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Main Authors: Hagedorn, Mary, Zuchowicz, Nikolas, Henley, E Michael, Lager, Claire, Perry, Riley, Blackburn, Harvey, Bouwmeester, Jessica, Brunel, Olivier, Carter, Claire, Rodriguez-Clark, Kathryn M, Comizzoli, Pierre, Firchau, Beth, Miller, Dean, Moore, Jennifer, Muller, Erinn M, O'Neil, Keri, Quattrini, Andrea M, Zoccola, Didier, Banaszak, Anastazia T, Marhaver, Kristen L, Hobbs, Rebecca, O'Brien, Justine K, Daly, Jonathan
Format: Artículo científico
Language:en
Published: Bioscience 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/41312294/
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author Hagedorn, Mary
Zuchowicz, Nikolas
Henley, E Michael
Lager, Claire
Perry, Riley
Blackburn, Harvey
Bouwmeester, Jessica
Brunel, Olivier
Carter, Claire
Rodriguez-Clark, Kathryn M
Comizzoli, Pierre
Firchau, Beth
Miller, Dean
Moore, Jennifer
Muller, Erinn M
O'Neil, Keri
Quattrini, Andrea M
Zoccola, Didier
Banaszak, Anastazia T
Marhaver, Kristen L
Hobbs, Rebecca
O'Brien, Justine K
Daly, Jonathan
author_facet Hagedorn, Mary
Zuchowicz, Nikolas
Henley, E Michael
Lager, Claire
Perry, Riley
Blackburn, Harvey
Bouwmeester, Jessica
Brunel, Olivier
Carter, Claire
Rodriguez-Clark, Kathryn M
Comizzoli, Pierre
Firchau, Beth
Miller, Dean
Moore, Jennifer
Muller, Erinn M
O'Neil, Keri
Quattrini, Andrea M
Zoccola, Didier
Banaszak, Anastazia T
Marhaver, Kristen L
Hobbs, Rebecca
O'Brien, Justine K
Daly, Jonathan
Hagedorn, Mary
Zuchowicz, Nikolas
Henley, E Michael
Lager, Claire
Perry, Riley
Blackburn, Harvey
Bouwmeester, Jessica
Brunel, Olivier
Carter, Claire
Rodriguez-Clark, Kathryn M
Comizzoli, Pierre
Firchau, Beth
Miller, Dean
Moore, Jennifer
Muller, Erinn M
O'Neil, Keri
Quattrini, Andrea M
Zoccola, Didier
Banaszak, Anastazia T
Marhaver, Kristen L
Hobbs, Rebecca
O'Brien, Justine K
Daly, Jonathan
collection PubMed - marine biology
contents Conservation of coral genetic diversity through a global biorepository network. Hagedorn, Mary Zuchowicz, Nikolas Henley, E Michael Lager, Claire Perry, Riley Blackburn, Harvey Bouwmeester, Jessica Brunel, Olivier Carter, Claire Rodriguez-Clark, Kathryn M Comizzoli, Pierre Firchau, Beth Miller, Dean Moore, Jennifer Muller, Erinn M O'Neil, Keri Quattrini, Andrea M Zoccola, Didier Banaszak, Anastazia T Marhaver, Kristen L Hobbs, Rebecca O'Brien, Justine K Daly, Jonathan If greenhouse gas emissions continue unabated, 95% of the world's shallow water reef-building corals could die within decades. Reducing global carbon emissions is critical, but progress is slow, with relief likely arriving too late. Active conservation intervention is needed now to safeguard reefs. To this end, we have created a global partnership establishing and expanding a coral biorepository alliance to maintain diverse collections of corals in biosecure facilities using three main approaches: frozen nonliving tissue samples, live coral colonies in aquaculture, and frozen and alive cryopreserved samples. This alliance aims to integrate and standardize sample types and biorepository management processes through global collaboration, securing essential bio- and genetic diversity and creating a hedge against the extinction of species and populations in the wild. In addition, this network will serve to actively support long-term coral adaptation, resilience, and restoration through the production of new coral genotypes from live and cryopreserved samples.
format Artículo científico
id pubmed_41312294
institution PubMed
language en
publishDate 2025
publisher Bioscience
record_format pubmed
spellingShingle Conservation of coral genetic diversity through a global biorepository network.
Hagedorn, Mary
Zuchowicz, Nikolas
Henley, E Michael
Lager, Claire
Perry, Riley
Blackburn, Harvey
Bouwmeester, Jessica
Brunel, Olivier
Carter, Claire
Rodriguez-Clark, Kathryn M
Comizzoli, Pierre
Firchau, Beth
Miller, Dean
Moore, Jennifer
Muller, Erinn M
O'Neil, Keri
Quattrini, Andrea M
Zoccola, Didier
Banaszak, Anastazia T
Marhaver, Kristen L
Hobbs, Rebecca
O'Brien, Justine K
Daly, Jonathan
Conservation of coral genetic diversity through a global biorepository network. Hagedorn, Mary Zuchowicz, Nikolas Henley, E Michael Lager, Claire Perry, Riley Blackburn, Harvey Bouwmeester, Jessica Brunel, Olivier Carter, Claire Rodriguez-Clark, Kathryn M Comizzoli, Pierre Firchau, Beth Miller, Dean Moore, Jennifer Muller, Erinn M O'Neil, Keri Quattrini, Andrea M Zoccola, Didier Banaszak, Anastazia T Marhaver, Kristen L Hobbs, Rebecca O'Brien, Justine K Daly, Jonathan If greenhouse gas emissions continue unabated, 95% of the world's shallow water reef-building corals could die within decades. Reducing global carbon emissions is critical, but progress is slow, with relief likely arriving too late. Active conservation intervention is needed now to safeguard reefs. To this end, we have created a global partnership establishing and expanding a coral biorepository alliance to maintain diverse collections of corals in biosecure facilities using three main approaches: frozen nonliving tissue samples, live coral colonies in aquaculture, and frozen and alive cryopreserved samples. This alliance aims to integrate and standardize sample types and biorepository management processes through global collaboration, securing essential bio- and genetic diversity and creating a hedge against the extinction of species and populations in the wild. In addition, this network will serve to actively support long-term coral adaptation, resilience, and restoration through the production of new coral genotypes from live and cryopreserved samples.
title Conservation of coral genetic diversity through a global biorepository network.
url https://pubmed.ncbi.nlm.nih.gov/41312294/