Coral Symbiodinium Community Composition Across the Belize Mesoamerican Barrier Reef System is Influenced by Host Species and Thermal Variability

Reef-building corals maintain a symbiotic relationship with dinoflagellate algae of the genus Symbiodinium, and this symbiosis is vital for the survival of the coral holobiont. Symbiodinium community composition within the coral host has been shown to influence a coral’s ability to resist and recove...

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Main Authors: Baumann, J.H., Davies, S.W., Aichelman, H.E., Castillo, K.D.
Other Authors: College of Arts and Sciences, Department of Marine Sciences
Format: Article in Journal/Newspaper
Language:English
Published: Springer New York LLC 2018
Subjects:
Symbiodinium
Environmental variability
Symbiosis
Coral
Marine science
Ocean acidification
Online Access:https://doi.org/10.17615/33nk-j270
https://cdr.lib.unc.edu/downloads/79408669t?file=thumbnail
https://cdr.lib.unc.edu/downloads/79408669t
id ftcarolinadr:cdr.lib.unc.edu:h989rc849
record_format openpolar
spelling ftcarolinadr:cdr.lib.unc.edu:h989rc849 2023-06-11T04:15:43+02:00 Coral Symbiodinium Community Composition Across the Belize Mesoamerican Barrier Reef System is Influenced by Host Species and Thermal Variability Baumann, J.H. Davies, S.W. Aichelman, H.E. Castillo, K.D. College of Arts and Sciences, Department of Marine Sciences 2018 https://doi.org/10.17615/33nk-j270 https://cdr.lib.unc.edu/downloads/79408669t?file=thumbnail https://cdr.lib.unc.edu/downloads/79408669t English eng Springer New York LLC https://doi.org/10.17615/33nk-j270 https://cdr.lib.unc.edu/downloads/79408669t?file=thumbnail https://cdr.lib.unc.edu/downloads/79408669t Microbial Ecology, 75(4) Symbiodinium Environmental variability Symbiosis Coral Marine science Article 2018 ftcarolinadr https://doi.org/10.17615/33nk-j270 2023-05-28T21:02:33Z Reef-building corals maintain a symbiotic relationship with dinoflagellate algae of the genus Symbiodinium, and this symbiosis is vital for the survival of the coral holobiont. Symbiodinium community composition within the coral host has been shown to influence a coral’s ability to resist and recover from stress. A multitude of stressors including ocean warming, ocean acidification, and eutrophication have been linked to global scale decline in coral health and cover in recent decades. Three distinct thermal regimes (highTP, modTP, and lowTP) following an inshore-offshore gradient of declining average temperatures and thermal variation were identified on the Belize Mesoamerican Barrier Reef System (MBRS). Quantitative metabarcoding of the ITS-2 locus was employed to investigate differences and similarities in Symbiodinium genetic diversity of the Caribbean corals Siderastrea siderea, S. radians, and Pseudodiploria strigosa between the three thermal regimes. A total of ten Symbiodinium lineages were identified across the three coral host species. S. siderea was associated with distinct Symbiodinium communities; however, Symbiodinium communities of its congener, S. radians and P. strigosa, were more similar to one another. Thermal regime played a role in defining Symbiodinium communities in S. siderea but not S. radians or P. strigosa. Against expectations, Symbiodinium trenchii, a symbiont known to confer thermal tolerance, was dominant only in S. siderea at one sampled offshore site and was rare inshore, suggesting that coral thermal tolerance in more thermally variable inshore habitats is achieved through alternative mechanisms. Overall, thermal parameters alone were likely not the only primary drivers of Symbiodinium community composition, suggesting that environmental variables unrelated to temperature (i.e., light availability or nutrients) may play key roles in structuring coral-algal communities in Belize and that the relative importance of these environmental variables may vary by coral host species. Article in Journal/Newspaper Ocean acidification Carolina Digital Repository (UNC - University of North Carolina)
institution Open Polar
collection Carolina Digital Repository (UNC - University of North Carolina)
op_collection_id ftcarolinadr
language English
topic Symbiodinium
Environmental variability
Symbiosis
Coral
Marine science
spellingShingle Symbiodinium
Environmental variability
Symbiosis
Coral
Marine science
Baumann, J.H.
Davies, S.W.
Aichelman, H.E.
Castillo, K.D.
Coral Symbiodinium Community Composition Across the Belize Mesoamerican Barrier Reef System is Influenced by Host Species and Thermal Variability
topic_facet Symbiodinium
Environmental variability
Symbiosis
Coral
Marine science
description Reef-building corals maintain a symbiotic relationship with dinoflagellate algae of the genus Symbiodinium, and this symbiosis is vital for the survival of the coral holobiont. Symbiodinium community composition within the coral host has been shown to influence a coral’s ability to resist and recover from stress. A multitude of stressors including ocean warming, ocean acidification, and eutrophication have been linked to global scale decline in coral health and cover in recent decades. Three distinct thermal regimes (highTP, modTP, and lowTP) following an inshore-offshore gradient of declining average temperatures and thermal variation were identified on the Belize Mesoamerican Barrier Reef System (MBRS). Quantitative metabarcoding of the ITS-2 locus was employed to investigate differences and similarities in Symbiodinium genetic diversity of the Caribbean corals Siderastrea siderea, S. radians, and Pseudodiploria strigosa between the three thermal regimes. A total of ten Symbiodinium lineages were identified across the three coral host species. S. siderea was associated with distinct Symbiodinium communities; however, Symbiodinium communities of its congener, S. radians and P. strigosa, were more similar to one another. Thermal regime played a role in defining Symbiodinium communities in S. siderea but not S. radians or P. strigosa. Against expectations, Symbiodinium trenchii, a symbiont known to confer thermal tolerance, was dominant only in S. siderea at one sampled offshore site and was rare inshore, suggesting that coral thermal tolerance in more thermally variable inshore habitats is achieved through alternative mechanisms. Overall, thermal parameters alone were likely not the only primary drivers of Symbiodinium community composition, suggesting that environmental variables unrelated to temperature (i.e., light availability or nutrients) may play key roles in structuring coral-algal communities in Belize and that the relative importance of these environmental variables may vary by coral host species.
author2 College of Arts and Sciences, Department of Marine Sciences
format Article in Journal/Newspaper
author Baumann, J.H.
Davies, S.W.
Aichelman, H.E.
Castillo, K.D.
author_facet Baumann, J.H.
Davies, S.W.
Aichelman, H.E.
Castillo, K.D.
author_sort Baumann, J.H.
title Coral Symbiodinium Community Composition Across the Belize Mesoamerican Barrier Reef System is Influenced by Host Species and Thermal Variability
title_short Coral Symbiodinium Community Composition Across the Belize Mesoamerican Barrier Reef System is Influenced by Host Species and Thermal Variability
title_full Coral Symbiodinium Community Composition Across the Belize Mesoamerican Barrier Reef System is Influenced by Host Species and Thermal Variability
title_fullStr Coral Symbiodinium Community Composition Across the Belize Mesoamerican Barrier Reef System is Influenced by Host Species and Thermal Variability
title_full_unstemmed Coral Symbiodinium Community Composition Across the Belize Mesoamerican Barrier Reef System is Influenced by Host Species and Thermal Variability
title_sort coral symbiodinium community composition across the belize mesoamerican barrier reef system is influenced by host species and thermal variability
publisher Springer New York LLC
publishDate 2018
url https://doi.org/10.17615/33nk-j270
https://cdr.lib.unc.edu/downloads/79408669t?file=thumbnail
https://cdr.lib.unc.edu/downloads/79408669t
genre Ocean acidification
genre_facet Ocean acidification
op_source Microbial Ecology, 75(4)
op_relation https://doi.org/10.17615/33nk-j270
https://cdr.lib.unc.edu/downloads/79408669t?file=thumbnail
https://cdr.lib.unc.edu/downloads/79408669t
op_doi https://doi.org/10.17615/33nk-j270
_version_ 1768372765755179008

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