Discovering the Early Ancestors of Mollusks: Shishania aculeata
Earth hosts roughly 76,000 mollusk species, showcasing a diverse range of forms such as clams, oysters, scallops, mussels, snails, slugs, and highly intelligent creatures like octopuses, cuttlefish, and squid. However, understanding their ancestral forms and early evolution has been challenging. Fossils unearthed in southern China of a small marine creature from the Cambrian Period, approximately 514 million years ago, are shedding light on the early stages of the mollusk lineage. This species, named Shishania aculeata, resembles a spiny slug and offers insights into mollusk evolution.
Characteristics of Shishania aculeata
Shishania aculeata had a flattened, oval-shaped body, averaging just over an inch (3 cm) in length and eight-tenths of an inch (2 cm) in width. Among the 18 specimens studied, some preserved rare soft body parts, allowing researchers to examine its anatomy in detail.
The creature’s top was densely covered with hollow, cone-shaped spines, similar to those on Southeast Asia’s durian fruit, providing protection from predators. These spines were composed of chitin, the same material found in crab shells.
“On the underside, there was a ring of tissue called a girdle surrounding an organ known as a foot, similar to the muscular sole found in modern slugs and snails,” explained paleontologist Luke Parry of the University of Oxford. This feature allowed Shishania aculeata to creep along the muddy seafloor, much like today’s slugs and snails move on land.
Habitat and Diet of Shishania aculeata
Shishania likely inhabited shallow marine environments, feeding on algae and other organic matter. Paleontologist Xiaoya Ma of Yunnan University and the University of Exeter noted that the anatomical features of Shishania’s underside indicated it as one of the earliest-known members of the mollusk lineage.
Mollusk Diversity and Evolution
Mollusks are a diverse group of invertebrates, second in size only to arthropods. They possess soft bodies made primarily of muscle, a well-organised nervous system, and are usually protected by shells. Even shell-less mollusks, like squid, evolved from shelled ancestors.
“This fossil reveals what mollusks looked like before they evolved shells,” Parry said. “Early mollusks were covered by protective spines. Using an electron microscope, we discovered tiny elongate channels in the spines, less than a thousandth of a millimeter in diameter, indicating the cellular mechanism for spine secretion.”
Interestingly, this secretion system is also found in the invertebrate group that includes earthworms.
Fossil Discovery and Significance
The remains of Shishania were discovered by Guangxu Zhang, a doctoral student at Yunnan University, during a road construction project in Yunnan Province. “Under my magnifier, the fossils appeared strange, spiny, and unlike any other fossils I had seen,” Zhang recalled.
The site also contained fossils of sponges and horseshoe crab-like trilobites, indicating a diverse marine ecosystem.
The vast diversity among modern mollusks, in both shape and lifestyle, has complicated the task of tracing their last common ancestor. Their diversity rapidly evolved during the Cambrian Explosion, a crucial period in Earth’s history when a multitude of animal forms first emerged.
Parry suggested that Shishania should be viewed as “an evolutionary aunt or cousin” to today’s mollusks, with a body plan more primitive than the actual last common ancestor of the current mollusk group.
“I find it incredible that we can trace back the lineage of tool-using octopuses to humble, slug-like creatures from over half a billion years ago,” Parry said.