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A ‘rotting little plastic bag’ was actually a 514 million-year-old fossil


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This spiny slug may have been one of the first mollusks to crawl around Earth.

 

shishania-reconstruction.png?w=1407&h=75

An artist’s reconstruction of Shishania aculeata as it would have appeared in life as viewed from the top, side and bottom (left to right). This early mollusk lived about 514 million years ago.

 

A newly discovered extinct mollusk species that skulked along the ocean floor half a billion years ago is offering new insights into the early days of this diverse group of animals. Fossils from Shishania aculeata indicate that some early mollusks were flat, armored, slug-like creatures that didn’t have the signature shells we see on today’s snails and bivalves. This species was also covered with hollow cone-shaped spines called sclerites. The findings are detailed in a study published August 1 in the journal Science.

 

Shishania was discovered thanks to some well-preserved fossils uncovered in the Yunnan Province in southern China. The newly named species dates back to the early Cambrian Period–roughly 514 million years ago. The specimens of Shishania that the team studied are a few centimeters long and the spiky cones are made of chitin. This crunchy material is also found in the shells of modern insects, crabs, and even some mushrooms.  

 

The fossils that were preserved upside down, indicates that it likely had a muscular foot similar to a slug. Shishania would have used that leg to creep around the seafloor. Unlike most mollusks, it lacked a shell that covered its body.

 

Living mollusks come in a wide array of forms–snails, clams, and highly intelligent cephalopods like squids and octopuses. All of this biodiversity developed very quickly during the Cambrian Explosion. This event about 530 million years ago was when all of the major groups of animals were rapidly diversifying. However, due to this accelerated pace of change, few fossils have been left behind to tell the story of early mollusk evolution. The team believes that Shishania represents a very early stage in molluscan evolution.

 

“Trying to unravel what the common ancestor of animals as different as a squid and oyster looked like is a major challenge for evolutionary biologists and paleontologists–one that can’t be solved by studying only species alive today,” study co-author and University of Oxford in England paleontologist Luke Parry said in a statement. “Shishania gives us a unique view into a time in mollusc evolution for which we have very few fossils, informing us that the very earliest mollusc ancestors were armored spiny slugs, prior to the evolution of the shells that we see in modern snails and clams.”

 

Shishania’s body was made of soft tissues that typically don’t preserve well in the fossil record. This made the specimens a bit challenging to study, since several were poorly preserved.

 

“At first I thought that the fossils, which were only about the size of my thumb, were not noticeable, but I saw under a magnifying glass that they seemed strange, spiny, and completely different from any other fossils that I had seen,” Guangxu Zhang, a study co-author and recent PhD graduate from Yunnan University in China who discovered the fossils, said in a statement. “I called it ‘the plastic bag’ initially because it looks like a rotting little plastic bag. When I found more of these fossils and analyzed them in the lab I realized that it was a mollusc.”

 

fossil-spines.png?w=1440&h=967

Complete specimen of Shishania aculeata seen from the dorsal (top) side (left). Spines
covering the body of Shishania aculeata (right). CREDIT: G Zhang/L Parry.

 

Shishania’s spines show an internal system of canals that are less than one hundredth of a millimeter in diameter. The cones were secreted at their base by microvilli–tiny protrusions of cells that increase surface area. Microvilli are found on the human tongue and in the intestines where they help the body absorb food.

 

“We found microscopic details inside the conical spines covering the body of Shishania that show how they were secreted in life,” said Parry. “This sort of information is incredibly rare, even in exceptionally preserved fossils.”

 

The team likens Shishania’s method of secreting hard parts to a natural 3D printer that can change its body parts depending on what the animal needs. This method allows several invertebrates to secrete hard parts that do everything from providing defense to helping it scoot around.

 

Chitons–the hard spines and bristles in some modern mollusks–are made of the mineral calcium carbonate instead of the organic chitin that is in Shishania. Similar chitinous bristles can be found in some more obscure groups of animals including brachiopods and bryozoans. These animals along with mollusks and annelids (modern earthworms and their relatives) form the group Lophotrochozoa.


“Shishania tells us that the spines and spicules we see in chitons and aplacophoran mollusks today actually evolved from organic sclerites like those of annelids,” said Parry. “These animals are very different from one another today and so fossils like Shishania tell us what they looked like deep in the past, soon after they had diverged from common ancestors.”

 

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