General, Press Release /

Scientists Discover New Ecosystem Underneath Hydrothermal Vents

International science team discovers deep-sea habitats, evidence of hydrothermal animals, in volcanic cavities beneath the ocean floor 

Video and photos available here.

Balboa, Panama – A new ecosystem has been discovered in volcanic cavities beneath hydrothermal vents at a well-studied undersea volcano on the East Pacific Rise off Central America. The landmark 30-day expedition aboard Schmidt Ocean Institute’s research vessel Falkor (too) was led by Dr. Monika Bright, University of Vienna, along with an international science team from the United States, Germany, the Netherlands, France, Costa Rica, and Slovenia.

ROV SuBastian takes a geologic sample from a hydrothermal black smoker near Tica Vent on the East Pacific Rise 2,500 meters deep. E

Using an underwater robot, the science team overturned chunks of volcanic crust, discovering cave systems teeming with worms, snails, and chemosynthetic bacteria living in 75 degrees Fahrenheit (25 degrees Celsius) water. The discovery adds a new dimension to hydrothermal vents, showing that their habitats exist both above and below the seafloor. Scientists have spent the past 46 years studying hydrothermal vents and microbial life in the subsurface, but have never looked for animals under these volcanic hot springs.

Monika Bright examines tubeworm larvae samples, found 2cm within cracks of a rock sample. This specimen is Oasisia jerichonana, 2mm in length, probably less than a month old.

Additionally, they found evidence of vent animals, like tubeworms, traveling underneath the seafloor through vent fluid to colonize new habitats. Tubeworms are one of the foundational hydrothermal vent animals but very few of their young have been found in the water above hydrothermal vents, leading Dr. Bright’s team to suspect they travel beneath the earth’s surface to create new hydrothermal communities.

A large cluster of tubeworms at Fava Flow Suburbs, a site on the East Pacific Rise 2,500 meters deep. Experiments testing the theory of species dispersal through cracks in the Earth’s crust were performed in this area.

“Our understanding of animal life at deep-sea hydrothermal vents has greatly expanded with this discovery, ” said Bright. “Two dynamic vent habitats exist. Vent animals above and below the surface thrive together in unison, depending on vent fluid from below and oxygen in the seawater from above.”  

Hydrothermal vents act like underwater hot springs that flow through cracks in the earth’s crust as a result of tectonic activity. When a new hydrothermal vent appears, the ecosystem rapidly follows as animals colonize an area within a few years. How animal larvae find new vent fields is unknown by scientists. Dr. Bright’s team is the first to examine and confirm that tubeworm larvae can settle and even live underneath the seafloor.

A rock crust sample, upside down, reveals Oasisia and Riftia tubeworms, as well as other organisms. This is a strong argument in favor of Monika Bright’s and Sabine Gollner’s theory of species dispersal through cracks in the Earth’s crust.

To determine if animals travel through vent fluids, the science team used Schmidt Ocean Institute’s underwater robot, ROV SuBastian, to conduct experiments by gluing mesh boxes over cracks in the earth’s crust. When the boxes were removed after several days along with the crust they discovered animals living below the surface in hydrothermal cavities. Scientists will study results from their experiments in the months to come. 

“On land we have long known of animals living in cavities underground, and in the ocean of animals living in sand and mud, but for the first time, scientists have looked for animals beneath hydrothermal vents,” said SOI’s Executive Director, Dr. Jyotika Virmani. “This truly remarkable discovery of a new ecosystem, hidden beneath another ecosystem, provides fresh evidence that life exists in incredible places. Schmidt Ocean Institute is proud to have provided a platform for Dr. Bright and her team to gather new insights into these systems that may be vulnerable to deep-sea mining.”

In the Control Room of Research Vessel Falkor (too), Monika Bright and Andre Luiz de Oliveira document essential moments of their deep-sea experiments and observations. 2500 meters below them, Remotely Operated Vehicle (ROV) SuBastian overturned a piece of the Earth’s crust, showing multiple young tubeworms, providing proof of the researchers’ idea that animals may disperse using cracks underground in the seafloor.

“The discoveries made on each Schmidt Ocean Institute expedition reinforce the urgency of fully exploring our ocean so we know what exists in the deep sea,” said Wendy Schmidt, president and co-founder of Schmidt Ocean Institute. “The discovery of new creatures, landscapes, and now, an entirely new ecosystem underscores just how much we have yet to discover about our Ocean–and how important it is to protect what we don’t yet know or understand.”

The science team was accompanied by LA-based artist, Max Hooper Schneider, who constructed sculptures that were filmed on the vent systems with ROV SuBastian, and returned to the surface. The hydrothermal environment being studied was an excellent pairing for the artist who will include his artistic research in future exhibits.  “I will forever remain bewitched by dark life,” said Hooper Schneider. “Lightless ecosystems of the deep ocean are imperative to understanding the extremophilic dawns of planet earth.”

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About the Organizations

Schmidt Ocean Institute was established in 2009 by Eric and Wendy Schmidt to catalyze the discoveries needed to understand our ocean, sustain life, and ensure the health of our planet through the pursuit of impactful scientific research and intelligent observation, technological advancement, open sharing of information, and public engagement at the highest levels of international excellence. For more information, visit www.schmidtocean.org.

The University of Vienna aims at strengthening its position in interdisciplinary and internationally visible fields of research that are not only eligible for funding but also relevant to society in which it is rooted through the achievements of excellent academics. These cross-faculty research specialisations are attractive to job applicants. They develop dynamically and focus on current issues: cutting-edge research and teaching. To learn more, visit https://www.univie.ac.at/

NIOZ, the Royal Netherlands Institute for Sea Research, is the national oceanographic institute and the Netherlands’ centre of expertise for ocean, sea and coast. They advance fundamental understanding of marine systems, the way they change, the role they play in climate and biodiversity, and how they may provide sustainable solutions to society in the future. To learn more, visit https://www.nioz.nl/en 

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