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Chauvin, Anne; Denis, Vianney; Cuet, Pascale (2011): Seawater carbonate chemistry and protein and chlorophyll a content per nubbin of Acropora muricata during observations of La Saline fringing reef, La Reunion Island, western Indian Ocean, 2011 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.771569, In supplement to: Chauvin, A et al. (2011): Is the response of coral calcification to seawater acidification related to nutrient loading? Coral Reefs, 30(4), 911-923, https://doi.org/10.1007/s00338-011-0786-7

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Abstract:
The effect of decreasing aragonite saturation state (Omega Arag) of seawater (elevated pCO2) on calcification rates of Acropora muricata was studied using nubbins prepared from parent colonies located at two sites of La Saline reef (La Réunion Island, western Indian Ocean): a back-reef site (BR) affected by nutrient-enriched groundwater discharge (mainly nitrate), and a reef flat site (RF) with low terrigenous inputs. Protein and chlorophyll a content of the nubbins, as well as zooxanthellae abundance, were lower at RF than BR. Nubbins were incubated at ~27°C over 2 h under sunlight, in filtered seawater manipulated to get differing initial pCO2 (1,440-340 µatm), Omega Arag (1.4-4.0), and dissolved inorganic carbon (DIC) concentrations (2,100-1,850 µmol/kg). Increasing DIC concentrations at constant total alkalinity (AT) resulted in a decrease in Omega Arag and an increase in pCO2. AT at the beginning of the incubations was kept at a natural level of 2,193 ± 6 µmol/kg (mean ± SD). Net photosynthesis (NP) and calcification were calculated from changes in pH and AT during the incubations. Calcification decrease in response to doubling pCO2 relative to preindustrial level was 22% for RF nubbins. When normalized to surface area of the nubbins, (1) NP and calcification were higher at BR than RF, (2) NP increased in high pCO2 treatments at BR compared to low pCO2 treatments, and (3) calcification was not related to Omega Arag at BR. When normalized to NP, calcification was linearly related to Omega Arag at both sites, and the slopes of the relationships were not significantly different. The increase in NP at BR in the high pCO2 treatments may have increased calcification and thus masked the negative effect of low Omega Arag on calcification. Removing the effect of NP variations at BR showed that calcification declined in a similar manner with decreased Omega Arag (increased pCO2) whatever the nutrient loading.
Keyword(s):
Acropora muricata; Animalia; Benthic animals; Benthos; Biomass/Abundance/Elemental composition; Bottles or small containers/Aquaria (<20 L); Cnidaria; Coast and continental shelf; Growth/Morphology; Laboratory experiment; Macro-nutrients; Single species; Tropical
Funding:
Seventh Framework Programme (FP7), grant/award no. 211384: European Project on Ocean Acidification
Sixth Framework Programme (FP6), grant/award no. 511106: European network of excellence for Ocean Ecosystems Analysis
Coverage:
Latitude: -21.116670 * Longitude: 55.533333
Comment:
In order to allow full comparability with other ocean acidification data sets, the R package seacarb (Lavigne and Gattuso, 2011) 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).
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1SiteSiteChauvin, Anne
2LATITUDELatitudeGeocode
3LONGITUDELongitudeGeocode
4SalinitySalChauvin, AnneSalinometer (601 MK III, YEO-KAL, Australia)
5Salinity, standard deviationSal std dev±Chauvin, Anne
6Temperature, waterTemp°CChauvin, Anne
7Temperature, standard deviationT std dev±Chauvin, Anne
8pHpHChauvin, AnnePotentiometric titration (Radiometer TIM865, combined pH electrode pHC2401-8)Total scale
9pH, standard deviationpH std dev±Chauvin, Anne
10Alkalinity, totalATµmol/kgChauvin, AnnePotentiometric titration (Radiometer TIM865, combined pH electrode pHC2401-8)
11Alkalinity, total, standard deviationAT std dev±Chauvin, Anne
12Carbon, inorganic, dissolvedDICµmol/kgChauvin, AnneCalculated using CO2SYS
13Carbon, inorganic, dissolved, standard deviationDIC std dev±Chauvin, Anne
14Partial pressure of carbon dioxide (water) at sea surface temperature (wet air)pCO2water_SST_wetµatmChauvin, AnneCalculated using CO2SYS
15Carbon dioxide, partial pressure, standard deviationpCO2 std dev±Chauvin, Anne
16Bicarbonate ion[HCO3]-µmol/kgChauvin, AnneCalculated using CO2SYS
17Bicarbonate ion, standard deviation[HCO3]- std dev±Chauvin, Anne
18Carbonate ion[CO3]2-µmol/kgChauvin, AnneCalculated using CO2SYS
19Carbonate ion, standard deviation[CO3]2- std dev±Chauvin, Anne
20Aragonite saturation stateOmega ArgChauvin, AnneCalculated using CO2SYS
21Aragonite saturation state, standard deviationOmega Arg std dev±Chauvin, Anne
22IdentificationIDChauvin, Anne
23Acropora muricata, surface areaA. muricata SAcm2Chauvin, Anne
24Acropora muricata, protein contentA. muricata proteinmg/nubbinChauvin, Anne
25Acropora muricata, chlorophyll aA. muricata Chl aµg/nubbinChauvin, Anne
26Carbonate system computation flagCSC flagNisumaa, Anne-MarinCalculated using seacarb after Nisumaa et al. (2010)
27Carbon dioxideCO2µmol/kgNisumaa, Anne-MarinCalculated using seacarb after Nisumaa et al. (2010)
28Partial pressure of carbon dioxide (water) at sea surface temperature (wet air)pCO2water_SST_wetµatmNisumaa, Anne-MarinCalculated using seacarb after Nisumaa et al. (2010)
29Fugacity of carbon dioxide (water) at sea surface temperature (wet air)fCO2water_SST_wetµatmNisumaa, Anne-MarinCalculated using seacarb after Nisumaa et al. (2010)
30Bicarbonate ion[HCO3]-µmol/kgNisumaa, Anne-MarinCalculated using seacarb after Nisumaa et al. (2010)
31Carbonate ion[CO3]2-µmol/kgNisumaa, Anne-MarinCalculated using seacarb after Nisumaa et al. (2010)
32Carbon, inorganic, dissolvedDICµmol/kgNisumaa, Anne-MarinCalculated using seacarb after Nisumaa et al. (2010)
33Aragonite saturation stateOmega ArgNisumaa, Anne-MarinCalculated using seacarb after Nisumaa et al. (2010)
34Calcite saturation stateOmega CalNisumaa, Anne-MarinCalculated using seacarb after Nisumaa et al. (2010)
Size:
1913 data points

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