Flipping a famous fossil around reveals our earliest vertebrate ancestor, scientists say | CNN (2024)

Flipping a famous fossil around reveals our earliest vertebrate ancestor, scientists say | CNN (1)

A Pikaia gracilens fossil (head, right) from the Smithsonian National Museum of Natural History is seen right side up. The extinct sea creature was one of the first animals to have a precursor of a backbone.

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An extinct ribbonlike sea creature about the size of a human thumb was one of the earliest animals to evolve a precursor of a backbone. Scientists recently identified the animal’s nerve cord by using a topsy-turvy twist. They turned its fossils upsidedown.

Paleontologist Charles Doolittle Wolcottfirst encountered fossils of Pikaia inthe Burgess Shale deposits of British Columbia,dating to 508 million years ago, and described them in a 1911 treatise.The animal measured roughly 1.6 inches (4 centimeters) long on average and had a flattened, sinuous body and a tiny head, tipped with two tentacles and fringed with external gills. These were originally thought to be rudimentary legs, so the animal was positioned with these structures facing downward.

In 2012, after decades of studying Pikaia fossils, researchers describedits fossilized internal structures in great detail. They identified a long strand near the belly as a blood vesseland named a sausage-shaped 3D structure running below the animal’s back as a dorsal organ, possibly used for internal support, though such an organ was anatomically unlike anything seen in fossils or in living animals.

However, recent analysis of Pikaia fossils by another team of scientists, published June 11 in the journal Current Biology, has upended this view and all other earlier studies about Pikaia.

According to the researchers, earlier anatomical interpretations positioned the animal wrong side up. The so-called dorsal organwas actually located in the bellyand was Pikaia’s gut. The presumed blood vessel was a dorsal nerve cord, a featureassociated withthe animal group known as chordates, in the phylum Chordata.

Flipping a famous fossil around reveals our earliest vertebrate ancestor, scientists say | CNN (2)

Annotated photos show the newly revised organization of Pikaia gracilens. Abbreviations in box C indicate key features in the fossil seen in box B: tentacles on Pikaia's head (Tc); innervation (In); dorsal nerve cord (Nc); possible gonads (?Go); and myosepta, or connective fascia (Ms). The drawing in box G identifies features in the fossil in box F: front appendages (Aa); the cavity of the pharynx (Ph); gut canal (Gu); and myomeres, or muscle segments (My). Fossil specimens are from the Smithsonian National Museum of Natural History except for the fossil in box I from the Royal Ontario Museum.

All chordates, such as vertebrates, eel-like lancelets, and tunicates, or sea squirts, at some point in their lives have a flexible, rod-shaped nerve structure called a notochord in their backs. A dorsal tubular nerve cord is also a feature in chordates.

Pikaia was initially thought to be a worm, then was later upgraded to an early type of chordate, based on features such as shapes of certain muscles and the position of its anus. But experts were uncertain about where exactly Pikaia belonged on the chordate family tree.

With the description of a dorsal nerve cord, Pikaia can now be considered part of the foundational lineage of all chordates, even though it has no direct descendants that are alive today, the study authors reported.

Reconstruction of the oldest sea-going reptile from the Southern Hemisphere. Nothosaurs swimming along the ancient southern polar coast of what is now Newzealand around 246 million years ago. Artwork by Stavros Kundromichalis. Stavros Kundromichalis Related article Ancient reptile fossil shines new light on early marine evolution

Inverting Pikaia “clarifies things a lot,” said evolutionary biologist Dr. Jon Mallatt, a clinical professor at the University of Idaho. Mallatt, who was not involved in the new research, published a paper on Pikaia in 2013, working from the established (and upside-down) body position.

In retrospect, the truth was “hiding in plain sight,” and the reversal in orientation resolves questions about why Pikaia’s purported blood vessel and dorsal structure clashed with established anatomical features in other chordates, Mallatt said.

“Pikaia’s suddenly become a lot less weird,” he said.

New orientation

Reevaluating which way was up for Pikaia originated years ago with a coauthor of the new study, Dr. Jakob Vinther, a lecturer in macroevolution at the University of Bristol in the United Kingdom, said lead study author Giovanni Mussini, a researcher and doctoral candidate in the department of Earth sciences at the University of Cambridge in the UK.

There were a number of reasons for revisiting earlier interpretations of the fossils, Mussini told CNN. For one, there was the enigma of what scientists had believed was the dorsal organ’s position. Its placement — near what was supposedly Pikaia’s back — seemingly ruled out the possibility that the organ could be a gut.

Once Pikaia was flipped upside down, however, the organ’s location and features made more sense anatomically. It broadened and extended into the animal’s pharynx, the throat region where a gut typically connects to a mouth. Its 3D status could be explained by the presence of chemically reactive tissues — hallmarks of a gut. In other Burgess Shale fossils, abundant ions and reactive compounds that are typically found in gut tissuecause digestivestructures to mineralize more quickly than the rest of the body, and thereby retain more of theiroriginal shapes. Structures inside Pikaia’sorgan were possibly remnants of swallowed food, according to the study.

Flipping a famous fossil around reveals our earliest vertebrate ancestor, scientists say | CNN (4)

An image of a Pikaia fossil specimen at the Smithsonian National Museum of Natural History shows the gut canal, blocks of muscle tissue known as myomeres, and dorsal nerve cord. Light-colored sediment is visible inside the gut (toward the head on the right).

In an inverted Pikaia, the external gills that formerly pointed down were now angled upward, as are external gills in modern mudskippers and axolotls.

Flipping Pikaia also changed the orientation of muscle groups that bunch together in a wave formation. These muscles, called myomeres, are a key feature in vertebrates. In Pikaia’s new position, the strongest flex point of these muscles is along its back, which is also true for the arrangement of myomeres in other animals with backbones.

“It makes Pikaia’s movement consistent with what we see in modern chordates,” Mussini said.

Finding the nerve

Pikaia’s presumed blood vessel was also anatomically puzzling, as it lacked the branches typically found in vertebrate blood vessels.

“It’s a single line going through most of the body up until the head, where it bifurcates into those two strands into the tentacles,” Mussini said.

Flipping a famous fossil around reveals our earliest vertebrate ancestor, scientists say | CNN (5)

An interpretative drawing of the head of Pikaia gracilens from a fossil specimen at the Smithsonian National Museum of Natural History highlights a thickened part of the dorsal nerve cord. Discovering other Cambrian fossilized nervous systems helped scientists take a fresh look at how Pikaia was organized.

An important part of recognizing the structure as a nerve cord was fossilized nervous systems in other animals from the Cambrian Period (541 million to 485.4 million years ago) that were discovered over the past decade, Mussini added.

“We have a better understanding of how nerve cords and other tissues fossilize because we’ve been lucky enough to find quite a few Cambrian nervous systems preserved in other deposits,” he said, “mostly from Chinese fossils that came to light in the last few years.”

Many of these fossils were arthropods — invertebrates with exoskeletons — with living relatives such as insects, arachnids and crustaceans; comparing the fossils with modern arthropods helped paleontologists to identify preserved internal tissues. One example is a fossil specimen of the Cambrian arthropod Mollisonia, which showed brain organization comparable with that of living spiders, scorpions and horseshoe crabs, Mussini said.

While there are no living analogues for Pikaia, the fossil arthropod data gave the scientists a more detailed frame of reference for Pikaia’s nerve cord. Like other fossilized nervous tissue, the nerve cord in Pikaia was dark, rich in carbon and relatively brittle compared with other fossilized tissues.

A reconstruction of the pelagic ecosystem and the organisms fossilised in Sirius Passet, revealing how Timorebestia was one of the largest predators in the water column more than 518 million years ago. CREDIT: Artwork by Bob Nicholls/@BobNichollsArt Artwork by Bob Nicholls/@BobNichollsArt Related article Newly discovered large predator worms ruled the seas as Earth’s earliest carnivores, study finds

This dorsal nerve cord solidifies Pikaia’s status as a chordate, placing it “pretty much at the base of what we would consider traditional chordates,” Mallatt said.

Much about Pikaia’s anatomy remainsa mystery, but looking at it from a new angle could offer fresh insights into its puzzling array of features, Mussini said.

“A lot of these details have come to light only in the last 10 or 12 years,” Mussini added. “The authors of the 2012 paper can certainly be forgiven for not bringing these details to the conversation, because it’s a work in progress.”

Correction:A previous version of this story gave an incorrect average length of Pikaia.

Clarification:This story has been updated to reflect that the dorsal nerve cord is a feature associated with chordates and the notochord is a feature in chordates that’s distinct from the dorsal tubular nerve cord.

Mindy Weisberger is a science writer and media producer whose work has appeared in Live Science, Scientific American and How It Works magazine.

Flipping a famous fossil around reveals our earliest vertebrate ancestor, scientists say | CNN (2024)
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