Crocs in South Dakota: Bad Footwear, Good Fossils!

Our first Hell Creek fieldwork trip is in the books, and boy did we find some neat specimens! Recently Mike Triebold and I set out for South Dakota to check in with our landowners and scout for new fossils eroding out of the Hell Creek Formation. You never know what might be hiding out in the badlands, heck in 2022 I even found a Tyrannosaurus rex that I named "Valerie".

Mike Triebold at work in the field

We spent the first few days finding some small specimens and I even located a site that may produce a small disarticulated Triceratops skull, but the rocks were being unusually stingy with fossils. We kept pushing on though, sometimes for 22,000 steps a day if my Fitbit can be believed, because you never know what might be hiding around the next corner.

Part of a Triceratops jugal with the distinctive bone texture below the eye socket

One morning I met up with a crew from the Denver Museum of Nature and Science who were based in nearby North Dakota this summer. There's a lot of federal land in these parts, however there's no way to access some of these outcrops legally without getting permissions to cross the private lands that typically surround them. Nobody likes trespassers. When a museum wants to visit some of these landlocked outcrops, I work with them and the surrounding landowners to make sure everyone can cross safely and in a way that doesn't interfere with the ranching activities or destroy their property. It works well and keeps science happening!

Edmontosaurus annectens hoof from a microsite

The Denver crew wanted to collect some rock samples on various parts of an outcrop, and I was also showing them some microsites that I had found in previous years. I check them yearly becauseyou never know what little thing might be exposed at the surface of a microsite after each year's rains (and what might be destroyed by erosion if left for another winter) and plenty of croc, dinosaur and mammal fossils were found. After breaking for lunch, I was contacted by Mike to FIND HIM NOW. I made sure the Denver crew was safe and set for departure and then went to meet the boss.

Sometimes great looking outcrops are disappointing

Mike drives me out to a low outcrop on the side by side. Coming out of the outcrop are croc osteoderms (or Crocsteoderms as I mutter to myself in the 120+ degree heat). These bones, embedded in the skin of the living crocodilians, are super common in the Hell Creek. What's uncommon about this site was the osteoderms were ARTICULATED: together as in life. I've never seen that in the wild before.

Sites that you can drive right up to are rare

I documented the site and Mike started digging. We scraped ironstone concretion pebbles off the surface, collected any fragments, then started excavating the rock around the exposed bones. It became immediately clear that the skeleton of this crocodilian was there and almost complete.

The croc: skull near my toe, the "panhandle" is the tail

We excavated the specimen much like we do Kansas fossils, where we find the maximum extent of the specimen, jacket the whole area, and worry about the small delicate things that are in the rock back in the lab where we aren't roasting in the sun and getting eaten alive by bugs. The sandstone matrix was fairly hard and difficult to work with, but the jacket split free and flipped very well. 

Mike with the flipped jacket

And what a specimen we think this will be. The entire skeleton looks to be about 3 1/2 feet long, or a little over a meter. From what I could see of the shape of the skull, it looks similar to Stangerochampsa, a croc that we at TPI helped to restore a few years back. Stick with us this year as we get to preparing this jacket hopefully exposing the best example of tiny Hell Creek crocodilian found so far!

Stangerochampsa replica made by Triebold Paleontology Inc.

Ashley: The cannibal Xiphactinus

 If you're following me on the twitters I'm sure you all know about my absolute and undying love for the giant ugly predatory fish from Kansas, Xiphactinus audax. We spend a lot of time in normal years in Kansas during the spring and fall (when the weather and bugs aren't too miserable) and we tend to find a good number of at least partial skeletons, some exceeding 18 feet in length.

Random Xiphactinus verts in the wild

It's easy to think of them as just another boring fossil, as if they were the hadrosaurs of the ocean, but every once in a while something about them makes them interesting.Sometimes because they are found inside something interesting, other times because something interesting is found in them.

Xiphactinus as stomach contents of a large shark, Cretoxyrhina
Photo taken at University of Kansas Natural History Museum

Xiphactinus is well know for its gluttony. The famous "Fish Within a Fish" at the Sternberg Museum of Natural History, where a 13 foot long Xiphactinus semi-successfully ingested a nearly 6 foot long Gillicus is a prime example of this. I claim it to be semi-successful as the Gillicus is completely articulated and not digested, indicating that trying to swallow this meal likely killed the Xiphactinus. Other times smaller remains of a fishy meal in the body cavity of a Xiphactinus are found, we see this in a little less than half of our specimens.

Photo courtesy of Mike Everhart www.oceansofkansas.com

Fast forward to the spring of 2018. I was scouting the lower Niobrara Chalk in Gove County, Kansas. The chalk is defined stratigraphically by 23 distinctive easily traced (usually) bentonite layers laid out by Hattin in his 1982 work. These outcrops were around Hattin's Marker Unit 6, so the upper limit of where I could possibly find my dream fish , an articulated specimen of the ram-snouted Martinichthys ziphoides. No luck on that front however I did find this fine pile of bone eroding out, seemingly face-first. A small pile of bones is always a good sign!

The bones are the kinda grey things on the yellow chalk

Unfortunately it looked like it was headed into the base of a big cliff. After initial evaluation, we decided to GPS and cover up the site to protect it until we could come back at a later date. That date came the next spring.After a long morning of removing overbruden, we were relieved to see the fish had actually folded in half back on itself about 4 feet from the erosional edge and the balk half pointed back out that direction. We didn't have a tail fin, but we also didn't have to move a mountain of rock chasing this Xiphactinus either. I gave it the nickname "Ashley" after one of my trivia teammates (remember when we could go to bars and do that? Wear a mask and maybe we can soon).

Can you see the digsite?

One of the strange things we noticed while exposing the bones in the field was a large bulky bone near the belly. It looked like a cliethrum, one of the bones that the pectoral fin hangs off of. The skeleton itself was mildly disarticulated in parts, and any Xiphactinus will have 2 of them, so maybe this was just a bit of Ashley that was pulled off the carcass when scavengers like the shark Squalicorax came to strip off all the flesh.

Typical Kansas fish dig

Preparation showed the skeleton was in much better condition than we had imagines, with decent articulation and a beautiful pelvic fin. It also showed both cliethra that were supposed to be present on a Xiphactinus wee in fact there in place. So what does that mean with our now THIRD cliethrum?

2 very nice looking jackets all cleaned up

One way to be sure is to prepare it as well. Free from all of its matrix two things were readily apparent: One: the acid-etched texture of the surface of the bone meaning it was stomach contents and Two: based on the shape, it also belonged to Xiphactinus.

The smoking gun, so to speak. Acid-etched Xiphactinus cliethrum

With that shocking knowledge in hand with al of the bad things Xiphactinus could be (common, boring ugly, a lot of work to dig up and prepare) we can also add cannibalism to that ever growing list.

Project Kevin Part 1: Field and Lab Work

The astute social media observers among you may have noticed our new ceratopsian whose skull restoration was just finished in time for its debut at Tucson. Here's how we got it there in 2 parts. Today: the hot and nasty work.

Yep, that's hot

The site was originally discovered in the summer of 2017 by one of our landowners, rancher buddies and all around good guy Larry in the upper Judith River Formation of central Montana. We located a partial humerus, a lot of ribs and several vertebrae exposed on the erosional surface right away. The entire deposit was constricted to about 15cm (6 inches) of highly concreted sandstone, and from the exposed highly eroded elements we could tell it was from an ornithischian of some flavor. Odds were it was probably an incomplete scattered duckbill in fairly difficult to work matrix, so we decided to keep scouting and come back later.

The site is very remote but also gorgeous

That later turned out to be the summer of 2018. It was hot. Really hot. Continued scouting in that area turned up some pretty neat lag deposits but not a whole lot of good skeletal material. It was time to bite the bullet and see what the old duckbill site was going to give us. Who knows, there might be a skull in there.

Digging begins. We love our shade tents.

Sometimes we get visitors to the site

With 4 people digging we made some good progress on the first day of the dig. Around lunchtime I had moseyed on up to the top of a nearby bluff to get cell signal to call home to the boss and give him an update on how we weren't finding anything great out there and might relocate our scouting locality to somewhere closer to camp. Coming back to the site I ran into Jacob who was looking for me to let me know we had "the weirdest duckbill he's ever seen" in the quarry.

That ain't no duckbill horn.

Grace had found a brow horn.

Lainie demonstrates proper air hammer technique.

So, not a duckbill (though to be fair we did find some scattered hadrosaur material at the site). We dug more that week finding much more skull material, but had to come home for resupply and other projects. We got smart during trip #2 and brought out some diesel powered earth moving equipment as the overburden went from practically zero to nearly 3 meters very quickly. Again more skull material was found. There was some postcrania too but we all know that ceratopsian postcrania is pretty much worthless, right?

Bobcat good, getting hit by 2 dust devils in a row bad for shade tents

After the 3rd trip, the bone was very sparse along all edges of the excavation and we were pretty confident to call the dig finished.

Headed home with a load of jackets. Rock Chalk!

Lab work began right away. There were a few tricky bits getting the nasty concretion off the bones but for the most part they came out looking pretty good. Once cleaned up we got a much better idea of what parts of the skull we had (field identifications are always tentative). It also became pretty obvious the skeleton was trampled by other very inconsiderate dinosaurs way back in the cretaceous, as we had many broken bones with no parts to go back with them.

Right brow horn, missing some parts, but we can fix that.

Bone quality was pretty good and we ended up with most of the skull, quite a bit of the neck, some dorsal vertebrae and ribs, and curiously a random chunk of pubis.

Detail of jugal edge. Beautiful bone texture.

Stay tuned for the next installment where we show how we went from a pile of bones to a completed skull restoration in 100 easy steps!

The little Thescelosaurus that could

The Hell Creek Formation is so much more than just Triceratops and Edmontosaurus and Tyrannosaurus rex. There, I said it. I head out there to swelter and dig nearly every summer, and it's truly not the big famous dinosaurs I'm interested in. This is where Jonathan comes in. This specimen, RMDRC 06-007, was collected over a decade ago and sat in our collections partially prepared for most of that time. Coincidentally it's a specimen of Thescelosaurus neglectus, the "neglected marvelous lizard" and the name sure fits. 

Partly prepared in the jacket, tail and right leg in other places

In the spring of 2017 we decided we needed to do something with the specimen. Jonathan was mostly articulated in a large heavy field jacket. The first step was to get all the parts into a state where we could mold them, so lots of careful preparation, and lots of consolidant was required. Jonathan was a large (by Thescelosaurus standards) and old animal, but the bones were still preserved with the insides like coffee grounds, ready to pour out in a pile of disappointment if the bones were even looked at the wrong way.

Right foot after prep and restoration

Any damage was stabilized and repaired as we worked. Missing parts were scanned with an Artec Spider structured light unit and we printed them out using our Form2 SLA printer and the usual PLA filament scribblebots. Molding was quick and straightforward for the most part, though the chest cavity posed a special problem for us. The chest cavity preserved a series of calcified intercostal plates between the ribs, which only start to solidify when the animal hits a ripe old age. These super delicate features prevented us from molding a set of ribs that could be immediately used on the cast, so instead we molded them all as a whole unit, cast them, then modified the casts to fit on the mount, then remolded them. Straightforward, right?

Posterior dorsal vertebrae

Assembly was pretty easy as well, though at nearly 14 feet long we were always remarking on how surprisingly big this animal was. It's huge clod-stomper feet came out very well, and since we had calcified cartilage with the specimen, we thought it would be dumb not to include it on the finished mount. In the end we came up with what I think is the very best and most scientifically accurate reconstruction of this poor neglected animal ever attempted. I hope you all like it as much as I do.

Finished mount, Grace for scale

An unusual view highlighting the cartilage

He just looks so dang HAPPY!

Protosphyraena: Like a Swordfish Made Babies With a Chainsaw

We're back from SVP 2017 in Calgary, which was an awesome opportunity to debut our prototype Protosphyraena (Proto Proto) skeletal reconstruction. I've been involved with this project for 13 years now, very heavily for the past 4 with my various research projects with Drs. Jeff Liston, Kenshu Shimada, Bruce Schumacher and Matt Friedman. We've published a bunch of papers and talks recently, and there's even more on deck. If you're in Tahiti next week, stop by and hear my talk!

Image Copyright Mike Everhart

Loomis' reconstruction attempt

Protosphyraena was a tough nut to crack. The first bits were discovered in the late 1700s in the English chalk and first figured by Gideon Mantell in 1822. It got its name later in the mid 19th Century by Joseph Leidy meaning "early barracuda" due to the flat knife blade shaped teeth. Unfortunately this is what happens when you only have sparse material to work with. Protosphyraena is known now to have a basically worldwide distribution however since the animal has replaced its skeletal bone with cartilage wherever possible, more than isolated bits are extremely difficult to come by. In the Bone Wars of the late 1800s, Cope and Marsh's teams discovered many partial specimens in the Niobrara Chalk of Western Kansas, consisting mostly of isolated pectoral fins and skull bits.

Pectoral of P. perniciosa showing saw-tooth edge

The skull was amazing, with a long rostrum and forward-directed massive protruding teeth. The fins showed some variation, however the ones attributed to Protosphyraena perniciosa reached nearly a meter in length ad were adorned with saw-like serrated front edges. A tail fin was discovered near the turn of the last century and then one the first reconstructions was attempted by Loomis.

Cast and original parts at beginning, apple for scale

Not too shabby based on what they knew. Since the body had such little bone, it was highly unlikely that one would be found, yet the Niobrara as usual was full of surprises. In 2003 Mike Triebold found a partial Protosphyraena skull eroding out of the rocks in western Kansas. The specimen was already missing its rostrum, but a bit of pectoral fin was also visible. He continued excavation and noticed articulated evenly spaced spines, and followed them. They were ribs, hemals and neurals, ans they led to an articulated tail. This was the first "complete" Protosphyraena discovered.

Dig site pic, the specimen is already uncovered and pedestalled

This specimen ended up becoming the "Rosetta Stone" for our reconstruction attempt. Though it was a small example, it gave us tons of information about the body proportions. it kept on giving though, showing the streamer-like pelvic fins and large lobe-shaped "go faster" caudal peduncles.

The "go faster" caudal peduncles

We prepared out several specimens of large Protosphyraena in order to have a decent starting point for the reconstruction. One good skull specimen was partially disarticulated, we scanned the gill basket of a second smaller one and reproduced it out at the proper size on our 3D printing rigs. Our pectoral fin donor specimen was famously covered here as the victim of a poaching attempt in 2011. The original bones were molded and we made multiple copies of the parts so we could cut them up into individual elements. They were later remolded with most of the distortion taken out.

The kid seems bored

Jaws attached

Complete skull exterior

After that, the process was pretty easy! We decided to ignore how bizarre the critter was and just accept that's how these parts fit together, seeing where the reconstruction took us. It tuned out to be stranger than we ever imagined, and a lot bigger too, measuring over 2 meters in length (and flipperspan). We showed it off in Canada and it seemed to be a big hit! Enjoy the photos of the finished mount below.

I'm useful as a scalebar sometimes

Down the hatch!

Front view

Digging a tyrannobutt

We're back from Montana waiting for the temperatures and fire danger to die down for a bit. Earlier this month though we were battling the gnats working on excavating a dinosaur I found late last summer.

Can you spot the site?

The site is pretty typical for how I find them: about halfway up a 30 foot cliff with a menacing hoodoo overhanging the specimen. I found this site about 2 days before we broke camp last year so I was only able to do the smallest of evaluation digs on it.

Bones on either side of an erosional notch: usually a good sign

 Using air tools I was able to notch out a few of the bones. These were clearly large theropod bones, one looked like a caudal vertebra and I couldn't tell what the one shooting straight into the cliff was. Big theropod in the Judith River formation means one thing: Tyrannosaur! I knew I'd be coming back for this site in 2017.

Duckbills. It had to be duckbills

Additionally at this site was a big wad of predepositionally broken ornithischian (most likely duckbill) bones under the tyrannosaur material. This gave the impression of a stream or oxbow lake bottom assemblage, but sometimes you find good skeletons mixed in with all this material. Unfortunately with fall closing in, I had to abandon the site till 2017.

Storms are no fun in vehicles that lack roofs and windshields

This year however we came out with our big jackhammer and managed to notch out a decent sized evaluation pit. I wanted to get a better feeling for what was present before I suggested getting a bulldozer out there to knock down the whole cliff.

The isolated tyrannobutt

Turns out, it appears it was just an isolated tyrannosaur sacrum with one dorsal vertebra still attached. Not pretty now, but once I prepare it we will see better the shape of the specimen. I'm thinking Albertosaurus, but it's hard to say from this element.

Closeup of the spines. Bonus duckbill chevron at top left

It's a bit of a bummer that there wasn't more of this skeleton. It was going in towards the head but it was just not meant to be. I'm happy to find this now before we invested time and resources removing 15 feet of really tough sandstone from the area though. Guess I'll just have to spend the rest of my summer looking for more dinosaurs. It's a tough job but somebody's got to do it!