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New Deep-Sea Crustacean Discovered in Bahamas

Booralana photo plate press

The finding may help scientists better understand the vast biodiversity of the sea

Stony Brook, NY, January 18, 2024 – An international team of marine biologists including Oliver Shipley, PhD, of the School of Marine and Atmospheric Sciences (SoMAS) at Stony Brook University, has discovered a unique isopod, a form of crustacean, that has been formally  identified as a new species of the genus Booralana from the deep waters of The Bahamas. The finding, detailed in a paper published in the journal Zootaxa, is another example that discovery of life in the oceans is far from complete. By uncovering the creature’s role in deep-sea ecosystems, scientists may be able to better understand ocean biodiversity.

A live specimen of the newly discovered isopod Credit: Oliver Shipley

Isopods are found ubiquitously across all major ecosystems on earth. Many, like this new species, are only a few centimeters long. They evolved more than 300 million years ago. In the deep seas, they are mostly scavengers and are important recyclers of energy. Yet, there is evidence they can attack living vertebrates such as sharks. Isopods can also live several years without eating. This creature, Booraland nickorum, appears to exhibit similar traits since its discovery at over 500 meters in Bahamian waters.

“This work highlights the cryptic diversity of this group and underscores how little we know about deep-sea ecosystems in The Bahamas,” says Shipley, a Research Assistant Professor at SoMAS, who believes marine researchers are only scratching the surface on what these deep- sea ecosystems contain in terms of marine life, and that this latest finding suggests “a potentially hidden ‘treasure chest’ of unrecognized biodiversity in these waters.”

In 2019, Shipley worked closely with OceanX and the Cape Eleuthera Institute on research that explored deep waters in the Exuma Sound, see this story. This region had initially been the focus of Shipley’s MS research, beginning in 2013. The 2019-20 expedition was one of several taking place in the Sound aimed at documenting deep-sea biodiversity in its previously unexplored areas. During the expedition, the research team recovered specimens for genetic sequencing, and in the process discovered the new isopod, Booralana nickorum.

Dorsal views of the newly described Booralana nickorum and previously known Booralana tricarinata highlighting distinguishing characteristics between the two species. Credit: Oliver Shipley

For Shipley and colleagues, this is the second new species of isopod discovered as part of long-term project in The Bahamas’ Exuma Sound. The project has largely aimed to examine patterns of biodiversity and food web structure. The other isopod, Bathynomus maxeyorum, was formally described in 2016.

Prior to this discovery, it was believed that only a single species of Booralana existed in the Northwest Atlantic Ocean, Booralana tricarinata. The new species, B. nickorum, can be distinguished by several morphological features associated with the pleotelson, or ‘tail.’

Collaborating with Shipley in the discovery are several scientists from the University of Massachusetts Amherst, including Professor Duncan Irschick, who used novel technologies to created 3D models of the specimen.

“The Caribbean houses many deep-sea ecosystems that could be considered pristine, mostly hidden from anthropogenic exploitation, such as deep-sea fisheries and mining,” explains Shipley. “Therefore, they provide a baseline from which to compare exploitation effects occurring in less pristine regions. However, these systems are not immune from the increasing impacts of climate changes and pollution, so it is critical that we understand the full extent of the biodiversity supported by these deep-sea environments.”

Shipley currently teaches an annual overseas field course to the Cape Eleuthera Institute, where undergraduate and graduate students work alongside Bahamian scientists to explore sub-tropical ecosystems, including the deep-sea. This offers much exposure for Stony Brook students who directly participate in active discovery.


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