Jump directly to the content
JURASSIC SMART

Brown ‘pebble’ found on Sussex beach turns out to be the first ever fossilised dinosaur brain

The specimen is thought to have come from a large plant eater such as iguanodon that died about 133 million years ago

Preserved dinosaur brain found

A PLAIN brown "pebble" spotted by a fossil hunter in Sussex more than a decade ago has been confirmed as the first known example of petrified dinosaur brain.

The specimen is thought to have come from a large plant eater such as iguanodon that died about 133 million years ago.

This brown 'pebble' found on a beach turned out to be an extremely rare preserved dinosaur brain
7
This brown 'pebble' found on a beach turned out to be an extremely rare preserved dinosaur brainCredit: PA:Press Association
Expert analysis showed the organ - pickled in an acidic swamp 133m years ago - was from a plant-eating dinosaur like an iguanodon
7
Expert analysis showed the organ - pickled in an acidic swamp 133m years ago - was from a plant-eating dinosaur like an iguanodonCredit: Getty Images

Scientists believe the dead dinosaur's head was buried in mud at the bottom of a swamp, meaning its brain was "pickled" in acidic fluid.

In time the soft tissues became mineralised and hard like stone.

But the fossil retained distinctive features such as the meninges - a protective membrane surrounding the brain - blood vessels, collagen and structures thought to represent the outer layer of nerve cells, or cortex.

A detailed study of the "pebble" has revealed similarities with the brains of present-day birds and crocodiles, both close relatives of dinosaurs.

Dr Alex Liu, of Cambridge University's Department of Earth Sciences, who took part in the analysis, said: "The chances of preserving brain tissue are incredibly small, so the discovery of this specimen is astonishing."

Fossil hunter Jamie Hiscocks found the pebble-like object on the beach at Bexhill-on-Sea
7
Fossil hunter Jamie Hiscocks found the pebble-like object on the beach at Bexhill-on-SeaCredit: UNIVERSITY OF CAMBRIDGE

The find's importance was first recognised by the late Professor Martin Brasier, from Oxford University, who co-led the research before his death in a road accident in 2014.

It is highlighted in a Special Publication of the Geological Society of London published in tribute to the professor, who was one of the world's leading palaeobiologists.

Fossil hunter Jamie Hiscocks discovered the specimen in 2004 on a beach near Bexhill-on-Sea, East Sussex, and is named as one of the study's authors.

He said: "I have always believed I had something special. I noticed there was something odd about the preservation, and soft tissue preservation did go through my mind.

"Martin realised its potential significance right at the beginning, but it wasn't until years later that its true significance came to be realised.

"In his initial email to me, Martin asked if I'd ever heard of dinosaur brain cells being preserved in the fossil record. I knew exactly what he was getting at. I was amazed to hear this coming from a world-renowned expert like him."

Over time the soft tissue became mineralised and hard like stone - but preserving fine detail
7
Over time the soft tissue became mineralised and hard like stone - but preserving fine detailCredit: PA/university of cambridge
Preserved details of the structure are similar to features in the brains of modern birds and crocodiles
7
Preserved details of the structure are similar to features in the brains of modern birds and crocodilesCredit: PA/university of cambridge
The fossil retained distinctive features such as the meninges - a protective membrane surrounding the brain - blood vessels, collagen and structures thought to represent the outer layer of nerve cells
7
The fossil retained distinctive features such as the meninges - a protective membrane surrounding the brain - blood vessels, collagen and structures thought to represent the outer layer of nerve cellsCredit: PA/university of cambridge

 

Dr David Norman, from Cambridge University, who worked with Prof Brasier on the specimen, said the brain tissue had, in effect, been "pickled" in a highly acidic, low oxygen environment - probably a bog, or swamp.

"What we think happened is that this particular dinosaur died in or near a body of water, and its head ended up partially buried in the sediment at the bottom," said Dr Norman.

"Since the water had little oxygen and was very acidic, the soft tissues of the brain were likely preserved and cast before the rest of its body was buried in the sediment."

RELATED STORIES

Cavemen really DID wear leotards made from the skin of fierce lions - and hunted them to extinction in Europe
IN THE ROAR

Cavemen really DID wear leotards made from the skin of fierce lions - and hunted them to extinction in Europe

Dinosaur discovery shows killer reptiles were NOT all 'solitary vicious monsters' but lived in social groups
FLOCK AND AWE

Dinosaur discovery shows killer reptiles were NOT all 'solitary vicious monsters' but lived in social groups

Discovery of gigantic dinosaur in Australian outback could rewrite history
DYNO-MITE CLAIMS

Discovery of gigantic dinosaur in Australian outback could rewrite history

Dinosaur hunter who smashed 200million year old 'Loch Ness Monster' fossil spent TWO years gluing it back together
TWIT-STICK

Dinosaur hunter who smashed 200million year old 'Loch Ness Monster' fossil spent TWO years gluing it back together

Typically in reptiles, the brain is surrounded by a dense drainage system consisting of blood vessels and vascular chambers. The brain itself only takes up about half the space within the skull cavity.

But, surprisingly, the tissue in the fossilised dinosaur brain appears to have been pressed directly against the skull. This raises the intriguing possibility that some dinosaurs had larger brains than previously thought.

The brain was pressed against the skull - but this probably caused by gravity as the head decayed upside-down, and not because dinosaur brains were bigger than previously thought
7
The brain was pressed against the skull - but this probably caused by gravity as the head decayed upside-down, and not because dinosaur brains were bigger than previously thoughtCredit: PA/university of cambridge

However the scientists cautioned against jumping to too many conclusions about dinosaur intelligence.

The most likely explanation was that as the brain decayed after death gravity caused it to collapse against the roof of the skull cavity, they pointed out.

Dr Norman said: "As we can't see the lobes of the brain itself, we can't say for sure how big this dinosaur's brain was. Of course, it's entirely possible that dinosaurs had bigger brains than we give them credit for, but we can't tell from this specimen alone.

"What's truly remarkable is that conditions were just right in order to allow preservation of the brain tissue. Hopefully, this is the first of many such discoveries."

Mr Hiscocks was at the centre of controversy in 2006 after the Natural History Museum reportedly refused to pay his asking price of £750,000 for the fossil.

His other finds on the Bexhill coast include an iguanodon jaw bone and what it thought to be the world's oldest spider's web, encased in amber from 140 million years ago.

We pay for your stories! Do you have a story for The Sun Online news team? Email us at [email protected] or call 0207 782 4368

Topics
YOU MIGHT LIKE
RECOMMENDED FOR YOU
MORE FOR YOU