Success of restoration strategies in preventing extirpation of 2 critically endangered coral species

Erinn M. Muller; Mark C. Ladd; Richard Karp; Phanor H. Montoya-Maya; Ilsa B. Kuffner; Andrew C. Baker; Erich Bartels; Amanda Bourque; Abigail S. Clark; Nikkie Cox; Martine D'Alessandro; Ben Daughtry; Beth Firchau; Leneita Fix; David Gilliam; Dalton Hesley; Cindy Lewis; Diego Lirman; Caitlin Lustic; Kevin Macauley; Jennifer Moore; Ken Nedimyer; Keri O'Neil; Kristene T. Parsons; Kylie M. Smith; Jason Spadaro; Bailey C. Thomasson; Joseph D. Unsworth; David Vaughan; Margaret W. Miller

doi:10.1111/cobi.70168

Success of restoration strategies in preventing extirpation of 2 critically endangered coral species

Erinn M. Muller
, Mark C. Ladd
, Richard Karp
, Phanor H. Montoya-Maya
, Ilsa B. Kuffner
, Andrew C. Baker
, Erich Bartels
, Amanda Bourque
, Abigail S. Clark
, Nikkie Cox
, Martine D'Alessandro
, Ben Daughtry
, Beth Firchau
, Leneita Fix
, David Gilliam
, Dalton Hesley
, Cindy Lewis
, Diego Lirman
, Caitlin Lustic
, Kevin Macauley

Jennifer Moore, Ken Nedimyer, Keri O'Neil, Kristene T. Parsons, Kylie M. Smith, Jason Spadaro, Bailey C. Thomasson, Joseph D. Unsworth, David Vaughan, Margaret W. Miller

Department of Marine and Environmental Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

An unprecedented marine heatwave in 2023 caused widespread coral bleaching and mortality throughout the Caribbean. In the Florida Keys (USA), 2 foundation species, elkhorn coral (Acropora palmata) and staghorn coral (Acropora cervicornis), were severely affected. These species have been the primary focus of reef restoration in Florida for decades. Substantial losses of these species occurred in outplanted populations, in ocean-based nurseries, and among remnant wild colonies, leading to uncertainty over their future in the Florida Keys, given recent observed trends in climate conditions. However, the past 2 decades of restoration activity created a community of experts, a network of ocean-based and land-based coral-rearing infrastructure, and 2 independent land-based coral gene banks that prevented regional extirpation and preserved much of the genetic richness of these critically endangered coral species. Without the past decades of effort and the emergency response associated with the 2023 bleaching event, Florida acroporids would largely have been lost. This outcome afforded by the restoration network in Florida demonstrates the value of proactively establishing resources prior to major disturbances. We identified several critical strategies that, in the context of existing climate change, are preventing the extirpation of coral species in Florida, including extending collaborative restoration efforts to solidify a network of trained experts; establishing trust-focused relationships among management agencies and restoration groups; testing direct interventions to reduce light and temperature stress early during thermal anomalies; developing redundant ocean-based and land-based nurseries; and establishing living coral gene banks prior to major threats to prevent the extirpation of coral species.

Original language	English
Journal	Conservation Biology
DOIs	https://doi.org/10.1111/cobi.70168
State	Accepted/In press - 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.

ASJC Scopus Subject Areas

Ecology, Evolution, Behavior and Systematics
Ecology
Nature and Landscape Conservation

Keywords

Acropora cervicornis
Acropora cervicornis
Acropora palmata
Acropora palmata
arrecife de coral
conservation planning
coral reef
coral restoration
especie amenazada
planeación de la conservación
restauración de corales
threatened species

Access to Document

10.1111/cobi.70168

Cite this

Muller, E. M., Ladd, M. C., Karp, R., Montoya-Maya, P. H., Kuffner, I. B., Baker, A. C., Bartels, E., Bourque, A., Clark, A. S., Cox, N., D'Alessandro, M., Daughtry, B., Firchau, B., Fix, L., Gilliam, D., Hesley, D., Lewis, C., Lirman, D., Lustic, C., ... Miller, M. W. (Accepted/In press). Success of restoration strategies in preventing extirpation of 2 critically endangered coral species. Conservation Biology. https://doi.org/10.1111/cobi.70168

Muller, EM, Ladd, MC, Karp, R, Montoya-Maya, PH, Kuffner, IB, Baker, AC, Bartels, E, Bourque, A, Clark, AS, Cox, N, D'Alessandro, M, Daughtry, B, Firchau, B, Fix, L, Gilliam, D, Hesley, D, Lewis, C, Lirman, D, Lustic, C, Macauley, K, Moore, J, Nedimyer, K, O'Neil, K, Parsons, KT, Smith, KM, Spadaro, J, Thomasson, BC, Unsworth, JD, Vaughan, D & Miller, MW 2025, 'Success of restoration strategies in preventing extirpation of 2 critically endangered coral species', Conservation Biology. https://doi.org/10.1111/cobi.70168

@article{cffe5fdecef04656a881c03b93ab643a,

title = "Success of restoration strategies in preventing extirpation of 2 critically endangered coral species",

abstract = "An unprecedented marine heatwave in 2023 caused widespread coral bleaching and mortality throughout the Caribbean. In the Florida Keys (USA), 2 foundation species, elkhorn coral (Acropora palmata) and staghorn coral (Acropora cervicornis), were severely affected. These species have been the primary focus of reef restoration in Florida for decades. Substantial losses of these species occurred in outplanted populations, in ocean-based nurseries, and among remnant wild colonies, leading to uncertainty over their future in the Florida Keys, given recent observed trends in climate conditions. However, the past 2 decades of restoration activity created a community of experts, a network of ocean-based and land-based coral-rearing infrastructure, and 2 independent land-based coral gene banks that prevented regional extirpation and preserved much of the genetic richness of these critically endangered coral species. Without the past decades of effort and the emergency response associated with the 2023 bleaching event, Florida acroporids would largely have been lost. This outcome afforded by the restoration network in Florida demonstrates the value of proactively establishing resources prior to major disturbances. We identified several critical strategies that, in the context of existing climate change, are preventing the extirpation of coral species in Florida, including extending collaborative restoration efforts to solidify a network of trained experts; establishing trust-focused relationships among management agencies and restoration groups; testing direct interventions to reduce light and temperature stress early during thermal anomalies; developing redundant ocean-based and land-based nurseries; and establishing living coral gene banks prior to major threats to prevent the extirpation of coral species.",

keywords = "Acropora cervicornis, Acropora cervicornis, Acropora palmata, Acropora palmata, arrecife de coral, conservation planning, coral reef, coral restoration, especie amenazada, planeaci{\'o}n de la conservaci{\'o}n, restauraci{\'o}n de corales, threatened species",

author = "Muller, \{Erinn M.\} and Ladd, \{Mark C.\} and Richard Karp and Montoya-Maya, \{Phanor H.\} and Kuffner, \{Ilsa B.\} and Baker, \{Andrew C.\} and Erich Bartels and Amanda Bourque and Clark, \{Abigail S.\} and Nikkie Cox and Martine D'Alessandro and Ben Daughtry and Beth Firchau and Leneita Fix and David Gilliam and Dalton Hesley and Cindy Lewis and Diego Lirman and Caitlin Lustic and Kevin Macauley and Jennifer Moore and Ken Nedimyer and Keri O'Neil and Parsons, \{Kristene T.\} and Smith, \{Kylie M.\} and Jason Spadaro and Thomasson, \{Bailey C.\} and Unsworth, \{Joseph D.\} and David Vaughan and Miller, \{Margaret W.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.",

year = "2025",

doi = "10.1111/cobi.70168",

language = "English",

journal = "Conservation Biology",

issn = "0888-8892",

}

TY - JOUR

T1 - Success of restoration strategies in preventing extirpation of 2 critically endangered coral species

AU - Muller, Erinn M.

AU - Ladd, Mark C.

AU - Karp, Richard

AU - Montoya-Maya, Phanor H.

AU - Kuffner, Ilsa B.

AU - Baker, Andrew C.

AU - Bartels, Erich

AU - Bourque, Amanda

AU - Clark, Abigail S.

AU - Cox, Nikkie

AU - D'Alessandro, Martine

AU - Daughtry, Ben

AU - Firchau, Beth

AU - Fix, Leneita

AU - Gilliam, David

AU - Hesley, Dalton

AU - Lewis, Cindy

AU - Lirman, Diego

AU - Lustic, Caitlin

AU - Macauley, Kevin

AU - Moore, Jennifer

AU - Nedimyer, Ken

AU - O'Neil, Keri

AU - Parsons, Kristene T.

AU - Smith, Kylie M.

AU - Spadaro, Jason

AU - Thomasson, Bailey C.

AU - Unsworth, Joseph D.

AU - Vaughan, David

AU - Miller, Margaret W.

N1 - Publisher Copyright: © 2025 The Author(s). Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.

PY - 2025

Y1 - 2025

N2 - An unprecedented marine heatwave in 2023 caused widespread coral bleaching and mortality throughout the Caribbean. In the Florida Keys (USA), 2 foundation species, elkhorn coral (Acropora palmata) and staghorn coral (Acropora cervicornis), were severely affected. These species have been the primary focus of reef restoration in Florida for decades. Substantial losses of these species occurred in outplanted populations, in ocean-based nurseries, and among remnant wild colonies, leading to uncertainty over their future in the Florida Keys, given recent observed trends in climate conditions. However, the past 2 decades of restoration activity created a community of experts, a network of ocean-based and land-based coral-rearing infrastructure, and 2 independent land-based coral gene banks that prevented regional extirpation and preserved much of the genetic richness of these critically endangered coral species. Without the past decades of effort and the emergency response associated with the 2023 bleaching event, Florida acroporids would largely have been lost. This outcome afforded by the restoration network in Florida demonstrates the value of proactively establishing resources prior to major disturbances. We identified several critical strategies that, in the context of existing climate change, are preventing the extirpation of coral species in Florida, including extending collaborative restoration efforts to solidify a network of trained experts; establishing trust-focused relationships among management agencies and restoration groups; testing direct interventions to reduce light and temperature stress early during thermal anomalies; developing redundant ocean-based and land-based nurseries; and establishing living coral gene banks prior to major threats to prevent the extirpation of coral species.

AB - An unprecedented marine heatwave in 2023 caused widespread coral bleaching and mortality throughout the Caribbean. In the Florida Keys (USA), 2 foundation species, elkhorn coral (Acropora palmata) and staghorn coral (Acropora cervicornis), were severely affected. These species have been the primary focus of reef restoration in Florida for decades. Substantial losses of these species occurred in outplanted populations, in ocean-based nurseries, and among remnant wild colonies, leading to uncertainty over their future in the Florida Keys, given recent observed trends in climate conditions. However, the past 2 decades of restoration activity created a community of experts, a network of ocean-based and land-based coral-rearing infrastructure, and 2 independent land-based coral gene banks that prevented regional extirpation and preserved much of the genetic richness of these critically endangered coral species. Without the past decades of effort and the emergency response associated with the 2023 bleaching event, Florida acroporids would largely have been lost. This outcome afforded by the restoration network in Florida demonstrates the value of proactively establishing resources prior to major disturbances. We identified several critical strategies that, in the context of existing climate change, are preventing the extirpation of coral species in Florida, including extending collaborative restoration efforts to solidify a network of trained experts; establishing trust-focused relationships among management agencies and restoration groups; testing direct interventions to reduce light and temperature stress early during thermal anomalies; developing redundant ocean-based and land-based nurseries; and establishing living coral gene banks prior to major threats to prevent the extirpation of coral species.

KW - Acropora cervicornis

KW - Acropora palmata

KW - arrecife de coral

KW - conservation planning

KW - coral reef

KW - coral restoration

KW - especie amenazada

KW - planeación de la conservación

KW - restauración de corales

KW - threatened species

UR - https://www.scopus.com/pages/publications/105022700650

UR - https://www.scopus.com/pages/publications/105022700650#tab=citedBy

U2 - 10.1111/cobi.70168

DO - 10.1111/cobi.70168

M3 - Article

C2 - 41273189

AN - SCOPUS:105022700650

SN - 0888-8892

JO - Conservation Biology

JF - Conservation Biology

ER -

Success of restoration strategies in preventing extirpation of 2 critically endangered coral species

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

Other files and links

Fingerprint

Cite this