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SMU’s Polcyn, Jacobs in Discovery Channel’s “Prehistoric Dallas”

Dallas — and much of Texas — was once submerged by a sprawling, blue-water ecosystem called the Western Interior Seaway, which split North America in two from the Gulf of Mexico to the Arctic Ocean, according to a new video documentary by the Discovery Channel.

Prehistoric Dallas” includes commentary from two SMU paleontologists, Michael J. Polcyn and Louis L. Jacobs, both of whom have expertise in Texas’ ancient sea and the life that inhabited it from more than 90 million years ago until the extinction of the dinosaurs at 66 million years ago.

video.jpg Watch “Prehistoric Dallas”

From Dallasaurus to Mosasaur
That animal life included the three-foot-long Dallasaurus, which represents an intermediate stage between land-dwelling lizards, similar to the modern day Komodo dragon, and fully marine-adapted Mosasaurs equipped with fin-like limbs and a fish-like tail.

Starting at about 100 million years ago, these small lizards took to the water, but quickly evolved into the huge marine creatures that grew to 50 feet in length by the end of the Cretaceous.

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Michael Polcyn

“(Dallasaurus) probably retained a swimming behavior very similar to what you see in modern lizards,” says Polcyn, whose appearance starts 38 seconds into the “Ocean Pioneer” segment.

The ancient sea covering Texas was clean, deep water, says SMU vertebrate paleontologist Jacobs at the start of the “Texas Submerged” segment. Evidence of that sea exists today in the 86-million-year-old fossils in the geological layer known as the Austin Chalk.

The layer is formed by plankton, Jacobs explains, which are minute organisms that live on the surface of the ocean, then die and filter down to the bottom.

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Louis Jacobs

“There was no mud and silt here, washed in from the land,” Jacobs says. “This represents the bottom of the sea, when the sea was at its deepest in this area.”

Polcyn and Jacobs are in the Roy M. Huffington Department of Earth Sciences, Dedman College.

Internationally recognized for his fossil discoveries, Jacobs joined SMU’s faculty in 1983. Currently he has projects in Mongolia, Angola and Antarctica. His book, “Lone Star Dinosaurs” (1999, Texas A&M University Press) was the basis of an exhibit at the Fort Worth Museum of Science and History that traveled the state.

Jacobs consulted on the new exhibit “Mysteries of the Texas Dinosaurs” at the Fort Worth Museum of Science and History. It includes the world’s first skeletal mount of the Texas state dinosaur Paluxysaurus jonesi. Jacobs narrates the video portion of the exhibit, which also includes SMU students Yuri Kimura, Dan Danehy and Kyle Paterson.

Polcyn, director of the Visualization Laboratory in the SMU Huffington Department of Earth Sciences, is an SMU adjunct research associate.

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Mosasaur skeleton

Polcyn is a world-recognized expert on the extinct marine reptiles called Mosasaurs.

Polcyn’s research also includes application of technology to problems in paleontology.

He recently created computer models to produce life-sized physical models of some of the Paluxysaurus jonesi bones for “Mysteries of the Texas Dinosaurs” at the Fort Worth Museum of Science and History.

Related links:
Louis L. Jacobs
Michael J. Polcyn
Agence France Presse: “Angola: Final frontier for fossils”
New Scientist: “Real sea monsters; The hunt for Predator X”
video.jpg Discovery Channel: “Mega Beasts: T-Rex of the Deep”
SMU News: Dallasaurus, ancient mosasaur
Roy M. Huffington Department of Earth Sciences
Dedman College

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World’s first full skeletal mount of Paluxysaurus jonesi dinosaur reveals new biology

The Early Cretaceous sauropod Paluxysaurus jonesi weighed 20 tons, was 60 feet long and had a neck 26 feet long, according to the scientists who have prepared the world’s first full skeletal mount of the dinosaur.

The massive Paluxysaurus jonesi, prepared for the Fort Worth Museum of Science and History in Fort Worth, was unveiled Nov. 20 when the museum opened in a new $80 million facility. The Paluxysaurus mount enables Texans to see their state dinosaur in three dimensions for the first time.

The reconstructed skeleton is yielding clues to the biology of the animal and its relationship to other similar dinosaurs, says Dale Winkler, lead consultant for anatomy and posture on the skeletal mount.

Winkler is director of the Shuler Museum of Paleontology at SMU and a research professor in the Roy M. Huffington Department of Earth Sciences. Winkler has worked with Paluxysaurus bones since crews from SMU and the Fort Worth museum began to unearth them in the early 1990s.

In preparing the mount, Winkler said he was surprised at how extremely long the neck was — at 26 feet — compared to the tail, and he found the head especially striking.

“It was really exciting to see what the head looked like,” Winkler says. “Paluxysaurus had very high cheeks compared to its relatives. Once the bones defining the opening of the nose were connected, it showed that the nostrils were turned up on top of the snout, instead of out like Brachiosaurus.”

Skeletal mount reveals animal’s anatomy, size and stature
A relative of Brachiosaurus and Camarasaurus, Paluxysaurus lived about 110 million to 115 million years ago. The dinosaur was identified and named in 2007 by Peter J. Rose. The Fort Worth skeleton was assembled from a combination of actual fossil bones from at least four different dinosaurs found on private ranch land in North Central Texas and from cast lightweight foam pieces modeled on original bones. The mount enables scientists to better understand the animal’s anatomy, size and stature on questions like “How were the legs situated, and how did the shoulders relate to the hips?”

From the skeletal mount, the scientists learned that Paluxysaurus was more than 6 feet wide and nearly 12 feet tall at the shoulder, although built fairly light, Winkler says. Its teeth are a lot slimmer than those of its closest relatives, indicating Paluxysaurus gathered and processed food differently, using its teeth not for chewing, but to grab food, he says.

Paluxysaurus had a long neck like Brachiosaurus, and a tail almost as long, but wasn’t quite so gigantic. Scientists also learned Paluxysaurus had relatively long front arms, unlike Diplodocus, making its back more level. The dinosaur’s shoulder turned out fairly high, and the hips were wide, Winkler says, and it had reached a more advanced stage of evolution than Late Jurassic sauropods.

Paluxysaurus’ massive pelvis and its sacrum have never before been viewed by the public, he says. Its ilium, the largest bone in the pelvis, is similar to that of titanosaurids of the Late Cretaceous, mainly found in South America. However, one titanosaurid, called Alamosaurus, entered North America and is known from Big Bend National Park in southwest Texas.

The bones assembled for Fort Worth’s Paluxysaurus mount were recovered by students, faculty, staff and hundreds of volunteers over the past 16 years.

DFW’s ancient Cretaceous past included dinosaurs along a shallow sea
Most bones were found in masses of hardened sandstone dug from a Hood County quarry on the private ranch of Bill and Decie Jones.

It took more than a decade to remove the specimens because they were embedded in a hard sandstone matrix, said Louis L. Jacobs, a world-renowned paleontologist, dinosaur fossil hunter and a professor in the Earth Sciences department at SMU. Jacobs helped unearth and prepare the bones.

The end result is a skeleton that is “absolutely awe-inspiring,” Jacobs says. “Paluxysaurus and the plants and animals it lived among show us the truly unique position Texas held in the Cretaceous world. The exhibits at the Fort Worth museum tell that story to the people who now live where the giants used to walk.”

Sauropods weren’t common during the Early Cretaceous. The Fort Worth specimen is morphologically distinct from all other sauropods described and named in North America at that time, according to the research of Rose, who is now a doctoral student at the University of Minnesota. Rose identified the type specimen and named the animal while a graduate student in geology at SMU.

The Paluxysaurus dinosaurs lived near the shore of the rising Cretaceous seas that eventually covered Texas, amid large-trunked conifer trees that are now extinct. The semi-arid environment nurtured relatives of sago palms but few flowering plants, which were just beginning to spread out across the Earth, Winkler says.

The scientists say the Jones Ranch bone bed is one of the richest accumulations of sauropod bones in North America.

A group apparently died together there in a common death, perhaps a forest fire, according to earlier research of Winkler and Rose.

The quarry has produced hundreds of bones, all within an area of 400 square meters. Fossil hunters found 60 to 70 percent of the bones needed to reconstruct a single Paluxysaurus skeleton, says Aaron Pan, curator of the Fort Worth museum. Most of the bones, however, are too fragile or deformed to be mounted 15 feet in the air, Pan says.

“We were happy to have as much of it as we do,” Pan says, noting that the museum welcomes fossil researchers. “Most of our material is available. So if a researcher did want to see any of it, we’d be happy to have them come.”

Huge, multi-year project recreated skeleton with bones and casts
Paleontologists from both the museum and SMU helped exhibit fabricator and model-maker Robert Reid Studios, located near Fort Worth, mount the bones. About 15 percent to 20 percent of the skeleton is actual fossil bone, while the remaining bones are casts, says Pan.

Preparing the fossils for mounting and modeling was a huge, multi-year project. The cast bones were computer modeled using laser scanning, says Michael J. Polcyn, director of the Earth Sciences department’s image analysis lab at SMU.

“I was able to scan available bones in 3D and manipulate them in the computer to remove distortion, create mirrored pieces — for example right or left — and model missing portions,” Polcyn says. “I was then able to use the computer models to produce life-sized physical models of the bones using computer-controlled machining techniques.”

Many of the very large bones remain all or partially embedded in blocks of quarry rock, due primarily to the logistical challenge of removing them. For example, the 11-ton block containing the pelvis and sacrum required hoisting with an industrial crane. For some large blocks, tons of rock were painstakingly cut with diamond-blade saws from around the various bones to make them manageable in the SMU labs, Winkler says.

Rock was partially removed from the pelvis and sacrum so that Polcyn could scan them. The scientists then constructed a model using dense foam that was cut to form the basic shape. Crews from Robert Reid Studios coated them with epoxy resin to give them hardness, then added a layer of bone texture and painted them to match.

In the case of the long neck, much was preserved, but many of the bones were distorted by sediment load, which essentially crushed the bone, Polcyn says. He studied the neck vertebrae and made a model. Only two of the skull bones were recovered: the left maxilla and a nasal bone, which defined the top front of the face. Polcyn worked closely with a sculptor to reconstruct the skull by studying related groups of dinosaurs.

Preparation of the skeletal mount was funded by the Fort Worth Museum of Science and History. — Margaret Allen

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Portable 3D laser technology preserves Texas dinosaur’s rare footprint

Using portable 3D laser technology, scientists have preserved electronically a rare 110 million-year-old fossilized dinosaur footprint that was previously excavated and built into the wall of a bandstand at a Texas courthouse in the 1930s.

The laser image preserves what is called a “type specimen” footprint — an original track used many years ago to describe a new species of dinosaur, says paleontologist Thomas L. Adams at SMU.

Portable 3D laser scanners capture original fossil morphology and texture, making it possible to use the data for rapid 3D prototyping in foam or resin, Adams says.

The footprint embedded in the bandstand has been exposed to the elements for nearly 75 years, causing portions of it to erode, Adams says. Erosional loss has affected the outer edge of the toes and heel, altering the initial shape of the track impression.

The track of the ichnospecies Eubrontes glenrosensis was excavated in 1933 from a main track layer in a riverbed in what is now 1,500-acre Dinosaur Valley State Park in Somervell County near Glen Rose. Not long after the track was excavated, the citizens of Glen Rose built a stone bandstand and embedded the track within one of its walls.

The track was described in 1935 by Ellis W. Shuler, SMU’s first geology professor.

Adams says the footprint is that of a three-toed, bipedal, meat-eating dinosaur, with the most likely candidate being the theropod named Acrocanthosaurus, found mostly in Texas, North Carolina and Oklahoma.

“The track is scientifically very important,” says Adams, who is earning his doctoral degree in paleontology at SMU. “But it’s also a historical and cultural icon for Texas.”

Dinosaur Valley State Park boasts the ancient shoreline of a 113 million-year-old sea and is renowned for some of the best preserved dinosaur footprints in the world. The bandstand track is a popular draw for tourists passing through Glen Rose, which is one hour southwest of Dallas.

In an effort to preserve the specimen, as well as to compare its present state with the original description, Adams used a portable 3D laser scanner to perform in situ digitization of the track.

The scans were post-processed to generate high-resolution 3D digital models of the track. Finally the models were rendered in various media formats such as Quicktime VR Virtual Reality and Tagged Image File Format for viewing, publication and archival purposes.

Adams will make the raw scan data and industry-standard 3D object files format available for download.

The research demonstrates the advantages of using portable laser scanners to capture field data and create high-resolution, interactive models that can be digitally archived and made accessible to others via the Internet for further research and education.

“It’s a nice way to share scientific data,” Adams says.

Adams’ research was funded by the Institute for the Study of Earth and Man at SMU. He presented the research at a scientific session of the 2009 annual meeting of The Geological Society of America in Portland, Ore., Oct. 18-21. His co-researchers are Christopher Strganac, Michael J. Polcyn and Louis L. Jacobs, all three in the Roy M. Huffington Department of Earth Sciences at SMU. — Margaret Allen

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Earth & Climate Fossils & Ruins Plants & Animals Researcher news

Polcyn in New Scientist’s “Real Sea Monsters: Hunt for Predator X”

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Paleontologist Michael J. Polcyn, director of the Visualization Laboratory in the SMU Huffington Department of Earth Sciences and SMU adjunct research associate, is quoted as an expert source in “Real Sea Monsters: The Hunt for Predator X.” The article by reporter James O’Donoghue was published in the October 2009 issue of the magazine New Scientist.

mosasaur1-utmuseum.jpgPolcyn is a world-recognized expert on the extinct marine reptile named Mosasaur.

His research interests include the early evolution of Mosasauroidea and adaptations in secondarily aquatic tetrapods. Polcyn’s research also includes application of technology to problems in paleontology.

Related links:
New Scientist: “Real sea monsters; The hunt for Predator X”
Michael J. Polcyn
video.jpg Discovery Channel: “Mega Beasts: T-Rex of the Deep”
SMU News: Dallasaurus, ancient mosasaur
Huffington Department of Earth Sciences

Categories
Fossils & Ruins Researcher news

Polcyn in Discovery Channel’s “Mega Beasts: T-Rex of the Deep”

mike-polcyn-sm2.jpg
Paleontologist Michael J. Polcyn, director of the Visualization Laboratory in the SMU Huffington Department of Earth Sciences and SMU adjunct research associate, appears as an expert source in “Mega Beasts: T-Rex of the Deep,” a science documentary that aired Sept. 13 on the Discovery Channel.

mosasaur1-utmuseum.jpgPolcyn is a world-recognized expert on the extinct marine reptile named Mosasaur.

His research interests include the early evolution of Mosasauroidea and adaptations in secondarily aquatic tetrapods. Polcyn’s research also includes application of technology to problems in paleontology.

Related links:
Michael J. Polcyn
video.jpg “Mega Beasts: T-Rex of the Deep”
SMU News: Dallasaurus, ancient mosasaur
Huffington Department of Earth Sciences