A new genetic analysis of the glyptodont, an ancient armored creature the size of a Volkswagen Beetle, reveals that it’s closely related to the modern-day armadillo.
Glyptodonts roamed the Earth for millions of years until they went extinct during the last ice age, about 10,000 years ago. The animal’s clublike armored tail, enormous size and remarkable bony shell have captivated many since Charles Darwin collected the first known specimens in the early 1830s. Though the glyptodont looked like a giant armadillo, scientists weren’t sure how it fit into the armadillo family tree until now, the researchers said.
“The data sheds light on the familial relations of an enigmatic creature that has fascinated many but was always shrouded in mystery,” study researcher Hendrik Poinar, an evolutionary geneticist and physical anthropologist, said in a statement. “Was the glyptodont a gigantic armadillo or weird offshoot with a fused bony exoskeleton?”
Glyptodonts are part of the mammal group Xenarthra, which includes anteaters, tree sloths, extinct ground sloths, extinct pampatheres (a small armadillolike creature) and armadillos, but its relationship to these animals had eluded scientists.
Now, a genetic analysis shows that the glyptodont is nestled deeply within the armadillo family and should be treated like a close relative, the researchers said.
“Glyptodonts, in fact, represent an extinct lineage that likely originated about 35 million years ago within the armadillo ,” said Poinar, who is director of the McMaster Ancient DNA Center at McMaster University in Canada.
Poinar worked with an international team of scientists to collect glyptodont specimens; they used ancient DNA-extraction techniques on one specimen — an approximately 12,000-year-old bony shell of a Doedicurus, one of the largest glyptodonts on record.
An analysis of the specimen, found in Argentina, allowed them to extract and sequence the mitochondrial DNA (genetic data passed down through the maternal line). Then, they compared it with the mitochondrial DNA of other living mammals in the Xenarthra group.
“Ancient DNA has the potential to solve a number of questions such as phylogenetic position — or the evolutionary relationship — of extinct mammals, but it is often extremely difficult to obtain usable DNA from fossil specimens,” Poinar said. “In this particular case, we used a technical trick to fish out DNA fragments and reconstruct the mitochondrial genome.”
Read more at Discovery News
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