Seawater carbonate chemistry and coral (Acropora digitifera and Acropora tenuis) algal infection rate, survival and surface area of plyps during experiments, 2009

Ocean acidification, caused by increased atmospheric carbon dioxide (CO2) concentrations, is currently an important environmental problem. It is therefore necessary to investigate the effects of ocean acidification on all life stages of a wide range of marine organisms. However, few studies have exa...

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Bibliographic Details
Main Authors: Suwa, Ryota, Nakamura, Masoko, Morita, Masaya, Shimada, Kazuaki, Iguchi, Akira, Sakai, Kazuhiko, Suzuki, Atsushi
Format: Dataset
Language:English
Published: PANGAEA 2010
Subjects:
Acropora digitifera
algal infection rate
surface area of polyps
standard deviation
Acropora tenuis
Alkalinity
total
Animalia
Aragonite saturation state
Benthic animals
Benthos
Bicarbonate ion
Bottles or small containers/Aquaria (<20 L)
Calcite saturation state
Calculated using CO2SYS
Calculated using seacarb after Nisumaa et al. (2010)
Carbon
inorganic
dissolved
Carbonate ion
Carbonate system computation flag
Carbon dioxide
Cnidaria
Coast and continental shelf
EPOCA
EUR-OCEANS
European network of excellence for Ocean Ecosystems Analysis
European Project on Ocean Acidification
Experimental treatment
Experiment day
Fugacity of carbon dioxide (water) at sea surface temperature (wet air)
Growth/Morphology
Identification
Laboratory experiment
Measured
Metrohm Titrando titrator
Mortality/Survival
North Pacific
OA-ICC
Ocean Acidification International Coordination Centre
Other studied parameter or process
Partial pressure of carbon dioxide (water) at sea surface temperature (wet air)
pH
Salinity
Single species
Species
Ocean acidification
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.758198
https://doi.org/10.1594/PANGAEA.758198
Description
Summary:Ocean acidification, caused by increased atmospheric carbon dioxide (CO2) concentrations, is currently an important environmental problem. It is therefore necessary to investigate the effects of ocean acidification on all life stages of a wide range of marine organisms. However, few studies have examined the effects of increased CO2 on early life stages of organisms, including corals. Using a range of pH values (pH 7.3, 7.6, and 8.0) in manipulative duplicate aquarium experiments, we have evaluated the effects of increased CO2 on early life stages (larval and polyp stages) of Acropora spp. with the aim of estimating CO2 tolerance thresholds at these stages. Larval survival rates did not differ significantly between the reduced pH and control conditions. In contrast, polyp growth and algal infection rates were significantly decreased at reduced pH levels compared to control conditions. These results suggest that future ocean acidification may lead to reduced primary polyp growth and delayed establishment of symbiosis. Stress exposure experiments using longer experimental time scales and lower levels of CO2 concentrations than those used in this study are needed to establish the threshold of CO2 emissions required to sustain coral reef ecosystems.

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