Aquarium monitoring during a land-based experiment testing the cumulative effect of Cu exposure and ocean acidification on cold-water coral Dentomuricea aff. meteor

We report the results of a land-based experiment testing the cumulative effects of copper (Cu) exposure and ocean acidification (OA). Corals were obtained as by-catch during experimental long-line fisheries campaigns on board R/V "Arquipélago" (ARQDAÇO monitoring program, University of the...

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Bibliographic Details
Main Authors: Martins, Ines, Goulart, Joana, Godinho, Antonio, Mano, Beatriz, Sire de Vilar, Anaïs, Carreiro-Silva, Marina
Format: Dataset
Language:English
Published: PANGAEA 2024
Subjects:
Azores
Azores_Deep_Octocoral_Sampling_Viminella_flagellum
Chamber number
Condor Seamounts
Dentomuricea_aff_meteor_Aquaria_Experiment_1
Experiment
Glass electrode (Crison pH 25+)
iAtlantic
Integrated Assessment of Atlantic Marine Ecosystems in Space and Time
Laboratory experiment
Oxygen
Oxygen Dipping Probe
DP-PSt3
Fibox 4
PreSens
pH
Sample comment
Sample ID
Species
unique identification (Semantic URI)
unique identification (URI)
Temperature
water
Time in days
Treatment
Toledo
Ocean acidification
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.966791
https://doi.org/10.1594/PANGAEA.966791
Description
Summary:We report the results of a land-based experiment testing the cumulative effects of copper (Cu) exposure and ocean acidification (OA). Corals were obtained as by-catch during experimental long-line fisheries campaigns on board R/V "Arquipélago" (ARQDAÇO monitoring program, University of the Azores) at Baixa de São Mateus at 185 m depth in April 2019. The experiment was undertaken at the DeepSeaLab aquaria facilities (Okeanos-University of the Azores) where corals were exposed to four OA/Cu-contamination scenarios: (1) ambient pCO2/pH level as measured in situ conditions (385 μatm/ pH 8.09); (2) high pCO2/reduced pH (IPCC RCP8.5 scenario, 1000 μatm/ pH 7.73); (3) ambient pCO2/pH level and additional Cu concentration (60 µg/l); (4) high pCO2/reduced pH and additional Cu concentration (60 µg/l). The pH/pCO2 modification was achieved by bubbling seawater with either pure CO2 (to increase pCO2) or CO2 low air (to decrease pCO2). The copper concentration used in this experiment followed a trial simulating a polymetallic particles plume release during a potential deep-sea mining event. This sublethal concentration was found to be the highest copper concentration dissolved in seawater. Seawater physical-chemical parameters were measured daily in each chamber. Temperature, pH and oxygen saturation were measured manually in each aquaria every day using a Mettler-Toledo S8 glass and a Fibox4 (PreSens) with an Oxygen Probe PSt3.

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