The Ancients - Megalodon
Episode Date: July 20, 2025As part of our week of Sharks on the Ancients, today we tell the story of Megalodon, the largest living marine animal, ever.Does this colossal prehistoric shark still lurk beneath the waves? Tristan H...ughes is joined by leading expert Professor John Long to unveil the jaw-dropping size, power, and ferocity of this ancient super-predator. John recounts his incredible fossil discoveries which chart evolutionary milestones, and reveals the mind-blowing hunting strategies of Megalodon. MOREPrehistoric Ireland: Newgrangehttps://shows.acast.com/the-ancients/episodes/prehistoric-ireland-newgrangeWoolly Mammothshttps://open.spotify.com/episode/2CqmGAaFfqm2yFFsSHXpsXPresented by Tristan Hughes. Audio editor is Aidan Lonergan, the senior producer is Anne-Marie Luff.All music courtesy of Epidemic SoundsThe Ancients is a History Hit podcast.LIVE SHOW: Buy tickets for The Ancients at the London Podcast Festival here: https://www.kingsplace.co.uk/whats-on/words/the-ancients-2/Sign up to History Hit for hundreds of hours of original documentaries, with a new release every week and ad-free podcasts. Sign up at https://www.historyhit.com/subscribe. You can take part in our listener survey here: https://insights.historyhit.com/history-hit-podcast-always-on
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Hey guys, Tristan here and I have an exciting announcement.
The Ancients will be returning to the London Podcast Festival.
Now last year tickets they sold out at record speed.
So this time we've been upgraded, we've got a bigger room.
And you, you can be there too, on Friday the 5th of September at 7pm at King's Place.
Now I've invited friend of the podcast, the fabulous Dr. Eve McDonald
to join me on stage where we will be exploring the gripping story of ancient Carthage. Carthage,
the Phoenician city that became a superpower, an empire that rivaled Rome for control in
the Western Mediterranean and ultimately had a terrible traumatic demise. Of course, the Ancients is nothing without you,
so we want you to be there in the audience taking part
and asking us your burning questions.
Tickets for the festival always sell fast,
so book yourself a seat now at www.kingsplace.co.uk forward slash what's on
or click the link in the show notes of this episode.
The team and I cannot wait to see you there.
Hey guys, I hope you're doing well.
I'm all good here, I'm currently relaxing in my local park this lovely summer's evening
in London and to tell you about today's episode I'm really excited to share this one with
you because we are continuing our special week of episodes
on prehistoric sharks,
finishing it off with this episode about the biggest,
the meanest, the baddest prehistoric shark of all,
the real life Meg, the real Megalodon.
I loved learning about what the archeology is revealing
about this super predator of prehistoric seas.
Our guest once again is the leading prehistoric shark expert Professor John Long.
Now let's get into it.
It is one of the most famous predators of all time, the apex prehistoric shark that
has fascinated humans for over a thousand years and continues to do so thanks to movies
and museums today. Megalodon, which lived between roughly 23 and 3 million years ago.
In our previous episode we explored just how diverse and successful sharks became hundreds of millions of years ago. Now we're going much further forward in time
and exploring the story of the real mech, the largest shark to ever live and the most fearsome, the greatest predator of all time. This is the story of Megalodon
with our returning guest, Professor John Long.
John, welcome back. It's great to have you back on The Ancients.
Thanks, Tristan. I'm really pleased to be here.
Now we're doing this from two parts of the world, very different parts of the world.
Me in the UK, yourself in Australia.
It's the morning here, I've got my cup of tea, it's the evening there, and you've got
a beer if I'm not mistaken.
I do indeed.
Fantastic, that is the way to do it.
Last time we covered the rise of sharks, but today it almost feels like we're covering
the shark of all sharks, the megalodon.
Now was this one of, if not the greatest predator of all time?
I think it is the greatest predator of all time. There's no dinosaur that becomes close to megalodon
in terms of size and sheer bite force and ability to be a carnivore.
What first got you very interested in the story of megalodon in particular? I know in the last
chat you mentioned how you started looking at fossils when you were seven years old. Did megalodon come soon after that?
Yes. Well, I was always trying to find a megalodon tooth. It was the prize we all
sought after the buried treasure. I found hundreds of different types of fossil
shark's teeth, but I only ever found one megalodon tooth, but it was a half. It was a broken one.
So it was always something that eluded me, but I've got one now.
I actually purchased it.
This is a big Megalodon tooth the size of my hand from North America.
And it's a beautiful example.
I love to bring it along to show groups when I give talks on sharks.
And can you give us a sense of the size of just that one Megalodon tooth?
Yeah. And can you give us a sense of the size of just that one Megalodon tooth? Yeah, well, this one's a good 13 centimeters in length and it's got serrated edges.
It's a big triangular tooth and it's quite massively thick and heavy.
So the largest Megalodon teeth are up to 18 centimeters in height.
So they're coming from the jaws of a shark that would have been at least five or six
feet or two meters across that sort of size.
You know, undoubtedly the biggest predator that Earth has ever seen.
Now it was a gigantic shark, we know that, but what it looked like, we'll get into that
later.
I think first we've got to go back to the origins of the Megalodon story.
Let's explore that because we finished our last chat at the height of the dinosaur period
in the Jurassic period, having covered most of the chat being on the first golden age
of sharks before the rise of dinosaurs.
But can you almost bridge that gap between the Jurassic and the time of the dinosaurs
and the rise of Megalodon?
It feels that there's quite a few million years in between.
Yeah.
Well, in the Jurassic, say we go back 150 million years ago, there's a wonderful
fossil site in Germany called Sollenhofen. That's where Archaeopteryx, the first bird,
comes from that's feathered dinosaur. And we also get sharks in those same deposits that are
beautifully preserved, whole complete specimens, really the best preserved sharks you can see from
anywhere of that age.
And these include the first modern sharks, sharks that are the same genus as living sharks
like the bullhead shark or the horn shark, Heterodontus, the Port Jackson shark we call
it in Australia.
And we've got other members of the first wobbigongs or the first angel sharks.
But the group that was the most abundant
from the late Jurassic, the early Cretaceous onwards
is the group of sharks we call the lamniforms.
Now lamniforms today include the white sharks,
the mako sharks, the thresher sharks.
And this was the group that really took off
in the Cretaceous period,
the last part of the Mesozoic era. And it's when sharks
suddenly got large again, from being very small after the Great Dying. We get about a hundred
million years ago in the middle of the Cretaceous, sharks that suddenly reached seven, eight meters in
length. And they're very big lamina forms related to the modern sand tiger sharks, like the green
earth shark. They're not related to the white shark
because that lineage hasn't evolved yet,
but they're part of that family called the laminiforms.
And there were over a hundred different species
of these laminiforms living in the Cretaceous seas
of the world, which was from about 145 million years ago
to about 66 million years ago,
the end of the age of dinosaurs.
Of course, they weren't
alone in the seas. There were gigantic marine reptiles they had to fend themselves against,
such as the giant mosasaurs, giant lizards that developed paddles, some of them up to
20 meters in length, that appeared towards the end of that period. And the sharks of
the day then actually got smaller and they got got
down to about five or six meters but I have to mention one or two sharks that
were really spectacular during the seas of this day. One of them was called
Tychodus and it had huge domed crushing tooth plates. Now for centuries all we
had was teeth of this beast and nobody knew what it was.
Many of the scientists said,
oh, it has to be a stingray, a giant ray,
because rays had evolved in the Jurassic as well.
So that's another lineage of sharks
that split off from the modern ones
to become the stingrays of today.
They appear in the Jurassic period.
Anyway, back to Tychodus.
Bits of its jaw were found in Kansas
and parts of North America and they could reconstruct
that this thing was gigantic, probably up to 10 meters in length. But still, with only teeth and
bits of jaws, we knew nothing what it was like. And just as my book was going to press in last
year, being printed, a paper came out where they discovered a deposit in Mexico with whole complete
skeletons of Tychotis preserved
with all the teeth in the mouth, the fins, the tail, the body, everything. And they discovered
it was nothing like a stingray. It was actually a lamnaform that would have looked something like
a white shark with a really sharp streamlined body. This was a fast swimming creature like a
predator, but not with sharp sharp teeth but with crushing teeth.
So what did it eat? Well the theory is that probably it was hunting these giant turtles
that were in the seas at the time and also very big ammonites or squid-like creatures,
some of which grew to two meters in diameter in the seas of the Cretaceous. So a fast swimming
predator that preyed on crushing its prey to death rather than killing it with
sharp pointed teeth. What an amazing beast.
That is still the time of the Cretaceous, is it? Where you've still got T-Rex and the
like at the end of the Cretaceous.
Exactly right. T-Rex on land and giant Triceratops and things. But the seas at the time were
dominated by the giant predatory reptiles like the Mosasaurs, which were way bigger
than any sharks at the time, and the rise of these
labniform sharks. There were also other members of living shark families, but I won't go into all of them because it would be here all
night. But we'll just concentrate on the labniforms because they're the ones that are going to give rise to megalodon. So 66 million years
ago, what happens if you're a dinosaur and you looked up, you would have seen a terrifying site as a big star gets bigger and bigger and bigger.
And then bang crashes into the earth, causing a devastating mass extinction event.
Sixty six point four million years ago.
And this affected not only life on land, but life in the oceans.
So in the seas, these giant marine reptiles go extinct, as do the big
ammonites, the big coily squid-like creatures. Some of the lineages of sharks
go extinct but most of the main groups pass through that boundary but they have
to recover from being knocked for six shall we say, that smaller numbers of
species are left alive, they have to recover. So in this new age called the Cenozoic era,
which goes from 66 million years up to the present day,
we find that the seas are fairly benign.
There are small sharks and one big predator emerges
called a totus obliquus.
Now it doesn't have a common name.
Megalodon has a binomial name, it's called a totus megalodon, but we all just call it
megalodon.
But this is the same genus, like Homo for man, Homo sapiens, Homo neanderthalensis.
So we have an early relative of megalodon called a totus obliquus, which got to about
maybe seven to eight meters in length and probably preyed mostly on fish.
We know this because there wasn't really much else that could have eaten.
There were no whales in the ocean at that time.
Just a few giant penguins were starting to emerge.
Penguins about two metres high in the southern latitudes that they could have fed on, but
there were also large billfish and swordfish around that these ototas probably preyed on.
It's so interesting, isn't it?
We're almost kind of following the line until you get to the Meg, until you get to Megalodon.
But it's also interesting, John, how much people like yourself know about the evolutionary
line of Megalodon.
It sounds like a lot of work has gone into that.
Yeah, well, I actually took a lot of my evidence for this from a truly remarkable British
evidence for this from a truly remarkable British paleontologist called David Ward, who lives in Orpington. And David is a vet, actually. He's never trained as a paleontologist, but he was able to
set up a successful veterinary surgery franchise so he could then spend a lot of his time chasing
fossil shark's teeth. And he's written over 100 scientific papers and named 90 new species of fossils.
So he's quite an expert in it now.
And he wanted to go searching for the source of the Megalodon lineage.
And for a paleontologist, this is like the old explorers finding the source of the Nile,
you know, in Africa.
Eldorado or something, yes.
A big mystery, you know.
When did the otodus obliquus that appeared after the dinosaurs first start getting bigger
and suddenly there was a change in its teeth because it had sharp cutting edge type of
teeth, triangular teeth, but not the serrated edge teeth that Megalodon has.
Somewhere in that evolutionary lineage, we're looking for a point in time where they develop
serrations on those teeth and then they get bigger and bigger and bigger
So what did David do well back in the early 1990s?
He was working with some colleagues in Kazakhstan and this is after the collapse of Soviet Russia kind of thing
And the only way to get to the deserts of Kazakhstan was to tee up with the local scientists over there that had these old
worn-down trucks and they
didn't have any modern equipment. He said it was one of the most sort of rough and ragged
expeditions he'd ever been on. They got lost several times because they didn't even have
proper maps. They just had sketch notebooks with landmarks to look for, like a tree or
a sort of mouth of a river turn left kind of thing. So after three or four days in the deserts of Kazakhstan
with these fellow colleagues from Russia,
he ended up getting to the site
where there's Russian scientists years before
had found a mixture of teeth,
some of them serrated and some of them straight edged.
And the question was,
were these teeth all from the same layer
or do they come from different layers
giving a sequence of age?
And with a lot of careful digging and mapping out the layers inch by inch by inch, he was
able to ascertain that the lowest layers had these sharp pointed teeth without serrations,
and then the layers above it, the serrations were just beginning to show along the edges,
very fine crenellations. And then the layer above he had teeth that were slightly bigger, but with
sharp, well-defined serrations along the edges.
And that defines a new species that was the beginning of the lineage
leading directly to the Megalodon.
Wow.
There's also something extraordinary in the fact that those people, they had to go to
Kazakhstan, to the great steppe in the deserts of Kazakhstan, to find these shark teeth from
millions of years ago.
But I'm guessing that also hints at how the geography was very different back then.
That's right.
This was a desert, but it was below the sea at that time, shallow seaways.
But the point is that you can find megalodon teeth and sharkseed all around the world,
but it's rare to find an outcrop of layers of rock that give you a nice stratigraphy of several
layers that give you a block of time where you can see an evolutionary change. So this block of time
we're looking at was an outcrop of about five or six meters that covered four million years of time
from about 52 million years ago to 48 million years ago.
And these are well-dated by the microfossils
in those layers that are dated elsewhere
with radiometric dates on volcanic rocks and so on.
I explained it quite clearly in the book
if you want the full explanation.
But going back to what David found,
by digging layer by layer by layer,
he saw the transition going from the ototus obliquus to this new species called Ototus
axuaticus, which had the definite serrations, but it still had these little side cusps on the teeth
that the ototus obliquus had. Next we get those teeth getting bigger and going into another species that's
pre-megalodon and then much, much bigger teeth where they lose those little side cusps and then
you've got true megalodon. So what drove this sudden increase in size? Well, the answer in
evolution is always resources. And what was the new resource that came into the ocean at that time? Well precisely at that time 48 million years ago
Guess what first whales appeared in the ocean?
But within a few million years they got gigantic really quickly up to 20 meters in length things like basilosaurus and
We believe this was an arms race predator preyator prey, the prey gets bigger, the predator gets bigger.
And when whales like that provide a rich source of energy, blubber, high fat content food,
sharks can then get a lot more energy from their prey than just by eating
fish or other turtles and things like that. So within a few million, 10 millions of years,
not, we're talking from 48 million years ago
to about 20 million years ago.
So we're talking over 28 million years.
We see this gradual increase in the size of these teeth
and the gradual expansion of the teeth get broader
and they lose those little side cusps
as they develop into one big
gigantic triangular tooth and that's the beginning of Megalodon.
I'll have to keep my voice down because right now I'm between the actual bedsheets of some of history's most famous figures.
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Listen wherever you get your podcasts.
Right, time to slide out here and avoid the bedpan.
So the true megalodons, did they only emerge some roughly than 20 million years ago, almost the climax of this arms race?
That's exactly right.
You know, we can see jumps in the teeth that go from one morphotype to another. And that defines the different species of the ototus, ototus angustidens, ototus auriculatus,
and then ototus sort of megalodon. These are the different species.
Auriculatus came first and then angustidens and then megalodon.
So let's talk about megalodon. It appeared about 23 million years ago,
and it died out about 3 million years ago. We'll talk about its extinction later. But most people think we only know about megalodon from
its teeth, but they're wrong. We actually have a number of specimens that show
associated remains of megalodons, like associated teeth that occur with scales
and bits of cartilage. We also have one skeleton of megalodon in one of the
natural history museums in Belgium and it's got like 140 vertebral discs that were articulated,
but it's missing the head so we don't have the teeth. We know it's megalodon because it's a
lamniform shark vertebrae which has calcified vertebrae just like modern white sharks
and it's gigantic and there's nothing else in the seas at that time that big
so it simply has to be Megalodon. This is interesting because up until the
discovery, well this thing was found a long time ago but very few people had
studied it, but up until a recent new study was made of those vertebrae,
the shape of Megalodon was always by default taken to be like a big gnarly white shark on steroids.
And you've probably seen the Meg, you know,
kills everything and saves the world.
Well, fundamentally, every Megalodon B-grade movie ever made
restores it as a white shark, simply
because in the olden days, paleontologists believe Megalodon was the ancestor to the
white shark.
But now we know that's not the case at all.
It's a completely separate set of lineages.
So what do we think then that Megalodon actually looks like?
What do we think was the body structure of Megalodon, from its teeth and its head to its fin, to its tail, I mean everything.
We think it was a lot more slender than the restorations that make it like a big white
shark. We know this because a recent paper was published only late last year that studied
that vertebral column from Belgium. And they realised that the tail vertebrae have a slightly different
shape to the rest of the body vertebrae. So it denotes where the tail begins and
the tail was much larger and longer than we thought so the body was more elongated.
So this means that Megalodon was probably way bigger than we thought it was previously,
probably up to 24 or 25 meters in length, but more slender of built, like
not as massively chunky, maybe like a nurse shark or a slender type of sand shark type
of body shape.
And there's further evidence that backs up that it wasn't as fast as we might have thought.
The scales, scales of sharks are really, really important.
They might be tiny, but they have little riblets on the surface,
and that breaks the tension of the water.
And the fastest swimming sharks today, like Makos,
have a very particular kind of scale with three ribs.
And they can actually bristle those scales up from the skin
when they want a super burst of power, speed, to go faster.
So studies of the scales of Megalodon
combined with the body indicate it probably had a slower swimming speed
than the modern white shark, something like two kilometers an hour. But it was
still capable of fast prey attacks, you know, because it had a big long powerful
tail and it would have been able to still catch whales. Clearly it did. We know this
for a fact, we're not guessing here because we find.
What's a whale vertebrae with megalodon teeth stuck in them wow remains in other mammals with megalodon scar marks cut into them quite distinctive you can't get there without surviving remarkable evidence of megalodon teeth in wales.
Megalodon teeth in whales. Do we know then just how powerful and devastating rows of Megalodon teeth would have been even to the biggest whales at the time?
Exactly. And studies have been done on the bite force of Megalodon teeth, based on finite
element analysis, reconstructing the jaw musculature, which is not hard to do because all the lamniform
sharks have the same kind of architecture
around the jaws of those muscles so it's pretty easy to reconstruct a jaw and
and guess where the muscles attached and so on. So it had a very powerful bite
force. We know from certain fossil remains that Megalodon could have
attacked whales from head-on, not necessarily chasing them and biting them
from the back, you know. so it was an ambush predator.
It would have had different ways of catching its prey.
We know white sharks today often ambush their prey by hiding in deep water
and coming straight up, you know, to catch seals.
Maybe Megalodon did that as well.
Whatever it did, we don't know exactly how it caught its prey,
but it was successful because Megateeth are found all around the world in deposits between three and 23 million years ago.
But one thing we do know about Meg is there's been some remarkable people studying Megalodon
and one of them is my hero, I call her the queen of the Megalodons, Professor Catalina
Pimiento is at the University of Zurich and also at Plymouth, she's got joint positions.
And she's the only person in the world I know that's done two postgraduate degrees just on
megalodon. She's had a master's and a PhD. And she grew up in Bogota in Colombia during a time of
bombings and kidnappings and lots of crime. And she kept her head low and studied at university
and eventually went to America to do a PhD and studied Megalodon.
And from her remarkable work, we know things like that the average size of Megalodon was
more like 12 to 13 meters for the average population, that the big ones that we talk
about that were gigantic are the extreme size ranges.
It's kind of like you pick any shark species today, the average size is
pretty much smaller than you would imagine. The average size of a
white shark is between 3.5 and 4 meters for females to male. But we always
think of the big 6 meter ones that are you know humongously big. So Catalina
also discovered things like the birth size based on the teeth that they
probably gave birth to two and a half
meter long young pups and things like that. And she discovered that, and recently, not
her work, but a team that looked at isotopic ratios in the teeth discovered they were warm-blooded,
that they had a body temperature of 28 degrees Celsius. This is a new technique called clumped
paleoisotope thermometry, where we look at the temperature that the cartilage bonds form in living animals
like sharks or reptiles or whatever.
And then we apply it to the fossil record to look at the same ratios of isotopes to
calculate that temperature.
It's how we first calculated that dinosaurs were warm-blooded by real evidence, not by
speculation. And is there also the fact that the fin of the megalodon was bigger or just as big as
an adult male, like a six-foot male today?
We can only speculate on the size of the fin.
When we've got nothing but a vertebral column and scales and teeth, then the rest of it
has to be fleshed out by analogy with living sharks.
So it depends on which shark model we're using.
If we're using a white shark, then the fin might be quite high, but if we're using a nurse shark, it might be a little bit lower.
So I wouldn't like to speculate on the exact size of the fin. That's nothing we'd have any real evidence about at this time.
You mentioned how Megalodon remains have been found across the world.
Can you give us a sense of the world
that they lived in some 23 million years ago?
So of course you've got Megalodon in the seas,
you've got these great whales as well.
But what did the earth look like both above the waves
and beneath the waves at that time?
Okay, well that's a good question
because 20 million years ago,
the current position of the continents
wasn't very different from where they are today. You know there's not much change really. Australia's a
little bit further south and so on. The oceans were much the same as they are today but we had a lot
higher abundance of whales, baleen whales in particular, a lot more species than we have today
and bigger biomass in the ocean. So a lot more megafaunal creatures,
bigger creatures like larger turtles,
gigantic sea birds up to six meter wingspans
with beaks covered in horny teeth,
things Pelagornis, which was a large predatory sea bird.
We had lots of manatees and giant dugong like creatures,
seals as well, walruses with strange tusks coming out
everywhere. So the seas were full of a lot of food for megalodon, but also a lot
of other predatory sharks that were competing for the same resources. White
sharks hadn't appeared at that time, they appeared much later towards the end of
megalodon's reign. But take some of the other lamniform sharks that are alive today, like we
have, for example, Mako sharks. We had gigantic Mako sharks that, like this tooth I'm holding,
that I found as a kid from Bo Morris. Now that's a tooth that's about six centimeters in height,
and yet these Mako sharks were probably getting up to eight to nine meters in length.
And now we call them Cacaridon hastalis, different species, but the same genus as the living white
shark. And they would give rise to the modern white sharks later on just by the same mechanism
developing serrations on those big teeth. Think of thresher sharks, you know, thresher sharks
with a gigantic long tail. Okay, yeah. Well, we had gigantic predatory thresher sharks that had big
robust teeth with serrations on them. No living thresher shark has serrated teeth, but these are
occupying the same niche as say white sharks would have today. Again, targeting marine mammals. We
had gigantic tiger sharks getting up to eight meters in length. I mean, you name it, whatever
was around today,
we had a bigger version of it back then
because there was so much more biomass in the oceans.
The food chains were on steroids.
So, you know, we expect a lot more predators.
So it was a very interesting world.
And for Megalodon to emerge as the top apex predator
of this predator rich ocean was really quite, you know,
quite an amazing moment in evolution.
I'll have to keep my voice down because right now I'm between the actual bedsheets of some
of history's most famous figures. Want to know more about what Hitler might have been like in the sack? Or Julius
Caesar? Or our very own Billy Shakespeare? You wouldn't believe the details I'm
able to uncover here on Betwixt the Sheets, a podcast by History Hit. Because
sexuality explored through a historical lens can reveal a surprising amount
about the human experience. What's and all, if you'll
excuse the pun. And we don't just stop at sex, expect outrageous scandals
throughout the centuries as well as probing into everyday issues the
nitty-gritty of human life that really connects us to all people throughout
history. Join me, Kate Lister, every Tuesday and Friday on Betwixt the Sheets
to find out more. Listen wherever you get your podcasts.
Right, time to slide out here and avoid the bedpan.
["The Star-Spangled Banner"]
With Megalodon being the top apex predator and hunting things like whales, but of course you also have those other massive marine mammals as well, like those other sharks, do we get
a sense that Megalodon would have also eaten those other sharks too and other sea creatures
alongside whales?
Yeah, I mean, sharks are not fussy eaters don't eat whatever they can catch generally father sharks around they have a way of avoiding big predators and you know just get eaten.
If they're ill opportunistically court you know but megalodon would have targeting.
The isotopic work that's been published recently by Jack Cooper and other people have shown that they had a very high fatty diet, you know, based on the isotopes. So they would have primarily been targeting marine mammals and even large turtles and other large seabirds and things like that.
But mostly marine mammals, because that's the richest source of energy you can get. Now, naturally, as you mentioned earlier, this is the super hunter, the super predator of all times,
and the megalodon.
How unique, aside from its size and power,
John, how unique would you say that megalodon
is in its structure compared to both sharks
more ancient than it and modern sharks today?
In terms of its size, we're talking up to 24 meters in length and maybe weighing up to 70 tons in weight, bigger than any shark, bigger than any fish or any other shark or any other marine creature that's ever existed in the ocean.
That's it.
bigger than the mosasaurs, bigger than any of the marine reptiles. Not as big as the blue whale or the large baleen whales.
Even some of the sperm whales today would have been probably approaching the same
body size and mass as megalodon.
But they're a different kind of predator. They're not a super predator.
What I call as a super predator is something that has teeth adapted for
killing prey equally
its own size or larger. And that's where big serrated teeth means you can attack a large
whale and bring it down and eat it. Even a white shark can bring down a humpback whale.
And you know, I've given an example of that in my book, how they do it in a very clever
way. So that's a super predator, something that can kill something bigger than itself
or attack something its own body mass.
Megalodon was certainly in that category, but not sperm whales because sperm whales
tend to hunt squid and things that are still large, but nowhere near their own body size
or body mass.
Apologies, apart from size, just like in the body adaptations and the structure, because
as we've mentioned already, yes, the size of Megalodon was unlike any other shark, but
was it unique, just kind of going back to this before we move on to the Elvesfoot extinction of the Megalodon,
do we get a sense that there were certain parts of its body adaptations and its structure that
really sets it apart from both more ancient and more modern sharks today?
Apart from its size and the fact that it was warm-blooded, like some other living lamniforms are warm-blooded, but a body temperature of 28 Celsius
means it was able to forage much further in range than other sharks of its day,
apart from maybe some of the other warm-blooded lamniforms that were closely
related, I think it's just power of its bite, you know,
the most powerful bite force of any creature.
So that's the business end of a megalodon.
Very powerful, large teeth, the very powerful jaws to inflict that bite, that killer bite.
John, it's absolutely extraordinary. For how many millions of years do megalodons reign supreme in
the oceans? About 20 million years. And then towards the end of that period, we come across
a minor mass extinction event. It's called an end of Plioc come across a minor mass extinction event.
It's called an end of Pliocene megafaunal marine extinction event.
And about 2.6 million years ago marks the end of the Pliocene period.
You know, it's not that long ago really compared to the whole history of sharks.
But the ocean started cooling at that point.
And so beginning of the ice ages where we get, you know, a succession of seven ice ages
going into the Pleistocene period.
And the oceans cool, suddenly the food chain is altered.
There's not enough resources around many of the whales
and marine megafauna go extinct
and Megalodon just couldn't cope.
And at that stage, the white shark had appeared
about five to 6 million years ago.
The modern white shark that is,
we had some ancestral ones before that.
And they kind of took over the niche of Megalodon eating, you know, praying on
whales and seals and marine mammals and so on.
And do we think it is very much climate that brings to an end the
reign of the Megalodon in the seas?
We do, because if Megalodon just went extinct by itself, it would be a mystery
But the fact we have a marine megafaunal extinction event with many other species of both giant turtle
Whales and even other large sharks like the giant Mako shark that I just showed you before that, you know
We have other sharks going extinct as well. So it's a whole
decline of
Predators going extinct at that time and other large
creatures that couldn't get enough resources to survive.
I mean, John, it's astonishing, given our last chat where we covered sharks
some 400 million years, 300 million years ago in the Devonian and Carboniferous.
The fact that we're now down at some 3.5 million years ago with the
extinction of the Megalodon.
You know, that's the same time then you've got early humans like, early on the human line, like Australopithecus in Africa. And I don't think they are never Australopithecus would ever have seen
a Megalodon off the shores of Africa, but it's still fascinating to say.
Maybe not, you never know. Come across a dead one on the beach.
Well, that's the thing. Like, do you think there were cases where there would have been dead megalodons that end up being washed up on the beach like
sometimes you get with beached whales today? Yeah there's a much closer story though about
megalodons and humans I'd love to tell you while we've got time. Megalodons probably save more
human lives than they've ever taken because back in medieval days in Europe, it was very common for people to
poison their enemies.
And so Europeans of the day, both the Germans, Italians and French developed these ornate
little trees made of silver and they used to hang fossil sharks teeth from chains so
that before you toasted your friends or your enemies, you would all dip your wine goblet
into a shark's tooth and then watch it for a minute and then see if the color of the
silver band around that shark's tooth changed its color. Because apparently, and this has
been studied by chemists who have written papers on it, arsenic, which is the common
poison of the day, would affect the colour of the silver band around the tooth,
and it would stain it, make it go dark. So you knew then someone was trying to poison you.
So these beautiful jewellery trees full of megalodon teeth are called the Natasungan or Adder's teeth in German.
They also have a French name, the Languier, and you can find them in museums around the world in Europe, you
know. So it's quite possible this saved a lot of human lives due to megalodon
teeth with little silver plasps around them. It's quite an interesting side
story. There's also megalodons have been used in archaeology. The Mayans offered
megalodon teeth to their gods have been found at the temple in Palenque, Mexico, dated between 300-600 AD.
And there's other parts of the world where megalodon teeth have been found in different
burial chambers and so on.
Even Pliny the Elder referred to megalodon teeth as the glossopetrae or tongue stones
of saints.
So back in AD 73, they believed they fell from the sky at the eclipse of the moon and
were helpful
for guess what? Appeasing flatulence in humans. So megalodons have been serving the needs
of humans for hundreds of years.
Linney the Elder, that naturalist, a very stern naturalist, even he knew of megalodons.
So megalodon teeth have been discovered by humans even back into ancient, ancient times, John.
Yes, yes.
Even further back in archaeology, back in the North American Indians around Chesapeake Bay,
where we're using some of these fossil sharks teeth for implements and hand tools and things like that.
I've written a big section in my book about megalodons in archaeology and history so you can get further details about it. Toby If people have known about these teeth for so long, do you see big misconceptions about the
Megalodon emerging over time and how they envisaged these creatures that had these massive teeth? Do
you see kind of misconceptions emerging in the popular world all the way down to the present day?
Chris Yeah, yeah. Oh, absolutely. Yeah. Based on the popular misconceptions of
Megalodon as a giant white shark has just
gone out the window of this recent slew
of papers have been published in the last
year or so about the body shape and the
scales and the morphology of the body and
how it probably swam much more slowly than
the living white sharks. And also the fact
that it's no longer deemed by
paleontologists to be on the lineage leading to the living white sharks and also the fact that it's no longer deemed by paleontologists to
be on the lineage leading to the living white shark. That it's a completely separate lineage
that goes back to the age of dinosaurs, whereas the mako sharks evolved way back in time as well,
just after the age of dinosaurs and continued their lineage right up leading to the modern
white shark, which is a highly evolved mako shark with serrated teeth, basically.
So when we look at it from that perspective of the evolution of the lineages as being white shark, which is a highly evolved mako shark with serrated teeth, basically.
So when we look at it from that perspective of the evolution of the lineages as being
separate and not related, we have no cause or reason to restore megalodon like a white
shark anymore, like it is in every single movie ever made about it.
And are there myths still that there might be a megalodon or two out there in the depths
of the oceans?
There are myths, but there's no evidence.
I mean, I explore this deeply in the book.
I mean, there's been lots of submersibles going down to the deep ocean and deep cameras
and things.
Look, for a population of megalodons to be alive today, we wouldn't go to the deep ocean.
We'd go to the surface because that's where the prey is.
They'd be eating whales, large whales, and we would see them. Occasionally one would die and be washed up on a beach, but no, even the rarest of whales
that are known from one or two specimens occasionally get washed up on beaches, and that's how we know
about them. So I think there's absolutely zero evidence that megalodon's out there. The youngest
dated shark's teeth come from about three million years ago. There's no evidence of
a megalodon tooth younger than 3 million years anywhere on the planet. So I don't think we have
to fear megalodon, we just have to fear the living sharks. But the popularity of megalodon
will no doubt endure for many, many, many years to come. Oh, yes. John, this has been fascinating.
Before we completely wrap up, are there any particular moments from your research, from your story covering Megalodon? Very memorable moments that
you'd like to mention before we finish, or parts of Megalodon's story that we haven't covered as
much as you feel we probably should? Okay, so there's one thing about Megalodon that probably
did have one enemy, one sort of other predator it had to fear. Of course, everything's vulnerable
when you're small. So baby megalodons would have been prey for other sharks and certainly
a predatory sperm whale called Leviathan, which had modern sperm whales have only got teeth in the
lower jaw because they eat squid, but Leviathan had teeth in the upper jaw as well as the lower
jaw. So it was a more carnivorous,
more predatory sperm whale than any of the sperm whales alive today. And at about the same size,
or not quite as large as the biggest megalodon we're speculating, it was close to the same
body size as megalodon, but not quite. Maybe reaching, you know, up to about 18 meters, something like that. But it's quite possible that Megalodon
was preyed on by Leviathan, especially smaller ones, and vice versa. Megalodon preyed on
smaller Leviathans. So Megalodon didn't just have it easy. It wasn't good to be the king
of the top of the food chain with nothing to worry about. They still had something that
would have preyed on them.
John, this has been such a wonderful conversation, just like our last one as well. Last but certainly
not least, you have written a book all about Megalodon and the whole history of sharks,
it is called?
The Secret History of Sharks, The Rise of the Ocean's Most Fearsome Predators. And
there's also the audiobook out which I narrated actually.
Absolutely fantastic John. Well it just goes to me today thank you so much for taking the
time to come on the podcast today. My pleasure Tristan.
Well there you go there was Professor John Long bringing to an end this small mini series about
prehistoric sharks with this fascinating episode all about the real life
Megalodon. I've loved doing these episodes on prehistoric sharks and I hope you guys
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