Ecological Solutions to Reef Degradation: Optimizing Coral Reef Restoration in the Caribbean and Western Atlantic

Overview

Journal PeerJ

Specialties Biology
Environmental Health
General Medicine

Date 2016 Oct 27

PMID 27781176

Citations 31

Authors

Diego Lirman

Stephanie Schopmeyer

Affiliations

Soon will be listed here.

Abstract

Reef restoration activities have proliferated in response to the need to mitigate coral declines and recover lost reef structure, function, and ecosystem services. Here, we describe the recent shift from costly and complex engineering solutions to recover degraded reef structure to more economical and efficient ecological approaches that focus on recovering the living components of reef communities. We review the adoption and expansion of the coral gardening framework in the Caribbean and Western Atlantic where practitioners now grow and outplant 10,000's of corals onto degraded reefs each year. We detail the steps for establishing a gardening program as well as long-term goals and direct and indirect benefits of this approach in our region. With a strong scientific basis, coral gardening activities now contribute significantly to reef and species recovery, provide important scientific, education, and outreach opportunities, and offer alternate livelihoods to local stakeholders. While challenges still remain, the transition from engineering to ecological solutions for reef degradation has opened the field of coral reef restoration to a wider audience poised to contribute to reef conservation and recovery in regions where coral losses and recruitment bottlenecks hinder natural recovery.

Citing Articles

Hybrid coral reef restoration can be a cost-effective nature-based solution to provide protection to vulnerable coastal populations.

Storlazzi C, Reguero B, Alkins K, Shope J, Gaido-Lassarre C, Viehman T Sci Adv. 2025; 11(3):eadn4004.

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Enhancing reef carbonate budgets through coral restoration.

Esplandiu E, Morris J, Enochs I, Besemer N, Lirman D Sci Rep. 2024; 14(1):27599.

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A transcriptome-wide analysis provides novel insights into how Metabacillus indicus promotes coral larvae metamorphosis and settlement.

Zhang Y, Zhang Y, Tang X, Guo X, Yang Q, Sun H BMC Genomics. 2024; 25(1):840.

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Assessing acute thermal assays as a rapid screening tool for coral restoration.

Klepac C, Petrik C, Karabelas E, Owens J, Hall E, Muller E Sci Rep. 2024; 14(1):1898.

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Environmental predictors for the restoration of a critically endangered coral, Acropora palmata, along the Florida reef tract.

Banister R, Viehman T, Schopmeyer S, van Woesik R PLoS One. 2024; 19(1):e0296485.

PMID: 38166125 PMC: 10760844. DOI: 10.1371/journal.pone.0296485.

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