Science

Weird ancient tree from before dinosaurs found in Canadian quarry

Forests of giant, scaly-stemmed club mosses once rose from ancient swamps in Atlantic Canada. But fossils found in a New Brunswick quarry show some trees that grew among them were even stranger — more like the truffula trees in Dr. Seuss books than any tree that exists today.

Before age of dinosaurs, plants experimented with bizarre forms, discovery shows

An illustration of a tree with a spindly trunk and a bush of leaves at the top.
A reconstruction shows what the fossil tree Sanfordiacaulis densifolia would have looked like. (Tim Stonesifer)

Forests of giant, scaly-stemmed club mosses rose from ancient swamps in Atlantic Canada 350 million years ago.

But below the canopy sprouted even stranger trees, whose fossils were recently discovered in a quarry in Norton, N.B.

"What it really does look like is one of those truffula trees from The Lorax," said Olivia King, one of the researchers that discovered the fossil. She referred to a famous children's picture book by Dr. Seuss that features fantastic, colourful trees decimated to produce clothing called "thneeds."

Like the truffula, the new fossil species, Sanfordiacaulis densifolia, was a little taller than a human, but not extremely tall (about three metres), and had a spindly stem poking into a dense mop of long leaves. That mop was more extreme than the truffula's in size — over five metres, or about the diameter of an above-ground pool.

WATCH | You can compare the truffula trees in this review of The Lorax movie: 

The Lorax and Undefeated

13 years ago
Duration 4:07
CBC's Eli Glasner talks about two movies hitting theatres: the animated Dr. Seuss film The Lorax (and its controversial tie-ins) and the Oscar-winning football documentary Undefeated.

"It's different than anything we see today," said Matthew Stimson, who co-discovered the fossil, which is described in a new study published in Current Biology on Friday.

How it was found in a New Brunswick quarry

Sanfordiacaulis lived at a time called the Mississippian, an early part of the Carboniferous period. It was before dinosaurs or even reptiles had evolved, and insects and salamander-like amphibians were just starting to colonize the land. At the time, New Brunswick had a subtropical to tropical climate, and its lakes were surrounded by swampy forests.

A woman with a white baseball cap lies on a grey boulder containing a dark fossil.
Olivia King, a researcher at St. Mary's University and the New Brunswick Museum, discovered the fossil with her colleague Matt Stimson at Sanford Quarry in Norton, N.B. (Matt Stimson)

King and Stimson are both graduate students at St. Mary's University in Halifax who also work for the New Brunswick Museum. They were searching for the tracks of those early animals, often in quarries that allowed them to, because those are places where fresh rock is constantly being exposed by digging. 

At Sanford quarry, the sandstone comes from the bottom of a very long, ancient lake that's so deep that near its bottom, there was no oxygen to promote decay. It preserved not just fish, but sections of the surrounding forest plunged into its depths by earthquake-triggered landslides.

While searching there in 2017, King and Stimson spotted a tree trunk embedded in a boulder. As they dug it out to expose more, they realized that the trunk was attached to branches and leaves that didn't belong to anything they recognized.

"This was something new, something unique," Stimson said. 

A man stands over a fossil
Prof. James Basinger, a paleobotanist at the University of Saskatchewan, who is not a co-author of the study, stands next to a part of the fossil. The tree trunk and attached leaves are exposed. The fossil leaves extend beyond the edges of the block, which was removed and trimmed before transport to the New Brunswick Museum. (Patrica G. Gensel)

They began sending photos to experts in fossil plants to help them identify it.

They also contacted the quarry owner, Laurie Sanford, who offered his staff and machinery to dig the boulder out and transport it to the New Brunswick Museum. The fossil is named after him for his contributions.

What it tells us about the history of trees

Robert Gastaldo, an emeritus professor at Colby College in Waterville, Maine, was among the paleobotanists called in to help identify and study the unusual plant. He recalls walking into the room where the huge block was stored, with the tree embedded in it. "And [I] went, 'Oh wow.'"

Not only was it large, but it's very unusual to find the crown of a tree preserved with a trunk, he said. It's also unusual for them to be preserved in three dimensions, instead of flattened during the fossilization process. 

Study co-author Adrian Park, a geologist with the New Brunswick Department of Natural Resources and Energy Development, found evidence of earthquake-triggered landslides at the fossil site. The researchers believe the sediment that encased the tree during an ancient landslide protected it from getting crushed by additional sediment piling overtop in the hundreds of millions of years that followed.

An illustration showing the heights of different ancient trees compared to a human silhouette.
An image from the study shows the tree heights of different fossil plants found before, during and after Sandfordiacaulis. For some, only the trunks have been found. (Gastaldo et al./Current Biology)

Gastaldo said very tall club moss trees and low undergrowth plants had previously been found in forests from the Mississippian, but researchers had not yet found evidence of a middle layer of intermediate-sized trees, like those in the "subcanopy" of modern tropical forests — until this one.

Its huge mop of dense foliage likely aimed to capture as much light as possible between the canopy and the undergrowth.

Gastaldo said the existence of such a strange tree suggests this was a time when plants, which had only recently colonized the land, were experimenting with many different forms and strategies.

King noted that in the case of the form taken by Sanfordiacaulis, "we don't see it before this time and we don't see it after. So it's a bit of a failed experiment."

That said, Sanfordiacaulis did have fleeting success — more digging led the researchers to find another four specimens, and it turned out that many of its leaves and branches had previously been collected, though not identified, suggesting it was quite a common plant in its forest.

The most similar modern plants, tree ferns and palms have far fewer leaves and didn't evolve until later.

What it tells us about ancient forests

Plant fossil researchers who weren't involved in the study were excited by the implications for what forests were like 350 million years ago.

Cindy Looy is a professor at the University of California, Berkeley, who teaches a course in paleobotany and who studies how ancient plants responded to major environmental changes, such as mass extinctions and deglaciations. She said she was struck by the image of what the tree would have looked like.

"That plant must have looked like almost a gigantic umbrella if you would have been standing under it. Hardly any light would escape that plant," she said. "It's an unusual one and pretty cool one."

A 3D animation shows the reconstructed tree from different angles.
A 3D animation shows the reconstructed tree Sanfordiacaulis from different angles. (Tim Stonesifer)

Will Matthaeus is a postdoctoral researcher at Trinity College Dublin who measures and incorporates fossil plants into simulations of ancient ecosystems.

He said that while plants this ancient are generally strange-looking, "this is the top of the heap in terms of an unfamiliar-looking tree."

Both Looy and Matthaeus said finding an entire tree with trunk, branches and leaves was very rare. But they were most excited that this tree provides the first evidence that forests were complex enough to have a middle layer of plants, even 350 million years ago, between the canopy and the undergrowth. 

"They're looking back to a time when we don't really know what the forest ecosystem looked like," Matthaeus said. "Discoveries like this are groundbreaking in that sense."

The new study was supported by science and research funding from the Canadian, U.S. and U.K. governments and the New Brunswick Department of Natural Resources and Energy Development.

ABOUT THE AUTHOR

Emily Chung

Science, Climate, Environment Reporter

Emily Chung covers science, the environment and climate for CBC News. She has previously worked as a digital journalist for CBC Ottawa and as an occasional producer at CBC's Quirks & Quarks. She has a PhD in chemistry from the University of British Columbia. In 2019, she was part of the team that won a Digital Publishing Award for best newsletter for "What on Earth." You can email story ideas to [email protected].

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