500-million-year-old fossil fills in ‘Cambrian explosion’ puzzle
A rare fossil discovery of an ancient worm-like creature sheds light on a period of time when many of the world's animal groups were first appearing.
Researchers have found a rare, 500-million-year-old “worm-like” fossil called a palaeoscolecid, which is an uncommon fossil group in North America.
Many scientists consider the “Cambrian explosion”—which occurred about 530-540 million years ago—as the first major appearance of many of the world’s animal groups in the fossil record. Like adding pieces to a giant jigsaw puzzle, each discovery dating from this time period has added another piece to the evolutionary map of modern animals.
“This group of animals are extinct, so we don’t see them, or any modern relatives, on the planet today.”
The researchers believe the new find, from an area in western Utah, can help scientists better understand how diverse the Earth’s animals were during the Cambrian explosion.
While this fossil has the same anatomical organization as modern worms, it doesn’t exactly match with anything we see on modern Earth, says coauthor Jim Schiffbauer, an associate professor of geological sciences at the University of Missouri.
“This group of animals are extinct, so we don’t see them, or any modern relatives, on the planet today,” Schiffbauer says. “We tend to call them ‘worm-like’ because it’s hard to say that they perfectly fit with annelids, priapulids, or any other types of organism on the planet today that we would generally call a ‘worm.’ But palaeoscolecids have the same general body plan, which in the history of life has been an incredibly successful body plan.
“So, this is a pretty cool addition because it expands the number of worm-like things that we know about from 500 million years ago in North America and adds to our global occurrences and diversity of the palaeoscolecids.”
At the time, this palaeoscolecid was likely living on an ocean floor, says lead author Wade Leibach, a graduate teaching assistant.
“It is the first known palaeoscolecid discovery in a certain rock formation—the Marjum Formation of western Utah—and that’s important because this represents one of only a few palaeoscolecid taxa in North America,” Leibach says.
“Other examples of this type of fossil have been previously found in much higher abundance on other continents, such as Asia, so we believe this find can help us better understand how we view prehistoric environments and ecologies, such as why different types of organisms are underrepresented or overrepresented in the fossil record.
“So, this discovery can be viewed from not only the perspective of its significance in North American paleontology, but also broader trends in evolution, paleogeography, and paleoecology.”
Leibach began this project as an undergraduate student by analyzing a box of about a dozen fossils in the collections at the University of Kansas Biodiversity Institute. Initially, Leibach and one of his coauthors, Anna Whitaker, who was a graduate student at the University of Kansas at the time and is now at the University of Toronto-Mississauga, analyzed each fossil using a light microscope, which identified at least one of the fossils to be a palaeoscolecid.
Leibach worked with Julien Kimmig, who was at the University of Kansas Biodiversity Institute at the time and is now at Penn State University, to determine that, in order to be able to confirm their initial findings, he would need the help of additional analyses provided by sophisticated microscopy equipment located at the MU X-ray Microanalysis Core, which is directed by Schiffbauer. Using the core facility, Leibach focused his analysis on the indentations left in the fossil by the ancient animal’s microscopic plates, which are characteristic of the palaeoscolecids.
“These very small mineralized plates are usually nanometers-to-micrometers in size, so we needed the assistance of the equipment in Dr. Schiffbauer’s lab to be able to study them in detail because their size, orientation, and distribution is how we classify the organism to the genus and species levels,” Leibach says.
Leibach says the team found a couple reasons about why this particular fossil may be found in limited quantities in North America as compared to other parts of the world. They are:
- Geochemical limitations or different environments that may be more predisposed to preserving these types of organisms.
- Ecological competition, which may have driven this type of organism to be less competitive or less abundant in certain areas.
The new taxon is named Arrakiscolex aasei after the fictional planet Arrakis in the novel Dune by Frank Herbert, which is inhabited by a species of armored worm and the collector of the specimens Arvid Aase.
The study appears in Acta Palaeontologica Polonica .
Funding came from the National Science Foundation, the National Science Foundation Earth Sciences Instrumentation and Facilities grant, a University of Kansas Undergraduate Research grant, a student research grant provided by the South-Central Section of the Geological Society of America, and the J. Ortega-Hernández Laboratory for Invertebrate Palaeobiology at Harvard University.
The study’s authors would like to thank Arvid Aase and Thomas T. Johnson for donating the specimens analyzed in the study.
Source: University of Missouri
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