Tag Archives: fossil mounts

May 9, 2014 · 10:42 am

Mount Making at MMFC14

This past week, I had the fantastic opportunity to be a part of the Mid-Mesozoic Field Conference. I can’t possibly offer enough praise to conference leaders ReBecca Hunt-Foster, Jim Kirkland, and John Foster for pulling off this amazingly informative journey across the Colorado plateau. Unfortunately, since we live in a world where it’s a bad idea to post images of fossil localities, and it’s downright toolish to share details about unpublished research, I won’t be posting a ton about the conference right now.

What I can share, however, are two stops we made that are especially relevant to this blog. The first is the Gaston Design workshop in Fruita, Colorado. Rob Gaston and his team specialize in casting and sculpting fossil replicas, and their mounted skeletons are on display all over North America, but especially at younger museums in the western interior. Gaston showed us how they mold, cast, and sculpt fossil replicas, a process that relies a great deal more on artistic and technical skill than fancy equipment.

This second set of photos is from the College of Eastern Utah Prehistoric Museum in Price, Utah. Ken Carpenter, the museum’s new director, has taken on the task of completely remounting the menagerie of Morrison dinosaurs in the center of the paleontology wing (some photos of the old mounts here). The original Allosaurus, Camptosaurus and Stegosaurus mounts from the late 1980s suffered from an unfortunate case of the tail-drags, and the Camarasaurus had previously been relegated to a death pose. Carpenter’s new mounts, which combine original fossils with new and old reconstructed bones, are much livelier. The stated goal of the project is to encourage visitors to imagine what it would be like to encounter these animals in life. What’s really awesome, though, is that the mounts are being built right in the exhibit, so that visitors can see the progress and the tools and techniques used to build these displays. At present, Allosaurus and Camptosaurus are finished, work on Stegosaurus is underway, and the Camarasaurus skeleton is laid out in pieces.

Sorry to post such a short tease of the awesome stuff we saw at the conference. My head is absolutely packed with information and ideas, so hopefully there will be opportunities to share more soon!

Fossil Mount FAQs

Parasaurolophus at the Field Museum of Natural History. Source

I’ve added a Fossil Mount FAQs document to the top of the page. As the name suggests, this is meant to answer some of the questions about mounted fossil skeletons that I am regularly asked during outreach programs. Right now, the document mostly covers how mounts are created and how they can be interpreted, but I plan to expand the list of questions as needed. Please leave a comment if there is something you think should be included.

Displaying the Tyrant King – Part 3

Subtlety is unnessesary when T. rex is involved.

Who needs subtlety when you have a T. rex?

Start with Displaying the Tyrant King Part 1 and Part 2.

Tyrannosaurus rex displays changed for good in the 1990s thanks to two individuals, one real and one fictional. The latter was of course the T. rex from the film Jurassic Park, brought to life with a full-sized hydraulic puppet, game-changing computer animation, and the inspired use of a baby elephant’s screeching cry for the dinosaur’s roar. The film made T. rex real – a breathing, snorting, drooling animal unlike anything audiences had ever seen. Jurassic Park was a tough act to follow, and in one way or another, every subsequent museum display of the tyrant king has had to contend with the shadow cast by the film’s iconic star.

The other dinosaur of the decade was Sue, who scarcely requires introduction. First and foremost, Sue is the most complete Tyrannosaurus ever found, with 80% of the skeleton intact. Approximately 28 years old at the time of her death, Sue is also the eldest T. rex known, as well as one of the largest. The specimen’s completeness and exquisite preservation has allowed paleontologists to ascertain an unprecedented amount of information about the lifestyle of meat-eating dinosaurs. In particular, Sue’s skeleton is riddled with fractured and arthritic bones, as well as evidence of gout and parasitic infection that together paint a dramatic picture of the rough-and-tumble world of the late Cretaceous.

From South Dakota to Chicago

Cast of Sue at Walt Disney World, Orlando. Source

It was the events of Sue’s second life, however, that made her the fossil the world knows by name. Sue was discovered in the late summer of 1990 by avocational fossil hunter Susan Hendrickson (for whom the specimen is named) on the Cheyenne River reservation in South Dakota. Peter Larson of the Black Hills Institute, a commercial outfit that specializes in excavating, preparing, and exhibiting fossils, initially intended to display the Tyrannosaurus at a new facility in Hill City, but soon became embroiled in an ugly four-way legal battle with landowner Maurice Williams, the Cheyenne council, and the United States Department of the Interior. With little precedent for ownership disputes over fossils, it took until 1995 for the District Court to award Williams the skeleton. Williams soon announced that he would put Sue on the auction block, and paleontologists initially worried that the priceless specimen would disappear into the hands of a wealthy collector, or end up in a crass display at a Las Vegas casino. Those fears were put to rest in 1997 when Chicago’s Field Museum of Natural History won Sue with financial backing from McDonald’s and Disney. Including the auctioneer’s commission, the price was an astounding $8.36 million.

FMNH and its corporate partners did not pay seven figures for Sue solely to learn about dinosaur pathology. Sue’s remarkable completeness would be a boon to scientists, but her star power was at least as important for the Museum. Sue was a blockbuster attraction that would bring visitors in the door, and her name and likeness could be marketed for additional earned income. As FMNH President John McCarter explained, “we do dinosaurs…so that we can do fish” (quoted in Fiffer 2000). Particularly in the late 1990s, with Jurassic Park still fresh in people’s minds, a Tyrannosaurus would attract visitors and generate funds, which could in turn fund less sensational but equally important research, like ichthyology and entomology.

Still, some worried that McCarter, whose background was in business, not science, was exploiting an important specimen as a marketing gimmick at the expense of the Museum’s educational mission. This echoed similar concerns voiced 80 years earlier, when the original mounted Tyrannosaurus was introduced at the American Museum of Natural History. As president of AMNH, Henry Osborn oversaw the creation of grandiose and dramatic exhibits, with the intent to draw crowds and justify private and municipal financial support. When the Museum unveiled the Tyrannosaurus mount, Osborn held a lavish publicity gala for the New York elite and members of the press. The buzz generated by Osborn’s promotion resulted in lines around the block and front page headlines, but the attention was focused on the spectacle of the dinosaur rather than the science behind it. Many academics derided this as lowest common denominator pandering, while others, like anthropologist Franz Boas, grudgingly accepted that “it is a fond delusion of many museum officers that the attitude of the public is a more serious one, but the majority do not want anything beyond entertainment.”

Original skull of Sue the T. rex, displayed on the upper mezzanine. Photo by the author.

FMNH was under similar scrutiny as museum staff revealed their plans for Sue. The role of the corporate sponsors that paid for the fossils was a particular cause for concern, and the marketing team knew it. Although the idea of T. rex-themed Happy Meals was briefly on the table, McDonald’s and Disney wisely opted to present themselves only as patrons of science. McDonald’s got its name on the new fossil preparation lab at FMNH and Disney got a mounted cast of Sue to display at Walt Disney World, but the principal benefit to the two companies was high-profile exposure in association with youth science education. The Museum retained control over the message, highlighting Sue’s importance to paleontology and only coyly admitting her role as a promotional tool. Likewise, FMNH is the sole profiteer from the litany of shirts, hats, toys, mugs, and assorted trinkets bearing the Sue name and logo that are continually sold at the Museum and around Chicago.

You May Approach Her Majesty

Once Sue arrived at FMNH, the Museum did not hold back marketing the dinosaur as a must-see attraction. A pair of Sue’s teeth went on display days after the auction, which expanded organically into the “Sue Uncrated” exhibit, where visitors could watch the plaster-wrapped bones being unpacked and inventoried. Meanwhile, McDonald’s prepared an educational packet on Sue that was distributed to 60,000 elementary schools.

The main event, of course, was the mounted skeleton, which needed to be ready by the summer of 2000. This was an alarmingly short timetable, and the FMNH team had to hit the ground running. Much of Sue’s skeleton was still buried in rock and plaster. The bones needed to be prepared and stabilized before they could be studied, and they needed to be studied before they could be mounted. In addition, two complete Sue casts had to be fabricated: one for Disney World and one for a McDonald’s-sponsored traveling exhibit. The casts were produced by Research Casting International, the Toronto-based company that recently built the mounted menagerie for “Ultimate Dinosaurs“. Phil Fraley Productions, the same exhibit company that rebuilt the American Museum and Carnegie Museum T. rex mounts, was tapped to mount Sue’s original skeleton.

The mounted skeleton of Sue in the Stanley Field Hall. Photo by the author.

Unlike every other Tyrannosaurus mount before or since, Sue can hardly be called a composite. With the exception of a missing arm, left foot, a couple ribs, and small number of other odds and ends, the mounted Sue skeleton is composed of real fossils from a single individual. FMNH public relations latched onto this fact, emphasizing in press releases that while “many museums are displaying replicas of dinosaur skeletons, the Field Museum has strengthened its commitment to authenticity. This is Sue.” Just as they did with the AMNH Tyrannosaurus, Fraley’s team built an armature with individual brackets securing each bone, allowing them to be removed with relative ease for research and conservation. No bolts were drilled into the bones and no permanent glue was applied, ensuring that the fossils incur only minimal damage for the sake of the exhibit. Despite these improvements over historic mount-making techniques, however, the Sue mount does have some inexplicable anatomical errors. The coracoids should be almost touching in the middle of the chest, but the shoulder girdles are mounted so high on the rib cage that there is a substantial space between them. Consequently, the furcula (wishbone) is also positioned incorrectly.

After a private event not unlike the one held by Osborn in 1915, Sue was revealed to the public on May 17, 2000 with the literal raising of a curtain. A week-long series of celebrations and press junkets introduced Sue to Chicago, and she has been one of the city’s biggest attractions every since. All the publicity paid off, at least in the short term: FMNH attendance soared that year from 1.6 million to 2.4 million. 14 years later, Sue the Tyrannosaurus is still known by name, and is even used as the voice of FMNH on twitter. Interestingly, Sue’s new identity as a Chicago landmark seems to have all but eclipsed the legal dispute that was her original source of fame. A recent RedEye cover story goes so far as to proclaim this South Dakotan skeleton as “pure Chicago.”

The Nation’s T. rex

This customized truck transported the Nation’s T. rex from Montana to Washington, DC.

This year, another Tyrannosaurus specimen has rocketed to Sue-like levels of notoriety. MOR 555, also known as “Wankel Rex”, is being transferred to the Smithsonian National Museum of Natural History, where it will eventually be mounted for long-term display. Now dubbed “the Nation’s T. rex“, the promotion of this specimen has mirrored that of Sue in many ways. Front-page media coverage, first-person tweets from the dinosaur and even an official song and dance contest herald the arrival of the fossils from their previous repository, the Museum of the Rockies in Montana. Much like the “Sue Uncrated” exhibit, the process of unpacking the unarticulated bones will soon be on view in a temporary display called “The Rex Room.” Meanwhile, the very name “Nation’s T. rex” is a provocative invented identity akin to Sue’s new status as a Chicagoan.

Nevertheless, the Nation’s T. rex does not quite live up to Sue’s mystique. This Tyrannosaurus is neither as large nor as complete as Sue, and there was no prolonged legal battle or frantic auction in its past. The 60% complete skeleton was found in 1988 by Montana rancher Kathy Wankel, on land owned by the US Army Corps of Engineers. The fossils are now on a 50 year loan from from the Corps to the Smithsonian, (presumably) a straightforward transfer between federal agencies. In addition, MOR 555 is by no means a new specimen. Several casts of the skeleton are already on display, including exhibits at the Royal Ontario Museum, the Museum of the Rockies, the Perot Museum of Nature and Science, and even the Google campus. In fact, a cast of the MOR 555 skull has been on display at NMNH for years.

NMNH Director Kirk Johnson, fossil hunter Kathy Wankel, her husband Bob Wankel, and Lt. Gen. Thomas Bostick preside over the arrival of the Nation’s T. rex at the Smithsonian. Source

With that in mind, the hype around the Nation’s T. rex might seem like much ado about nothing. As this series has demonstrated, the number of Tyrannosaurus skeletons on exhibit, whether original fossils or casts, has exploded in recent years. A quarter century ago, New York and Pittsburgh were the only places where the world’s most famous dinosaur could be seen in person. Today, there may well be over a hundred Tyrannosaurus mounts worldwide, most of which are identical casts of a handful of specimens. Acquiring and displaying a T. rex is neither risky nor ambitious for a natural history museum. No audience research or focus groups are needed to know that the tyrant king will be a hit. And yet, excessive duplication of a sure thing might eventually lead to monotony and over-saturation.

So far, such fears appear to be unfounded. A specimen like Sue or the Nation’s T. rex is ideal for museums because it is at once scientifically informative and irresistibly captivating. Museums do not need to choose between education and entertainment because a Tyrannosaurus skeleton effectively does both. And even as ever more lifelike dinosaurs grace film screens, museums are still the symbolic home of T. rex. The iconic image associated with Tyrannosaurus is that of a mounted skeleton in a grand museum hall, just as it was when the dinosaur was introduced to the world nearly a century ago. The tyrant king is an ambassador to science that unfailingly excites audiences about the natural world, and museums are lucky to have it.

The Nation’s T. rex in its final pose at the Research Casting International workshop.

This week, NMNH will be celebrating all things Tyrannosaurus, starting with a live webcast of arrival of the Nation’s T. rex on Tuesday morning. Stay tuned to this blog for further coverage of the events!

References

Asma, S.T. 2001. Stuffed Animals and Pickled Heads: The Culture and Evolution of Natural History Museums. New York, NY: Oxford University Press.

Boas, F. 1907. Some Principles of Museum Administration. Science 25:650:931-933.

Counts, C.M. 2009. Spectacular Design in Museum Exhibitions. Curator 52: 3: 273-289.

Fiffer, S. 2000. Tyrannosaurus Sue: The Extraordinary Saga of the Largest, Most Fought Over T. rex ever Found. New York, NY: W.H. Freeman and Company.

Larson, N. 2008. “One Hundred Years of Tyrannosaurus rex: The Skeletons.” Tyrannosaurus rex: The Tyrant King. Larson, Peter and Carpenter, Kenneth, eds. Bloomington, IN: Indiana University Press.

Lee, B.M. 2005. The Business of Dinosaurs: The Chicago Field Museum’s Nonprofit Enterprise. Unpublished thesis, George Washington University.

Rainger, R. 1991. An Agenda for Antiquity: Henry Fairfield Osborn and Vertebrate Paleontology at the American Museum of Natural History, 1980-1935. Tuscaloosa, AL: University of Alabama Press.

Switek, B. 2013. My Beloved Brontosaurus: On the Road with Old Bones, New Science and our Favorite Dinosaurs. New York, NY: Scientific American/Farrar, Straus and Giroux.

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Filed under dinosaurs, FMNH, fossil mounts, history of science, movies, museums, NMNH, reptiles, science communication, theropods

Tagged as dinosaurs, fossil mounts, history of science, museums, paleontology, science communication, Tyrannosaurus

April 2, 2014 · 9:44 am

Displaying the Tyrant King – Part 1

The original Tyrannosaurus rex mount at the American Museum of Natural History. Photo from Dingus 1996.

Woodrow Wilson is in the white house. The first World War is raging in Europe, but the United States is not yet involved. The women’s suffrage movement is picking up speed. And you just heard that the skeleton of an actual dragon is on display at the American Museum of Natural History in New York. It is difficult to imagine a time before every man, woman, and child in the developed world knew the name Tyrannosaurus rex, but that world existed not even a century ago. In 1915, AMNH unveiled the very first mounted skeleton of the tyrant lizard king, immediately and irrevocably cementing the image of the towering reptilian carnivore in the popular psyche.

Today, Tyrannosaurus is a celebrity among dinosaurs, appearing in every form of media imaginable. More importantly, however, it is an icon for paleontology and an ambassador to science. The cult of T. rex began in the halls of museums, and museums remain the prehistoric carnivore’s symbolic home. The mounted skeletons in museums provide the legendary T. rex its credibility: these are the authentic remains of the giant predator that once stalked North America. And yet, most of the dozens of Tyrannosaurus skeletons on display around the world are casts, and none of them represent complete skeletons (rather, they are filled in with spare parts from other specimens and the occasional sculpted bone). These are sculptures as well as scientific specimens, works of installation art composed by artists, engineers, and scientists. Herein lies the paradox presented by all fossil mounts: they are natural specimens and constructed objects, embodying a challenging duality between the realms of empiricism and imagination.

A Tyrannosaurus mount is at once educational and spectacular. Both roles were embraced at AMNH in 1915, and these dual identities have defined T. rex displays ever since. 14 years ago, FMNH PR 2081, also known as Sue, became a star attraction for the Field Museum of Natural History and the city of Chicago at large. Later this month, another T. rex will unwittingly take on a similar role: on April 15th, MOR 555, an 80% complete Tyrannosaurus specimen discovered in Montana, will be dubbed “The Nation’s T. rex“ and entered into the Smithsonian National Museum of Natural History collection with considerable fanfare.

Skull cast of MOR 555, soon to be "The Nation's T. rex", at NMNH.

Skull cast of MOR 555, soon to be “The Nation’s T. rex“, at the National Museum of Natural History. Photo by the author.

This three part series is a look back at how the tyrant king has defined, and been defined by, the museum experience. Part 1 will cover the circumstances surrounding the creation of the iconic original Tyrannosaurus mount in New York, as well as its successor in Pittsburgh. Part 2 will explore the changing role of Tyrannosaurus in museums caused by a surge of new fossil finds and a revolution in our understanding of dinosaurs. Finally, Part 3 will conclude with a discussion of the positives and negatives of a modern world saturated in all things T. rex.

The Original Tyrant

Between 1890 and 1910, the United States’ large urban natural history museums entered into a frenzied competition to find and display the largest and most spectacular dinosaur skeletons. Although the efforts of paleontologists O.C. Marsh and E.D. Cope in the late 19^th century fleshed out the scientific understanding of Mesozoic reptiles, it was these turn-of-the-century museum displays that brought dinosaurs into the public sphere. Bankrolled by New York’s wealthy aristocrats and led by the ambitious mega-tool Henry Osborn, AMNH won the fossil race by most any measure. The New York museum completed the world’s first mounted skeleton of a sauropod dinosaur in 1905, and also left its Chicago and Pittsburgh competitors in the dust with the highest visitation rate and the most fossil mounts on display.

Osborn’s goal was to establish AMNH as the global epicenter for paleontology research and education, and in 1905 he revealed his ace in the hole: two partial skeletons of giant meat-eating dinosaurs uncovered by fossil hunter Barnum Brown. In a deceptively brief paper in the Bulletin of the American Museum of Natural History, Osborn described the fossils from Wyoming and Montana, coining the names Dynamosaurus imperiosus and Tyrannosaurus rex (a follow-up paper in 1906 reclassified “Dynamosaurus” as a second Tyrannosaurus specimen). Fully aware of what a unique prize he had in his possession, Osborn wasted no time leveraging the fossils for academic glory (and additional funding from benefactors). He placed the unarticulated Tyrannosaurus fossils on display at AMNH shortly after his initial publication, and commissioned legendary artist Charles Knight to prepare a painting of the animal’s life appearance.

In 1908, Brown collected a much more complete Tyrannosaurus specimen (AMNH 5027), with over 50% of the skeleton intact, including the first complete skull and a significant portion of the torso. With this specimen in hand, AMNH technician Adam Hermann and his team began work on a mounted Tyrannosaurus skeleton to join the Museum’s growing menagerie of mounted dinosaurs and prehistoric mammals. Inspired by the Museum’s collection of taxidermy mounts in dynamic habitat dioramas, and seeking to accentuate the spectacle of his reptilian monster, Osborn initially wanted to mount two Tyrannosaurus skeletons facing off over a dead hadrosaur. He even published a brief description complete with illustrations of the projected scene (shown below). However, the structural limitations inherent to securing heavy fossils to a steel armature, as well as the inadequate amount of Tyrannosaurus fossils available, made such a sensational display impossible to achieve.

Model of unrealized T. rex showdown mount from Osborn 1913.

Model of unrealized T. rex showdown mount. Image from Osborn 1913.

Instead, Hermann prepared a single Tyrannosaurus mount, combining the 1908 specimen with plaster casts of leg bones from the 1905 holotype. The original skull was impractically heavy, so a cast was used in its place. Finally, missing portions of the skeleton, including the arms, feet, and most of the tail, were sculpted by hand using bones from Allosaurus as reference. During the early 20^th century, constructing fossil mounts was a relatively new art form, and while Hermann was one of the most talented and prolific mount-makers in the business, his techniques were somewhat unkind to the fossil material. Bolts were drilled directly into the fragile bones to secure them to the armature, and in some cases steel rods were tunneled right through the bones. Any fractures were sealed with plaster, and reconstructed portions were painted to be nearly indistinguishable from the original fossils. Like most of the early AMNH fossil mounts, preserving the integrity of the Tyrannosaurus bones was often secondary to aesthetic concerns like concealing the unsightly armature.

Tyrannosaurus and others in AMNH Dinosaur Hall, 1927. Photo courtesy of AMNH Research Library.

AMNH Tyrannosaurus, ca. 1940. Photo courtesy of the AMNH Research Library.

The completed Tyrannosaurus mount, a magnificent sculptural combination of bone, plaster, and steel, was unveiled in 1915 to stunned audiences. The December 3rd New York Times article was thick with hyperbole, declaring the dinosaur “the prize fighter of antiquity”, “the king of all kings in the domain of animal life,” “the absolute warlord of the earth” and “the most formidable fighting animal of which there is any record whatsoever” (and people say that today’s science journalism is sensationalist!). With its tooth-laden jaws agape and a long, dragging lizard tail extending its length to over 40 feet, the Tyrannosaurus was akin to a mythical dragon, an impossible monster from a primordial world. This dragon, however, was real, albeit safely dead for 66 million years.

Today, we know that the original AMNH Tyrannosaurus mount was inaccurate in many ways. The upright, tail-dragging pose, which had been the most popular attitude for bipedal dinosaurs since Joseph Leidy’s 1868 presentation of Hadrosaurus, is now known to be incorrect. More complete Tyrannosaurus skeletons have revealed that the tail reconstructed by Osborn and Hermann was much too long. The Allosaurus-inspired sculpted feet were too robust, the legs (casted from the 1905 holotype), were too large compared to the rest of the body, and the hands had too many fingers (the mount was given proper two-fingered hands when it was moved in 1927). It would be misleading to presume that the prehistoric carnivore’s skeleton sprang from the ground exactly as it was presented, but it is equally problematic to reject it as a fake. There are many reasons to criticize Osborn’s leadership at AMNH, but he did not exhibit outright forgeries. The 1915 Tyrannosaurus mount was a solid representation of the best scientific data available at the time, presented in an evocative and compelling manner.

The AMNH Tyrannosaurus mount was no less than an icon: for paleontology, for its host museum, and for the city of New York. The mount has been a New York attraction for longer than the Empire State Building, and for almost 30 years, AMNH was the only place in the world where visitors could see a T. rex in person. In 1918, Tyrannosaurus would make its first Hollywood appearance in the short film The Ghost of Slumber Mountain. This star turn was followed by roles in 1925’s The Lost World and 1933’s King Kong, firmly establishing the tyrant king’s celebrity status. It is noteworthy that special effects artist Willis O’Brian and model maker Marcel Delgado copied the proportions and posture of the AMNH display exactly when creating the dinosaurs for each of these films. The filmmakers apparently took no artistic liberties, recreating Tyrannosaurus precisely how the nation’s top scientists had reconstructed it in the museum.

A T. rex for Pittsburgh

In 1941, AMNH ended it’s Tyrannosaurus monopoly and sold the incomplete type specimen (the partial skeleton described in Osborn’s 1905 publication) to Pittsburgh’s Carnegie Museum of Natural History. While it is sometimes reported that this transfer took place to keep the valuable fossils out of harm’s way during World War II (e.g. Larson 2008), the deal was apparently underway well before the United States became involved in the war. Having paid an astounding $100,000 ($1.7 million in today’s dollars) for the fossils, CMNH staff wasted no time in assembling a mount of their own. The Tyrannosaurus holotype only included only about 15% of the skeleton, so most of Pittsburgh mount had to be made from casts and sculpted elements. Somewhat pointlessly, the skull fragments included with the specimen were buried inside a plaster skull replica, making them inaccessible to researchers for several decades. Completed in less than a year, the CMNH Tyrannosaurus was given an upright, tail-dragging posture very much like its AMNH predecessor.

Carnegie Museum of Natural History. Photo from NPR.

CM 9380 at the Carnegie Museum of Natural History. Source

The mid-20^th century is sometimes called the “quiet phase” in vertebrate paleontology. After enjoying public fame and generous federal support during the late 1800s, paleontology as a discipline was largely marginalized when experiment-driven “hard” sciences like physics and molecular biology rose to prominence. By the 1950s and 60s, the comparably small number of researchers studying ancient life were chiefly concerned with theoretical models for quantifying trends in evolution. Although the aging dinosaur displays at American museums remained popular with the public, these animals were perceived as evolutionary dead-ends, of little interest to the majority of scientists. Between 1908 (when Brown found the iconic AMNH Tyrannosaurus skeleton) and 1980, only four largely incomplete Tyrannosaurus specimens were found, and no new mounts of this species were built.

Continue to Displaying the Tyrant King Part 2.

References

Dingus, L. (1996). Next of Kin: Great Fossils at the American Museum of Natural History. New York, NY: Rizzoli International Publications, Inc.

Glut, D. 2008. “Tyrannosaurus rex: A century of celebrity.” Tyrannosaurus rex, The Tyrant King. Larson, Peter and Carpenter, Kenneth, eds. Bloomington, IN: Indiana University Press.

Hermann, A. 1909. “Modern Laboratory Methods in Vertebrate Paleontology.” Bulletin of the American Museum of Natural History 21:283-331.

Larson, N. 2008. “One Hundred Years of Tyrannosaurus rex: The Skeletons.” Tyrannosaurus rex, The Tyrant King. Larson, Peter and Carpenter, Kenneth, eds. Bloomington, IN: Indiana University Press.

“Mining for Mammoths in the Badlands: How Tyrannosaurus Rex Was Dug Out of His 8,000,000 Year old Tomb,” The New York Times, December 3, 1905, page SM1.

Naish, D. 2009. The Great Dinosaur Discoveries. Berkeley, CA: University of California Press.

Osborn, H.F. 1906. “Tyrannosaurus, Upper Cretaceous Carnivorous Dinosaur.” Bulletin of the American Museum of Natural History 22:281-296.

Osborn, H.F. 1913. “Tyrannosaurus, Restoration and Model of the Skeleton.” Bulletin of the American Museum of Natural History 32:9-92.

Rainger, Ronald 1991. “An Agenda for Antiquity: Henry Fairfield Osborn and Vertebrate Paleontology at the American Museum of Natural History, 1890-1935. Tuscaloosa, Alabama. University of Alabama Press.

Wesihampel, D.B. and White, Nadine M. 2003.The Dinosaur Papers: 1676-1906. Washington, DC: Smithsonian Books.

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Filed under AMNH, CMNH, dinosaurs, fossil mounts, history of science, movies, museums, NMNH, reptiles, theropods

Tagged as dinosaurs, fossil mounts, history of science, museums, natural history museums, paleontology, Tyrannosaurus

March 12, 2014 · 7:25 pm

The Top Seven Dinosaur Mounts #MuseumDinos

According to Twitter, today is #MuseumDinos day, possibly because it’s the 10th anniversary of the groundbreaking DinoSphere exhibit at the Indianapolis Children’s Museum. At any rate, dinosaurs in museums is a thing I’m kind of interested in, so here’s the first ever DINOSOURS! listicle: the hastily-planned and in-no-way-definitive top seven coolest ~~dinosaur~~ extinct animal mounts from around the world.

7. Megatherium, Museo Nacional de Ciencias Naturales

The original Megatherium fossils have been remounted at the Museo Nacional de Ciencias Naturales. Image from TripAdvisor.

Megatherium at the Museo Nacional de Ciencias Naturales. Source

Let’s start with the eldest. There are quite a few ground sloth mounts in the world, but the Megatherium in Madrid has the distinction of being the first assembled skeleton of a prehistoric animal ever put on public display. It’s hard to imagine, but when Juan Bautista Bru created this mount in 1795, biological evolution was completely unknown, and naturalists were just beginning wrap their heads around the idea that organisms could become extinct. This Megatherium was a product of a very different era of human understanding about the natural world, but unlike other historic mounts like the Peale mastodon and Leidy Hadrosaurus, it has survived to the present day.

6. Stegosaurus and Allosaurus, Denver Museum of Nature and Science

Stegosaurus and Allosaurus at the Denver Museum of Nature and Science. Source

In addition to being a respected scientist, Ken Carpenter is among the most skilled fossil mount creators working today. Among his most recognizable work is the Stegosaurus and Allosaurus face-off at the Denver Museum of Nature and Science. Featuring a remount of a historic Stegosaurus specimen and an Allosaurus discovered and mostly excavated by 12-year-old India Wood, this lively display was unveiled in 1995 as the centerpiece of the “Prehistoric Journey” exhibit. In addition to biomechanical accuracy exceeding many other modern mounts, this display by Carpenter and Bryan Small is imbued with remarkable dynamism and energy.

5. Tyrannosaurus pair, Museo Jurasico de Asturias

Tyrannosaurus at Museo Jurasico de Asturias. Source

Then again, there are a lot of fighting dinosaur mounts. I love that dinosaurs had big teeth and killed things as much as the next person, but it’s refreshing to see a mount that showcases some other aspect of these animals’ lives. That said, the Spanish Museo Jurasico de Asturias is, as far as I know, the only museum to display a pair of copulating dinosaurs. The T. rex on the bottom looks like yet another Stan cast, but I’m not sure about the one on top.

4. Diplodocus, Carnegie Museum of Natural History (and elsewhere)

The original “Dippy” the Diplodocus at the Carnegie Museum of Natural History.

Like the Madrid Megatherium, this Diplodocus is intractably situated in history. If the worldwide popularity of dinosaurs could be traced to a single specimen, it would be this one. At the turn of the 20th century, Andrew Carnegie, who funded the creation of the Carnegie Museum in Pittsburgh, demanded that his museum find and display a sauropod dinosaur. This launched the Great American Sauropod Race, a frenzied competition among the United States’ large natural history museums to assemble the biggest dinosaur for display. The American Museum in New York was first across the finish line in 1905 with their composite “Brontosaurus”, although the Diplodocus collected by the CMNH team was a more complete specimen. Not to be outdone by his New York competitors, Carnegie commissioned several casts of the skeleton, which he presented to several cities in Europe and Latin America. Diplodocus casts sprang up seemingly overnight in London, Paris and elsewhere, and the original specimen was unveiled in Pittsburgh in 1907.

3. Giraffatitan, Museum für Naturkunde

Should the Giraffatitan at Berlin's Museum fur Naturkunde be displayed in Germany? Image from Wikipedia.

The biggest fossil mount in the world. Source

The Berlin Giraffatitan is on this list for two reasons. First, it’s really big. The biggest mount in the world composed mostly of original fossils, as a matter of fact, and big things are awesome. However, this display is also a fascinating example of the cultural meaning natural specimens can take on when placed on display. The fossils themselves were removed from what is now Tanzania under the authority of a colonial government that is no longer considered legitimate or appropriate, and the mount itself was completed in 1935, a time when the hall it was displayed in was filled with swastika flags. The fossils themselves (and the current museum staff that have inherited them) obviously have nothing to do with Nazis or colonial imperialism, but the display they were incorporated into is entrenched in history that should not be ignored or forgotten.

This is actually the second iteration of this display, the bow-legged original having been remounted in 2007.That’s one of the Carnegie Diplodocus casts peeking in from the right, by the way.

2. Triceratops, National Museum of Natural History

Triceratops at the National Museum of Natural History.

Triceratops is objectively the coolest dinosaur ever, and NMNH is the home to the definitive (and first) Triceratops mount. Charles Gilmore and Norman Boss constructed this composite skeleton in 1905 from fossils collected throughout Wyoming, resulting in a mount that was inaccurate in many details; most noticeably, the skull was too small compared to the rest of the body. Nevertheless, this Triceratops was the basis for illustrations in popular books for decades to come. In 2000, Steve Jabo and others retired the original mount, conserving the fossils and replacing them in the exhibit hall with a casted duplicate. Among other improvements, the undersized head was corrected by digitally scanning the original and 3D-printing it at a different scale.

1. Barosaurus and Allosaurus, American Museum of Natural History

Allosaurus and Barosaurus mount in the Roosevelt rotunda of the American Museum of Natural History. Source: http://www.ourtravelpics.com.

Allosaurus and Barosaurus mount at the American Museum of Natural History. Source

Was there ever any question what would be in first place ? The Barosaurus encounter in the Theodore Roosevelt rotunda at AMNH is a prime contender for the world’s most spectacular fossil mount. What I like most about this exhibit is the purposeful mise-en-scene: the dinosaurs decisively fill the space, drawing the viewer’s eye not only around the room but up the neck of the 50-foot Barosaurus toward the high vaulted ceiling. Since 2010, visitors have been able to walk between as well as around the mounts, inserting their own human scale into the scene. According to AMNH paleontologist Mark Norrell, the objective of this exhibit was “to imagine dinosaurs as living organisms, facing challenges similar to those that confront animals today.” However, Norrell freely admits that the display was also meant to be a spectacle, emphasizing the “romantic history and grandeur of fossils”.

References

Brinkman, P.D. (2010). The Second Jurassic Dinosaur Rush: Museums and Paleontology in America at the Turn of the 20th Century. Chicago, IL: University of Chicago Press.

Carpenter, K., Madsen, J.H. and Lewis, L. (1994). Mounting of Fossil Vertebrate Skeletons. In Vertebrate Paleontological Techniques, Vol. 1. Cambridge, UK: Cambridge University Press.

López Piñero , J.M. (1988). Juan Bautista Bru (1740-1799) and the Description of the Genus Megatherium. Journal of the History of Biology. 21:1:147-163.

Norrell, M.A., Dingus, L.W. & Gaffney, E.S. (1991). Barosaurus on Central Park West. Natural History, 100(12), 36-41.

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Filed under AMNH, CMNH, dinosaurs, fossil mounts, history of science, mammals, museums, NMNH, paleoart, reptiles

Tagged as dinosaurs, fossil mounts, history of science, museums, paleoart, paleontology, pictures

February 20, 2014 · 8:39 am

Extinct Monsters: Brachyceratops

Click here to start the Extinct Monsters series from the beginning.

Most of the mounted dinosaur skeletons at the National Museum of Natural History (NMNH) represent taxa that are well-known to casual paleontology enthusiasts. But nestled amongst household names like Triceratops, Stegosaurus and Diplodocus is an easily-overlooked horned dinosaur that was historically called Brachyceratops montanensis (it’s currently labeled Styracosaurus sp). Tucked away in a glass case behind the giant Triceratops, this pocket-sized ceratopsian may not be the most spectacular display in the exhibit, but it is nevertheless an important one for the Museum. Discovered in 1913 by the Smithsonian’s own Curator of Fossil Reptiles Charles Gilmore, Brachyceratops represents one of only a few dinosaur species excavated, prepared, described and exhibited entirely in-house at NMNH. It is therefore unfortunate that modern researchers have banished the name Brachyceratops to the realm of taxonomic obscurity. What’s more, the days of the Brachyceratops mount, on exhibit since 1922, are numbered: when the NMNH paleontology halls closed for renovation in April 2014, this specimen was be retired to the collections, and is not planned for inclusion when the exhibit reopens in 2019.

The Brachyceratops mount today. Photo by the author.

During his tenure at NMNH, Gilmore was an inexhaustibly productive writer, publishing at least 170 scientific articles, including numerous important descriptions and reassessments of fossils discovered by O.C. Marsh’s teams in the 19th century. However, Gilmore was much happier studying fossils in his lab than excavating new finds in the field, taking part in a scant 16 NMNH-sponsored field expeditions over the course of his career. A 1913 trip to the Cretaceous Two Medicine Formation in Northeast Montana was therefore unusual for Gilmore. He was following in the footsteps of Eugene Stebinger of the US Geological Survey, who had reported the previous year that the region was only minimally explored but clearly awash in vertebrate fossils.

On this inaugural fossil prospecting trip, Gilmore’s team located abundant remains of fish, small reptiles and dinosaurs, especially hadrosaurs and ankylosaurs. The most notable find, however, was a small bone bed (about six feet square) of ceratopsian fossils, representing at least five individuals. Gilmore described this find in a 1917 monograph, naming the dinosaur Brachyceratops montanensis. Today we know that ceratopsians were quite diverse, particularly during the Campanian, but in the early 20th century the true extent of the group was only just being revealed. Still, it was clear to Gilmore that at an estimated six feet in length, Brachyceratops was an unusually small ceratopsian. He proposed that it may have fed on different plants or occupied a different niche than larger contemporaries like Centrosaurus and Styracosaurus.

Reconstruction of Brachyceratops holotype skull. Plate from Gilmore 1917.

In 1917, most of the dinosaur mounts on display at NMNH came from fossils collected by Marsh for the US Geological Survey, and many represented species also on display in New York, Pittsburgh and New Haven. Accordingly, Gilmore was doubtlessly enthused by the prospect of displaying a dinosaur exclusive to Smithsonian. He awarded the task of creating a Brachyceratops mount to preparator Norman Boss, who would spend 345 working days on the project. Of the five individuals found in Montana, USNM 7953 was selected as the basis for the mount because it was the most complete, with the sacrum, pelvis, femora and complete set of caudal vertebrae found articulated in situ. Helpfully, Gilmore published a list of precisely which parts of the mount came from which individual specimen (see below). This was a marked contrast from some of his contemporaries at other museums, who would not bother to record such information, or even actively obscure how many disparate specimens they were using to build their mounts.

A helpful breakdown of the Brachyceratops mount from Gilmore 1922.

Boss based his restoration of Brachyceratops closely on the complete, articulated Monoclonius (=Centrosaurus) specimen (AMNH 5351) discovered by Barnum Brown in 1914. In particular, Boss replicated the angle of the scapulae and the number of vertebrae (22) on the American Museum of Natural History skeleton. Missing bones and portions thereof were sculpted in plaster, easily recognized by their solid color and smooth texture. Just as Gilmore and Boss had done with their 1905 Triceratops mount, the Brachyceratops was given strongly flexed elbows. According to Gilmore, a very large olecranon process on the ulna would have forced all ceratopsians into this somewhat awkward stance. Of particular note is the restoration of the skull, which was found shattered into dozens of pieces, many smaller than one inch. A close look at the specimen reveals how Boss painstakingly reassembled these fragments. Unfortunately, this is difficult in the exhibit hall because the mount is posed with the side of the skull that is mostly plaster facing visitors.

Norman Boss Brachyceratops courtesy Smithsonian archives

Norman Boss puts the finishing touches on the Brachyceratops mount. Photo courtesy of the Smithsonian Archives.

The completed Brachyceratops mount was placed on exhibit in 1922, on the same pedestal in the Hall of Extinct Monsters as the Triceratops. The substrate beneath the mount was colored and textured to match the Two Medicine Formation sandstone in which the fossils were found. Gilmore also prepared one of his charming models of Brachyceratops, mirroring the pose of the mount, but it is unclear whether it was ever exhibited.

Brachyceratops on exhibit with Triceratops. Plate from Gilmore 1922.

The Brachyceratops has remained on view through each subsequent renovation of the fossil halls, always placed close to Triceratops. This close association has prompted many visitors to mistake the diminutive Brachyceratops for a baby Triceratops, and in fact these visitors are on the right track. While Gilmore always described Brachyceratops as an unusually small but full-grown ceratopsian, Scott Sampson and colleagues confirmed in 1997 that all five specimens were juveniles. A century’s worth of new fossil discoveries has provided modern paleontologists with a thorough understanding of ceratopsian ontogeny, and characteristics like the unfused nasal horn clearly mark the mounted Brachyceratops as a young animal. Unfortunately, Gilmore’s Brachyceratops specimens lack any good diagnostic features that could link it to an adult form. According to Andrew McDonald, the most likely candidate is Rubeosaurus ovatus, which was, incidentally, discovered by Gilmore on a 1922 repeat trip to the Two Medicine site. Nevertheless, without the ability to recognize other growth stages of the same species, the name Brachyceratops is unusable and is generally regarded as a nomen dubium.

It is not difficult to surmise why the Brachyceratops would end up near the bottom of the list of mounts to include in a renovated gallery. It is not especially large or impressive, it doesn’t have a recognizable name (or any proper name at all, really) and it doesn’t tell a critical story about evolution or deep time. With limited space available and new specimens being prepped for display, little Brachyceratops will have to go. It’s not all bad, though. Taking these fossils off exhibit will make them more accessible to researchers, and allow them to be closely examined in all aspects for the first time in decades. Perhaps one day soon we will have a clearer idea of the identity of one of Gilmore’s great finds.

References

Gilmore, C.W. (1917). Brachyceratops, a Ceratopsian Dinosaur from the Two Medicine Formation of Montana, with Notes on Associated Fossil Reptiles. Washington, DC: US Geological Survey.

Gilmore, C.W. (1922). The Smallest Known Horned Dinosaur, Brachyceratops. Proceedings of the US National Museum 63:2424.

Gilmore, C.W. (1930). On Dinosaurian Reptiles from the Two Medicine Formation of Montana. Proceedings of the US National Museum 77:2839.

McDonald, A.T. (2011). A Subadult Specimen of Rubeosaurus ovatus (Dinosauria: Ceratopsidae), with Observations on other Ceratopsids from the Two Medicine Formation. PLoS ONE 6:8.

Sampson, S.D., Ryan, M.J. and Tanke, D.H. (1997). Craniofacial Ontogeny in Centrosaurine Dinosaurs: Taxonomic and Behavioral Implications. Zoological Journal of the Linnean Society 12:1:293-337.

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Filed under dinosaurs, exhibits, Extinct Monsters, field work, fossil mounts, history of science, marginocephalians, museums, NMNH, reptiles

Tagged as dinosaurs, Extinct Monsters, fossil mounts, museums, NMNH, Smithsonian

Image

The Stan Gallery

The first-ever mounted skeleton of Tyrannosaurus rex went on display at the American Museum of Natural History in 1915, and for nearly 30 years, the New York museum was the only place in the world where one could see the world’s most famous dinosaur in person. The situation today could not be more different. More than 50 individual Tyrannosaurus specimens of varying degrees of completeness are now known, and thanks to casting technology the number of Tyrannosaurus skeletons on display may well exceed one hundred.

A significant fraction of those displays are casts of BHI 3033, the T. rex specimen more commonly known as Stan. Excavated in South Dakota in 1992 by the Black Hills Institute (a for-profit outfit specializing in excavating, preparing and mounting fossils), Stan is significant for being over two-thirds complete and for including the best preserved Tyrannosaurus skull yet found. Since 1996, BHI has sold dozens of casts of the complete Stan skeleton (missing bones are filled in with casts from the original AMNH T. rex, among others) to museums and other venues around the world. At a relatively affordable $100,000 plus shipping, even small local museums and the occasional wealthy individual can now own a Tyrannosaurus mount. Stan is, by a wide margin, the most duplicated and most exhibited dinosaur in the world today. As of 2008, BHI had sold more than 30 Stan casts, and that number has grown substantially since then, particularly with the increased interest in dinosaur displays in Asia.

One might argue that this extreme amount of replication lessens the cultural value of museum displays. What allure do museums have when the specimens on display are fiberglass replicas, of which identical versions can be seen at dozens of other venues, including corporate offices and amusement parks? I would counter that this is a small price to pay when we consider the immense educational benefits of this unprecedented availability of dinosaur skeletons. Children and adults around the world now have the opportunity to see a T. rex in person, an experience that was until recently limited to citizens of a handful of large cities. What’s more, the huge body of research on Tyrannosaurus makes it a veritable model organism for vertebrate paleontology, so increasing access to T. rex fossils for international scientists is definitely helpful.

Besides, a fossil mount is far more than the fossil bones it is composed of. Mounts are in equal measures natural specimens and man-made objects, works of installation art designed to communicate a story through pose, posture and a carefully arranged mise-en-scene. Below are 14 examples of Stan on display, highlighting the great range attainable with a single dinosaur.

: Black Hills Institute in Hill City, South Dakota.

: National Museum of Natural History in Washington, DC.

: Discovery Channel HQ in Silver Spring, Maryland.

: Sternberg Museum of Natural History in Fort Hays, Kansas.

: Wyoming Dinosaur Center in Thermopolis, Wyoming.

: Natural History Museum in Oslo, Norway.

: National Museum of Natural Science in Tokyo, Japan.

: Best Western Denver Southwest in Denver, Colorado.

: Manchester Museum in Manchester, UK.

: Children’s Museum in Indianapolis, Indiana.

: Museum of Natural Science in Houston, Texas.

: Dinosaur Discovery Museum in Kenosha, Wisconsin.

: Museum of Natural History and Science in Albuquerque, New Mexico.

: The Mind Museum at Taguig in Luzon, the Philippines.

Image sources: Orientation UofM, a_leistra, Bill and Sandra Wayne, Reluctant Drifter, Roadschooling America, dinonikes, Texas Tigers, Momotarou2012, Helana Handbasket and Marie Thomas.

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February 2, 2014 · 11:55 am

December 26, 2013 · 10:11 pm

Review: Ultimate Dinosaurs at the Cincinnati Museum Center

Ultimate Dinosaurs: Giants from Gondwana premiered in June 2012 with considerable fanfare at the Royal Ontario Museum (ROM) in Toronto. Developed by a ROM team led by David Evans and Matthew Vavrek, Ultimate Dinosaurs showcased the dinosaurs of the southern hemisphere, demonstrating how geographic isolation created Mesozoic ecosystems remarkably different from the menageries we are used to seeing in North American museum displays. The exhibit included 20 dinosaur mounts in all, including many taxa never before seen in museums above the equator.

I never made it to the inaugural showing of Ultimate Dinosaurs, but fortunately the show is now on the road. I saw it at the Cincinnati Museum Center (CMC) earlier this week, where it will remain through January 5^th before moving on to Minneapolis. The exhibit assuredly does not disappoint…read on for many pictures and my musings on the design.

The first room features Triassic and early Jurassic archosaurs.

Huge banners displayed outside the CMC and in the main lobby are impossible to miss, but the Ultimate Dinosaurs exhibit itself is hidden away on the lower level, with the entrance at the end of a quiet corridor. Aside from a video screen showing a shifting map of Gondwana, no proper introduction is provided. Visitors immediately find themselves in the first large room of fossil mounts, featuring Triassic and early Jurassic archosaurs like Herrerasaurus, Eoraptor, Cryolophosaurus and the rauisuchian Prestosuchus. This first batch of mounts is lined up on an elevated platform that runs along the right side of the room. Like all the mounts in Ultimate Dinosaurs, these are casts, and are plainly assembled in “chunks”: numerous bone elements casted together as single pieces. While these shortcuts are obvious up close, this mode of construction does allow for remarkably dynamic poses, and there is no obstructive armature to block one’s view. Behind the dinosaurs is the first of several gorgeous Julius Csotonyi murals, a lively panorama of life reconstructions in a naturalistic setting.

In front of every mount is an array of attractive signs in bright, solid colors. Information is mostly provided in short sound bites or bullet points, highlighting sensible information like the animal’s diet, the meaning of its name, where it was discovered, and why it is scientifically noteworthy. There is also at least one touchscreen in front of each mount, which includes several more pages of information for the more dedicated visitor. I really liked the similar touchscreen displays at the Carnegie Museum, and these are equally impressive. This is technology used intelligently, contributing to but not overwhelming the primary display, while using space in an economical way. I was also impressed by the succinctness of the text. It is very difficult to condense information into short blurbs that visitors can absorb with no more than a quick glance, but the Ultimate Dinosaurs writers balanced accuracy, intrigue and brevity on every single sign. Hats off to them!

Visitors were having a hell of a time pronouncing Cryolophosaurus.

Turning left at the Massospondylus at the far end of the first room, visitors enter a long and largely empty corridor. The left wall is adorned with a series of signs explaining the historical discovery of and evidence for continental drift, and herein lies my primary concern with the exhibit as a whole. The story being told in Ultimate Dinosaurs, regarding plate tectonics and its effect on evolution, is an important one. Paleobiogeography is key to understanding how the natural world we know today came to be. What’s more, it’s a great example of science in action, consisting of a handful of intuitive, evidence-based concepts that can be applied to new situations and clarify new discoveries. As such, paleobiogeography ought to frame the entire exhibit. I would have placed the big ideas and central questions (Why are similar organisms sometimes found on opposite sides of oceans? What happens when populations or ecosystems are isolated from one another?) at the beginning, and ensured that they were reinforced in every display with recurring terms, imagery and motifs. The paleobiogeography story should guide the visitor’s experience and understanding of the exhibit.

Instead, Ultimate Dinosaurs at the CMC relegates the big ideas to secluded corners and easily-missed signs. The text itself is very clear and well-written, and supported by attractive, intuitive graphics, but it’s hidden away and or otherwise overshadowed by lists of factoids about each dinosaur. My largely unsubstantiated suspicion is that the original designers of Ultimate Dinosaurs at the ROM intended for the paleobiogeography story to be much more explicit, but this vision was compromised somewhat in order to fit the exhibit into the space available at the CMC. The unfortunate result is that the most critical information is introduced in an unorganized manner, and the exhibit is weaker for it.

Suchomimus peers in from the right, Amargasaurus and

Suchomimus peers in from the right, Malawisaurus in the middle, Argentina in back.

After passing through the switchbacking corridor, visitors reach the primary showroom. This is an enormous space filled with huge, impressive dinosaur mounts. Like the rest of the exhibit, this gallery is quite dark, with floor lights and the occasional overhead light highlighting the dinosaurs. The darkness helps to hide the unadorned walls and ceilings of the multipurpose space being used, but thankfully does not hinder one’s view of the dinosaurs. And the dinosaurs certainly do not disappoint. Even though they are casts, this exhibit was my first opportunity to see the likes of Armagasaurus, Suchomimus, Ouranosaurus and many others in person. I could walk around them, take in their scale and compare them to one another and to myself, experiences that no image or documentary can provide.

Majungasaurus and Rapetosaurus strike an extreme pose.

Most of the dinosaurs are in lively poses, as though the animal was frozen midstride, but a few are especially dynamic. Little Rahonavis is suspended from the ceiling, as though leaping for prey or perhaps engaging in a controlled glide to the forest floor. The Majungasaurus and Rapetosaurus, which are the only mounts directly interacting with one another, are particularly interesting. The attacking Majungasaurus has its foot up on the flank of the Rapetosaurus, and the sauropod is in a rather unusual squatting pose, with its forelimbs at what appears to be maximum flexion. I will leave it to the experts to decide whether this extreme pose is plausible, but this nevertheless serves as a reminder of what can be learned by assembling a skeleton in three-dimensional space.

Carnotaurus and Amargasaurus.

The mounts are clustered on three islands, representing Argentina, Madagascar and Niger. I do wish this organization had been made clearer to visitors, perhaps with large banners over the islands naming the dinosaurs’ location of origin. Clustered at the feet of the mounts are small cases containing a mix of original and casted fossils. Some of those are quite relevant and provide further context to the mounts: for instance, a collection of North African fossil fish near the Suchomimus illustrate the spinosaur’s probable diet. Other cases are a bit more perplexing. A series of cervical vertebrae from the North American sauropod Suuwassea is arbitrarily situated among the Madagascar mounts, and cases of cephalopods and Carboniferous plants are similarly out of place. Most of these oddball fossil displays did not come from the ROM, but were added by the CMC from their own collections. Although these fossils are fascinating and should absolutely be on display, I don’t think randomly interjecting them among the Gondwanan dinosaurs was the way to go. These displays interrupt the primary storyline and probably should have been placed elsewhere.

These additions from the CMC are neat, but a bit out of place.

The final room showcases the exhibit’s two largest mounts, Tyrannosaurus and Giganotosaurus. It is undeniably exciting to see these two giant predators side by side, and compare how these ostensibly similar carnivores were nevertheless subtly adapted to tackle different prey. I would have made this point more obvious than the exhibit does, but I suppose sometimes you need to step back and let your specimens speak for themselves.

This room also features the much-ballyhooed “augmented reality” gimmick. These are tablet-sized screens found alongside the mounts. When you point these at the Tyrannosaurus and Giganotosaurus skeletons, a CG version of dinosaur appears on the screen. Panning and tilting the tablet in front of the mount causes your view of the CG version to adjust accordingly. I found these sort of interesting, but they were not nearly as impressive as the mounts themselves. Unfortunately, the CG dinosaurs simply didn’t look very good. I am all for the use of technology in museum exhibits, but only if it plays to our strengths. In this case, the CG dinosaurs are directly and unfavorably comparable to a wide range of films and television shows that people can see without leaving home. As hubs for lifetime learning, museums can and should offer more than that.

Tyrannosaurus and Giganotosaurus side by side. Eat it up, internet.

Despite my nitpicks, Ultimate Dinosaurs really does live up to its name. This is a very handsomely designed exhibit, and an great opportunity to see mounts of exotic dinosaur taxa. If you are at all interested in paleontology, catching this exhibit is a no-brainer. But even if you’re not, this is a rare chance to see what the vertebrate fossil record has to offer beyond T. rex and Triceratops, and learn a bit about how our world came to be.

Edit: I had mistakenly said the murals were created by Raul Martin. They are the work of Julius Csotonyi.

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Filed under dinosaurs, exhibits, fossil mounts, museums, ornithopods, reptiles, reviews, sauropods, theropods

Tagged as dinosaurs, fossil mounts, museums, natural history museums, science communication

December 10, 2013 · 9:22 pm

Juan Bautista Bru and the First Fossil Mount

The first fossils ever assembled into a freestanding mount belonged to the giant ground sloth Megatherium. The fossils, which were unearthed near Luján in what is now Argentina, were described and mounted in 1795 by Juan Bautista Bru at the Royal Cabinet of Natural History in Madrid. But while the Megatherium mount played an important part in the history of paleontology and in our understanding of the changing Earth, the man who made it possible is scarcely mentioned in the literature. Instead, Bru’s work on Megatherium is typically overshadowed by the involvement of the much better known anatomist Georges Cuvier. Drawing principally from José López Piñero ‘s 1988 paper on Bru, this entry is intended to highlight and acknowledge Bru’s contribution to the practice of mounting fossils for public display.

Cuvier’s adaptation of Bru’s illustration of the Megatherium mount.

The Megatherium in question was discovered in 1789 in what was then the Viceroyalty of Rio de la Plata, on the banks of the Luján River, “a league and a half” from the town of the same name. As region was controlled by the Spanish monarchy at the time (although the Argentine War of Independence was not far off), it was standard procedure for viceroy Marqués de Lorento to ship the important find to Spain with all haste. Packed into seven crates, the nearly complete skeleton was delivered to the Royal Cabinet of Natural History in Madrid, which curated natural specimens from Spanish territories and was among the most respected scientific institutions in Europe.

By the late 1700s, the European Enlightenment was well established, and the pursuit of knowledge about the world through reason and scientific deduction rather than legend or dogma was popular among the societal elite. The study of natural history was deemed particularly important, and institutions like the Royal Cabinet which collected, quantified and published knowledge about the natural world were well-respected and well-funded. However, the meaning of the fossil record still eluded the top minds of the era. A century earlier, Nicolaus Steno had determined that fossils were the remains of once-living organisms, and by the late 1700s some naturalists were starting to come around to the idea that species that once existed had become extinct. Nevertheless, when the Megatherium arrived in Madrid, naturalists still lacked the most important part of the puzzle presented by the fossil record: an understanding of evolution and the interrelatedness of life on Earth.

The task of interpreting the Luján fossils went to Juan Bautista Bru, the “Artist and First Dissector” at the Royal Cabinet. Born in Valencia, Bru had initially tried his hand as a traditional artist, but found little success. After shifting his focus to natural science, Bru joined the Royal Cabinet in 1771 and remained there until his death in 1799. Bru primarily served as a scientific illustrator, combining his artistic skill with his extensive anatomical knowledge to produce gorgeously detailed drawings of biological specimens, as was required before photography became commonplace. He was also responsible for producing taxidermy pieces and occasionally, mounted skeletons of animals. In 1777, Bru prepared and mounted the skeleton of an elephant that had died at the royal estate in Aranjuez, a task which doubtlessly provided useful practice for mounting the gigantic Megatherium.

Plate I from Bru’s Megatherium monograph.

Bru devoted four years to studying the Luján fossils, which were complete except for the animal’s tail. He completed his monograph in 1793, which included detailed descriptions of every skeletal element, in addition to 22 plates illustrating the bones from various angles. Among the illustrations was the completely articulated skeleton shown above, which is, incidentally, the first recorded instance of a skeletal drawing illustrating the living form of an extinct animal. Since the mounted skeleton did not go on display until 1795, it is unclear whether Bru based the illustration on the mount or vice versa. Unfortunately, little is known about how Bru created the Megatherium mount, and his drawing provides no information about the armature that supported the massive bones. Since Bru did not discuss the mount’s construction in his monograph, one can only surmise that the techniques he refined over the years building mounts of modern animal skeletons were applicable to the fossils. Wooden armatures were used to mount fossils in the early 1800s, and it is plausible that Bru pioneered this technique. Regardless of how it was supported, the rhino-sized Megatherium mount was placed on a rectangular wooden platform in a room of the Royal Cabinet already devoted to fossils and minerals.

It is unclear why, but Bru never published his monograph, and this unfortunately resulted in him effectively being scooped by Georges Cuvier in 1796. A representative of the French government working in Santa Domingo acquired a set of proofs of Bru’s monograph and illustration, and passed them along to the Institut de France. The proofs made their way to Cuvier, who was well established as one of the world’s leading experts in anatomy and natural history. Although he had not yet seen the actual fossils, Cuvier wrote a brief article in the journal Magasin Encyclopedique on the South American creature, in which he coined the rather vague name Megatherium americanum, meaning American giant beast. Cuvier’s article was not without error (he claimed the fossils were found in Paraguay), but he did correctly recognize that the animal was an edentate* and was curiously similar to modern tree sloths**. In contrast, Bru’s description of the fossils, while thorough, contained no attempt at classification.

As it happened, Cuvier published a second important article on fossil animals in 1796: his Mémoires sur les espèces d’éléphants vivants et fossiles, in which he established that the mammoth fossils found in the Americas belonged to an extinct relative of modern elephants. The wave of attention Cuvier received that year for his contributions to the young field of paleontology apparently eclipsed any recognition of Bru’s multi-year study of the Megatherium. Bru ended up selling his monograph and illustrations to a publisher, and a translated version eventually appeared in a widely disseminated booklet with Cuvier’s Megatherium article in 1804, five years after Bru’s death.

Megatherium would continue to be important to 19th century paleontologists. Charles Darwin became interested in South American fossils during the second voyage of the HMS Beagle. In particular, the relationship between the extinct ground sloths and their modern relatives contributed to Darwin’s ideas about the succession of species over geologic time. In 1849, the British Museum produced a Megatherium mount of their own, a composite of two skeletons found very near to where the Spanish specimen was first discovered. Plaster casts of this mount would appear in museums on both sides of the Atlantic, and the original cast is still on display in London today (some of the fossils were destroyed during World War II). But while the discovery of Megatherium would be recounted often over the subsequent two centuries, it was Cuvier, not Bru, who was always given credit for introducing the animal to the world. Only in recent years has Bru’s name begun to circulate again in historical accounts.

The original Megatherium fossils have been remounted at the Museo Nacional de Ciencias Naturales. Image from Virtual Tourist.

However, there is a bit of happiness at the end of this story. Unlike other early mounts like Peale’s mastodon and Hydrarchos, Bru’s Megatherium has survived to the present day. Remounted on a new steel armature in an approximation of the original quadrupedal pose, the Luján Megatherium fossils are on display at the Royal Cabinet’s spiritual successor, the National Museum of Natural Science in Madrid. On public display for a nearly uninterrupted 218 years, this specimen can surely be said to have taken on a second life. It was once a giant beast that roamed across the ancient Argentinian plains, and now it is a monument to scientific achievement.

*Edentata is a historic paraphyletic group that includes sloths, anteaters, pangolins and aardvarks. Modern biologists recognize that the new world sloths and anteaters and old world pangolins and aardvarks are not closely related. The name Xenarthra is now used for sloths and their new world relatives.

**Cuvier was working many decades before Charles Darwin published On the Origin of Species, and as such, did not subscribe to the idea that species could change and diversify over time. It is therefore worth noting that while he recognized the similarity between Megatherium and modern sloths, he did not conceive of their relationship in an evolutionary sense (that is, related species sharing a common ancestor).

References

Argot, C. (2008). Changing Views in Paleontology:
The Story of a Giant (Megatherium, Xenarthra). Mammalian Evolutionary Morphology. Pp 37-50.

López Piñero , J.M. (1988). Juan Bautista Bru (1740-1799) and the Description of the Genus Megatherium. Journal of the History of Biology. 21:1:147-163.

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Filed under fossil mounts, history of science, mammals, museums, paleoart

Tagged as fossil mounts, fossils, history of science, Megatherium, natural history museums, paleontology

November 15, 2013 · 7:31 pm

First Full-Sized Dinosaurs: From Crystal Palace to Hadrosaurus

Last time, we covered how Albert Koch turned a tidy profit with his less-than-accurate fossil mounts, leading credible paleontologists to avoid involvement with full-sized reconstructions of extinct animals for much of the 19^th century. With the exceptions of Juan Bautista Bru’s ground sloth and Charles Peale’s mastodon, all the fossil mounts that had been created thus far were horrendously inaccurate chimeras assembled by often disreputable showmen. Serious scientists were already struggling to disassociate themselves from these sensationalized displays of imaginary monsters, so naturally they avoided degrading their work further by participating in such frivolous spectacle.

The prevailing negative attitude toward fossil mounts among academics would begin to shift in 1868, when paleontologist Joseph Leidy and artist Benjamin Waterhouse Hawkins collaborated on a mount of Hadrosaurus, the first dinosaur to be scientifically described in America and the first dinosaur to be mounted in the world. While prehistoric animals were well known by the mid-19^th century, the Hadrosaurus was so bizarre, so utterly unlike anything alive today, that it truly opened people’s eyes to the unexplored depths of the Earth’s primordial history. I have written about the Hadrosaurus mount before, but its creation was such a landmark event in the history of paleontology and particularly the public understanding of prehistory that it deserves to be contextualized more thoroughly.

Discovering Dinosaurs in Britain

In the early 1800s, American fossil hunters were busy poring over the bones mammoths, mastodons and other mammals. Across the Atlantic, however, it was all about reptiles. Scholars were pulling together the first cohesive history of life on earth, and Georges Cuvier was among the first to recognize distinct periods in which different sorts of creatures were dominant. There had been an Age of Mammals in the relatively recent past during which extinct animals were not so different from modern megafauna, but it was preceded by an Age of Reptiles, populated by giant-sized relatives of modern lizards and crocodilians. The marine ichthyosaurs and plesiosaurs unearthed by Mary Anning on the English coast were the first denizens of this era to be thoroughly studied, but they were soon followed by discoveries of terrestrial creatures. In 1824, geologist William Buckland received a partial jaw and a handful of postcranial bones found in the Oxfordshire shale. Recognizing the remains as those of a reptile, Buckland named the creature Megalosaurus, making it the first scientifically described non-avian dinosaur (honoring the unspoken agreement to ignore “Scrotum humanum”).

The partial jaw of Megalosaurus, the first named dinosaur.

Of course, the word “dinosaur” did not yet exist. As covered by virtually every text ever written on paleontological history, it was anatomist Richard Owen who formally defined Dinosauria in 1842 as a distinct biological group. Owen defined dinosaurs based on anatomical characteristics shared by Megalosaurus and two other recently discovered prehistoric reptiles, Iguanodon and Hylaeosaurus (fatefully, and somewhat arbitrarily, he excluded pterosaurs and doomed paleontologists and educators to forever reminding people that pterodactyls are not dinosaurs). In addition to being an extremely prolific author (he wrote more than 600 papers in his lifetime), Owen was a talented publicist and quite probably knew what he was unleashing. The widely publicized formal definition of dinosaurs, accompanied by displays of unarticulated fossils at the Glasgow Museum, was akin to announcing that dragons were real. By giving dinosaurs their name, Owen created an icon for the prehistoric past that the public could not ignore.

“Dinosaur” soon became the word of the day in Victorian England. Looking to capitalize on this enthusiasm for paleontology, the Crystal Palace Company approached Owen in 1852 to oversee the creation of an unprecedented new exhibit. The company was building a park in the London suburb of Sydenham, meant to be a permanent home for the magnificent Crystal Palace, which had been built the previous year for the Great International Exhibition of the Works and Industry of All Nations. Concerned that the palace would not draw visitors to the park on its own, the Crystal Palace Company commissioned Owen and scientific illustrator Benjamin Waterhouse Hawkins to create a set of life-sized sculptures of dinosaurs and other prehistoric creatures, the first of their kind in the world. The sculptures were a tremendous undertaking: the Iguanodon, for instance, was supported by four 9-foot iron columns, and its body was built up with brick, tile and cement. Hawkins then sculpted its outer skin from more than 30 tons of clay. All told, more than a dozen animals were built, including Megalosaurus, Iguanodon, Hylaeosaurus and an assortment of marine reptiles and mammals.

The Crystal Palace dinosaurs under construction in Hawkin’s studio.

Queen Victoria herself presided over the opening ceremony of Crystal Palace Park in 1854, which was attended by 40,000 people. This was an important milestone because up until that point, only the broadest revelations in geology and paleontology made it out of the academic sphere. But as Hawkins himself put it, the Crystal Palace dinosaurs “might be properly described as one vast and combined experiment of visual education” (Hawkins 1853, 219). The general public could see firsthand the discoveries and conclusions of the most brilliant scientists of their age, in a format that could not only be readily understood and appreciated, but experienced. Full-sized reconstructions of prehistoric animals, including fossil mounts, continue to be built today for precisely this reason.

Recently restored Iguanodon sculptures. Wikimedia Commons.

Recently restored Iguanodon sculptures at Crystal Palace Park. Source

While the Crystal Palace dinosaurs are important historic artifacts and beautiful works of art in their own right, they have not aged well as accurate reconstructions. Owen only had the scrappiest of dinosaur fossils to work with, enough to conclude that they were reptiles and that they were big but not much else. As a result, the Megalosaurus and Iguanodon sculptures look like rotund lizards, as though a monitor lizard or iguana gained the mass and proportions of an elephant. By modern standards, these beasts look pretty ridiculous as representations of dinosaurs, but they were quite reasonable given what was known at the time, at least for a few years.

Dinosaurs of the Jersey Shore

And so at last Hadrosaurus enters the story. Just four years after the unveiling of the Crystal Palace sculptures, the first American dinosaur was found on a farm near Haddonfield, New Jersey (dinosaur footprints and teeth had been found earlier, but their affinity with the European reptiles was not recognized until later). William Foulke, a lawyer and geology enthusiast affiliated with the Philadelphia-based Academy of Natural Sciences, was at his winter home in Haddonfield when he paid a visit to his neighbor, John Hopkins. Hopkins told Foulke that he occasionally found large fossils on his land, which he generally gave away to interested friends and family members. With Hopkins’ permission, Foulke searched the site where the fossils had been found with the assistance of paleontology and anatomy specialist Joseph Leidy. Also a member of the Academy of Natural Sciences, Leidy is considered the founder of American paleontology and during the mid-1800s, he was the preeminent expert on the subject. At the Haddonfield site, Foulke and Leidy uncovered approximately a third of a dinosaur skeleton, including two nearly complete limbs, 28 vertebrae, a partial pelvis, scattered teeth and two jaw fragments.

All known Hadrosaurus fossils, presently on display at the Academy of Natural Sciences.

Now in possession of the most complete dinosaur skeleton yet found, Leidy began studying the fossils of what he would name Hadrosaurus foulkii (Foulke’s bulky lizard) in Philadelphia. The teeth in particular told Leidy that Hadrosaurus was similar to the European Iguanodon. Like Iguanodon, Hadrosaurus was plainly an herbivore, and for reasons left unspecified Leidy surmised that it was amphibious, spending most of its time in freshwater marshes. Leidy noted that Hadrosaurus was a leaner and more gracile animal than Owen’s Crystal Palace reconstructions, but he was particularly interested in “the enormous disproportion between the fore and hind parts of the skeleton” (Leidy 1865). Given the large hindlimb and small forelimb, Leidy reasoned that Hadrosaurus was a habitual biped, and likened its posture to a kangaroo, with an upward-angled trunk and dragging tail. As such, we can credit Leidy for first envisioning the classic Godzilla pose for dinosaurs, which has been known to be inaccurate for decades but remains deeply ingrained in the public psyche.

Although the new information gleaned from Hadrosaurus made it clear that the Crystal Palace sculptures were hopelessly inaccurate, Leidy had been impressed by the Sydenham display and wanted to create a similar public attraction in the United States. Leidy invited Hawkins to prepare a new set of prehistoric animal sculptures for an exhibit in New York’s Central Park. Hawkins set up an on-site studio and began constructing a life-sized Hadrosaurus, in addition to a mastodon, a ground sloth and Laelaps, another New Jersey dinosaur. Unfortunately, Hawkins’ shop was destroyed one night by vandals, apparently working for corrupt politicians. What remained of the sculptures was buried in Central Park and the exhibit was cancelled.

Edit 4/20/2017: Leidy was not actually involved in planning the ill-fated Central Park display. Thanks to Raymond Rye for the tip!

The “Bulky Lizard” Mount

Instead of abandoning the project entirely, Hawkins and Leidy redirected the resources they had already prepared for the Central Park exhibit into a display at the Academy of Natural Sciences museum in Philadelphia. Leidy decided he wanted a mounted skeleton of Hadrosaurus, rather than a fully fleshed model as was originally planned. Such a display had not appeared in a credible museum since Charles Peale created his mastodon mount, but if anybody could get a fossil mount to be taken seriously, it was Leidy.

With only a partial Hadrosaurus skeleton to work with, Hawkins had to sculpt many of the bones from scratch, in the process inventing many of the mounting techniques that are still in use nearly a century and a half later. For instance, Hawkins created mirrored duplicates of the left limb bones for use on the animal’s right side, and reconstructed best-guess stand-ins for the skull, scapulae and much of the spinal column using modern animals as reference. Based on photographs like the one below, it appears that portions of the vertebral column were cast as large blocks, rather than individual vertebrae. The mount was supported by a shaped metal rod running through the vertebrae, as well as a single vertical pole extending from the floor to the base of the neck. In fact, very little of the armature appears to have been externally visible, suggesting that making the skeleton as aesthetically clean as possible was a priority.

Hadrosaurus under construction in Hawkins’ studio. Note the flightless bird mounts used for reference. From Carpenter et al. 1994.

The Hadrosaurus mount had a few eccentricities that are worth noting. First, the mount has seven cervical vertebrae, which is characteristic of mammals, not reptiles. Likewise, the scapulae and pelvis are also quite mammal-like. Hawkins was apparently using a kangaroo skeleton as reference in his studio, and it is plausible that this was the source of these mistakes. In addition, Hawkins had virtually no cranial material to work with (despite several repeat visits to the Haddonfield site by Academy members searching for the skull), so he had to make something up. He ended up basing the his sculpted skull on an iguana, one of the few exclusively herbivorous reptiles living today. Although fossils of Hadrosaurus relatives would later show that this was completely off the mark, it was very reasonable given what was known at the time.

The Hadrosaurus mount was unveiled at the Academy of Natural Sciences musuem in 1868, and the response was overwhelming. The typical annual attendance of 30,000 patrons more than doubled that year to 66,000, and the year after that saw more than 100,000 visitors. Traffic levels were so high that the Academy had to decrease the number of days it was open and enforce limits on daily attendance in order to prevent damage to the rest of the collection. Soon, the Academy was forced to relocate to a new, larger building in downtown Philadelphia, which it still occupies today.

The audience for the Hadrosaurus mount was expanded greatly in the 1870s by three plaster copies of the skeleton, which were sent to Princeton University in New Jersey, the Smithsonian Institution in Washington, DC and the Royal Scottish Museum in Edinburgh (the first dinosaur mount displayed in Europe). The Smithsonian copy had a particularly mobile existence: it was first displayed in the castle on the south side of the National Mall, moved to the dedicated paleontology display in the Arts and Industries Building around 1890, and finally traded to the Field Museum in Chicago later in the decade. In Chicago, the Hadrosaurus was displayed in a spacious gallery alongside mounts of Megaloceros and Uintatherium, and it is in this context that the best surviving photographs of the Hadrosaurus mount were taken. Sadly, by the early 1900s all three casts had been destroyed or discarded by their host institutions, since they had either deteriorated badly or were deemed too inaccurate for continued display. The original Philadelphia mount was also dismantled, although the Hadrosaurus fossils are still at the Academy.

Hadrosaurus cast on display at the Field Museum. Field Museum Photo Archives.

Why was the Hadrosaurus mount such a big deal? For one thing, it was different from previous fossil mounts in that it was the product of the best scientific research of the day. This was not the work of a traveling showman but a display created by the preeminent scientific society of the era, with all the mystique and prestige that came with it. Most importantly, however, the Hadrosaurus mount presented the first ever opportunity to stand in the presence of a dinosaur. By the mid-19th century, western civilization had had ample opportunity to come to terms with the fact that organisms could become extinct, but for the most part the fossils on display were similar to familiar animals like horses, elephants and deer. The Hadrosaurus, however, was virtually incomparable to anything alive today. It was a monster from a primordial world, incontrovertible evidence that the Earth had once been a very different place. By comparison, the Crystal Palace sculptures were essentially oversized lizards, and therefore fairly relateable. The Hadrosaurus was the real turning point, the moment the public got their first glimpse into the depths of prehistory. For 15 years, the Hadrosaurus was the only real dinosaur on display anywhere in the world, so it is no wonder that people flocked to see it.

Of course, the Hadrosaurus was only the beginning of the torrent of dinosaur fossils that would be unearthed in the late 19th century. It would prove to be but a hint at the amazing diversity and scale of the dinosaurs that would be revealed in the American west, as well as the scores of fossil mounts that would soon spring up in museums.

References

Carpenter, K., Madsen, J.H. and Lewis, L. (1994). “Mounting of Fossil Vertebrate Skeletons.” In Vertebrate Paleontological Techniques, Vol. 1. Cambridge, UK: Cambridge University Press.

Leidy, J. (1865). “Cretaceous Reptiles of the United States.” Smithsonian Contributions to Knowledge. 14: 1-102.

Waterhouse Hawkins, B. (1853). “On Visual Education as Applied to Geology.” Journal of the Society of Arts. 2: 444-449.

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Filed under anatomy, dinosaurs, field work, fossil mounts, history of science, museums, ornithopods, paleoart, reptiles

Tagged as Academy of Natural Sciences, Benjamin Waterhouse Hawkins, Crystal Palace, dinosaurs, fossil mounts, Hadrosaurus, Joseph Leidy

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