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  • 2000-2004  (1,611,553)
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  • 1
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    Seawater carbonate chemistry and processes during experiments with Emiliania huxleyi (PML B93/11A) (2002)
    PANGAEA
    In:  Supplement to: Riebesell, Ulf; Zondervan, Ingrid; Rost, Björn; Tortell, Philippe Daniel; Zeebe, Richard E; Morel, Francois M M (2000): Reduced calcification of marine plankton in response to increased atmospheric CO2. Nature, 407, 364-367, https://doi.org/10.1038/35030078
    Details
    Publication Date: 2024-05-27
    Description: The formation of calcareous skeletons by marine planktonic organisms and their subsequent sinking to depth generates a continuous rain of calcium carbonate to the deep ocean and underlying sediments. This is important in regulating marine carbon cycling and ocean-atmosphere CO2 exchange. The present rise in atmospheric CO2 levels causes significant changes in surface ocean pH and carbonate chemistry. Such changes have been shown to slow down calcification in corals and coralline macroalgae, but the majority of marine calcification occurs in planktonic organisms. Here we report reduced calcite production at increased CO2 concentrations in monospecific cultures of two dominant marine calcifying phytoplankton species, the coccolithophorids Emiliania huxleyi and Gephyrocapsa oceanica . This was accompanied by an increased proportion of malformed coccoliths and incomplete coccospheres. Diminished calcification led to a reduction in the ratio of calcite precipitation to organic matter production. Similar results were obtained in incubations of natural plankton assemblages from the north Pacific ocean when exposed to experimentally elevated CO2 levels. We suggest that the progressive increase in atmospheric CO2 concentrations may therefore slow down the production of calcium carbonate in the surface ocean. As the process of calcification releases CO2 to the atmosphere, the response observed here could potentially act as a negative feedback on atmospheric CO2 levels.
    Keywords: Alkalinity, Gran titration (Gran, 1950); Alkalinity, total; Aragonite saturation state; Bicarbonate ion; Bottles or small containers/Aquaria (〈20 L); Calcification/Dissolution; Calcite saturation state; Calculated; Calculated, see reference(s); Calculated after Freeman & Hayes (1992); Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, dissolved; Carbon, inorganic, particulate, per cell; Carbon, inorganic, particulate, production per cell; Carbon, organic, particulate, per cell; Carbon, organic, particulate, production per cell; Carbonate ion; Carbonate system computation flag; Carbon dioxide; Carbon dioxide, total; Carbon organic/inorganic ratio; Chromista; Colorimetry; Entire community; EPOCA; EUR-OCEANS; European network of excellence for Ocean Ecosystems Analysis; European Project on Ocean Acidification; EXP; Experiment; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Growth/Morphology; Growth rate; Growth rate, carbon-specific, per cell; Haptophyta; Identification; Isotopic fractionation, during photosynthis; Laboratory experiment; Laboratory strains; Light; Light:Dark cycle; Mass spectrometer ANCA-SL 20-20 Europa Scientific; Mass spectrometer Finnigan MAT 252; Not applicable; OA-ICC; Ocean Acidification International Coordination Centre; Open ocean; Other studied parameter or process; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); Pelagos; pH; pH meter, WTW, pH 3000; Phytoplankton; Primary production/Photosynthesis; Radiation, photosynthetically active; RRZZ_00-02; Salinity; Single species; Temperate; Temperature, water; UIC 5012 coulometer; δ13C, carbon dioxide, atmospheric; δ13C, dissolved inorganic carbon; δ13C, particulate inorganic carbon; δ13C, particulate organic carbon
    Type: Dataset
    Format: text/tab-separated-values, 1190 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 2
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    Seawater carbonate chemistry and processes during experiments with Emiliania huxleyi (TW1), 2003 (2003)
    PANGAEA
    In:  Supplement to: Sciandra, Antoine; Harlay, Jérôme; Lefèvre, Dominique; Lemee, R; Rimmelin, Peguy; Denis, Michel; Gattuso, Jean-Pierre (2003): Response of coccolithophorid Emiliania huxleyi to elevated partial pressure of CO2 under nitrogen limitation. Marine Ecology Progress Series, 261, 111-122, https://doi.org/10.3354/meps261111
    Details
    Publication Date: 2024-05-27
    Description: Precipitation of calcium carbonate by phytoplankton in the photic oceanic layer is an important process regulating the carbon cycling and the exchange of CO2 at the ocean-atmosphere interface. Previous experiments have demonstrated that, under nutrient-sufficient conditions, doubling the partial pressure of CO2 (pCO2) in seawater-a likely scenario for the end of the century-can significantly decrease both the rate of calcification by coccolithophorids and the ratio of inorganic to organic carbon production. The present work investigates the effects of high pCO2 on calcification by the coccolithophore Emiliania huxleyi (Strain TW1) grown under nitrogen-limiting conditions, a situation that can also prevail in the ocean. Nitrogen limitation was achieved in NO3-limited continuous cultures renewed at the rate of 0.5 d-1 and exposed to a saturating light level. pCO2 was increased from 400 to 700 ppm and controlled by bubbling CO2-rich or CO2-free air into the cultures. The pCO2 shift has a rapid effect on cell physiology that occurs within 2 cell divisions subsequent to the perturbation. Net calcification rate (C) decreased by 25% and, in contrast to previous studies with N-replete cultures, gross community production (GCP) and dark community respiration (DCR) also decreased. These results suggest that increasing pCO2 has no noticeable effect on the calcification/photosynthesis ratio (C/P) when cells of E. huxleyi are NO3-limited.
    Keywords: Alkalinity, Gran titration (Gran, 1950); Alkalinity, total; Aragonite saturation state; Bicarbonate ion; Calcification/Dissolution; Calcification rate of calcium carbonate per algae cell; Calcite saturation state; Calculated; Calculated, see reference(s); Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, dissolved; Carbon, inorganic, particulate, production per cell; Carbon, organic, particulate, production per cell; Carbonate ion; Carbonate system computation flag; Carbon dioxide; Chromista; DATE/TIME; Element analyser CHN, LECO; Emiliania huxleyi; EPOCA; EUR-OCEANS; European network of excellence for Ocean Ecosystems Analysis; European Project on Ocean Acidification; EXP; Experiment; Experimental treatment; Experiment day; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Haptophyta; Laboratory experiment; Laboratory strains; Macro-nutrients; Measured; Not applicable; OA-ICC; Ocean Acidification International Coordination Centre; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); Pelagos; pH; Phytoplankton; Primary production/Photosynthesis; Radiation, photosynthetically active; Respiration; Salinity; Sciandra_etal_03; Single species; Temperature, water
    Type: Dataset
    Format: text/tab-separated-values, 941 data points
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    DATA PANGAEA
  • 3
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    Seawater carbonate chemistry and processes during experiments with coccolithophores (Emiliania huxleyi and Gephyrocapsa oceanica), 2000 (2000)
    PANGAEA
    In:  Supplement to: Riebesell, Ulf; Zondervan, Ingrid; Rost, Björn; Tortell, Philippe Daniel; Zeebe, Richard E; Morel, Francois M M (2000): Reduced calcification of marine plankton in response to increased atmospheric CO2. Nature, 407, 364-367, https://doi.org/10.1038/35030078
    Details
    Publication Date: 2024-05-27
    Description: The formation of calcareous skeletons by marine planktonic organisms and their subsequent sinking to depth generates a continuous rain of calcium carbonate to the deep ocean and underlying sediments1. This is important in regulating marine carbon cycling and ocean-atmosphere CO2 exchange2. The present rise in atmospheric CO2 levels3 causes significant changes in surface ocean pH and carbonate chemistry4. Such changes have been shown to slow down calcification in corals and coralline macroalgae5,6, but the majority of marine calcification occurs in planktonic organisms. Here we report reduced calcite production at increased CO2 concentrations in monospecific cultures of two dominant marine calcifying phytoplankton species, the coccolithophorids Emiliania huxleyi and Gephyrocapsa oceanica . This was accompanied by an increased proportion of malformed coccoliths and incomplete coccospheres. Diminished calcification led to a reduction in the ratio of calcite precipitation to organic matter production. Similar results were obtained in incubations of natural plankton assemblages from the north Pacific ocean when exposed to experimentally elevated CO2 levels. We suggest that the progressive increase in atmospheric CO2 concentrations may therefore slow down the production of calcium carbonate in the surface ocean. As the process of calcification releases CO2 to the atmosphere, the response observed here could potentially act as a negative feedback on atmospheric CO2 levels.
    Keywords: Alkalinity, potentiometric; Alkalinity, total; Aphrodite aculeata; Biomass/Abundance/Elemental composition; Bottles or small containers/Aquaria (〈20 L); Calcification/Dissolution; Calculated, see reference(s); Calculated after Freeman & Hayes (1992); Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, particulate, production per cell; Carbon, organic, particulate, production per cell; Carbon, total, particulate; Carbon, total, particulate, production per cell; Carbon/Nitrogen ratio; Carbonate ion; Carbon dioxide, dissolved; Carbon dioxide, total; Chromista; Coccolithophoridae, total; Counting; CTD, Sea-Bird SBE 911plus; Entire community; EPOCA; EUR-OCEANS; European network of excellence for Ocean Ecosystems Analysis; European Project on Ocean Acidification; EXP; Experiment; Growth/Morphology; Haptophyta; Isotopic fractionation, during photosynthis; Laboratory experiment; Laboratory strains; Light; Mass spectrometer Finnigan Delta-S; Measured; Not applicable; OA-ICC; Ocean Acidification International Coordination Centre; Open ocean; Other studied parameter or process; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); Pelagos; pH; Phytoplankton; Phytoplankton cell division rate; Primary production/Photosynthesis; Radiation, photosynthetically active; Riebesell_etal_2000a; Sample ID; Scanning electron microscope (SEM); Single species; Temperate; Temperature, water; δ13C, carbon dioxide, aquatic; δ13C, dissolved inorganic carbon; δ13C, particulate inorganic carbon; δ13C, particulate organic carbon; δ13C, total particulate carbon
    Type: Dataset
    Format: text/tab-separated-values, 3006 data points
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    DATA PANGAEA
  • 4
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    Tab. 1+2+3: Selected principal soil properties in the oil exploitation region of KomiArcticOil (Usinsk) in the Russian tundra (2002)
    PANGAEA
    In:  Supplement to: Beyer, Lothar; Huyke, Wiebke; Hüttmann, Stephan; Archegova, Inna; Titarenko, Tatiana V (2002): The use of microbial activity indicators for a quality assessment of highly crude oil contaminated soils in the Russian Subpolar Tundra at the Arctic Circle. Polarforschung, 71(1/2), 33-39, hdl:10013/epic.29870.d001
    Details
    Publication Date: 2024-05-24
    Description: Oil polluted and not oil polluted soils (crude oil hydrocarbons contents: 20-92500 mg/kg dry soil mass) under natural grass and forest vegetation and in a bog in the Russian tundra were compared in their principal soil ecological parameters, the oil content and the microbial indicators. CFE biomass-C, dehydrogenase and arylsulfatase activity were enhanced with the occurrence of crude oil. Using these parameters for purposes of controlling remediation and recultivation success it is not possible to distinguish bctween promotion of microbial activity by oil carbon or soil organic carbon (SOC). For this reason we think that these parameters are not appropriate to indicate a soil damage by an oil impact. In contrast the metabolie quotient (qC02), calculated as the ratio between soil basal respiration and the SIR biomass-C was adequate to indicate a high crude oil contamination in soil. Also, the ß-glucosidase activity (parameter ß-GL/SOC) was correlated negatively with oil in soil. The indication of a soil damage by using the stress parameter qCO, or the specific enzyme activities (activity/SOC) minimizes the promotion effect of the recent SOC content on microbial parameters. Both biomass methods (SIR, CFE) have technical problems in application for crude oil-contaminated and subarctic soils. CFE does not reflect the low C_mic level of the cold tundra soils. We recommend to test every method for its suitability before any data collection in series as well as application for cold soils and the application of ecophysiological ratios as R_mic/C_mic, C_mic/SOC or enzymatic activity/SOC instead of absolute data.
    Keywords: Arginine ammonification in mass NH4-N per soil dry mass; Arylsulfatase in mass glucose per soil dry mass; beta-glucosidase in mass saligenin per soil dry mass; Carbon, organic, total; Carbon, per dry mass crude oil; Carbon availability index; Dehydrogenase activity in mass TPF per soil dry mass; DEPTH, sediment/rock; Description; Dry mass; Horizon; KomiArcticOil; Metabolic quotient; Nitrogen, total; Number; pH; Respiration; Sample code/label; Siberia, Russia; SOIL; Soil profile; Vozoy
    Type: Dataset
    Format: text/tab-separated-values, 241 data points
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  • 5
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    (Table 3) Metabolic rates of the amphipod Anonyx sarsi during POLARSTERN cruise ARK-XIX/1, ice station PS64/070-6 (2004)
    PANGAEA
    Details
    Publication Date: 2024-05-24
    Keywords: ARK-XIX/1; Barents Sea; ICE; Ice station; Individual dry mass; Nitrogen, excretion per individual; Polarstern; PS64; PS64/070-6; Ratio; Replicates; Respiration rate, oxygen, per dry mass; Respiration rate, oxygen, per individual; Species
    Type: Dataset
    Format: text/tab-separated-values, 63 data points
    Location Call Number Expected Availability
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  • 6
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    Hydrochemistry measured on water bottle samples during POLARSTERN cruise ANT-XIII/4 on section S04 (2002)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-05-23
    Keywords: 06AQANTXIII_4/100-1; 06AQANTXIII_4/10-1; 06AQANTXIII_4/101-1; 06AQANTXIII_4/102-2; 06AQANTXIII_4/103-1; 06AQANTXIII_4/11-1; 06AQANTXIII_4/12-1; 06AQANTXIII_4/13-1; 06AQANTXIII_4/13-3; 06AQANTXIII_4/14-1; 06AQANTXIII_4/14-3; 06AQANTXIII_4/15-2; 06AQANTXIII_4/15-4; 06AQANTXIII_4/16-1; 06AQANTXIII_4/17-1; 06AQANTXIII_4/18-1; 06AQANTXIII_4/19-1; 06AQANTXIII_4/19-3; 06AQANTXIII_4/20-1; 06AQANTXIII_4/21-1; 06AQANTXIII_4/22-1; 06AQANTXIII_4/22-3; 06AQANTXIII_4/23-1; 06AQANTXIII_4/24-1; 06AQANTXIII_4/25-1; 06AQANTXIII_4/25-3; 06AQANTXIII_4/26-1; 06AQANTXIII_4/27-1; 06AQANTXIII_4/28-1; 06AQANTXIII_4/28-3; 06AQANTXIII_4/29-1; 06AQANTXIII_4/30-1; 06AQANTXIII_4/3-1; 06AQANTXIII_4/31-1; 06AQANTXIII_4/31-4; 06AQANTXIII_4/32-1; 06AQANTXIII_4/33-1; 06AQANTXIII_4/34-1; 06AQANTXIII_4/34-3; 06AQANTXIII_4/34-4; 06AQANTXIII_4/35-1; 06AQANTXIII_4/35-4; 06AQANTXIII_4/36-1; 06AQANTXIII_4/37-1; 06AQANTXIII_4/38-1; 06AQANTXIII_4/38-4; 06AQANTXIII_4/39-1; 06AQANTXIII_4/40-1; 06AQANTXIII_4/4-1; 06AQANTXIII_4/41-1; 06AQANTXIII_4/42-1; 06AQANTXIII_4/43-1; 06AQANTXIII_4/44-1; 06AQANTXIII_4/44-3; 06AQANTXIII_4/45-1; 06AQANTXIII_4/46-1; 06AQANTXIII_4/47-1; 06AQANTXIII_4/48-1; 06AQANTXIII_4/48-3; 06AQANTXIII_4/49-1; 06AQANTXIII_4/50-1; 06AQANTXIII_4/5-1; 06AQANTXIII_4/51-1; 06AQANTXIII_4/52-1; 06AQANTXIII_4/52-3; 06AQANTXIII_4/5-3; 06AQANTXIII_4/53-1; 06AQANTXIII_4/54-1; 06AQANTXIII_4/54-3; 06AQANTXIII_4/55-1; 06AQANTXIII_4/56-2; 06AQANTXIII_4/56-4; 06AQANTXIII_4/57-1; 06AQANTXIII_4/57-4; 06AQANTXIII_4/58-1; 06AQANTXIII_4/59-1; 06AQANTXIII_4/60-1; 06AQANTXIII_4/60-4; 06AQANTXIII_4/6-1; 06AQANTXIII_4/61-1; 06AQANTXIII_4/62-1; 06AQANTXIII_4/62-3; 06AQANTXIII_4/63-1; 06AQANTXIII_4/65-2; 06AQANTXIII_4/66-1; 06AQANTXIII_4/66-3; 06AQANTXIII_4/67-1; 06AQANTXIII_4/68-1; 06AQANTXIII_4/69-1; 06AQANTXIII_4/70-1; 06AQANTXIII_4/7-1; 06AQANTXIII_4/71-1; 06AQANTXIII_4/71-5; 06AQANTXIII_4/7-2; 06AQANTXIII_4/72-1; 06AQANTXIII_4/73-1; 06AQANTXIII_4/74-2; 06AQANTXIII_4/75-1; 06AQANTXIII_4/75-4; 06AQANTXIII_4/76-1; 06AQANTXIII_4/77-1; 06AQANTXIII_4/78-1; 06AQANTXIII_4/79-1; 06AQANTXIII_4/79-3; 06AQANTXIII_4/80-1; 06AQANTXIII_4/8-1; 06AQANTXIII_4/81-1; 06AQANTXIII_4/82-1; 06AQANTXIII_4/83-1; 06AQANTXIII_4/83-2; 06AQANTXIII_4/84-1; 06AQANTXIII_4/85-1; 06AQANTXIII_4/86-1; 06AQANTXIII_4/86-3; 06AQANTXIII_4/87-1; 06AQANTXIII_4/88-1; 06AQANTXIII_4/89-1; 06AQANTXIII_4/90-1; 06AQANTXIII_4/90-4; 06AQANTXIII_4/9-1; 06AQANTXIII_4/91-1; 06AQANTXIII_4/92-1; 06AQANTXIII_4/93-1; 06AQANTXIII_4/94-1; 06AQANTXIII_4/94-3; 06AQANTXIII_4/95-1; 06AQANTXIII_4/96-1; 06AQANTXIII_4/97-1; 06AQANTXIII_4/98-1; 06AQANTXIII_4/99-1; 06AQANTXIII_4/99-4; ANT-XIII/4; Bottle number; Carbon, total; CTD; CTD/Rosette; CTD-RO; Date/Time of event; DEPTH, water; Elevation of event; Event label; Freon-11 (trichorofluoromethane); Freon-113; Freon-12 (dichlorodifluoromethane); Helium; Helium, standard deviation; Latitude of event; Longitude of event; Neon; Neon, standard deviation; Nitrate; Oxygen; Phosphate; Polarstern; Pressure, water; PS40/003-1; PS40/004-1; PS40/005-1; PS40/005-3; PS40/006-1; PS40/007-1; PS40/007-2; PS40/008-1; PS40/009-1; PS40/010-1; PS40/011-1; PS40/012-1; PS40/013-1; PS40/013-3; PS40/014-1; PS40/014-3; PS40/015-2; PS40/015-4; PS40/016-1; PS40/017-1; PS40/018-1; PS40/019-1; PS40/019-3; PS40/020-1; PS40/021-1; PS40/022-1; PS40/022-3; PS40/023-1; PS40/024-1; PS40/025-1; PS40/025-3; PS40/026-1; PS40/027-1; PS40/028-1; PS40/028-3; PS40/029-1; PS40/030-1; PS40/031-1; PS40/031-4; PS40/032-1; PS40/033-1; PS40/034-1; PS40/034-3; PS40/034-4; PS40/035-1; PS40/035-4; PS40/036-1; PS40/037-1; PS40/038-1; PS40/038-4; PS40/039-1; PS40/040-1; PS40/041-1; PS40/042-1; PS40/043-1; PS40/044-1; PS40/044-3; PS40/045-1; PS40/046-1; PS40/047-1; PS40/048-1; PS40/048-3; PS40/049-1; PS40/050-1; PS40/051-1; PS40/052-1; PS40/052-3; PS40/053-1; PS40/054-1; PS40/054-3; PS40/055-1; PS40/056-2; PS40/056-4; PS40/057-1; PS40/057-4; PS40/058-1; PS40/059-1; PS40/060-1; PS40/060-4; PS40/061-1; PS40/062-1; PS40/062-3; PS40/063-1; PS40/065-2; PS40/066-1; PS40/066-3; PS40/067-1; PS40/068-1; PS40/069-1; PS40/070-1; PS40/071-1; PS40/071-5; PS40/072-1; PS40/073-1; PS40/074-2; PS40/075-1; PS40/075-4; PS40/076-1; PS40/077-1; PS40/078-1; PS40/079-1; PS40/079-3; PS40/080-1; PS40/081-1; PS40/082-1; PS40/083-1; PS40/083-2; PS40/084-1; PS40/085-1; PS40/086-1; PS40/086-3; PS40/087-1; PS40/088-1; PS40/089-1; PS40/090-1; PS40/090-4; PS40/091-1; PS40/092-1; PS40/093-1; PS40/094-1; PS40/094-3; PS40/095-1; PS40/096-1; PS40/097-1; PS40/098-1; PS40/099-1; PS40/099-4; PS40/100-1; PS40/101-1; PS40/102-2; PS40/103-1; PS40 06AQANTXIII_4; Salinity; Salinometer, inductive; Silicate; South Atlantic; Temperature, water; Temperature, water, potential; Tetrachloromethane; WOCE; World Ocean Circulation Experiment; δ Helium-3; δ Helium-3, standard deviation
    Type: Dataset
    Format: text/tab-separated-values, 40971 data points
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  • 7
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    Hydrochemistry measured on water bottle samples during SONNE cruise SO73 on section IR04 (2002)
    PANGAEA
    Details
    Publication Date: 2024-05-23
    Keywords: 06BESO73_1; 06BESO73_1/11; 06BESO73_1/13; 06BESO73_1/15; 06BESO73_1/16; 06BESO73_1/17; 06BESO73_1/18; 06BESO73_1/19; 06BESO73_1/20; 06BESO73_1/3; 06BESO73_1/30; 06BESO73_1/5; 06BESO73_1/7; 06BESO73_1/9; Bottle number; CTD; CTD/Rosette; CTD-RO; Date/Time of event; DEPTH, water; Elevation of event; Event label; Helium; Helium, standard deviation; Latitude of event; Longitude of event; Pressure, water; SO73; SO73_11; SO73_13; SO73_15; SO73_16; SO73_17; SO73_18; SO73_19; SO73_20; SO73_3; SO73_30; SO73_5; SO73_7; SO73_9; Sonne; Tritium; Tritium, standard deviation; WOCE; World Ocean Circulation Experiment; δ Helium-3; δ Helium-3, standard deviation
    Type: Dataset
    Format: text/tab-separated-values, 1184 data points
    Location Call Number Expected Availability
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  • 8
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    Hydrochemistry measured on water bottle samples during POLARSTERN cruise ANT-X/4 on section A12 (2002)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-05-23
    Keywords: 06AQANTX_4/536-1; 06AQANTX_4/537-1; 06AQANTX_4/538-1; 06AQANTX_4/539-1; 06AQANTX_4/540-1; 06AQANTX_4/541-1; 06AQANTX_4/542-1; 06AQANTX_4/543-1; 06AQANTX_4/544-1; 06AQANTX_4/545-1; 06AQANTX_4/546-1; 06AQANTX_4/547-1; 06AQANTX_4/548-1; 06AQANTX_4/549-1; 06AQANTX_4/550-1; 06AQANTX_4/551-1; 06AQANTX_4/552-1; 06AQANTX_4/553-1; 06AQANTX_4/554-1; 06AQANTX_4/555-1; 06AQANTX_4/556-1; 06AQANTX_4/557-1; 06AQANTX_4/558-1; 06AQANTX_4/559-1; 06AQANTX_4/560-1; 06AQANTX_4/562-1; 06AQANTX_4/563-1; 06AQANTX_4/564-1; 06AQANTX_4/565-1; 06AQANTX_4/566-1; 06AQANTX_4/567-1; 06AQANTX_4/568-1; 06AQANTX_4/569-1; 06AQANTX_4/570-1; 06AQANTX_4/571-1; 06AQANTX_4/572-1; 06AQANTX_4/573-1; 06AQANTX_4/574-1; 06AQANTX_4/575-1; 06AQANTX_4/576-1; 06AQANTX_4/577-1; 06AQANTX_4/578-1; 06AQANTX_4/579-1; 06AQANTX_4/580-3; 06AQANTX_4/581-1; 06AQANTX_4/582-1; 06AQANTX_4/583-3; 06AQANTX_4/584-1; 06AQANTX_4/585-1; 06AQANTX_4/586-3; 06AQANTX_4/587-1; 06AQANTX_4/588-1; 06AQANTX_4/589-3; 06AQANTX_4/590-1; 06AQANTX_4/591-2; 06AQANTX_4/592-3; 06AQANTX_4/593-3; 06AQANTX_4/594-1; 06AQANTX_4/595-3; 06AQANTX_4/596-1; 06AQANTX_4/597-1; 06AQANTX_4/598-3; 06AQANTX_4/599-1; 06AQANTX_4/600-1; 06AQANTX_4/601-1; 06AQANTX_4/602-2; 06AQANTX_4/603-3; 06AQANTX_4/604-1; 06AQANTX_4/605-1; 06AQANTX_4/606-2; 06AQANTX_4/610-1; 06AQANTX_4/611-1; 06AQANTX_4/612-1; 06AQANTX_4/613-1; 06AQANTX_4/618-3; 06AQANTX_4/619-1; 06AQANTX_4/623-3; 06AQANTX_4/624-1; 06AQANTX_4/625-3; 06AQANTX_4/626-3; 06AQANTX_4/627-1; 06AQANTX_4/628-3; 06AQANTX_4/629-1; 06AQANTX_4/630-3; 06AQANTX_4/631-1; 06AQANTX_4/632-1; 06AQANTX_4/633-1; 06AQANTX_4/634-1; 06AQANTX_4/635-1; 06AQANTX_4/635-3; 06AQANTX_4/636-1; 06AQANTX_4/637-1; 06AQANTX_4/638-1; 06AQANTX_4/639-1; 06AQANTX_4/640-1; 06AQANTX_4/641-1; 06AQANTX_4/642-1; 06AQANTX_4/643-1; 06AQANTX_4/644-1; ANT-X/4; Bottle number; Carbon, total; CTD; CTD/Rosette; CTD-RO; Date/Time of event; DEPTH, water; Elevation of event; Event label; Freon-11 (trichorofluoromethane); Freon-12 (dichlorodifluoromethane); Helium; Helium, standard deviation; Latitude of event; Longitude of event; Neon; Neon, standard deviation; Nitrate; Nitrite; Oxygen; Phosphate; Polarstern; Pressure, water; PS21/536-1; PS21/537-1; PS21/538-1; PS21/539-1; PS21/540-1; PS21/541-1; PS21/542-1; PS21/543-1; PS21/544-1; PS21/545-1; PS21/546-1; PS21/547-1; PS21/548-1; PS21/549-1; PS21/550-1; PS21/551-1; PS21/552-1; PS21/553-1; PS21/554-1; PS21/555-1; PS21/556-1; PS21/557-1; PS21/558-1; PS21/559-1; PS21/560-1; PS21/562-1; PS21/563-1; PS21/564-1; PS21/565-1; PS21/566-1; PS21/567-1; PS21/568-1; PS21/569-1; PS21/570-1; PS21/571-1; PS21/572-1; PS21/573-1; PS21/574-1; PS21/575-1; PS21/576-1; PS21/577-1; PS21/578-1; PS21/579-1; PS21/580-3; PS21/581-1; PS21/582-1; PS21/583-3; PS21/584-1; PS21/585-1; PS21/586-3; PS21/587-1; PS21/588-1; PS21/589-3; PS21/590-1; PS21/591-2; PS21/592-3; PS21/593-3; PS21/594-1; PS21/595-3; PS21/596-1; PS21/597-1; PS21/598-3; PS21/599-1; PS21/600-1; PS21/601-1; PS21/602-2; PS21/603-3; PS21/604-1; PS21/605-1; PS21/606-2; PS21/610-1; PS21/611-1; PS21/612-1; PS21/613-1; PS21/618-3; PS21/619-1; PS21/623-3; PS21/624-1; PS21/625-3; PS21/626-3; PS21/627-1; PS21/628-3; PS21/629-1; PS21/630-3; PS21/631-1; PS21/632-1; PS21/633-1; PS21/634-1; PS21/635-1; PS21/635-3; PS21/636-1; PS21/637-1; PS21/638-1; PS21/639-1; PS21/640-1; PS21/641-1; PS21/642-1; PS21/643-1; PS21/644-1; PS21 06AQANTX_4; Salinity; Salinometer, inductive; Silicate; Temperature, water; Temperature, water, potential; Tritium; Tritium, standard deviation; WOCE; World Ocean Circulation Experiment; δ Helium-3; δ Helium-3, standard deviation
    Type: Dataset
    Format: text/tab-separated-values, 32378 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 9
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    Unknown
    Hydrochemistry measured on water bottle samples during METEOR cruise M11/5 on section A21 (2002)
    PANGAEA
    Details
    Publication Date: 2024-05-23
    Keywords: 06MT11_5; 06MT11_5/102-1; 06MT11_5/103-1; 06MT11_5/104-1; 06MT11_5/105-1; 06MT11_5/106-1; 06MT11_5/107-1; 06MT11_5/108-1; 06MT11_5/109-1; 06MT11_5/110-1; 06MT11_5/111-1; 06MT11_5/112-1; 06MT11_5/113-1; 06MT11_5/114-1; 06MT11_5/115-1; 06MT11_5/116-2; 06MT11_5/117-1; 06MT11_5/118-1; 06MT11_5/119-1; 06MT11_5/120-1; 06MT11_5/121-1; 06MT11_5/122-1; 06MT11_5/123-1; 06MT11_5/124-1; 06MT11_5/125-1; 06MT11_5/126-1; 06MT11_5/127-1; 06MT11_5/128-1; 06MT11_5/129-1; 06MT11_5/130-1; 06MT11_5/131-1; 06MT11_5/132-1; 06MT11_5/133-1; 06MT11_5/134-1; 06MT11_5/135-1; 06MT11_5/136-1; 06MT11_5/137-1; 06MT11_5/138-1; 06MT11_5/139-1; 06MT11_5/140-2; 06MT11_5/141-1; 06MT11_5/142-1; 06MT11_5/143-1; 06MT11_5/144-1; 06MT11_5/145-1; 06MT11_5/146-1; 06MT11_5/147-1; 06MT11_5/148-1; 06MT11_5/149-1; 06MT11_5/150-1; 06MT11_5/151-1; 06MT11_5/152-1; 06MT11_5/153-2; 06MT11_5/154-1; 06MT11_5/155-1; 06MT11_5/156-1; 06MT11_5/157-1; 06MT11_5/158-2; 06MT11_5/159-1; 06MT11_5/160-1; 06MT11_5/161-1; 06MT11_5/162-1; 06MT11_5/162-3; 06MT11_5/163-1; 06MT11_5/164-1; 06MT11_5/164-2; 06MT11_5/165-1; 06MT11_5/165-2; 06MT11_5/166-1; 06MT11_5/166-3; 06MT11_5/167-1; 06MT11_5/167-2; 06MT11_5/168-1; 06MT11_5/168-2; 06MT11_5/169-1; 06MT11_5/169-2; 06MT11_5/170-1; 06MT11_5/170-2; 06MT11_5/171-1; 06MT11_5/171-2; 06MT11_5/172-1; 06MT11_5/172-3; 06MT11_5/173-1; 06MT11_5/173-2; 06MT11_5/174-1; 06MT11_5/174-2; 06MT11_5/175-1; 06MT11_5/175-2; 06MT11_5/176-1; 06MT11_5/176-2; 06MT11_5/177-1; 06MT11_5/177-2; 06MT11_5/178-1; 06MT11_5/178-2; 06MT11_5/179-1; Carbon, inorganic, dissolved; Carbon dioxide, partial pressure; CTD; CTD/Rosette; CTD-RO; Date/Time of event; DEPTH, water; Elevation of event; Event label; Freon-11 (trichorofluoromethane); Freon-12 (dichlorodifluoromethane); Helium; Latitude of event; Longitude of event; M11/5; M11/5_102-1; M11/5_103-1; M11/5_104-1; M11/5_105-1; M11/5_106-1; M11/5_107-1; M11/5_108-1; M11/5_109-1; M11/5_110-1; M11/5_111-1; M11/5_112-1; M11/5_113-1; M11/5_114-1; M11/5_115-1; M11/5_116-2; M11/5_117-1; M11/5_118-1; M11/5_119-1; M11/5_120-1; M11/5_121-1; M11/5_122-1; M11/5_123-1; M11/5_124-1; M11/5_125-1; M11/5_126-1; M11/5_127-1; M11/5_128-1; M11/5_129-1; M11/5_130-1; M11/5_131-1; M11/5_132-1; M11/5_133-1; M11/5_134-1; M11/5_135-1; M11/5_136-1; M11/5_137-1; M11/5_138-1; M11/5_139-1; M11/5_140-2; M11/5_141-1; M11/5_142-1; M11/5_143-1; M11/5_144-1; M11/5_145-1; M11/5_146-1; M11/5_147-1; M11/5_148-1; M11/5_149-1; M11/5_150-1; M11/5_151-1; M11/5_152-1; M11/5_153-2; M11/5_154-1; M11/5_155-1; M11/5_156-1; M11/5_157-1; M11/5_158-2; M11/5_159-1; M11/5_160-1; M11/5_161-1; M11/5_162-1; M11/5_162-3; M11/5_163-1; M11/5_164-1; M11/5_164-2; M11/5_165-1; M11/5_165-2; M11/5_166-1; M11/5_166-3; M11/5_167-1; M11/5_167-2; M11/5_168-1; M11/5_168-2; M11/5_169-1; M11/5_169-2; M11/5_170-1; M11/5_170-2; M11/5_171-1; M11/5_171-2; M11/5_172-1; M11/5_172-3; M11/5_173-1; M11/5_173-2; M11/5_174-1; M11/5_174-2; M11/5_175-1; M11/5_175-2; M11/5_176-1; M11/5_176-2; M11/5_177-1; M11/5_177-2; M11/5_178-1; M11/5_178-2; M11/5_179-1; Meteor (1986); Nitrate; Nitrite; Oxygen; Phosphate; Pressure, water; Salinity; Salinometer, inductive; Sample ID; Silicate; Temperature, water; Tritium; WOCE; World Ocean Circulation Experiment; δ Helium-3
    Type: Dataset
    Format: text/tab-separated-values, 26512 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 10
    facet.materialart.
    Unknown
    Hydrochemistry measured on water bottle samples during METEOR cruise M18/1 on section A01E (2002)
    PANGAEA
    Details
    Publication Date: 2024-05-23
    Keywords: 06MT18_1; 06MT18_1/558-1; 06MT18_1/559-1; 06MT18_1/560-1; 06MT18_1/561-1; 06MT18_1/562-1; 06MT18_1/563-1; 06MT18_1/564-1; 06MT18_1/565-1; 06MT18_1/567-1; 06MT18_1/568-1; 06MT18_1/569-1; 06MT18_1/570-1; 06MT18_1/571-1; 06MT18_1/573-1; 06MT18_1/574-1; 06MT18_1/575-1; 06MT18_1/576-1; 06MT18_1/577-2; 06MT18_1/578-1; 06MT18_1/579-1; 06MT18_1/580-1; 06MT18_1/581-1; 06MT18_1/582-1; 06MT18_1/583-1; 06MT18_1/584-1; 06MT18_1/585-1; 06MT18_1/586-1; 06MT18_1/587-1; 06MT18_1/588-1; 06MT18_1/589-1; 06MT18_1/590-1; 06MT18_1/591-1; 06MT18_1/596-1; 06MT18_1/597-1; 06MT18_1/598-1; 06MT18_1/599-1; 06MT18_1/600-1; 06MT18_1/601-1; 06MT18_1/602-1; 06MT18_1/603-1; 06MT18_1/604-1; 06MT18_1/605-1; 06MT18_1/607-1; 06MT18_1/608-1; 06MT18_1/609-1; 06MT18_1/610-1; 06MT18_1/611-1; 06MT18_1/612-1; 06MT18_1/613-1; 06MT18_1/615-1; 06MT18_1/616-1; 06MT18_1/617-1; 06MT18_1/618-1; 06MT18_1/618-2; 06MT18_1/619-1; 06MT18_1/620-1; 06MT18_1/621-1; 06MT18_1/622-1; Alkalinity, total; Bottle number; Carbon, inorganic, dissolved; Carbon-14; Carbon-14, standard deviation; CTD; CTD/Rosette; CTD-RO; Date/Time of event; DEPTH, water; Elevation of event; Event label; Freon-11 (trichorofluoromethane); Freon-12 (dichlorodifluoromethane); Helium; Helium, standard deviation; Latitude of event; Longitude of event; M18/1; M18/1_558-1; M18/1_559-1; M18/1_560-1; M18/1_561-1; M18/1_562-1; M18/1_563-1; M18/1_564-1; M18/1_565-1; M18/1_567-1; M18/1_568-1; M18/1_569-1; M18/1_570-1; M18/1_571-1; M18/1_573-1; M18/1_574-1; M18/1_575-1; M18/1_576-1; M18/1_577-2; M18/1_578-1; M18/1_579-1; M18/1_580-1; M18/1_581-1; M18/1_582-1; M18/1_583-1; M18/1_584-1; M18/1_585-1; M18/1_586-1; M18/1_587-1; M18/1_588-1; M18/1_589-1; M18/1_590-1; M18/1_591-1; M18/1_596-1; M18/1_597-1; M18/1_598-1; M18/1_599-1; M18/1_600-1; M18/1_601-1; M18/1_602-1; M18/1_603-1; M18/1_604-1; M18/1_605-1; M18/1_607-1; M18/1_608-1; M18/1_609-1; M18/1_610-1; M18/1_611-1; M18/1_612-1; M18/1_613-1; M18/1_615-1; M18/1_616-1; M18/1_617-1; M18/1_618-1; M18/1_618-2; M18/1_619-1; M18/1_620-1; M18/1_621-1; M18/1_622-1; Meteor (1986); Nitrate; Nitrite; Oxygen; Phosphate; Pressure, water; Reversing thermometer; Salinity; Salinometer, inductive; Sample ID; Silicate; Temperature, water; Temperature, water, potential; Tritium; Tritium, standard deviation; WOCE; World Ocean Circulation Experiment; δ Helium-3; δ Helium-3, standard deviation
    Type: Dataset
    Format: text/tab-separated-values, 19556 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
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