Scientists discover 240-million-year-old reptile, dub it 'Mother of all lizards'
Deccan Chronicle | DC Correspondent
Scans of the fossilised skeleton of Megachirella revealed the chameleon-sized reptile was an ancestor of today's lizards and snakes.
Scans of the fossilised skeleton of Megachirella revealed the chameleon-sized reptile was an ancestor of today's lizards and snakes. (Photo: AFP)
Scientists tracked down the oldest known lizard, a tiny creature that lived about 240 million years ago when Earth had a single continent and dinosaurs were brand new.
Scans of the fossilised skeleton of Megachirella revealed the chameleon-sized reptile was an ancestor of today's lizards and snakes, which belong to a group called squamates, an international team wrote in the science journal Nature.
This finding dragged the group back in time by 75 million years, and means that "lizards inhabited the planet since at least 240 million years ago," study co-author Tiago Simoes of the University of Alberta in Canada told AFP.
That, in turn, suggested that squamates had already split from other ancient reptiles before the Permian/Triassic mass extinction some 252 million years ago, and survived it.
Up to 95 per cent of marine- and 75 per cent of terrestrial life on Earth was lost.
Megachirella, discovered some 20 years ago buried in compacted sand and clay layers in the Dolomites mountain range in northeast Italy, was initially misclassified as a close lizard relative.
But Simoes had questions.
"When I first saw the fossil I realised it had important features that could link it to the early evolution of lizards," he said.
So he hooked up with colleagues to perform a more detailed analysis of the tiny skeleton, which included CT scanning.
The scans revealed previously unseen physical features, including the underside of the fossil, embedded in rock.
The team found a tiny bone in Megachirella's lower jaw that is unique to the squamate family.
'Virtual Rosetta Stone'
"I spent nearly 400 days visiting over 50 museums and university collections across 17 countries to collect data on fossil and living species of reptiles to understand the early evolution of reptiles and lizards," Simoes explained.
"I used this dataset... to conduct the phylogenetic analysis presented in this study."
Phylogenetics is the study of how different species relate to one another in the tree of life.
Simoes' colleague and study co-author Michael Caldwell likened the Megachirella fossil to "a virtual Rosetta Stone in terms of the information it gives us on the evolution of snakes and lizards."
The stone, dug up in Egypt, allowed scientists to decipher hieroglyphics.
There are 10,000 modern squamate species alive today, Caldwell added, "yet we've really had no real understanding of where they came from in terms of their evolutionary history."
For Simoes, the study is about more than the history of lizards.
"We currently suffer a crisis in the world of lack of confidence in scientific evidence and facts. Denial of scientific information has been increasing and replaced by alternative facts not backed up by science.
"This study, along with others that try to understand fundamental aspects of evolution... will hopefully draw back people's curiosity and attention to the natural world and how it has been changing for hundreds of millions of years."