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Fosil Cina menunjukkan burung, pohon keluarga buaya
dibagi lebih awal dari yang diduga
China fossil shows bird, crocodile family trees split earlier than
thought
Date:
May 19, 2011
Source:
University of Washington
Summary:
A fossil of a creature that died about 247 million
years ago, originally thought to be a distant relative of both birds and
crocodiles, actually came from the crocodile family tree after it had split
from the bird family.
..........................
A fossil unearthed in China in the 1970s of a creature that
died about 247 million years ago, originally thought to be a distant relative
of both birds and crocodiles, turns out to have come from the crocodile family
tree after it had already split from the bird family tree, according to
research led by a University of Washington paleontologist.
The only
known specimen of Xilousuchus sapingensis has been reexamined and is now
classified as an archosaur. Archosaurs, characterized by skulls with long,
narrow snouts and teeth set in sockets, include dinosaurs as well as crocodiles
and birds.
The new
examination dates the X. sapingensis specimen to the early Triassic
period, 247 million to 252 million years ago, said Sterling Nesbitt, a UW
postdoctoral researcher in biology. That means the creature lived just a short
geological time after the largest mass extinction in Earth's history, 252
million years ago at the end of the Permian period, when as much as 95 percent
of marine life and 70 percent of land creatures perished. The evidence, he
said, places X. sapingensis on the crocodile side of the archosaur
family tree.
"We're
marching closer and closer to the Permian-Triassic boundary with the origin of
archosaurs," Nesbitt said. "And today the archosaurs are still the
dominant land vertebrate, when you look at the diversity of birds."
The work
could sharpen debate among paleontologists about whether archosaurs existed
before the Permian period and survived the extinction event, or if only
archosaur precursors were on the scene before the end of the Permian.
"Archosaurs
might have survived the extinction or they might have been a product of the
recovery from the extinction," Nesbitt said.
The research
is published May 17 online in Earth and Environmental Science Transactions of
the Royal Society of Edinburgh, a journal of Cambridge University in the United
Kingdom.
Co-authors
are Jun Liu of the American Museum of Natural History in New York and Chun Li
of the Institute of Vertebrate Paleontology and Paleoanthropology in Beijing,
China. Nesbitt did most of his work on the project while a postdoctoral
researcher at the University of Texas at Austin.
The X.
sapingensis specimen -- a skull and 10 vertebrae -- was found in the
Heshanggou Formation in northern China, an area with deposits that date from
the early and mid-Triassic period, from 252 million to 230 million years ago,
and further back, before the mass extinction.
The fossil
was originally classified as an archosauriform, a "cousin" of
archosaurs, rather than a true archosaur, but that was before the discovery of
more complete early archosaur specimens from other parts of the Triassic
period. The researchers examined bones from the specimen in detail, comparing
them to those from the closest relatives of archosaurs, and discovered that X.
sapingensis differed from virtually every archosauriform.
Among their
findings was that bones at the tip of the jaw that bear the teeth likely were
not downturned as much as originally thought when the specimen was first
described in the 1980s. They also found that neural spines of the neck formed
the forward part of a sail similar to that found on another ancient archosaur
called Arizonasaurus, a very close relative of Xilousuchus found in Arizona.
The family
trees of birds and crocodiles meet somewhere in the early Triassic and
archosauriforms are the closest cousin to those archosaurs, Nesbitt said. But
the new research places X. sapingensis firmly within the archosaur
family tree, providing evidence that the early members of the crocodile and
bird family trees evolved earlier than previously thought.
"This
animal is closer to a crocodile, but it's not a crocodile. If you saw it today
you wouldn't think it was a crocodile, especially not with a sail on its
back," he said.
The research
was funded by the National Science Foundation, the Society of Vertebrate
Paleontology, the American Museum of Natural History and the Chinese Academy of
Sciences.
Story
Source:
The above
story is based on materials provided by University of Washington. The original article was written
by Vince Stricherz. Note: Materials may be edited for content and length.
