Category Archives: dinosaurs

A Tour of Dinosaur Park

I generally use this blog to write about other people’s work, but today I’m going to turn the tables and share a project I’ve been involved with for the past couple years. As of this month, the new interpretive area at Laurel, Maryland’s Dinosaur Park is (just about) complete. I’m proud of my own contributions, and ecstatic with all the work my immeasurably talented and dedicated colleagues have done to bring this project to fruition.

Introductory sign at Dinosaur Park.

Dinosaur Park is a 41-acre site operated by the Maryland-National Capital Park and Planning Commission that preserves the most productive dinosaur fossil quarry in the eastern United States. Historically known as the Muirkirk quarry, this location has been a known source of dinosaur material since 1858. Fossils were first discovered by ironworkers collecting siderite for processing at the nearby Muirkirk ironworks. Later, O.C. Marsh, John Bell Hatcher, Charles Gilmore, Richard Lull and other prominent paleontologists would collect or study fossils from this deposit. The site was largely forgotten for most of the 20th century, but in the 1980s Peter Kranz, Tom Lipka, and others relocated it and began unearthing new material. Highlights included a massive sauropod femur, basal ceratopsian teeth, and the only Mesozoic mammal fossils ever found east of the Mississippi River.

The Muirkirk quarry produced some of the first dinosaur fossils to be scientifically studied in North America, and as such conceptions of its position in geologic time have understandably changed over the years. Marsh assumed the site was Jurassic in age because of the presence of sauropods, but Gilmore later revised it to Cretaceous. Based on pollen data, we can now place the site (and the Patuxant Formation as a whole) at the Aptian-Albian boundary in the Lower Cretaceous. Contrary to older proposals, the Muirkirk dinosaur fauna has more in common with the middle strata of the Cedar Mountain Formation in Utah than the Wealden Group in England.

Excavating a sauropod femur at the future site of Dinosaur Park in 1991. Photo courtesy of Pete Kroehler.

Dinosaur Park fossils aren’t much to look at, but they are remarkable for their diversity. This is a record of a complete ecosystem.

Thanks to some determined lobbying, the M-NCPPC (a bi-county organization that administers parks and urban planning) acquired the Muirkirk site and formally dedicated Dinosaur Park in October 2008. From its inception, Dinosaur Park was conceived as a citizen science project. During school programs and regularly scheduled open houses, visitors are invited to take part in ongoing prospecting for fossils. These programs emphasize stewardship of natural heritage, rather than treasure hunting, and to date visitors have discovered thousands of specimens. All of these fossils are accessioned into the county’s collection for research and education, and important specimens are turned over to the National Museum of Natural  History for final curation (search the NMNH Paleobiology collections database for “Arundel” to view this material).

Citizen scientists prospecting for fossils at Dinosaur Park.

Back in 2008, there wasn’t much to Dinosaur Park beyond the fossil site, a protective fence, and a small gravel parking lot. There were always plans to further develop the site, however, and thanks to the Park’s ongoing popularity we were able to kick off the phase II construction in 2016. The project involved developing the entrance area with exhibits and visitor amenities. There wasn’t a lot of space to work with, and the new facilities would have to do double duty: they needed to be useful both during guided programs and for drop-in visitors during the week (when the fossil site is closed). We ended up with an integrated, multipurpose space incorporating a series of exhibit signs, a garden of “living fossil” plants, a presentation area, a climbable dinosaur skeleton, two picnic benches, and a restroom and drinking fountain.

A number of additions were – to the probable annoyance of my colleagues –  the result of me piping up with a last-minute “wouldn’t it be cool if…” suggestion. That’s how we ended up with a life-sized image of the Astrodon femur discovered by the Norden  family in 1991, a trail of sauropod footprints, and a series of displays about baby sauropods (perhaps there’s a theme there?).

The garden, play area, and other new facilities at Dinosaur Park.

One of several new interpretive signs.

The content of the exhibit signs was directly informed by formal and informal visitor surveys. We took note of visitors’ most frequent questions, as well as which parts of our old displays were being ignored or misunderstood. For example, lots of visitors wanted to know about the biggest or most important fossils found at the Park. These weren’t illustrated on our old signs, but they’re integral parts of the new ones. Meanwhile, very few visitors were engaging with content about local geology, so those sections ended up being cut.

A section of Shoe’s masterful Cretaceous Maryland mural. Artwork by Clarence Schumaker, courtesy of the M-NCPPC.

For me, and hopefully many visitors, the highlight of the new displays is the spectacular mural created by Clarence “Shoe” Schumaker. Shoe has produced artwork for numerous parks and museums, including several National Park Service facilities, but to my knowledge he had never painted dinosaurs before. Nevertheless, he approached the project with unquenchable enthusiasm, determined to get every detail correct. Working with Shoe was a fantastic experience – I would send him my hasty sketches and random ideas and he would somehow turn them into spectacular imagery. Our goal was to produce an image that would be at home in any nature center. This is an overview of an ecosystem, and the presence of dinosaurs is only by happenstance. The final piece is mesmerizing, and I think its hyper-detailed placidity gives it a certain Zallinger-like quality.

The finished mural was so cool that I couldn’t help but ask for more. One under-reported virtue of the Dinosaur Park collection is that we have sauropod remains from a variety of ages and sizes – from 70-foot adults to tiny hatchlings. I suggested a single image of a baby sauropod to help illustrate these animals’ remarkable growth potential. Shoe turned around and produced two full paintings and a life-sized model. The man is seriously unstoppable.

Shoe’s 2D and 3D baby Astrodon art. Artwork by Clarence Schumaker, courtesy of the M-NCPPC.

It’s been a wonderful experience seeing the Dinosaur Park interpretive area come together, and the few places where compromises were made are vastly overshadowed by the many prominent successes. Dinosaur Park is an important resource, both for growing our knowledge of prehistory and for introducing the local community to the process of scientific discovery. I can’t wait to see it continue to grow!

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Filed under citizen science, Dinosaur Park, dinosaurs, education, exhibits, field work

Do fossil exhibits have too many dinosaurs?

Reflexive discussion about the practice of communicating paleontological science to general audiences has become more common recently – there was even a two-day Popularizing Paleontology workshop in London last year.  It’s about time – paleontology encompasses some of the most important questions about the world around us, from how life evolves to how ecosystems respond to planetary changes. Paleontology is the study of how the world came to be, and our understanding of the natural world is hopelessly incomplete without it. For the larger public, however, paleontology is synonymous with dinosaurs, and this can be a problem. Dinosaurs are awesome, but they are but one branch of the tree of life. And while their 160 million year dominance is significant, the era of non-avian dinosaurs is only a fraction of the 3.5 billion year history of life on Earth. Their story is not the only story worth telling.

Why the outsized fascination with dinosaurs? I suspect it’s the result of a self-perpetuating cycle. Human curiosity peaks somewhere between subjects an individual knows well and subjects that are completely new to them. In other words, people prefer to learn about things they are already familiar with. That means that museum visitors are drawn to dinosaurs like Tyrannosaurus and Apatosaurus because they already know something about them. Meanwhile, other fascinating creatures are bypassed precisely because visitors lack an existing mental framework to contextualize them. Somewhat paradoxically, in the sphere of informal learning, familiarity is king.

Generally, educators have been happy to indulge the public craving for dinosaurs*. In a must-read blog post resulting from the aforementioned Popularizing Paleontology workshop, Mark Witton describes dinosaurs as “one of the most important and potent tools at our disposal” because they are “gateways” to discussions about evolution, extinction, deep time, and even the nature of the scientific method. Witton then unpacks this conventional wisdom, highlighting several ways that relying on the built-in appeal of dinosaurs may not be as effective as traditionally assumed. It’s a fascinating discussion that I highly recommend reading.

Witton’s post got me thinking that if we’re going to consider easing up on dinosaurs in outreach efforts, we need some sort of baseline to firmly establish if (or the degree to which) they are being overused. One argumentum ad nauseum in these conversations is that museum exhibits are overstocked with dinosaurs. Allegedly, exhibit designers have responded to the popularity of Mesozoic dinosaurs by devoting an excessive amount of exhibit space to them, while relegating Paleozoic and Cenozoic specimens to the collections. This supposition can be (very, very crudely) tested by comparing the percentage of available exhibit space to the percentage of time non-avian dinosaurs dominated the planet. Assuming that exhibits should not be expected to allocate proportional space to pre-Phanerozoic life, I figure that the “Age of Dinosaurs” should cover 30-35% of an exhibit about life since the Cambrian (~160 million out of 541 million years).

To satisfy my own curiosity, I’ve gone and checked this figure against the three big paleontology exhibits with which I am most familiar. The slapdash maps below are traced from museum guides available online, with percentages calculated with the help of the Photoshop ruler tool. Green denotes dinosaurs, brown represents Cenozoic mammals, and blue encompasses everything else, including Paleozoic fossils, overviews of life over time, and non-dinosaurian Mesozoic life.

Field Museum of Natural History

Space allotment by subject in Evolving Planet at the Field Museum of Natural History. Dinosaurs: 31%; Mammals: 31%; Other: 38%.

Let’s start with the Field Museum, since it’s the most straightforward. The Evolving Planet exhibit (on view since 2006) occupies three elongated halls totaling 27,000 square feet. Evolving Planet is a classic “walk through time”-style exhibit, and the Paleozoic, Mesozoic, and Cenozoic are given remarkably equal amounts of floor space. Even though the central hall is larger than the other two, it is partially occupied by plants, marine animals, and early Triassic weirdos. At 31% of the total exhibit, dinosaurs are right about where they should be.

National Museum of Natural History

Space allotment by subject in the old fossil halls at the National Museum of Natural History. Dinosaurs: 15%; Mammals: 43%; Other 42%.

The old paleontology halls at the National Museum of Natural History (closed since 2014) demonstrate what happens when a museum goes without a dinosaur specialist for three quarters of a century. Cenozoic mammals and Paleozoic marine life were given room to spread out, while the dinosaurs were crowded into a paltry 15% of the available 31,000 square feet. It’s worth noting that unlike the Field Museum’s current fossil halls, which were designed from the ground up in the early 1990s, the NMNH paleontology wing was built up in a piecemeal fashion over the course of a century. The space was repeatedly carved into smaller sections to make room for new exhibits, and designers had to work around existing specimens that were too expensive or difficult to move. By the 1980s the halls had become something like a maze, and much of the available space wasn’t used very efficiently. Still, the consistently meager amount of space allotted to dinosaurs made it clear where the curators’ interests lay.

American Museum of Natural History

gallery usage at amnh

Space allotment by subject on the fourth floor of the American Museum of Natural History. Dinosaurs: 40%; Mammals: 30%; Other: 30%.

At the American Museum of Natural History, fossil exhibits are spread across six halls on the fourth floor. The last substantial renovation was completed in 1995, although a titanosaur skeleton was added to the Orientation Hall in 2016. This exhibit differs from its counterparts at FMNH and NMNH in that it’s arranged phylogenetically, rather than chronologically. It is also limited to vertebrate evolution, so plants and invertebrates are not included. With those caveats in mind, dinosaurs occupy 40% of the 65,000 square feet of exhibit space.

So, do museums have too many dinosaurs? Based on this exercise, these three museums have just the right amount (or even too few). The proportion of space allocated to dinosaurs closely matches the time span of their ecological dominance during the Phanerozoic. The percentage of dinosaur space at AMNH is on the high side, but if we also incorporated the square footage of the human evolution exhibit and the assortment of marine invertebrate fossils on display elsewhere in the museum, that percentage would decrease significantly. In fact, if this exercise has revealed anything, it’s that Cenozoic mammals get an awful lot of space, given that the “Age of Mammals” takes up only 13% of the Phanerozoic.

Again, this is an extremely crude way to measure dinosaur-themed engagement efforts. One might also look at the number of specimens on exhibit, or the newness of the displays (are dinosaurs getting updated more frequently, while other exhibits are left to languish?). And that’s to say nothing of outreach beyond the permanent exhibits. Still, I hope this is a helpful starting point. At the very least, it suggests to me that “are museums over-emphasizing dinosaurs?” is not the only question worth asking. We also need to tease out if audiences are ignoring non-dinosaur paleontology outreach efforts, and if there’s a way to counter that.

*It’s a tired but worthwhile point that comparatively few people can articulate what a dinosaur actually is. For many, anything big and dead (and displayed in skeletal form) is a dinosaur. This complicates the matter, because when people ask for dinosaurs they may actually mean prehistoric animals.

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Filed under AMNH, dinosaurs, exhibits, FMNH, mammals, museums, NMNH, systematics

Acrocanthosaurus, the Terror of the South

Acrocanthosaurus at the North Carolina Museum of Natural Science. Photo by the author.

Following yesterday’s travelogue about the North Carolina Museum of Natural Science (NCSM), I thought I’d go into a little more depth about the museum’s star fossil. One of only five Acrocanthosaurus specimens ever found, NCSM 14345 is the most complete and the only one on public display. The mounted skeleton has been at the Raleigh museum since 2000. Among other things, its story highlights the challenging relationship between academic paleontologists and the private fossil trade.

Despite its current home in North Carolina, this Acrocanthosaurus hails from the town of Idabel in southeast Oklahoma, more than a thousand miles away. Avocational fossil hunters Cephis Hall and Sid Love (both now deceased) discovered the skeleton in 1983. After making an arrangement with the landowner, the pair spent the next three years carefully excavating the find.

The Acrocanthosaurus was recovered from the early to mid Cretaceous rocks of the Antlers Formation. Found in a deposit of fine sandstone and dark mudstone alongside lots of lignitized wood, the animal’s final resting place was probably a stagnant swamp or pond. Additional evidence for the depositional environment comes from the way the bones are preserved. They contain a great deal of pyrite, and were encrusted with dense concretions of calcium carbonate. Both of these minerals are formed by bacteria blooms in low-oxygen locales, such as the mud at the bottom of a swamp. Gouges in the skull, ribs, and foot indicate scavengers – crocodiles and possibly other Acrocanthosaurus – were feeding on the carcass before it was buried.

All told, the find included a complete skull (the only one of its kind), the pelvis and sacral vertebrae, both arms and shoulder girdles, the right leg, and parts of the rib cage and tail. Paleontologist Richard Cifelli of the Sam Noble Museum in Norman, Oklahoma became aware of the discovery in 1987. Cifelli initially hoped that the museum could acquire the specimen for study and safekeeping, but Hall and Love’s asking price was beyond their means. Instead, Hall and Love loaned the fossils to the University of Texas. They were unsatisfied with this arrangement, however, and drove down to Austin to retrieve their dinosaur (the details of this event are apparently contentious). Hall and Love then sold the fossils to Geological Enterprises, a for-profit outfit based in Ardmore, Oklahoma, for $225,000 plus the promise of a cast once the prep work was completed. Geological Enterprises founder A. Allen Graffham gave the specimen the nickname “Fran,” after his wife.

The meticulously reconstructed Acrocanthosaurus skull. Photo by the author.

The calcium carbonate concretions and heavy pyrite content made the Acrocanthosaurus a particularly challenging fossil to prepare. The concretions are like natural cement and are very difficult to remove without damaging the bones. Meanwhile, pyrite breaks down into sulfur when exposed to oxygen and humidity, which can cause bones to crumble. In 1991, Graffham outsourced the preparation job to the Black Hills Institute in Hill City, South Dakota. Terry Wentz led the preparation project at BHI, which was reportedly one of the most challenging assignments of his career. The concretions encrusting the bones were so dense that they often had to be ground off, rather than chipped. This process could take several hours just to remove a few millimeters of calcium carbonate. To make matters worse, removing pyrite releases acidic particulates into the air. Preparators had to wear respirators and the bones had to be prepared in vacuum boxes.

The most daunting part of the project was reconstructing the specimen’s beautiful and intact skull. Although virtually complete, the skull was found crushed flat. Everyone involved agreed that the skull would be more informative and more impressive if it could be reinflated, but that was easier said then done. Over a year of work went into carefully separating the individual skull bones and reassembling them into their life position.

After five years of what was probably one of the most difficult fossil prep jobs ever attempted, the Acrocanthosaurus was ready to be sold. However, Graffham initially had trouble finding a buyer. There were interested parties in Japan, but he reportedly did not want the fossils to leave the United States.

On October 4, 1997, another well-preserved theropod skeleton went up for auction at Sotheby’s in New York. Sue – the most complete Tyrannosaurus ever found – was already legendary thanks to the protracted legal battle over the fossils. Now that the one-of-a-kind skeleton was being sold at a high profile auction, paleontologists feared that it would disappear into the hands of a private collector. On the night of the auction, most of the museums and other public repositories in the running were outbid within minutes. The North Carolina Museum of Natural Science appeared to be the only museum left after the price topped $5 million, and so the hopes of the paleontological community rested on their shoulders. NCSM dropped out at $7.2 million, and moments later Richard Gray, a veteran of art auctions, won Sue on behalf of a mysterious client. Happily, that client turned out to be the Field Museum (with financial backing from McDonald’s and Disney), and so Sue ended up in a public repository after all.

The Acrocanthosaurus and its sauropod companion can be seen from the ground and from a balcony. Photo by the author.

Still, NCSM had been willing to stake an enormous amount of money on a name brand dinosaur, and they weren’t about to give up. Two months after the Sue auction, the Friends of the North Carolina Museum of Natural Sciences bought the Acrocanthosaurus from Graffham’s company for $3 million. BHI prepared the mount, which debuted along with the rest of the museum’s new building on April 7, 2000. It may not be coincidental that this was just one month before the mounted skeleton of Sue was unveiled in Chicago.

The Acrocanthosaurus occupies a well-lit, circular atrium on the museum’s third floor. Visible both from the ground and from a balcony, the mount is accompanied by a rather goofy-looking sauropod statue. Model pterosaurs circle overhead on a rotating arm, and recreations of theropod and sauropod tracks from Dinosaur State Park in Paluxy, Texas can be seen throughout the room. The original skull is on display in a case outside the atrium.

Sadly, pyrite deterioration has continued to ravage the delicate fossils. Several of the original bones once included in the NCSM mount have been retired to the collections for safekeeping. As of this year, only the arms, right foot, and vertebrae appear to be original material. The rest have been replaced with casts.

Exhibit signs have also changed since the 2000 debut. NCSM exhibits staff learned from surveys that 80% of visitors thought the dinosaur on display was a T. rex, and plenty more assumed the whole skeleton was a replica. In response, most of the signage was redesigned. The displays now highlight the differences between “Acro” and T. rex, and highlight the exceptional rarity of the museum’s Acrocanthosaurus specimen.

A number of NCSM 14345 casts are on display at museums throughout North America, including the Virginia Museum of Natural History, the Houston Museum of Nature and Science, and the Kenosha Public Museum. As promised, Hall and Love were awarded a complete cast of the skeleton,  but without the means to assemble or display it, the replica sat in storage for several years. Eventually, local third and fourth graders successfully raised the $150,000 needed to display the cast at the Museum of the Red River in Idabel.

Acrocanthosaurus cast at the Virginia Museum of Natural History. Photo by the author.

Acrocanthosaurus cast at the Houston Museum of Nature and Science. Photo by the author.

Fossils are precious remains of real organisms, clues about ecosystems from long ago and the making of the world as we know it today. In an ideal world, all significant fossils would, from the moment of their discovery, be accessioned and held in a public collection at a museum or university. A fossil sitting on somebody’s mantelpiece or waiting to be sold at auction is doing nothing to grow our collective knowledge. However, public institutions don’t have the resources to find and excavate every fossil, and in the United States fossils found on private land belong to the landowners. That means that, for better or worse, there is a thriving commercial market for rare fossils.

A plurality of paleontologists do not engage with fossil dealers for ethical reasons. Indeed, even if they wanted to buy rare specimens, academic institutions can seldom match the prices individual collectors are willing to pay. Museums don’t usually have $3 million sitting around. That kind of money could fund a whole research team for years. As such, we’re left with a Catch-22. Paleontologists want important fossils to be in museums where they can be seen and studied by everyone. But if those fossils are in private hands, buying them would support and legitimize the industry that is also keeping fossils out of public collections. If there was an easy solution, it would have been worked out by now.

Nevertheless, serendipity occasionally strikes. This seems to have been the case with the Acrocanthosaurus. News about Sue generated interest in buying a name-brand dinosaur, and donors were willing to put up the money to get the specimen for NCSM. The skeleton is now in a public collection, at a free museum, no less. Meanwhile, the collectors were well compensated for their considerable investment. It’s hard to chalk that up as anything but a win, all around.

References

Carpenter, K. 2016. Acrocanthosaurus Inside and Out. Norman, OK: University of Oklahoma Press.

du Lac, J.F. 2014. The T. rex that got away: Smithsonian’s quest for Sue ends with different dinosaur. The Washington Post

Eddy, D.R. and Clarke, J.A. 2011. New Information on the Cranial Anatomy of Acrocanthosaurus atokensis and Its Implications for the Phylogeny of Allosauroidea (Dinosauria: Theropoda). PLoS ONE 6:3:e17932.

Lovelady, W. 2012. Every Step You Take. Exhibits and Emerging Media, North Carolina Museum of Natural Science. 

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Filed under dinosaurs, fossil mounts, museums, reptiles, theropods

North Carolina Museum of Natural Science

This pregnant right whale was killed when it was hit by a boat. Displayed with the fetus skeleton in situ, it now serves as a species ambassador.

The North Carolina Museum of Natural Sciences has been on my list of must-see museums for some time, and I finally had a chance to visit over Memorial Day weekend. Founded in 1879 as the North Carolina State Museum, the institution was initially a showcase for local agricultural and mineral products. Over the years, the interests of both the curators and the visiting public gradually nudged the museum in the direction of more generalized natural history. Now the largest natural history museum in the southeast, NCSM hosts a world-class research staff overseeing a collection of 1.7 million specimens. Since 2000, the museum has occupied a four-story facility in downtown Raleigh. A second wing, called the Nature Research Center, opened in 2012. There are also two satellite nature centers outside the city (which I did not visit) that are under the NCSM banner.

An introduction to geologic time.

First things first: the paleontology exhibit is quite good, although somewhat compact. Perhaps too compact, given its popularity and the amount of exhibit space the museum has to work with overall. Coming up the escalator to the 3rd floor, visitors are strongly encouraged to enter Habitats of North Carolina, a colorful and attractive walk through time. The initial spaces cover the basics. First, a series of pillars introduce the primary stages of life on Earth. This is followed by exhibits about where fossils come from, how we know how old fossils are, and so on. I particularly liked the “What to Fossils Tell Us?” display. Here, a grid of spinning cubes each hold small, conventional fossils. Visitors can rotate the cubes around to see that even these modest-looking remains can be very informative. For example, leaves and pollen provide detailed climate information, and a large croc scute suggests that a substantial body of water was present.

Prestosuchus in the Triassic scene. This appears to be a cast of the Brazilian AMNH 3856.

Edmontosaurus and Albertosaurus casts dominate the Cretaceous tableau.

The rest of the exhibit is built around a series of tableaus in which mounts and models of charismatic animals are placed in landscapes of replica foliage. Small, illustrative fossils are in cases throughout. First up is a cast of Prestosuchus, lurking among some Triassic horsetails. Next, Edmontosaurus, Albertosaurus, and Pachcephlosaurus casts populate the Cretaceous alongside lovely ginkgos and magnolias. A baby hadrosaur model at the feet of the Edmontosaurus was apparently stolen (and recovered) in 2012. The famous Willo – a Thescelosaurus skeleton that maybe/probably doesn’t have mineralized heart tissue in its chest – is on display under glass.

Did you know that most modern fish groups evolved only 20 million years ago? I didn’t!

A ground sloth in the standard pole-dancing pose.

Moving into the Cenozoic, a set of attractive and informative cases describe the origin and evolution of modern fishes and whales. This is followed by glass tunnel through a life-sized diorama of a late Eocene sea. The models here are spectacular, but the space is altogether too dark. I found it difficult to see the diorama, much less read the signs. The final section is home to a real ground sloth skeleton. This is a composite of several specimens recovered in 1999 near Wilmington, North Carolina. Happily, the reconstructed portions of the mount are distinct and easy to see. Habitats of North Carolina ends on an eccentric note with a set of mannequins in pioneer garb discovering fossils in a creek bed. I’m not really sure what this adds to the exhibit narrative.

Acrocanthosaurus holds court in a sunny atrium all to itself.

The star fossil at NCNM is the only real Acrocanthosaurus on display anywhere in the world. Avocational fossil hunters Cephis Hall and Sid Love found this rare skeleton in Oklahoma in 1983. Unfortunately, a bad case of pyrite disease made the fossils an absolute nightmare to prepare, and it exchanged hands several times before ending up with the Black Hills Institute in South Dakota. In 1997, an anonymous donor purchased the skeleton on behalf of NCNM for $3 million, shortly after the museum came in second place in the bidding war for Sue the T. rex.

Acrocanthosaurus is a favorite of mine, and the mount is beautiful. The sunny atrium it’s situated in makes for an attractive display, but I wish it wasn’t so disassociated from the main paleontology exhibit. I’m told the mount included more original material when it debuted in 2000, but the creeping specter of pyrite disease has necessitated the removal of several bones for restoration and safekeeping. Be sure to see it soon, before the rest of the mount gets replaced with casts!

Whales: behold their majesty.

The paleontology exhibits are nice and all, but the real showstoppers at NCSM are the whales. No less than six giant whale skeletons are on display. Suspended over a corridor of sorts, the whales can be viewed from below or from a 2nd story mezzanine. Many museums have a whale skeleton or two, but I’ve never encountered this many cetecean skeletons in one place. From the utterly insane-looking right whale to the colossal blue whale, they are stunning to behold. Be sure to factor in plenty of time to simply stare. Immersive dioramas of local habitats, live animal exhibits, and a look at collecting and exhibition practices past and present round out the museum’s “old wing.”

As mentioned, however, a whole new wing of exhibits opened in 2012. Called the Nature Research Center, this is basically the interactive, citizen science-driven Museum of the Future that educators (including myself) have been demanding for years. This three story space is all about getting visitors involved in science. There are multiple drop-in “labs” where knowledgeable staff lead visitors through mini-experiments, designed to get people thinking scientifically. There’s a molecular lab where visitors can isolate and analyze DNA samples. There’s a digital imagery space where visitors can practice using GIS tools, or explore the possibilities of 3-D printing. And there’s a Q?rius-like collections library, where visitors can check out and study real bones, furs, minerals, and fossils. The Nature Research Center also includes several fishbowl-style labs where visitors can watch museum staff and volunteers at work. Even the highly interdisciplinary static displays are less about the “what” and more about the “how”: the tools, techniques, and people that make science possible.

One of the lab spaces in the Nature Research Center.

Distressingly, on the day I visited, the traditional museum exhibits were crowded with visitors, but the Nature Research Center was nearly deserted. Since I was there on a holiday weekend, I was probably seeing a skeleton-crew version of the staff that is usually facilitating the interactive spaces. Still, the Nature Research Center is the embodiment of the modular, interactive exhibits that educators dream about. To see it empty while the story and object-driven exhibits were packed is somewhat disconcerting.

As the scientists say, though, a single anecdotal experience is not data. I’d be very interested to learn how this pioneering exhibit space holds up in the long run.

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Filed under dinosaurs, education, exhibits, fossil mounts, mammals, museums, opinion

Jurassic Museum

Teaser image for Jurassic Park 5, via Colin Trevorrow/Universal.

Well, this is a doozy. Jurassic World director Colin Trevorrow tweeted the above image this afternoon, which is a teaser for the upcoming “Jurassic World 2” (Jurassic Park 5?). The film doesn’t have an official title yet, but apparently they started shooting on February 23rd and are aiming for a June 2018 release.

The Victorian-style museum gallery piqued my interest immediately. Since this is the first promotional image they put out, it stands to reason that natural history exhibits might play a significant role in the film. Is this a flashback to a formative experience for a main character? Or is it a brief moment of quiet before Chris Pratt smashes through the wall riding a mutant cyborg T. rex? Both are probably equally likely at this point, but there are still a few things worth noting.

First, this scene is plainly referencing the century-old association in the public consciousness between museums and dinosaurs. When we think of museums, we think of dinosaurs, and vice versa. This is no accident – as I’ve discussed here on many occasions, dinosaurs (and their mounted skeletons in particular) played a central role in defining the modern museum at the start of the 20th century. The first Jurassic Park film played with this iconography in its classic finale, when the flesh-and-blood Tyrannosaurus and Velociraptor literally obliterate a pair of skeletal mounts. In that case, the implication was clear: the living, cloned dinosaurs represent new technology and scientific progress smashing the old and obsolete incarnations of paleontology to bits.

Y’know, this scene. (Universal).

Is “Jurassic World 2” pushing a similar message, casting the iconography of a museum hall as a past doomed to extinction? Maybe. The Victorian design elements – wood paneled walls, skeletons on open pedestals in orderly rows – distinctly evoke museums of the past. You’d be hard pressed to find an exhibit that looks like that today. Perhaps the filmmakers are using the Victorian iconography to enhance the impression of dusty obsolescence. Or maybe the baby boomer producers are recreating the sort of museum they remember from their childhood. The primary counterpoint is that the mise en scène on display here is stately and impressive. That dramatically-lit ceratopsian skull looks formidable, not at all like something shrinking back into history.

Let’s talk about that ceratopsian skull for a hot sec. The other skeletons are (perhaps incredibly) reasonably accurate representations of identifiable dinosaurs. We’ve got a tyrannosaur, a hadrosaur, and a dromaeosaur on the left, and what looks like Euoplocephalus, Kosmoceratops, and Protoceratops on the right. The skull in the center stands out as the sole fanciful element in the scene. It looks like an oversized, exaggerated Triceratops, with extra-long, tapering brow horns and a frill studded with spikes. Jurassic World established fantasy dinosaurs as being part of the Jurassic Park universe, so it’s possible this represents some kind of new, fictitious hybrid.

Charles Knight’s 1897 Agathaumas painting. Source

However, I was immediately reminded of Charles Knight’s classic take on Agathaumas. E.D. Cope named Agathaumas sylvestris in 1872, based on a pelvis and a number of vertebrae discovered in southwest Wyoming. It was technically the first ceratopsian dinosaur to be named and described, but without a skull, Cope had little idea of what the animal looked like (today, it’s considered a synonym of Triceratops).  Charles Knight depicted imagined the animal as a sort of spiny uber-Triceratops. His striking reconstruction was copied almost exactly for the Agathaumas that appeared in 1925’s The Lost World.

Triceratops and Agathaumas models, sculpted by Marcel Delgado and animated by Willis O’Brien. Source

It would be beyond awesome if the dramatic ceratopsian skull was meant to be a throwback or nod to the mythic Agathaumas. Or perhaps I’m reading too much in to it.

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Filed under dinosaurs, exhibits, fossil mounts, marginocephalians, movies

The National Fossil Hall Rejects

In April 2014, the paleontology exhibits at the National Museum of Natural History closed for a wall-to-wall renovation. The re-imagined National Fossil Hall will reopen in 2019. We are now approaching the halfway point of this journey, which seems like a fine time to say farewell to some of the more charismatic specimens that are being rotated off display.

In comparison to the old exhibit, the new version will be influenced by a less-is-more design philosophy. While there will not be quite as many individual specimens on display, those that are included will be more visible and will be explored in more detail. This combined with the significant number of new specimens being added means that many old mainstays had to be cut from the roster. Cuts occur for a variety of reasons, including eliminating redundancy, preserving specimens that were not faring well in the open-air exhibit space, and making specimens that have been behind glass for decades available to a new generation of researchers. Retired specimens are of course not going far – they have been relocated to the collections where students and scientists can study them as needed.

Stegomastodon (USNM 10707)

Stegomastodon in 2014. Photo by the author.

The Stegomastodon in 2014. Photo by the author.

The young male Stegomastodon is the largest single specimen that is being retired from the NMNH fossil halls. James Gidley and Kirk Bryan collected this skeleton in the San Pedro Valley of Arizona, during the same 1921 collecting trip that produced the museum’s Glyptotherium (which will be returning). While the genus Stegomastodon was erected in 1912, Gidley referred his specimen to a new species, S. arizonae, due to its more “progressive” physiology and slightly younger age. By 1925, the skeleton was mounted and on display in the Hall of Extinct Monsters. While the original mount used the real fossil tusks, these were eventually replaced with facsimiles.

There are at least two reasons the Stegomastodon will not be returning in 2019. First, there are already two big elephants on display: the mammoth and the mastodon. Elephants take up a lot of space, and a third proboscidean offers diminishing returns when compared to the amount of floor space it requires. More importantly, the Stegomastodon is a holotype specimen, and the exhibit team elected to remove most of these important specimens from the public halls. This is both to keep them safe from the damaging effects of vibration, humidity, and fluctuating temperature, as well as to make them more accessible to researchers.

Paramylodon (USNM V 15164)

Collections staff

Collections staff wheel Paramylodon out of the exhibit hall. Source

During the 1960s, Assistant Curator Clayton Ray oversaw the construction of the short-lived Quaternary Hall, which was reworked into the Hall of Ice Age Mammals. This meant creating a number of brand-new mounts, including several animals from the Rancho La Brea Formation in Los Angeles County. La Brea fossils are not found articulated, but as a jumble of individual elements preserved in asphalt. The Los Angeles Natural History Museum provided NMNH with an assortment of these bones, which preparator Leroy Glenn assembled into two dire wolves, a saber-toothed cat, and the sheep cow-sized sloth Paramylodon.

Paramylodon is another cut for the sake of eliminating redundancy: the colossal Eremotherium completely overshadows this more modestly-sized sloth. This mount also needed some TLC. For aesthetic reasons, the Paramylodon was given an internal armature, which involves drilling holes through each of the bones. Last year, preparator Alan Zdinak took on the task of disassembling and conserving these damaged fossils with assistance from Michelle Pinsdorf.

Zygorhiza (USNM PAL 537887)

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Zygorhiza cast in the Life in the Ancient Seas gallery. Source

When the Life in the Ancient Seas gallery opened in 1990, it featured a historic Basilosaurus skeleton that had been on display since the 1890s. This ancestral whale was relocated to the Ocean Hall in 2008, and a cast of the smaller whale Zygorhiza took its place in Life in the Ancient Seas. Since there is now an extensive whale evolution exhibit in Ocean Hall, this subject will not be a major part of the new paleontology exhibit. Both Zygorhiza and the dolphin Eurhinodelphis will have to go.

After the old fossil halls closed, Smithsonian affiliate Mark Uhen managed to acquire the retired Zygorhiza mount for George Mason University, where he is a professor. The whale is now on display in the Exploratory Hall atrium, suspended 30 feet in the air.

Tapirs, Horses, and Oreodonts

Photo by the author.

The tapir Hyrachyus and the mini-horse Orohippus. Photo by the author.

The last two major renovations of the NMNH fossil exhibits occurred when mammal specialists were in charge of the Paleobiology Department, and as a result the halls ended up with a lot of Cenozoic mammal mounts (at least 50, by my count). Virtually every major group was covered, often several times over. This menagerie has been culled for the new hall, which will focus on specimens that best tell the story of Earth’s changing climate during the past 66 million years. Casualties include the trio of Hagerman’s horses, the smaller horse Orohippus, the tapirs Hyrachyus and Helaletes, the ruminant Hypertragulus, and the oreodont Merycoidodon. Interestingly, the classic hall’s three large rhinos are sticking around, and will in fact be joined by at least one more.

Brachyceratops (USNM 7953)

Brachyceratops/Rubeosaurus

Brachyceratops/Rubeosaurus. Photo by NMNH Department of Paleobiology.

The pocket-sized ceratopsian historically called Brachyceratops has been on display at NMNH since 1922. Discovered in 1913 by Curator of Fossil Reptiles Charles Gilmore, this animal is one of only a few dinosaur species excavated, prepared, described, and exhibited entirely in-house at NMNH. Assembled by Norman Boss, the mount is actually a composite of five individuals Gilmore found together in northeast Montana.

Gilmore described Brachyceratops as an unusually small but full-grown ceratopsian, but in 1997 Scott Sampson and colleagues confirmed that all five specimens were juveniles. Unfortunately, the fossils lack many diagnostic features that could link them to an adult form. According to Andrew McDonald, the most likely candidate is Rubeosaurus. 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 specimens for the new exhibit. 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.

Corythosaurus (USNM V 15493)

Corythosaurus as seen in 1960s

Corythosaurus as seen in the 1960s. Photo courtesy of the Smithsonian Institution Archives.

In 1910, Barnum Brown of the American Museum of Natural History launched the first of several expeditions to the Red Deer River region of Alberta. Seeing Brown’s success and under pressure to prevent the Americans from hauling away so much of their natural heritage, the Canadian Geological Survey assembled their own team of fossil collectors in 1912. This group was headed by independent fossil hunter Charles Sternberg, who was accompanied by his sons George, Levi, and Charles Jr. Having secured several articulated and nearly complete dinosaur skeletons, Brown’s team moved on five years later. The Sternbergs, however, remained at the Red Deer River, and continued to collect specimens for the Royal Ontario Museum.

In 1933, Levi discovered a well-preserved back end of a Corythosaurus, complete with impressions of its pebbly skin. The Smithsonian purchased this specimen in 1937 for use at the Texas Centennial Exposition. It eventually found its way into the permanent paleontology exhibit at NMNH. Unfortunately, the half-Corythosaurus ended up crowded behind more eye-catching displays and was often overlooked by visitors. In the new exhibit, it will have to move aside to make room for new Cretaceous dinosaurs.

Assorted Dinosaur Skulls

Triceratops skull

Original skull of Hatcher the Triceratops, one of many dinosaur skulls coming off exhibit. Photo by the author.

In addition to complete dinosaur mounts, the old NMNH fossil halls included several dinosaur skulls, ranging from the giant cast of the AMNH Tyrannosaurus to the miniscule Bagaceratops. Most of these standalone skulls have been cut, although a few (Diplodocus, Camarasaurus, and Centrosaurus) are sticking around, to say nothing of new specimens being added. Other retirees in this category include the original skulls of Nedoceratops (labeled Diceratops), TriceratopsEdmontosaurus, and Corythosaurus, as well as casts of Protoceratops, Pachycephalosaurus, Stegoceras, Psittacosaurus, and Prenocephalae.

As usual, the reasons these specimens are coming off exhibit are varied. The Nedoceratops skull is a one-of-a-kind holotype that has been the subject of a great deal of conflicting research over its identity and relevance to Maastrichtian ceratopsian diversity. Putting this specimen back in the hands of scientists should help clarify what this bizarre creature actually is. Meanwhile, many of the other skulls (e.g. Protoceratops, Psittacosaurus, and Prenocephalae) come from Asian taxa. In the new fossil hall, the Mesozoic displays will primarily focus on a few well-known ecosystems in North America.

Dolichorynchops (USNM PAL 419645)

Dolichorhynchops from Montana, mounted by Arnie Lewis. Photo by Chip Clark.

Dolichorhynchops in the Life in the Ancient Seas exhibit. Photo by NMNH Department of Paleobiology.

The NMNH Dolichorhynchops is a relatively new mount. It was collected in Montana in 1977 and acquired in a trade with the Denver Museum of Nature and Science. Arnie Lewis prepared it for display in 1987. 24 years later, “Dolly” is being retired to the collections. This is not due to anything wrong with the specimen, but to make way for a bigger, cooler short-necked plesiosaur. NMNH purchased a cast of Rhomaleosaurus from the Henry Ward Natural Science Establishment in the 1890s, but it has not been on exhibit since at least 1910. This cast, which is based on an original at the National Museum of Ireland (and which is identical to the cast at the London Natural History Museum) will make its first public appearance in over a century in the new National Fossil Hall. Sorry, Dolichorhynchops.

This has hardly been a comprehensive list – just a few examples that illustrate the decisions that are made when planning a large-scale exhibit. If you are curious about other favorites from the old halls, you can check on their fate by searching the Department of Paleobiology’s online database. Just go to Search by Field and enter “Deep Time” under Collection Name to see most of the specimens earmarked for the new exhibit.

References

Gidley, J.W. 1925. Fossil Proboscidea and Edentata of the San Pedro Valley, Arizona. Shorter Contributions to General Geology (USGS). Professional Paper 140-B, pp. 83-95.

Gilmore, C.W. 1922. The Smallest Known Horned Dinosaur, BrachyceratopsProceedings of the US National Museum 63:2424.

Gilmore, C.W.  1941. A History of the Division of Vertebrate Paleontology in the United States National Museum. Proceedings of the United States National Museum Vol. 90.

Gilmore, C.W. 1946. Notes on Recently Mounted Reptile Fossil Skeletons in the United States National Museum. Proceedings of the United States National Museum Vol. 96 No. 3196.

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 collections, dinosaurs, exhibits, Extinct Monsters, fossil mounts, history of science, mammals, marginocephalians, museums, NMNH, ornithopods, reptiles, theropods

A Game Changer?

Today, Google and 60 partner museums unveiled the new natural history arm of the Google Cultural Institute. Launched in 2011, the Cultural Institute is an effort to make culturally significant material accessible online. Up until this point, the primary focus has been on art and history. In conjunction with museums and other institutions around the world, Google has been uploading millions of images, archival documents, and virtual walkthroughs of significant places. The natural history project offers more of the same, but with 100% more dinosaurs.

I had no idea this was in the works, nor do I know much beyond what is said in the press release. After spending much of this morning exploring the site, however, you can color me impressed. The sheer amount of content is overwhelming: 300,000 annotated specimen photos, virtual walkthroughs of 50 museums, and 184 multimedia presentations on topics both general (cabinets of curiosities) and esoteric (native plants and fish of Korea). Unfortunately, accessing this content can be a bit of a chore. I was often confused by the user interface, and found many of the most interesting or useful items by accident.

Somewhere in the Ancient Americas exhibit.

Somewhere in the Ancient Americas exhibit at the Field Museum of Natural History. Google Cultural Institute

For me, the museum walkthroughs are the clear highlight. Using Google’s Street View technology, users can explore the included museums and get surprisingly close to individual displays. Some of these “virtual tours” are frustratingly limited to a few corridors between exhibits, but others provide darn near the full experience of actually being there. Of the museum walkthroughs I’ve looked at so far, the National Museum of Natural History and Berlin’s Museum für Naturkunde are particular standouts in this regard. A handful of museums have had virtual tours available online since at least the early 2000s, but this is the first time I’ve seen the concept escape the gimmick stage and become something potentially useful.

The quality of the multimedia presentations (“virtual exhibits”, if you must) is a bit mixed. The best ones make specific use of the partner museums’ collections, highlighting the scientific, cultural, or historical significance of particular objects. These presentations provide curatorial expertise and novel insights that are not easily found elsewhere. Other presentations, however, are frustratingly generalized, and don’t include much content that one couldn’t get from skimming a Wikipedia article.

yawn, another cgi sauropod. I'd rather see the mount.

Yet another middling CGI dinosaur. Yay, I guess? Google Cultural Institute

I would include the site’s flagship attractions – narrated 360-degree tours of selected exhibit halls – in the second camp. These three short videos each feature an exhibit that “comes to life” with the help of some acceptable-but-not-spectacular CGI. Take the video about the Giraffatitan at the Museum für Naturkunde. It’s awesome to be able to look all around the hall, but most of the video is taken up by an animated version of the dinosaur that doesn’t accomplish anything it’s Jurassic Park counterpart didn’t 23 years ago. The video starts to tell some interesting stories – convergent evolution between sauropods and giraffes, the rate of extinction caused by human activities far outpaces normal background extinction – but the goofy CGI Giraffatitan is very much in the way. Museums have so many strengths, so I’ll never understand the impulse to rely on things like animated dinosaurs that a) their audience can see elsewhere and b) Hollywood will always be able to do better.

A great deal of content to be found by the bold.

A great deal of content can be found by the bold. Google Cultural Institute

All in all, the new natural history project at the Google Cultural Institute is a very impressive starting point. Nevertheless, my optimism is tempered by the fact that the web is littered with apps and mini-websites developed by museums, then almost immediately abandoned. Too often, digital projects are taken on without a clear idea of who will continue to update it, what need is being addressed, or even who the website or app is for. The real test will be whether Google and the partner museums will continue to support the Cultural Institute with new content. This has been a recurring problem with museums’ digital endeavors, but perhaps the collaboration with Google (and its extensive infrastructure) will help.

Moreover, accessibility is an admirable goal, but there is a very wide gap between putting stuff online and creating something that lots of people (teachers, students, people who don’t live near museums) actually want to use. I’m encouraged by the range of material on the Cultural Institute site. Some content is fairly general, perhaps suitable for a 3rd grade science report, while other content is far more in-depth. I will be very curious to see what the public ends up using, and for what purpose. It would also be neat to see if this ended up being the start of a truly global digital collection, useful for educators and researchers alike. We’ll see if the Cultural Institute ends up being the catalyst that finally makes digital museums happen!

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Filed under collections, dinosaurs, education, exhibits, museums, sauropods, science communication

Meeting the Titanosaur

It be big

The titanosaur doesn’t photograph well. It must be experienced. Photo by the author.

On January 15, the American Museum of Natural History unveiled the first new fossil mount to be added to their paleontology halls in 20 years. It is the reconstructed skeleton of an as-yet-unnamed titanosaur, an immense sauropod dinosaur that lived in Argentina during the mid-Cretaceous. The titanosaur is probably the most hyped-up fossil mount since Sue, at least in the United States (Sophie the Stegosaurus in the U.K. and Tristan the Tyrannosaurus in Germany received similar attention). This merits some discussion. The AMNH public relations staff pulled no punches in selling the titanosaur as a must-see exhibit. Huge advertisements appeared on buses and buildings around New York, including in Times Square. The legendary David Attenborough hosted a television special on the discovery of the fossils. Countless local and national news outlets were invited to the titanosaur’s unveiling earlier this year. But is this dinosaur really the find of the century?

Titanosaur was even advertised in times square. Source

One of the many titanosaur ads that showed up around New York City this past winter. Source

It depends. The titanosaur represents a species new to science, but it has not yet been formally published. The fossils were recovered in 2014 by José Luis Carballido and Diego Pol, paleontologists with the Egidio Feruglio Paleontology Museum (the AMNH connection is that Pol was a doctoral student of Paleontology Division Chair Mark Norell). Bones from at least six individuals of the same species were found, together representing 70% of the skeleton. However, AMNH staff have mostly avoided calling this animal the biggest dinosaur ever.

Indeed, declaring any dinosaur species to be the largest is a fool’s errand. We’ve known for some time that South American titanosaurs, as a group, are probably the biggest land animals that ever lived. Unfortunately, these giants are typically represented by only a few isolated bones. For an animal to become fossilized, it needs to be buried shortly after death. But it takes a lot more dirt to cover a large animal than a small one. A flood or landslide big enough to completely cover a sauropod over a hundred feet long would be an exceedingly rare event. More often, these animals were picked apart by scavengers for some time before a few of the more durable bones were buried and fossilized. For example, Argentinosaurus is known from about ten percent of the skeleton, and Puertasaurus is known from just four vertebrae. Paleontologists can use better-known relatives to produce reasonable reconstructions from even these limited remains, but any length estimate is a ballpark figure. Even among related animals, proportions can vary significantly. Consider, for example, the very long tail of a green iguana as compared to the stubby tail of a Galapagos land iguana. Carballido and Pol’s find stands out among other titanosaurs because two-thirds of the skeleton is known. hen the description is published, it will undoubtedly shed new light on the skeletal anatomy of this group. Still, the missing parts mostly come from the neck and tail, which will probably preclude a precise estimate of the animal’s total length.

*This level of completeness is not entirely unprecedented. Dreadnoughtus, described in 2014, is also about 70% complete.

he peekin

The titanosaur’s head and neck extend out of the room and into the corridor. Photo by the author.

We can’t say the AMNH titanosaur is absolutely the biggest known dinosaur, but what about the mount? At 122 feet, the reconstructed skeleton prepared by Research Casting International dwarfs AMNH’s resident sauropod, the 82-foot apatosaurine. It’s also a fair bit longer than the museum’s brain-breakingly huge blue whale model. AMNH is not the first museum to display a titanosaur, however. The Royal Ontario Museum has a 110-foot Futalognkosaurus, which the AMNH mount handily beats. But the new titanosaur is essentially the same size as the 123-foot Argentinosaurus at the Fernbank Museum of Natural History (duplicates also exist in Europe and South America). The difference, as mentioned, is that not a lot about Argentinosaurus is actually known, and the mount is almost entirely a sculpted reconstruction. By comparison, the AMNH titanosaur is largely composed of 3-D printed components based on scans of original fossils. “The biggest reconstructed skeleton of a reasonably well-known dinosaur” isn’t the catchiest headline, though.

Suffice it so say that on paper, the AMNH titanosaur isn’t a revolution for dinosaur science. When I went to see it last weekend, I expected to see a typical example of a well-studied group of dinosaurs. I was not prepared.

the bastard

The closest I can find to a full-body photo of the titanosaur. Source

This bastard is BIG. I could go through a whole series of superlatives, but it’s impossible to describe the experience of sharing space with this magnificent skeleton. You cannot comprehend what a 122-foot dinosaur really is until you’ve experienced it. It helps that the titanosaur occupies a smallish, low-ceilinged room (a century ago, this was the infamous Hall of the Age of Man). It also helps that there are no long lines of sight into this space. You turn a corner and you are quite abruptly in the titanosaur’s presence. Regardless, the marketing line that was ubiquitous earlier this year – “everything else got a whole lot smaller” – rings unsettlingly true. Compared to the titanosaur, the mammoth and mastodon across the hall look like pipsqueaks. Even the AMNH blue whale, which usually requires a double-take, became a little easier to take in.

I’m no stranger to sauropods. I teach people about them at work all the time. But seeing the titanosaur in person was a revelation, and something I strongly recommend to anyone interested in the natural world. The titanosaur may not be the most important dinosaur discovery of our generation, but by giving it corporeal presence, AMNH created an incredible symbol. This is life at its limits, an embodiment of the incredible things the tetrapod body plan can do.

P.S.: If you’re concerned about the fate of the juvenile Barosaurus model that used to occupy this space, worry not. It now lives at the Cleveland Museum of Natural History, and will be on display at least through October of this year.

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Filed under AMNH, dinosaurs, fossil mounts, museums, sauropods

Dispatch from SEAVP2016

Wow, it’s been awhile. The real world has been keeping me busy, but I’ve been researching a couple new museum  history stories that I will write up with all haste. In the meantime, I’d like to share some brief thoughts on the Southeast Association of Vertebrate Paleontology conference at the Virginia Museum of Natural History, which I attended earlier this week. SEAVP has a reputation for being fairly laid back, even as gatherings of paleontologists go. No frantic networking or jostling to introduce oneself to celebrity researchers, just a bunch of enthusiastic people excited to share their work.

Acrocanthosaurus is photobombed by some legless mammal.

Acrocanthosaurus is photobombed by some legless mammal.

With 50-some attendees, nearly everyone was either speaking or presenting a poster. Miranda Armour-Chelu took on the challenge of reconstructing the taphonomic circumstances surrounding historically collected dugong fossils. Marcelo Kramer shared his adventures prospecting for Quaternary fossils in unexplored caves in northern Brazil. Julie Rej explained the difficulty of identifying Australian agamid fossils when most modern comparative collections in museums consist of pickled lizards, rather than bones. My own talk was a show-and-tell session of some of the cool new fossils discovered by visitors to Maryland’s Dinosaur Park. If I had to pick a standout session, it would be C.T. Griffin’s fascinating research comparing the growth trajectories of early dinosaurs to modern birds and crocodillians. Not as straightforward as one might expect.

Splitting shale at the Solite Fossil Site.

Splitting shale at the Solite Fossil Site.

tanywhatsit

Max’s tanywhatsit fossil.

The following day, we visited the famed Solite Fossil Site, one of the most fossiliferous terrestrial Triassic localities in the world. These shales are best known for preserving an abundance of unique insects, but vertebrates and diagnostic plant fossils are also known. In particular, the site has produced hundreds of the tiny long-necked reptile Tanytrachelos. It only took 20 minutes for my colleague Max Bovis to find a “tany”, and an hour later he reportedly found a fossil fish. Both will be entered into the VMNH collection. We also visited Virginia Tech, where Michelle Stocker and Sterling Nesbit provided a tour of the paleobiology department facilities. We saw unique fossils from Ghost Ranch, New Mexico and the extant comparative specimen lab, but I was most envious of their 3-D printing set-up!

An immersive

An immersive habitat diorama featuring the Ice Age beaver Castoroides.

What of the exhibits at VMNH? They’re fantastic. Despite the museum’s small size, the production quality on all the displays is really top notch. The Uncovering Virginia hall highlights several fossil sites around the state, including the Ice Age mammals from Saltville, the coal seams of Grundy, and the aforementioned Solite quarry. In addition to original specimens and reconstructions of the excavations, there are a number of inspired hands-on activities. Visitors can put a whale jaw back together and articulate a femur with a pelvis, mirroring challenges actually faced by fossil preparators (nary a sandbox dig in sight!). I also liked a multimedia display where pressing a button (labeled “press here to go back in time”) pulls back an image of the Grundy coal mine and reveals a moving diorama of a Carboniferous coal swamp.

The central Hall of Ancient Life features local whale and Ice Age fossils, as well as some visiting dignitaries like a cast of Big Al the Allosaurus. Don’t forget to check out the second floor balcony, which contains Morrison Formation dinosaur bones and a secret Tenontosaurus mount.

aww

Group photo courtesy of Alex Hastings, VMNH.

All in all, an excellent conference – hats off to Alex Hatings, Christina Byrd, and everyone else involved in arranging it. I’m looking forward to next year’s meeting, which will be hosted by the Gray Fossil Site Museum in Tennessee!

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Filed under citizen science, Dinosaur Park, dinosaurs, education, exhibits, field work, mammals, museums, reptiles, reviews

History of the Field Museum Fossil Halls – Part 2

Start with History of the Field Museum Fossil Halls – Part 1.

Where we left off, the fossil exhibits in Halls 37 and 38 at the Field Museum of Natural History had gone for decades without more than piecemeal improvements. In the meantime, the field of paleontology – and our understanding of dinosaurs in particular – had progressed by leaps and bounds. What’s more, standards for natural history exhibits had changed. Cases of specimens with esoteric labels written by curators past were no longer enough. Visitors expected exhibits that were relatable and accessible for children as well as interested adults, and multimedia and interactive elements had become standard. This combined with ever-growing public interest in all things prehistoric gave Field Museum staff serious incentive to start with a clean slate.

Phase III: Life Over Time

The end of the old fossil halls came not with a bang but with a whimper. In 1990, specimens started disappearing and areas were roped off without warning. Hundreds of specimens were relocated to Halls 25, 26, and 29 on the other side of the second floor, where they would be part of the exhaustive new exhibit “Life Over Time.” Meanwhile, Halls 37 and 38 became the home of the pacific islands exhibit and Ruatepupuke II, the Maori Meeting House.

life over time albertosaurus remount

Remounted Daspletosaurus in Life Over Time, then labeled Albertosaurus. Photo courtesy of the Field Museum Photo Archives.

As the name suggests, Life Over Time was a chronological journey through the history of life, from its origins around four billion years ago up to the last ice ages. Paleobotanist Peter Crane chaired the Geology Department during the development period, and geologist and children’s education specialist Eric Gyllenhaall oversaw the contractors and in-house staff that created the the exhibit itself. In total, the project took five years and cost $7 million.

Gyllenhaal and the rest of the team conceived of Life Over Time as a directed experience. The space was shaped like a U, with switch-backing corridors flanking a more open dinosaur section in the middle. With the exception of a shortcut between the Carboniferous and the Mesozoic, visitors had no choice but to walk through the exhibit chronologically, viewing the displays in the order the designers mandated. Since visitors tend to be more focused and more likely to read signs early in the exhibit, the designers deliberately used the introductory rooms to cover the most unfamiliar concepts. Displays on the origins of life and the evolution of aerobic respiration made up the “homework” part of the exhibit. After that, visitors were set free in the Mesozoic section, where open sight lines allowed people to choose what they wished to view, and in what order. This served as a reward for putting up with the more challenging material early on. Ultimately, what set Life Over Time apart from its predecessors was the focus on ideas rather than specimens. The fossils were meant to illustrate broader concepts like adaptation, extinction, and biogeography, and were in some ways subordinate to the hands-on activities and multimedia displays.

new triceratops

This cast of the AMNH Triceratops was a new addition to Life Over Time. Photo by Gary Todd.

Apatosaurus

In Life Over Time, visitors circled the dinosaurs on an elevated ramp before visiting them at ground level. Photo by Erik Peterson.

The process of developing Life Over Time was an occasionally tense give-and-take between the research staff (who traditionally had the last word on exhibit content) and the administrators, exhibit specialists, and educators (who had greater influence this time around). Looking back, it would seem that the curators lost more of these fights than they won. Life Over Time ended up with a decidedly kitschy tone, and was full of overtly silly elements. The exhibit entrance featured carnival-style banners advertising “Primordial Ooze” and “Dunkleosteus: Jaws of Death.” Further on, a mannequin dressed as a game show host invited visitors to spin the “Wheel of Adaptation.” There were Dial-A-Dinosaur phones, which visitors could pick up and listen to first-person accounts of life as a dinosaur. An animatronic puppet show explained the switch from aerobic to anaerobic life. Video “weather reports” with CBS anchor Bill Kurtis updated visitors on climate change over time. There was even a ridable trilobite on a spring.

This carnival-like atmosphere is particularly distinctive when compared to the present fossil halls at the American Museum of Natural History, which were developed at the same time. AMNH project director Lowell Dingus rejected contemporary trends in exhibit design, which, in his view, were pitched to “the lowest common denominator of visitor intellect.” Wishing to challenge audiences to think about fossils the way scientists do, Dingus created a phylogeny-based exhibit that emphasized empiricism and rigorous anatomical analysis over idle speculation. While it was certainly not devoid of informative content, Life Over Time was designed for a much younger audience, with particular attention paid to the under-five set. This marked contrast between the New York and Chicago exhibits speaks volumes about the differing influence of the scientific staff at the two museums, as well as the institutions’ overall priorities at the time.

Permian cluster

Postcard of the pelycosaur cluster in Life Over Time. These specimens were donated by the University of Chicago in the 1960s.

Happily, the Field Museum didn’t opt to replace its authentic mounted fossil skeletons with the roaring robots that were in vogue at the time. The classic fossil mounts were restored and rebuilt by Prehistoric Animal Structures, Inc., a Canadian company headed by Gilles Danis. A biologist by training and a veteran of the Royal Tyrell Museum, Danis led the process of disassembling, cleaning, and remaking the most significant mounts. The ApatosaurusDaspletosaurus, and Megathierum were all given more accurate and active poses: the Daspletosaurus now crouched over its Lambeosaurus prey with its tail held aloft, while the giant sloth stretched to its full height against a replica tree. Although it was completely rebuilt, the Apatosaurus retained its dragging tail in the new exhibit – an unusual choice for a 1990s reconstruction.

In addition to the classic mounts, Life Over Time featured a partial Parasaurolophus and a new cast of the AMNH Triceratops. The most substantial addition was a complete Brachiosaurus reconstruction. This 40 foot tall mount combined casts taken from the material Elmer Riggs collected at the turn of the century with sculpted elements prepared by Stephen Godfry.  Far too large for the second floor exhibit halls, the Brachiosaurus earned a place of honor in the central Stanley Field Hall. In order to comply with the fire code while allowing visitors to walk under the towering sauropod,  the torso was extended by adding two extra dorsal vertebrae (for a total of twelve). In an amusing twist, newer research shows that this vertebrae count – and the mount’s stretch limo proportions – is probably correct.

main hall brachiosaurus

The Brachiosaurus skeleton was tall enough to look over the second floor mezzanine. Source

Life Over Time opened to the public in June 1994 (the Brachiosaurus had been on display for a year prior). Nevertheless, it was the shortest-lived iteration of the Field Museum’s fossil displays, closing down after only ten years. Why didn’t it last? For one thing, the numerous interactive elements suffered more wear and tear than expected, and they broke frequently. Meanwhile, in-house evaluations showed that the exhibit’s intended messages were not coming across to most visitors. For example, Asma recalls a child frantically spinning the Wheel of Adaptation with all his might, completely oblivious to the information the display was meant to convey. Unfortunately, an interactive exhibit is not necessarily an educational one, and it can be very difficult to create a learning experience that accomplishes both goals.

Phase IV: Evolving Planet

There was one more reason the Field Museum needed to revisit its fossil displays: the sudden acquisition of Sue the Tyrannosaurus in 1997. The story of the four-way legal battle that preceded this has been told often (although not always fairly), so suffice it to say that few came out of that fight unscathed. The Field Museum entered the picture when landowner Maurice Williams, to whom the courts had awarded ownership of Sue, announced that the fossils would be placed on the auction block. 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 when the Field Museum won Sue with financial backing from McDonald’s and Disney. Including the auctioneer’s commission, the price was an astounding $8.36 million.

susan

Some obscure theropod. Photo by the author.

The Field Museum committed to a summer 2000 unveiling of Sue’s mounted skeleton. However, most of the bones was still buried in rock and plaster. The fossils had to be prepared and stabilized before they could be studied, and they had to be studied before they could be mounted. Most of this work was done on-site, in view of the public. The armature itself was created by Phil Fraley Productions, the same exhibit company that rebuilt the AMNH Tyrannosaurus. Field Museum administrators decided that Sue would replace the Brachiosaurus in the Stanley Field Hall, even though the sauropod had only been on display for seven years. According to Exhibit Project Manager Janet Hong, Sue was such a monumental exhibit that it really deserved pride of place. Meanwhile, the Brachiosaurus was relocated to O’Hare International Airport, while a weather-proof duplicate was placed outside the museum.

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 it has been one of the city’s biggest attractions every since. All the publicity paid off, at least in the short term: Field Museum attendance soared that year from 1.6 million to 2.4 million. 16 years later, Sue’s new identity as a Chicago landmark seems to have all but eclipsed the legal dispute that was its original source of fame. Hong likens Sue to Chicago’s David, and even former Field Museum President John McCarter feels that he underestimated what a force Sue would be for the city.

Map of Evolving Planet. Source

Map of Evolving Planet. Source

The acquisition of Sue created a strong public association between the Field Museum and dinosaur research. This was ironic, because while the museum had hosted a talented array of paleontologists over the years, it had never employed a dinosaur specialist. Even Elmer Riggs, who collected the museum’s iconic sauropods at the turn of the century, was more interested in mammal evolution. In 2001, the Field Museum began a concerted effort to expand its vertebrate paleontology program, and make a name for itself as a hub for dinosaur science. Among the new hires were fossil preparator Akiko Shinya and paleontologist Peter Makovicky, who immediately began organizing expeditions to grow the museum’s collection.

The new emphasis on paleontology research brought greater expectations for the Field Museum’s interpretive efforts, and Life Over Time wasn’t doing the job. The initial plan was to merely refresh the decade-old exhibits, but ambitions grew and the renovation snowballed into something much more substantial. Project Manager Todd Tubutis and Content Specialist Richard Kissel spent five years overseeing the development of Life Over Time’s replacement, eventually titled “Evolving Planet.”

Once we reach the Permian, the fossils can start to speak for themselves. Photo by the author.

Each section of Evolving Planet is differentiated by its own color palate and ambient audio. In the Permian, olive green walls and signs are accompanied by the sounds of a windswept desert. Photo by the author.

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Yes, of course this series needs another picture of the Apatosaurus. Photo by the author.

While the new exhibit uses the same space and directed, U-shaped layout as its predecessor, the end result is virtually unrecognizable. The hokey parts of Life Over Time are gone, replaced by all-new signs, labels, and interactives. New specimens include original Parasaurolophus, Rapetosaurus, and Arctodus mounts, plus casts of Stegosaurus and Deinonychus, all prepared by Research Casting International. An entire room is dedicated to fossils from Utah’s Green River Formation, acquired on a recent Field Museum collecting expedition. Phlesh Bubble Studios provided a panoramic CGI reconstruction of the Burgess Shale Fauna, while Karen Carr produced 150 original paintings to supplement the classic Charles Knight murals. These, in turn, were restored by Parma Conservation and are contextualized as the historic masterpieces they are. Nevertheless, Evolving Planet has a few holdovers from Life Over Time. The existing dinosaur mounts were not moved or changed, and major set pieces like the walk-through Carboniferous swamp diorama remain in place.

Timeline moments and consistent iconography

Repeating iconography keeps visitors engaged in story of life on Earth. Photo by the author.

Karen Carr art fills in gaps in classic Knight pieces

New artwork by Karen Carr fills gaps left by the classic Charles Knight murals. Photo by the author.

The interpretation in Evolving Planet arose from three main objectives. First, the exhibit needed to highlight the Field Museum’s own collections and the work of its in-house research staff. Second, it had to contextualize Sue and the environment they lived in. Finally, it had to effectively explain the process of evolution, and the evidence for it. Life Over Time had faltered here, and with the influence of the anti-science lobby increasing, it was crucial to get it right. Tubutis and Kissel accomplished this in part by facilitating closer collaboration between the exhibit designers and research staff. Evolving Planet weaves the evidence for evolution into all aspects of the displays. The first thing visitors see is the thesis of the exhibit – “everything that has ever lived is connected through and is the result of evolution” – printed on an otherwise blank wall. Moving forward, visitors learn how evolution via natural selection works, and how we know. Along the way, common misconceptions, such as the idea that lineages improve over time, or that evolution is “just a theory”, are proactively addressed and corrected.

The visual design of Evolving Planet deserves particular mention. The new exhibit subtly but effectively uses repeating iconography to guide visitors through the story being told. Every geological period is associated with a specific color scheme and soundscape, making visitors’ progression from one stage to another obvious and distinct. “Timeline Moments” at the beginning of each section update visitors on their progress, and ensure that they expect to see something new and different up ahead. Special symbols remind visitors of recurring themes, such as mass extinctions (or even the repeated evolution of saber-teeth). Lastly, variations in font and text size are cleverly employed to call attention to key words and phrases.

old riggs mounts, new sloth, charles knight

A new pose and context for Megatherium, along with historic Riggs mounts and Knight artwork. Photo by the author.

Evolving Planet opened on March 10, 2006. A decade later, this award-winning exhibition remains a favorite with scientists and educators alike. As Cleveland Museum of Natural History Educator Ashley Hall explains:

Evolving Planet is my all-time favorite museum exhibit. It is not only rich with some of the world’s best known fossil specimens, but provides label copy for visitors of all learning levels. You can visit multiple times and still learn something new. Museums provide visitors with unique settings for learning, and it is a museum’s job not to short-change, dumb down, or simplify information. Evolving Planet hits the nail on the head.

From its clear-as-day thesis to its poignant finish (a counter showing the number of species going extinct daily), Evolving Planet is ambitious but uncommonly relatable. It places familiar dinosaurs and mammoths in a broader evolutionary context, introducing visitors to the true breadth of deep time. And yet, the exhibit is also remarkable for its restraint. It doesn’t overwhelm casual visitors with specimens and facts, but instead sticks to a handful of broadly-applicable themes.

The Field Museum’s paleontology program spent its early years playing catch-up to peer institutions. While other American natural history museums were conducting yearly fossil-collecting expeditions and building collections of one-of-a-kind specimens, the Field Museum’s founding paleontologists struggled for basic resources and recognition within their institution. Today, the department’s public showroom is what Kissell describes as “one of, if not the, most comprehensive explanations of the history of life on Earth in any museum.” It would seem that the Field Museum has found its voice in the pantheon of great natural history museums.

Many thanks to Ashley Hall, Olivier Rieppel, Bill Simpson, and Devin Myers for sharing their time, expertise, and experiences when I was writing this post. Any factual errors are, of course, my own.

References

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

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

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.

Glut, D.F. 2001. Remembering the Field Museum’s Hall 38. Jurassic Classics: A Collection of Saurian Essays and Mesozoic Musings. Jefferson, NC: McFarland.

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

Lelièvre, M A. 2006. Evolving Planet: Constructing the Culture of Science at Chicago’s Field Museum. Anthropologica 48: 2: 293-296.

Milner, R. 2012. Charles R. Knight: The Artist Who Saw Through Time. New York, NY: Abrams.

Tubitis, T.J. 2005. Revitalizing Life Over Time: A New Look for a Very Old Topic. In the Field 76: 2: 18.

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Filed under dinosaurs, education, exhibits, FMNH, fossil mounts, history of science, paleoart