Placental mammal diversity came after dinosaurs Image 2
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Placental mammal diversity came after dinosaurs (Image 2)

February 20, 2014
An artist's rendering of a hypothetical placental ancestor, a small insect-eating animal. A team of scientists reconstructed the anatomy of the animal by mapping traits onto the evolutionary tree most strongly supported by the combined phenomic and genomic data and comparing the features in placental mammals with those seen in their closest relatives. In 1994, the fossil bones of Ukhaatherium nessovi, a shrew-sized, Cretaceous-age animal, were uncovered in the Gobi Desert by the Mongolian Academy and the American Museum of Natural History. The remarkably well-preserved skeleton of this small creature showed the presence of epipubic bones, attached to both sides of the pubis. In living mammals, these bones occur only in marsupials (mammals like kangaroos that often develop their young in pouches) and monotremes (mammals like platypuses, which lay eggs), but their presence in U. nessovi showed that a close relative of recent placental mammals that lived many millions of years ago also had these bones. In published research results, the scientists revealed that, contrary to a commonly held theory, placental mammals did not diversify into their present-day lineages until after the extinction event that eliminated non-avian dinosaurs and about 70 percent of all species on Earth, some 65 million years ago. "Molecular clock estimates and the fossil record do not agree on the time of origin and diversification of many modern and extinct biotic groups," said H. Richard Lane, a program director in the National Science Foundation's (NSF) Division of Earth Sciences, which co-funded the research with NSF's Division of Environmental Biology. "Data from the NSF-supported Assembling the Tree of Life initiative have been the key to these conclusions." (Date of Image: 2012) Credit: Carl Buell

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