Effect of Inorganic and Organic Carbon Enrichments (DIC and DOC) on the Photosynthesis and Calcification Rates of Two Calcifying Green Algae from a Caribbean Reef Lagoon

Coral reefs worldwide are affected by increasing dissolved inorganic carbon (DIC) and organic carbon (DOC) concentrations due to ocean acidification (OA) and coastal eutrophication. These two stressors can occur simultaneously, particularly in near-shore reef environments with increasing anthropogen...

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Published in:PLOS ONE
Main Authors: Meyer, Friedrich W., Schubert, Nadine, Diele, Karen, Teichberg, Mirta, Wild, Christian, Enríquez, Susana
Language:English
Published: 2016
Subjects:
Algae
Reefs
Coral reefs
Carbonates
Sea water
Lagoons
Photosynthesis
Calcification
Ocean acidification
Online Access:https://repository.publisso.de/resource/frl:6403659
https://doi.org/10.1371/journal.pone.0160268
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4972524/
id ftleibnizopen:oai:oai.leibnizopen.de:IvwjF4cBdbrxVwz6bqO7
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spelling ftleibnizopen:oai:oai.leibnizopen.de:IvwjF4cBdbrxVwz6bqO7 2023-05-15T17:52:04+02:00 Effect of Inorganic and Organic Carbon Enrichments (DIC and DOC) on the Photosynthesis and Calcification Rates of Two Calcifying Green Algae from a Caribbean Reef Lagoon Meyer, Friedrich W. Schubert, Nadine Diele, Karen Teichberg, Mirta Wild, Christian Enríquez, Susana 2016 https://repository.publisso.de/resource/frl:6403659 https://doi.org/10.1371/journal.pone.0160268 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4972524/ eng eng CC BY 4.0 PLOS ONE, 11(8):e0160268 Algae Reefs Coral reefs Carbonates Sea water Lagoons Photosynthesis Calcification 2016 ftleibnizopen https://doi.org/10.1371/journal.pone.0160268 2023-03-26T23:24:08Z Coral reefs worldwide are affected by increasing dissolved inorganic carbon (DIC) and organic carbon (DOC) concentrations due to ocean acidification (OA) and coastal eutrophication. These two stressors can occur simultaneously, particularly in near-shore reef environments with increasing anthropogenic pressure. However, experimental studies on how elevated DIC and DOC interact are scarce and fundamental to understanding potential synergistic effects and foreseeing future changes in coral reef function. Using an open mesocosm experiment, the present study investigated the impact of elevated DIC (pHNBS: 8.2 and 7.8; pCO2: 377 and 1076 μatm) and DOC (added as 833 μmol L-1 of glucose) on calcification and photosynthesis rates of two common calcifying green algae, Halimeda incrassata and Udotea flabellum, in a shallow reef environment. Our results revealed that under elevated DIC, algal photosynthesis decreased similarly for both species, but calcification was more affected in H. incrassata, which also showed carbonate dissolution rates. Elevated DOC reduced photosynthesis and calcification rates in H. incrassata, while in U. flabellum photosynthesis was unaffected and thalus calcification was severely impaired. The combined treatment showed an antagonistic effect of elevated DIC and DOC on the photosynthesis and calcification rates of H. incrassata, and an additive effect in U. flabellum. We conclude that the dominant sand dweller H. incrassata is more negatively affected by both DIC and DOC enrichments, but that their impact could be mitigated when they occur simultaneously. In contrast, U. flabellum can be less affected in coastal eutrophic waters by elevated DIC, but its contribution to reef carbonate sediment production could be further reduced. Accordingly, while the capacity of environmental eutrophication to exacerbate the impact of OA on algal-derived carbonate sand production seems to be species-specific, significant reductions can be expected under future OA scenarios, with important consequences for beach ... Other/Unknown Material Ocean acidification LeibnizOpen (The Leibniz Association) PLOS ONE 11 8 e0160268
institution Open Polar
collection LeibnizOpen (The Leibniz Association)
op_collection_id ftleibnizopen
language English
topic Algae
Reefs
Coral reefs
Carbonates
Sea water
Lagoons
Photosynthesis
Calcification
spellingShingle Algae
Reefs
Coral reefs
Carbonates
Sea water
Lagoons
Photosynthesis
Calcification
Meyer, Friedrich W.
Schubert, Nadine
Diele, Karen
Teichberg, Mirta
Wild, Christian
Enríquez, Susana
Effect of Inorganic and Organic Carbon Enrichments (DIC and DOC) on the Photosynthesis and Calcification Rates of Two Calcifying Green Algae from a Caribbean Reef Lagoon
topic_facet Algae
Reefs
Coral reefs
Carbonates
Sea water
Lagoons
Photosynthesis
Calcification
description Coral reefs worldwide are affected by increasing dissolved inorganic carbon (DIC) and organic carbon (DOC) concentrations due to ocean acidification (OA) and coastal eutrophication. These two stressors can occur simultaneously, particularly in near-shore reef environments with increasing anthropogenic pressure. However, experimental studies on how elevated DIC and DOC interact are scarce and fundamental to understanding potential synergistic effects and foreseeing future changes in coral reef function. Using an open mesocosm experiment, the present study investigated the impact of elevated DIC (pHNBS: 8.2 and 7.8; pCO2: 377 and 1076 μatm) and DOC (added as 833 μmol L-1 of glucose) on calcification and photosynthesis rates of two common calcifying green algae, Halimeda incrassata and Udotea flabellum, in a shallow reef environment. Our results revealed that under elevated DIC, algal photosynthesis decreased similarly for both species, but calcification was more affected in H. incrassata, which also showed carbonate dissolution rates. Elevated DOC reduced photosynthesis and calcification rates in H. incrassata, while in U. flabellum photosynthesis was unaffected and thalus calcification was severely impaired. The combined treatment showed an antagonistic effect of elevated DIC and DOC on the photosynthesis and calcification rates of H. incrassata, and an additive effect in U. flabellum. We conclude that the dominant sand dweller H. incrassata is more negatively affected by both DIC and DOC enrichments, but that their impact could be mitigated when they occur simultaneously. In contrast, U. flabellum can be less affected in coastal eutrophic waters by elevated DIC, but its contribution to reef carbonate sediment production could be further reduced. Accordingly, while the capacity of environmental eutrophication to exacerbate the impact of OA on algal-derived carbonate sand production seems to be species-specific, significant reductions can be expected under future OA scenarios, with important consequences for beach ...
author Meyer, Friedrich W.
Schubert, Nadine
Diele, Karen
Teichberg, Mirta
Wild, Christian
Enríquez, Susana
author_facet Meyer, Friedrich W.
Schubert, Nadine
Diele, Karen
Teichberg, Mirta
Wild, Christian
Enríquez, Susana
author_sort Meyer, Friedrich W.
title Effect of Inorganic and Organic Carbon Enrichments (DIC and DOC) on the Photosynthesis and Calcification Rates of Two Calcifying Green Algae from a Caribbean Reef Lagoon
title_short Effect of Inorganic and Organic Carbon Enrichments (DIC and DOC) on the Photosynthesis and Calcification Rates of Two Calcifying Green Algae from a Caribbean Reef Lagoon
title_full Effect of Inorganic and Organic Carbon Enrichments (DIC and DOC) on the Photosynthesis and Calcification Rates of Two Calcifying Green Algae from a Caribbean Reef Lagoon
title_fullStr Effect of Inorganic and Organic Carbon Enrichments (DIC and DOC) on the Photosynthesis and Calcification Rates of Two Calcifying Green Algae from a Caribbean Reef Lagoon
title_full_unstemmed Effect of Inorganic and Organic Carbon Enrichments (DIC and DOC) on the Photosynthesis and Calcification Rates of Two Calcifying Green Algae from a Caribbean Reef Lagoon
title_sort effect of inorganic and organic carbon enrichments (dic and doc) on the photosynthesis and calcification rates of two calcifying green algae from a caribbean reef lagoon
publishDate 2016
url https://repository.publisso.de/resource/frl:6403659
https://doi.org/10.1371/journal.pone.0160268
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4972524/
genre Ocean acidification
genre_facet Ocean acidification
op_source PLOS ONE, 11(8):e0160268
op_rights CC BY 4.0
op_doi https://doi.org/10.1371/journal.pone.0160268
container_title PLOS ONE
container_volume 11
container_issue 8
container_start_page e0160268
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