Biogeochemical evidence of flow re-entrainment on the main fringing reef of La Reunion Island

Understanding factors influencing seawater chemistry variability in coral reef environments is a major challenge to improve predictions of their evolution in the context of ocean acidification. In this study, autonomous sensors for current speed and direction, photosynthetically active radiation (PA...

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Main Authors: /Lagoutte, Elsa, /Tribollet, Aline, Bureau, S., Cordier, E., Mangion, P., /Chauvin, Anne, /Mouquet, Pascal, Bigot, L., Frouin, P., Cuet, P.
Format: Text
Language:English
Published: 2024
Subjects:
Coral reefs
pH sensors
Oxygen sensors
Alkalinity
Carbonate budgets
Hydrodynamics
Ocean acidification
Online Access:https://www.documentation.ird.fr/hor/fdi:010089630
id ftird:oai:ird.fr:fdi:010089630
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010089630 2024-09-15T18:28:15+00:00 Biogeochemical evidence of flow re-entrainment on the main fringing reef of La Reunion Island /Lagoutte, Elsa /Tribollet, Aline Bureau, S. Cordier, E. Mangion, P. /Chauvin, Anne /Mouquet, Pascal Bigot, L. Frouin, P. Cuet, P. REUNION 2024 https://www.documentation.ird.fr/hor/fdi:010089630 EN eng https://www.documentation.ird.fr/hor/fdi:010089630 oai:ird.fr:fdi:010089630 Lagoutte Elsa, Tribollet Aline, Bureau S., Cordier E., Mangion P., Chauvin Anne, Mouquet Pascal, Bigot L., Frouin P., Cuet P. Biogeochemical evidence of flow re-entrainment on the main fringing reef of La Reunion Island. 2024, 259, p. 104352 [13 p.] Coral reefs pH sensors Oxygen sensors Alkalinity Carbonate budgets Hydrodynamics text 2024 ftird 2024-08-15T05:57:46Z Understanding factors influencing seawater chemistry variability in coral reef environments is a major challenge to improve predictions of their evolution in the context of ocean acidification. In this study, autonomous sensors for current speed and direction, photosynthetically active radiation (PAR), temperature, salinity, dissolved oxygen (DO) and pHT were deployed three times between 2021 and 2022 offshore and on three reef flat sites of the main fringing reef of La Reunion Island. Discrete sampling of seawater for DO, pHT and total alkalinity (TA) at different times of the day complemented the monitoring. Diurnal variation of those variables on the reef flat was mainly driven by benthic community metabolism but hydrodynamics and reef geomorphology played also a key role. DO and pHT variations were decoupled in time, especially at night when we observed DO rebounds while pHT values were stationary. The reef flat was also largely TA depleted compared to offshore waters. We hypothesize that the strong offshore-alongshore current redirected TA depleted water exiting from reef channels into the reef flat. This seawater re-entrainment could also explain specific variations of DO and pHT values. This result highlights the important role of reef geomorphology in modulating changes in seawater chemistry. Neglecting this phenomenon could lead to substantial errors in the estimation of carbonate budgets when using the Eulerian approach. Text Ocean acidification IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
topic Coral reefs
pH sensors
Oxygen sensors
Alkalinity
Carbonate budgets
Hydrodynamics
spellingShingle Coral reefs
pH sensors
Oxygen sensors
Alkalinity
Carbonate budgets
Hydrodynamics
/Lagoutte, Elsa
/Tribollet, Aline
Bureau, S.
Cordier, E.
Mangion, P.
/Chauvin, Anne
/Mouquet, Pascal
Bigot, L.
Frouin, P.
Cuet, P.
Biogeochemical evidence of flow re-entrainment on the main fringing reef of La Reunion Island
topic_facet Coral reefs
pH sensors
Oxygen sensors
Alkalinity
Carbonate budgets
Hydrodynamics
description Understanding factors influencing seawater chemistry variability in coral reef environments is a major challenge to improve predictions of their evolution in the context of ocean acidification. In this study, autonomous sensors for current speed and direction, photosynthetically active radiation (PAR), temperature, salinity, dissolved oxygen (DO) and pHT were deployed three times between 2021 and 2022 offshore and on three reef flat sites of the main fringing reef of La Reunion Island. Discrete sampling of seawater for DO, pHT and total alkalinity (TA) at different times of the day complemented the monitoring. Diurnal variation of those variables on the reef flat was mainly driven by benthic community metabolism but hydrodynamics and reef geomorphology played also a key role. DO and pHT variations were decoupled in time, especially at night when we observed DO rebounds while pHT values were stationary. The reef flat was also largely TA depleted compared to offshore waters. We hypothesize that the strong offshore-alongshore current redirected TA depleted water exiting from reef channels into the reef flat. This seawater re-entrainment could also explain specific variations of DO and pHT values. This result highlights the important role of reef geomorphology in modulating changes in seawater chemistry. Neglecting this phenomenon could lead to substantial errors in the estimation of carbonate budgets when using the Eulerian approach.
format Text
author /Lagoutte, Elsa
/Tribollet, Aline
Bureau, S.
Cordier, E.
Mangion, P.
/Chauvin, Anne
/Mouquet, Pascal
Bigot, L.
Frouin, P.
Cuet, P.
author_facet /Lagoutte, Elsa
/Tribollet, Aline
Bureau, S.
Cordier, E.
Mangion, P.
/Chauvin, Anne
/Mouquet, Pascal
Bigot, L.
Frouin, P.
Cuet, P.
author_sort /Lagoutte, Elsa
title Biogeochemical evidence of flow re-entrainment on the main fringing reef of La Reunion Island
title_short Biogeochemical evidence of flow re-entrainment on the main fringing reef of La Reunion Island
title_full Biogeochemical evidence of flow re-entrainment on the main fringing reef of La Reunion Island
title_fullStr Biogeochemical evidence of flow re-entrainment on the main fringing reef of La Reunion Island
title_full_unstemmed Biogeochemical evidence of flow re-entrainment on the main fringing reef of La Reunion Island
title_sort biogeochemical evidence of flow re-entrainment on the main fringing reef of la reunion island
publishDate 2024
url https://www.documentation.ird.fr/hor/fdi:010089630
op_coverage REUNION
genre Ocean acidification
genre_facet Ocean acidification
op_relation https://www.documentation.ird.fr/hor/fdi:010089630
oai:ird.fr:fdi:010089630
Lagoutte Elsa, Tribollet Aline, Bureau S., Cordier E., Mangion P., Chauvin Anne, Mouquet Pascal, Bigot L., Frouin P., Cuet P. Biogeochemical evidence of flow re-entrainment on the main fringing reef of La Reunion Island. 2024, 259, p. 104352 [13 p.]
_version_ 1810469597020684288

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