The Ancients - The First Sharks
Episode Date: July 17, 2025Long before the first dinosaurs, the first trees or even the formation of the rings of Saturn, our planet's oceans were ruled by prehistoric sharks.Across two special episodes of The Ancients this wee...k, Tristan Hughes is joined by Professor John Long to journey back 300 million years and dive into the deep history of sharks – from their humble origins to their golden age as apex predators. In today's episode John takes us on a whirlwind tour from the first sharks to a beast who had "Jaws and teeth that were giant wheels of death" - the Helicopron. Join us to unpack just how sharks evolved into one of the most successful lineages in Earth’s history - it’s an adventure through 400 million years of evolution, extinction, and dominance in the prehistoric seas.Welcome to our week of Sharks!MORETyrannosaurus Rexhttps://open.spotify.com/episode/3uxH3HHjSuEk0mHmjFU9k7The First Dogshttps://open.spotify.com/episode/6fpF68aiJUIbMv6AzXxfC6Presented by Tristan Hughes. Audio editor is Aidan Lonergan, the producer is Joseph Knight, 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.
Welcome to a very special episode of The Ancients because we are going back hundreds of millions
of years to explore the story of the first sharks.
Yep, you heard me right.
I am really excited for this episode. I
loved recording it with our guest today, a leading expert on prehistoric sharks, Professor John Long
from Flinders University in Adelaide, Australia. And I just love the fact that we were able to
explore a creature that we know today that occupies the oceans today, whose ancestors also lurked in
the seas and the rivers before the age of the dinosaurs.
It's an extraordinary story, and I really do hope you guys enjoy.
Let's go.
Sharks. They're older than the rings of Saturn. They're older than trees. 300 million years ago, sharks enjoyed a golden age. Dozens and dozens of different species
spread all across the globe. These prehistoric predators occupied oceans, seas and rivers, seawater
and freshwater habitats. And some sharks were more fearsome than others. One particular
species even had a vertical, buzzsaw-like wheel of teeth. Don't believe me? Just search
the word Helicoprion. It's insane.
Today we're delving into this extraordinary world of the
earliest sharks with our guest, Professor John Long.
John, it is a pleasure to have you on the podcast today.
Thank you Tristan, it's great to be here.
And we're literally doing this across the world. So you're in Australia at the moment,
if I'm correct. So it's bright and early in the morning here in Britain. You've taken some time out of your evenings
to come on the Ancients today.
Yeah, it's dark now. It's winter and it's very cold and I'm happy to be in a nice warm
room to talk interesting things about fossil sharks with you.
Exactly, fossil sharks. And this is a story that is, correct me if I'm wrong, but it
feels it's older than the dinosaurs.
Way older than dinosaurs. We're talking older than trees, older than insects, and get this, even older than the
rings of Saturn.
No.
Really?
The rings of Saturn?
Yes.
The rings of Saturn are about 400 million years old and sharks go back 465 million years.
So that's a way long time back.
And for experts like yourself, are fossils the main tool of research for learning about
these earlier specimens of sharks, for following the whole evolutionary cycle, the evolutionary
journey of sharks?
It is indeed, Tristan.
I'm a paleontologist, so I study fossils to look at the history of life on Earth.
As you get closer to the modern day, then genetics
comes into it more and more because you've got living species that can bracket the extinct
species. But when you go way back into deep time, hundreds of millions of years ago, it
really is just fossils is all you've got. And that the context of the fossil, like the
geology of the rocks that the fossils are found in, the geochemistry of those rocks,
you can do a lot of analyses that give you the environment that these creatures lived in.
Toby And John, you are one of the leading experts
in the fields of early sharks and fossil fish in general. And your interest in this, it
stems from quite a young age, you know, when you started collecting fossils, this has taken
up almost all of your life.
John Yeah, I started collecting fossils when I
was seven
at school because I met a schoolmate whose father collected fossils and used to take us out to local
quarries and places where we could hit rocks and find little creatures like trilobites and fossil
shells. And then a year or two later, I realized that right close to my home where I was living
was a beach where we could find ancient fossil sharks teeth that were eroding out of the
cliffs or you know you could just pick them up on the beach. Your listeners won't see this but
here's a fossil shark tooth a really large one it's about six centimeters in size and I found
that when I was about eight years of age and kept it ever since. And how old do we think that shark
tooth is if I may ask? Well that's from a site in Victoria called Bomoris.
It's about 6 million years, so it's kind of recent on the scale of sharks going back
465 million years, but it's still precious to me.
Let's go right back to the beginning then.
450 million years ago, roughly 450 million years ago, what do we know about the origins
of sharks, the earliest sharks?
Well sweet FA actually, Tristan. all we had was a handful of scales. Basically, tiny little scales,
the size of a pinhead. Now, you might think, what can you do with scales? Well, think of a cake,
you know, a lovely delicious cake. If we only had crumbs, we could tell from those crumbs if it was
a sponge cake that's fairly boring or a black forest cake,
which is kind of interesting. And so those scales can be simple in terms of their structure,
their histology, or they can be quite complicated. And so the first tens of millions of years of
shark evolution is really told through these tiny little scales that become more and more complex,
and they go from being the sponge cake of scales to the black forest cakes within 10
million years.
And so sharks were starting to do a lot with their bones, with the structure of their scales,
their dentine tissues that made those scales.
But we know nothing about the animal, what they look like, just that they were scales
similar to living sharks.
So we know they must be on the line leading to sharks.
And how long is it before you start seeing the fossil record a bit more evidence and get a bit more sense of sharks actually as sharks? You have a bit more than just those scales and knowing FA
about it. Well, during the, that was the 465 million years ago was the Ordovician period,
but you jump to the Silurian, which comes after it. There's not much there still mostly, you know, scrappy material.
But when we go to the Devonian period, which started 419 million years ago and
ended 60 million years later, we start getting abundant shark fossils from marine
deposits and also freshwater like river deposits and an abundance of teeth.
Because it was that point in time
sharks developed their first great superpower which is the ability to make lots and lots
and lots of teeth quickly. So sharks today for example are shedding their teeth all the
time as new teeth pop up and keep that mouth full of really sharp effective teeth. So a
shark can develop something like 20,000 teeth in its lifetime
and keep shedding the old teeth into the bottom of the sea floor. So that's why sharks teeth make
excellent fossils. And where were these earliest shark teeth fossils found from some 419 million
years ago? Well, Spain has got the oldest teeth that actually belong to the same type of replacement
tooth as modern sharks have in the Aragon Mountains of Spain, which I was there in 2022
actually on a field trip and got to visit the beautiful mountains there with the limestones.
You don't actually go and find teeth by spotting them with your eyes.
You take big samples of rock, dissolve them up in weak acid,
and then pick through the residue and then you get the abundance of these microfossils,
which include sharks' teeth and scales and other bits of fishes and things.
Mason Now John, before we delve more into
the evidence that we have and their structure and size of these early sharks. You mentioned also the Devonian period and how it proceeded by
Ordovician and Silurian. Now, I don't know too much, but I know that this is long before,
as you mentioned at the beginning, the times of the Triassic or the Jurassic or the Cretaceous
with dinosaurs later. But can you give us a sense of almost what was happening in the world between
450 and 420 million years
ago that you go from that Ordovician period to the Devonian period, where you see this
kind of great leap in shark evolution.
Well, basically from the spines and scales, we can see that sharks are developing a more
complex kind of cartilage structure and are developing different hard tissues like dentines, which forms the
core of teeth.
And then when we get to the Devonian, we start finding whole complete shark-like fossils
as well with the whole body, the skulls, the head preserved and the whole dentition in
place.
And they look like modern sharks, but they're not yet anatomically the same as modern sharks
in the same way as, you know,
you've got early reptiles that look like dinosaurs,
but they're not the same as living reptiles today.
There had to be a lot of more evolution of sharks
before we get to the modern groups,
which to be honest, don't really appear
until the age of dinosaurs.
And we'll talk about that later in this episode.
But during the Devonian,
sharks actually went from being tiny little things about half a
meter long to creatures up to maybe six meters in length by the end of the Devonian, the
largest predatory creatures of that period.
And to put the Devonian into perspective, I think it's the most important period in
the Earth's history.
You have the pre-Devonian, where not much happened, no life on land. During the divonian, plants took over the land and grew to forests, you
know, 30 meters high. Fish evolved arms and legs and started walking on land as the first
land animals, vertebrates. Invertebrates invaded land and we had the beginning of the insect
lineage and so on. So the modern world became shaped by that Devonian changes in the environment and
what life was doing. And after that, life was more or less just changing towards the
modern faunas we have today. But the Devonian was the revolution that really started it
all.
And why is it a revolution? Is it a change in the climate or for the sharks, obviously
in the water? Do we know if the temperature changes that allows them to grow and evolve?
What do we know?
Yeah, there were lots of changes going on in the atmosphere in the Devonian,
from high levels at the beginning to low levels and then high levels again at the end.
I'm talking fluctuations from 13% oxygen up to 28% oxygen.
Today we have 21% oxygen up to 28% oxygen. Today we have 21% oxygen. So this changes in boosting the oxygen
of the whole planet was how plants really got a boost of energy and life and started growing to,
you know, the early Devonian, the beginning of Devonian, the plant life of the world was just
mosses and bryophytes and lichens and things, and very small, weedy plants.
But by the end of the Devonian, these forests had established, made of lycophytes, which
are horse tails and gigantic ferns.
And so we had the very first forests on the planet, as well as animals that were invading
those forests to find food.
Now, John, we've already covered a little bit of this in our chat already, but can we
now actually kind of go through the kind of shape of these sharks and what we know of
them when we are at the Devonian period?
And you know, those early adaptations, those early key kind of design improvements in the
shark that we see at this period and how the shark comes to look pretty different to other fish at the time.
That's right. Well, the fishes of the day included early bony fishes like, you know,
we have salmon and trout today that have skeletons made of bone. And we had these ancient armored
behemoths called placoderms, which comes from the Greek meaning plated skin, because they
had massive armored plates covering their bodies.
Some of these were enormous like Dunkleosteus, the Darth Vader of the Devonian, which was probably
in the order of four or five meters in length, maybe bigger, but that's debatable. And at the
time sharks were mostly about a meter in length or smaller until the very end of the Devonian. But
sharks were really just predators, but they weren't the apex
predators because these placoderms had evolved before the sharks and occupied most of the
environmental niches. But towards the middle of the Devonian, we get sharks that look a lot like
modern sharks today with their triangular dorsal fins and wide pectoral fins at the front, mouths
full of teeth in rows and files that could be replaced,
and a shark-like streamlined body made of cartilage.
And that's the critical thing about sharks, they have a cartilage skeleton.
Now here's the rub.
It's not the same cartilage as in your ear or your hip joint.
They have their own unique kind of cartilage that no other creature has.
It's called a globular calcified cartilage.
So it makes the skeleton very light, but also incredibly strong. So it's like a special
type of cartilage that gave sharks an advantage to become more agile and faster in the water
to outsmart these bony placoderms and other fishes. So I think that's a real advantage
that sharks
evolved at this time.
And does it still have even these early sharks, even when they're quite small, do they still
have the iconic fin on top that we think of with sharks today?
Yeah, they do. They have that triangular fin. And as I said, even though they're rather
small, it was towards the end of the Devonian when there's a series of devastating mass
extinction events that rock the earth, that some of these placoderms go extinct just before the end of the Devonian, but others
straggled on through. But at that point, which is about 10 million years, or actually about 15
million years before the end of the Devonian, sharks started to diversify rapidly and get larger
and larger and larger. So that's when we get the rise of the first big monsters predatory sharks like tina canthus.
Which was probably in the order of seven or eight probably six to seven meters in length certainly bigger than a white shark today.
leap right now because it also feels as you've hinted there that that sharks the fact that they've endured for so long for so many hundreds of millions of years that they are one of the great
survivors of some of these biggest extinction events in the history of the earth and it feels
like they are a beneficiary of this first big you almost wave that decimates quite a few other
fellow species at the time. Yeah and this was the second of the world's
global mass extinction events.
So in the last 500 million years,
Earth has gone through five major mass extinction events.
The first was at the end of that Ordovician period,
about 455 million years ago,
when all we had was sharks known by scales.
But after that, we have an increase
in the number of species of sharks, but they're
still known from scant remains. But by the end of the Devonian, these two mass extinction
events near the end of the Devonian shook the world up in a big way and paved the way
for sharks to really go into their new golden age in the Carboniferous period, because you
know why? The placoderms went extinct. Their main rivals bump out. Sharks can just walk in
and take over all those vacant niches.
And, you know, there's a parallel here
with mammals and dinosaurs.
When the mighty dinosaurs went extinct 66 million years ago,
there were mammals around the whole time with dinosaurs,
but they couldn't really go anywhere
until the dinosaurs were extinct.
And so there were vacant ecological nicheses them to then take over and expand and shucks exactly the same what's the placa domes extinct.
Can we get a sense of this time that you do also see quite almost a growth in the area that we have evidence fossil evidence for sharks for these early sharks at that time do they seem to spread more across the world.
sharks for these early sharks at that time. Do they seem to spread more across the world as you see them rising to the four and taking the mantle of those species like the placodons?
Yeah, I mean, basically by the Devonian, we have remains of sharks all around the world, but mostly from teeth and a few sites with complete sharks. But the Carboniferous period, which started 359 million years ago, and went to about 300 million years ago. There's excellent sites all throughout Great Britain and Scotland where some of the best fossil sharks in the world have been found, especially
like Round Glasgow, the Bears Den shark, whole complete perfect shark. It's called
one of the great hero sharks of Scotland. There's even been poems written about it
by Edward Morgan who was a poet laureate in Scotland.
True.
You know, this, this is shark is a hero shark. It's in the museum in Glasgow, in the Hunterian.
I saw it only a couple of months ago when I was in Britain and I paid homage to it.
It's such a beautiful specimen.
And it was found by a most incredible fossil collector called Stanley Wood, who is a
absolute legend who found many new kinds of species of fossil
fish and early amphibians, even fossil plants, and he's had like a dozen of these named after
him as well. Unfortunately, he passed away about 2012, but he's left a lasting legacy
for the collections up there in the museums. I'll have to keep my voice down because right now I'm between the actual bedsheets
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You know, Joan, I'd never ever heard of the Bearsden shark before. I'd heard of of the Bears Den Roman baths and the Roman fort up there on the Antonine Wall.
I didn't know that Bears Den, like a suburb of Glasgow, was also famous for this skeleton
and it, correct me if I'm wrong, of a full Devonian shark.
Yeah, it's Carboniferous shark.
Carboniferous.
Lived in the seaways.
It had this big anvil on its back, like a massive bone that expanded out that had tooth-like
structures on the top.
And the top of the head is covered in teeth as well, tooth-like structures, like denticles of
the skin that have grown big and coarse and look like teeth. So that this thing actually looked
like it had a mouth sitting on top of its back, which may have been a way of scaring away bigger
predators, which they actually were in the oceans and shallow seas in those days,
giant bony fishes like Rhizodas that grew to sort of six or seven meters in length.
But nonetheless, there's another site in the Carboniferous of North America called Bear Gulch,
not Bear's Den, but Bear Gulch in Montana. And get this, this is a site with whole complete fossil
fish, literally thousands of them have
been collected, but the most abundant fish in this fauna are sharks and their kin.
So up until now, sharks have very much been a small part of the overall fish faunas in
the rivers and seas of the world.
But in the Carboniferous, they take over and suddenly become the most abundant fishes in our season rivers and lakes more so than the bony fish that today dominator ocean so i call this the golden age of sharks and there are so many.
Diverse forms of so many different shapes and sizes like i can spend hours describing the mall but just take my word for it there every kind of shape and size of shark you can imagine that time.
I would like to explore some of that diversity because if there is such a rich multitude of sharks in that period we surely they can't therefore all be predators john or carnivorous i mean you need to survive.
That's exactly right tristan this was the time when.
right Tristan, this was a time when another lineage of sharks split off the main, shall we say the main stem that leads to modern sharks.
And it goes to a group called the ratfishes or holocephalans.
These are like myrids and spookfishes that today live in the deep oceans.
At that time, this split caused a great radiation of these sharks with crushing tooth plates
in their mouth, like flat bricks for crushing up clams or rounded teeth for grinding things like corals
and things and there were hundreds of species of these holocephalans and they
were the most abundant shark-like fishes in the oceans at the time but I'd also
saw a radiation of the true sharks leading to the modern shark line and even
more gigantic predators like Saberdus, which is found in Scotland and England in the Carboniferous
limestones.
And this has monstrously large teeth the size of your hand.
And it was probably a shark that would have reached at least eight meters in size.
So the biggest predatory shark yet in our story.
Yeah.
And it's found all over the world, not just Scotland and England and Ireland,
but also remains a building found in North America and parts of Europe as well.
I'd like to also ask, because you mentioned it in passing, and forgive me for
going slightly further back in time, but at the end of the Babylonian, you
mentioned like one of those species that was bigger than the Great White of today.
And what was the name of that?
Was that quite a, perhaps in the eyes of yourselves and fellow researchers today, was that quite
a big moment in the story of the evolution of early sharks, this particular species?
I mean, what do we know about this?
Yeah, because this was right near the end of the Devonian, about 360 million years ago,
a million years before the end of the Devonian, about 360 million years ago, a million years before the end of that period.
And between the two mass extinction events, we get a rise of diversity of sharks, including
many different kinds, including even filter feeding sharks that weren't predatory, as
well as these ones with rounded tooth plates for crushing prey rather than piercing and
grabbing prey with sharp pointed teeth.
Sorry, John, do you mean like basking sharks today
or something like that with a big mouth?
Yes, the filter feeding sharks today,
like basking sharks and whale sharks,
filter by opening their mouths
and catching food against their gill rakers
or their gill archers, like a sieve, if you like.
But these sharks, they were filter feeding Devonian sharks,
they were small, not gigantic,
they were probably about a meter in length, but they had teeth that were widely spaced to form like a sieve when the upper
and lower jaws, like my fingers and my hands, where the fingers are loose between each other,
not tight. And so they could then take a mouthful of plankton and get that into their gullet.
So this is the first time in the history of life invertebrates anyway backbone animals we have filter feeding as a as a niche and sharks the first to do it.
Going back to what you're saying i need a between those two extension events at these bigger Tinnacanth sharks that go right through the
next two periods of Carboniferous and Permian, including Sabernus, the really gigantic one
in the Carboniferous, was another member of the same family.
It had teeth with many big cusps on a big wide root, which means it had teeth that were
very powerful for piercing and grasping prey.
But also at the same time in the
same age rocks of the Carboniferous we get the first shark's teeth that are
broad and flat with serrated edges like a great white shark. So we're getting an
adaptation for tearing flesh off bigger prey. So for me that's really significant
because sharks were targeting creatures bigger than themselves
at that time. Who knows what they were? They could be other sharks or they could be other
types of bony fishes that were around that we don't really know of at this stage. But whatever
it was, if you've got serrated teeth like a steak knife, it means you can grab prey and really take
chunks out of it. Same way that white sharks can take chunks
out of a dead whale today.
You've probably therefore already answered
another question that I had for you,
but I'm gonna ask you it anyway.
It seems that, you know, shark teeth,
they are so important for understanding the evolution
of sharks over those millions of years
and comparing the various shark teeth to understand,
you know, how powerful a predator they were
or the kind of diversity of the sharks that you had at the time.
Exactly.
The teeth are amazing because there's so many different forms and shapes of sharks' teeth.
Everything from adaptations for cutting, for piercing, for grinding, for crushing.
It's just amazing how suddenly once they got this formula for different kinds of tissues that build a tooth, then you can build teeth in so many different ways.
And it's kind of a superpower that sharks had that no other fishes at the time could do, because all the bony fishes just had pointed sharp teeth.
They didn't vary that much, just like bony fish teeth don't vary that much today until you get into the specialized reef forms, you know,
races and things. But now at the time, sharks, you know, took over the seas with so many different ways to feed with different shaped jaws and teeth.
So let's kind of explore a couple more of these now. So you've already highlighted,
yes, you've got the real dangerous predators in the golden age in the Carboniferous.
You also mentioned about, you know, the herbivore ones almost you know that different strands and then also the kind of basking shark like ones as well but what that certain other key
almost sub species of shark that develop during the carboniferous that have their own different ways of eating.
Yeah well the most spectacular of these are the ones that aren't on the line to modern
sharks, but go on the line towards the holocephalans or chimaerids.
And we get groups called Ineopterygians, which were totally bizarre.
I mean, imagine a fish, it looks like a little stubby shark with huge pectoral fins that come
out the back of its neck.
And they look like antlers of a moose.
And they fly through the water like a butterfly. And they look like antlers of a moose. And they fly through the
water like a butterfly. And they have a club shaped tail. I mean, and their mouth is just
hardly any teeth except for one tiny little jagged wall of teeth like a like a buzz saw
at the end of the lower jaws. And these things, we know we've got them preserved whole from
these sites in America from bear gulch. And we know what they ate because they have remains of shrimp.
They have remains of plants and conodot worm-like creatures in their
galleys and their stomachs.
So we know these things were effective at hunting prey, but they weren't built
for speed, that's for sure.
So there were so many specialist types of shark-like creature around at that time.
Some of these sharks even developed gigantic petrel things so they could
swim through the water like stingrays, but they weren't quite the first rays yet.
They wouldn't evolve until the Jurassic period much, much later, but they were
trying to be stingrays, if you know what I mean.
Probeniferous shark like stingrays.
I mean, I never thought I'd hear that sentence said on an ancient podcast ever.
So congratulations, John, that is quite something.
Yeah.
Well, the amazing thing is that sharks tried out all sorts of different body
plans and even if they didn't work in that particular lineage, when extinct at
that time, it didn't mean they wouldn't try it again later.
And later when they invented that same body plan again, it did work as rays
became very successful later on.
Can you give us a sense of the timescale with the Carboniferous period?
How many millions of years are we talking about?
We're talking from 359 million years ago when the Devonian ended to about 299 or 300 million
years for the beginning of the end of the Carboniferous and the beginning of the Permian
period which comes after it. So just over those 50 million years, I mean,
is it possible yet from the research that has been done by yourself and your colleagues
to see whether some of these species of shark, you know, they experimented with different types
of eating and different types of, I don't want to say equipment, but anatomy and how they were
shaped. Do we see that some die out before the
end of the Carboniferous and it's clear that some groups are more successful than others?
Actually, no. Most of them that developed in the Carboniferous just keep going through to the
Permian because there wasn't a mass extinction event at the end of the Carboniferous. There
wasn't any reason why. Different species level might go extinct, but the lineage keeps going, you know, as new species and new genera evolve from that same group.
So we see a radiation of each of these groups into many different species,
a great diversity of sharks by the Permian period, and including some of
these forms evolved from carboniferous forms with those rows of teeth in a
single whirl, like a wheel,
like a buzz saw. Some of them evolved into the biggest and most spectacular sharks of
all time in the Permian, the buzz saw sharks like Helicoprion. Imagine a shark that's eight
to 10 meters in length and it has no teeth in the upper jaw, but the lower jaw just comes together as one gigantic wheel of death.
Just all these teeth that are big and serrated,
but form a single wheel coming out the lower jaw.
Now, that wheel didn't move,
it couldn't because it was teeth,
setting cartilage in the jaw.
But it had this very elastic lower jaw joint,
so it could swing that lower jaw forward and
brush it back and that way it could catch gigantic squid and eat them. Even ammonites,
which were squid-like creatures in a big shell, they might have had a special way of actually
grabbing that ammonite and slipping the soft meat of the animal out of the shell and eating it and
leaving the shell behind. Whatever they were doing, they were incredibly successful because we find these big wheels of teeth
all around the world in the Permian period in nearly every country, even in Australia.
But do we therefore have, because obviously squid is another word that we know well today,
like alongside these very prehistoric sharks in the Carboniferous and Permian, you also
had very prehistoric squid alongside them in almost another part of the future.
Yeah, the first modern squid evolved in the Carboniferous. And by the end of the Carboniferous,
we had many kinds of squid-like creatures called cephalopods, but some of them with
big shells, they were ammonite-like creatures. We all know ammonites from the Jurassic, but
the first ammonoids actually evolved in the Devonian
that would evolve into the bigger ammonites of the Jurassic and so on. So there was an abundance of
these squid-like creatures living in the oceans of the day and they actually probably formed the main
food source for many of the sharks.
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here and avoid the bedpan! And do we get a sense then at this time, it seems like there are sharks that are adapted to being deeper in the oceans, some of the
more shallow waters. But also with the Carboniferous, I think it goes straight to my mind growing up
watching things like Prehistoric Park and so on, of the big dragonflies, the big centipedes and the
scorpions and all the bigger insects on land, that kind of warmer climate climate lots of carbon in the area hence carboniferous
but in the like the shallow in the rivers and the lakes near these these beautiful rich carbon
landscapes would you also have specially designed sharks just what you know wallowing up and down
those rivers and then the lake yeah oh yeah we had a whole group of sharks called the zenith hats and
that's from zina you know Xena the warrior princess?
Xena meaning foreign in Greek.
They had this foreign, Xenokhant means foreign spine
because the back of their neck had this whopping great spine
sticking out the back.
And these were kings of the rivers and lakes of the world,
these Xenokhants.
And they appear in the early Carboniferous by their teeth
and some whole complete sharks from Scotland and different places like that.
By the Permian period, they're really taking off and getting to quite large sizes with really quite large teeth.
When I say large, you know, three to four meters in length, but one of them was really big, maybe five and a half meters, but it had tiny little teeth. And we believe this, even
these xenocants evolved a filter feeding line, as well as a predatory line. So yeah, they were the
rulers of the freshwater domain of the world. The first ones are found in the sea, but after that,
they are only found in freshwater for the Permian, Lake Carboniferous Permian and Triassic,
for about a period of
a hundred million years or more where they just dominated the freshwater rivers of the
world.
And would they hunt on things like amphibians if I'm thinking you have amphibians by that
time right and they're quite big?
Yeah, absolutely.
In fact, in the book I talk about a particular Permian turducken, you know, where we have a Xenokanth shark that's just eaten two, two
tetrapods and in the bellies of one of those tetrapods is another fossil shark.
Wow.
A stem shark.
So you've got three tropic levels all in the one fossil, which is so rare these days to
find a fossil within a fossil within a fossil kind of thing.
Well, it shows so much more, isn't it?
To the fossil record for these sharks?
It isn't just scales early on.
It isn't just teeth, although the teeth are really interesting, as you've highlighted
for tracking the evolution and the different kind of strands of sharks at this time.
You can also find, as time goes on, evidence of shark killings, deep in the Permian and
Carboniferous and so on.
Yeah, these xenocats are also the first record of shark cannibalism, where they're eating
their own species and other xenocats. So that's really nice to record. They just ate anything.
You know, you know, sharks today, they only have one parental mechanism, and that is a hormone that
kicks in when the females give birth, so they donate their young straight away. And that's as
good as parental care you get with a shark.
Sorry, I'm going to kind of go on a bit of a myth bust here and a bit of a silly one
as well. There's that saying that sharks can't swim backwards or they always have to keep
swimming forwards today. I mean, do we have any idea about that with the prehistoric sharks?
Oh, absolutely, because their skeletal structures are the same as living sharks. And we even
have beautifully preserved fossil sharks from the Devonian Carboniferous with the livers and soft tissues preserved in some deposits.
And sharks have these gigantic livers which gives them buoyancy in the water and it's
also a huge store of energy from squalene oil that those livers are full of, which enables
sharks to do large migrations around the globe without feeding if they don't need to, they
can draw energy from those livers.
So yeah, the point is that sharks can't respire by sitting still in the water. They need to either have a current moving through their mouth so they can breathe to get the oxygen out of the seawater
or they have to keep swimming to breathe. So they tend to keep moving or if they rest, they tend to
rest in areas where there's
moving current flowing over them. Another question, keeping on those rivers,
and you mentioned amphibians earlier, and also these different strands, these different family
lines that come from the shark line and then diverge. Do we get any sense during this time of
almost experimental, so many different strands of sharks in the Carboniferous and
Topermian. Whether any of the groups did ultimately become amphibians?
No, no. The amphibians are line that evolved from the bony fishes, from the lobefin fishes.
Today we have the coelacanth and the lungfish that are more advanced than the rest of the
rayfin fishes like the trout and salmon. But we had a whole host of intermediate prehistoric forms like teatilic,
for example, which is what we call it a fisher pot.
It's got a bony skeleton like a fish,
but it's got very well developed limbs, paired limbs,
pectoral fins that have a humerus, ulna radius, carpal bones.
And we even found digits in one of them, fish called El Pistastigui from Canada.
We found the first evidence of a fish fin that had finger bones or digit bones in it.
So that's been sealed very clearly that we know that that's evolutionary story going from fishes
to land animals via these intermediate forms like teatonic. So sharks don't have anything to do with evolving into land animals, but what they do tell us is the early part of the vertebrate body plan, developing parts of the skeleton that would then carry on through to the rest of evolution, like developing backbones and paired fins and things like that.
And such an important part of the story, of course, isn't it? The development of the backbone. One other question to ask after you mentioned it earlier, you mentioned migrations. So with this
great diversity of shark types at this time, should we imagine that some species, maybe the
more predatory ones, were they more solitary creatures and what other ones did they keep
together in larger packs and were following kind of migratory movements. Do we get any ideas of that from the record?
We get vague ideas about it, really, Tristan, because fossil sites are so rare to get whole
complete sharks, let alone to get a massive sharks preserved as a fossil in one bed is very rare. We
do get that with bony fishes in different deposits around the world. But we know from some of these
sites where shark fossils are common,
like the Bear Gulch site in Montana that has yielded thousands of well-preserved fossil shark
remains, that some sharks tend to be more common than others, which does kind of suggest that in
one layer you can get an aggregation of sharks. And this is not unlike sharks today that many of
them are solitary, but you have aggregations
of large numbers of them at certain times of the year when there's abundance of food
resources around like masses of hammerheads or rays or bonding together.
John, are there any particular fossil discoveries of sharks that date to the golden age of sharks
and for you that are particularly special or particularly memorable? Most of my discoveries go back a little bit before that. I did discover,
if I can jump back to the Devonian, my most comfortable time of life, I did discover a
shark at GoGo, which is an incredible fossil site in the Kimberley, the northwest of Australia,
where normally fishes that are 380 million years old are kind of squashed flat like kippers between rock.
But go-go, we get perfect three-dimensional skulls and brain cases and jaws and sometimes even soft tissue preserved.
The muscles have been preserved.
I've even discovered embryos with the umbilical cords still attached to some of these fossil placoderms.
But I did discover the first shark from that deposit that was ever found there
after 60 years of collecting by the British Museum in the 60s and by me since about the
mid 80s onwards.
I've spent nearly 40 years collecting at that site and made many, many interesting discoveries,
shall we say.
But this particular shark, the first one found had three dimensional jaws and cartilage and
teeth and shoulder bones.
And basically we discovered something that we didn't expect
to find. We did some histology study on the actual cartilage,
which was three dimensionally preserved, so we could etch it
out of the rock, you know, with weak acid. And then we cut thin
sections of that cartilage. And we found bone cells between the
layers of cartilage, osteocytes. So it kind of showed that earlier sharks had a lot more bone in their skeleton.
But as they developed this highly specialized kind of cartilage, they were,
they were getting rid of bone and they just had random bone cells here and
there, but not, not an abundance of them.
So that was a really cool, cool discovery.
And we call that shark gogo salacis, meaning shark from gogo.
And so did you find in a similar context placoderms as well? So you almost have those two titans of
the time up against each other. Yeah, I've spent a lot of my time working on placoderms and
that's where we found the mother fish with the embryo in it that multiplied as Attenborough,
either they're named after Sir David Attenborough, which was the earliest evidence of sex in the
vertebrate lineage.
Sir David, when I met him, was very happy about it, but he said, now they'll always remember me for being associated with the origin of sex.
Jason Vale We'll get you on for that podcast next,
where we'll explore more about the placoderms. I guarantee you that. After Megalodon, of course.
David Attenborough Yeah.
Jason Vale There is one particular expedition that I'd
like to ask you about that you do mention also in your book, which is a venture down to Antarctica for a particular shark fossil. Now can you
elaborate on this extraordinary venture? Yes, well I've had four expeditions to
Antarctica over the last 30 years but the one you're referring to which is the
opening pages of my book has basically happened in 1991-92 in the early days when we
still did big sledging expeditions that they don't really do that anymore today.
It's considered too dangerous and too difficult. But we had a sledge and we'd
go to completely unknown territory and we'd set up a camp and we'd then climb
mountains and look for fossils in the exposed layers of rock, you know, between
the ice and the snow.
And I had a very close call almost falling down a crevasse on one of those expeditions, but I did
get to the mountain. I was out by myself that day and I was looking at the geology of this area is
known for fossil shark's teeth collected 20 years earlier by an older geology expedition.
teeth collected 20 years earlier by an older geology expedition. And then a small avalanche tumbled down and hit me and rolled me in the snow, but it was only a small one. I got back safely to
the camp and the next day we all went back, the whole expedition, all four of us, to get onto the
mountain and collect fossils. But we used a crevasse probe to walk through my footprints,
tracing exactly where I'd been.
And we found out that I'd actually walked over seven crevasses that day, the day
before, and he broke through one.
So I was very, very lucky to be here, but we did find lots of good
shark's teeth once we got to the mountain.
So that was, that was, that was good.
And did those sharks teeth did some of those dates in the Devonian as well?
Is Antarctica a good place for Devonian fossils?
It is indeed.
The reason why we go there is because there are no plants, there is no soil,
it's just sheer rock and snow. When you get rock outcrop, it's really clean and you can see
exposures of rock for miles and miles and find the fossils quite easily because you just see them
there, you know, standing out in the layers. So we collected a number of new species of sharks from there and it denoted a time when we studied it all
in the lab, I named a new shark from those teeth from that mountain, Portal
Mountain, called Portalodus. These teeth were huge, they're up to like two and a
half centimeters high, indicating that even back in the Devonian, that's
the turning point where sharks went from being maybe half a meter
to a meter in length to up to maybe three to four meters in length in those big riverways.
That's a huge jump for the time, right?
Yeah.
So that was a very interesting discovery.
And I wrote the paper on that and got to name all those new species from that expedition.
Is it quite interesting?
I'm sorry that we focus more on the golden age of sharks and less time
on the Devonian, which is, you know,
your biggest period.
So we can certainly go back there a
little bit now if there's anything
we've missed.
But is it so fascinating having a
look at seeing those
earlier steps where it almost goes
from half a meter to a meter, then
evidence of going from a meter to two
meters and then it almost kind of
explodes in the size.
Is it fascinating looking at the fossil records
to understand those kind of key jumps in shark evolution
at the time of the Devonian
and into the Carboniferous after that?
It is, it's not just the jumps in size.
Although you get these standout forms that are quite large,
the vast majority of sharks in the seas at that time
are still quite small.
So it's not like you have suddenly all sharks get big.
So I've got one or two that are big predators,
but the vast majority of them are still about a meter
or less in size.
Until you get to the Carboniferous,
then you start getting a large increase
in the whole shark fauna getting bigger kind of thing.
So the Devonian was a very interesting time.
Sharks also occupied
new environments for the first time, invading freshwater rivers and lakes for
the first time and going into deep water. And we know from certain sharks' teeth
that only occur in the deep ocean basins, that they were starting to occupy the
areas well away from the continental shelves. So up until this point in the
story, most sharks were found
in the shallow seaways where there was an abundance of food, abundance of invertebrates and fish and
other things, but not much in the open oceans kind of thing. But yeah, we start finding their remains
in deep water, deep ocean deposits, shall we say. So they're starting to expand out. And I think
that's what saved them through those extinction events, that there were a whole range of different environments sharks occupied. So
these extinction events heavily hit the shallow seaways the most, the hardest. And so sharks
could then repopulate from deeper water to come back in again.
Toby So it's not this popular idea of, you know,
when the extinction event happens, all the sharks go deeper and they all survive, is that there are certain strands of shark that survive because they've learned
to adapt before that happens and so they escape the worst effects of one of the mass extinction
events.
Yeah, and the other way is that when a mass extinction event happens, it might hammer
the shallow seaways with an oxy or lack of oxygen and algal blooms that suck the oxygen out of those basins and things,
but it wouldn't affect every single shallow seaway of the whole world. It probably just
selectively hits a number of areas. There's always going to be patches where certain species will
survive and then be able to repopulate back. And that's the way it seems to work. Otherwise,
everything would get wiped out,
but certain things go extinct, but other groups just bounce back and eventually repopulate
those vacant niches.
I apologise, this is a slightly vague question, but before we completely wrap up with the
Devonian period, is there anything that we haven't covered so far that you feel is instrumental,
is critical that we should talk about with these sharks and their rise and things that are really important to their
story?
Yeah, well, one of the most iconic Devonian sharks, which is known from deposits in Ohio
and New York State, is called Claddagh Salaki. It's known from beautiful complete specimens.
We see these in museums. You can see them in the British Museum
in London or virtually any big natural history museum will have them on display. And it looks like a typical shark, you know, like a typical modern shark.
But we've just recently discovered that many of these fish that look, sharks that look like
modern sharks living in the Devonian were not actually on the line to living sharks, but they were the beginning of that line going to the ratfish and kamaerids.
So the thing that when I wrote the book and I researched this whole topic very thoroughly,
I spent four years writing this book, The Secret History of Sharks, that fundamentally
it was a revelation to me that most of the sharks I thought were typical sharks were
not. They were
actually members of this early holosephalin radiation going towards the ratfishes today,
and that there's very, very few sharks in the Devonian that are actually on that line that lead
to modern sharks. But Tenekanthus, the great big predator, was one of them, as was another common
shark called Fibidus, which is mostly known from isolated teeth but we have whole complete specimens of it from the mountains of morocco at this time.
So is tina can this is ct tina can this work you want to prehistoric jose you can do a tina can this versus the placard and write you know one of the great sea baths of the devonian great battle scene i.
great sea battles of the Devonian. That would be a great battle scene.
In my book I do reconstruct scenes where there are battles and I have a giant dunkelosteus
attacking some Ptolecylaearchi sharks and then I talk about what's the evidence we have
for all these kind of interactions based on the fossil record.
But throughout the book I create lots of different scenes where we have these living snapshots
of what was happening in our oceans at the time.
John, this has been such a fascinating insight into the early millions of years into shark
evolution from the Solurian and the Eudovician, as you say, we've just scales into the Devonian
and then into the Carboniferous with the Golden Age of Sharks.
Lastly on that, do we know how long, if we can even say, the golden age of sharks lasts? Does
it endure into the Triassic and Jurassic and the time of the dinosaurs?
No. The biggest mass extinction of all time would come at the end of the Permian period,
about 252 million years ago.
The great dying.
That's the boundary. The great dying indeed, the boundary between the Paleozoic era
and the age of dinosaurs, what we call the Mesozoic era. And that's the first major mass
extinction event that did have an effect on sharks. It did wipe out a number of shark and
Hodocephalon groups. And so we see sharks very subdued for about 140 million years after that
extinction event. They're mostly small.
They don't get very big. There's one or two species that might get to three meters in
length, but the vast majority of them, you know, 99% of them are under a meter in length.
So they did still diversify into many different groups, but one group called the Hybidontes
took over most of the niches in the Triassic and Jurassic
period. So that's a very interesting time in shark history because out of that group of Hybidonts,
we get the first of the Neo-Selachians. Neo means new and Selachy means fish, shark. So it means the
beginning of the modern lineage of sharks that would populate the oceans today comes out, bang,
in the Jurassic period.
So, forget Jurassic Park, Jurassic Shark is where it all happened.
Jurassic Shark, what a way to end this.
And also a hint as to where we're going to be going in our next episode together, John.
How long is it between, let's say, the Golden Age of Sharks or even Jurassic Shark and the Megalodon,
the Meg that's arguably perhaps the most famous prehistoric shark of all times.
I've got at least 150 million years from the Jurassic to the first Megalodon, but sharks
didn't have it easy during the Jurassic period or the Cretaceous that came after it because
they weren't top dogs again. They
were top dogs during the Golden Age of Sharks and the Carboniferous and Permian, but then
reptiles decided to invade the seas and we get these big predatory reptiles, way bigger
than any of the sharks, taking over the oceans. Sharks had a pretty hard time of it during
that era.
The rise of reptiles. I always think of walking with dinosaurs and like Pluridon and so on and so forth.
Yes, indeed.
John, this has been really fantastic. Last but certainly not least, you have written a book about
all of this in so much more detail, which is called?
The Secret History of Sharks, The Rise of the Ocean's Most Fearsome Predators.
John, it just goes to me to say thank you so much for taking the time to come on the podcast today.
My pleasure Tristan, it's been a lot of fun today.
Well there you go, there was the one and only Professor John Long exploring the story of
the first sharks millions of years ago before the age of the dinosaurs. I hope you enjoyed
the episode just as much as I did recording it. It was such
a fun interview to do. And don't you worry, John will be back on the podcast very soon
to continue the story of prehistoric sharks and the super predator that once lurked beneath the
waves, the one and only Megalodon. Thank you for listening to this episode of The Ancients. Please
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