February 25, 2017 2:11:53 pm
Scientists studying the ‘living fossil’ Sphenodon have identified a new way to measure the evolutionary rate of these enigmatic creatures, giving credence to Darwin’s theory of ‘living fossils’. The Sphenodon or tuatara is a relatively large lizard-like animal that once lived on the main islands of New Zealand but has been pushed to smaller, offshore islands by human activity. Tuataras are not lizards, although they share a common ancestor from about 240 million years ago, and have survived as an independent evolutionary line for all that time.
Researchers at University of Bristol in the UK measured jaw bones from all fossil relatives of the living tuatara, and compared these as evidence of dietary adaptation. They also examined rates of morphological evolution in the living tuatara and its extinct fossil relatives. The study confirms two key points: the tuatara has shown very slow evolution, as expected, and importantly, its anatomy is very conservative, researchers said.
“The fossil relatives of the tuatara included plant eaters and even aquatic forms, and were much more diverse than today. We found the living tuatara shares most in common with its oldest relatives from the Triassic,” said Jorge Herrera-Flores, PhD student at Bristol. When Charles Darwin invented the term ‘living fossils’ in 1859, he was thinking of living species that look just like their ancestors of millions of years ago.
His explanation was they occupied small parts of the world, escaping competition, and therefore did not change. “Darwin’s was not a testable definition. By using modern numerical methods we have now shown that living fossils should show unusually slow rates of evolution compared to relatives,” said researcher Tom Stubbs from Bristol.
“Many biologists do not like the term ‘living fossil’ because they say it is too vague. However, we have presented a clear, computational way to measure evolutionary rate. More importantly, we discovered a second fact about the living tuatara: its adaptations are central among all its fossil relatives,” said Mike Benton, Professor at Bristol.
“We can truly say that, numerically, the tuatara is conservative and just like its relatives from over 200 million years ago,” said Benton. “We are with Darwin – we now have a numerical test of what is, and what is not, a living fossil. Importantly, these tests can be applied to other classic examples,” Benton added.
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