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Nardi, Alessandro; Mincarelli, Luana Fiorella; Benedetti, Maura; Fattorini, Daniele; d'Errico, Giuseppe; Regoli, Francesco (2017): Indirect effects of climate changes on cadmium bioavailability and biological effects in the Mediterranean mussel Mytilus galloprovincialis [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.872084, Supplement to: Nardi, A et al. (2017): Indirect effects of climate changes on cadmium bioavailability and biological effects in the Mediterranean mussel Mytilus galloprovincialis. Chemosphere, 169, 493-502, https://doi.org/10.1016/j.chemosphere.2016.11.093

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Abstract:
Despite the great interest in the consequences of climate change on the physiological functioning of marine organisms, indirect and interactive effects of rising temperature and pCO2 on bioaccumulation and responsiveness to environmental pollutants are still poorly explored, particularly in terms of cellular mechanisms. According to future projections of temperature and pH/pCO2, this study investigated the main cellular pathways involved in metal detoxification and oxidative homeostasis in Mediterranean mussels, Mytilus galloprovincialis, exposed for 4 weeks to various combinations of two levels of pH/pCO2 (8.2/400 µatm and 7.4/3000 µatm), temperature (20 and 25 °C), and cadmium addition (0 and 20 µg/L). Bioaccumulation was increased in metal exposed organisms but it was not further modulated by different temperature and pH/pCO2 combinations. However, interactions between temperature, pH and cadmium had significant effects on induction of metallothioneins, responses of the antioxidant system and the onset of oxidative damages, which was tissue dependent. Multiple stressors increased metallothioneins concentrations in the digestive gland revealing different oxidative effects: while temperature and cadmium enhanced glutathione-dependent antioxidant protection and capability to neutralize peroxyl radicals, the metal increased the accumulation of lipid peroxidation products under acidified conditions. Gills did not reveal specific effects for different combinations of factors, but a general stress condition was observed in this tissue after various treatments. Significant variations of immune system were mainly caused by increased temperature and low pH, while co-exposure to acidification and cadmium enhanced metal genotoxicity and the onset of permanent DNA damage in haemocytes. Elaboration of the whole biomarker data in a cellular hazard index, corroborated the synergistic effects of temperature and acidification which increased the toxicological effects of cadmium. The overall results confirmed that climate change could influence ecotoxicological effects of environmental contaminants, highlighting the importance of a better knowledge of cellular mechanisms to understand and predict responsiveness of marine organisms to such multiple stressors.
Keyword(s):
Animalia; Benthic animals; Benthos; Bottles or small containers/Aquaria (<20 L); Coast and continental shelf; Inorganic toxins; Laboratory experiment; Mediterranean Sea; Mollusca; Mytilus galloprovincialis; Single species; Temperate; Temperature
Further details:
Gattuso, Jean-Pierre; Epitalon, Jean-Marie; Lavigne, Héloïse; Orr, James C; Gentili, Bernard; Proye, Aurélien; Soetaert, Karline; Rae, James (2016): seacarb: seawater carbonate chemistry with R. R package version 3.1. https://cran.r-project.org/package=seacarb
Project(s):
Ocean Acidification International Coordination Centre (OA-ICC)
Coverage:
Latitude: 43.500000 * Longitude: 13.700000
Date/Time Start: 2014-06-01T00:00:00 * Date/Time End: 2014-06-30T00:00:00
Event(s):
Adriatic_Sea * Latitude: 43.500000 * Longitude: 13.700000 * Date/Time Start: 2014-06-01T00:00:00 * Date/Time End: 2014-06-30T00:00:00 * Method/Device: Experiment (EXP)
Comment:
In order to allow full comparability with other ocean acidification data sets, the R package seacarb (Gattuso et al, 2016) 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 is 2017-02-14.
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1TypeTypeRegoli, Francescostudy
2SpeciesSpeciesRegoli, Francesco
3Registration number of speciesReg spec noRegoli, Francesco
4Uniform resource locator/link to referenceURL refRegoli, FrancescoWoRMS Aphia ID
5TreatmentTreatRegoli, Francesco
6Sample code/labelSample labelRegoli, Francesco
7Incubation durationInc durdaysRegoli, Francesco
8SalinitySalRegoli, Francesco
9Salinity, standard deviationSal std dev±Regoli, Francesco
10Temperature, waterTemp°CRegoli, Francesco
11Temperature, water, standard deviationTemp std dev±Regoli, Francesco
12pHpHRegoli, FrancescoPotentiometricNBS scale
13pH, standard deviationpH std dev±Regoli, FrancescoPotentiometricNBS scale
14Alkalinity, totalATµmol/kgRegoli, FrancescoPotentiometric titration
15Alkalinity, total, standard deviationAT std dev±Regoli, FrancescoPotentiometric titration
16Partial pressure of carbon dioxide (water) at sea surface temperature (wet air)pCO2water_SST_wetµatmRegoli, FrancescoCalculated using CO2SYS
17Partial pressure of carbon dioxide, standard deviationpCO2 std dev±Regoli, FrancescoCalculated using CO2SYS
18Calcite saturation stateOmega CalRegoli, FrancescoCalculated using CO2SYS
19Calcite saturation state, standard deviationOmega Cal std dev±Regoli, FrancescoCalculated using CO2SYS
20Aragonite saturation stateOmega ArgRegoli, FrancescoCalculated using CO2SYS
21Aragonite saturation state, standard deviationOmega Arg std dev±Regoli, FrancescoCalculated using CO2SYS
22CadmiumCdmg/kgRegoli, Francescoin digestive gland
23Cadmium, standard deviationCd std dev±Regoli, Francescoin digestive gland
24Metallothionein, per protein massMT/protnmol/mgRegoli, Francescoin digestive gland
25Metallothionein per protein, standard deviationMT std dev±Regoli, Francescoin digestive gland
26Glutathione, total, per unit wet massTGSHµmol/gRegoli, Francescoin digestive gland
27Glutathione, total, per unit wet mass, standard deviationTGSH std dev±Regoli, Francescoin digestive gland
28Catalase activity, per protein massCAT/protµmol/min/mgRegoli, Francescoin digestive gland
29Catalase activity, standard deviationCAT std dev±Regoli, Francescoin digestive gland
30Glutathione S-transferase, activity per protein massGST/protnmol/min/mgRegoli, Francescoin digestive gland
31Glutathione S-transferase, activity per protein mass, standard deviationGST std dev±Regoli, Francescoin digestive gland
32Glutathione reductase, per protein massGR/protnmol/min/mgRegoli, Francescoin digestive gland
33Glutathione reductase, unit per protein mass, standard deviationGR std dev±Regoli, Francescoin digestive gland
34Selenium dependent glutathione peroxidases activity, per protein massGPxSe-Dep/protnmol/min/mgRegoli, Francescoin digestive gland
35Selenium dependent glutathione peroxidases activity, unit per protein mass, standard deviationGPxSe-Dep std dev±Regoli, Francescoin digestive gland
36Total glutathione peroxidases activity, per protein massGPxTOT/protnmol/min/mgRegoli, Francescoin digestive gland
37Total glutathione peroxidases activity, unit per protein mass, standard deviationGPxTOT std dev±Regoli, Francescoin digestive gland
38Total oxyradical scavenging capacity against peroxyl radicals, unit per protein massTOSC-ROOU/mgRegoli, Francescoin digestive gland
39Total oxyradical scavenging capacity against peroxyl radicals, unit per protein mass, standard deviationTOSC-ROO std dev±Regoli, Francescoin digestive gland
40Total oxyradical scavenging capacity against hydroxyl radicals, unit per protein massTOSC-HOU/mgRegoli, Francescoin digestive gland
41Total oxyradical scavenging capacity against hydroxyl radicals, unit per protein mass, standard deviationTOSC-HO std dev±Regoli, Francescoin digestive gland
42Malondialdehyde, per wet massMDAnmol/gRegoli, Francescoin digestive gland
43Malondialdehyde, per wet mass, standard deviationMDA std dev±Regoli, Francescoin digestive gland
44LipofuscinLipointensity/µm2Regoli, Francescoin digestive gland
45Lipofuscin, standard deviationLipo std dev±Regoli, Francescoin digestive gland
46Neutral lipidsNLintensity/µm2Regoli, Francescoin digestive gland
47Neutral lipids, standard deviationNL std dev±Regoli, Francescoin digestive gland
48CadmiumCdmg/kgRegoli, Francescoin gills
49Cadmium, standard deviationCd std dev±Regoli, Francescoin gills
50Metallothionein, per protein massMT/protnmol/mgRegoli, Francescoin gills
51Metallothionein per protein, standard deviationMT std dev±Regoli, Francescoin gills
52Glutathione, total, per unit wet massTGSHµmol/gRegoli, Francescoin gills
53Glutathione, total, per unit wet mass, standard deviationTGSH std dev±Regoli, Francescoin gills
54Catalase activity, per protein massCAT/protµmol/min/mgRegoli, Francescoin gills
55Catalase activity, standard deviationCAT std dev±Regoli, Francescoin gills
56Glutathione S-transferase, activity per protein massGST/protnmol/min/mgRegoli, Francescoin gills
57Glutathione S-transferase, activity per protein mass, standard deviationGST std dev±Regoli, Francescoin gills
58Glutathione reductase, per protein massGR/protnmol/min/mgRegoli, Francescoin gills
59Glutathione reductase, unit per protein mass, standard deviationGR std dev±Regoli, Francescoin gills
60Selenium dependent glutathione peroxidases activity, per protein massGPxSe-Dep/protnmol/min/mgRegoli, Francescoin gills
61Selenium dependent glutathione peroxidases activity, unit per protein mass, standard deviationGPxSe-Dep std dev±Regoli, Francescoin gills
62Total glutathione peroxidases activity, per protein massGPxTOT/protnmol/min/mgRegoli, Francescoin gills
63Total glutathione peroxidases activity, unit per protein mass, standard deviationGPxTOT std dev±Regoli, Francescoin gills
64Total oxyradical scavenging capacity against peroxyl radicals, unit per protein massTOSC-ROOU/mgRegoli, Francescoin gills
65Total oxyradical scavenging capacity against peroxyl radicals, unit per protein mass, standard deviationTOSC-ROO std dev±Regoli, Francescoin gills
66Total oxyradical scavenging capacity against hydroxyl radicals, unit per protein massTOSC-HOU/mgRegoli, Francescoin gills
67Total oxyradical scavenging capacity against hydroxyl radicals, unit per protein mass, standard deviationTOSC-HO std dev±Regoli, Francescoin gills
68Malondialdehyde, per wet massMDAnmol/gRegoli, Francescoin gills
69Malondialdehyde, per wet mass, standard deviationMDA std dev±Regoli, Francescoin gills
70Hemocytes lysosomal membranes stabilityLMSminRegoli, Francesco
71Hemocytes lysosomal membranes stability, standard deviationLMS std dev±Regoli, Francesco
72Phagocytosis ratePhagocytosis rate%Regoli, Francescohaemocytes
73Phagocytosis rate, standard deviationPhago std dev±Regoli, Francesco
74Granulocytes/Hyalinocytes ratioG/HRegoli, Francesco
75Granulocytes/Hyalinocytes ratio, standard deviationG/H std dev±Regoli, Francesco
76Hemocytes DNA strand breaksDNA damage%Regoli, Francesco
77Hemocytes DNA strand breaks, standard deviationDNA damage std dev±Regoli, Francesco
78Hemocytes micronuclei frequencyHem MNRegoli, Francesco
79Hemocytes micronuclei frequency, standard deviationHem MN std dev±Regoli, Francesco
80Carbonate system computation flagCSC flagYang, YanCalculated using seacarb after Nisumaa et al. (2010)
81pHpHYang, YanCalculated using seacarb after Nisumaa et al. (2010)total scale
82Carbon dioxideCO2µmol/kgYang, YanCalculated using seacarb after Nisumaa et al. (2010)
83Fugacity of carbon dioxide (water) at sea surface temperature (wet air)fCO2water_SST_wetµatmYang, YanCalculated using seacarb after Nisumaa et al. (2010)
84Partial pressure of carbon dioxide (water) at sea surface temperature (wet air)pCO2water_SST_wetµatmYang, YanCalculated using seacarb after Nisumaa et al. (2010)
85Bicarbonate ion[HCO3]-µmol/kgYang, YanCalculated using seacarb after Nisumaa et al. (2010)
86Carbonate ion[CO3]2-µmol/kgYang, YanCalculated using seacarb after Nisumaa et al. (2010)
87Carbon, inorganic, dissolvedDICµmol/kgYang, YanCalculated using seacarb after Nisumaa et al. (2010)
88Aragonite saturation stateOmega ArgYang, YanCalculated using seacarb after Nisumaa et al. (2010)
89Calcite saturation stateOmega CalYang, YanCalculated using seacarb after Nisumaa et al. (2010)
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
712 data points

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