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https://news.ku.edu/2023/08/03/paper-offers-glimpse-500-million-year-old-sea-worm-named-after-dune-monster

When she found the fossil, Rhiannon LaVine, a research associate with the KU Biodiversity Institute and Natural History Museum, was part of a team camping and carrying out fieldwork in the High Creek area of the Spence Shale, a geologic formation straddling northern Utah and southern Idaho. The area has been famed since the 1900s for its abundance in some 90 species of Cambrian trilobites and soft-bodied fossils.

Their findings recently were published in the peer-reviewed journal Historical Biology.

“One of the last times we were out there, I split open one of these pieces of rock and instantly knew it was something that wasn’t typical,” LaVine said. “The first thing we see are these radial blades that look like stars or flowers. Immediately, I showed it to (lead author) Julian Kimmig. He was perplexed. He’s said, ‘I’ve never seen anything like that.’ We were out with Paul Jamison, a local who’s been working the site for years — and if there’s something in there that somebody’s seen, he’s seen it. But he hadn’t seen it.”

After transporting the fossil specimen back to the KU Biodiversity Institute — where today it’s part of the permeant paleontological collection — LaVine consulted with colleagues about the mysterious fossil.

I was showing it to everybody, asking, ‘What do you think this is?,’” LaVine said. “Nobody had an idea. We thought maybe it’s a wiwaxia, a very peculiar animal from about that time — but we don’t have too many representatives of it from the Spence area. Or maybe it’s a scale worm, but there’s no real scale worms known from that time. Maybe it was a juvenile jellyfish, but it’s so bladed and the lines are so straight on those things, it would be kind of odd. So, I couldn’t get a solid answer.”

Next, LaVine teamed with colleagues at the University of Missouri to conduct scanning electron microscopy and energy-dispersive X-ray spectrometry on the fossil.

We mainly wanted to make sure that this was a biological thing, because it’s possible it could have just been some weird mineral growth with the way it looked,” said the KU researcher. “So that was primarily why we brought it to them. It’s about 7 or 8 centimeters long, maybe a little shorter than the length of a smartphone. It’s sizable for a fossil of that sort. We did the scanning to rule out that it wasn’t just a mineral growth, and we were able to do that.”

Finally, LaVine and her co-authors were able to determine the fossil to be a previously unknown species of annelid, a diverse phylum of some 21,000 “segmented worm” species found in terrestrial, freshwater and marine environments all over the world.

As the discoverer of the new fossil worm and a co-author on the paper describing it, LaVine bestowed the species with its scientific name: Shaihuludia shurikeni. Shai-Hulud is the indigenous name for the worms on the planet Arrakis in the “Dune” novels by Frank Herbert, while “shuriken” is the Japanese word for throwing star, representing the shape of the blade-like chaetae (chaetae are the stiff bristles that characterize many annelids).

“I’ve been involved in describing species before, but this is the first one I’ve named,” LaVine said. “Actually, I was able to name its genus — so I can put that feather in my cap. It was the first thing that came to mind, because I’m a big ol’ nerd and at the time I was getting really excited for the ‘Dune’ movies.”

Like worm’s sci-fi namesake, Shaihuludia shurikeni is a big deal: Describing a new species of Cambrian annelid doesn’t happen every day.
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“Annelids are very rare in the Cambrian of North America, and so far we only knew of a single specimen from the Spence Shale,” said lead author Julien Kimmig, a paleontologist with the State Museum of Natural History in Karlsruhe, Germany. “The new annelid Shaihuludia shurikeni is especially interesting, as it had some very impressive chaetae, which makes it unique among the Cambrian annelids. The way that the fossil is preserved is also of particular interest, because most of the soft tissue is preserved as an iron oxide ‘blob,’ suggesting the animal died and was decomposing for a while before it was fossilized. However, with the analytical methods used in the paper, we show that even with limited preservation you can identify fossils.”

In the process, the team reexamined a fossilized annelid previously found in the Spence Shale and reclassified it as Burgessochaeta — a surprise because until then, Burgessochaeta have only been found in another famed fossil deposit in British Columbia, Canada.


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