Seawater carbonate chemistry and net calcification, relative electron transport rates and photosynthetic pigments of Porolithon onkodes

Ocean acidification (OA) and nutrient enrichment threaten the persistence of near shore ecosystems, yet little is known about their combined effects on marine organisms. Here, we show that a threefold increase in nitrogen concentrations, simulating enrichment due to coastal eutrophication or consume...

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Bibliographic Details
Main Authors: Johnson, Maggie Dorothy, Carpenter, Robert C
Format: Dataset
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 2018
Subjects:
Animalia
Benthic animals
Benthos
Calcification/Dissolution
Cnidaria
Coast and continental shelf
Containers and aquaria 20-1000 L or < 1 m**2
Laboratory experiment
Macro-nutrients
Porolithon onkodes
Primary production/Photosynthesis
Single species
South Pacific
Tropical
Type
Species
Registration number of species
Uniform resource locator/link to reference
Identification
Treatment
Calcification rate
Electron transport rate, relative
Chlorophyll a
Phycocyanin
Phycoerythrin
Temperature, water
Temperature, water, standard error
Salinity
Salinity, standard error
Irradiance
Irradiance, standard error
Flow rate
Flow rate, standard error
pH
pH, standard error
Alkalinity, total
Alkalinity, total, standard error
Partial pressure of carbon dioxide water at sea surface temperature wet air
Partial pressure of carbon dioxide water at sea surface temperature wet air, standard error
Calcite saturation state
Calcite saturation state, standard error
Nitrate and Nitrite
Nitrate and Nitrite, standard error
Ammonium
Ammonium, standard error
Carbonate system computation flag
Carbon dioxide
Fugacity of carbon dioxide water at sea surface temperature wet air
Bicarbonate ion
Carbonate ion
Carbon, inorganic, dissolved
Aragonite saturation state
Experiment
Calculated using CO2SYS
Calculated using seacarb after Nisumaa et al. 2010
Ocean Acidification International Coordination Centre OA-ICC
Pacific
Ocean acidification
Online Access:https://dx.doi.org/10.1594/pangaea.924886
https://doi.pangaea.de/10.1594/PANGAEA.924886
Description
Summary:Ocean acidification (OA) and nutrient enrichment threaten the persistence of near shore ecosystems, yet little is known about their combined effects on marine organisms. Here, we show that a threefold increase in nitrogen concentrations, simulating enrichment due to coastal eutrophication or consumer excretions, offset the direct negative effects of near-future OA on calcification and photophysiology of the reef-building crustose coralline alga, Porolithon onkodes. Projected near-future pCO2 levels (approx. 850 µatm) decreased calcification by 30% relative to ambient conditions. Conversely, nitrogen enrichment (nitrate + nitrite and ammonium) increased calcification by 90–130% in ambient and high pCO2 treatments, respectively. pCO2 and nitrogen enrichment interactively affected instantaneous photophysiology, with highest relative electron transport rates under high pCO2 and high nitrogen. Nitrogen enrichment alone increased concentrations of the photosynthetic pigments chlorophyll a, phycocyanin and phycoerythrin by approximately 80–450%, regardless of pCO2. These results demonstrate that nutrient enrichment can mediate direct organismal responses to OA. In natural systems, however, such direct benefits may be counteracted by simultaneous increases in negative indirect effects, such as heightened competition. Experiments exploring the effects of multiple stressors are increasingly becoming important for improving our ability to understand the ramifications of local and global change stressors in near shore ecosystems. : In order to allow full comparability with other ocean acidification data sets, the R package seacarb (Gattuso et al, 2020) was used to compute a complete and consistent set of carbonate system variables, as described by Nisumaa et al. (2010). In this dataset the original values were archived in addition with the recalculated parameters (see related PI). The date of carbonate chemistry calculation by seacarb is 2020-11-11.

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