News Release

How to restore a coral reef

New guidelines for helping corals adapt to changing environment

Peer-Reviewed Publication

Penn State

Healthy and Bleached Coral

image: Genetic differences among these bleached and healthy corals of the same species contributed to their fate. New guidelines for coral restoration outline a concrete plan for collecting, raising, and replanting corals that prioritizes genetic diversity, maximizing the potential for corals to adapt to their changing environment. https://www.usgs.gov/media/images/coral-bleaching-fl-keys-national-marine-sanctuary-oct-2015 view more 

Credit: Ilsa Kuffner, US Geological Survey

New guidelines drafted by a consortium of concerned experts could enable corals to adapt to changing environments and help restore declining coral populations in the Caribbean. The guidelines provide a definitive plan for collecting, raising, and replanting corals that maximizes their potential for adaptation.

A new paper outlining the guidelines, authored by the restoration genetics working group of the Coral Restoration Consortium, a group of scientists, restoration practitioners, educators, and concerned members of the public, appears online July 22, 2019 in the journal Ecological Applications.

"The Caribbean has experienced tremendous coral loss over the last few decades, and coral restoration has become an urgent issue in the region," said Iliana Baums, professor of biology at Penn State and chair of the Coral Restoration Consortium restoration genetics working group. "But few of the traditional guidelines for conservation, which tend to focus on vertebrates or plants, apply to corals. In this paper, we provide concrete guidelines for restoring coral populations, using the best available data."

Corals serve as the foundation for reefs, which protect coastal communities, provide food and medicinal compounds, and lead to an estimated $9.9 trillion per year in goods and services around the globe. But reefs worldwide face a variety of threats--foremost among them rising ocean temperatures--and are declining, particularly in the Caribbean.

A recent National Oceanographic and Atmospheric Administration-commissioned report from the National Academies of Sciences, Engineering, and Medicine provides a broad overview of 23 coral restoration strategies, though most are largely untested and not ready for implementation.

"The guidelines in this new paper are among those that can be implemented immediately and are grounded in the idea that coral populations can naturally respond to change if they have enough genetic diversity," said Baums. "We are focusing on maintaining or increasing the genetic diversity of coral populations, which will provide more options for the corals to adapt to their changing environments."

Coral populations grow in a variety of environments, covering a range of temperatures, depths, and light conditions, and they tend to adapt to local conditions. Thus, individuals in different environments should have differences in their genetic code that allow them to thrive. The consortium recommends collecting corals from these different environments to capture as much genetic diversity as possible. Then corals should be raised in a nursery, where they can quickly grow, and replanted on reefs.

"Corals can reproduce both asexually and sexually," said Baums. "We can break off a small piece of a colony and replant it, essentially yielding a clone of the original coral. But sexual reproduction is key to naturally producing genetic diversity, and rates of sexual reproduction on reefs are dropping dramatically, especially for true reef-building corals. By replanting diverse corals in small groups, we enable the corals to sexually reproduce with each other."

Collected corals could be replanted in locations similar to their original environment, or in locations that may soon become similar to their original environment.

"By taking advantage of improved climate models, we can anticipate where these traits may be beneficial in the future," said Baums.

"We hope these guidelines for collecting, raising, and replanting corals will help to establish self-sustaining, sexually reproducing coral populations," said Baums. "The situation surrounding coral reef decline is certainly dire, but we have a tremendous community of people that is dedicated to solving the problem. We have made enormous progress in figuring out how to do coral restoration, and we can make a difference in coral populations today. But for every minute that passes, it gets harder. With every missed opportunity to curb carbon emissions, which contribute to rising ocean temperatures, it gets even harder. Coral reefs are the world's most diverse ecosystems and they provide incredibly important ecosystem services, so we really cannot afford to lose them."

Support for this work was provided by the Coral Restoration Consortium, the National Oceanographic and Atmospheric Administration (NOAA), the Penn State Institute for Sustainability, the Penn State Institute for Energy and the Environment, the Penn State Center for Marine Science and Technology, and the National Science Foundation.

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About the Coral Restoration Consortium:

The Coral Restoration Consortium was formed in 2016 and established five initial working groups to provide best management practices for coral restoration. In addition to Baums, members of the Coral Restoration Consortium restoration genetics working group include Sheila Kitchen, Todd LaJeunesse, and Andrew Shantz at Penn State, Andrew Baker at the University of Miami, Sarah Davies at Boston University, Andréa Grottoli at Ohio State University, Carly Kenkel at the University of Southern California, Ilsa Kuffner at the U.S. Geological Survey, Mikhail Matz at the University of Texas at Austin, Margaret Miller at SECORE International, and John Parkinson, former graduate student at Penn State and currently at SECORE International and the University of South Florida.


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