A tiny worm that lived around half a billion years ago has been found almost perfectly preserved, with research on the exceptionally rare fossil taking place in Oxfordshire.
Remains of the larva, about the size of a poppy seed, were unearthed in China with its internal organs almost intact.
Dr Martin Smith, of Durham University, described the finding as “something special”, saying the odds of uncovering fossils with tiny, fragile creatures is usually “practically zero”.
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The larva, named Youti yuanshi, dates back to 520 million years ago, around a time that a large diversity of life began to emerge on Earth, including many major animal groups alive today.
The team said this ancient creature “provides key clues” on how modern arthropods – a group of animals that includes insects, spiders, crabs and centipedes – evolved from worm-like ancestors.
Although the specimen was tiny, scientists from Durham University were able to generate 3D images using advanced scanning techniques at the Diamond Light Source facility in Harwell near Didcot.
Scans of the larva, thought to be one of the first arthropod ancestors, revealed several internal organs beneath the skin that managed to survive half a billion years.
This included parts of the brain, digestive glands, a primitive circulatory system and traces of nerves in the larva’s legs and eyes.
Dr Smith, who led the research, said: “When I used to daydream about the one fossil I’d most like to discover, I’d always be thinking of an arthropod larva, because developmental data are just so central to understanding their evolution.
“But larvae are so tiny and fragile, the chances of finding one fossilised are practically zero – or so I thought.
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“I already knew that this simple worm-like fossil was something special, but when I saw the amazing structures preserved under its skin, my jaw just dropped – how could these intricate features have avoided decay and still be here to see half a billion years later?”
Scientists said this ancient larva is helping shed light on the evolutionary steps that simple worm-like creatures would have gone through to transform into arthropods with complex body structures we see today such as butterflies, beetles and centipedes.
While analysing the brain region of the larva, the researchers found a primitive structure known as protocerebrum – a precursor to the more sophisticated arthropod brain.
The level of complexity of anatomy shows these early arthropod-relatives were much more advanced than previously thought, the researchers said.
Dr Katherine Dobson, of the University of Strathclyde, said: “It’s always interesting to see what’s inside a sample using 3D imaging, but in this incredible tiny larva, natural fossilisation has achieved almost perfect preservation.”
The research is published in the journal Nature.
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About the author
Rob is a digital reporter who covers a wide range of topics.
He joined the Oxford Mail in February 2023 having previously been at sister paper The Bucks Free Press for two years.
Rob completed a Sports Journalism degree before earning his NCTJ Diploma at Darlington College and can be found on X at @RobertFolker.
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