For me, trying to understand geological time is a bit like trying to fit a square peg into a round hole. It takes some serious reshaping before the pieces start to fall into place.
When I met up with Dorenda and Matt Walters, my hiking guides at Petrified Forest National Park, little did I know, just how much mental craftwork I was in forโ225 million yearsโ worth! That is how much life history exists in the parkโa seriously mind-boggling sum.
A Long, Long, Long Time Ago
Before setting out on our hike, Dorenda and Matt Walters arranged for a tour of the parkโs museum collections. Matt Smith, curator and paleontologist, led us on this venture.
To start, Matt Smith shared a โmental-gymnasticโ he uses to try and get his mind around the 225-million-year history:
“T. rex died 66 million years ago,โ he explained. โHis oldest cousin lived during the Triassic in (what is now) the Petrified Forest 220-225 million years ago. We are looking at more time between T. rex and the oldest dinosaur and T. rex and us. T. rex is closer to the iPad than its earliest ancestor.โ
This is the timeframe we are working withโalmost four times the amount of time it takes to go from dinosaurs to humans. So, as you can imagine, back then, the Earth was a completely different place.
โThis planet was on the other side of the galaxy,โ described Matt Smith. The continents were united into one supercontinentโPangea. It was the dawn of the dinosaurs. Mammals were just getting started. And flowering plants had not even shown up yet.
In other words, it was a long, long, long time ago.
The Box
After his brief introduction to time, Matt Smith led us into the Museum Demonstration Lab, or “the box,” as he called itโa small white room with windows and desks facing outside that allows visitors to glimpse in the โbehind the scenes workโ paleontologists do at Petrified Forest.
โFossils are our jam,โ said Matt Smith, before introducing us to the roomโs current occupantsโa metoposaur skull and a phytosaur skull. Each sat on separate desks facing the window, cradled inside their plaster jackets.
Metoposaur
The metoposaurโs fossil skull was roughly triangular and flat or, as Matt Smith put it, โshaped like a toilet seat.โ
Overall, metoposaurs were large amphibians, โup to 10 feetโ in length, with rough textured skin similar to the bone underneath, and a body plan like a modern-day crocodile, only stouter.
As carnivorous feeders, metoposaurs would sit on river bottoms, โopen up their mouths like a bass and feed off whatever came into their mouth,โ said Matt Smith.
He pointed to a deeper trench hidden in the texturing of the fossil. He explained how this trench was part of a lateral line system, like fish have. This system would have allowed metoposaurs to sense their prey, even in the murkiest of waters by detecting changes in pressure or electrical pulses.
Metoposaurs were โcommon everywhere up until the end of the Triassic,โ said Matt Smith
Phytosaur
The phytosaur skull had an even more unusual shape. It looked a bit like an alligator but with a very long snout, and nostrils toward the back of the head, instead of the front.
Phytosaurs were huge, maybe โ25-30 feet long,โ with long tails and sharp teeth; again, with the body plan of a crocodile. โThey were fish eating specialists,โ said Matt Smith, โCrocodile-like 80 million years before crocs.โ
He went on, โThey donโt have common ancestry (with crocodiles) โฆ these guys turned โcrocodileโ by stretching out their premaxilla.โ Crocodiles, on the other hand, stretch out everything in the snout. That is why a phytosaur has nostrils at the back of the head and crocodiles the front.
Crocodiles and phytosaurs are an example of convergent evolutionโsimilar environments, resulting in similar structures on totally separate locations and timelines. When a body plan works, it works!
The phytosaurs are one of several archosaurs that are found at Petrified Forest. Phytosaurs are not dinosaurs and exist on a separate branch of the archosaur family tree. They are a group of reptiles that includes dinosaurs as well as modern birds and crocodiles. Phytosaurs are one of many Triassic archosaurs found in the park. The only two living archosaur groups are crocodilians and birds.
A Curved Femur
After our visit to โthe box,โ Matt Smith brought us into the collection rooms. Lined with metal cabinets, the collection room contains hundreds of catalogued artifacts and specimens found in the park.
The first set of specimens Matt Smith introduced us to were fossils from an azendohsaurid reptile.
โThis animal wasnโt known in North America,โ Matt Smith explained, until 2014 when a weird vertebra, discovered in a loan return, piqued the interest of park staff. Before long, a fossil site filled with azendohsaur fossils was discovered, and 40 different field jackets with specimens were collected.
Now, all these specimens stood in front of usโorganized and packed into a short metal cabinet with wheels. Matt Smith pulled open the first drawer. Dozens of tiny femora (upper leg bones), broken from the weight of time, lay arranged in small, labeled boxes.
Matt Smith pointed to one of these fossils with a slight bend in it. โThis curve is due to natural disease like rickets,โ he remarked.
Other drawers contained other parts. All put together,the azendohsaur was about the size of a medium dog โwith a long neck and sprawling leg posture,โ described Matt Smith.
Modern Dinosaurs
Next Matt Smith directed our attention to a much larger metal cabinet. โBirds. We have a lot of birds,โ he exclaimed as he opened the cabinet and pulled out a drawer. And there they were lined up in a rowโdozens of taxidermy birds, from the Northern Flicker to Common Ravens. Matt Smith picked up one of the specimens, a Saw-whet owlโa bird never-before-seen at the park. That is until it was found recently on park grounds, having died of unknown causes.
Now you might be wondering, โwhy save a bunch of dead birds anyway?โ
Well, museum collections are like information investment accounts. The value of the specimens when first catalogued might seem small, but over time, with changes in technology and new scientific questions, a greater value is realized.
As Matt Smith put it, pointing to the tray of birds, โHopefully, these will help answer questions in the future.โ
In addition to modern-day bird specimens, a 220-million-year-old dinosaur fossil was found in the parkโthe ancestor to modern-day birds. โWe have had dinosaurs here longer than anywhere else in North America,โ Matt Smith stated. โAnd we have proof.โ
People
Closing the bird specimen cabinet, Matt Smith directed us to another similar non-descript case.
Inside was a collection of pottery arranged carefully on pull out trays. The vessels were a variety of shapes and colors, each one carefully decorated.
โPeople have also been walking around the forest for a long time,โ said Matt Smiht. Though not as staggering as the dynasty of archosaur life, human history in the park goes back 13,000 years.
And they are still around today. There are “37 tribes on the land,” he states, referring to the number of tribes that are affiliated with the parklands.
Among the artifacts in the collection were examples of Adamana Brown-style pottery, a form of pottery dating back to around 250 BCE. These early brown and gray ceramic pieces date back to a time when pit house villages sprung up and seasonal farming was a focus.
Later, from 650-950 CE the ceramics changed from plain brown and gray to decorative black-on-white designs and corrugated pieces, a style associated with pueblo development. Then from 950 to 1300 CE ceramics diversified even more, with black-on-red and polychrome examples showing up in the Petrified Forest archeological records.
Many of these forms stood on attention against the stark gray industrial cabinetry.
A Legacy
Matt Smith pointed out a piece that was yellow and brownโa Hopi-style ceramic. โThis one is probably 400 to 500 years old,โ He said, โfired at a slightly higher temperature,โ than the black and white pieces.
He went on to explain how this style of pottery was almost completely lost. He pointed to another piece from the 1960s by Fannie Nampeyoโโthe last one who knew how to pot in this style.โ Fanny Nampeyo learned from her mother before her, also called Nampeyo, who revitalized the ancient Hopi style in the 1890s. Without the Nampeyo legacy it is possible the Hopi pottery tradition would have been lost.
Turkey Feet or Lung Fish
Before Matt Smith shut the cabinet, a small piece of corrugated pottery caught my eye. Decorated with simple lines that resembled chicken feet, I asked Matt Smith to tell me more about it.
โThis is cool to me,โ enthused Matt Smith referring to the markings. โOne archeologist thought they were turkey feetโ he said, but the number of talons does not add up.
โIt is not a common design element,โ Matt Smith said, while he doubled back to another cabinet behind us and began rummaging around, so โI have my own theory.โ He pulled out a small fossil that looked a bit like webbed feetโ โlungfish teeth,โ Matt Smith exclaimed. He went onto explain how lungfish teeth are common Triassic fossils found in the park and have often been found associated with prehistoric structures.
Could these mystery markings be paying homage to lungfish teeth fossils? We just donโt know.
Type Cabinet
We had been at it about 30 minutes, when Matt Smith took us to the creme de la crรจme of the museum collectionโ”the type cabinet.โ
โIn natural science, you have got holotypes, explained Matt Smith. โThey are the sampleโskin, skeleton, genetic material, fossilโthat was used to describe a new species. They are the archetype of that animal.โ Every other specimen found must be measured against existing holotypes in order to determine if a species is new or not.
Holotypes
Matt Smith showed us a few of the holotypes housed in their museum collections. โsome are pretty miserable, said Matt Smith, โa single tooth or clawโ might define an entire species. One holotype that Matt showed us was Vancleavea campi, a species of reptile that may have lived more than 11 million years during the Triassic. โCovered with armorโฆ it isnโt related to anything alive todayโฆโ said Matt Smithโit was essentially โbulletproof.โ
Of course, the challenge with modern-day holotypes is often ethically obtaining a specimen in the first place, especially when the species is rare. To get around this, people often must be creative and very patient. For example, Matt Smith told me about how scientists found a new species of iguana on the Galapagos Islands about 10 years ago. In order to obtain the holotype, they had to find a living iguana that they felt would work, put an RFID chip in it, and sit back and wait for nature to take its course. I believe they are still waiting to this day.
Mussels
Matt Smith also showed us a diversity of Triassic freshwater mussels holotypes. Modern freshwater mussels are โmore diverse than anywhere else in the world in North America,โ said Matt Smith. But they are in trouble. โThese are going extinct faster than any other group of animals in the U.S.,โ Matt Smith explained, despite the fact that they are โevil geniusesโ according to Matt Smith, able to disperse their young by smuggling a ride on migrating fish.
Plants
Matt Smith also showed us some plant fossils, among them fossil trees. There are โ14 species of trees in the park,โ according to Matt Smith. However, despite their abundance working with plant fossils is difficult. โPlants never die in one placeโฆ they die in parts,โ said Matt Smith. You arenโt going to find a complete plant body like you might for an animal. Thus, a plant holotype requires some closer examination. The tree holotypes Matt Smith showed us during our tour were thin sectioned specimens, in order to see the grain of the wood.
The type cabinet looked pretty similar to others we had seen with the exception that it was on wheels. Why? In the case of an emergency, wheels provide a quick getaway. โ77 species would be lost if we didnโt have this,โ stated Matt Smith.
Whatโs the Point?
And on that note, Matt Smith took us around the corner to the back of the collection room we were in. We walked past some furniture built by the CCC (Civilian Conservation Corps) in the 1930sโanother layer of human history at the parkโand over to a final cabinet filled with artifacts.
The final cabinet we visited that day was filled with small clear packages of artifacts, each filed in equally small boxes. Shells from the Gulf of Mexico, pipestone from Wyoming, obsidian from Flagstaff, turquoise from New Mexico and, of course, petrified woodโeach artifact shaped by human hands– telling the story of human migration and technological change in the area.
Matt Smith pulled out several points and talked about their various uses. Like the pottery, Petrified Forest National Park hold a record of points/tools dating back 13,000 years from โClovis through Folsom, basket maker, and Puebloan.โ
Matt Smith described a place in the park, a playa, where some points and a lot of chunks of material (lithic scatter) have been found. โThere are petrified wood depositsโฆ and a little rise,โ said Matt Smith. The playa would have been filled with water 13,000 years ago, so it would have been the perfect place to both hunt and make points for hunting.
The Lab
The final stop on our whirl-wind tour was the paleontology lab, so we stepped outside and made our way across the park campus. Before long, Matt Smith ushered us into another non-descript building.
โSo, this is the Prep Lab,โ Matt Smith exclaimed. โMost of what we do in here is paleontologyโฆ we do basic conservation work for non-paleontological stuffโฆ but we do the whole shebang for fossils–from the grave to the cradle.โ
Gumby and Reynaldo
Looking around the room, it looked a lot like any other well-lit lab space, but with a couple rather large fossils sitting out in their plaster casts on lab benches.
โThis is Gumby, a phytosaur skull,โ said Matt Smith. The fossil was in disrepairโthe back end of Gumby lay in a plaster jacket in two pieces. Apparently, Gumby got its name because it is bendy, but also likes to break; so, after two or three breaks, the staff decided to create a mold of it. Matt Smith told me that the plan is to use casts from Gumby and several other individuals to create a replica of a phytosaur skull for display. He showed me a partial cast of a phytosaur jaw made from two fossils cobbled together.
โAnd here is Reynaldo,โ said Matt Smith, โheโs a big sexy beast.โ Collected in 2016, Reynaldo has been an on again off again project for several years nowโ โprobably three or four hundred hoursโ put into preparing the fossil, said Matt Smith but now โit is really close.โ With a little more reconstruction of the faceโand lots of glue and plasticโthe staff hopes to get him stabilized soon.
The Small Stuff
As Matt Smith grumbled a bit about the frustrating nature of larger pieces like Reynaldo and Gumby, he directed the group toward the back corner and another shiny metal cabinet.
โMy heart lies more with stuff like this,โ said Matt Smith as he pulled out a drawer and pulled out a small vial with a tiny fossil inside. โAll these tiny little fossils to me are a lot more fascinatingโฆ
I can prep them out in a day or two, and I can store a lot of them, and itโs just way more rewarding if you ask me,โ he explained.
Origin of Lizards
In order to study the small fossils, they are sent to another lab for a Micro-CT. This sort of imaging is like a regular CT scan, only more intense and the scan machine is much smaller, fitting on a desktop. The Micro-CT can get finer detail with micron-size slices of images captured. The information from the Micro-CT can then be used to print a blown-up plastic version of the fossil using a 3D printer.
Matt Smith held up an example of a 3D printed jaw of a reptile that had been enlarged from just 1 cm long to at least 10x its original size.
Matt Smith pointed to a ridge running along the skull. โYou can see things like the tunnel running through thereโฆโ he said. This type of detail is brought out through the printing process.
It also turns out the 3D printed jaw that Matt Smith was holding was from a Tuatara. Now found only in New Zealand, these creatures were common during the Triassic and beyond. They are like lizards, but with less flexible jaws and fused teeth that allow them to chomp down on and chew their prey.
Finding Triassic Tuatara-like fossils in the park provides a useful link to the origins of lizards. โLizards replace them,โ explained Matt Smith, โIt was like this ecological arms race.โ Two reptile groups pitted against each other for survival.
When you walk through the park today, all you see are lizards, but โthey are here now because of this struggle that occurred 220 million years ago,โ said Matt Smith.
And with that, Matt Smith shooed us out to enjoy the rest of our day. We were just getting started.
Heading Back in Time
With my brain crammed full of information, it was finally time to head out into the park. We said our goodbyes to Matt Smith the paleontologist, and Dorenda, Matt Walters, and I, hopped in our cars to begin the 28-mile drive through Petrified National Forest Park.
Heading south, we drove past the Painted Desert and pulled off for a quick stop at the Blue Mesa Member of the Park to look at some petrified wood.
โThe youngest part is 209 million year ago, up where we first started,โ explained Dorenda, โin the Painted Desert with the red badlands.โ
Now we were looking out at 217-million-year-old badlands of greys, blues, and greens. With puffy white clouds dancing across the otherwise expansive bright blue sky and casting shadows, the view was breathtaking.
Keystone Arch
Hidden amongst the bentonite clay hills, were petrified logs of various sizes and shapeโeach also uniquely colored.
โThe theme of this park is erosion, erosion, erosion,โ said Dorenda, as Matt Walters led us out into the colorful environment. It is through the action of water and wind that the petrified logs that the park is famous for are revealed over time.
Matt and Dorenda stopped in front of one of these logs that arched its way from one side of a small gully to another.
โThis is a really special petrified log,โ explained Dorenda, โthis one is called Keystone Arch.โ Aptly namedโthe single log was several piecesโheld together by touch points between each piece. It was beautiful, but temporary structure. The process of erosion, already acting day-by-day to bring the arch down.
Distinct Species
I asked Dorenda and Matt Walters if they knew what species of tree Keystone Arch was made from. They told me there was no way of knowing without looking at the cellular structure. Most of the tree species, with a few exceptions, are too difficult to identify without this level of detail. โThere were over 1,000 species,โ explained Dorenda.
Of course, some are more commonly found in certain locations. The north end of the park is called โthe Black Forest,โ for example, and the petrified wood there tends to be darker in color because of differences in fossilization.
โIt is just like forests today,โ said Matt, โdifferent trees in different areas.โ
Petrification
Scattered around the base of Keystone Arch were several pieces of petrified wood of various sizes and colors. This, of course, begs the question: โWhy is there so much petrified wood in the park?โ
Dorenda explained that during the Triassic Period the Petrified Forest would have been on a large supercontinent called Pangea, very tropical, and very wetโwith many freshwater streams, swamps, and lakesโand of course lots of trees, some over 200 feet tall.
This combination of trees and water meant that many trees after death were toppled, as streams undercut their banks. These dead trees, often stripped of branches and bark, might then be transported downstream, collect in areas where water slows, and become buried in sediments where decay is inhibited.
โThis area would have been a converging of waterways, and just a big damming of logs,โ explained Dorenda.
Colored Stone
Blues, reds, oranges, yellows, purples, and blacksโa palette of colors can be seen in each petrified log. The colors develop in the log next in the petrification process as mineral-rich groundwater travels through the logs.
The petrified wood is mostly quartz minerals or silicon dioxide. For this reason, โyou need silica for petrification,โ said Dorenda. In other words, you need volcanic material. Since there is not much of a history of volcanism in the area, much of the material was blown in from the west during the Triassic.
โSilica adheres to organic cells,โ Dorenda went on, so as the silica-rich water percolates down into the earth and reaches a buried log, it enters the wood and stops. The silica alters the wood into opal, replicating its features, and eventually transforming the wood into crystalline quartz over millions of years.
And the colors? โAs the silica solution goes through the earth it picks up minerals,โ Dorenda explained. Pure quartz is colorless. It is minerals like iron oxide or manganese that are responsible for the kaleidoscope of colors present in the stone. According to Dorenda, iron oxides can create colors from yellow to red, even purple depending on the level of oxidation. Manganese creates dark woods from purple to jet black.
Some of the logs found in the Petrified Forest look a lot more like wood than stone. These logs, Dorenda explained, would have started to decay early on–creating inorganic cells that the silica dioxide wonโt adhere toโresulting in weaker, lighter permineralized logs.
Matt and Dorenda had me hold a piece of each type of log in my hands so I could feel the difference in weight. Both felt heavy like stone, but the agatized stone was a bit heavier. โOne cubic foot of agatized wood weights 160 lbs,โ said Matt.
At this point, Dorenda, Matt, and I navigated our way through the badlands and back to our cars to continue our journey through geological time.
The Flattops
I followed Matt and Dorenda further south into the park, before reaching a small pullout adjacent to โThe Flattops.โ Here we met up with fossil preparator and paleontologist, Diana Boudreau, for the main eventโa hike into the badlands.
After some quick hellos and grabbing our gear, we got moving right away.
I looked out onto the unmarked terrain. Like our earlier stop, there were flat topped mesas and rolling hillsโonly this time in shades of grey and red brown. Despite the similar feel of an alien landscape, this section of the park marks a different time frame from our early stop at Blue Mesaโmoving us forward in time to about 213 million years ago.
โThe Blue Mesa region is mostly composed of the Sonsela Member. Here, we see the Flattops Beds of the Petrified Forest Member sitting just on top of Sonsela,โ remarked Diana as we descended from the road into the backcountry.
Older than Dinosaurs
Making our way cross-country, with Matt in the lead, I asked Diana to tell me more about the parkโs geology.
โSo, the whole park is Late Triassic in age,โ Diana began, and represents a range of time from 208 to 228 million years. โThat is most of what is exposed here.โ
Most of the fossils found in the park are not dinosaurโa common misconception–she added. Instead, they are from a much older, larger group of reptiles called archosaurs. Distinguishable by differences in ankle and hip bones, archosaurs are the Triassic ancestors of many later lineages, including birds, crocodiles, and dinosaurs.
Geological Members
With the main fossil bearing members including the Blue Mesa, Sonsela, and Petrified Forest members, Diana continued. Each member is distinct from the others based on certain traits, like depositional environment.
โWe will be crisscrossing between Sonsela and Petrified Forest,โ Diana remarkedโmoving between 216-million-year-old deposits of cross-bedded sandstone and 213-million-year-old mudstones and sandstones. Our footsteps dancing back and forth through time.
Cryptobiotic Soils
Matt set the pace, while Dorenda, Diana, and I followed closely behind. Watching our footsteps along the way. One of the first lessons for backcountry travel is to watch your step. Not only are there hazards to look out for, but crypotobiotic soils to protect.
A cryptobiotic soil is a dark soil crust that is formed by a suite of organisms, like fungi, lichen, bacteria, and algae, over long periods of time. These organisms are โthe first biologic that grows in a sandy, arid environment,โ explained Dorenda and they build up the soil in such a way that it benefits plant life and prevents soil erosion.
However, one misstep and 50 years of microbial work can be completely dismantled. Dorenda and Matt pointed out some cryptobiotic soil growing near a plant. It looked a bit like moss growing on a rock, but darker.
All the wiser, we side stepped the growing mat and continued on our way.
Human โFootprintsโ
As we hiked, our footprints marked our path across the desertโa path that would later be washed away with the next rainfall. However, these were not the only signs of human presence during our walk.
Not too long after finding the cryptobiotic soil, we passed by a couple of pottery sherds โarcheological artifacts of human habitation hundreds of years oldโthe first of many.
A while later, we came across a surveying โbenchmarkโโa point of reference for mapping. The date on the patinated copper surface read 1921โ100 years prior to our hike across the desert; placed by the U.S. General Land Office Survey before USGS existed. One-hundred years ago the park was newly established and the first phytosaur fossil found in the area was being described.
These were early human โfootprintsโโimpressions of a past that exists in clues and signs.
Geology
For Diana, Matt, Dorenda, and I time passed quicklyโboth literally and figurativelyโas we walked over the undulating hills.
At one point, Diana stopped abruptly. โThis is a nice vantage point to talk about the geology here,โ she remarked.
Looking out to our left was a steep, eroding cliffside with horizontal bands of varying shades of brown. Diana directed our attention toward these bands. โThis view shows a lot of the different flattops beds,โ she said pointing.
Diana then went on to describe each layer as a numbered unit starting with a section of sandstone at the top, followed by alternating layers of mudstone and sandstone. She explained how each deposit would have been laid down by a braided stream systemโwith sandy material deposited in the stream bed and more silty/muddy material along the banks.
The units we were looking at represented a time spanning about 1 million years from 213 to 212 million-years-ago. Starting with Petrified Forest Member Flattops beds at the top and the more rounded Sonsela Member at the base of the cliff. Each layer was thick, indicating a water rich environment over the 1 million years, but would have differed in the type of watery environment and the organisms that lived in that place at the time.
Petrified Peat
As we continued hiking atop the Sonsela hills, Diana and I chatted, while Matt and Diana led the way, eventually stopping near what looked to me like a short fence made of solid rockโa line of stone stuck out of the ground vertically.
โThis area here is what we called silcrete,โ said Dorenda. โRemember when we talked about the petrified wood and we talked about those giant logs? And how as the water took its toll the branches and bark and everything would be gone?โ she asked me.
Well, according to Dorenda, silcrete is the result. Waterways collect all the partially decomposed wood bits in one place where they undergo the same process as the logs and are petrified. โIt is kind of like petrified peat,โ Dorenda stated.
Standing on End
Of course, usually, silcrete is laid down in horizontal layers. The silcrete here was vertical. Making the spot a bit of a geological mystery, as there is no sign of faulting that might normally turn rock on end.
โIt is theorized that there was some sort of pressure that pushed it up through the sandstone, filling in the gaps,โ Dorenda told us.
โYou will find silcrete through the whole park,โ said Matt, but vertical layers like this โcan only be found in two places.โ
Wandering the Wilderness
After ample time spent taking pictures of the silcrete anomaly, the four of us continued our hike under blue, cloud-spotted skies.
With Matt Leading the way, Dorenda, Diana and I hung back and discussed a variety of topics from career choices to canyoneering, before the conversation shifted to the preservation of natural and ecological resources.
The Petrified Forest National Park was one of the first National Parks to have land set aside as designated wilderness in 1970. Wilderness is the highest form of protection public lands receiveโrestricting access to those on foot and limiting human impact.
However, the Petrified Forest is unique in that it offers hikers and backpackers the opportunity to explore outside of a designated trail. In fact, it is encouraged, as there are no major trail systems in the park.
Of course, โleave no traceโ principles still apply and often require extra consideration, especially in a place like Petrified Forest where archaeological artifacts and fossils are abundant. Even taking pictures requires special consideration to preserve the location of unique places that might draw crowds that may end up impacting the park negatively. Dorenda and Diana both expressed concerns about protecting artifacts and other special place locations. โItโs a weird line,โ said Dorenda, but an important one, not only for the resources being protected but often the safety of visitors to public lands as well.
An Eye
By this time, we were at least a couple of miles into the wilderness and the road where we started was a distant memory. Lost in the vastness of the wilderness (but not really lost thanks to our guide Matt), I asked Dorenda and Matt if they had any advice for those visiting the park, or any other natural place, for the first time.
Dorenda spoke first. โTake the time to see the micro and macro view,โ she said. โDo a 360,โ she suggested. She told me that she tends to keep her eyes to the ground. It takes deliberate effort to stop and look around. But taking in both views will help you better appreciate all aspects of the park.
In addition, โI think you develop an eye for things,โ she went on. Whatever you are looking for, whether it’s fossils, petroglyphs, or something else, if you learn what to look for you get better at finding it. Look for contrasts, different colors, textures, and size and that will help you
A Guide
Matt had a different take. โIt is all being passed down,โ responded Matt. Learning about a place from others that know a lot more than you do can really help enrich your experience.
โWe had two mentors. They taught us a ton because they had to teach us the hikes,โ he continued. โWe were like kids in a candy store because we were learning so much.โ
Taking it further, Matt recommends sharing what you learn. โThe key this for us is to pass it onto people,โ he remarked.
Having spent more than half the day with Dorenda and Matt, I was able to see this key in action. And let me tell you, they are well practiced.
Candy store, Matt? More like Wonkaโs Chocolate Factory!
Finding Fossils
One thing to know about Matt, is that when he slows down on a hike, it is time to look around.
It was getting near lunch time, and we had picked up the pace in an effort to make it to a lunch spot Matt and Dorenda suggested, so when Matt stopped abruptly, we knew there must be something interesting nearby.
Diana spotted it right awayโa fossil! Laying on the dry desert floor was a small fossil of a bone, about the size and length of a snickers bar. It had a crackled texture and was broken in one place.
โI think it is a phytosaur rib,โ said Matt.
Diana looked closely and agreed that โit was the right size for a phytosaur.โ Definitely a long boneโeither โa process from the vertebra or could be a rib,โ she said.
She picked it up and we looked closely at the fossil, pointing out the cellular structure visible in fossil bones before laying it back down.
I tried to imagine a large reptile sitting in a swamp waiting for its prey, but it only made me think of my own lunch waiting ahead of me.
Keep Looking
Continuing along we saw several more artifacts laying on the desert floorโincluding a piece of a corrugated pot and another fragment of a vessel with a small hole in it.
Before long we had reached our lunch site, but we werenโt โallowedโ to eat just yet. Matt said that I would need to โearn my keep first,โ as there was another artifact nearby and it was my job to spot it.
After several painful minutes of trying to spot what I thought would be pottery or a fossil, Matt guided my eyes to a faint figure inscribed onto a dark colored rockโa rock I had been staring at for a good three minutes, at least.
Petroglyphs
The petroglyph in front of me was the impression of an animal of some sortโcarved into the dark desert varnish growing on a rock. The image was fadedโthe result of time passedโas the bacterial growth responsible for the varnish was starting to repopulate the etched-out areas.
โThese are probably over 1000 years old,โ said Matt regarding the petroglyph.
Looking closely at the rock you could see small dimples formed the petroglyph impression. Matt explained that the petroglyphs would have been chiseled into the rock, probably using a tool made from petrified wood and a hammer stone.
Having โearned by keep,โ we found some other stones to sit on and enjoyed a leisurely lunch basking in the warm desert sun.
Artifact Delights
After lunch, things really got moving, as we drew closer to a larger archaeological site in the area.
Diana spotted a small unionid bivalve shell, or mussel, from one of the many species common in the area.
Matt Walters also led us past a vertebra fossil and a collection of other fossilized bone fragments, as well as several fragments of broken pottery, before reaching the piece de resistanceโthe site of several ancient Puebloan pit houses.
As Matt, Dorenda, Diana, and I neared what I later learned was a pit house village, we started seeing more pottery fragments, as well as several other archeological artifacts.
The pottery was of various colors and textures and used a variety of design elementsโthere were white and black pieces, fragments of grayware and corrugated pieces, as well as some decorative edges and unique shapes. Dorenda explained how some of the pottery would have been traded into the region, while other pieces were likely made by the local people.
Flakes from arrowhead and other tool-making also scattered the ground in colorful abundance. It was fun to pick out some favorite pieces to admire before moving to the next.
Pit House Village
The density of the pieces continued to increase as we neared a few mounds of rocky earthโwe had arrived at the pit houses. Matt Walters estimated that there were probably three dwellings in the area. And what a view! I guess the old adage โlocation, location, locationโฆโ is more ancient than I thought.
The pit houses themselves would have been built by stacking rock vertically and digging down into the earth. Then a roof would be fashioned out of whatever materials were available. There would have been a garden of squash, beans, and corn in the area and probably some storage pits as well. Though the pit houses were permanent dwellings, they were often only used seasonally.
Pit House Treasures
The areas around the pit house ruins contained many more archaeological treasures. Dorenda showed me a rounded stone, about the size of a human hand. โItโs a hammerstone,โ she said. โYou can tell it has been used because it has chips in it.โ The stone was heavy in my hands.
We also saw several large grindstones comprised of a large flat stone, called a metate, and a smooth stone with a shape suitable for grinding. The metate was ground down and smoother with use.
We also saw several unique pottery pieces, some so fragile that we avoided picking them up, including a small piece that had a handle and looked a bit like a ladle.
Weather or Not
After visiting the pit houses, we slowly curved our way back toward the cars. There were still plenty of artifacts to see, including several intact arrowheads and many more flakes of petrified wood. Matt Walters led us around to all the fascinating finds as we hiked.
We passed by another petroglyph site, before heading into a canyon between two flat topped Mesas. Though dry as a bone at the time, Matt and Dorenda told Diana and I how once they had found the canyon impassable from flood waters. โThis was a roaring river,โ said Dorenda. Though rain might not be frequent in the area, flash floods do occur.
The lasting influence of rain could also be seen on the canyon wallsโgullys and rills marked the paths of past water events. There were also large holes at the base of some of the hillsides, created by the movement of water along paths inside the Earth that widened over time.
Looking up, the hills wore sandstone capsโcreated by the weathering of the softer mudstone below. Giving the place an overall hoodoo-like quality.
The CCC
We continued to follow the dry riverbed into the canyon. Large jumbles of rocks lined our path most of the way.As I considered these large fallen stones, Matt Walters slowed his pace again. Sitting amongst the rocks was a long piece of wood.
Matt Walters inquiredโ โWho had a big impact on the park?โ He asked.
โThe CCC,โ he said, after some deliberation.
According to Matt Walters, the Civilian Conservation Corps were in the park from July 1934 to 1938. The long piece of wood was an artifact of that time. โThe CCC had a flagstone quarry,โ Matt explained, โwe think this is part of the quarry.โ
In addition to the quarry, the CCC built the Painted Desert Inn and dug a 16-mile irrigation system in one yearsโ time. With current regulations and protection for archeological and paleontological resources stricter, it took three years to replace that same waterline in 2016. Matt Walters chuckled at the irony.
My Own Eyes
Just a bit further down the wash, I had my own fun. Hidden amongst the rocks, I made my first solo fossil discoveryโanother freshwater bivalve shell lay on the ground. I called out to the rest of the group to share in my triumph. Then I took a few pictures of the fossil shell before placing it back on the ground for another to find.
A Few More Petroglyphs
As the sun sunk a bit lower in the sky, we entered the last leg of our journey which brought us to a couple more incredible petroglyph sites.
At one site there were several large stones decorated with at least a dozen figures, ranging from bear claws of various shapes and sizes to what looks like a coyote. Human figures were also displayed on the slab that was probably about as long as I am tall.
The last petroglyph site was a bit more of mystery. Here a large rock was marked with several dot-arrays, a couple of straight-lined figures, and a set of zig zags as a border. The whole display seemed to be conveying some sort of information, but what?
Matt, Dorenda, Diana, and I all puzzled over it, offering hunches and second guesses as to its meaning, before moving on.
Stone Tree
Just before hitting the road and leaving behind our backcountry adventure, I noticed a lone piece of petrified wood sitting quietly on the brown, cracked Earth.
Perhaps I was developing โan eyeโ for this unique desert environment because I felt drawn to it. So much so that I snapped a quick picture.
A few moments later, after goodbyes and well wishes, I was back in my car, driving the lonely road to my home for the night.
A Snapshot
The picture of the log is the last one that I took that day. Looking at it now, I still feel its call. A call to a time before the dinosaursโto swamps and rivers hidden in a now desert landscape. To a time where people lived in pit houses and hand-crafted stone tools and beautiful pottery. A call to modern-day adventures and new friends. And finally, a call to return to this place someday in the futureโto remember, while discovering the past, all over again.
Dorenda and Matt Walters are long-time volunteers for Petrified Forest National Park, guiding park guests on fabulous cross-country hikes each weekend. Diana Boudreau is a paleontologist and fossil preparator at Petrified Forest National Park. Matt Smith is the long-time museum curator for Petrified Forest National Park.