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We evolved 3 times faster post dino extinction

A man walks past a sign showing the evolution of man in a business district in downtown Tokyo November 17, 2008. Japan slid into its first recession in seven years in the third quarter as exports crumbled, and some analysts said an escalation in the global financial crisis may have put the economy on course for its longest ever contraction. REUTERS/Michael Caronna (JAPAN)
A man walks past a sign showing the evolution of man in a business district in downtown Tokyo November 17, 2008. Japan slid into its first recession in seven years in the third quarter as exports crumbled, and some analysts said an escalation in the global financial crisis may have put the economy on course for its longest ever contraction. REUTERS/Michael Caronna (JAPAN)

Washington: According to a new study, our ancestors evolved three times faster in the 10 million years after the extinction of the dinosaurs than in the previous 80 million years.

The UCL researchers found the speed of evolution of placental mammals, a group that today includes nearly 5000 species including humans, was constant before the extinction event but exploded after, resulting in the varied groups of mammals we see today.

Lead researcher Dr Thomas Halliday said, “Our ancestors, the early placental mammals, benefitted from the extinction of non-avian dinosaurs and dwindling numbers of competing groups of mammals. Once the pressure was off, placental mammals suddenly evolved rapidly into new forms.”

He added, “In particular, we found a group called Laurasiatheria quickly increased their body size and ecological diversity, setting them on a path that would result in a modern group containing mammals as diverse as bats, cats, rhinos, whales, cows, pangolins, shrews and hedgehogs.”

The team found that the last common ancestor for all placental mammals lived in the late Cretaceous period, about three million years before the non-avian dinosaurs became extinct 66 million years ago. This date is 20 million years younger than suggestions from previous studies which used molecular data from living mammals and assumed a near-constant rate of evolution.

In this study, the researchers analysed fossils from the Cretaceous to the present day, and used the dates of their occurrence in the fossil record to estimate the timing of divergences based on an updated tree of life. The new tree was released by the same team in 2015 and has the largest representation of Paleocene mammals to date.

The scientists measured all the small changes in the bones and teeth of 904 placental fossils and mapped the anatomical differences between species on the tree of life. From measuring the number of character changes over time for each branch, they found the average rate of evolution for early placental mammals both before and after the dinosaur extinction event. They compared the average rate of evolution over the geological stages before the extinction and the geological stages after to see what impact it had.

Co-author Paul Upchurch added: “Our large and refined data set allows us to build a clearer picture of evolutionary history. We plan on using it to study other large-scale evolutionary patterns such as how early placental mammals dispersed across the continents via land bridges that no longer exist today.”

The study is published in Proceedings B of the Royal Society. (ANI)

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