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Ice-free preservation method holds promise to protect reefs

New cryopreservation technique shows a path toward year-round coral sample collection

August 23, 2023
Texas A&M University
An interdisciplinary team of researchers demonstrated that coral can be preserved through a new technique called isochoric vitrification. This process takes the selected coral fragments through the stages of cryopreservation and subsequent revival.

As ocean temperatures rise, coral reefs face increasing threats as ecosystem damage has accelerated in recent decades. The ability to preserve and revive biodiverse coral samples has become an essential priority for the health and future of the world's oceans.

A Texas A&M University-led interdisciplinary team of researchers demonstrated that live coral can be preserved through a new technique called "isochoric vitrification." This process takes selected coral fragments through the stages of cryopreservation, then revival. The process allows the coral to be cooled rapidly to a temperature of -196 degrees Celsius -- nearly -321 degrees Fahrenheit -- without forming ice, which is lethal to coral and most biological matter.

"This work is an interdisciplinary collaboration that unifies the experts in coral preservation with experts in cryothermodynamics," said Dr. Matthew Powell-Palm, lead author on the project. "It's this collaborative marriage of fundamental thermodynamic advancements and fundamental advancements in coral biology and husbandry that have enabled our breakthrough success in whole coral cryopreservation."

The research team's findings were published in Nature Communications. Alongside Powell-Palm,collaborators included Dr. Mary Hagedorn and Dr. E. Michael Henley of the Smithsonian's National Zoo and Conservation Biology Institute (NZCBI) and Dr. Boris Rubinsky of the University of California, Berkeley.

Powell-Palm, an assistant professor in the J. Mike Walker '66 Department of Mechanical Engineering at Texas A&M, and Rubinsky led the work to develop the isochoric vitrification technique. Hagedorn and Henley took the technique into the real world, applying it to preserve coral fragments at the Hawaii Institute of Marine Biology. The project was funded by the conservation organization Revive and Restore.

Year-Round Sampling

Previous methods of cryopreservation involved collecting coral reproductive matter while the coral reproduced, which was limited to a few days out of the year and in often difficult-to-access locations. Developing a technique not limited by the coral's reproductive schedule makes it possible to extract and preserve coral throughout the year at any time.

To preserve the coral fragment without forming ice, researchers first bleached the sample -- a process in which a symbiotic photosynthetic algae is removed from the coral. While in nature, bleaching is typically associated with overstress in coral and leads to starvation in the organism. However, it was discovered that by applying isochoric vitrification without bleaching, the algae created ice pockets. Once removed, the researchers could preserve the bleached coral fragment in a glassy state by introducing it to a chemical solution and storing it inside a specialized aluminum container that was then rapidly cooled using liquid nitrogen. The coral was then warmed and revived by reintroducing filtered seawater gradually over 20 minutes.

While the technique is scientifically sophisticated, Powell-Palm said one of its greatest strengths is the simplicity of the technology required to apply it.

"Compared to other emergent vitrification techniques -- which frequently require lasers, electromagnetic implements or other high-tech laboratory equipment -- our isochoric vitrification approach is exceedingly fieldable," Powell-Palm said. "It requires no moving parts or electronics, and the protocol can be implemented by a field technician with no background in thermodynamics. This is essential to the practicality of any conservation technique because when this is deployed in real marine field stations, the high-tech lab infrastructure common to many laboratories will not be available. From a purely technological perspective, the technique is simple, rugged and ready for the field."

Long-term survival

Looking forward, the researchers are working to reduce the stress placed on coral throughout the process. While the researchers successfully preserved and revived one species of coral, the life span observed was only up to 24 hours post-thaw. By reducing the overall stress placed on the coral, researchers hope to achieve long-term survival for subjects of the vitrification process and rapid deployment of the technique into real-world conservation efforts.

"Everyone benefits from the health of the world's oceans, be it by eating fish, living in a coastal community that benefits from reef-driven tourism, or simply enjoying a walk on the beach," Powell-Palm said. "Coral reefs are essential to the baseline health of our oceans, and cryo-conservation of endangered coral species can help to ensure that these invaluable and marvelous organisms do not go extinct."

Coral reefs are among the planet's most diverse ecosystems and are vital in ensuring food security, protecting coastlines and serving as home to nearly a quarter of the ocean's lifeforms.

Story Source:

Materials provided by Texas A&M University. Original written by Steve Kuhlmann. Note: Content may be edited for style and length.

Journal Reference:

  1. Matthew J. Powell-Palm, E. Michael Henley, Anthony N. Consiglio, Claire Lager, Brooke Chang, Riley Perry, Kendall Fitzgerald, Jonathan Daly, Boris Rubinsky, Mary Hagedorn. Cryopreservation and revival of Hawaiian stony corals using isochoric vitrification. Nature Communications, 2023; 14 (1) DOI: 10.1038/s41467-023-40500-w

Cite This Page:

Texas A&M University. "Ice-free preservation method holds promise to protect reefs." ScienceDaily. ScienceDaily, 23 August 2023. <>.
Texas A&M University. (2023, August 23). Ice-free preservation method holds promise to protect reefs. ScienceDaily. Retrieved June 14, 2024 from
Texas A&M University. "Ice-free preservation method holds promise to protect reefs." ScienceDaily. (accessed June 14, 2024).

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