The Megacheiran candidate: Fossil hunters strike gold with new species

This life reconstruction image shows Lomankus edgecombei in what would have been
This life reconstruction image shows Lomankus edgecombei in what would have been its natural marine environment. (Illustration by Xiaodong Wang)

Ancient "gold" bug fossils, infused with pyrite, have been identified as a new species of arthropod.

Paleontologists have identified fossils of an ancient species of bug that spent the past 450 million years covered in fool’s gold in central New York.

The new species, Lomankus edgecombei, is a distant relative of modern-day horseshoe crabs, scorpions, and spiders. It had no eyes, and its small front appendages were best suited for rooting around in dark ocean sediment, back when what is now New York state was covered by water.

Lomankus also happens to be bright gold - thanks to layers of pyrite (fool’s gold) that have crept into its remains.

And the gold color isn’t just for show. The pyrite, located in a fossil-rich area near Rome, New York, known as "Beecher’s Bed," helped to preserve the fossils by gradually taking the place of soft-tissue features of Lomankus before they decayed.

" These remarkable fossils show how rapid replacement of delicate anatomical features in pyrite before they decay, which is a signature feature of Beecher’s Bed, preserves critical evidence of the evolution of life in the oceans 450 million years ago," said Derek Briggs, the G. Evelyn Hutchinson Professor of Earth and Planetary Sciences in Yale’s Faculty of Arts and Sciences.

Briggs is co-author of a new study in Current Biology describing the new species. He is also a curator at the Yale Peabody Museum.

Briggs and his co-authors said Lomankus, which is part of an extinct group of arthropods called Megacheira, is evolutionarily significant in several ways.

Like other Megacheirans, Lomankus is an example of an arthropod with an adaptable head and specialized appendages (a scorpion’s claws and a spider’s fangs are other examples). In the case of Lomankus, its front appendages bear a trio of long, flexible, whip-like flagella - which may have been used to perceive its surroundings and detect food.

" Arthropods typically have one or more pairs of legs at the front of their bodies that are modified for specialized functions like sensing the environment and capturing prey," said Luke Parry, a former Yale postdoctoral researcher who is now an associate professor at the University of Oxford, and co-corresponding author of the study. "These special legs make them very adaptable, somewhat like a biological Swiss army knife."

In addition, the Lomankus fossils indicate that Megacheirans continued to evolve and diversify longer than previously thought. Lomankus is one of the only known Megacheirans to have survived past the Cambrian Period (485 to 541 million years ago) and into the Ordovician Period (443 to 485 million years ago). Paleontologists believe Megacheirans were largely extinct by the beginning of the Ordovician Period.

The new Lomankus fossils also have several ties to Yale’s paleontological efforts, going back more than a century.

The site where they were discovered, Beecher’s Bed, is named for Charles Emerson Beecher, who was head of the Yale Peabody Museum from 1899 until 1904. Beecher published classic papers on the anatomy and relationships of trilobites (one of the earliest arthropod groups) from the site, and his material was studied and expanded upon by other scientists for generations.

Briggs was one of them. His first paper on Beecher’s Bed fossils was published in 1991, and as curator of invertebrate paleontology at the Peabody in the early 2000s (and subsequently director of the museum), he arranged for Yale to lease the site for field studies until 2009.

Paleontologist Yu Liu of Yunnan University in China, co-corresponding author of the study, contacted Briggs about the new fossils from Beecher’s Bed, which he had acquired from a Chinese fossil collector. Briggs then brought in Parry, his former postdoc, with whom he was already collaborating on research about similar fossils at the Peabody.

" The preservation is remarkable," Briggs said. "The density of the pyrite contrasts with that of the mudstone in which they were buried. Their details were extracted based on computed tomography [CT] scanning, which gave us 3D images of the fossils."

The new fossil specimens have been donated to the Peabody.

Jim Shelton