Britain’s Triassic Park: Incredible map reveals how British dinosaurs lived on a series of tropical islands around what is now Bristol 200 million years ago
- Researchers used geological data and historical records to create a new map
- This showed the islands of the ‘Bristol archipelago’ over 200 million years ago
- Each of the islands were inhabited by different creatures including dinosaurs
- Smaller islands saw smaller versions of dinosaurs than the larger islands
A new map showing the location of a series of small tropical islands 200 million years ago in the area that is now Bristol sheds new light on how British dinosaurs lived.
University of Bristol researchers examined hundreds of pieces of data including historic literature describing the region as being like the Florida Everglades.
The data was carefully compiled and digitised so it could be used to generate a 3D map of the once Caribbean-style environment that is now the west of England.
The islands were home to small dinosaurs, lizard-like animals and some of the first mammals to live on the land, according to lead author Jack Lovegrove.
The findings also helped scientists know more about how a small dinosaur known as Thecodontosaurus – or the Bristol dinosaur – lived 200 million years ago.
A new map showing the location of series of small tropical islands 200 million years ago in the area that is now Bristol sheds new light on how British dinosaurs lived
The findings have provided greater insight into the type of surroundings inhabited by the Thecodontosaurus, a small dinosaur the size of a medium-sized dog with a long tail also known as the Bristol dinosaur.
THECODONTOSAURUSOR ‘THE BRISTOL DINOSAUR’
The Bristol dinosaur, or Thecodontosaurus, was first discovered in 1834.
The name means ‘ancient socket-toothed reptile’.
It lived in what was the Bristol archipelago 210 million years ago.
This is an area of small islands now covered by Bristol and Somerset.
It is a small sized dinosaur, about the size of a Labrador, about 2.5 metres long and with a long tail.
It had powerful back legs with smaller front legs and walked on all fours.
It could reach up with its front legs and use its claws to grab hold of the stems of prehistoric trees for food.
Small sharp teeth with tiny sharp bumps on one side were like knives that could tear through juicy leaves.
The study used data from geological measurements all round Bristol through the last 200 years – from quarries, road sections, cliffs, and boreholes.
They then pulled in other data from literature and historical records to generate the 3D topographic model of the area.
This shows the landscape of a region – that is now Bristol and Somerset – as it existed before a great sea, the Rhaetian Ocean, flooded most of the land at the end of the Triassic period, the team explained.
One of the pieces of literature uncovered by the Bristol team described the area as a ‘landscape of limestone islands’ with storms powerful enough to ‘scatter pebbles, roll fragments of marl as well as breaking bones and teeth.’
‘No one has ever gathered all this data before,’ said Lovegrove.
‘It was often thought that these small dinosaurs and lizard-like animals lived in a desert landscape, but this provides the first standardised evidence supporting the theory that they lived alongside each other on flooded tropical islands,’ he said.
At the end of the Triassic period the UK was close to the Equator and enjoyed a warm Mediterranean climate, with very high sea levels compared to today.
The Atlantic Ocean began to open up between Europe and North America causing land level to fall, leaving Bristol Channel area seas 100 metres higher than today.
High areas, such as the Mendip Hills, a ridge across the Clifton Downs in Bristol, and the hills of South Wales poked through the water, forming an archipelago of 20 to 30 islands.
The islands were made from limestone which became fissured and cracked with rainfall, forming cave systems.
‘The process was more complicated than simply drawing the ancient coastlines around the present-day 100-meter contour line because as sea levels rose, there was all kinds of small-scale faulting,’ said Lovegrove.
‘The coastlines dropped in many places as sea levels rose,’ he added.
The team created a 3D topographical map that allowed them to better understand how sea levels rose and fell over millions of year to create the British isles
THE BRISTOL ARCHIPELAGO
The Bristol archipelago was a series of small tropical islands in an area that is now modern Bristol and Somerset.
Each island was home to unique species of dinosaur, lizard and even very early mammals.
At the end of the Triassic period the UK was close to the Equator and enjoyed a warm Mediterranean climate, with very high sea levels compared to today.
The Atlantic Ocean began to open up between Europe and North America causing land level to fall, leaving Bristol Channel area seas 100 metres higher than today.
This created the archipelago that existed 200 million years ago.
The findings have provided greater insight into the type of surroundings inhabited by the Thecodontosaurus, a small dinosaur the size of a medium-sized dog with a long tail also known as the Bristol dinosaur.
Co-author Professor Michael Benton, Professor of Vertebrate Paleontology at the University of Bristol, said he was keen to resolve the ancient landscape.
‘The Thecodontosaurus lived on several of these islands including the one that cut across the Clifton Downs, and we wanted to understand the world it occupied and why the dinosaurs on different islands show some differences,’ he said.
‘Perhaps they couldn’t swim too well.’
‘We also wanted to see whether these early island-dwellers showed any of the effects of island life,’ said co-author Dr David Whiteside.
On islands today, middle-sized animals are often much smaller than their continent or large-island equivalence because there are fewer resources.
That some phenomenon was found in the fossil records of the Bristol archipelago
‘Also, we found evidence that the small islands were occupied by small numbers of species, whereas larger islands, such as the Mendip Island, could support many more,’ explained Whiteside.
On the left is a map created by the team showing the various islands of the Bristol archipelago with the names of the towns and cities of modern Bristol and Somerset, and for comparison a modern map showing the same region today on the right
The study, carried out with the British Geological Survey, demonstrates the level of detail that can be drawn from geological information using modern analytical tools.
The new map even shows how the Mendip Island was flooded step-by-step, with sea level rising a few meters every million years, until it became nearly completely flooded 100 million years later, in the Cretaceous.
Co-author Dr Andy Newell, of the British Geological Survey, said models of the Earth’s crust help scientists understand much about the modern British isles.
For example it can point in the direction of water and some mineral resources.
‘In the UK we have this rich resource of historical data from mining and other development, and we now have the computational tools to make complex, but accurate, models,’ said Newell.
EARTH HAS HAD FIVE GREAT EXTINCTION EVENTS WITH THE MOST FAMOUS A DINOSAUR KILLING ASTEROID
Five times, a vast majority of the world’s life has been snuffed out in what have been called mass extinctions.
End-Ordovician mass extinction
The first of the traditional big five extinction events, around 540 million years ago, was probably the second most severe. Virtually all life was in the sea at the time and around 85% of these species vanished.
Late Devonian mass extinction
About 375-359 million years ago, major environmental changes caused a drawn-out extinction event that wiped out major fish groups and stopped new coral reefs forming for 100 million years.
Five times, a vast majority of the world’s life has been snuffed out in what have been called mass extinctions. The most famous may be the End-Cretaceous, which wiped out the dinosaurs. Artist’s impression
End-Permian mass extinction (the Great Dying)
The largest extinction event and the one that affected the Earth’s ecology most profoundly took place 252 million years ago. As much as 97% of species that leave a fossil record disappeared forever.
End-Triassic mass extinction
Dinosaurs first appeared in the Early Triassic, but large amphibians and mammal-like reptiles were the dominant land animals. The rapid mass extinction that occurred 201 million years ago changed that.
End-Cretaceous mass extinction
An asteroid slammed down on Earth 66 million years ago, and is often blamed for ending the reign of the dinosaurs.
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