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London Daily Mail reporter Mark Duell has written about the big prehistoric crocodile identified by SMU paleontologist Thomas L. Adams, a doctoral candidate in Dedman College’s Roy M. Huffington Department of Earth Sciences.
Making its first appearance in Texas, the genus known as Terminonaris was thought to have originated in Europe, but Adams’ research indicates it now appears to have been a native of the Lone Star State.
The switch in origins for Terminonaris is based on the identification of a well-preserved, narrow fossil snout that was discovered along the shoreline of Lake Lewisville near Dallas.
The 96-million-year-old fossil from Texas is the oldest prehistoric crocodile of its kind in the world, says Adams. A distant cousin of modern crocodiles and alligators, Terminonaris was similar to the modern-day Indian gharial, only much larger.
Mark Duell
London Daily Mail
He measured 25ft, weighed more than a ton and lived almost 100 million years ago.
A palaeontologist has identified the oldest prehistoric crocodile of its kind in the world after the fossil of a Terminonaris was found at Lake Lewisville near Dallas, Texas.
The realisation by Thomas L. Adams has also changed what we know about the species originally thought to have originated in Europe, because it now appears it was a native of Texas.
Mr Adams, of Southern Methodist University in Dallas, identified the reptile from its long snout which is more than 2ft long and 7in wide, reported Physorg.com.
It was discovered by Dallas amateur fossil enthusiast Brian Condon, who found the heavy pieces of the snout and a vertebrate in 2005 while fossil hunting, and donated them to the university.
Mr Condon had originally thought the pieces were petrified wood.
‘This piece looked like a loaf of bread from Subway,’ he said. ‘It was all wrinkled. Then I picked it up and turned it over and saw it had big round conical teeth. I thought: “This is amazing. It’s a jaw.'”
The discovery of the 96-million-year-old reptile’s fossil suggested that its head would have been about one metre long, Mr Adams said.
The Terminonaris is a cousin of the modern-day Indian gharial but was much larger — and it is a distant cousin of modern-day crocodiles and alligators, reported Southern Methodist University.
Mr Adams revealed the find ‘changes a lot about what we thought we knew about this group.’
‘Now we know the group had a wider distribution range, and that it’s much older,’ he said. ‘It represents a unique find for Texas. This is the first occurrence of Terminonaris in Texas.
‘It’s also the oldest occurrence of Terminonaris in the world and it’s also the southernmost occurrence of Terminonaris anywhere.’
Rare find alters origins and distribution of Terminonaris; first home was Texas and North America — not Europe
http://www.youtube.com/watch?v=oHS6vE4o3XY
Making its first appearance in Texas, a prehistoric crocodile thought to have originated in Europe now appears to have been a native of the Lone Star State.
The switch in origins for the genus known as Terminonaris is based on the identification of a well-preserved, narrow fossil snout that was discovered along the shoreline of a lake near Dallas.
The 96-million-year-old fossil from Texas is the oldest prehistoric crocodile of its kind in the world, according to paleontologist Thomas L. Adams at Southern Methodist University, Dallas, who identified the reptile.
A distant cousin of modern crocodiles and alligators, Terminonaris was similar to the modern-day Indian gharial, only much larger.
“With the recognition of Terminonaris here in Texas, this actually changes a lot about what we thought we knew about this group,” Adams said.
“Now we know the group had a wider distribution range, and that it’s much older. It represents a unique find for Texas. This is the first occurrence of Terminonaris in Texas. It’s also the oldest occurrence of Terminonaris in the world, and it’s also the southernmost occurrence of Terminonaris anywhere.”
There are six other known Terminonaris fossil specimens: five from North America and one from Europe. The European specimen, from Germany, previously was thought to be the oldest. Scientists had concluded that Terminonaris originated in Europe and then traversed the Atlantic and dispersed throughout North America.
Big Texas crocodile swam the shores of North America’s prehistoric seaway Adams identified the reptile primarily from its long snout, which measures more than 2 feet long and 7 inches wide, or 62 centimeters. With a snout that long, Adams estimates the head would have been about one meter long.
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“Based on Nile crocodiles and the Indian gharial, which are both large crocodiles, a regression analysis indicates this Terminonaris probably would have been 23 to 25 feet long,” said Adams. “The largest living crocodile today is the saltwater crocodile, which can reach up to 20 feet in length.”
The Texas Terminonaris was an adult and most likely weighed more than a ton, he said.
Adams identified the fossils in “First Occurrence of the Long-Snouted Crocodyliform Terminonaris (Pholidosauridae) from the Woodbine Formation (Cenomanian) of Texas” in the Journal of Vertebrate Paleontology.
Prehistoric crocodiles such as Terminonaris together with living crocodiles make up a large group called crocodyliformes. While technically there are differences between living crocodiles and each of the different types of fossil crocodile forms, all of them are often commonly referred to as crocodiles.
Today there are only 23 species of living crocodiles, a small number compared to the many species of mammals, birds, lizards, snakes and fish alive today, Adams said. That’s in stark contrast to prehistoric times.
“In the past, the crocodilian forms were very diverse and they were very successful. There were hundreds of species. Even at the time of the Texas Terminonaris, they were found everywhere,” Adams said.
Texas specimen fills gap, expands age and range of group Texas Terminonaris was discovered by Dallas-area amateur fossil enthusiast Brian Condon, a rural mail carrier. Condon discovered the heavy pieces of the snout and a vertebrate in 2005 while fossil hunting near his home on Lake Lewisville, a 26,000-acre recreational and fishing lake managed by the U.S. Army Corps of Engineers. He spotted the first of the pieces along the shoreline. Condon donated the fossils to SMU’s Shuler Museum of Paleontology.
In prehistoric times, Texas Terminonaris would have made its home in a marine setting, along the eastern shore of North America’s vast prehistoric Western Interior Seaway. One hundred million years ago the seaway was a wide, shallow sea that split the North American continent in half from the Arctic to the Gulf of Mexico, said Adams, lead author on the scientific article. The seaway would have covered Lake Lewisville’s location.
In its day-to-day life on the seaway, Terminonaris would have kept close to shore, perhaps in a shallow lagoon or estuary, also venturing into the seaway’s warm salty water to hunt for fish. Like modern crocodiles and alligators, Terminonaris would have eaten whatever it could catch, Adams said. Its long, slender snout was well-suited for devouring fish, small mammals and even small dinosaurs.
North America’s other Terminonaris fossil specimens also were found along the seaway. A Kansas specimen is the youngest, about 91 million years, while those from Saskatchewan, Canada, and Montana are 93 million years old. The German specimen is 94 million years old.
“Terminonaris now here in Texas fills in a gap that we didn’t have information for,” Adams said. “It tells us that as a group, as a genus, they were around much longer, because we extend the age back to 96 million years. The range for them is now expanded, because this is the most southern occurrence of them.”
Well-preserved fossil offers no clues to adult reptile’s cause of death While the Texas fossil is well-preserved, how the reptile died remains a mystery since only the snout was found.
It probably died in the water or washed out into the open sea, where it floated to the bottom and was buried very quickly, said Adams. The discovery of seven Terminonaris fossil specimens worldwide is significant, he said.
“To be fossilized, it requires they die at the right time in the right place, be buried very quickly, then eventually be exposed and uncovered,” he said. “So the odds of being fossilized and being found as a fossil are very slim.”
Condon found one piece at the water’s edge of Lake Lewisville. The other pieces were further up a bank that sloped toward the shore, Condon said. The pieces had been deposited on the ground by receding water, pulled from the Woodbine Formation by constant waves that had washed away a soil bank and uncovered the heavy fossils. The outcrop of the Woodbine Formation visible at Lake Lewisville starts at the Red River in North Texas and thins as it nears Dallas.
Condon, who had previously found other fossils in the area, initially thought the pieces were petrified wood.
“This piece looked like a loaf of bread from Subway. It was all wrinkled,” Condon said. “Then I picked it up and turned it over and saw it had teeth — big, round conical teeth — and I thought, ‘This is amazing. It’s a jaw.'”
The research was funded by Southern Methodist University???s Institute for the Study of Earth & Man. — Margaret Allen
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WFAA-TV reporter Jonathan Betz has covered the flying reptile research of SMU paleontologist Timothy S. Myers and the rare discovery of the bones by amateur fossil hunter Gary Byrd. The story, North Texan finds dinosaurs in our backyards, aired March 17.
Myers identified fossilized bones discovered in Texas from a flying reptile that died 89 million years ago. The bones may be the world’s earliest occurrence of the prehistoric creature known as Pteranodon, Myers says.
Pteranodon was a type of pterosaur that lived about the same time as some dinosaurs, about 100 million to 65 million years ago. The only reptiles to dominate the ancient skies, pterosaurs had broad leathery wings and slim torsos.
The specimen identified by Myers had a wing span between 12 and 13 feet, or 3.6 to 4 meters. It was discovered in a rock unit that dates to early in the Late Cretaceous.
By Jonathan Betz WFAA Look up and you’ll see Gary Byrd on a roof. That’s where his work is.
But it’s what’s underground that fascinates him.
Every free moment, the contractor roams North Texas digging in the dirt.
“When I was a kid, we’d run up and down creeks and look for stuff, and wonder what it was,” he said. “I just kept doing it, kept finding more interesting things.”
For most of his life, the 55-year-old has scoured construction sites and creek beds for dinosaur bones.
Often, he finds just dirt and rocks. But on occasion, Byrd has unearthed some truly extraordinary finds.
His treasures are enough to fill cabinets at Southern Methodist University.
“This specimen is 89 million years old,” he boasted, displaying the rare remains of a pterosaur, an ancient flying reptile that until now, had not been thought to live in Texas. Byrd plucked the fossilized bones out of a half-built Plano subdivision.
“Finding a fossil of this magnitude is a once-in-a-lifetime kind of find,” said SMU researcher Timothy Myers. “A lot of paleontologists would probably go their entire careers without finding something this significant.”
And that’s not all. Byrd has even discovered a new dinosaur species, a large duck-billed herbivore called Protohadros byrdi — yes, named after Bird himself, who found the remains near a highway.
Science journalist Tim Wall has covered the flying reptile research of SMU’s Timothy S. Myers on his popular Discovery News Online blog. Wall’s March 2 entry aptly warns “Don’t mess with Texas Pterosaurs!”
Myers identified fossilized bones discovered in Texas from a flying reptile that died 89 million years ago. The bones may be the world’s earliest occurrence of the prehistoric creature known as Pteranodon, Myers says.
Pteranodon was a type of pterosaur that lived about the same time as some dinosaurs, about 100 million to 65 million years ago. The only reptiles to dominate the ancient skies, pterosaurs had broad leathery wings and slim torsos.
The specimen identified by Myers had a wing span between 12 and 13 feet, or 3.6 to 4 meters. It was discovered in a rock unit that dates to early in the Late Cretaceous.
By Tim Wall
Discovery News Online
Don’t mess with Texas Pterosaurs! They are the oldest yet found in North America. One recently found specimen may even be the oldest Pteranodon in the world.
The mystery flying reptile a type of pterosaur, took a final plunge 89 million years ago into the waters of the inland sea that once covered the central United States. It sank to the bottom, fossilized, and lay there until amateur fossil hunter Gary Byrd found the ancient aviator’s bones. They were uncovered during the excavation of a culvert in a new subdivision north of Dallas.
Pterosaur Windsurfed Across Surface of Prehistoric Seas
“I found a couple parts of a fish, and then when I saw these my initial thought was that they weren’t fish,” Byrd, a roofing contractor by day, said in a Southern Methodist University press release. “I kind of knew it was something different — a birdlike thing. It’s very rare you find those thin, long bones.”
Byrd already has a species of duckbill dinosaur, Protohadros byrdi, named after him in 1994. He donated the fossils to Southern Methodist University’s Shuler Museum of Paleontology.
At the museum, Timothy Myers identified the bones as belonging to the left wing of a pterosaur, most likely a Pteranodon.
New Dino-Eating Pterosaur Evolved in Unusual Way
“If it wasn’t crushed so badly, it would be possible to determine if it really is Pteranodon,” Myers said in a SMU press release. “These bones are easily flattened. They are hollow inside, because they have to be lightweight to allow a pterosaur to fly. So they compress like a pancake as they’re embedded in layers of rock.”
Unique specimen is first of its kind discovered as far south as Texas, where it flew over a vast ancient sea
Fossilized bones discovered in Texas from a flying reptile that died 89 million years ago may be the earliest occurrence of the prehistoric creature known as Pteranodon.
Previously, Pteranodon bones have been found in Kansas, South Dakota and Wyoming in the Niobrara and Pierre geological formations. This likely Pteranodon specimen is the first of its kind found in Texas, according to paleontologist Timothy S. Myers at Southern Methodist University in Dallas, who identified the reptile. The specimen was discovered north of Dallas by an amateur fossil hunter who found various bones belonging to the left wing.
Pteranodon was a type of pterosaur that lived about the same time as some dinosaurs, about 100 million to 65 million years ago. The only reptiles to dominate the ancient skies, pterosaurs had broad leathery wings and slim torsos.
Adult pterosaur, toothless variety with about a 12-foot wing span
The specimen identified by Myers is an adult pterosaur of the toothless variety and while larger than most birds, wasn’t among the largest pterosaurs, Myers said, noting it had a wing span between 12 and 13 feet, or 3.6 to 4 meters. It was discovered in the Austin Group, a prominent rock unit in Texas that was deposited around 89 million years ago, early in the geological time period called the Late Cretaceous.
Pterosaurs, many of which survived on fish, lived at a time when a massive ancient sea cut across the central United States. The Western Interior Seaway was a shallow body of water that split North America in half from the Arctic Ocean to the Gulf of Mexico.
More than a thousand Pteranodon fossils have been unearthed from the middle part of the seaway.
No definitive Pteranodon specimens have emerged from the southern part that is now Texas.
The SMU specimen, if it is Pteranodon, would be the first discovered so far south in the Western Interior Seaway, said Myers, a postdoctoral researcher in SMU’s Huffington Department of Earth Sciences.
Left wing suggests Pteranodon; cause of death a mystery
Key to identifying the SMU fossils as Pteranodon is a humerus of 5.7 inches, or 14.5 centimeters. The humerus is the uppermost bone in the wing and attaches to the torso. The humerus of the SMU specimen, while complete, did suffer some damage during fossilization when it became compressed and distorted through millions of years of compaction.
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“If it wasn’t crushed so badly, it would be possible to determine if it really is Pteranodon,” Myers said. “These bones are easily flattened. They are hollow inside, because they have to be lightweight to allow a pterosaur to fly. So they compress like a pancake as they’re embedded in layers of rock.”
While it’s difficult to narrow the humerus definitively to a specific genus and species, some features clearly identify the specimen as part of the Pteranodontidae family, most likely the genus Pteranodon. It exhibits, for example, the prominent warped deltopectoral crest that is characteristic of members of the Pteranodontidae family, called pteranodontids, he said.
Discovered along with the humerus were parts of the elongated fourth finger that in pterosaurs forms the wing. The SMU specimen’s metacarpal — at 20 centimeters — is incomplete, missing an estimated 37 percent of its length.
The fossils do not solve the mystery of the reptile’s cause of death, Myers said. But it appears the animal probably died in flight over the sea and then fell into the water. Its carcass probably floated for some time, so that when the flesh decomposed the bones separated at the joints, known as “disarticulation,” before they settled to the sea floor and were buried.
“We know it was disarticulated when it was buried because the bones weren’t preserved in correct anatomical position,” Myers said. “Abrupt truncation of the broken end of one of the bones and infilling of the break with sediment also indicates that the breakage and disarticulation took place prior to burial.”
May be oldest Pteranodon in world
If the specimen represents Pteranodon, Myers said, it would be the oldest one in North America by 1 million to 2 million years, and the second oldest pteranodontid in the world.
Pterosaurs were alive from the Late Triassic — more than 200 million years ago — to the Late Cretaceous, evolving from small-bodied creatures to some of the largest animals to ever inhabit the skies, Myers said. An older pteranodontid specimen, belonging to the genus Ornithostoma, previously was identified in England.
“Any pterosaur material is fairly rare to find unless you have exceptional preservation conditions. They are frail, fragile bones, and they require rapid burial to be well preserved,” Myers said. “The SMU specimen was deposited relatively far offshore in deep water, perhaps 50 to 80 feet deep. It’s fairly exceptional because of the number of elements. Typically you’ll only find one piece, or one part of a piece in the local rock.”
During the Early Cretaceous, many types of pterosaurs lived around the world, Myers said. The earliest ones had thin, razor-sharp teeth. In the transition from Early to Late Cretaceous, the toothed variety disappear from the fossil record and toothless forms, like the SMU specimen, become more common, he said.
Dallas area specimens illustrate pterosaur evolution
North Texas is fortunate to have had both the toothed and toothless kinds discovered in the area, illustrating the evolutionary transition, noted Myers.
Besides the toothless specimen just identified by Myers, an older toothed pterosaur, Aetodactylus halli, previously was discovered in the Dallas area. Aetodactylus, also identified by Myers, lived 95 million years ago.
“This new specimen adds a lot more information about pterosaurs in North America,” Myers said. “It helps constrain the timing of the transition from toothed to toothless because there’s only a few million years separating this specimen and Aetodactylus.”
Amateur fossil collector Gary Byrd of Rockwall, Texas, discovered the new SMU pterosaur fossils about 10 years ago.
A roofing contractor who keeps an eye out for fossils, Byrd made the find after stopping to look at two freshly excavated culverts while driving through a new subdivision in Collin County. Using a hammer and pick he dug out the bones and brought them to SMU paleontologists Louis Jacobs and Dale Winkler. Jacobs and Winkler indicated the fossils were likely a pterosaur. Byrd donated the fossils to SMU’s Shuler Museum of Paleontology.
“I found a couple parts of a fish, and then when I saw these my initial thought was that they weren’t fish,” Byrd recalled. “I kind of knew it was something different — a birdlike thing. It’s very rare you find those thin, long bones.”
This isn’t the first time Byrd has hit it lucky finding fossils. In 1994 he discovered dinosaur bones that he donated to SMU’s Shuler Museum. The specimen was identified as a rare primitive duck-billed dinosaur and named Protohadros byrdi after Byrd. — Margaret Allen
