Decreased light availability can amplify negative impacts of ocean acidification on calcifying coral reef organisms

Vogel, Nikolas; Meyer, Friedrich Wilhelm; Wild, Christian; Uthicke, Sven

Decreased light availability can amplify negative impacts of ocean acidification on calcifying coral reef organisms

2015

Vogel, Nikolas | Meyer, Friedrich Wilhelm | Wild, Christian | Uthicke, Sven

Coral reef organisms are increasingly and simultaneously affected by global and local stressors such as ocean acidification (OA) and reduced light availability. However, knowledge of the interplay between OA and light availability is scarce. We exposed 2 calcifying coral reef species (the scleractinian coral Acropora millepora and the green alga Halimeda opuntia) to combinations of ambient and increased pCO2 (427 and 1073 µatm, respectively), and 2 light intensities (35 and 150 µmol photons/m**2/s) for 16 d. We evaluated the individual and combined effects of these 2 stressors on weight increase, calcification rates, O2 fluxes and chlorophyll a content for the species investigated. Weight increase of A. millepora was significantly reduced by OA (48%) and low light intensity (96%) compared to controls. While OA did not affect coral calcification in the light, it decreased calcification in the dark by 155%, leading to dissolution of the skeleton. H. opuntia weight increase was not affected by OA, but decreased (40%) at low light. OA did not affect algae calcification in the light, but decreased calcification in the dark by 164%, leading to dissolution. Low light significantly reduced gross photosynthesis (56 and 57%), net photosynthesis (62 and 60%) and respiration (43 and 48%) of A. millepora and H. opuntia, respectively. In contrast to A. millepora, H. opuntia significantly increased chlorophyll content by 15% over the course of the experiment. No interactive effects of OA and low light intensity were found on any response variable for either organism. However, A. millepora exhibited additive effects of OA and low light, while H. opuntia was only affected by low light. Thus, this study suggests that negative effects of low light and OA are additive on corals, which may have implications for management of river discharge into coastal coral reefs.

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alkalinity animalia benthos carbon carbon dioxide chlorophyta cnidaria experiment growth rate identification irradiance light oxygen ph plantae respiration respiration rate salinity south pacific species temperature water

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Bottles or small containers/aquaria (<20 l); Total; Pelorus_island; Inorganic; Halimeda opuntia; Primary production/photosynthesis; Benthic animals; Growth/morphology; Total scale; Calcification/dissolution; Laboratory experiment; Aragonite saturation state; Exp; Calculated using seacarb after nisumaa et al. (2010); Nbs scale; Carbonate system computation flag; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Ocean acidification international coordination centre; Single species; Event label; Tropical; Carbonate ion; Coast and continental shelf; Potentiometric titration; Gross photosynthesis rate; Macroalgae; Orpheus_island_oa; Calcification rate of calcium carbonate; Potentiometric; Acropora millepora; Partial pressure of carbon dioxide; Dissolved; Oa-icc; Treatment; Chlorophyll a; Standard deviation; Calcite saturation state; Net photosynthesis rate; Bicarbonate ion; Calculated using co2calc; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air)

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text/tab-separated-values, 3558 data points

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CC-BY-3.0: Creative Commons Attribution 3.0 Unported, Access constraints: unrestricted, info:eu-repo/semantics/openAccess

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Supplement to: Vogel, Nikolas; Meyer, Friedrich Wilhelm; Wild, Christian; Uthicke, Sven (2015): Decreased light availability can amplify negative impacts of ocean acidification on calcifying coral reef organisms. Marine Ecology Progress Series, 521, 49-61, https://doi.org/10.3354/meps11088

En AGRIS desde: 2024-11-28

Fecha de modificación: 2025-10-25

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Decreased light availability can amplify negative impacts of ocean acidification on calcifying coral reef organisms

2015

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