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| Main Authors: | , , , , , , , |
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| Format: | Dataset Open Access |
| Language: | en |
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PANGAEA
2025
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| Online Access: | https://doi.org/10.1594/PANGAEA.974341 |
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| _version_ | 1867171046827753472 |
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| author | Schnabel, Ellen Vuillemin, Aurèle Laczny, Cédric C Kunath, Benoit J Soares, André R Di Primo, Rolando Kallmeyer, Jens PROSPECTOMICS, Consortium |
| author_facet | Schnabel, Ellen Vuillemin, Aurèle Laczny, Cédric C Kunath, Benoit J Soares, André R Di Primo, Rolando Kallmeyer, Jens PROSPECTOMICS, Consortium |
| collection | Datos científicos de ciencias marinas y ambientales |
| contents | During an expedition to the southern Barents Sea in 2021, 50 gravity cores were collected at about 350 m water depth at three sampling areas with known underlying hydrocarbon reservoirs (i.e. Zone 1, Zone 10, Zone 12) and two reference areas (i.e. Ref 5, Ref 6). The cores were subsampled on board and further analyzed for: pore water geochemistry (IC, ICP-MS, titration and spectrophotometry); dissolved gas concentrations (GC) and total cell counts (fluorescence optical microscopy). |
| format | Dataset Open Access |
| id | pangaea_https___doi_org_10_1594_PANGAEA_974341 |
| institution | PANGAEA |
| language | en |
| publishDate | 2025 |
| publisher | PANGAEA |
| record_format | pangaea |
| spellingShingle | Pore water solutes, total cell counts, dissolved gases and sulfate reduction rates of the 50 gravity cores of the PROSPECTOMICS project Schnabel, Ellen Vuillemin, Aurèle Laczny, Cédric C Kunath, Benoit J Soares, André R Di Primo, Rolando Kallmeyer, Jens PROSPECTOMICS, Consortium Alkalinity, total; Arsenic; Barents Sea; Barium; Calcium; Carbon dioxide; Cell counts, microbial; Copper; DEPTH, sediment/rock; ELEVATION; Event label; Fluorescence optical microscopy; Gas chromatography; GC; Gravity corer; H.U. Sverdrup II; hydrocarbon seepage; Hydrogen sulfide; Iron; Latitude of event; Location; Location type; Longitude of event; Magnesium; Manganese; Methane; Nickel; pore water chemistry; Potassium; PROSPECTOMICS; Sample ID; Silicon; Strontium; Sulfate; Sulfate reduction rate; sulfate reduction rates; SV21; SV21_Ref5C01; SV21_Ref5C02; SV21_Ref5C03; SV21_Ref5C04; SV21_Ref5C05; SV21_Ref6C06; SV21_Ref6C07; SV21_Ref6C08; SV21_Ref6C09; SV21_Ref6C10; SV21_Z01C01; SV21_Z01C02; SV21_Z01C03; SV21_Z01C04; SV21_Z01C05; SV21_Z01C06; SV21_Z01C07; SV21_Z01C08; SV21_Z01C09; SV21_Z01C10; SV21_Z01C11; SV21_Z01C12; SV21_Z01C14; SV21_Z01C15; SV21_Z01C16; SV21_Z10C01; SV21_Z10C07; SV21_Z10C08; SV21_Z10C09; SV21_Z10C10; SV21_Z10C11; SV21_Z10C14; SV21_Z10C17; SV21_Z12C01; SV21_Z12C02; SV21_Z12C03; SV21_Z12C04; SV21_Z12C05; SV21_Z12C06; SV21_Z12C07; SV21_Z12C08; SV21_Z12C09; SV21_Z12C10; SV21_Z12C11; SV21_Z12C12; SV21_Z12C13; SV21_Z12C14; SV21_Z12C15; SV21_Z12C16; SV21_Z12C17; XRF data; Zinc During an expedition to the southern Barents Sea in 2021, 50 gravity cores were collected at about 350 m water depth at three sampling areas with known underlying hydrocarbon reservoirs (i.e. Zone 1, Zone 10, Zone 12) and two reference areas (i.e. Ref 5, Ref 6). The cores were subsampled on board and further analyzed for: pore water geochemistry (IC, ICP-MS, titration and spectrophotometry); dissolved gas concentrations (GC) and total cell counts (fluorescence optical microscopy). |
| title | Pore water solutes, total cell counts, dissolved gases and sulfate reduction rates of the 50 gravity cores of the PROSPECTOMICS project |
| topic | Alkalinity, total; Arsenic; Barents Sea; Barium; Calcium; Carbon dioxide; Cell counts, microbial; Copper; DEPTH, sediment/rock; ELEVATION; Event label; Fluorescence optical microscopy; Gas chromatography; GC; Gravity corer; H.U. Sverdrup II; hydrocarbon seepage; Hydrogen sulfide; Iron; Latitude of event; Location; Location type; Longitude of event; Magnesium; Manganese; Methane; Nickel; pore water chemistry; Potassium; PROSPECTOMICS; Sample ID; Silicon; Strontium; Sulfate; Sulfate reduction rate; sulfate reduction rates; SV21; SV21_Ref5C01; SV21_Ref5C02; SV21_Ref5C03; SV21_Ref5C04; SV21_Ref5C05; SV21_Ref6C06; SV21_Ref6C07; SV21_Ref6C08; SV21_Ref6C09; SV21_Ref6C10; SV21_Z01C01; SV21_Z01C02; SV21_Z01C03; SV21_Z01C04; SV21_Z01C05; SV21_Z01C06; SV21_Z01C07; SV21_Z01C08; SV21_Z01C09; SV21_Z01C10; SV21_Z01C11; SV21_Z01C12; SV21_Z01C14; SV21_Z01C15; SV21_Z01C16; SV21_Z10C01; SV21_Z10C07; SV21_Z10C08; SV21_Z10C09; SV21_Z10C10; SV21_Z10C11; SV21_Z10C14; SV21_Z10C17; SV21_Z12C01; SV21_Z12C02; SV21_Z12C03; SV21_Z12C04; SV21_Z12C05; SV21_Z12C06; SV21_Z12C07; SV21_Z12C08; SV21_Z12C09; SV21_Z12C10; SV21_Z12C11; SV21_Z12C12; SV21_Z12C13; SV21_Z12C14; SV21_Z12C15; SV21_Z12C16; SV21_Z12C17; XRF data; Zinc |
| url | https://doi.org/10.1594/PANGAEA.974341 |