Yeah. The behaviors, we don't know.

A

But you just said they're smart. That's why. That's why I'm jumping.

B

So I will say, so how do.

A

Why.

B

Yeah, yeah. So first I'll. I'll stick. I'll stick up for the pterodactyls for just a minute. So they're totally weird. You're absolutely right. You look at one of these giant pterodactyls, which are not actually dinosaurs, by the way. They're cousins of dinosaurs.

A

I lump them all together because they were alive.

B

They're super cool.

A

I don't know. Because of this movie.

B

Well, we find. So we know those proportions are correct because we find fossils of these things. One of the best fossils we ever found. My crew at the University of Edinburgh, we work all the time on the Isle of Skye in Scotland. This absolutely beautiful, enchanted, majestic island off the west coast. There's Jurassic age fossils that are about 170 million years old. And one of my students, Amelia, she found a pterodactyl skeleton. So we have it all there in the rocks. The head, the neck, the wings. It has really weird proportions. So that's.

A

There's like a.

B

Because we can see.

A

It seems to defy a physical reality of.

B

I know, I'm with you. With the pterodactyl again, I want to repeat.

A

I don't know why it's not.

B

No, no. And so we also have footprints and handprints so we can see. They walk like that. That's an example of something from the fossil record that doesn't live anymore. That if we didn't have fossils, we would have no idea they existed. And we do have the fossils. And the fossils show us they're weird. And the same is true with birds. So in the story of Birds, I talk about some of these incredible birds that once lived, that don't live anymore. Terror birds, these top hunters, top predators that stood larger than a human, had a head the size of a horse, a big hooked beak. They don't live anymore. I mean, thank God. But we would never think something as weird as that could exist if we didn't find the fossils. There were soaring birds that had wingspans of over 20ft wide that we, you know, like double the size of an albatross, the biggest bird today. So there's a lot of things in the fossil record that we find as fossils that we go, holy shit. Like. Yeah, yeah. But to circle back, things like the vocalizations, the behaviors, those are often things that we don't know directly. So on these shows and these films, a lot of that, those storylines and those behaviors are based on what modern animals do. But sometimes you're absolutely right. People like you that know modern animals that spend a lot of time out in nature confronting animals and trying to hide from animals and trying to sneak up on animals and trying to, you know, protect yourself from animals, like, you know, how animals behave.

A

Yeah.

B

And there are some things in those shows that you. Yeah. Are wacky. An animal is not just going to announce itself by screaming and growling and roaring when it's hunting. I mean, come on, you don't do that when you're out hunting. That's what I'm saying.

A

So. So when you said you see signs. Let me. Let me hear. I don't want to. I want to talk about birds, too.

B

Yeah.

A

But let me hit with another one from this. This thing I'm watching.

B

Yeah.

A

So this dude, there's this giant dinosaur, and he comes out in the water and he catches a fish.

B

Yeah.

A

And then he, like, lays the fish on the bottom of the ocean, and then he hangs out with his.

B

His.

A

With his beak open.

B

Yeah.

A

But he's huge.

B

Yeah.

A

He says he's as tall as a giraffe or something.

B

Yeah, yeah.

A

And he's got his beak open, and he waits for a shark to come grab the bait and then catches the shark and swallows it.

B

Yeah.

A

When I saw that with my boy, I'm like, come on. Come on.

B

I mean, he's like, well, you don't know.

A

I'm like, they don't know.

B

We don't know. We don't know. And I. You know, I should say that Netflix show, you know, it's A very impressive show that. The CGI talk. It's cool. Yeah. And it's. You know, I didn't work on. I work on a lot of these shows as a consultant. I didn't work on that one. But I know that the producers and the artists and so on use my book quite a bit. You know, even marketed it as, like, the story of the rise and fall of the dinosaur. So, you know, and I had meetings with the producers and stuff, so I'm impressed with what they've done. I think it's a very good show. But to make a show, to make something on t. Well, you know, you know what it's like to make a TV show. I mean, it has to be compelling. There has to be a storyline. Things have to be doing stuff. And when it comes to these fossils, you know, we find a fossil, and maybe that fossil tells us, oh, my goodness, there's this weird animal with a bizarre head and neck and whatever. Okay, that animal existed, but what did it do? How did it move? What did it eat? Sometimes we might have some evidence. Sometimes the last meal is found fossilized in the stomach.

A

Is that right?

B

That happens sometimes. So we do sometimes get direct evidence for behaviors, but a lot of times we. We just don't. So we have to speculate a little bit. We have to draw parallels to modern animals, and this is more for the filmmaking. Again, being a scientist, what tripped me out?

A

What tripped me out when I first kind of jumped in on you on this. This.

B

Yeah. And we can get back to intelligence.

A

So.

B

Yeah.

A

And I'm not like, of course. I mean.

B

Yeah, like, sure.

A

I mean, of course. Many of them must have been. But I'm saying, like, what would you ever look at. Yeah, what would you ever look at to validate that? But because it's not a crazy premise, you know, like, there's all these different ways we conceptualize animal intelligence. Most people would regard an earthworm as probably not particularly bright when it comes to problem solving. Yeah. You look at corvids.

B

Oh.

A

Like crows and ravens, who seem, like, very, very curious.

B

They're feathered apes, basically.

A

Interested in problem solving, interested in pattern recognition. So what would you ever look at to be like, there was intelligence.

B

Yeah. That's a great. I'm glad you asked. It's almost like I planted the question, but I didn't, because we're studying this now in my lab in Edinburgh. It's actually one of the biggest things that we're studying. And we, you know, we're paleontologists. We study fossils but we're working with the bigger team of biologists, including biologists who study behavior in modern animals. So my good colleague Matthias Oswald and his crew in Sweden, they have a farm. Matthias and Helena is his wife, they have a farm. On their farm, they have a raven enclosure. And it's a university research facility. And so. And I write about this in the Story of Birds. In the last chapter, I talk about, like, modern bird intelligence and cognition, and a lot of that's about their work. And they basically put the ravens through these exercises. They put mirrors in front of their faces. They give them stuff to make tools out of. They run these. These different scenarios where, you know, they take some food from a raven and see how it behaves and so on. So we work closely with them. We also work very closely with neurobiologists, with the people who actually study brains of modern animals. And there's so much to a brain. I mean, more than anything, just the neurons, those little, you know, cells, the powerhouses, the little computer chips in the brain. So we put all this evidence together and we try to understand basically as much as we can about extinct species and their intelligence and their behaviors. It is lim. But the biggest direct evidence that we have from fossils is we don't get brains fossilizing. Usually, a brain is one of the softest, most supple parts of the body, and it decays.

A

You can run your thumb through it.

B

Oh, yeah. And once an animal dies, I mean, the brain is one of the first things to go. But so for a dinosaur like a t. Rex that's 66 million years old, I mean, you're not gonna get a brain preserved as a fossil. But what you do get preserved as a fossil is the head, the skull, the bones. And the brain is inside the bones. The brain is in a brain cavity, our br. In a cavity in our head. So we can CAT scan fossil dinosaur skulls the same way a medical doctor would use a CAT scanner to see inside of our bodies if maybe something was wrong and they wanted to, you know, check us out and see what might be happening inside. We can use the X rays of the CT scanner to make a digital model of that brain cavity. And that's a digital model of the brain. And so that doesn't tell us everything, but it tells us how big that brain was, how big the brain was relative to the body, how big the different regions of the brains were. You know, there's the old olfactory bulbs in the brain that control the sense of smell. We know a lot of mammals today, you know, have very good sense of smell and some don't. And the size of the olfactory bulbs helps control that. There's optic lobes in the brain that help control vision. We have the ears, you know, that are not part of the brain. But we can also use the CAT scanner to see inside the ears and see the cochlea where the cochlea was. The cochlea, that's that thing in us that's looping and kind of twisted. That's what hears sound, relays sound to the brain. We know from modern animals, you know, the length of the cochlea correlates to the range of sounds that can be heard. So I think as you can start to see, we can build up a bit of a picture. No, you know, we can't put a T. Rex through a maze. We can't stick a mirror in front of a T. Rex and see if it would recognize itself. But we can CAT scan a skull, we can build a digital model of the brain. We can measure the size of that brain, we can see what the regions of the brain were like. And so for something like T Rex, that tells us it had a pretty, pretty big brain. For an animal of its size, you know, it wasn't like our brain. It wasn't quite that big. But for an animal, a reptilian type of animal of its size, it had a pretty big brain. Brain relative to body tells us a lot about intelligence. So it was fairly intelligent. For a dinosaur, its brain had huge olfactory bulbs. Huge, like off the charts for dinosaurs. So T Rex had a really good sense of smell compared to other dinosaurs. The brain had big optic lobes, it had good eyesight. The ear had a long cochlea, it could hear well. So T Rex was a pretty smart, very keen hun hunter. And really, you know, we think of T Rex as this brute, forced, you know, brute force kind of murdering dinosaur. The ultimate monster from earth history. The size of a bus head, the size of a bathtub. Crush the bones of its prey with its teeth. That's all true, but it was also really smart. And that's what I love about T Rex. It had the brawn and it had the brains. And we know this from the fossils. We're not making it up. We have evidence for, for it.

A

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B

You're right. When it comes to fossils, normally our evidence is fairly limited. I mean, we are like detectives at a crime scene where there's maybe, you know, one hair and one fingerprint and, you know, a few threads and we're trying to reconstruct, you know, a story out of it, something plausible. And, and some fossils are more common than others. And you're right with the mammoths. I talk about this in the Rise and Reign of the Mammals, about the relationship between humans and giant mammals. And I'm sure we can dive into that a little bit more as well. But there are very few places where there are mammoths that have spear points from human hunters that are associated with the skeletons or that have cut marks on the bones. They exist, but they're not as common as you would think. And that's because it's hard.

A

Some people would say they're more common

B

than you would think. Well, some people, yeah, yeah. Comes down to.

A

When it comes down to preservation, yeah, it's hard. I put that to an archeologist. I'm like, why aren't there more? He goes, my God, there's a lot. Yeah, yeah, 13 is a ton.

B

Which, when you think about the odds of any single thing becoming a fossil, like, I mean, you and me are probably never going to become a fossil. Like, we're probably not going to die and get buried in sand or mud pretty quickly and then turned into stone and then preserved for thousands or millions of years. And then, you know, some paleontologist or some hiker, some farmer who knows, walks by and sees our bones sticking. I mean, that's what you need to get A fossil. And only a tiny fraction of individuals that have ever lived will ever turn into a fossil. And that's why oftentimes it's actually things like the footprints of dinosaurs that are more common than the skeletons. Because when you think about it, you know, one individual has one skeleton, but how many footprints do we make in our lifetime? So for T Rex, T Rex is one of the better known dinosaurs because it lived right at the end of the age of dinosaurs, so right before the asteroid hit, which means it's one of the most recent dinosaurs to today that has persisted, which just means there's been less time for its fossils to be eroded away. And it's found across western North America. T Rex is only from western North America.

A

It's like a Rocky Mountain dinosaur.

B

It's, it's the, the American tyrant dinosaur from the age of dinosaurs, from the Cretaceous. And it's here in Montana. Some of the best fossils, the first fossils of T Rex were found right here in Montana in the early 1900s by the great fossil collector Barnum Brown, who's from Kansas and was collecting on behalf of the big natural History Museum in New York, the American Museum of Natural History. He came out here, this was to southeastern Montana, the Hell Creek area, and he found the bones of this gigantic, snarling primeval predator and they brought him back to New York and put him on display. And that's how T Rex got its start. And since then, some of the best fossils are found out here, but also across the border into the Dakotas. There are some found a bit north in Saskatchewan and then there's some others that are found all the way south really down to New Mexico and Texas. And there are several dozen decent fossils of T Rexes and then, you know, thousands of individual teeth and bones and so on.

A

Thousands of teeth.

B

Thousands, yeah. So you know, and I've been out, I've collected with crews out here in Montana, you know, not, not recently, but when I was a student I really cut my teeth as a, as a paleontologist coming out here and dig a dinosaur because I went to school in Illinois and from Illinois, nobody's ever found a dinosaur in Illinois. I think it's similar in Michigan where you're from. It's just not, doesn't have the kind of rocks, you know, to preserve dinosaur fossils, rocks of the right age. So I came out here and yeah, we'd find T Rex bones, T. Rex teeth and bones of Triceratops and duck billed dinosaurs and so on. They're actually not super rare. So we have A good amount of evidence, and that's what's really cool. I love it. Because we really are like, detectives, and we want as much evidence as possible. And yeah, of course, we want to find complete skeletons, but sometimes, you know, a single tooth, a single bone can tell us something we didn't know before. And that's what makes paleontology so much fun. I mean, when we're out looking for fossils, we don't use any special tools. You know, we don't have sonar that we shoot into the rocks to see what's inside. I mean, we just go out prospecting. We're like gold prospecting. I mean, we're just out walking around, seeing what's sticking out of there.

A

Looking at the surface.

B

Yeah, looking at the surface. And if we see something interesting, maybe it's something that's a different color, a peculiar shape, a different texture. You know, we'll go down and we'll look at it, and maybe 95% of the time, it's gonna be nothing. Some smudge on the rock or some mineral crystal. But sometimes, like this pterodactyl we found in Scotland that I was mentioning where our students saw this. You know, she saw this interesting color, very different from the rest of the rock. She looked down. It had a shape to it. You know, it looks like there was a beak and some teeth on the side, and that turned out to be. Which turned out to lead to a skeleton. Then we dug in further and took it out. So it's a real game of luck and chance and circumstance. You gotta be patient, you gotta be persistent. And, you know, and I don't mean to be trite, but it is a lot like hunting or fishing. I mean, you gotta go out and you gotta spend the time. You don't know what you do, your homework. You know, you go to the right places where you think there are gonna be fossils of the right age' cause they're the right kind of rocks and so on. Just like you go out fishing, you go to a place where, you know there are fish, and maybe your friends have fished there and they've had you. Good luck. But then you just got to go and do it and put in the time. And a lot of time, nothing happens. You know, most of the days, we actually don't find very much, but when we do, oh, my God, the rush is incredible. And of course, we always collect fossils as part of a team. You know, nobody goes out and, like, digs up a brontosaurus by themselves. That would be impossible. So there's Great camaraderie, great friendship on the field crews. And that's one of the most fun things about this, this science. This isn't being an astrophysicist where you're in front of your computer or a molecular biologist in the lab or a chemist, no offense. Those are great. I've studied a lot of these sciences myself when I was in college and I have friends that do these sciences and it's great. But those sciences aren't for me. I like the science of being out and looking for stuff. And anybody can do it. Anybody can do it. These farmers are finding fossils in China. There's farmers back home in Illinois that find woolly mammoths and saber too, tigers. And so that's what's awesome. So if you're interested in fossils, it really is like if you're interested in hunting or fishing, just figure out wherever you live what the laws are, who owns the land, if you need a permit or whatever, and then just go out and do it. And that's how you learn. And it's so much fun.

A

I want to, I want to get to, with, with the, the chicks loop strike or like the asteroid impact.

B

Yeah.

A

That ever, you know, 60 million years ago this thing hits. Kills all the dinosaurs. Source or not, Right?

B

Yeah. Those birds. Yes.

A

But let me ask you this though. Who, who was that dude? It was like a dude who was working I think in North North Dakota or something. He's kind of a controversial figure. Maybe that was, that was feeling like he was finding. Right. Evidence of like the actual impact.

B

Yes.

A

Or animals. Animals that were killed.

B

Yeah.

A

In the tsunamis.

B

Yeah, yeah, yeah.

A

Right. Like, like, like, like this freeze frame instant of when the chicks lube strike happened.

B

Yeah, yeah, that's at this site in North Dakota. They call it the Tannis site.

A

And do you buy that?

B

Well, so yes and no. So definitely there. There are dinosaurs, there, there are mammal fossils, there are a lot of fish fossils. They're preserved in these basically ancient river channels. And the, the age comes from very close to the end of the Cretaceous. Ok. That from the rocks. And also there are remnants at that site of like stuff that the asteroid did, so.

A

Oh there are.

B

Yeah. So I mean some of the deposits seem to be like, you know, these flood deposits which. Okay, lots of things could cause a flood, but the asteroid would have. But the real calling card is there are these little tektites and spherules. These are these, the scientific terms for these things. But they're basically like little balls and little bullets of glass. Okay. So it's stuff that would have been when the asteroid hit. So the asteroid hit near Cancun down in Mexico, which is, you know, several thousand miles from here.

A

And that son of a bitch was like a mile wide.

B

Oh, it was a six mile wide rock. Six mile wide rock, which, I don't know, maybe sounds big, maybe doesn't, but that is a rock the size of Mount Everest. Yeah. It's the size of the city of Edinburgh, where I live. If you look on the map, it's about six miles wide. And it would have been traveling, you know, more than 10 times faster than a speeding bullet. And I mean, really, it was just a piece of space. Space junk.

A

Right.

B

It was like some leftover crumb from the formation of the solar system. And it could have gone anywhere, but it just so happened to make a beeline for what is now Mexico. And it punched a hole in the face of the earth over 100 miles wide. You can still see a lot of that crater. A lot of it's covered by the water of the Gulf of Mexico, but some of it's still there on land. The force was tremendous. I mean, it released more energy than like a billion nuclear bombs put together. And so it did you kind of

A

argue about the angle, right?

B

Yeah, people did.

A

It came in on a shadow angle.

B

And you know what? I honestly, that's where I lose track of things. This really gets in the physics of it. And you know, because it had to

A

do with like when that sucker hit.

B

Yeah.

A

What direction did it blast all that stuff.

B

Exactly. And if it hit more direct or more at an angle, you know, that would have caused differences. I'm sure, I'm sure it did. But the physics of all that is a little bit beyond me. But, but in North Dakota at this site, there are these little spherules and tektites. And this is some of the stuff that would have been blasted up.

A

Okay.

B

And then basically vaporized or liquefied, gone up into the atmosphere. And then, you know, what goes up must come down as it would totally shoot off past gravity. And so that stuff would cool, solidify into these glass bullets and rain down. And this would have happened really all over the world, but there would have been more of this stuff the closer you got to ground zero. And North Dakota and Montana, we're not

A

that close to the directional thing and the direction, because if it came in at the right angle, maybe it like blasted all that junk that way.

B

Right, right. So that's what's found at this site. And there's also some other sites In Montana, where you get these spherules, that tells you that this was the asteroid. And by the way. Yeah. And the chemistry of these things can be studied. And they basically match the chemistry of the rock that was hit in the bedrock in the Yuccan. That's how we know that these little glass bullets were from that particular asteroid impact. So the site in North Dakota, it definitely was associated somehow with the asteroid. I mean, were these animals that were killed immediately, did they die a few weeks later? That's where it gets a bit iffy. A lot of that site is still unpublished scientifically. So it's been talked about a lot in the press, it's been in the news quite a bit.

A

Sure.

B

But there hasn't been a lot of scientifically controversial. Yeah, well, it is, it is, because although we can tell that it must be close to the asteroid, if the claim is that, you know, this was formed by the asteroid, the instant. The day. Yeah, man, that's really tough because the fossil record and the, and the rock record, you know, we can get really good preservation stuff. But figuring out, you know, a single day, 66 million years ago and having the confidence, you know, we were talking about evidence for things like it can be very consistent, very plausible with the evidence, but it's hard to find that slam dunk evidence that, yes, this was formed on this day. So that's the controversy. Nobody doubts that these are very latest Cretaceous fossils. Nobody doubts that this site has something to do with the asteroid and the extinction. But the claim that, you know, this stuff was fossilized on the day, that one is what gets people debating. And scientists love to debate. We love to debate. Of course we do. Yeah, sure. We love to poke holes in each other's. Yeah, exactly. Means we're so skeptical as scientists all the time about everything.

A

If that thing hit today.

B

Yeah.

A

Is it in your mind, if that hit today, is it safe to say that humans would go extinct?

B

I don't know about that. I mean, like most paleontologists, like, I'm much more comfortable looking at the past rather than predicting the future.

A

But we know a lot about the climatic conditions after that. I mean, I think it's safe. You and me would be dead right now.

B

I, I know I would have a tough time, only just because where we're sitting. Yeah, yeah, yeah. Oh, yeah. So when the. So first of all, when that asteroid hit like 66 million years ago, that was not some normal asteroid. There's lots of asteroids buzzing around out there occasionally, you know, there's a meteor or something. That hits the Earth, and usually they're pretty small. This was huge. And this was the biggest asteroid to hit the Earth in at least the last half a billion. Like this was utterly terrible bad luck, Way out of the norm of Earth history. And, you know, nothing can prepare for something like that. It's such a one in a trillion out of the blue thing. And so you had these dinosaurs, like T. Rex and Triceratops. They were there the day the asteroid hit. We know their fossils go right up to the layer from these spherules and the other chemicals and stuff the asteroid left behind. They were utterly dominant. I mean, they were ruling the fossil food web. You know, the biggest meat eaters, the biggest plant eaters, Their kind had been around for over 150 million years. But now, all of a sudden, things went to chaos around them so quickly, so thoroughly, that they didn't have time to adapt. You know, the normal processes of adaptation and natural selection and genes changing a little bit through the generations. No, that can't work. I mean, you had to confront that asteroid with whatever hand of cards you had. And so 75% of all species died. So when after that asteroid hit, your entire species had a one in four chance of surviving. It was utterly catastrophic. And it seems like the biggest thing is that if you were big, you died. End of story. Everything bigger than a husky dog died. At least that lived on the land. Didn't matter what you were if you were a dinosaur, if you were a crocodile, whatever it was, probably just.

A

Why do you think that is?

B

I think it's just a matter of. I think when the asteroid hit, it unleashed, you know, earthquakes and wildfires and tsunamis, and these hurricane force winds swept across the landscape. And then all the dust and the dirt and the grime from the collision went up into the atmosphere. The soot, like forests across the world just spontaneously combusted. It's like global wildfire. All that soot went into the atmosphere, and the atmosphere has currents just like the ocean. So within really a few days or a few weeks, all that crap would have spread around the Earth and it would have blocked the sun out, and the Earth would have went dark and cold. It would have been a global nuclear winter. And maybe it was just a few years long, maybe it was up to a decade or so long. You know, there are computer models that physicists have used to predict how long that winter would be. But plants would not have had sunlight. They couldn't make their own food, they couldn't photosynthesize. They would have died. And as the forest collapsed, they took the entire ecosystems with them. And so if you were big and you needed a lot of food, I mean, there just wasn't much food on offer. If you were smaller and you didn't need to eat as much, or you could eat a wider variety of food, very omnivorous, you would add a better odds to survive, probably. And that's probably in a large reason, maybe the main reason why T. Rex and Triceratops died. But you had some of these small birds and you had these small little furniture mammals, the ancestors of ours that made it through the asteroid. Because they were small, they could eat lots of different food. They didn't need to eat that much food. They could hide easily, they could dig burrows, they grew quickly, they reproduced quickly. That was probably the winning hand of cards to have when that asteroid hit. And if you wanted to be one of those, one out of four species that survived being small, not having to eat a lot, being able to hide, being able to grow quickly, those were probably your get out of jail free three cards.

A

What was like, what parts of the Earth were you most likely to live? Were you most, what, like, where did most life forms survive or didn't it work like that?

B

It's hard to tell. There probably was some geographical component of this extinction. Obviously anything close to ground zero to the Yucatan, I mean, not only would have died, would have been vapor, I mean, literally vaporized, just like turned to ghosts. I mean, and, and the physicists, scientists have again, computer models of this that show that maybe within, you know, 1,000 miles or so of that ground zero, everything gone, Everything gone. There would have been other parts of the world. I mean, you know, all things considered, the farther you were from ground zero, probably the better. Yeah, it does seem like from the fossil record that some of the survivors, some of the groups that then start to thrive, like some of these small mammals, which then become really big, big and really start to diversify and take over the world soon after. Because now the dinosaurs are gone. You know, that some of them may have come from northern Asia. Okay, that's one idea. It's hard to be sure of that because the fossil record is kind of limited, but that this could have been like, you know, refugium, like some place where far from the worst of the carnage that animals could have survived. And then from surviving there once the sunlight came back, you know, they could have spread around. That probably did happen. We just don't know. We need to know more about the whole world and the fossils we have of that age. Happen to be concentrated in certain places, as fossils often are. And some of the best fossils are from right here in Montana. We have the very last dinosaurs and the mammals that took over all the way down south to New Mexico. And that's where I've worked quite a bit with Tom Williamson, who's just retired as the curator at the museum in Albuquerque. Tom and his sons Taylor and Ryan, they're twins and he brought them up out, starting when they were like 6 years old, and taught them how to collect fossils. And they collected incredible. I talk about them in the book, I have pictures of them in, in the bird book because they've collected some of those important fossils of the birds that survived the asteroid. They were like 12 years old. It was incredible.

A

What did those. So tell me about what dinosaurs survived. Okay, so if, if we, if we chase down this idea that like the, that, that, that was the birth of birds.

B

Yeah.

A

What did they look? Who were they? Like who were they? What did they look like? If we saw them today, would we be like, oh, a bird?

B

Yeah, we would, we would, we'd recognize them immediately because they are the modern style birds. The only dinosaurs that survived the asteroid were birds that had beaks instead of teeth, that had big wings, big chest muscles. You know that when, you know, you're out hunting turkeys and you're cooking a turkey, all that meat in the chest that connects to that big breastplate bone, that is something modern birds have. Those are the airplane engines. That's what control the wings of birds. Now turkeys, you know, don't fly particularly well, but they can fly. Birds that fly a lot, they have even bigger muscles, so beaks, big chest muscles, big wings, really lightweight skeletons, really hollow bones, and really fast growth and reproduction.

A

So most birds, that's who made it.

B

Yes, that's who made it. And so birds today, like, it's actually really hard to see a baby bird. Like even if you're a keen bird watcher. Okay. You know, it's maybe brute breeding season and okay, the eggs are being laid, but you have such a narrow window to see a baby bird because they grow so quickly from a hatchling into an adult, sometimes within a matter of days or weeks in some species.

A

Yeah, like it takes a trained eye, you know.

B

Yeah, it's, it's incredible. And this is all because modern style birds can grow really fast. They have really high metabolisms, they're warm blooded. So those were the only dinosaurs that survived.

A

Why is that?

B

So of course, we need to look at, at the victims a bit to get a sense of how the victims and the survivors differed. So of course among the victims were things like T. Rex and Triceratops and the duck billed dinosaurs and the dinosaurs with dome heads and the dinosaurs that were armored. And like the bigger dinosaurs, the classic canonical dinosaurs, they probably died because they were too big. They just couldn't get enough food. But there were also lots of other birds that were flapping and flying and fluttering around over the heads of T. Rex and Triceratops on the day the asteroid hit. And most of those birds, birds did not survive either. Some of those birds still had teeth, they still had like raptor dinosaur claws on their hands, they had long tails. Basically primitive birds, like holdovers from the dinosaur ancestors of birds. And they all died. They all died except for modern style birds. And so we think that it is being able to grow really fast and reproduce really fast in the modern style birds that came in handy. I mean, if the world goes to hell and it takes you 20 years to go from a baby into an adult like it did in a T. Rex, I mean, come on, you're in trouble. But if you can go from a baby to an adult within like a few weeks, okay, the generations can turn over really quickly. Of course, these birds had big wings and big flight muscles. They could fly really well, which means they could escape from localized dangers. Oh, there's a flash flood coming this way. Or oh, there's a forest coming, fire. And the beaks, we think are important too, because a lot of these birds that had these beaks, they could eat seeds, okay, which seems kind of trivial. You know, a lot of birds today eat seeds. We just kind of think it's normal. But in fact, it's quite hard to subsist on a diet of seeds. It's a pretty peculiar diet. And these birds with beaks could do it. And we know that in some cases we have the last meals preserved in the stomachs. We know that some of these early birds, birds ate seeds. Now, when we see it in the modern world today, if there's a forest fire, if there's a volcano that obliterates an island, stuff will grow again. And why is that? It might take a year, might take a few years, but seeds can persist in the soil. Seeds are really hardy. And so back when the asteroid hit, if you were the type of animal that ate part of a growing plant, you ate leaves, you ate fruits, you ate stems or whatever, you'd be in trouble because the forest collapsed, the trees died, the other plants died when sunlight was shut off. But if you could eat seeds, you could eat basically the last surviving food source. It wouldn't get you through forever, but it might get you through a year, two years, three years. And so that could have been their get out of jail free card. But really I like to think about it as, you know, when that asteroid hit, this was so sudden, so unexpected, totally out of the blue, just this bolt from the heavens. Nothing had a chance to prepare for that. That's not how evolution works. So the Earth became this fickle cas, it became a game of chance. And really you had to confront that asteroid with the hand of cards you were dealt. And some animals had just a bad hand of cards. They were big, it took them a long time to grow. They needed to eat a lot of food. But other animals had a good hand of cards. You know, the dinosaurs like T. Rex and Triceratops, they had the dead man's hand. The birds, the little mammals, they could grow fast, they could eat lots of different foods. The birds could probably eat seeds with their beaks, they could hide easily. And so that was a winning hand of cards and maybe didn't guarantee your survival. You're at the poker table. If you have a good hand of cards, it doesn't mean you're gonna win. Still gotta play the game. But that was probably what allowed those particular dinosaurs, of all the dinosaurs, just modern style birds to survive. And it allowed our ancestors, our tiny furry ancestors to stare down the asteroid as well. And thank God they did, or else we wouldn't be be here. Herobred delivers the stacked sandwiches, loaded bagels, rich Mac and cheese you love, just with a better protein to calorie balance that may help fuel you longer. Made with high quality ingredients, every bite lands soft and satisfying with up to 19 grams of protein plus up to 32 grams of fiber per serving. Shop now at hero code iheart for 10% off all figures per serving, see calorieinfoero co. 34 to 48% fewer calories than regular products. Calorie content has been reduced on average from 162 to 92 calories per serving. Data accurate as of 220 26. At Tractor Supply, they know the days are getting longer, warmer and it's time to get back outside. Whether you're working the land, heading to the woods or getting back out on

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A

Spring turkey season is One of the best times to hand the hunt over to your kid. Part of the problem hunting turkeys with kids is a lot of the pregame stuff is all happening in the dark. They can't really visualize what you're talking about. But with Onx Hunt, you can show them what you're talking about on your phone and make the whole thing real. Let them learn why their moves work and why they don't. You can show them exactly where you're allowed to hunt. You can decipher direction and judge distance on a gobbler with waves points in compass mode and build a setup together instead of just telling them what to do. It turns a morning in the woods into a lesson they'll carry the rest of their hunting life. Download the Onx Hunt app and use spring turkey season to make better hunters one spring morning at a time. Now what about all those big, like those pterodactyl birds? They're not birds. They're not birds, but they. Yeah, but they didn't. They were gone.

B

Nope, they were gone. So they died with the asteroid because they were.

A

When you came out, beaks and teeth. Like think of a Merganser's bill.

B

Yeah.

A

Is that the kind of tooth you're talking about?

B

No. So no birds today have real teeth.

A

Okay, so they have serrated bills.

B

Some birds do have serrated bills, but it's the keratin of the bills that serrated. There's some fossil birds like these giant soaring birds that had 20 foot wingspans. They actually had bony teeth like their jaws were like saw blades, but it was bone. No, birds have teeth like us that have enamel on the outside and grow from a tooth socket. But of course, dinosaurs did. Now when it, when a bird develops in the egg today, it starts to grow teeth very early on and then the beak starts to grow and that stops the teeth from developing. The teeth never develop. But some of these developmental biologists, the kind of biologists that you know, oftentimes are looking for cures for cancer and these kinds of things, trying to understand how different genes control growth. They can actually make a bird grow teeth in the egg and they look like the teeth of little raptor dinosaurs. So that's some of the modern day evidence. You know, this was unknown to Darwin. Darwin and his contemporary didn't even know what DNA was. But this is some of the modern day evidence that drives home that point that birds evolved from dinosaurs. You can make a chicken grow little dinosaur teeth in the egg, but they, they. No modern birds have teeth. They can't really grow them to completion. There's something about these little teeth that just doesn't work anymore. They start to grow, they fade away. If you make them in the lab grow, they can grow a bit, but then the bird dies in the egg. But they're there, the genes, these dinosaur genes are lurking in the genome of modern birds. Now, pterodactyls. He asked about pterodactyls. So pterodactyls are. They're not dinosaurs, they're not birds. They are a group of reptiles. Tiles that. That flew.

A

Okay.

B

They're close cousins of dinosaurs, so it's fine. Most people think they're dinosaurs. And you know, it's funny, they had like.

A

They had like a beak structure.

B

They did.

A

That's where you get into this thing that's. That's confusing. I shouldn't say it's confusing, but I guess. I don't know, it's not the right word for it. Amazing. Confusing. Whatever is that. So many things can arrive at.

B

Yeah.

A

The same solution by different paths. Like me meaning a bat.

B

Yeah.

A

Okay, here's a mammal with a wing. A flying squirrel.

B

Yeah.

A

Is somewhere in the process of developing.

B

Yeah, yeah. They don't flap their wings like a bat, so they don't have the powered flight that a bird or a batter.

A

But he's like on his way.

B

Yeah. They're on their way to figuring out or something. Yeah, yeah.

A

Or another case, you have the structures of fish.

B

Yeah.

A

Fins.

B

Yeah.

A

But then you have marine mammals, animals that have like fins and structures. But they all got there these very different paths.

B

Yeah.

A

Right. So when you look at those, those like from all the kids, dinosaurs, books and stuff, you see like the pterodactyls, like he's got a bill.

B

Yeah.

A

Or a beak, flies around. Yeah, right.

B

Yeah.

A

But it's just like coincidence.

B

Yeah. It's what we call convergent evolution. And it's just because if you live a certain lifestyle, let's say, say you fly, I mean, there's only a certain number of ways that a body can fly, especially if you're going to flap your wings. So a bird, a bad. A pterodactyl, just basically by like the laws of physics, they're going to end up looking somewhat similar because they're all flying. Same with swimming. You know, you're going to swim with flippers or fins. You're not going to swim if, you know, if you're going to live your life in the open ocean, you're not going to swim with the type of arm we have. So evolution over time often converges just, you know, in a sense it's coincidentally because nothing in evolution is planned, but really it's because of natural selection. You know, if you're going to fine tune an animal to be an ever better swimmer or flyer or what have you, there's only certain ways that's going to work just with the physics of motion. So you do get distant relatives often re evolving the same features because they're living similar lifestyles. And pterosaurs, the pterodactyls and birds are a great example. You know, they are not particularly closely related. They evolved flight independently of each other. It was actually the pterodactyl that did it first, way back in the Triassic period on the supercontinent of Pangea, back when all the land was one. That's when pterodactyls took to the skies and they evolved a really strange type of wing that is not made of feathers, but is made of skin. It's like a giant sail of skin that attaches to one super long finger, the ring finger. So like E.T. the long finger, and it's this sail of skin that attaches to it. That's how they fly. Now birds, of course, fly with wings made out of feathers. Bats fly with a skin wing, but one that attaches to the entire hand. So each of them have wings, each of them flap those wings, but each wing is subtly different and that tells us they evolved independently. They evolved for flying. Yeah, they were optimized for flying, yeah. But each one had a slightly different ancestry and that's why the wings are slightly different. Now with the pterodactyls, then the birds came onto the scene about 150 million years ago. That's when we have the oldest fossil of birds that still look like they're half dinosaur. They have teeth, they have big claws. And by that time, there had already been pterodactyls for like 80 million years. So birds were interlopers into this pterodactyl world. And then for the next, you know, many tens of millions of years, they competed. I mean, they competed for supremacy. Yeah. And then the asteroid came down suddenly out of the blue and it killed, killed off almost all of the birds. But a few of these modern style birds with beaks and, you know, fast growth and so on survived. The asteroid killed off all the pterodactyls. We don't know why exactly. Most of those pterodactyls were bigger. And I think that probably has something to do with it, there weren't like the equivalent of pterodactyls, like all the little songbirds and so on that we have today. And some pterodactyls were giant, so I think that's probably one of the reasons. But it could have also just been a bit of dumbbell luck, you know, I mean, things went to chaos. This was one bad day that then compounded over the days and weeks and months. But maybe the pterosaurs just had a bad break, but they're gone. They're gone. And now birds are alone in the skies. Bats would come later from some of the mammals that survived. And that's why for the first 10 million years or so after the asteroid, birds evolve like crazy. And that's where we see the first fossils of most of the modern birds that we know. And that's where the DNA, when we build family trees based on DNA. Because, you know, this story isn't just about what fossils we happen to. That's part of it. But we can learn so much about the history of life and evolution by basically doing like what they did on the Springer show. You know, you get the DNA, you want to know what's related to what, and you could build these family trees. That tells us, for instance, that birds are reptiles. When you build a family tree from DNA, the birds slot within the reptiles. They are right up next to crocodiles. Crocodiles are the closest living cousins of birds. So that really proves this idea that goes back to, to Darwin. They had no idea what DNA was back then. But along with like, you know, the, the, the genes in, in a bird that can grow teeth. And these are all the more modern recent things that tell us that Darwin and his contemporaries were right, that birds really are highly modified reptiles that, that came from the dinosaurs.

A

How big was the biggest bird that survived that strike?

B

Probably quite small. That was probably part of it as well. We have a few fossils bigger than

A

a chicken or not bigger, probably smaller. So there are the. Probably the biggest bird was smaller than a chicken.

B

Yeah, probably. So there were other birds living then that were bigger than chickens, but they vanish. But it seems like they vanish now. Bird fossils are rare. You know, birds have delicate bones. It's harder to turn a bird into a fossil than it is like a big T Rex or something like that. So we're always dealing with limited evidence. But there's a few places in the world that have really good fossils of birds from right before the asteroid. One of them is in the Netherlands and in Belgium, you know, not just A bit south of where I live now, it just so happens. And there's some of the birds preserved there. And there's, they're tiny, they have beaks, not teeth. They grew really fast. They had big flight muscles. But I mean, their heads were just maybe, you know, less than an inch. So they, you could have held these things in your hand. They were really small. We also have good fossils from Antarctica. And I tell this story in the book, in the Story of Birds about some of my colleagues, Julie Clark and Matt Lamanna. They're very adventurous paleontologists and they, they bring teams of themselves and their students down to Antarctica to look for, for fossils. And I mean, that's dedication. I mean, I do field work in stuff.

A

And there's stuff down there.

B

Yeah, and there's stuff down there. And there's stuff down there. And they find birds that were living within the few million years before the asteroid. And these are modern style birds. They actually are close relatives of chickens and ducks. You can tell that from the bones. We don't have the DNA, but the bones make it very clear. They have chicken and duck features of their wings and of their legs and of their heads. And they, they were small, so that was part of the picture too. They had beaks and could eat seeds, they could fly well, and they were small. And it seems like the survivors also lived in or near the water. They were not perching birds, they weren't nesting in the trees. The forest collapsed when the asteroid hit.

A

I got you.

B

So living in the water helped too. So as I think we can see, it was probably just a lot of things compounded to together that gave them the better odds to survive. But from those tiny survivors very quickly, in the next interval of time after the Cretaceous, the next interval of time is called the Paleocene. And this is when mammals really take off and you get mammals that get up to the size of cattle. You know, after 150 million years of tiny mammals living with dinosaurs never getting bigger than a badger.

A

Yeah, hide in the hole somewhere. Yeah.

B

And it's because T. Rex is gone, Triceratops is gone. But birds do something similar and you start to see the major modern groups of birds appear as fossils. The DNA tells the same story that they were originating around that time. And this is where you get, you know, the ostrich group and the penguin group and the distant ancestors of songbirds and of, you know, hawks and eagles and so on, and of everything in between. I mean, there's over 10,000 species of birds today and a huge amount of that diversity was established. Establish really early on as these few surviving tiny birds with their beaks that could make babies and grow, you know, to an adult within years. They looked out on this world where there's no big dinosaurs anymore and the trees are starting to grow.

A

I wonder if they had it in them to feel optimistic. You know, this seems bad, but this is going to actually work in our favor.

B

Who knows? I'll tell you though, they did have pretty big brains. We can tell from the CAT scans. And so that was probably part of the picture as well. Having bigger brains and higher intelligence and keener.

A

Make the right decisions as well.

B

Yeah. Be more adaptable, more resilient. Yeah.

A

You know what I think about when I'm. I think about all these animals from back then. Like, I always imagine, you know, if you cut a big old back strap out of like a brontosaurus. But, you know, it seems like. But those pterodactyls, man, they seem like they'd be a shitty taste.

B

Oh, they'd be.

A

Doesn't seem like it'd be the worst kind of meat on the planet.

B

Pterodactyl would be probably one of the worst things you can eat. There'd be hardly any meat on there. Lizard, a lot of them ate fish, so they would have been pretty disgusting. As you know, we know when we eat things that are like primary.

A

If you could know like what a dinosaur steak like from her, like a herbivore dinosaur steak would be like. Or if you could cook up a bird from back then, would it be like, is it just like chicken now?

B

Oh, I love it. You know, it's funny.

A

It's something you guys should worry about.

B

And I know, you know, we're talking about this because, you know, this is your show, this is meat Eater podcast, but you wouldn't believe it. I get asked that question quite a bit, what they would have tasted like. And I mean, what do you think

A

their flesh was like?

B

So I think so first of all, probably like animals that live today, the ones that ate plants would have tasted a lot better than the ones that a meat. So you would.

A

Do you think they had like red meat or do you think they had, like chicken meat?

B

I don't know. So, you know, they weren't mammals. They wouldn't have had the same kind of meat as mammals. I think like an, you know, ostriches and emus, like, those are probably the best comparison for what a dinosaur would be because, you know, they are dinosaurs and they're big dinosaurs.

A

I sometimes picture all the Meat on one of those things being like snap and turtle.

B

Turtle meat, yeah, you know. Yeah, yeah, turtle meat. And, and, and like alligator is another one. So you know, alligators and birds are the closest relatives of modern day dinosaurs. And you know, you eat gator meat, it oftentimes tastes like chicken. Now sometimes that's because it's farmed and they, you know, feed them chickens. But generally, you know, you can get a bit, even wild gator, I've had it, you know, down in Louisiana and it's like, yeah, that's kind of chickeny, is kind of poultry. So probably a lot of dinosaur would be like that. But yeah, go after the triceps, triceratops steak, the brontosaurus burger. You know, Fred Flintstone was, when I

A

was watching that deal with my little boy last night, there was a scene where they, he killed this, this T. Rex, kills his big dinosaur and he drags it home.

B

Yeah.

A

So his little kids can eat it and they're snacking on it and it was real dark beef. Like. Yeah, that's another thing where I'm like, they don't know that.

B

No, no, I would. And you know, I'm not gonna say they're wrong because this is getting really kind of far, far from the fossils. I like to try to stick as close to the fossils as I can.

A

Yeah, but you got it makes you kind of wonder about it all though, right?

B

Yeah. So I truly, honestly, I know it's maybe a bit of a glib thing. We're talking about what dinosaurs have tasted like and which steak would you want to eat.

A

Okay, then what, like, then never mind what they taste like. But like what would you, I mean it's a thing. You can't tell.

B

Yeah, we can't tell because you're saying

A

like for a long time we didn't have feathers and we had feathers, but like the quality of like the qualities of flesh.

B

You know, all we can do there really is look at modern day birds and crocodiles and alligators as the closest relatives and make this probability argument that a lot of dinosaurs would have had similar sort of meat. And not just meat, but you know, when it comes to organs, internal organs and tendons and ligaments and all these things that we just don't normally get as fossils. Looking at the modern animals is that are closely related to dinosaurs is our best, best approximation. But it's not, again, it's not slam dunk, you know, it's a guide. It gives us some, you know, degree of plausibility. But these are things we ultimately don't know which, which I, which makes it fun. And with shows like that, and especially when we do the Jurassic films where we don't have to be as concerned with total scientific realism because they're monster movies, you know, we can have fun with some of that stuff, you know.

A

Another one I always wonder about in your guys world is how do you ever get a sense of population dynamics? Meaning like picture that, picture that today you were out like, let's say you go through the big valleys around here. Okay. Here and there is an eagle nest.

B

Yeah.

A

Right? Yeah. But you could feasibly spend a day looking for a bald eagle nest and not find one.

B

Yeah.

A

Here and there.

B

Yeah.

A

You'll find an osprey nest.

B

Nest. Yeah.

A

Okay. Like if you look really hard, you'll, you'll never, you'll probably never find. If I gave you a week during peak time and I said find me a hummingbird nest, you wouldn't find it.

B

Yeah.

A

Okay. But then you go to other places, right? Like, like shoreline rookeries and stuff, you know, Other places you'd be like, well there's thousands of them.

B

Yeah.

A

Or you go to a giant bridge and cliff, swap swallows. It'd be like, oh no, I'm looking at hundreds of cliff swallows.

B

Yeah. We have, in Scotland we have these, you know, gannic colonies out on some of the rocks, you know. Right near Edinburgh. Yeah, I mean it's. I, I mean hundreds of thousands maybe in one place. Yeah.

A

So how do you ever, like if you imagine the years after and you have these surviving birds, is there ever any way to get a sense of like population dynamics? Meaning was it that you would. That you could boat down the coast for days and not see anything and then find some little nesting colony? Right. It was that bad. Or you think it would have been that the skies were full of thousands of them?

B

I honestly don't know. I think the fossils don't give us that information. And I'm not saying it's impossible. I never like to say as a scientist that something is impossible to know. That's the worst thing you can say as a scientist. But I think it's highly unlikely. It's just the, it's not like we have a snapshot of an entire community, an entire landscape with fossils.

A

But you know, but they. With the stuff with mitochondrial DNA where you start telling like you can be like. Yes, but you can start telling like this thing came out of a population with.

B

That's right.

A

With blank number of breeding age, females.

B

Y. So when you have the DNA and This, and this comes into play with human evolution for sure, because when you study the mitochondrial DNA of modern day humans, of us, the geneticists are able to tell that the diversity of mitochondrial DNA is, you know, consistent or indicative of some kind of bottleneck. I don't remember all the.

A

Yeah, like there's like the seven do like the seven daughters of Eve regard, like Western Europeans. Yeah, yeah, I'm probably mutilating this, but yeah, and it might be an old idea, but at a time. No, there's something that there was like that all Western, that western Europeans went through a bottleneck of seven females.

B

And I'm not sure because it's not my field, but I've read a lot. When I was writing the mammal book, I read a lot of this. And yeah, we might be wrong about the details, but I think that's still true, that there were definitely these bottlenecks in the evolution of Homo sapiens. And that does explain why human genetic diversity. I mean, there is a lot of genetic diversity in one sense, but really, you know, if you take you or me or you take, you know, somebody from South America or Africa or China, I mean, our genes are really similar, really similar because of those bottlenecks. With other mammals you can do similar things. And I've seen people do, do this like with woolly mammoths and saber tooth tigers to try to understand what those last populations were like at the end of the last spasm of the Ice Age, you know, how many mammoths were left? Did they collapse?

A

Yeah, and you could track like, you would track along and be like, these ones came from a very small, dwindling population.

B

And people have done that for sure. With the, the last surviving mammoths, as far as we know, lived in Wrangel Island. This little Russian island. Yeah, dude, up till 4,000 years, 4,000 years, this, you know, it's time people are behind building pyramids. It's nuts. You know, time back in the, in the Midwest where there were, you know, great Native American tribes that were building, you know, civilization, there were still mammoths on this island. And those mammoths live so recently that the DNA, or at least a lot of it's still there. I mean, DNA breaks down really quickly. So we don't have any T. Rex DNA or any Triceratops.

A

So that's what you would draw. Like that's what you would need to draw.

B

Yes.

A

Dynamic, like population dynamics.

B

Yeah. To have rigorous, rigorous basis for that. And so we can't really do that with T Rex. You know, what were those populations of T Rex like before the asteroid hit. Now I say we can't do it in that way. There have been some ecologists that have published quite esoteric studies estimating the size of T Rex populations based on how many fossils we know and how those fossils are distributed in the amount of time. But it's a statistical exercise and the error bars are.

A

Hit me with one with a ballpark, I think.

B

So I don't remember the details. This is work that. There's a very eminent, more statistical minded paleontologist named Charles Marshall in California and he led a team that did this and it was actually a big research paper. They published it in Science, the Premier Journal about 10 years ago or so and I think they estimated something like a million. I mean I could be butchering this

A

population of 1 million, but like a

B

million at a time, like standing population of T Rex. But you know, and they were very upfront about the biases. But it was more of like a thought experiment, like what scientists like to do. Sometimes we're in the pub and we're sketching on the back of a napkin.

A

It's a great thought experience. And you know what I, you know, I'll say as part of the thought experience. There's no way. Yeah.

B

I mean, well, why, so, so what's, so what's your, what's your gut feeling?

A

Why, why would I give that gut feeling? Because I would just look at general large predator populations.

B

Yeah.

A

That like, like just that large predators are generally pretty scarce.

B

Yeah.

A

Oh yeah, I guess. But it had to be like how big? I don't know. Because the other thing you look at is carrying comp capacity. But we don't really probably don't understand the land, the carrying capacity of the landscape. Not really understand the vegetative regime.

B

Exactly. So there are some studies that have been published by ecologists, you know, hardcore ecologists that understand the modern world and they're kind of dabbling in dinosaurs, doing their own thought experiments but trying to understand carrying capacity. And it's tough because, yeah, the vegetation back then was very different from the vegetation today. The climate was different, the temperature was different. We also don't really know much about the fine details of the metabolism and the growth of these dinosaurs. We debate were they warm blooded or not. You know, and it's not either or you know, you can have degrees of metabolism. So all that stuff factors into carrying capacity. So it's really.

A

Yeah, that's a tough one really because even if with carrying capacity questions is like, even if you go to, you go like the oceans today.

B

Yeah.

A

You know, and you look at the biomass per unit of space that comes. Comes out of, you know, stuff at like the 50th parallel versus the biomass or unit of space that comes out of sort of like the oceanic desert, you know.

B

Yeah.

A

So you can't. They're so radically different. It's probably impossible to know. But I guess an interesting thing. We can move on from this after this question. But I guess you could look at. Let's say you go to. To before the. The strike.

B

Yeah.

A

Okay. And you sort of. And you take any gap of time. Right. You take a gap of time of. Of a million years or 5 million years, and you go like, how many fossils were regenerating per unit of time? And then if you go post strike, do you wind up. Do you look in the fossil record and be like, you know what? There were so few animals alive that from 66 to 56 to 46 million years ago or whatever, there are no fossils.

B

Meaning.

A

Because the chances of making a fossil are so small. Slim.

B

Yeah.

A

That if you had so few species left on Earth that, like, the fossil lottery.

B

Yes.

A

Isn't paying off.

B

Yes.

A

And then in some way you might look and be like, there just really wasn't much around, you know.

B

Yeah. And people do this. There are paleontologists who are very statistically inclined that build these statistical model. I mean, it's actually quite similar to how people build like, you know, polls for elections or predicting the stock market, like that kind of. Kind of statistics. Like, it's quite rigorous and quite robust. But also, as we know, it's not always correct. You know, it's trying to predict things based on limited evidence. There is this argument that. That individuals were so rare right after the asteroid. Yeah. That. That's why we don't have tons of fossils. Because people often ask, well, if this asteroid came down and caused this extinction on some Tuesday morning, you know, why don't you have all these bodies being preserved as fossils? And what it comes down to, it is just. Yeah, the fossil lottery. I mean, to turn something into a fossil, it needs to die. It needs to be buried in sand or mud. It needs to be turned into a rock. And then that rock has to be accessible on the surface of the Earth today for some scientists to walk by and see the fossils sticking out. So even at any given moment of time, even if a lot of things died at once, just the odds of any individual individual getting buried by sand or mud and turn into a fossil, it's low. And this is part of the, you know, the same thing when we talk about woolly mammoths, you mentioned mammoths that have been found with direct evidence for human hunting. There's not tons, or maybe some archaeologists say there actually are, but it gets down to, you know, what we expect. And even if humans are killing these mammoths and leaving evidence behind, spear points and projectiles and so on, just the odds of getting that stuff turned into a, a fossil is, is low. So it is very hard. It's very hard. We can do these statistical studies and we can make predictions, but ultimately we're dealing in this, in these cases when we want to understand populations. It's just, it's really challenging with fossils. Again, I'm not going to say impossible, but challenging, really challenging. And I think we need to be very skeptical as scientists. Anytime somebody makes a bold claim about, you know, these populations of dinosaurs were this big or they did that, or it was this ecological reason that they collapsed Sometimes also, let's face it, bizarre things happen. The passenger pigeon is a great example of that. That went extinct. You know, the last one died in a zoo, you know, in the 1900s, really just a few decades before, there were billions of these things living across North America. And yes, they were over hunted by people in the 1800s, but also there was a genetic crash. They went through some kind of bottleneck. And I mean, it, it just wreaked havoc on them. They collapsed as a population. It would be very hard to know that kind of thing from fossils, not having the genetics and only having limited fossils preserved here and there. So I think we just have to be always mindful that we can learn a lot from fossils. Fossils can often tell us, oh my God, there's this strange group of pterodactyls we would never know existed if we didn't have their fossils. And they could fly and they could grow in this particular way and they lived in these particular places and they fit into the family tree this way. Those are things that we can get quite readily from fossils, but you know, details of behavior and population size and these kind of things, it's tough. So we, you know, it's, it's like we're, we're squinting at the heavens, looking at the stars, making constellations out of these limited, you know, limited, limited stars, trying to find patterns. But that also makes, I think it makes any science fun, honestly, when there's mysteries and there's uncertainties and you're trying to push the evidence as far as you can go. When we're studying intelligence and cognition, and extinct species. Like that's what we're doing now. Like I'm under no illusion. I don't think we're going to figure out, you know, how many neurons there was in a brain of a T. Rex or could a T. Rex recognize itself in a mirror? You know, those are very specific things, but we're pushing at the boundaries and we want to know as much as we can know from the fossils that we have from cat scanning them and looking at the brains and the regions of the brains and comparing to modern animals and and so on. So all science is really about, you know, pushing the boundaries and knowing as much as we can know with the evidence at hand and then trying to find new evidence to test that, to overturn that, to buff up our ideas or what have you. Herobred delivers the stacked sandwiches, loaded bagels, rich Mac and cheese you love, just with a better protein to calorie balance that may help fuel you longer. Made with high quality ingredients, every bite lands soft and and satisfying. With up to 19 grams of protein plus up to 32 grams of fiber per serving. Shop now at Hero code iHeart for 10% off all figures per serving. See calorie info at Hero Co 34 to 48 fewer calories than regular products. Calorie content has been reduced on average from 162 to 92 calories per serving. Data accurate as of 220 26. At Tractor Supply, they know the days are getting longer, warmer and it's time to get back outside. Whether you're working the land, heading to the woods or getting back out on

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A

Spring turkey season is one of the best times to hand the hunt over to your kid. Part of the problem hunting turkeys with kids is a lot of the pre game stuff is all happening in the dark. They can't really visualize what you're talking about. But without Onx Hunt, you can show them what you're talking about on your phone and make the whole thing real. Let them learn why their moves work and why they don't. You can show them exactly where you're allowed to hunt. You can decipher direction and judge distance on a gobbler with waypoints in compass mode and build a setup together. Instead of just telling them what to do, it turns a morning in the woods into a lesson. They'll carry the rest of their Hunting life. Download the Onx Hunt app and use spring turkey season to make better hunting hunters one spring morning at a time. What's the biggest, like if you look at you yourself and your own research, the research of your community. Hit me, hit me with one or two of like the biggest questions you have right now. Like the, the things that, and not things that you can't answer, but things that you're optimistic that would find an answer that sort of like professionally keep you up at night.

B

Yeah. So there's a lot. You know, there is so much we don't know and we're learning more and more all the time. And we really are in a golden age of paleontology. People are finding more fossils than ever before, especially when it comes to dinosaurs. There's about 50 new species found a year. It's like once a week somebody's finding a new species and it's because more people are looking.

A

I want to pause my question because I forgot to ask you a question preceding this that I thought of earlier. So hold that thought.

B

Okay, I'll hold that thought.

A

But it's buddies with that question. Okay, so is it, here's the question. Is it would ever. Are fossils ever of such value that, that people would industrial scale surface mine for fossils? Or is that because you said it's like looking at the surface or people luck into it? Are there any cases where like, like engineers, industrial scale surface mining, strip mining for fossils?

B

Yes, with things like coal. Okay. Coal's a fossil. It's fossilized wood basically from trees. And of course that's been industrially mined forever because it has economic fossils. No, so, so there are other things. I mean oil comes from ancient organisms and there's, you know, ancient sea plankton formed chalk and formed, you know, diatomis Earth that's used. So there's economic, various things that we use economically that have huge outsize importance in world and our economies are actually fossils. But I know that's not where you're at. You're asking if you know, industrially you'd strip mine a whole area to find the T. Rexes or something like that. And the answer is not really, at least not yet. Recently there have been a lot of these auctions of fossil dinosaur skeletons and some of them are bringing pretty big

A

prices like coming out of Mongolia and stuff like that.

B

Yeah, the Mongolia ones are tricky because that's illegal, so there's a black market there. But the ones that, and you do see some of these up for auction sometimes and those are seized oftentimes by the government, either here or in Mongolia. But if you find a fossil here in the U.S. i mean, if it's on your land, you do what you want with it, right? I mean, this is our culture. And so traditionally, a lot of ranchers here out west, scientists would say, I want to look in your land, and we're looking for dinosaur bones. And sometimes people would say, no, of course, but a lot of times people say, yeah, go out. We got all these acres, and these are just bones to put in a museum. And that's great. It's been wonderful. I mean, I know so many of my colleagues have discovered amazing fossils because they built these relationships with ranchers out here and across the West. Things are changing a bit, though, because some of these fossils are being put up for auction and going for $30 million, $40 million. This stegosaurus went for over $40 million. So, of course, if this is your land and there's some fossils on there, even if you like the scientists, if you have a chance to make 40 million bucks from a fossil, of course,

A

that's what I'm saying, that you would like that you would. That you would. The same way people prospect for gold, you would prospect for that stuff.

B

And so there are commercial fossil hunting outfits, and they're quite common here out in the American west that go out and look for fossils and there's. So they can sell them. And there are ranchers that buy ranch land not for their cattle, they might use it for their cattle as well, but because it's land that has the right kind of rocks to find fossils. So there is a market for this.

A

Got it.

B

There definitely is a market for this, which, you know, has its pluses and minuses. As an academic scientist, you know, I hate it if there's a fossil that's so important and so beautiful, and it would be so good at a museum, and it would be so good at inspiring people and educating kids if that disappears into some rich guy's vault, you know, but at the same time, look, this is law. We're not going to change. Nobody wants to change the law and have the government here, like, seize a fossil from your land. So that is the economic reality. Um, but it's not industrial scale. It just would be really hard to, like, strip mine an entire ranch in the hopes you might find a fossil here or there because they're still rare enough. It's not like finding, you know, I mean, it's usually not like finding a coal seam or a vein of ore or something. You know, you Might find a bone bed of fossils where you have a lot of skeletons preserved together because there was a flood or something that killed a whole herd of dinosaurs. You probably could industrially mine those. But otherwise, most fossil dinosaurs, at least, are so random, one here, one there, one there, that it would be hard to do that.

A

Okay, so let's get back to the question of what. What are the. What are the. Not the fantastical things that you'll never know, but what are the kind of things, like the big questions you have that you could see, like a pathway to answering when you look at the whole collection of your work? The story of the mammals, the story the dinosaurs, the story of the birds. Where are the pieces where you're like, I see how we get to there, but I don't understand how we got from there to there. You know?

B

You know, there's a bunch. And in each one of the books, I actually kind of here and there, highlight a few of them. I throw them in there because I want people reading the books to understand that we don't have all the answers. You know, I can write this, these books, and I can tell you the story of dinosaurs and birds and mammals and their evolutionary tradition and where they came from and how they changed as the world changed. And it's a nice story. It's a story backed up by evidence, by fossils, by DNA. But it doesn't mean we know every chapter in that story. There's always debates and mysteries and uncertainties, and there's so much we don't know, even though we're finding more fossils than ever before. And one of the big ones is what I'm studying now, the cognition and intelligence of dinosaurs and other extinct species. That's why we're doing this project, project with my colleagues, with Matthias and Helena in Sweden, and Pavel and Christina, our colleagues in Prague, who are neurobiologists, and then Larry Whitmer, who's a great paleontologist, and Ryan Ridgley, and then our students, you know, so my students, I'm going to shout out the names because I think it's important that, you know, you give the students the credit because they're doing the work. I got Adam Manning and Millie Mead and soon Fraser Weston studying in my lab. The brains, the cognition, the intelligence of extinct species, we are pushing like we know there's a limit. We know that we're not going to be able again to say T Rex had this number of neurons or T Rex could recognize itself in a mirror. But what we want to do is push our knowledge of dinosaur brains to the absolute limit. How many dinosaurs can we CT scan? How many brain models can we build? How many ones can we measure? Map this all out on the family tree, look at the trends in brain evolution, and tie what we can see in dinosaur to what we see in the brains of modern mammals. And not just modern mammals, but modern birds and modern crocodiles and all kinds of modern animals. And the hope is that here and there, maybe that there's some feature of a brain, some physical feature, some lobe of a brain or something that in modern animals, that if they have that lobe of the brain, they can do a certain behavior. And then if we identify that in a fossil, we can say, oh, that extinct species could do that too. We know that it's kind of pie in the sky. We know that we're running up to our limits of understanding, but that's why we're doing it, because it's exciting and it's fun and it's not just describing dusty old bones, it's trying to understand them as living animals. So that's a big one. And I highlight that in the Story of Birds. I talk about how we're doing this project and we're doing it now, and we don't have all the answers, but we're getting them. I mean, literally, like, you know, this morning, before doing this, you know, my student students are. They're seven hours ahead, you know, in Scotland. They're sending me updates about what they're doing this week and the things they're, they're, they're, they're learning as they're looking at CAT scans of dinosaur brains. So that's one, there's, there's a handful of others, and we don't really know why dinosaurs were able to outlast the crocodiles and the salamanders and the other creatures that were evolving around the same time as them. Way back on the supercontinent of Pangea, we know there was an extinction. Extinction. The supercontinent broke apart. And that's why we have separate continents today. That's why South America and Africa look like two puzzle pieces. They did once fit together. The ocean now separates, of course, the continents. But back before the water rushed in, the Earth would have bled lava for, like 600,000 years. And this led to runaway global warming. There's tons of carbon dioxide, methane. These nasty gases heated up the atmosphere really quickly, and that caused an extinction

A

like continental drift was faster than, than it is now.

B

No, it's probably. It does speed up or slow down over time. Mostly based on what's happening deeper in the Earth, like in the mantle of the Earth as you have these convection currents, but by and large continents move about the speed our fingernails grow, which is slow. But over the course of millions of years, you know, that compounds and it adds up. But this extinction, we know it happened about 200 million years ago as Pangea split. We know there was climate change. We see the effects of, of that in the fossil record, but also the rocks. You know, there's a lot about the carbon and oxygen signals in the rocks that can tell you things about temperature and precipitation. So we know there was this extinction. We know that before there was this extinction there were a whole bunch of dinosaurs. But dinosaurs were pretty small. For the first few tens of millions of years that there were dinosaurs. Most of them were the size of you and me. Some got up to the size of horses, horses, some maybe the size of a giraffe, but there was nothing like a brontosaurus, nothing like a T. Rex. But the world was dominated instead by these giant salamanders the size of cars and by all kinds of crazy crocodiles. You know, not just like the crocs and gators today, but some crocs that ate plants and some that had cells on their backs and some that had beaks and some that walked only on their hind legs. And then this extinction happens as the supercontinent breaks down apart and these volcanoes and they blink out, and they blink out, only a few crocs survive. Those are the ancestors of modern crocs. You know, this is why crocs really only live in the tropics or the subtropics today. Some amphibians make it through, but not the enormous car sized one. But dinosaurs make it through and only after that extinction, a good 50 million years after the very first proto dinosaurs walked on Pangea, do you get these big meat eaters and big plant eaters and the ones with horns and spikes and duck bills and dome heads and armor and so on. And so we don't really know why. I mean, why did dinosaurs survive? We don't have a good explanation. It was a time of chaos, of course, and carnage and rapid change. Maybe some of it was dumb luck, but there must have been some hand of cards those dinosaurs were holding that allowed them to survive. We don't know. People have different ideas. Oh, the dinosaurs could move faster, or the dinosaurs had higher metabolism, or they grew faster. They were smart. I mean, maybe, maybe, but the evidence is so limited. But we will find that out. I have no Doubt that we will get a good understanding of that. We just need some brilliant young paleontologists to come along with a fresh set of eyes and think about it in a new way.

A

Let me back up to a quick question. How old was a old T Rex? If you had to guess, how many years old?

B

Oh, like when it died. Yeah. So we can often tell with dinosaurs because dinosaur bones have growth rings in them like tree trunks. So not every bone does, but a lot of bones do, especially the ribs and the limb bones. So if we find a T Rex, we can cut it open and we can see how many growth rings there are. And we can, we can make plots, graphs showing how they grew over a lifetime. We can count the number of growth rings and we can make an estimate for how big that T Rex was. And we can make a growth curve just like you might for a modern, you know, population of deer or turkey or what have you. It's very important for conservation to understand how the animals are growing. So T. Rex is one of the better understood ones because there's actually quite a lot of fossils. And what we see in the growth lines is there's barely any T Rex skeletons that have more than 30 growth lines.

A

Okay.

B

So, you know, I just turned 42. I would have been long dead if I was a T Rex.

A

Okay.

B

And so, you know, and that's just what it was. So it lived pretty fast and died pretty young. Still, it took though, if we look at those growth curves, it probably took about 20 years or so for a T. Rex to go from, from a baby to a full grown adult. So that's T. Rex. Other dinosaurs would have lived shorter life spans and others would have lived longer.

A

Some would have been longer, but yeah, just ballpark.

B

Yeah. So some of the long neck dinosaurs, you know, the huge ones, I mean, some of these things got to be bigger than Boeing 737 airplanes, heavier than a Boeing 737 airplane. We're talking 50, 60 tons. Even more. Argentinosaurus, patagotitan. They have great names. And they only probably lived to be about 50 or 60, 60 years old. It's not that they like live for centuries a little bit every year.

A

The thing I was. The thing that this isn't a question, but it's the thing about those that blows my mind is like imagine the, the habitat impact.

B

Yeah.

A

Of just the feet.

B

Yeah.

A

Jimmy, like you imagine, like what, like when, when an animal goes through the woods and it leaves like an observable path.

B

Death.

A

Like how. Jimmy, you can't even imagine if you, if it went through a thicket. Yeah, the thicket's gone.

B

Yeah.

A

Do you know, I mean, like, you can't, you can't picture like what it's doing or how it's like occupying the landscape. Like things that would seem like a barrier aren't a barrier. Things that would just be like crushed. Yeah. You know, imagine, man. Yeah, impossible to imagine.

B

It's, it's impossible to imagine, I would say almost, because we have one line of evidence in the fossil record. And these are the footprints and the handprints that some of these dinosaurs leave behind. And in fact, in Scotland, on the Isle of Skye, where we do a lot of our work, yeah, sometimes we find a pterodactyl, sometimes we find some dinosaur bones. But most of the fossils are actually footprints. They are footprints and handprints left behind as dinosaurs were doing their thing, frolicking around on the mud flats, on the beaches, in the lagoons, back 170 million years ago when Scotland was subtropical. And so we have some evidence and some of these footprint sites, I mean they are just littered with dinosaur tracks. Tracks. Stepping over other tracks. We have tracks of long necked dinosaurs. You know, these ones were probably weighed probably about 15 tons. So big, you know, three elephants put together, but not anywhere near as big as the biggest long neck dinosaurs. These footprints are the size of car tires. I mean, every, every time their hand or foot touched the ground, they left a hole the size of a car tire. And you know, there would be flocks of these things. So sometimes the ground is just totally chewed up, mashed up by just dinosaur footprint over dinosaur footprint. There's even, I kid you not, there's a scientific term that geologists use to describe this kind of rock that is chaotic, chaotic rock because you have all of these dinosaurs stepping in the sand and mud and messing up. It's called dinoturbation.

A

Oh, no kidding.

B

Yes, it is a word and it's a serious word. You see this in academic papers and it's just a rock that has been so thoroughly obliterated by the footfalls of dinosaurs that it leaves a telltale sign. So imagine, yeah, they're walking through a forest. You know, they would have left their, their mark. Now, of course, I, you know, they wouldn't have just destroyed everything. I mean, no ecosystem could be in harmony. So there must have been ways that everything coexisted.

A

I got two questions left. These are both going to put you in. These are both going to put you in like where? You have to theorize.

B

Okay, then I'm gonna have a nice drink of tea. Okay. To get in the mood.

A

Good. Here's one. So you, after your, your whole career, you've looked at all these extinction events, species that rose and vanished. Okay. Based on what you've seen and based on what you know about all the different ways things have blinked out.

B

Yeah.

A

How do you think? Like, give me a couple. When we go.

B

Yeah.

A

When we humans go and we're done, what do you think it is?

B

Well, totally speculative because no evidence for any of this. But it's fun to chat.

A

You looked at a lot of things that went away.

B

Yeah.

A

And you understand all these different things? Like, like impact strikes from asteroids.

B

Yeah.

A

Seismic activity. Climate change is what. Okay, like what is. If you imagine like what is the thing that gets us.

B

I think there's a few ways it could happen, obviously. And this circles back to, you know, something you were alluding to a little bit ago in the conversation. If there was a six mile wide asteroid that hit the Earth, I mean, we would be in trouble. Yeah. I would think, you know, we. The dinosaurs didn't know that was coming. The dinosaurs didn't have an ability.

A

We would know for a while.

B

We would know and we would hopefully be able to do something about it.

A

Have you ever seen the movie Method Melancholia?

B

No, but I've seen Armageddon.

A

Melancholy is the thinking man's Armageddon.

B

Yeah, I'll have to watch. That'll be up for the plane ride home. Maybe it's not, but. But if that happened, I mean, we would.

A

It would.

B

It would hurt us bad. It would hurt us bad. Even if we were able to stop. And if we were able to totally stop it, fine. But if that asteroid hit us and we had to deal with it, that would be really bad. I will never downplay the technological thing. I mean, could we kind of nuclear war ourselves to death? I mean. Yeah, probably could. Any AI gets super intelligent and decide it doesn't want us anymore and wipes us out. I mean, those are getting so out there that I don't know.

A

Well, no, because then you just start. People would just start unplugging shit.

B

Yeah.

A

So just like unplug everything that you can unplug and then the problem would go away. Yeah.

B

But I'll tell you what worries me. An asteroid doesn't really worry me because we would know that it's coming. You know, there's no volcano big enough that would just wipe us out in an instant. The AI stuff, as you say. Like there might be a dystopian future there. Maybe. But you're talking about total extinction. Really. And so what, what worries before we're

A

gone there will be where there's just handfuls of us left here and there.

B

Yeah. What worries me is there could be a human population crash.

A

Yeah.

B

And what happened to the passenger pigeon might happen to us. And again, that was that bird. It was maybe the most common bird in North America. Yeah.

A

There's this, there's this idea that there, there had to be a lot of them. Yeah, there were, There was no version where there was a few.

B

No. And exactly. And I mean there were so many. They would block out the sun for minutes on end when a flock went by. And this is, you know, this isn't imagined. I mean, this is within recent human history. I mean there are writers from the 19th century that would talk about flocks of passengers. Yeah. And you can, there's a lot of taxidermy specimens. You can hold them. And there were so many of them. I mean, if you were around in the mid-1800s, I'm sure you would say, oh, these birds are so common. I mean, nothing would ever happened to them. But they not only collapsed, they went totally extinct. And they did so within really a few decades. And it was because, yes, you know, they were over hunted. And yes, land use was changing and all of this prairie land, like back home where I'm from in Illinois, you know, was being, you know, converted to farmland and there was runoff and pesticides and that all played a role. But what really did, it was it seemed that they went past some threshold and there was some genetic bottleneck and something happened with their genes. There wasn't just enough variety anymore. They weren't reproducing enough anymore and generating new types of individuals that were more fit, that could deal with the changes. And they just crashed. They just crashed. And I'm not a geneticist, so, you know, the geneticist might understand it and like would understand it much better than me. But it does seem like there's some kind of mystery there.

A

Like we know there was a pathogen. If some pathogen carried off 90% percent of humans.

B

Yeah.

A

Then I think pathogen carries off 90% of humans, the remaining 10%. There's just something we don't understand and they don't thrive.

B

And I think that is the most likely scenario. That, that something. Yeah. Whether it's, it's a virus, whether it is, I don't know, something from AI or, I don't know, some aliens come down, who knows? But something decimates a lot of Humans, you know, it doesn't totally kill us off, but it kills a lot. And then we have. Have this constellation of different populations that aren't really meeting and reproducing and generating new genetic diversity, and we just crash. And I think that is one likely scenario. Now, a good friend of mine, my

A

money is on pathogens.

B

Yeah. So a good friend of mine, Henry G. Is his name, he's a senior editor at Nature, the prominent scientific journal, he's a great science writer, and he wrote a book called the Decline and Fall of the Human Empire. So his publisher back in the uk, we have the same publisher and editor, so we love supporting each other's books. And I loved it. He sent it to me before it was published and I read it. Oh, my God. And he talks about this stuff, you know, about how human populations could crash and how having little genetic diversity, you know, among these, these last remaining populations could cause us to die off. And that's getting kind of, kind of scary. But I. Let me just say one thing, though. This may be a bit more general about the lesson that I take from dinosaurs. And that lesson really is that you can be dominant, your group can be dominant, you can be around for 150 million years, like the T. Rex and Triceratops brontosaurus dinosaurs were. You can be the top meat eaters, the top plant eaters. You can have a great diversity of species in the food chain. You can live everywhere around the world. But then if something happens where the environment changes really quickly, for them, it was an asteroid, but who's to say it couldn't be? Maybe not a volcano that obliterates everything, but a volcano that causes sudden climate change. Or it could be the climate change that is happening now that we just let that run wild, but that something happens. And climates, environments change so quickly that the dominant things don't have time to adapt. And they just so happen to not be suited to this new world. And that's what I worry about a bit with humans. You know, we are incredibly successful. There's more than 8 billion of us around the world. We live everywhere. But we're so recent. The oldest Homo sapiens is like 300,000 years old.

A

Old.

B

And we're so well adapted to this world, this world that's coming out of an ice age. This world of pretty nice climate, world of pretty clear, consistent coastlines and rivers that can be navigated and floods that can be dealt with. And as weather patterns change and climate changes, and climate always changes by, the climate's always changing in the History of the Earth. I mean, come on. What's happening now is. It's not like this is the only time temperatures have gotten. No, no, of course not. But what's happening now is it's happening very fast and it's happening to us. And so we have come up. Our societies, our culture, even our physical bodies have evolved and developed in this world that we know. So if things change really quickly, that could put us in trouble. And there are plenty of species that are a lot older than us that are probably better adapted, more resilient. And so that's where I start to get concerned, that simply, if the pace of change is too fast, whether it's global warming, whether it's an ice age coming in, whether it's some big volcanoes, whatever it is that can change the status quo, if it does it really quickly. Well, the dinosaurs tell us that even the most dominant and successful animals, if you give them a lot of change too fast, that they can quickly get on the back foot and they can be gone soon.

A

You use the word concern. Yeah, but like, I don't feel that way. I mean, I do about my kids.

B

Kids, yeah.

A

Right. And I guess their kids. But, you know, when I, When I get like, way out.

B

Yeah.

A

I'm, I guess in a way, in the sort of geological time we're talking about, I don't find myself rooting. I don't find myself rooting for the, the, the humans of 10,000 years from now. Like, I'm not rooting for them. Maybe I should. But here's my last question, because your work explores all these times when you've had, had, as I said up earlier, explores all these, these, like, mass extinction events. Right. Where, where everything gets carried off and then the Earth rebuilds and things get carried off. The Earth rebuilds. I like to tell my kids, I'm like, man, someday, someday we won't be around to appreciate. Yeah, but someday we're gonna be gone.

B

Yeah.

A

Yeah. And this Earth is going to be full of insane, crazy animals.

B

Yes.

A

That you can't imagine. And I don't, like, I don't know who it'll be. Maybe there will be Beatles, there will be beetles bigger than elephants. Like, I don't know.

B

Who knows, right? Yeah.

A

Nobody.

B

Yeah. How can you predict? Yeah.

A

They're go away. We'll go away. And, and even if, even if there's a nuclear holocaust and we carry away all large mammals and carry away all these complex life forms, like, like at some time in the future, there will be just. The Earth will be Again, full of like crazy stuff. How long, like when you look in the past, like, how long do these things take? If you look at these various times when the Earth became just wiped out.

B

Yeah.

A

Okay, like the chicks lube strike. The Earth gets like wiped out. How long is it before you'd go and be like, the Earth is like kicking ass again, you know, and you got big, big stuff and small stuff and green stuff.

B

And usually what we see in the fossil record is that the, I mean, first of all, the Earth always bounces back. And so when, when I talk about concern about modern climate change and environmental change, I'm more concerned for us.

A

Sure.

B

Our species. And not just our species, but our civilization.

A

Yeah.

B

The way we get on with each other, I'm more concerned with that than with the Earth. The Earth, Earth is going to be fine, you know, the Earth. That's not to say it's a good thing. I mean, other species will go extinct if climate changes quickly. I don't want to be flippant about it. I mean, it's much better that these things don't have it, but the Earth will be fine. When the asteroid hit, 75% of all species died. I mean, there were entire zones, like near the impact where everything was vaporized. I mean, that was as catastrophic as things can get. And what, what do we see? We see in the fossil record that at least within a few thousand years at most, you have forests again.

A

Okay.

B

You see new mammals move in within a few thousand years. That's when you get the first primates, by the way, our ancestors are only there making their appearance right after the dinosaurs go extinct, but really soon after, within tens of thousands of years at most. There are fossils from right here in Montana that show that within a few hundred thousand years you have all kinds of crazy new mammals, you know, mammals the size of pigs, mammals that are digging and mammals that are climbing trees. Within a million years, you got these cattle sized mammals and mammals have gone on from there. The Earth can recover really quickly and you don't know what the recovery is going to be.

A

Optimistic.

B

Yeah, it makes me optimistic.

A

I'm rooting for the Earth, dude.

B

Exactly. Me too. And so I have a six year old, you know, my son Anthony. And so, you know, we don't quite talk about things this deep. Not yet, but he's getting more interested in the world. He's six.

A

Yeah. I used to trip my kids out by telling them bad stuff like this that I kind of quit. Well, I didn't quit. They just got older. Where I can tell him. Yeah, well, I tell them bad stuff when they're real little. Like, I'd be like, the sun will, like, eventually burn out. Yeah. And then they started tripping out. But I met, like, next week.

B

You know, this is what Anthony does to me, though, because he's really interested in outer space right now. So he watches a lot of these shows and, and, and so he'll tell me, do you know the sun's gonna burn out in so many million, you know, tens, hundreds of millions of years now, come on, son. You know, live your life first. But. No, but I'm. When we start to have these conversations, I try to convey that, you know, the. The Earth is more than just us. Obviously, we care about our species as we should. But the Earth is so old. Four and a half billion years old, the Earth is. There has been this fantastic menagerie of species that have lived over time. Species have risen and fallen, and there have been crazy things like you earlier pterodactyls. If we didn't have fossils, we'd never know. We never believed something like that existed. And there's a whole bunch of things like that. So the Earth is wonderful, and that's why we should conserve as much of it as we can and understand nature as best we can and be in nature. I think think many of us aren't in nature enough for listeners of this show. You guys are probably out in nature a lot for the average person. I mean, even me, most of the time, I'm just at my desk, I'm at home, I'm writing, I'm teaching my classes. I don't get out enough. But I think we all just need to get out more and appreciate the Earth and appreciate our part in the Earth and where we fit in and to take pride and joy in this glorious world around us. And absolutely, we should be rooting for the Earth. And that means we should make our impact minimal. But at the same time, you know, we're not just some average species. I mean, there are 8 billion of us. We're gonna put pressure on the Earth. You know, we have to. We have to build houses, we have to get around. You know, we can't stop doing these things. But we need to find better ways to live in harmony. And I'm very. I'm very optimistic. Ultimately, I am optimistic because we. We're smart, we have huge brain, brains, we have consciousness. We can work together in groups. We can solve problems. I mean, there were humans tens of thousands, maybe even hundreds of thousands of years ago. Like ancestors of ours that figured out language and built boats and reached islands. I mean, this was the edge of the known world and they did this. We are capable of incredible things as a species. And just watching recently, the Artemis mission, going beyond the moon farther than any humans have gone, like, that's awesome. We are capable of amazing things as a species when we put our mind to it, when we work together and when we support science, when we support education, when we put the money into things like launching that mission, or money into conserving things. Even something as simple as making sure the bald eagle and the California condor don't bite the dust. I mean, those are incredibly successful. We want to do something. We can.

A

Yeah.

B

And the dinosaurs couldn't do that. T. Rex couldn't do that. T. Rex couldn't have the brainpower to do that, but we can. So ultimately I'm concerned about climate change and environmental change, but I remain optimistic that we, we can do something about it and we can adapt. And that's what gives, that's what gives me hope.

A

Yeah. Well, Steve Brusotti, thanks so much for coming on the show. Brand new book, the story of birds, A new history from their dinosaur origins to the predecessor present. If you want to go in order, you'd go, rise and fall, the dinosaurs.

B

Well, because I'm promoting the new book. You know, we got to sell these new books.

A

Okay, don't do that. Start with this and then go back. Yeah, read this and then go. Because they're all freestanding.

B

They are, they're freestanding books. They're all, you know, the dinosaur one tells the story of dinosaur evolution. The mammal one tells the story of mammal evolution, including our ancestry. So honestly, the mammal one might be, you know, of quite a lot of interest to a lot of your listeners.

A

Start with the birds.

B

Let's start with the birds. And it's the newest one and so it's right up to date, but really they can be read in any order. And again, they're not textbooks, they're not academic books. I try to make them really accessible. And honestly, like the, you know, the something that makes me more happy really than anything is I get random emails or, you know, DMs on Instagram or social media from people that read the books. And it's great. And if you read the books, anybody that's listening, please do reach out. I love hearing from people and I'm easy to find online. But quite recently I got a message from a long haul truck driver here in the west who had dinosaur book on Audiobook as he's doing these late night drives. I got a message from a kid who was in his early 20s in the military, who was stationed abroad, who was reading the dinosaur book just to pass the time. That's awesome. It is so cool. So these books are for everybody. I really try to do makeup accessible. And I would say if you've never read science books before, you know, they shouldn't be too scary. And there's a whole genre of pop science, really that you can explore out there that isn't scary, that is accessible. There's a lot of great science writers, and I've mentioned a few like Henry G. But there are many others too. And just, you know, start reading around and seeing what interests you. And that's what I try to do in these books, is tell some good stories about these fantastic animals that have lived over time and how they've paved the way for the world today.

A

All right, man. Thank you so much for coming on. My pleasure. Thanks a lot.

B

Thank you,

A

Man. Our kids are like, they love their little dog tracker. If they had to pick between me leaving the house for good or tracker leaving the house for good, they're gonna pick me to go live out of the house. Okay. And recently we've been trying out some fresh dog food. Man, it has changed that dog's life. She used to get kind of bummed out and depressed about her dress dry dog food. The dog is on fire now. But the problem with most fresh dog food is it's frozen, which means freezers, coolers, hassle, and whatnot. Well, just fresh from just food for dogs. It's fresh food made with human grade ingredients. But it's shelf stable, right? You just grab a few packs and go on a camping trip or whatever. Tracker loves it. Go to justfood for dogs.com and get 50% off your first order outcome. Our dog likes it so much, the kids laugh when she's eating it because of how excited she is. Hey, it's Steven Rinella. If you're looking to build a deck that's tough, long lasting, and still affordable, Summit decking from deckorators is a great option. Summit uses Deckorators patented Surestone technology so the boards won't splinter, sag, chalk, or crack over time. And it comes in three colors that really capture the natural look look of wood. It's the best decking you didn't know you could afford. Peak build season is coming up, so order a sample today. Visit decorators.com meater to get your free Summit sample. That's decorators with a k again decorators.comeater a better help ad May is Mental Health Awareness Month, a reminder that whatever your going through, you don't have to do it alone. Right now, most Americans are struggling. Nearly two thirds report feeling anxious. More than half say financial stress is a major source. And even though 85% of people believe seeking support is important, many still don't take that step. That's where BetterHelp comes in. With BetterHelp, you can connect with a licensed therapist who's there with with you to listen, understand and support you on your terms. Schedule sessions conveniently via the app and talk to your therapist by video phone or live chat. BetterHelp matches you with a therapist who's with you through life's ups and downs. Because no journey should be alone. Sign up now and get 10% off@betterhelp.com that's betterhelp.com this is an iHeart podcast. Guaranteed Human.