NBC News -- A stunningly preserved, soft-bodied fish that is more than 500 million years old could be the ancestor of almost all living vertebrates.
The fossilized fish, called Metaspriggina, sports characteristic gill structures that later evolved into jawbones in jawed vertebrates, according to a new study.
"For the first time, we are able to say this is really close to this hypothetical ancestor that was drawn based on a study of modern organisms in the 19th century," said study co-author Jean-Bernard Caron, a paleontologist at the
The primeval creature lived during a period from 543 million to 493 million years ago known as the Cambrian Explosion, the evolutionary "big bang" when almost all complex life appeared.
A tiny fossil fish may be close to the ancestor of all jawed vertebrates.
Jawed vertebrates — such as fish, birds and humans — make up about 99 percent of the vertebrates on Earth, but scientists don't agree on how and when jaws first evolved. Scientists think that the common ancestor of jawed vertebrates was similar to eyeless, boneless, jawless fishes such as hagfish and lampreys, which diverged from their immediate ancestors about 360 million years ago and haven't changed much since.
But that wasn't always the dominant theory. In the 1870s, naturalist Karl Gegenbaur noted that living fish such as sharks have five or six pairs of bars that support the gills, and that these so-called gill bars bear a striking resemblance to jawbones. Based on that similarity, he proposed a theory, called the serial homology hypothesis, that jawbones in modern fish gradually evolved from an earlier pair of gill bars in some long-lost "father fish," from which all jawed vertebrates would have evolved.
Yet nobody had ever found evidence of this ancestral fish, and eventually, the hypothesis fell out of favor.
Then, in 2012, Caron and his colleagues uncovered dozens of fossilized fish, many of which were exquisitely preserved, in
It turned out that the creature was very similar to a poorly known specimen called Metaspriggina walcotti that was found in sediments in the Burgess Shale nearby in
The primeval creature was the size of a man's thumb, with a flattened head and single-lens, or so-called camera eyes, at the top of its head that could peer forward or up, Caron said.
"The direction of the eyes would have allowed them to see what was happening above them, which means they were probably living at the bottom," and may have even been able to evade the large predators of the day, such as the bizarre shrimplike sea monster anomalocaridid, Caron told Live Science.
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