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  • 1
    facet.materialart.
    Unknown
    Chemistry of pore water from Arctic sediments (1996)
    PANGAEA
    In:  Supplement to: Hulth, Stefan; Hall, Per; Blackburn, T H; Landén, A (1996): Arctic sediments (Svalbard): pore water and solid phase distributions of C, N, P and Si. Polar Biology, 16(6), 447-462, https://doi.org/10.1007/BF02390426
    Details
    Publication Date: 2024-07-01
    Description: Pore water and solid phase distributions of C, N, P and Si in sediments of the Arctic Ocean (Svalbard area) have been investigated. Concentrations of organic carbon (Corg) in the solid phase of the sediment varied from 1.3 to 2.8% (mean 1.9%), with highest concentrations found at shallow stations south/southwest of Svalbard. Relatively low concentrations were obtained at the deeper stations north/northeast of Svalbard. Atomic carbon to nitrogen ratios in the surface sediment ranged from below 8 to above 10. For some stations, high C/N ratios together with high concentrations of Corg suggest that sedimentary organic matter is mainly of terrigenous origin and not from overall biological activity in the water column. Organic matter reactivity (defined as the total sediment oxygen consumption rate normalized to the organic carbon content of the surface sediment) correlated with water depth at all investigated stations. However, the stations could be divided into two separate groups with different reactivity characteristics, representing the two most dominant hydrographic regimes: the region west of Svalbard mainly influenced by the West Spitsbergen Current, and the area east of Svalbard where Arctic polar water set the environmental conditions. Decreasing sediment reactivity with water depth was confirmed by the partitioning between organic and inorganic carbon of the surface sediment. The ratio between organic and inorganic carbon at the sediment-water interface decreased exponentially with water depth: from indefinite values at shallow stations in the central Barents Sea, to approximately 1 at deep stations north of Svalbard. At stations east of Svalbard there was an inverse linear correlation between the organic matter reactivity (as defined above) and concentration of dissolved organic carbon (DOC) in the pore water. The more reactive the sediment, the less DOC existed in the pore water and the more total carbonate (Ct or Sum CO2) was present. This observation suggests that DOC produced in reactive sediments is easily metabolizable to CO2. Sediment accumulation rates of opaline silica ranged from 0.35 to 5.7 µmol SiO2 m**-2 d**-1 (mean 1.3 µmol SiO2 m**-2d**-1), i.e. almost 300 times lower than rates previously reported for the Ross Sea, Antarctica. Concentrations of ammonium and nitrate in the pore water at the sediment-water interface were related to organic matter input and water depth. In shallow regions with highly reactive organic matter, a pool of ammonium was present in the pore water, while nitrate conoentrations were low. In areas where less reactive organic matter was deposited at the sediment surface, the deeper zone of nitrification caused a build-up of nitrate in the pore water while ammonium was almost depleted. Nitrate penetrated from 1.8 to 〉= 5.8 cm into the investigated sediments. Significantly higher concentrations of 'total' dissolved nitrogen (defined as the sum of NO3, NO2, NH4 and urea) in sediment pore water were found west compared to east of Svalbard. The differences in organic matter reactivity, as well as in pore water distribution patterns of 'total' dissolved nitrogen between the two areas, probably reflect hydrographic factors (such as ice coverage and production/import of particulate organic material) related to the dominant water mass (Atlantic or Arctic Polar) in each of the two areas.
    Keywords: ARK-VIII/2; AWI; AWI_Paleo; Barents Sea; Giant box corer; GKG; MUC; MULT; MultiCorer; Multiple investigations; ORFOIS; Origin and Fate of Biogenic Particle Fluxes in the Ocean; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS19/040; PS19/045; PS19/050; PS19/055; PS19/078; PS19/082; PS19/084; PS19/086; PS19/098; PS19/100; PS19/101; PS19/105; PS19/108; PS19/112; PS19/119; PS19/134; PS19/143; PS19/146; PS19 EPOS II; PS2111-2; PS2113-2; PS2114-2; PS2115-1; PS2117-1; PS2121-3; PS2122-1; PS2123-4; PS2128-1; PS2129-3; PS2130-2; PS2133-1; PS2134-1; PS2138-5; PS2144-3; PS2150-1; PS2153-1; PS2154-1; Silicon Cycling in the World Ocean; SINOPS; Svalbard; Yermak Plateau
    Type: Dataset
    Format: application/zip, 2 datasets
    Location Call Number Expected Availability
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  • 2
    facet.materialart.
    Unknown
    Clay mineralogy of South Atlantic surface sediments (1996)
    PANGAEA
    In:  Supplement to: Petschick, Rainer; Kuhn, Gerhard; Gingele, Franz (1996): Clay mineral distribution in surface sediments of the South Atlantic: sources, transport, and relation to oceanography. Marine Geology, 130(3-4), 203-229, https://doi.org/10.1016/0025-3227(95)00148-4
    Details
    Publication Date: 2024-07-01
    Description: Surface samples, mostly from abyssal sediments of the South Atlantic, from parts of the equatorial Atlantic, and of the Antarctic Ocean, were investigated for clay content and clay mineral composition. Maps of relative clay mineral content were compiled, which improve previous maps by showing more details, especially at high latitudes. Large-scale relations regarding the origin and transport paths of detrital clay are revealed. High smectite concentrations are observed in abyssal regions, primarily derived from southernmost South America and from minor sources in Southwest Africa. Near submarine volcanoes of the Antarctic Ocean (South Sandwich, Bouvet Island) smectite contents exhibit distinct maxima, which is ascribed to the weathering of altered basalts and volcanic glasses. The illite distribution can be subdivided into five major zones including two maxima revealing both South African and Antarctic sources. A particularly high amount of Mg- and Fe-rich illites are observed close to East Antarctica. They are derived from biotite-bearing crystalline rocks and transported to the west by the East Antarctic Coastal Current. Chiorite and well-crystallized dioctaedral illite are typical minerals enriched within the Subantarctic and Polarfrontal-Zone but of minor importance off East Antarctica. Kaolinite dominates the clay mineral assemblage at low latitudes, where the continental source rocks (West Africa, Brazil) are mainly affected by intensive chemical weathering. Surprisingly, a slight increase of kaolinite is observed in the Enderby Basin and near the Filchner-Ronne Ice shelf. The investigated area can be subdivided into ten, large-scale clay facies zones with characteristic possible source regions and transport paths. Clay mineral assemblages of the largest part of the South Atlantic, especially of the western basins are dominated by chlorite and illite derived from the Antarctic Peninsula and southernmost South America and supported by advection within the Circumantarctic Deep Water flow. In contrast, the East Antarctic provinces are relatively small. Assemblages of the eastern basins north of 30°S are strongly influenced by African sources, controlled by weathering regimes on land and by a complex interaction of wind, river and deep ocean transport. The strong gradient in clay mineral composition at the Brazilian slope indicate a relatively low contribution of tropically derived assemblages to the western basins.
    Keywords: 06MT15_2; Adelaide Island; Agulhas Basin; Agulhas Ridge; Amazon Fan; Angola Basin; Antarctic Peninsula; ANTARTIDA8611; ANT-I/2; ANT-II/3; ANT-II/4; ANT-III/3; ANT-IV/2; ANT-IV/3; ANT-IV/4; ANT-IX/2; ANT-IX/3; ANT-IX/4; ANT-V/4; ANT-VI/2; ANT-VI/3; ANT-VIII/3; ANT-VIII/5; ANT-VIII/6; ANT-X/2; ANT-X/4; ANT-X/5; ANT-X/6; ANT-XI/2; ANT-XI/4; ANT-XII/4; Anvers Island; Argentine Basin; Argentine Islands; Astrid Ridge; Atka Bay; Atlantic Indik Ridge; Atlantic Ridge; AWI_Paleo; Barents Sea; BC; Box corer; Bransfield Strait; Brazil Basin; Camp Norway; Cape Basin; Cape Blanc; Cape Fiske; Congo Fan; Conrad Rise; Cosmonauts Sea; CTD/Rosette; CTD-RO; D-DCP-1; D-EL-1; DGS-13; DGS-14; DGS-15; DGS-16; DGS-18; Discovery Seamount; D-ORC-013; D-ORC-015; D-ORC-017; D-ORC-023; D-ORC-024; D-ORC-025; D-PA-1; Drake Passage; Dredge; DRG; D-ST-1B; D-ST-2; D-ST-3; D-ST-4; East Brazil Basin; Eastern Rio Grande Rise; Eastern Weddell Sea, Southern Ocean; EL-443; EL-444; EL-445; EL-446; EL-447; EL-448; EL-449; Equatorial Atlantic; Falkland Islands; Filchner Shelf; Filchner Trough; Fram Strait; GeoB1000-1; GeoB1000-2; GeoB1001-1; GeoB1001-2; GeoB1004-2; GeoB1004-3; GeoB1005-2; GeoB1005-3; GeoB1006-2; GeoB1006-3; GeoB1007-2; GeoB1007-3; GeoB1008-6; GeoB1010-3; GeoB1011-2; GeoB1012-1; GeoB1012-2; GeoB1013-2; GeoB1013-3; GeoB1014-2; GeoB1015-2; GeoB1016-2; GeoB1019-2; GeoB1019-3; GeoB1020-1; GeoB1021-3; GeoB1022-2; GeoB1022-3; GeoB1023-2; GeoB1024-3; GeoB1025-2; GeoB1026-3; GeoB1027-2; GeoB1028-4; GeoB1029-1; GeoB1031-1; GeoB1032-2; GeoB1033-3; GeoB1034-1; GeoB1035-3; GeoB1036-3; GeoB1037-1; GeoB1037-2; GeoB1039-1; GeoB1040-3; GeoB1041-1; GeoB1043-2; GeoB1044-3; GeoB1046-2; GeoB1048-2; GeoB1101-4; GeoB1102-3; GeoB1103-3; GeoB1104-5; GeoB1105-3; GeoB1106-5; GeoB1108-6; GeoB1109-4; GeoB1110-3; GeoB1111-5; GeoB1112-3; GeoB1113-7; GeoB1114-3; GeoB1115-4; GeoB1116-1; GeoB1117-3; GeoB1118-2; GeoB1119-2; GeoB1120-3; GeoB1121-1; GeoB1122-2; GeoB1203-2; GeoB1204-3; GeoB1205-2; GeoB1206-1; GeoB1207-2; GeoB1208-1; GeoB1209-1; GeoB1210-3; GeoB1211-1; GeoB1212-2; GeoB1213-2; GeoB1215-1; GeoB1216-2; GeoB1217-1; GeoB1218-1; GeoB1220-2; GeoB1306-1; GeoB1307-2; GeoB1308-1; GeoB1309-3; GeoB1310-1; GeoB1313-1; GeoB1314-1; GeoB1401-1; GeoB1403-2; GeoB1405-7; GeoB1407-7; GeoB1413-2; GeoB1414-2; GeoB1415-1; GeoB1417-2; GeoB1418-1; GeoB1419-1; GeoB1420-1; GeoB1421-1; GeoB1501-3; GeoB1503-2; GeoB1504-1; GeoB1505-3; GeoB1506-1; GeoB1508-1; GeoB1509-2; GeoB1510-1; GeoB1511-6; GeoB1512-2; GeoB1513-2; GeoB1514-4; GeoB1515-2; GeoB1516-1; GeoB1517-1; GeoB1518-1; GeoB1519-2; GeoB1520-1; GeoB1521-2; GeoB1522-1; GeoB1523-2; GeoB1601-6; GeoB1613-1; GeoB1701-1; GeoB1702-6; GeoB1703-5; GeoB1704-1; GeoB1705-2; GeoB1706-1; GeoB1707-2; GeoB1709-3; GeoB1710-2; GeoB1711-5; GeoB1712-2; GeoB1713-6; GeoB1714-1; GeoB1715-1; GeoB1716-2; GeoB1717-2; GeoB1718-1; GeoB1719-5; GeoB1720-4; GeoB1721-4; GeoB1722-3; GeoB1724-3; GeoB1725-1; GeoB1726-1; GeoB1726-2; GeoB1728-3; GeoB1729-1; GeoB1901-1; GeoB1902-3; GeoB1903-1; GeoB1904-1; GeoB1905-1; GeoB1906-1; GeoB1907-1; GeoB1908-1; GeoB2002-2; GeoB2004-1; GeoB2007-1; GeoB2008-1; GeoB2009-1; GeoB2010-1; GeoB2011-1; GeoB2016-3; GeoB2018-1; GeoB2019-2; GeoB2021-4; GeoB2022-3; GeoB2101-1; GeoB2102-1; GeoB2104-1; GeoB2105-3; GeoB2106-1; GeoB2107-5; GeoB2108-1; GeoB2109-3; GeoB2110-1; GeoB2111-2; GeoB2112-1; GeoB2113-1; GeoB2116-2; GeoB2117-4; GeoB2118-1; GeoB2119-2; GeoB2120-1; GeoB2121-1; GeoB2122-1; GeoB2123-1; GeoB2124-1; GeoB2125-2; GeoB2126-1; GeoB2127-1; GeoB2128-1; GeoB2130-1; GeoB2201-1; GeoB2202-5; GeoB2204-1; GeoB2205-4; GeoB2206-1; GeoB2207-2; GeoB2208-1; GeoB2212-1; GeoB2213-1; GeoB2214-2; GeoB2215-8; GeoB2216-2; GeoB2701-2; GeoB2703-6; GeoB2704-1; GeoB2705-7; GeoB2706-6; GeoB2708-5; GeoB2712-1; GeoB2714-5; GeoB2715-1; GeoB2717-8; GeoB2718-1; GeoB2719-1; GeoB2721-2; GeoB2722-1; GeoB2722-2; GeoB2723-1; GeoB2724-6; GeoB2725-1; GeoB2726-3; GeoB2727-1; GeoB2729-1; GeoB2730-1; GeoB2731-1; GeoB2801-1; GeoB2802-1; GeoB2803-1; GeoB2804-2; GeoB2805-1; GeoB2806-6; GeoB2808-3; GeoB2809-2; GeoB2810-2; GeoB2811-1; GeoB2813-1; GeoB2814-3; GeoB2817-3; GeoB2822-3; GeoB2824-1; GeoB2825-3; GeoB2826-1; GeoB2828-1; GeoB2829-3; GeoB2903-1; GeoB2904-11; GeoB2905-1; GeoB2906-3; GeoB2907-1; GeoB2908-8; GeoB2909-1; GeoB2911-2; GeoB2912-1; Giant box corer; GIK17836-1; GIK17843-1; GIK17851-1; GIK17862-1; GIK17866-1; GIK17884-1; GIK17912-1; GKG; Gould Bay; Gravity corer (Kiel type); Greenland Slope; GS-051; GS-053; GS-060; GS-061; GS-073; GS-074; GS-076; GS-083; GS-103; GS-105; GS-136; GS-139; GS-140; GS-142; GS-152; Guinea Basin; Halley Bay; Hope Bay; Hunter Channel; Indian-Antarctic Ridge; Islas Orcadas; Kapp Norvegia; King George Island, Antarctic Peninsula; KL; Kongo delta; Lazarev Sea; Lyddan Island; M12/1; M15/2; M16/1; M16/2; M20/1; M20/2; M23/1; M23/2; M23/3; M29/1; M29/2; M29/3; M6/6; M9/4; Maud Rise; Meteor (1986); Meteor Rise; MG; MIC; Mid Atlantic Ridge; MiniCorer; Mooring (long time); MOORY; MSN; MUC; Multiboxcorer; MultiCorer; Multiple opening/closing net; Namibia Continental Margin; Namibia continental slope; Northern Brasil-Basin; Northern Guinea Basin; Nuevo Alcocero; off Cape Blanc; off Gran Canaria; off Kunene; ORC-301; ORC-312; ORC-313; ORC-329; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Piston corer (BGR type); PLA; Plankton net; Polarstern; Polarstern Kuppe; PS01; PS01/154; PS01/155; PS01/156; PS01/161; PS01/162; PS01/168; PS01/177; PS01/184; PS01/186; PS01/189; PS04; PS04/225; PS04/254; PS04/257; PS04/260; PS04/262; PS04/266; PS04/271; PS04/273; PS04/318; PS04/334; PS04/335; PS04/340; PS04/346; PS04/351; PS04/357; PS04/367; PS04/370; PS04/380; PS04/382; PS04/389; PS04/414; PS04/423; PS04/429; PS04/433; PS04/440; PS04/447; PS04/449; PS04/472; PS04/477; PS04/481; PS04/484; PS04/495; PS04/500; PS04/508; PS04/509; PS04/540; PS06/288; PS06/289; PS06/301; PS06/302; PS06/303; PS06/304; PS06/306; PS06/311; PS06/313; PS06 SIBEX; PS08; PS08/284; PS08/289; PS08/321; PS08/324; PS08/327; PS08/333; PS08/335; PS08/336; PS08/338; PS08/340; PS08/344; PS08/345; PS08/346; PS08/347; PS08/350; PS08/353; PS08/354; PS08/355; PS08/356; PS08/357; PS08/358; PS08/359; PS08/360; PS08/361; PS08/364; PS08/365; PS08/366; PS08/367; PS08/368; PS08/369; PS08/374; PS08/375; PS08/379; PS08/380; PS08/381; PS08/382; PS08/384; PS08/385; PS08/386; PS08/387; PS08/394; PS08/396; PS08/401; PS08/402; PS08/410; PS08/428; PS08/430; PS08/432; PS08/438; PS08/439; PS08/440; PS08/442; PS08/445; PS08/449; PS08/450; PS08/452; PS08/480; PS08/481; PS08/482; PS08/483; PS08/504; PS08/507; PS08/509; PS08/529; PS08/533; PS08/564; PS08/585; PS08/601; PS08/607; PS08/610; PS08/621; PS08/627; PS10; PS10/668; PS10/672; PS10/673; PS10/675; PS10/678; PS10/682; PS10/684; PS10/686; PS10/688; PS10/690; PS10/694; PS10/697; PS10/699; PS10/701; PS10/703; PS10/707; PS10/711; PS10/719; PS10/725; PS10/738; PS10/740; PS10/748; PS10/757; PS10/760; PS10/762; PS10/766; PS10/768; PS10/778; PS10/782; PS10/784; PS10/794; PS10/804; PS10/809; PS10/813; PS10/816; PS10/818; PS10/820; PS10/824; PS1010-1; PS1011-1; PS1012-1; PS1013-1; PS1014-1; PS1015-1; PS1016-1; PS1017-1; PS1018-1; PS1019-1; PS1138-8; PS1167-5; PS1170-4; PS1173-6; PS1175-1; PS1179-1; PS1184-6; PS1186-3; PS1194-1; PS1196-1; PS1197-1; PS1198-1; PS1199-1; PS12; PS12/116; PS12/117; PS12/119; PS12/122; PS12/127; PS12/128; PS12/129; PS12/130; PS12/132; PS12/133; PS12/185; PS12/186; PS12/193; PS12/194; PS12/195; PS12/196; PS12/199; PS12/200; PS12/238; PS12/242; PS12/244; PS12/247; PS12/248; PS12/250; PS12/252; PS12/260; PS12/266; PS12/271; PS12/273+276; PS12/280; PS12/284; PS12/287; PS12/289; PS12/291; PS12/298; PS12/300; PS12/302; PS12/305; PS12/308; PS12/310; PS12/312; PS12/314; PS12/316; PS12/319; PS12/321; PS12/323; PS12/325; PS12/327; PS12/333; PS12/336; PS12/338; PS12/340; PS12/342; PS12/344; PS12/346; PS12/348; PS12/350; PS12/352; PS12/354; PS12/356; PS12/358; PS12/360; PS12/364; PS12/366; PS12/368; PS12/372; PS12/374; PS12/376; PS12/378; PS12/380; PS12/382; PS12/384; PS12/387;
    Type: Dataset
    Format: application/zip, 2 datasets
    Location Call Number Expected Availability
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  • 3
    facet.materialart.
    Unknown
    Stable carbon isotope in bottom water and Cibicidoides wuellerstorfi on the Ontong Java Plateau and Emperor Seamount (1994)
    PANGAEA
    In:  Supplement to: McCorkle, Daniel C; Keigwin, Lloyd D (1994): Depth profiles of d13C in bottom water and core top C. wuellerstorfi on the Ontong Java Plateau and Emperor Seamounts. Paleoceanography, 9(2), 197-208, https://doi.org/10.1029/93PA03271
    Details
    Publication Date: 2024-07-01
    Description: We have measured the carbon isotopic composition of dissolved inorganic carbon in bottom waters of the Ontong Java Plateau (western equatorial Pacific) and on the northern Emperor Seamounts (northwest Pacific). Each of these locations is several hundred miles from the nearest Geochemical Ocean Sections Study (GEOSECS) stations, and the observed delta13C values at each site differ substantially from regionally averaged GEOSECS delta13C profiles. We discuss the possible causes of these differences, including horizontal variability, near-bottom effects, and problems with the Pacific GEOSECS delta13C data. We also measured the isotopic composition (C and O) of core top C. wuellerstorfi from a depth transect of cores at each location. The delta18O data are used to verify that our samples are Holocene. Comparison of foraminiferal and bottom water delta13C values shows that this species faithfully records bottom water delta13C at both sites and demonstrates that there is no depth-related artifact in the dissolved inorganic carbon-C. wuellerstorfi delta13C relationship at these sites.
    Keywords: 6-TOW; 6-TOW-001GGC; 6-TOW-002GGC; 6-TOW-003GGC; 6-TOW-005GGC; 6-TOW-006GGC; 6-TOW-007GGC; 6-TOW-008GGC; 6-TOW-011GGC; 6-TOW-011PC; 6-TOW-012GGC; 6-TOW-013GGC; 6-TOW-014GGC; 6-TOW-015GGC; 6-TOW-016GGC; Akademik A. Vinogradov; AVI19-4; BC; Box corer; GGC; Giant gravity corer; Moana Wave; MW9109; MW9109-13BC; MW9109-16BC; MW9109-22BC; MW9109-33BC; MW9109-37BC; MW9109-3BC; MW9109-47BC; MW9109-53BC; MW9109-54BC; MW9109-58BC; MW9109-59BC; MW9109-63BC; MW9109-66BC; MW9109-70BC; MW9109-74BC; MW9109-7BC; Pacific; PC; Piston corer; RAMA; RAMA03WT; RAMA-44P; RNDB-11GGC; RNDB-11PC; RNDB-12GGC; RNDB-13GGC; RNDB-14GGC; RNDB-15GGC; RNDB-16GGC; RNDB-1GGC; RNDB-2GGC; RNDB-3GGC; RNDB-5GGC; RNDB-6GGC; RNDB-7GGC; RNDB-8GGC; Thomas Washington; Vi-26BC; Vi-35GC; Vi-37GC; VINO-26BC; VINO-35GGC; VINO-37GGC
    Type: Dataset
    Format: application/zip, 3 datasets
    Location Call Number Expected Availability
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  • 4
    facet.materialart.
    Unknown
    Sedimentology of surface samples from the Weddell Sea, Antarctica (1999)
    PANGAEA
    In:  Supplement to: Diekmann, Bernhard; Kuhn, Gerhard (1999): Provenance and dispersal of glacial-marine surface sediments in the Weddell Sea and adjoining areas, Antarctica: ice-rafting versus current transport. Marine Geology, 158(1-4), 209-231, https://doi.org/10.1016/S0025-3227(98)00165-0
    Details
    Publication Date: 2024-07-01
    Description: Mineralogical and granulometric properties of glacial-marine surface sediments of the Weddell Sea and adjoining areas were studied in order to decipher spatial variations of provenance and transport paths of terrigenous detritus from Antarctic sources. The silt fraction shows marked spatial differences in quartz contents. In the sand fractions heavy-mineral assemblages display low mineralogical maturity and are dominated by garnet, green hornblende, and various types of clinopyroxene. Cluster analysis yields distinct heavy-mineral assemblages, which can be attributed to specific source rocks of the Antarctic hinterland. The configuration of modern mineralogical provinces in the near-shore regions reflects the geological variety of the adjacent hinterland. In the distal parts of the study area, sand-sized heavy minerals are good tracers of ice-rafting. Granulometric characteristics and the distribution of heavy-mineral provinces reflect maxima of relative and absolute accumulation of ice-rafted detritus in accordance with major iceberg drift tracks in the course of the Weddell Gyre. Fine-grained and coarse-grained sediment fractions may have different origins. In the central Weddell Sea, coarse ice-rafted detritus basically derives from East Antarctic sources, while the fine-fraction is discharged from weak permanent bottom currents and/or episodic turbidity currents and shows affinities to southern Weddell Sea sources. Winnowing of quartz-rich sediments through intense bottom water formation in the southern Weddell Sea provides muddy suspensions enriched in quartz. The influence of quartz-rich suspensions moving within the Weddell Gyre contour current can be traced as far as the continental slope in the northwestern Weddell Sea. In general, the focusing of mud by currents significantly exceeds the relative and absolute contribution of ice-rafted detritus beyond the shelves of the study area.
    Keywords: Adelaide Island; Antarctic Peninsula; ANTARTIDA8611; ANT-I/2; ANT-II/3; ANT-II/4; ANT-III/3; ANT-IV/2; ANT-IV/3; ANT-IV/4; ANT-IX/2; ANT-IX/3; ANT-V/4; ANT-VI/2; ANT-VI/3; ANT-VIII/5; ANT-VIII/6; ANT-X/2; ANT-X/4; ANT-X/5; ANT-X/6; ANT-XI/2; ANT-XI/4; ANT-XIV/3; Anvers Island; Argentine Islands; Astrid Ridge; Atka Bay; AWI_Paleo; Barents Sea; BC; Box corer; Bransfield Strait; Camp Norway; Cape Fiske; Cosmonauts Sea; CTD/Rosette; CTD-RO; D-EL-1; D-ORC-011; D-ORC-013; D-ORC-015; D-ORC-017; D-ORC-023; D-ORC-024; D-ORC-025; D-ORC-142; D-PA-1; Drake Passage; Dredge; DRG; D-ST-2; D-ST-3; D-ST-4; Eastern Weddell Sea, Southern Ocean; EL-443; EL-444; EL-445; EL-446; EL-447; EL-448; EL-449; Filchner Shelf; Filchner Trough; Fram Strait; Giant box corer; GKG; Gould Bay; Gravity corer (Kiel type); Greenland Slope; GS-053; GS-076; GS-152; Halley Bay; Hope Bay; Islas Orcadas; Kapp Norvegia; King George Island, Antarctic Peninsula; KL; Lazarev Sea; Lyddan Island; Maud Rise; MG; MIC; MiniCorer; MUC; Multiboxcorer; MultiCorer; Nuevo Alcocero; ORC-301; ORC-312; ORC-313; ORC-329; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Piston corer (BGR type); Polarstern; Polarstern Kuppe; PS01; PS01/154; PS01/155; PS01/156; PS01/161; PS01/162; PS01/177; PS01/184; PS01/186; PS01/189; PS04; PS04/225; PS04/254; PS04/256; PS04/257; PS04/258; PS04/260; PS04/261; PS04/262; PS04/263; PS04/264; PS04/265; PS04/266; PS04/271; PS04/273; PS04/318; PS04/334; PS04/335; PS04/340; PS04/346; PS04/351; PS04/357; PS04/367; PS04/370; PS04/380; PS04/382; PS04/389; PS04/414; PS04/423; PS04/429; PS04/433; PS04/440; PS04/447; PS04/449; PS04/472; PS04/477; PS04/481; PS04/484; PS04/495; PS04/500; PS04/508; PS04/509; PS06/288; PS06/289; PS06/301; PS06/302; PS06/303; PS06/304; PS06/306; PS06/311; PS06/313; PS06 SIBEX; PS08; PS08/284; PS08/289; PS08/321; PS08/324; PS08/327; PS08/333; PS08/335; PS08/336; PS08/338; PS08/340; PS08/344; PS08/345; PS08/346; PS08/347; PS08/350; PS08/353; PS08/354; PS08/355; PS08/356; PS08/357; PS08/358; PS08/359; PS08/360; PS08/361; PS08/364; PS08/365; PS08/366; PS08/367; PS08/368; PS08/369; PS08/374; PS08/375; PS08/379; PS08/380; PS08/381; PS08/382; PS08/384; PS08/385; PS08/386; PS08/387; PS08/394; PS08/396; PS08/397; PS08/401; PS08/402; PS08/410; PS08/428; PS08/430; PS08/432; PS08/438; PS08/439; PS08/440; PS08/442; PS08/445; PS08/449; PS08/450; PS08/452; PS08/480; PS08/481; PS08/482; PS08/483; PS08/564; PS08/585; PS08/601; PS08/607; PS08/610; PS08/621; PS08/627; PS10; PS10/668; PS10/672; PS10/673; PS10/675; PS10/678; PS10/682; PS10/684; PS10/686; PS10/688; PS10/690; PS10/694; PS10/697; PS10/699; PS10/701; PS10/703; PS10/707; PS10/711; PS10/719; PS10/725; PS10/738; PS10/740; PS10/748; PS10/757; PS10/760; PS10/762; PS10/766; PS10/768; PS10/778; PS10/782; PS10/784; PS10/794; PS10/804; PS10/813; PS10/816; PS10/818; PS10/820; PS10/824; PS1010-1; PS1011-1; PS1012-1; PS1013-1; PS1014-1; PS1016-1; PS1017-1; PS1018-1; PS1019-1; PS1138-8; PS1167-5; PS1169-1; PS1170-4; PS1171-1; PS1173-6; PS1174-2; PS1175-1; PS1176-3; PS1177-1; PS1178-4; PS1179-1; PS1184-6; PS1186-3; PS1194-1; PS1196-1; PS1197-1; PS1198-1; PS1199-1; PS12; PS12/116; PS12/117; PS12/119; PS12/122; PS12/127; PS12/128; PS12/129; PS12/130; PS12/132; PS12/133; PS12/185; PS12/186; PS12/193; PS12/194; PS12/195; PS12/196; PS12/199; PS12/200; PS12/238; PS12/242; PS12/244; PS12/247; PS12/248; PS12/250; PS12/252; PS12/260; PS12/266; PS12/271; PS12/273+276; PS12/280; PS12/284; PS12/287; PS12/289; PS12/291; PS12/298; PS12/300; PS12/302; PS12/305; PS12/308; PS12/310; PS12/312; PS12/314; PS12/316; PS12/319; PS12/321; PS12/323; PS12/325; PS12/327; PS12/333; PS12/336; PS12/338; PS12/340; PS12/342; PS12/344; PS12/346; PS12/348; PS12/350; PS12/352; PS12/354; PS12/356; PS12/358; PS12/360; PS12/364; PS12/366; PS12/368; PS12/372; PS12/374; PS12/376; PS12/378; PS12/380; PS12/382; PS12/384; PS12/387; PS12/396; PS12/418; PS12/437; PS12/458; PS12/465; PS12/472; PS12/486; PS12/490; PS12/492; PS12/503; PS12/504; PS12/510; PS12/526; PS12/534; PS12/536; PS1200-4; PS1201-1; PS1202-1; PS1203-1; PS1204-1; PS1205-1; PS1206-1; PS1207-1; PS1207-2; PS1208-1; PS1209-1; PS1210-1; PS1211-1; PS1212-1; PS1213-1; PS1214-1; PS1215-1; PS1216-1; PS1217-1; PS1219-1; PS1220-3; PS1222-1; PS1223-1; PS1272-1; PS1273-1; PS1275-1; PS1276-1; PS1277-1; PS1278-1; PS1279-1; PS1281-1; PS1282-1; PS1333-2; PS1338-1; PS1363-3; PS1364-1; PS1366-2; PS1367-1; PS1368-1; PS1369-1; PS1370-1; PS1371-1; PS1372-2; PS1373-2; PS1374-2; PS1375-2; PS1376-2; PS1377-1; PS1378-1; PS1379-1; PS1380-1; PS1381-1; PS1382-1; PS1383-1; PS1384-1; PS1385-1; PS1386-1; PS1387-1; PS1388-1; PS1389-1; PS1390-1; PS1391-1; PS1394-1; PS1395-1; PS1396-1; PS1397-1; PS1398-2; PS1399-1; PS1400-4; PS1401-2; PS1402-2; PS1403-1; PS1405-1; PS1406-1; PS1407-1; PS1410-1; PS1411-1; PS1412-1; PS1414-1; PS1415-1; PS1416-1; PS1417-1; PS1418-1; PS1419-1; PS1420-1; PS1421-1; PS1422-1; PS1423-1; PS1424-1; PS1425-1; PS1426-1; PS1427-1; PS1428-1; PS1451-2; PS1452-1; PS1453-1; PS1454-1; PS1455-4; PS1459-4; PS1460-1; PS1471-1; PS1472-4; PS1473-1; PS1474-1; PS1475-1; PS1476-1; PS1477-1; PS1478-1; PS1479-1; PS1480-2; PS1481-2; PS1482-2; PS1483-2; PS1484-2; PS1485-1; PS1486-2; PS1487-1; PS1488-2; PS1489-3; PS1490-2; PS1491-3; PS1492-1; PS1493-2; PS1494-2; PS1495-1; PS1496-2; PS1497-1; PS1498-1; PS1499-2; PS1500-2; PS1501-1; PS1502-1; PS1505-1; PS1506-1; PS1507-2; PS1508-2; PS1509-2; PS1537-1; PS1538-1; PS1539-1; PS1540-1; PS1542-1; PS1543-1; PS1544-1; PS1545-1; PS1546-2; PS1547-1; PS1554-1; PS1555-1; PS1557-1; PS1558-1; PS1559-1; PS1560-1; PS1563-1; PS1564-1; PS1569-1; PS1572-1; PS1573-2; PS1574-1; PS1575-1; PS1575-2; PS1576-1; PS1577-2; PS1578-1; PS1579-1; PS1581-2; PS1582-1; PS1584-1; PS1585-1; PS1586-2; PS1587-1; PS1588-2; PS1589-1; PS1590-1; PS1591-2; PS1593-1; PS1594-1; PS1595-2; PS1596-1; PS1597-1; PS1598-2; PS1599-1; PS16; PS16/403; PS16/405; PS16/410; PS16/413; PS16/415; PS16/417; PS16/419; PS16/425; PS16/427; PS16/430; PS16/432; PS16/446; PS16/472; PS16/499; PS16/507; PS16/509; PS16/510; PS16/515; PS16/516; PS16/518; PS16/525; PS16/526; PS16/528; PS16/530; PS16/534; PS16/536; PS16/540; PS16/541; PS16/547; PS16/549; PS16/552; PS16/554; PS16/557; PS1600-2; PS1601-1; PS1602-1; PS1603-2; PS1604-1; PS1605-3; PS1606-1; PS1607-1; PS1608-1; PS1609-2; PS1610-3; PS1611-1; PS1612-1; PS1613-2; PS1614-1; PS1615-2; PS1616-1; PS1617-2; PS1618-2; PS1619-1; PS1620-2; PS1621-2; PS1622-1; PS1623-2; PS1624-1; PS1625-1; PS1626-1; PS1627-1; PS1628-2; PS1629-1; PS1631-1; PS1632-1; PS1635-2; PS1636-1; PS1637-1; PS1638-1; PS1639-1; PS1640-3; PS1641-1; PS1642-1; PS1643-3; PS1645-1; PS1647-2; PS1648-2; PS1787-1; PS1788-1; PS1790-2; PS1791-1; PS1792-2; PS1793-1; PS1794-2; PS1795-1; PS1796-2; PS1797-1; PS1798-2; PS18; PS18/044; PS18/048; PS18/055; PS18/056; PS18/058; PS18/059; PS18/063; PS18/065; PS18/067; PS18/075; PS18/080; PS18/081; PS18/082; PS18/083; PS18/084; PS18/086; PS18/088; PS18/092; PS18/094; PS18/096; PS18/100; PS18/101; PS18/102; PS18/106; PS18/108; PS18/114; PS18/126; PS18/127; PS18/129; PS18/135; PS18/141; PS18/142; PS18/143; PS18/144; PS18/145; PS18/146; PS18/147; PS18/148; PS18/149; PS18/150; PS18/151; PS18/152; PS18/153; PS18/154; PS18/161; PS18/165; PS18/166; PS18/167; PS18/169; PS18/170; PS18/171; PS18/172; PS18/173; PS18/175; PS18/177; PS18/178; PS18/179; PS18/180; PS18/181; PS18/182; PS18/183; PS18/184; PS18/185; PS18/186; PS18/187; PS18/189; PS18/190; PS18/191; PS18/192; PS18/193; PS18/194; PS18/196; PS18/198; PS18/199; PS18/200; PS18/201; PS18/202; PS18/203; PS18/204; PS18/208; PS18/210; PS18/211; PS18/212; PS18/214; PS18/216; PS18/217; PS18/218; PS18/219; PS18/221; PS18/222; PS18/227; PS1800-2; PS1802-2; PS1803-2; PS1805-5; PS1806-5; PS18 06AQANTIX_2; PS1807-1; PS1811-7; PS1812-5; PS1813-5; PS1817-5; PS1818-1; PS1819-5; PS1820-5; PS1821-5; PS1822-1; PS1823-1; PS1824-2; PS1825-5; PS1826-2; PS1828-2; PS1829-1; PS1831-5; PS1953-1; PS1954-1; PS1957-1; PS1958-1; PS1960-1; PS1961-1; PS1963-1; PS1964-1; PS1965-1; PS1967-
    Type: Dataset
    Format: application/zip, 3 datasets
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  • 5
    facet.materialart.
    Unknown
    Organic-geochemical bulk parameters and specific biomarkers of three sediment core from the Laptev Sea (1999)
    PANGAEA
    In:  Supplement to: Fahl, Kirsten; Stein, Ruediger (1999): Biomarkers as organic-carbon-source and environmental indicators in the Late Quaternary Arctic Ocean: Problems and Perspectives. Marine Chemistry, 63(3-4), 293-309, https://doi.org/10.1016/S0304-4203(98)00068-1
    Details
    Publication Date: 2024-07-01
    Description: In order to examine the variation in marine and terrigenous sources of the organic matter during the last 15,000 Cal. yr BP, hydrogen index values, C/N ratios, and specific biomolecules (short- and long-chain n-alkanes, short-chain fatty acids, sterols, alkenones, and pigments) were determined in three sediment cores from the Laptev Sea continental margin. The results show that the interpretation of the biomarker data is much more complicated and less definitive in comparison to similar data sets from low-latitude open-ocean environments. This is mainly caused by the complexity of the Arctic Ocean system, which is characterized by a high seasonality of sea-ice cover and primary productivity, sea-ice sediment transport and a high fluvial supply of freshwater (aquatic) organic matter. A combination of organic geochemical, organic petrographic and micropaleontological data may yield to a more precise identification of organic-carbon sources for these complex systems. On the Laptev Sea shelf (cores KD9502-14 and PS2725-5), terrigenous organic-carbon input controlled by river discharge seems to be predominant during the last about 10,000 Cal. yr BP. Maximum supply of terrigenous organic carbon was reached in the Early Holocene (i.e., about 9000-10,000 Cal. yr BP). Further offshore at the upper continental slope (core PS2458-4), a major change in organic-composition occurred near 10,000 Cal. yr BP. During this period hydrogen indices as well as the amounts of short-chain n-alkanes, short-chain fatty acids, dinosterol and brassicasterol significantly increased, indicating increased relative proportions of marine organic matter preserved in the later time interval.
    Keywords: Arctic Ocean; ARK-IX/4; ARK-XI/1; AWI_Paleo; Gravity corer (Kiel type); KAL; Kapitan Dranitsyn; Kasten corer; KD9502-14; Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2458-4; PS27; PS27/038; PS2725-5; PS36; PS36/009; Quaternary Environment of the Eurasian North; QUEEN; SL; Transdrift-III; VC; Vibro corer
    Type: Dataset
    Format: application/zip, 5 datasets
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    DATA PANGAEA
  • 6
    facet.materialart.
    Unknown
    Living benthic foraminifers from the central Arctic Ocean (1998)
    PANGAEA
    In:  Supplement to: Wollenburg, Jutta Erika; Mackensen, Andreas (1998): Living benthic foraminifers from the central Arctic Ocean: faunal composition, standing stock and diversity. Marine Micropaleontology, 34(3-4), 153-185, https://doi.org/10.1016/S0377-8398(98)00007-3
    Details
    Publication Date: 2024-07-01
    Description: Fifty short sediment cores collected with a multiple corer and five box cores from the central Arctic Ocean were analysed to study the ecology and distribution of benthic foraminifers. To work out living faunal associations, standing stock and diversity, separate analyses of living (Rose Bengal stained) and dead foraminifers were carried out for the sediment surface. The size fractions between 63 and 125 µm and 〉125 µm were counted separately to allow comparison with former Arctic studies and with studies from the adjacent Norwegian-Greenland Sea, Barents Sea and the North Atlantic Ocean. Benthic foraminiferal associations are mainly controlled by the availability of food, and competition for food, while water mass characteristics, bottom current activity, substrate composition, and water depth are of minor importance. Off Spitsbergen in seasonally ice-free areas, high primary production rates are reflected by high standing stocks, high diversities, and foraminiferal associations (〉125 µm) that are similar to those of the Norwegian-Greenland Sea. Generally, in seasonally ice-free areas standing stock and diversity increase with increasing food supply. In the central Arctic Ocean, the oligotrophic permanently ice-covered areas are dominated by epibenthic species. The limited food availability is reflected by very low standing stocks and low diversities. Most of these foraminiferal associations do not correspond to those of the Norwegian-Greenland Sea. The dominant associations include simple agglutinated species such as Sorosphaerae, Placopsilinellae, Komokiacea and Aschemonellae, as well as small calcareous species such as Stetsonia horvathi and Epistominella arctica. Those of the foraminiferal species that usually thrive under seasonally ice-free conditions in middle bathyal to lower bathyal water depth are found under permanently ice-covered conditions in water depths about 1000 m shallower, if present at all.
    Keywords: Amundsen Basin; ARK-IX/4; ARK-VIII/2; ARK-VIII/3; AWI_Paleo; Barents Sea; Gakkel Ridge, Arctic Ocean; Giant box corer; GKG; Lomonosov Ridge, Arctic Ocean; Makarov Basin; MIC; MiniCorer; Morris Jesup Rise; MUC; MultiCorer; Nansen Basin; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS19/091; PS19/094; PS19/100; PS19/111; PS19/113; PS19/114; PS19/117; PS19/150; PS19/152; PS19/153; PS19/154; PS19/157; PS19/158; PS19/159; PS19/160; PS19/161; PS19/164; PS19/165; PS19/166; PS19/167; PS19/172; PS19/173; PS19/175; PS19/176; PS19/178; PS19/181; PS19/182; PS19/183; PS19/184; PS19/185; PS19/186; PS19/189; PS19/190; PS19/194; PS19/196; PS19/198; PS19/200; PS19/214; PS19/216; PS19/218; PS19/222; PS19/224; PS19/226; PS19/228; PS19/234; PS19/241; PS19/245; PS19/246; PS19/249; PS19/252; PS19 ARCTIC91; PS19 EPOS II; PS2125-1; PS2125-2; PS2127-1; PS2129-2; PS2137-1; PS2139-1; PS2140-1; PS2143-1; PS2157-3; PS2159-3; PS2160-3; PS2161-1; PS2163-1; PS2164-1; PS2165-5; PS2166-1; PS2167-3; PS2168-3; PS2170-4; PS2171-2; PS2172-3; PS2175-4; PS2176-2; PS2177-3; PS2178-4; PS2179-3; PS2180-1; PS2181-4; PS2182-4; PS2183-3; PS2184-3; PS2185-4; PS2186-3; PS2187-5; PS2190-5; PS2191-1; PS2192-2; PS2193-3; PS2198-4; PS2199-4; PS2200-4; PS2202-4; PS2204-3; PS2205-1; PS2206-4; PS2208-1; PS2210-3; PS2212-6; PS2213-4; PS2214-1; PS2214-4; PS2215-1; PS2445-2; PS2446-2; PS2447-3; PS2448-3; PS27; PS27/019; PS27/020; PS27/024; PS27/025; Quaternary Environment of the Eurasian North; QUEEN; Svalbard; Yermak Plateau
    Type: Dataset
    Format: application/zip, 5 datasets
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  • 7
    facet.materialart.
    Unknown
    Calcium carbonate global LGM Burial rate data (1998)
    PANGAEA
    In:  Supplement to: Catubig, Nina R; Archer, David E; Francois, Roger; deMenocal, Peter B; Howard, William R; Yu, Ein-Fen (1998): Global deep-sea burial rate of calcium carbonate during the last glacial maximum. Paleoceanography, 13(3), 298-310, https://doi.org/10.1029/98PA00609
    Details
    Publication Date: 2024-07-01
    Description: Global databases of calcium carbonate concentrations and mass accumulation rates in Holocene and last glacial maximum sediments were used to estimate the deep-sea sedimentary calcium carbonate burial rate during these two time intervals. Sparse calcite mass accumulation rate data were extrapolated across regions of varying calcium carbonate concentration using a gridded map of calcium carbonate concentrations and the assumption that accumulation of noncarbonate material is uncorrelated with calcite concentration within some geographical region. Mean noncarbonate accumulation rates were estimated within each of nine regions, determined by the distribution and nature of the accumulation rate data. For core-top sediments the regions of reasonable data coverage encompass 67% of the high-calcite (〉75%) sediments globally, and within these regions we estimate an accumulation rate of 55.9 ± 3.6 x 10**11 mol/yr. The same regions cover 48% of glacial high-CaCO3 sediments (the smaller fraction is due to a shift of calcite deposition to the poorly sampled South Pacific) and total 44.1 ± 6.0 x 10**11 mol/yr. Projecting both estimates to 100 % coverage yields accumulation estimates of 8.3 x 10**12 mol/yr today and 9.2 x 10**12 mol/yr during glacial time. This is little better than a guess given the incomplete data coverage, but it suggests that glacial deep sea calcite burial rate was probably not considerably faster than today in spite of a presumed decrease in shallow water burial during glacial time.
    Keywords: 0055PG; 0082PG; 0091PG; 113-694; 113-697; 114-699; 114-701; 114-702; 114-704; 115-708A; 115-716B; 117-722B; 117-728A; 119-737; 119-739; 119-740; 119-741; 119-742; 119-743; 119-745; 120-751A; 19-183; 19-193; 20-194; 20-195; 20-196; 21-204; 22-211; 22-213; 22-215; 26-256; 26-257; 280; 28-267; 28-268; 28-269; 28-270; 30-285; 31-290; 31-291; 31-298; 32-307; 32-311; 34-321; 5-32; 56-434; 60-452; 60-460; 60-461; 63-472; 63-473; 6-45A; 6-46; 6-52; 6-59; 7-65; 7-66; 7-67; 85-572_Site; 85-572A; 85-574; 86-576; 86-578; 86-579; 86-580; 86-581; A150/180; A152-118; A156-3; A156-4; A164-24; A164-5; A164-6; A16-46; A164-61; A16-461; A167-13; A167-14; A173-13; A173-4; A179-15; A180-15; A180-16; A180-32; A180-39; A180-47; A180-48; A180-56; A180-72; A180-73; A180-74; A180-76; A180-9; A18-39; A18-72; A18-73; A240-ML; Albatross IV (1963); Antarctic Ocean; Antarctic Ocean/BASIN; Antarctic Ocean/CONT RISE; Antarctic Ocean/PLAIN; APSARA1; APSARA2; APSARA4; Arabian Sea; AT_II-107_65; ATII_USA; Atlantic Ocean; Atlantis II (1963); BC; Box corer; CH8X; CHN82-04; CHN82-11; CHN82-15; CHN82-20; COMPCORE; Composite Core; core_59; core_60; DRILL; Drilling/drill rig; ELT14; ELT14.006-PC; ELT17; ELT17.009-PC; ELT45; ELT45.009-PC; ELT45.024-PC; ELT45.027-PC; ELT45.029-PC; ELT45.032-PC; ELT45.063-PC; ELT45.064-PC; ELT45.071-PC; ELT45.074-PC; ELT48; ELT48.003-PC; ELT48.006-PC; ELT48.011-PC; ELT48.013-PC; ELT48.022-PC; ELT48.027-PC; ELT48.029-PC; ELT49; ELT49.008-PC; ELT49.017-PC; ELT49.018-PC; ELT49.021-PC; ELT49.023-PC; ELT50; ELT50.013-PC; ELT50.017-PC; Eltanin; EN06601; EN066-10GGC; EN066-16GGC; EN066-17GGC; EN066-21GGC; EN066-23PG; EN066-24PG; EN066-26GGC; EN066-29GGC; EN066-32GGC; EN066-36GGC; EN066-39GGC; EN066-39PG; EN066-43GGC; EN066-44GGC; EN066-47PG; EN77-29; Endeavor; ENXX; Equatorial Pacific; ERDC; ERDC-079BX; ERDC-092BX; ERDC-102BX; ERDC-129BX; GC; Glomar Challenger; Gravity corer; IC-5; India; Indian Ocean; Indian Ocean//BASIN; IO1578-4; Jean Charcot; Joides Resolution; KN11002; KN708-1; Knorr; KNR110-55; KNR110-82; KNR110-91; KS7703; Lakshadweep Sea; Leg113; Leg114; Leg115; Leg117; Leg119; Leg120; Leg19; Leg20; Leg21; Leg22; Leg26; Leg28; Leg30; Leg31; Leg32; Leg34; Leg5; Leg56; Leg6; Leg60; Leg63; Leg7; Leg85; Leg86; Marion Dufresne (1972); MD13; MD38; MD77-202; MD82-424; MD84-527; MD84-529; MD84-551; MD84-552; MD84-562; MD88-769; MD88-770; MD88-773; MD88-787; Melville; MN76-01, Pleiades; NGR9; NODC-0418; North Atlantic; North Pacific; North Pacific/ABYSSAL FLOOR; North Pacific/BASIN; North Pacific/CONT RISE; North Pacific/Gulf of California/CONT RISE; North Pacific/Philippine Sea/RIDGE; North Pacific/Philippine Sea/TRENCH; North Pacific/Philippine Sea/TROUGH; North Pacific/PLAIN; North Pacific/PLATEAU; North Pacific/RIDGE; North Pacific/SEAMOUNT; North Pacific/SEDIMENT POND; North Pacific/TRENCH; North Pacific/TROUGH; off NW Africa; OSIRIS III; Pacific Ocean; PC; Piston corer; PLDS-130P; PLDS-130PG; PLDS-4; Prydz Bay; RAMA; RAMA03WT; RAMA-44P; RC01; RC0101-RC0102; RC01-2; RC08; RC08-145; RC08-18; RC08-39; RC08-43; RC08-48; RC08-63; RC08-71; RC08-78; RC08-79; RC08-89; RC08-92; RC08-94; RC09; RC09-110; RC09-124; RC09-126; RC09-129; RC09-139; RC09-161; RC09-162; RC09-225; RC09-49; RC10; RC10-139; RC10-140; RC10-159; RC10-160; RC10-161; RC10-171; RC10-179; RC10-181; RC10-182; RC10-203; RC10-206; RC10-216; RC10-288; RC10-289; RC10-50; RC10-97; RC11; RC11-114; RC11-118; RC11-119; RC1112; RC11-120; RC11-121; RC11-170; RC11-171; RC11-172; RC11-179; RC11-193; RC11-195; RC11-209; RC11-21; RC11-210; RC11-213; RC11-220; RC11-230; RC11-26; RC11-76; RC11-77; RC11-78; RC11-80; RC11-83; RC11-86; RC11-91; RC11-94; RC11-96; RC11-97; RC12; RC12-103; RC12-107; RC12-109; RC12-121; RC12-176; RC12-179; RC12-225; RC12-227; RC12-234; RC12-241; RC12-267; RC12-289; RC12-291; RC12-294; RC12-328; RC12-340; RC12-341; RC12-343; RC12-344; RC12-361; RC12-401; RC12-412; RC12-413; RC12-416; RC12-419; RC12-63; RC12-65; RC12-66; RC13; RC13-113; RC13-151; RC13-152; RC13-153; RC13-159; RC13-189; RC13-190; RC13-205; RC13-210; RC13-227; RC13-228; RC13-229; RC13-243; RC13-251; RC13-253; RC13-254; RC13-255; RC13-256; RC13-259; RC13-261; RC13-263; RC13-271; RC13-273; RC13-275; RC13-38; RC13-63; RC13-81; RC14; RC14-106; RC14-11; RC14-29; RC14-35; RC14-39; RC14-7; RC14-9; RC14-99; RC15; RC15-23; RC15-52; RC15-61; RC15-93; RC15-94; RC15-98; RC17; RC17-113; RC17-184; RC17-194; RC17-196; RC17-197; RC17-60; RC17-61; RC17-63; RC17-69; RC17-73; RC17-98; RC23; RC23-50BX1; RC23-52BX1; RC23-53BX1; RC23-54BX1; RC23-61BX1; RE05; RE05-34; RE05-36; RE05-54; RE5-034; RE5-036; RE5-054; Rehoboth; RIVER; Robert Conrad; Sampling river; SDSE_090; SDSE_092; South Atlantic; South Atlantic Ocean; Southern East Pacific Rise; South Indian Ocean; South Indian Ridge, South Indian Ocean; South Pacific; South Pacific/BASIN; South Pacific/TRENCH; SP8-4; SwedishDeepSeaExpedition; TC; Thomas Washington; Trigger corer; V04; V04-1; V04-32; V04-8; V12; V12-122; V14; V14-101; V14-102; V14-77; V14-81; V15; V15-157; V15-168; V16; V16-114; V16-115; V16-122; V16-205; V16-25; V16-36; V17; V17-165; V17-178; V17-42; V17-43; V17-44; V18; V18-110; V18-222; V18-312; V18-318; V18-337; V18-68; V19; V19-178; V19-185; V19-188; V19-19; V19-201; V19-202; V19-204; V19-21; V19-240; V19-248; V19-25; V19-27; V19-28; V19-281; V19-282; V19-283; V19-291; V19-30; V19-305; V19-309; V19-41; V19-53; V19-55; V19-65; V19-96; V20; V20-102; V20-103; V20-104; V20-105; V20-107; V20-108; V20-109; V20-119; V20-121; V20-122; V20-123; V20-124; V20-126; V20-129; V20-170; V20-175; V20-212; V20-227; V20-228; V20-241; V20-242; V20-68; V20-74; V20-79; V20-81; V20-82; V20-85; V20-86; V20-87; V20-88; V20-92; V20-95; V20-96; V20-97; V20-98; V21; V21-145; V21-146; V21-148; V21-150; V21-151; V21-171; V21-173; V21-174; V21-175; V21-178; V21-212; V21-214; V21-29; V21-30; V21-33; V21-59; V22; V22-108; V22-168; V22-171; V22-172; V22-174; V22-177; V22-182; V22-186; V22-188; V22-196; V22-197; V22-219; V22-222; V22-234; V22-26; V22-38; V22-83; V22-86; V23; V23-100; V23-145; V23-23; V23-42; V23-58; V23-59; V23-60; V23-73; V23-74; V23-81; V23-82; V23-83; V23-84; V23-91; V23-98; V24; V24-1; V24-109; V24-166; V24-203; V24-221; V24-229; V24-235; V24-237; V24-240; V24-55; V24-58; V24-59; V24-62; V25; V25-21; V25-42; V25-44; V25-56; V25-59; V25-60; V25-75; V26; V26-104; V26-175; V26-176; V26-177; V26-37; V26-41; V26-46; V26-63; V26-82; V27; V27-110; V27-116; V27-17; V27-171; V27-175; V27-178; V27-19; V27-20; V27-221; V27-228; V27-232; V27-238; V27-239; V27-240; V27-248; V27-263; V27-264; V27-265; V27-267; V27-269; V27-46; V27-47; V27-60; V27-84; V27-85; V27-86; V28; V28-108; V28-129; V28-14; V28-177; V28-179; V28-185; V28-203; V28-229; V28-230; V28-235; V28-238; V28-239; V28-249; V28-255; V28-294; V28-304; V28-35; V28-38; V28-56; V28-59; V28-89; V29; V29-105; V29-144; V29-15; V29-153; V29-172; V29-173; V29-174; V29-177; V29-178; V29-179; V29-180; V29-183; V29-192; V29-206; V29-210; V29-219; V29-29; V29-30; V29-48; V29-84; V29-86; V29-87; V29-89; V29-90; V30; V30-100; V30-101; V30-36; V30-40; V30-41; V30-41k; V30-49; V30-51; V30-51k; V30-88; V30-93; V30-96; V30-97; V30-99; V31; V31-166; V31-178; V32; V32-102; V32-109; V32-126; V32-8; V34; V34-101; V34-109; V34-111; V34-34; V34-48; V34-51; V34-53; V34-54; V34-55; V34-87; V34-89; V34-91; V34-92; Vema; VNTR01; VNTR01-49GC; W12; W26; W48K; W53K; W8402A; W8402A-14; W8709A; W8709A-1; W8709A-13; W8709A-8; W8803B; W8803B-51GC; WAH-8-2; Wecoma; Weddell Sea; WW21; X164021; X164032; X164041; X164051; X164061; X164071; X164081; X164101; X164111; X164121; X164131; X164151; X164161; X164171; X164222; X164241; X164251; X164263; X164282; X164291; X164301; X164311; X164321; Y70-5; Y70-5-64; Yaquina
    Type: Dataset
    Format: application/zip, 4 datasets
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 8
    facet.materialart.
    Unknown
    Data compilation of ESOP (1998)
    PANGAEA
    In:  International Council for the Exploration of the Sea, Copenhagen
    Details
    Publication Date: 2024-07-01
    Description: The work in this sub-project of ESOP focuses on the advective and convective transforma-tion of water masses in the Greenland Sea and its neighbouring areas. It includes observational work on the sub-mesoscale and analysis of hydrographic data up to the gyre-scale. Observations of active convective plumes were made with a towed chain equipped with up to 80 CTD sensors, giving a horizontal and vertical resolution of the hydrographic fields of a few metres. The observed scales of the penetrative convective plumes compare well with those given by theory. On the mesoscale the structure of homogeneous eddies formed as a result of deep convection was observed and the associated mixing and renewal of the intermediate layers quantified. The relative importance and efficiency of thermal and haline penetrative convection in relation to the surface boundary conditions (heat and salt fluxes and ice cover) and the ambient stratification are studied using the multi year time series of hydro-graphic data in the central Greenland Sea. The modification of the water column of the Greenland Sea gyre through advection from and mixing with water at its rim is assessed on longer time scales. The relative contributions are quantified using modern water mass analysis methods based on inverse techniques. Likewise the convective renewal and the spreading of the Arctic Intermediate Water from its formation area is quantified. The aim is to budget the heat and salt content of the water column, in particular of the low salinity surface layer, and to relate its seasonal and interannual variability to the lateral fluxes and the fluxes at the air-sea-ice interface. This will allow to estimate residence times for the different layers of the Greenland Sea gyre, a quantity important for the description of the Polar Ocean carbon cycle.
    Keywords: 1; 10; 101; 11; 12; 13; 14; 15; 16; 162; 17; 18; 19; 2; 20; 21; 22; 23; 24; 25; 26; 262; 27; 28; 29; 3; 30; 31; 32; 33; 34; 35; 36; 362; 37; 38; 39; 4; 40; 41; 42; 43; 44; 45; 46; 462; 47; 48; 49; 5; 50; 51; 52; 53; 54; 55; 56; 57; 58; 59; 6; 60; 61; 62; 63; 64; 65; 66; 67; 68; 69; 7; 70; 71; 72; 73; 74; 75; 76; 77; 78; 79; 8; 80; 81; 82; 83; 84; 85; 87; 88; 89; 9; 90; 91; 92; 93; ARK-XIII/3; B02/98; B02/98-1001; B02/98-1011; B02/98-1021; B02/98-1031; B02/98-1061; B02/98-1062; B02/98-1071; B02/98-1081; B02/98-1101; B02/98-1111; B02/98-1121; B02/98-1131; B02/98-1141; B02/98-1151; B02/98-1181; B02/98-1191; B02/98-1221; B02/98-1222; B02/98-1231; B02/98-1241; B02/98-1251; B02/98-1261; B02/98-1271; B02/98-1281; B02/98-1291; B02/98-1292; B02/98-1293; B02/98-1301; B02/98-1311; B02/98-1321; B02/98-1361; B02/98-1371; B02/98-1381; B02/98-1391; B02/98-1401; B02/98-1411; B02/98-1421; B02/98-1431; B02/98-1441; B02/98-1451; B02/98-1461; B02/98-1471; B02/98-1481; B02/98-1491; B02/98-1501; B02/98-1511; B02/98-1521; B02/98-1531; B02/98-1541; B02/98-1551; B02/98-1561; B02/98-1571; B02/98-1581; B02/98-1591; B02/98-1601; B02/98-1611; B02/98-1622; B02/98-531; B02/98-541; B02/98-551; B02/98-561; B02/98-571; B02/98-581; B02/98-591; B02/98-601; B02/98-621; B02/98-622; B02/98-631; B02/98-641; B02/98-651; B02/98-661; B02/98-671; B02/98-681; B02/98-691; B02/98-701; B02/98-711; B02/98-721; B02/98-731; B02/98-751; B02/98-761; B02/98-771; B02/98-781; B02/98-791; B02/98-801; B02/98-811; B02/98-821; B02/98-831; B02/98-843; B02/98-845; B02/98-851; B02/98-861; B02/98-891; B02/98-901; B02/98-911; B02/98-921; B02/98-931; B02/98-941; B02/98-961; B02/98-971; B02/98-972; B02/98-973; B02/98-981; B02/98-991; B03/97; B03/97-531; B03/97-532; B03/97-551; B03/97-552; B03/97-711; B03/97-712; B03/97-751; B03/97-752; B03/97-753; B03/97-771; B03/97-772; B03/97-781; B03/97-782; B03/97-931; B03/97-932; B05/96; B05/96-1252; B05/96-252; B05/96-253; B05/96-254; B05/96-263; B05/96-278; B05/96-293-2; B06/97; B06/97-1431; B06/97-1441; B06/97-1451; B06/97-1461; B06/97-1471; B06/97-1481; B06/97-1492; B06/97-1501; B06/97-1511; B06/97-1512; B06/97-1513; B06/97-1521; B06/97-1531; B06/97-1541; B06/97-1551; B06/97-1561; B06/97-1571; B06/97-1581; B06/97-1591; B06/97-1601; B06/97-1611; B06/97-1621; B06/97-1631; B06/97-1643; B06/97-1644; B06/97-1651; B06/97-1661; B06/97-1671; B06/97-1681; B06/97-1691; B06/97-1701; B06/97-1711; B06/97-1721; B06/97-1731; B06/97-1741; B06/97-1751; B06/97-1761; B06/97-1772; B06/97-1773; B06/97-1781; B06/97-1791; B06/97-1801; B06/97-1811; B06/97-1821; B06/97-1831; B06/97-1841; B06/97-1851; B06/97-1861; B06/97-1871; B06/97-1881; B06/97-1891; B06/97-1901; B06/97-1911; B06/97-1912; B06/97-1921; B06/97-1931; B06/97-1941; B06/97-1951; B06/97-1971; B06/97-1981; B06/97-1991; B06/97-2001; B06/97-2011; B06/97-2021; B06/97-2031; B06/97-2041; B06/97-2051; B06/97-2061; B06/97-2071; B06/97-2081; B06/97-2091; B06/97-2101; B06/97-2121; B06/97-2122; B06/97-2131; B06/97-2141; B06/97-2142; B06/97-2151; B06/97-2161; B06/97-2171; B06/97-2181; B06/97-2191; B06/97-2211; B06/97-2221; B06/97-2231; B06/97-2241; B06/97-2251; B06/97-2261; B06/97-2271; B06/97-2281; B06/97-2291; B06/97-2301; B06/97-2311; B06/97-2321; B06/97-2331; B06/97-2341; B06/97-2351; B06/97-2361; B06/97-2371; B06/97-2381; B06/97-2391; B06/97-2401; B06/97-2411; B06/97-2421; B06/97-2431; B06/97-2441; B06/97-2451; B06/97-2461; B06/98; B06/98-2531; B06/98-2541; B06/98-2551; B06/98-2561; B06/98-2571; B06/98-2581; B06/98-2582; B06/98-2591; B06/98-2592; B06/98-2601; B06/98-2611; B06/98-2612; B06/98-2621; B06/98-2631; B06/98-2641; B06/98-2642; B06/98-2651; B06/98-2652; B06/98-2661; B06/98-2671; B06/98-2672; B06/98-2681; B06/98-2691; B06/98-2701; B06/98-2711; B06/98-2721; B06/98-2741; B06/98-2751; B06/98-2761; B06/98-2771; B06/98-2781; B06/98-2791; B06/98-2801; B06/98-2811; B06/98-2821; B06/98-2831; B06/98-2841; B06/98-2851; B06/98-2861; B06/98-2871; B06/98-2881; B06/98-2891; B06/98-2901; B06/98-2911; B06/98-2921; B06/98-2931; B06/98-2941; B06/98-2951; B06/98-2961; B06/98-2971; B06/98-2981; B06/98-2991; B06/98-3001; B06/98-3002; B06/98-3003; B06/98-3004; B06/98-3011; B06/98-3012; B06/98-3021; B06/98-3031; B06/98-3041; B06/98-3051; B06/98-3081; B06/98-3101; B06/98-3102; B06/98-3103; B06/98-3104; B06/98-3121; B06/98-3141; B06/98-3142; B06/98-3143; B06/98-3144; B06/98-3161; B06/98-3171; B06/98-3181; B06/98-3191; B06/98-3201; B06/98-3211; B06/98-3221; B06/98-3231; B06/98-3241; B06/98-3251; B06/98-3261; B06/98-3271; B06/98-3321; B06/98-3331; B06/98-3341; B06/98-3351; B06/98-3361; B06/98-3371; B06/98-3381; B06/98-3391; B06/98-3401; B06/98-3441; B06/98-3451; B06/98-3461; B06/98-3481; B06/98-3482; B06/98-3483; B06/98-3511; B06/98-3522; B06/98-3531; B06/98-3541; B06/98-3551; B06/98-3561; B06/98-3581; B06/98-3591; B06/98-3611; B06/98-3621; B06/98-3631; B06/98-3641; B06/98-3651; B06/98-3661; B06/98-3671; B06/98-3681; B06/98-3691; B06/98-3701; B06/98-3711; B06/98-3731; B06/98-3741; B06/98-3751; B06/98-3761; B06/98-3771; B06/98-3781; B06/98-3791; B09/96; B09/96-5311; B09/96-5312; B09/96-5321; B09/96-5322; B09/96-5351; B09/96-5352; B09/96-5353; B09/96-5451; B09/96-5452; B09/96-5481; B09/96-5482; B09/96-5511; B09/96-5512; B09/96-5521; B09/96-5522; B09/96-5531; B09/96-5532; B09/98; B09/98-5432; B09/98-5433; B09/98-5434; B09/98-5441; B09/98-5451; B09/98-5461; B09/98-5471; B09/98-5481; B09/98-5491; B09/98-5501; B09/98-5511; B09/98-5531; B09/98-5541; B09/98-5551; B09/98-5561; B09/98-5581; B09/98-5601; B09/98-5631; B09/98-5641; B09/98-5651; B09/98-5661; B09/98-5671; B09/98-5681; B09/98-5711; B09/98-5731; B09/98-5732; B09/98-5741; B09/98-5751; B09/98-5771; B09/98-5791; B09/98-5792; B09/98-5801; B09/98-5804; B09/98-5805; B10/97; B10/97-3601; B10/97-3602; B10/97-3851; B10/97-3871; B10/97-3881; B10/97-3891; B10/97-3892; B10/97-3911; B10/97-3912; B10/97-3921; B10/97-3922; B10/97-3923; B10/97-3931; B10/97-3932; B10/97-3941; B10/97-4011; B10/97-4012; B10/97-4031; B10/97-4032; B10/97-4041; B10/97-4042; B12/96; B12/96-7210; B12/96-7220; B12/96-7230; B12/96-7240; B12/96-8520; B12/96-8540; B12/96-8550; B12/98; B12/98-7811; B12/98-7812; B12/98-7813; B12/98-8391; B12/98-8392; B12/98-8393; B12/98-8394; B12/98-8621; B12/98-8622; B15/97; B15/97-6761; B15/97-6771; B15/97-6781; B15/97-6791; B15/97-6801; B15/97-6811; B15/97-6821; B15/97-6831; B15/97-6841; B15/97-6851; B15/97-6861; B15/97-6871; B15/97-6881; B15/97-6891; B15/97-6892; B15/97-6901; B15/97-6902; B15/97-6912; B15/97-6921; B15/97-6931; B15/97-6951; B15/97-6961; B15/97-6971; B15/97-6981; B15/97-6991; B15/97-7001; B15/97-7011; B15/97-7021; B15/97-7031; B15/97-7041; B15/97-7051; B15/97-7061; B15/97-7071; B15/97-7081; B15/97-7091; B15/97-7101; B15/97-7111; B15/97-7121; B15/97-7131; B15/97-7141; B15/97-7151; B15/97-7161; B15/97-7171; B15/97-7181; B15/97-7182; B15/97-7191; B15/97-7201; B15/97-7211; B15/97-7221; B15/97-7231; B15/97-7241; B15/97-7251; B15/97-7261; B15/97-7271; B15/97-7281; B15/97-7291; B15/97-7301; B15/97-7311; B15/97-7321; B15/97-7331; B15/97-7341; B15/97-7351; B15/97-7361; B15/97-7371; B15/97-7381; B15/97-7391; B15/97-7401; B15/97-7411; B15/97-7421; B15/97-7431; B15/97-7441; B15/97-7451; B15/97-7461; B15/97-7471; B15/97-7481; B15/97-7491; B15/97-7501; B15/97-7511; B15/97-7512; B15/97-7513; B15/97-7521; B15/97-7531; B15/97-7532; B15/97-7533; B15/97-7541; B15/97-7551; B15/97-7561; B15/97-7571; B15/97-7581; B15/97-7591; B15/97-7601; B15/97-7611; B15/97-7621; B15/97-7631; B15/97-7641; B15/97-7651; B15/97-7661; B15/97-7671; B15/97-7681; B15/97-7691; B15/97-7692; B15/97-7701; B15/97-7711; B15/97-7721; B15/97-7731; B15/97-7741; B15/97-7751; Bjarni Saemundsson; CARDEEP1/93; CARDEEP1/93-161; CARDEEP1/93-162; CARDEEP1/93-171; CARDEEP1/93-181; CARDEEP1/93-182; CARDEEP1/93-201; CARDEEP1/93-211; CARDEEP1/93-212; CARDEEP1/93-231; CARDEEP1/93-232; CARDEEP1/93-261; CARDEEP1/93-271; CARDEEP1/93-281; CARDEEP1/93-291; CARDEEP1/93-301; CARDEEP1/93-311; CARDEEP1/93-312; CARDEEP1/93-331; CARDEEP1/93-341; CARDEEP1/93-351; CARDEEP1/93-361;
    Type: Dataset
    Format: application/zip, 51 datasets
    Location Call Number Expected Availability
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  • 9
    facet.materialart.
    Unknown
    Ostracoda in surface sediments of the Arctic Ocean (1994)
    PANGAEA
    In:  Supplement to: Cronin, Thomas M; Holtz, Thomas R; Whatley, Robin C (1994): Quaternary paleoceanography of the deep Arctic Ocean based on quantitative analysis of Ostracoda. Marine Geology, 119(3-4), 305-332, https://doi.org/10.1016/0025-3227(94)90188-0
    Details
    Publication Date: 2024-07-01
    Description: Ostracodes were studied from deep Arctic Ocean cores obtained during the Arctic 91 expedition of the Polarstern to the Nansen, Amundsen and Makarov Basins, the Lomonosov Ridge, Morris Jesup Rise and Yermak Plateau, in order to investigate their distribution in Arctic Ocean deep water (AODW) and apply these data to paleoceanographic reconstruction of bottom water masses during the Quaternary. Analyses of coretop assemblages from Arctic 91 boxcores indicate the following: ostracodes are common at all depths between 1000 and 4500 m, and species distribution is strongly influenced by water mass characteristics and bathymetry; quantitative analyses comparing Eurasian and Canada Basin assemblages indicate that distinct assemblages inhabit regions east and west of the Lomonosov Ridge, a barrier especially important to species living in lower AODW; deep Eurasian Basin assemblages are more similar to those living in Greenland Sea deep water (GSDW) than those in Canada Basin deep water; two upper AODW assemblages were recognized throughout the Arctic Ocean, one living between 1000 and 1500 m, and the other, having high species diversity, at 1500-3000 m. Downcore quantitative analyses of species' abundances and the squared chord distance coefficient of similarity reveals a distinct series of abundance peaks in key indicator taxa interpreted to signify the following late Quaternary deep water history of the Eurasian Basin. During the Last Glacial Maximum (LGM), a GSDW/AODW assemblage, characteristic of cold, well oxygenated deep water 〉 3000 m today, inhabited the Lomonosov Ridge to depths as shallow as 1000 m, perhaps indicating the influence of GSDW at mid-depths in the central Arctic Ocean. During Termination 1, a period of high organic productivity associated with a strong inflowing warm North Atlantic layer occurred. During the mid-Holocene, several key faunal events indicate a period of warming and/or enhanced flow between the Canada and Eurasian Basins. A long-term record of ostracode assemblages from kastenlot core PS2200-5 (1073 m water depth) from the Morris Jesup Rise indicates a quasi-cyclic pattern of water mass changes during the last 300 kyr. Interglacial ostracode assemblages corresponding to oxygen isotope stages 1, 5, and 7 indicate rapid changes in dissolved oxygen and productivity during glacial-interglacial transitions.
    Keywords: 80PB50; 81-APB-13; AC-71-36; AC-71-38; AC-71-48; Amundsen Basin; ARK-VIII/3; AW-2375; AW-2839; AW-2904; AW-2905; AW-3101A; AW-3143; AW-3154; AW-3161; AW-57-328-46; AW-62-160-10; AW-62-160-7; AW-62-160-8; AW-62-160-9; AWI_Paleo; AW-IH25; AW-NN; AW-V6-33-78-21; Barnes26-80; Barnes27-80; Barnes56-80; Bart.30; Bart.46; Bart.49; Bart.55; Bart.LT23Hazel3; Bart.LT26Hazel2; Bart.LT30; Bart.LT35Hazel5; Bart.N.Omenolu; Beaufort Sea; Canadian Beaufort; Cape Martineau; Chest.Inlet1; Chest.Inlet2; Chest.Inlet5; Chest.Inlet8; Chest.Inlet9; Chikchi Sea; DC1-79-EG-1; DC2-80-EG-186; DC2-80-EG-73; EGAL-75-KC-53; E Greenland; Gakkel Ridge, Arctic Ocean; Giant box corer; GKG; Gulf of Alaska; GV8202745; GV82027-67; GV83033#44; GV83033#45; HU69-050.830; HU69-050.836; HU85-027-76; Hudson Bay; Hudson Strait; Hurd Channel; Ikerssauk15; Ikerssauk2; Ikerssauk4; Ikerssauk5; KAL; Kara Sea; Kasten corer; Labrador; Lomonosov Ridge, Arctic Ocean; Makarov Basin; Melville Penin.; Morris Jesup Rise; Nansen Basin; Northwind5; Northwind65#106; Northwind65#112; Northwind65#115; Northwind65#41; Norton Sound; N Star Bay, Greenl.; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Penney274101; PenneyIkerss.#1; Polarstern; PRZO70-22-130; PRZO72-44; PS19/150; PS19/151; PS19/152; PS19/155; PS19/157; PS19/158; PS19/159; PS19/160; PS19/161; PS19/164; PS19/165; PS19/166; PS19/167; PS19/171; PS19/172; PS19/173; PS19/175; PS19/176; PS19/178; PS19/181; PS19/182; PS19/183; PS19/184; PS19/185; PS19/186; PS19/189; PS19/190; PS19/192; PS19/194; PS19/198; PS19/200; PS19/204; PS19/206; PS19/210; PS19/214; PS19/218; PS19/239; PS19/241; PS19/245; PS19/246; PS19/249; PS19/252; PS19 ARCTIC91; PS2157-4; PS2158-1; PS2159-4; PS2162-1; PS2163-2; PS2164-4; PS2165-3; PS2166-2; PS2167-2; PS2168-1; PS2170-1; PS2171-1; PS2172-1; PS2174-4; PS2175-3; PS2176-4; PS2177-1; PS2178-2; PS2179-1; PS2180-1; PS2181-3; PS2182-1; PS2183-1; PS2184-1; PS2185-3; PS2186-5; PS2187-1; PS2189-1; PS2190-3; PS2192-1; PS2193-2; PS2194-1; PS2195-4; PS2196-2; PS2198-1; PS2200-2; PS2200-5; PS2209-1; PS2210-1; PS2212-5; PS2213-1; PS2214-1; PS2215-2; Quaternary Environment of the Eurasian North; QUEEN; S5-77-BS-17; SEA5-125A; SEA-5-76-174; Svalbard; SW Greenland; Ungava Bay; W Greenland; WhiteBearHazel18; Yermak Plateau
    Type: Dataset
    Format: application/zip, 3 datasets
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  • 10
    facet.materialart.
    Unknown
    Age determination of sediment cores of the southeastern Weddell Sea, Antarctica (1994)
    PANGAEA
    In:  Supplement to: Weber, Michael E; Bonani, Georges; Fütterer, Dieter K (1994): Sedimentation processes within channel-ridge systems, southeastern Weddell Sea, Antarctica. Paleoceanography, 9(6), 1027-1048, https://doi.org/10.1029/94PA01443
    Details
    Publication Date: 2024-07-01
    Description: On the continental margin of the southeastern Weddell Sea, Antarctica, several channel-ridge systems can be traced on the eastern side of the Crary Fan. Swath mapping of the bathymetry reveals three southwest-northeast trending ridges up to 300 m high with channels on their southeastern side. The structures occur on a terrace of the continental slope in water depths of 2000 - 3300 m. We carried out sedimentological studies on cores from three sites. Two of the studied cores are from ridges, one is from the northwestern part of the terrace. The stratigraphy of the recovered sediments is based on accelerator mass spectrometer 14C determinations, stable oxygen and carbon isotopes analyses and paleomagnetic measurements. The sediments represent a period from the last glacial maximum (LGM) to recent time. They are composed predominantly of terrigenous components. We distinguish four different sedimentary facies and assign them to processes controlling sedimentation. Microlaminated muds and cross-stratified coarse-silty sediments originated from contour currents. Bioturbated sediments reflect the increasing influence of hemipelagic sedimentation. Structureless sediments with high contents of ice-rafted debris characterize slumps. The inferred contour currents shaping the continental slope during the LGM were canalized within the channels and supplied microlaminated mud to the western sedimentary ridges due to deflection to the left induced by the Coriolis force. The lamination of the sediments is attributed to seasonal variations of current velocities. The thermohaline bottom currents were directed to the northeast and hence opposite to the Weddell Gyre. Cross-stratified coarse-silty contourites on the ridges are intercalated with the muds and indicate spillover of faster thermohaline flows. Average sedimentation rates on the terrace of the continental slope were unusually high (250 cm/ka) during the LGM, indicating active growth phases of the Crary Fan during glacial intervals. A substantial environmental change at 19.5 - 20 ka is documented in the sediments by a gradual change from lamination to bioturbation. During the recent interglacial, bioturbated sediments were deposited in all parts of the terrace. Because of a reduction of the contour current velocities (4-7 cm/s), the water masses of the Weddell Gyre, supplying fine-grained sediments from northeast, gain a greater influence on sedimentation on the continental slope. Higher percentages of microfossils indicate enhanced biogenic productivity. Increased iceberg activity is documented by greater amounts of ice-rafted debris. The interglacial sedimentation rates decrease to a few cm/ka and indicate that the Crary Fan became relatively sediment-starved during interglacial intervals.
    Keywords: ANT-VI/3; ANT-VIII/5; AWI_Paleo; Gravity corer (Kiel type); Halley Bay; Lyddan Island; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS12; PS12/319; PS1599-3; PS16; PS16/409; PS16/410; PS1789-1; PS1790-1; SL
    Type: Dataset
    Format: application/zip, 3 datasets
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 11
    facet.materialart.
    Unknown
    Physical oceanography on yearly cruises to the central Greenland Sea between 1993 and 1996 (1998)
    PANGAEA
    In:  Supplement to: Budéus, Gereon; Schneider, Wolfgang; Krause, Gunther (1998): Winter convective events and bottom water warming in the Greenland Sea. Journal of Geophysical Research: Oceans, 103(C9), 18513-18527, https://doi.org/10.1029/98JC01563
    Details
    Publication Date: 2024-07-01
    Description: From observations on yearly cruises to the central Greenland Sea between 1993 and 1996, conclusions are drawn with respect to winter convection and bottom water renewal. The data indicate that winter convection was extremely weak after 1993, not even ventilating the intermediate waters. This is remarkable, since the salinities in the upper layers increased considerably between 1993 and 1995, thus providing presumably favorable conditions for winter convection. With the absence of deep reaching winter convective events, the temperatures in the deeper waters of the Greenland Gyre increased steadily by about 0.03 K between 1993 and 1996. We conclude from the development of mainly the thermal structure on a zonal transect that an explanation for the temperature increase can be given by a large-scale downward water movement of about 150 m/yr in the central Greenland Sea. The data indicate that this process is independent of changes in the dynamically induced density distribution. It is therefore possible that a downward movement, perhaps masked by other processes, may continue for many years. If this is the case, resulting flushing times would be of the order of 20-30 years only. The presence of a large-scale circulation cell with downward movement in the central Greenland Gyre would explain the observed warming of the bottom waters without the demand for an actually active heat source. It is also in accordance with the observed increase of chemical tracer concentrations in the deep waters.
    Keywords: ARK-IX/1b; ARK-X/1; ARK-XI/2; AWI_PhyOce; CTD/Rosette; CTD-RO; ESOP; European subpolar ocean programme : sea ice-ocean interactions; JGOFS; Joint Global Ocean Flux Study; MULT; Multiple investigations; North Greenland Sea; Norwegian Sea; Petr Kottsov; Physical Oceanography @ AWI; PK-ARK-XII; PK-XII/01-1; PK-XII/01-2; PK-XII/02; PK-XII/03; PK-XII/04; PK-XII/05; PK-XII/06; PK-XII/07; PK-XII/08-1; PK-XII/08-2; PK-XII/09; PK-XII/10; PK-XII/11; PK-XII/12; PK-XII/13; PK-XII/14; PK-XII/15; PK-XII/16; PK-XII/17; PK-XII/18; PK-XII/19; PK-XII/20; PK-XII/21; PK-XII/22; PK-XII/23; PK-XII/24; PK-XII/25; PK-XII/26; PK-XII/27; PK-XII/28; PK-XII/29; PK-XII/33; PK-XII/34; PK-XII/35; PK-XII/36; PK-XII/37; PK-XII/38; PK-XII/39; PK-XII/40; PK-XII/41; PK-XII/42; PK-XII/43; PK-XII/44; PK-XII/45; PK-XII/46; PK-XII/47; PK-XII/48; PK-XII/49; PK-XII/50; PK-XII/51; PK-XII/52; Polarstern; PS24; PS24/036; PS24/037; PS24/038; PS24/039; PS24/040; PS24/041; PS24/043; PS24/044; PS24/045; PS24/046; PS24/047; PS24/048; PS24/049; PS24/050; PS24/051; PS24/053; PS24/054; PS24/055; PS24/056; PS24/057; PS24/061; PS24/062; PS24/063; PS24/064; PS24/065; PS24/066; PS24/067; PS24/068; PS24/069; PS24/070; PS31; PS31/026; PS31/026a; PS31/027; PS31/028; PS31/029; PS31/030; PS31/031; PS31/032; PS31/033; PS31/034; PS31/035; PS31/036; PS31/037; PS31/038; PS31/039; PS31/040; PS31/041; PS31/042; PS31/043; PS31/044; PS31/045; PS31/046; PS31/048; PS31/049; PS31/050; PS31/051; PS31/052; PS31/053; PS31/054; PS31/055; PS31/056; PS31/057; PS31/058; PS31/059; PS31/060; PS31/061; PS31/062; PS31/063; PS31/064; PS31/065; PS31/066; PS31/067; PS31/068; PS31/069; PS31/070; PS31/071; PS31/072; PS31/073; PS31/074; PS31/075; PS31/076; PS31/077; PS31/078; PS31/079; PS31/080; PS31/081; PS31/082; PS31/083; PS31/084; PS31/085; PS31/087; PS31/089; PS31/090; PS31/091; PS31/092; PS31/093; PS31/094; PS31/095; PS31/096; PS31/096a; PS31/097; PS31/098; PS31/099; PS31/100; PS31/101; PS31/102; PS31/103; PS31/104; PS31/105; PS31/106; PS31/107; PS31/108; PS31/109; PS31/110; PS31/111; PS37; PS37/001-1; PS37/006-1; PS37/006-2; PS37/008-2; PS37/008-4; PS37/010; PS37/014-3; PS37/014-4; PS37/015; PS37/016-4; PS37/016-5; PS37/017; PS37/018; PS37/019; PS37/020-6; PS37/020-7; PS37/021-3; PS37/021-4; PS37/022-3; PS37/022-4; PS37/023; PS37/024; PS37/025-1; PS37/025-2; PS37/026-1; PS37/026-2; PS37/028; PS37/029; PS37/033; PS37/035; PS37/036; PS37/037; PS37/038; PS37/039; PS37/040; PS37/041; PS37/042; PS37/043; PS37/044; PS37/045; PS37/046; PS37/047; PS37/048; PS37/049; PS37/050; PS37/052; PS37/053; PS37/056; PS37/057; PS37/058; PS37/059; PS37/060; PS37/061; PS37/062; PS37/063; PS37/064; PS37/065; PS37/066; PS37/067; PS37/068; PS37/069; PS37/070; PS37/071; PS37/072; PS37/073; PS37/074; PS37/075; PS37/076; PS37/077; PS37/078; PS37/079; PS37/080; PS37/081; PS37/082; PS37/083; PS37/084; PS37/085; PS37/086; PS37/087; PS37/088; PS37/089; PS37/090; PS37/091; PS37/092; PS37/093; PS37/094; PS37/095; PS37/096; PS37/097; PS37/098; PS37/099; PS37/100; PS37/101; PS37/102; PS37/103; PS37/104; PS37/105; PS37/106; PS37/107; PS37/108; PS37/109; PS37/110; PS37/111; PS37/112; PS37/113; PS37/114; PS37/115; PS37/116; PS37/117
    Type: Dataset
    Format: application/zip, 4 datasets
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  • 12
    facet.materialart.
    Unknown
    Estimation of sea surface temperature from sediment core PS1768-8 (1998)
    PANGAEA
    In:  Supplement to: Zielinski, Ulrich; Gersonde, Rainer; Sieger, Rainer; Fütterer, Dieter K (1998): Quaternary surface water temperature estimations: calibration of a diatom transfer funtion for the Southern Ocean. Paleoceanography, 13(4), 365-383, https://doi.org/10.1029/98PA01320
    Details
    Publication Date: 2024-07-01
    Description: The quantitative diatom analysis of 218 surface sediment samples recovered in the Atlantic and western Indian sector of the Southern Ocean is used to define a base of reference data for paleotemperature estimations from diatom assemblages using the Imbrie and Kipp transfer function method. The criteria which justify the exclusion of samples and species out of the raw data set in order to define a reference database are outlined and discussed. Sensitivity tests with eight data sets were achieved evaluating the effects of overall dominance of single species, different methods of species abundance ranking, and no-analog conditions (e.g., Eucampia Antarctica) on the estimated paleotemperatures. The defined transfer functions were applied on a sediment core from the northern Antarctic zone. Overall dominance of Fragilariopsis kerguelensis in the diatom assemblages resulted in a close affinity between paleotemperature curve and relative abundance pattern of this species downcore. Logarithmic conversion of counting data applied with other ranking methods in order to compensate the dominance of F. kerguelensis revealed the best statistical results. A reliable diatom transfer function for future paleotemperature estimations is presented.
    Keywords: Adelaide Island; Agulhas Basin; Agulhas Ridge; Antarctic Peninsula; ANT-II/3; ANT-II/4; ANT-III/3; ANT-IV/3; ANT-IV/4; ANT-IX/2; ANT-IX/4; ANT-V/4; ANT-VI/2; ANT-VI/3; ANT-VIII/3; ANT-VIII/5; ANT-X/4; ANT-X/5; ANT-XI/2; ANT-XI/4; Argentine Islands; Atka Bay; Atlantic Indik Ridge; Atlantic Ridge; AWI_Paleo; Barents Sea; Bransfield Strait; Camp Norway; Cape Basin; Cape Fiske; Conrad Rise; Cosmonauts Sea; CTD/Rosette; CTD-RO; Drake Passage; Elephant Island; Filchner Shelf; Filchner Trough; Giant box corer; GKG; Gould Bay; Gravity corer (Kiel type); Halley Bay; Indian-Antarctic Ridge; Islas Orcadas; Joinville Island; Kapp Norvegia; King George Island, Antarctic Peninsula; Lyddan Island; Maud Rise; Meteor Rise; MIC; MiniCorer; MUC; MultiCorer; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS04; PS04/247; PS04/248; PS04/249; PS04/250; PS04/261; PS04/263; PS04/264; PS04/265; PS04/266; PS04/268; PS04/269; PS04/270; PS04/271; PS04/277; PS04/302; PS04/304; PS04/331; PS04/335; PS04/346; PS04/351; PS04/380; PS04/414; PS04/423; PS04/429; PS04/433; PS04/440; PS04/447; PS04/472; PS04/508; PS04/509; PS04/540; PS06/289; PS06/303; PS06/304; PS06/311; PS06/313; PS06 SIBEX; PS08; PS08/321; PS08/324; PS08/327; PS08/333; PS08/338; PS08/344; PS08/345; PS08/346; PS08/347; PS08/350; PS08/356; PS08/357; PS08/358; PS08/359; PS08/360; PS08/361; PS08/365; PS08/366; PS08/367; PS08/368; PS08/369; PS08/374; PS08/375; PS08/379; PS08/380; PS08/381; PS08/382; PS08/384; PS08/385; PS08/386; PS08/387; PS08/396; PS08/397; PS08/401; PS08/402; PS08/410; PS08/440; PS08/445; PS08/452; PS08/480; PS08/482; PS08/483; PS08/585; PS08/601; PS08/607; PS08/610; PS08/621; PS08/627; PS10; PS10/672; PS10/675; PS10/684; PS10/686; PS10/699; PS10/701; PS10/703; PS10/707; PS10/820; PS1160-2; PS1161-1; PS1162-1; PS1163-2; PS1174-2; PS1176-3; PS1177-3; PS1178-4; PS1179-1; PS1181-2; PS1182-2; PS1183-4; PS1184-6; PS1190-1; PS1192-1; PS1193-2; PS1195-2; PS1197-1; PS1199-1; PS12; PS12/116; PS12/119; PS12/122; PS12/127; PS12/128; PS12/129; PS12/186; PS12/195; PS12/196; PS12/199; PS12/250; PS12/545; PS12/551; PS12/553; PS12/557; PS1200-4; PS1204-1; PS1207-1; PS1208-1; PS1209-1; PS1210-1; PS1211-1; PS1212-1; PS1214-1; PS1222-1; PS1223-1; PS1225-2; PS1273-1; PS1277-1; PS1278-1; PS1281-1; PS1282-1; PS1363-3; PS1364-1; PS1366-2; PS1367-1; PS1370-1; PS1372-2; PS1373-2; PS1374-2; PS1375-2; PS1376-2; PS1380-1; PS1381-1; PS1382-1; PS1383-1; PS1384-1; PS1385-1; PS1387-1; PS1388-1; PS1389-1; PS1390-1; PS1391-1; PS1394-1; PS1395-1; PS1396-1; PS1397-1; PS1398-2; PS1399-1; PS1400-4; PS1401-2; PS1402-2; PS1403-1; PS1406-1; PS1407-1; PS1410-1; PS1411-1; PS1412-1; PS1419-1; PS1421-1; PS1424-1; PS1425-1; PS1427-1; PS1428-1; PS1452-1; PS1453-1; PS1454-1; PS1455-4; PS1459-4; PS1460-1; PS1472-4; PS1474-1; PS1477-1; PS1478-1; PS1483-2; PS1484-2; PS1485-1; PS1486-2; PS1508-2; PS1537-2; PS1539-1; PS1540-1; PS1542-1; PS1543-1; PS1544-1; PS1555-1; PS1559-1; PS1560-1; PS1563-1; PS1576-1; PS16; PS16/267; PS16/271; PS16/281; PS16/284; PS16/294; PS16/303; PS16/306; PS16/311; PS16/316; PS16/321; PS16/323; PS16/329; PS16/334; PS16/337; PS16/342; PS16/345; PS16/351; PS16/354; PS16/362; PS16/366; PS16/372; PS16/403; PS16/419; PS16/425; PS16/432; PS16/446; PS16/472; PS16/499; PS1649-1; PS1651-2; PS1652-1; PS1654-1; PS1751-2; PS1752-5; PS1755-1; PS1756-6; PS1759-1; PS1764-2; PS1765-1; PS1768-1; PS1768-8; PS1771-4; PS1772-6; PS1773-2; PS1774-1; PS1775-5; PS1776-6; PS1777-7; PS1778-1; PS1779-3; PS1780-1; PS1782-6; PS1783-1; PS1786-2; PS1787-1; PS1794-2; PS1795-1; PS1798-2; PS18; PS18/059; PS18/075; PS18/084; PS18/088; PS18/092; PS18/094; PS18/096; PS18/100; PS18/106; PS18/114; PS18/118; PS18/229; PS18/231; PS18/232; PS18/236; PS18/237; PS18/238; PS18/244; PS18/249; PS18/251; PS18/253; PS18/254; PS18/257; PS18/260; PS18/261; PS18/262; PS18/263; PS18/266; PS18/267; PS1800-2; PS1802-2; PS1803-2; PS18 06AQANTIX_2; PS1961-1; PS1967-1; PS1973-1; PS1975-1; PS1977-1; PS1978-1; PS1979-1; PS1981-1; PS1985-1; PS1987-1; PS1988-1; PS2073-1; PS2075-3; PS2076-1; PS2080-1; PS2081-1; PS2082-3; PS2087-1; PS2091-1; PS2093-1; PS2095-1; PS2096-1; PS2099-1; PS2102-1; PS2103-2; PS2104-1; PS2105-2; PS21 06AQANTX_4; PS2108-1; PS2109-3; PS22/714; PS22/717; PS22/718; PS22/720; PS22/722; PS22/727; PS22/737; PS22/744; PS22/748; PS22/764; PS22/769; PS22/797; PS22/805; PS22 06AQANTX_5; PS2230-1; PS2231-1; PS2233-1; PS2258-1; PS2259-1; PS2260-1; PS2261-1; PS2263-1; PS2265-2; PS2267-2; PS2268-6; PS2270-5; PS2275-1; PS2276-1; PS2299-1; PS2307-2; PS2491-5; PS2492-1; PS2493-3; PS2494-1; PS2495-1; PS2496-2; PS2498-2; PS2499-1; PS2500-7; PS2501-4; PS2502-3; PS2503-1; PS2504-1; PS2505-1; PS2506-1; PS2507-1; PS2508-1; PS2509-1; PS2511-1; PS2512-1; PS2513-1; PS2514-3; PS2561-1; PS2562-1; PS2563-3; PS2564-2; PS2566-1; PS2567-1; PS2600-1; PS2602-3; PS2604-4; PS2605-1; PS2606-3; PS2607-1; PS2609-2; PS2610-2; PS2611-3; PS28; PS28/264; PS28/277; PS28/280; PS28/289; PS28/293; PS28/298; PS28/304; PS28/314; PS28/316; PS28/329; PS28/334; PS28/337; PS28/339; PS28/342; PS28/345; PS28/347; PS28/350; PS28/352; PS28/361; PS28/367; PS28/373; PS28/375; PS30; PS30/030; PS30/038; PS30/043; PS30/048; PS30/055; PS30/097; PS30/137; PS30/139; PS30/141; PS30/143; PS30/144; PS30/145; PS30/147; PS30/155; PS30/156; Scotia Sea, southwest Atlantic; Shona Ridge; SL; South Atlantic; South Atlantic Ocean; South Orkney; South Sandwich; South Sandwich Basin; South Sandwich Islands; South Sandwich Trough; van Veen Grab; Vestkapp; VGRAB; Weddell Sea; Wegener Canyon
    Type: Dataset
    Format: application/zip, 4 datasets
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  • 13
    facet.materialart.
    Unknown
    Stable isotope record of foraminifera from South Atlantic sediments with reconstruction of paleotemperatures and paleosalinities (1995)
    PANGAEA
    In:  Supplement to: Niebler, Hans-Stefan (1995): Rekonstruktionen von Paläo-Umweltparametern anhand von stabilen Isotopen und Faunen-Vergesellschaftungen planktischer Foraminiferen im Südatlantik = Reconstruction of paleo-environmental parameters using stable isotopes and faunal assemblages of planktonic foraminifera in the South Atlantic Ocean. Berichte zur Polarforschung = Reports on Polar Research, 167, 198 pp, https://doi.org/10.2312/BzP_0167_1995
    Details
    Publication Date: 2024-07-01
    Description: Changes in surface water hydrography in the Southern Ocean (eastern Atlantic sector) could be reconstructed on the basis of isotope-geochemical and micropaleontological studies. A total of 75 high quality multicorer sediment surface samples from the southern South Atlantic Ocean and three Quaternary sediment cores, taken on a meridional transect across the Antarctic Circumpolar Current, have been investigated. The results of examining stable oxygen isotope compositions of 24 foraminiferal species and morphotypes were compared to the near-surface hydrography. The different foraminifera have been divided into four groups living at different depths in the upper water column. The 8180 differences between shallow-living (e.g. G. bulloides, N. pachyderma) and deeper-dwelling (e. g. G. inflata) species reflect the measured temperature gradient of the upper 250 m in the water column. Thus, the 6180 difference between shallow-living and deeper-living foraminifera can be used as an indicator for the vertical temperature gradient in the surface water of the Antarctic Circumpolar Current, which is independent of ice volume. All planktonic foraminifera in the surface sediment samples have been counted. 27 species and morphotypes have been selected, to form a reference data Set for statistical purposes. By using R- and Q-mode principal component analysis these planktonic foraminifera have been divided into four and five assemblages, respectively. The geographic distribution of these assemblages is mainly linked to the temperature of sea-surface waters. The five assemblages (factors) of the Q-mode principal component analysis account for 97.l % of the variance of original data. Following the transferfunction- technique a multiple regression between the Q-mode factors and the actual mean sea-surface environmental parameters resulted in a set of equations. The new transfer function can be used to estimate past sea-surface seasonal temperatures for paleoassemblages of planktonic foraminifera with a precision of approximately ±1.2°C. This transfer function F75-27-5 encompasses in particular the environmental conditions in the Atlantic sector of the Antarctic Circumpolar Current. During the last 140,000 years reconstructed sea-surface temperatures fluctuated in the present northern Subantarctic Zone (PS2076-1/3) at an amplitude of up to 7.5°C in summer and of up to 8.5°C in winter. In the present Polarfrontal Zone (PS1754-1) these fluctuations between glacials and interglacials show lower temperatures from 2.5 to 8.5°C in summer and from 1.0 to 5.0°C in winter, respectively. Compared to today, calculated oxygen isotope temperature gradients in the present Subantarctic Zone were lower during the last 140,000 years. This is an indicator for a good mixing of the upper water column. In the Polarfrontal Zone also lower oxygen isotope temperature gradients were found for the glacials 6, 4 and 2. But almost similar temperature gradients as today were found during the interglacial stages 5, 3 and the Holocene, which implicates a mixing of the upper water column compared to present. Paleosalinities were reconstructed by combining d18O-data and the evaluated transfer function paleotemperatures. Especially in the present Polarfrontal Zone (PS1754-1) and in the Antarctic Zone (PS1768-8), a short-term reduction of salinity up to 4 %o, could be detected. This significant reduction in sea-surface water salinity indicates the increased influx of melt-water at the beginning of deglaciation in the southern hemisphere at the end of the last glacial, approximately 16,500-13,000 years ago. The reconstruction of environmental Parameters indicates only small changes in the position of the frontal Systems in the eastern sector of the Antarctic Circumpolar Current during the last 140,000 years. The average position of the Subtropical Front and Subantarctic Front shifted approximately three latitudes between interglacials and glacials. The Antarctic Polar Front shifted approximately four latitudes. But substantial modifications of this scenario have been interpreted for the reconstruction of cold sea-surface temperatures at 41Â S during the oxygen isotope stages 16 and 14 to 12. During these times the Subtropical Front was probably shified up to seven latitudes northwards.
    Keywords: Agulhas Basin; ANT-IX/4; ANT-VI/3; ANT-VIII/3; ANT-X/4; ANT-X/5; ANT-X/6; Atlantic Indik Ridge; Atlantic Ridge; AWI_Paleo; Brazil Basin; Cape Basin; CTD/Rosette; CTD-RO; Discovery Seamount; GeoB1716-2; GeoB1717-2; GeoB1718-1; GeoB1719-5; GeoB1720-4; GeoB1721-4; GeoB1726-2; GeoB1728-3; GeoB1729-1; GeoB2002-2; GeoB2003-1; GeoB2004-1; GeoB2007-1; GeoB2008-1; GeoB2009-1; GeoB2016-3; GeoB2018-1; GeoB2019-2; GeoB2021-4; GeoB2022-3; Giant box corer; GKG; Gravity corer (Kiel type); KL; M20/2; M23/1; Meteor (1986); Meteor Rise; MIC; MiniCorer; MUC; MultiCorer; Namibia Continental Margin; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Piston corer (BGR type); Polarstern; PS12; PS12/557; PS16; PS16/262; PS16/267; PS16/271; PS16/278; PS16/281; PS16/284; PS16/294; PS16/303; PS16/311; PS16/312; PS16/334; PS16/337; PS16/342; PS16/345; PS16/351; PS1654-1; PS1750-7; PS1751-2; PS1752-5; PS1754-1; PS1754-2; PS1755-1; PS1756-6; PS1759-1; PS1764-2; PS1768-8; PS1769-1; PS1775-5; PS1776-6; PS1777-7; PS1778-1; PS1779-3; PS18; PS18/229; PS18/231; PS18/232; PS18/236; PS18/237; PS18/238; PS18/239; PS18/241; PS18/242; PS18/243; PS18/244; PS18/260; PS18/261; PS18/262; PS18/263; PS18/264; PS18/269; PS2073-1; PS2075-3; PS2076-1; PS2076-3; PS2080-1; PS2081-1; PS2082-3; PS2083-1; PS2084-2; PS2085-1; PS2085-2; PS2086-3; PS2087-1; PS2102-1; PS2102-2; PS2103-2; PS2104-1; PS2105-2; PS2106-1; PS21 06AQANTX_4; PS2110-1; PS22; PS22/678; PS22/755; PS22/840; PS22/841; PS22/842; PS22/850; PS22/851; PS22/852; PS22/853; PS22/879; PS22/899; PS22/902; PS22/908; PS22/947; PS22/973; PS22 06AQANTX_5; PS2230-1; PS2231-1; PS2233-1; PS2234-1; PS2235-1; PS2237-1; PS2238-1; PS2239-1; PS2240-1; PS2241-1; PS2242-1; PS2250-5; PS2250-6; PS2272-1; PS2341-1; PS2342-1; PS2343-1; PS2351-1; PS2352-1; PS2353-2; PS2354-1; PS2363-1; PS2366-1; PS2367-1; PS2368-1; PS2372-1; PS2376-1; Shona Ridge; SL; South African margin; South Atlantic; South Atlantic Ocean; Van Heesen Ridge; Walvis Ridge
    Type: Dataset
    Format: application/zip, 22 datasets
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  • 14
    facet.materialart.
    Unknown
    Age models and stabile isotope ratios from SO35 cores (1990)
    PANGAEA
    In:  Supplement to: Winn, Kyaw; Wiedicke, Michael; Erlenkeuser, Helmut (1990): Stable isotope stratigraphy, paleoproductivity and sedimentation rates in the South Lau and North Fiji Basins, Southwest Pacific. Geologisches Jahrbuch Reihe D, 92, 231-253, hdl:10013/epic.46000.d001
    Details
    Publication Date: 2024-07-01
    Description: Stable isotope measurements on the planktonic foraminifer Globigerinoides ruber (white) have been carried out on a number of selected deep-seas sediment cores from the South Lau and Norlh Fiji Basins. The d18O-curves show good correlation with the inter-ocean oraphic correlation composite d18O-record of the standard reference section (Prell et al. 1986), which, in combination with the chronostratigraphic classifications of Herterich & Sarnthein (1984, modified) and Imbrie et al. 1984), allows a detailed dating of the sedimentary sequences. The deepest layers in core no. 119 (southern Lau Basin) could be assigned to Isotope Stage 24. Measurements made on bulk carbonate in two cores show a much higher glacial-interglacial amplitude, allowing the general identification of the conventional oxygen isotope stages. The d13C-values of the benthic foraminifer Cibicidoides wuellerstorfi show progressively lighter values northwards reflecting an increasing contribution of the isotopically lighter CO2 from the remineralisation of organic matter during the general northward movement of the deep water masses. Cyclicities in the sedimentation rates were observed in core nos. 117 and 119 (both southern Lau Basin) where the interglacials exhibit higher levels than the glacials. Calculated new or export paleoproductivity show that the glacials had higher productivity in the euphotic zone. From the oxygen isotope stratigraphy, the five ash layers in core nos. 117 and 119 could be dated as about 530 ka B.P. in Stage 14, 695 ka B.P. in Stage 18, 775 ka B.P. in Stage 21, 790 ka B.P. and 825 ka B.P. in Stage 22. Carbonate dissolution occurred during stages 5, 8 and 10 to 12.
    Keywords: 101KL; 102KL; 182KL; 211KL; Fiji Basin; GIK/IfG; Institute for Geosciences, Christian Albrechts University, Kiel; KL; Lau Basin; Piston corer (BGR type); SO35/2; SO35/2_101KL; SO35/2_102KL; SO35/3; SO35/3_182KL; SO35/3_211KL; Sonne
    Type: Dataset
    Format: application/zip, 8 datasets
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  • 15
    facet.materialart.
    Unknown
    Description of, and 238U, 234U, 232Th and 230Th measurements on a nodule from R/V Sonne station SO79_62KD, Central East Pacific Ocean (1999)
    PANGAEA
    In:  Supplement to: Bollhöfer, A; Frank, Norbert; Rohloff, S; Mangini, Augusto; Scholten, Jan Christoph (1999): A record of changing redox conditions in the northern Peru Basin during the Late Quaternary deduced from Mn/Fe and growth rate variations in two diagenetic manganese nodules. Earth and Planetary Science Letters, 170(4), 403-415, https://doi.org/10.1016/S0012-821X(99)00126-0
    Details
    Publication Date: 2024-07-01
    Description: Two diagenetic manganese nodules from the Peru Basin were investigated by thermal ionization mass spectrometry and high resolution alpha spectrometry for uranium and thorium. The TIMS concentrations for nodule 62KD (63KG) vary as follows: 0.12-1.01 ppb (0.06-0.59) 230Th, 0.51-1.98 ppm (0.43-1.40) 232Th, 0.13-0.80 ppb (0.09-0.49) 234U, and 1.95-13.47 ppm (1.66-8.24) 238U. Both nodules have average growth rates of ~110 mm per million years. However, from the variations of excess 230Th with depth we estimate partial accumulation rates which range from 50 to 400 mm per million years. The 234U dating method cannot be applied due to remobilization of U from the sediment and subsequent incorporation into the nodules' crystal lattice, reflected by decay corrected 234U values far above the ocean water value. Sections of fast nodule growth are related to those layers having high Mn/Fe ratios (up to 200) and higher densities. As a possible explanation we develop a scenario that describes similar glacial/interglacial trends in both nodules as a record of regional changes of sediment and/or deep water chemistry.
    Keywords: Dredge, box; DRG_B; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; Peru Basin; SEDIPERU - TUSCH; SO79; SO79_62KD; Sonne
    Type: Dataset
    Format: application/zip, 3 datasets
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  • 16
    facet.materialart.
    Unknown
    Description and 238U, 234U, 232Th and 230Th measurements of the manganese nodule analysed from station SO79_63KG, R/V SONNE (1996)
    PANGAEA
    In:  Supplement to: Bollhöfer, A; Eisenhauer, Anton; Frank, Norbert; Pech, D; Mangini, Augusto (1996): Thorium and uranium isotopes in a manganese nodule from the Peru basin determined by alpha spectrometry and thermal ionization mass spectrometry (TIMS): Are manganese supply and growth related to climate? Geologische Rundschau, 85(3), 577-585, https://doi.org/10.1007/BF02369012
    Details
    Publication Date: 2024-07-01
    Description: Thorium and uranium isotopes were measured in a diagenetic manganese nodule from the Peru basin applying alpha- and thermal ionization mass spectrometry (TIMS). Alpha-counting of 62 samples was carried out with a depth resolution of 0.4 mm to gain a high-resolution Th-230(excess) profile. In addition, 17 samples were measured with TIMS to obtain precise isotope concentrations and isotope ratios. We got values of 0.06-0.59 ppb (Th-230), 0.43-1.40 ppm (Th-232), 0.09-0.49 ppb (U-234) and 1.66-8.24 ppm (U-238). The uranium activity ratio in the uppermost samples (1-6 mm) and in two further sections in the nodule at 12.5+/-1.0 mm and 27.3-33.5 mm comes close to the present ocean wa ter value of 1.144+/-0.004. In two other sections of the nodule, this ratio is significantly higher, probably reflecting incorporation of diagenetic uranium. The upper 25 mm section of the Mn nodule shows a relatively smooth exponential decrease in the Th-230(excess) concentration (TIMS). The slope of the best fit yields a growth rate of 110 mm/Ma up to 24.5 mm depth. The section from 25 to 30.3 mm depth shows constant Th-230(excess) concentrations probably due to growth rates even faster than those in the top section of the nodule. From 33 to 50 mm depth, the growth rate is approximately 60 mm/Ma. Two layers in the nodule with distinct laminations (11-15 and 28-33 mm depth) probably formed during the transition from isotopic stage 8 to 7 and in stage 5e, respectively. The Mn/Fe ratio shows higher values during interglacials 5 and 7, and lower ones during glacials 4 and 6. A comparison of our data with data from adjacent sediment cores suggests (a) a variable sb supply of hydrothermal Mn to sediments and Mn nodules of the Peru basin or (b) suboxic conditions at the water sediment interface during periods with lower Mn/Fe ratios.
    Keywords: BCR; Box corer (Reineck); GIK15561-1; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; Peru Basin; SEDIPERU - TUSCH; SO79; SO79_63KG; Sonne
    Type: Dataset
    Format: application/zip, 2 datasets
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  • 17
    facet.materialart.
    Unknown
    Description and composition iron-manganese concretions from the Pacific (1964)
    PANGAEA
    In:  Supplement to: Skornyakova, Nadezhda S; Andrushchenko, Polina F; Fomina, Lidiya S (1964): Chemical composition of the Pacific ocean's iron-manganese concretions. Deep Sea Research and Oceanographic Abstracts, 11(1), 93-104, https://doi.org/10.1016/0011-7471(64)91086-1
    Details
    Publication Date: 2024-07-01
    Description: One the most interesting features of ocean sedimentation is the manganese formations on the surface of the ocean floor in some areas. These are especially widespread in the Pacific Ocean as concretions, grains, and crusts on rock fragments and bedrock outcrops. Iron-manganese concretions are the most abundant as they completely cover about 10% of the bottom of the Pacific Ocean where there are ore concentrations. The concretions occupy from 20-50% of the bottom and up to 80-90% on separate submarine rises. Such concretions are found in different types of bottom deposits, from abyssal red clays to terrigenous muds, but they occur most widely in red clays and quite often in carbonate muds. Their shape and their dimensions are very diverse and change from place to place, from station to station, varying from 0.5-20 cm. They may be oval, globular, reniform, or slaggy and often they are fiat or isometric concretions of an indefinite shape. The concretions generally have nuclei of pumice, basalt fragments, clayey and tuffaceous material, sharks' teeth, whale ossicles, and fossil sponges. Most concretions have concentric layers, combined with dendritic ramifications of iron and manganese oxides.
    Keywords: DNWB0ABD; DOWNWIND-B1; DOWNWIND-H; Dredge; DRG; DWBD15; DWBD4; DWHD47; DWHD72; GC; Gravity corer; Horizon; Mariana Basin, Pacific Ocean; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; Northwestern Basin, Pacific Ocean; OKEAN; Okean Grab; Pacific Ocean; Spencer F. Baird; TRAWL; Trawl net; VITYAZ; Vityaz (ex-Mars); Vityaz-25; Vityaz-29; VITYAZ3150-TR; VITYAZ3631-GR-1; VITYAZ3729-GC-1; VITYAZ3802-TR; VITYAZ3899-GR-1; VITYAZ3996-TR; VITYAZ4074-TR; VITYAZ4084-GR-1; VITYAZ4090-TR; VITYAZ4104-TR; VITYAZ4191-TR; VITYAZ4217-TR; VITYAZ4265-TR; VITYAZ4281-TR; VITYAZ4331-GR-1; VITYAZ4351-GR; VITYAZ4359-GR-1; VITYAZ4362-GR-1; VITYAZ4370-TR
    Type: Dataset
    Format: application/zip, 3 datasets
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  • 18
    facet.materialart.
    Unknown
    Composition of Pacific sea-floor manganese nodules (1964)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Description: This collection of data on manganese nodules on the floor of the Pacific Ocean represents all the information that was available to the authors in May, 1964. It is compiled from both published references and original data. No attempt is made here to generalize or to speculate on the origin of the manganese or associated elements further discussion of these aspects of the subject may be had by reference to the literature.
    Keywords: ALB-13; ALB-173; ALB-31; Albatross (1882-1921); Albatross1899-1900; Albatross1904-1905; ALBTR-13; ALBTR-173; ALBTR-31; ALBTR-4660; ALBTR-4662; ALBTR-4676; ALBTR-4681; ALBTR-4685; ALBTR-4701; ALBTR-4711; ALBTR-4721; CARN_Revelle_46; CARN_Revelle_78; CARN7-150; CARN7-86; CARN-Cruise7; Carnegie; CASC-5D; CASCADIA; CHA-299; CHA-302; Challenger1872; CHIN02BD; CHIN02BD-016G; CHINOOK; CHNK-16G; CHUB01BD; CHUB01BD-002G; CHUB01BD-034G; CHUB-2; CHUB-34; CHUB5; CHUBASCO; Core; CORE; DNWB0ABD; DNWB0ABD-016G; DNWB0ABD-017G; DNWB0ABD-019G; DNWB0BBD; DNWB0BBD-037G; DNWB0BBD-040G; DNWB0BBD-043G; DNWB0BBD-048G; DNWB0BBD-052G; DNWB0BBD-054G; DNWB0BBD-055G; DNWB0BBD-056G; DNWB0DBD; DNWB0DBD-147GB; DNWH0AHO-004H; DNWH0BHO-034G; DNWH0DHO-092H; DOWNWIND-B1; DOWNWIND-B2; DOWNWIND-B4; DOWNWIND-H; Dredge; Dredge, rock; DRG; DRG_R; DWBD1; DWBD2; DWBD4; DWBD5; DWBD7; DWBG147B; DWBG16; DWBG17; DWBG19; DWBG37; DWBG40; DWBG43; DWBG48; DWBG52; DWBG54; DWBG55; DWBG56; DWBG78; DWHD15; DWHD16; DWHD47; DWHD55; DWHD72; DWHG34; DWHH4; DWHH92; Eastern Basin, Pacific Ocean; Epce; GC; Grab; GRAB; Gravity corer; H.M.S. Challenger (1872); Horizon; MDPC02HO-MP-025F-1; MDPC02HO-MP-033D; MDPC03HO-MP-043A; MIDPAC; MPC-25F-1; MPC-33D; MPC-43A; NAGA; NAGA8C; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; North-East Pacific Ocean; Pacific Ocean; SIO-DX-1; Spencer F. Baird; Stranger; TRAWL; Trawl net; V15; V15-126; Vema; Vityaz (ex-Mars); Vityaz-29; VITYAZ4239-TR; VITYAZ4289-TR
    Type: Dataset
    Format: application/zip, 3 datasets
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 19
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    Physical properties of sediment core PS2734-5 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; Density Measuring System (DMS); DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2734-5; PS36; PS36/021; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2173 data points
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    DATA PANGAEA
  • 20
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    Unknown
    Physical properties of sediment core PS2736-6 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; Density Measuring System (DMS); DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2736-6; PS36; PS36/023; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2170 data points
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    DATA PANGAEA
  • 21
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    Physical properties of sediment core PS2737-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Giant box corer; GKG; Laptev Sea; Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2737-4; PS36; PS36/024; Quaternary Environment of the Eurasian North; QUEEN; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 228 data points
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    DATA PANGAEA
  • 22
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    Physical properties of sediment core PS2621-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-X/2; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Hochstetter Bugten, East Greenland; Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2621-4; PS31; PS31/127; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 1566 data points
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    DATA PANGAEA
  • 23
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    Physical properties of sediment core PS2743-9 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; Density Measuring System (DMS); DEPTH, sediment/rock; Gravity corer (Kiel type); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2743-9; PS36; PS36/031; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 543 data points
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    DATA PANGAEA
  • 24
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    Physical properties of sediment core PS2627-7 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-X/2; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; East Greenland Sea; Event label; Gravity corer (Kiel type); Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2627-7; PS31; PS31/135; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 1458 data points
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    DATA PANGAEA
  • 25
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    Physical properties of sediment core PS2641-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-X/2; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; East Greenland Sea; Event label; Gravity corer (Kiel type); Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2641-4; PS31; PS31/154; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 1513 data points
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    DATA PANGAEA
  • 26
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    Unknown
    Physical properties of sediment core PS2640-6 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-X/2; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2640-6; PS31; PS31/152; Quaternary Environment of the Eurasian North; QUEEN; SL; Sofia Sund, East Greenland; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 1513 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 27
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    Susceptibility raw data of sediment core PS2443-3 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-IX/4; AWI_Paleo; Barents Sea; DEPTH, sediment/rock; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2443-3; PS27; PS27/016; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]
    Type: Dataset
    Format: text/tab-separated-values, 207 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 28
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    Physical properties of sediment core PS2620-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-X/2; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; East Greenland Sea; Event label; Gravity corer (Kiel type); Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2620-4; PS31; PS31/123; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 1999 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 29
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    Physical properties of sediment core PS2616-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-X/2; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Multi-Sensor Core Logger 14, GEOTEK; Norwegian-Greenland Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2616-4; PS31; PS31/116; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 1232 data points
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    DATA PANGAEA
  • 30
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    Physical properties of sediment core PS2618-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-X/2; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Greenland Sea; Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2618-4; PS31; PS31/121; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 4043 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 31
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    Physical properties of sediment core PS2624-3 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-X/2; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Hochstetter Bugten, East Greenland; Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2624-3; PS31; PS31/130; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2088 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 32
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    Susceptibility raw data of sediment core PS2459-3 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-IX/4; AWI_Paleo; DEPTH, sediment/rock; Gravity corer (Kiel type); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2459-3; PS27; PS27/039; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]
    Type: Dataset
    Format: text/tab-separated-values, 345 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 33
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    Susceptibility raw data of sediment core PS2460-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-IX/4; AWI_Paleo; DEPTH, sediment/rock; Gravity corer (Kiel type); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2460-4; PS27; PS27/040; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]
    Type: Dataset
    Format: text/tab-separated-values, 406 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 34
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    Susceptibility raw data of sediment core PS2462-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-IX/4; AWI_Paleo; DEPTH, sediment/rock; Gravity corer (Kiel type); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2462-4; PS27; PS27/043; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]
    Type: Dataset
    Format: text/tab-separated-values, 136 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 35
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    Susceptibility raw data of sediment core PS2461-3 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-IX/4; AWI_Paleo; DEPTH, sediment/rock; Gravity corer (Kiel type); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2461-3; PS27; PS27/041; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]
    Type: Dataset
    Format: text/tab-separated-values, 125 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 36
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    Susceptibility raw data of sediment core PS2464-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-IX/4; AWI_Paleo; DEPTH, sediment/rock; Gravity corer (Kiel type); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2464-4; PS27; PS27/046; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]
    Type: Dataset
    Format: text/tab-separated-values, 243 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 37
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    Sedimentology of core PS1588-1 (1996)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: Amphibole; ANT-VI/3; Atka Bay; AWI_Paleo; Calcium carbonate; Calculated after FOLK; Carbon, organic, total; Chlorite; DEPTH, sediment/rock; Element analyser CHN, LECO; Feldspar; Grain size, mean; Grain size, sieving/settling tube; Gravity corer (Kiel type); Ice rafted debris, general; Illite; Kaolinite; Kurtosis; Mass spectrometer Finnigan MAT 251; Neogloboquadrina pachyderma sinistral, δ13C; Neogloboquadrina pachyderma sinistral, δ18O; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Percentile 05; Percentile 16; Percentile 25; Percentile 50; Percentile 75; Percentile 84; Percentile 95; Polarstern; PS12; PS12/291; PS1588-1; Quartz; Radiolarians; Sand; Silt; Silt-Kurtosis; Silt-Mean; Silt-Skewness; Silt-Sorting; Size fraction 〈 0.002 mm, clay; Skewness; SL; Smectite; Sorting in phi; Stereomicroscope, incident light (Wild M7A/S); Sulfur, total; Talc (Area, 9.37Å); Water content, wet mass; X-ray diffraction TEXTUR, clay fraction
    Type: Dataset
    Format: text/tab-separated-values, 3114 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 38
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    Sedimentology of core PS1588-3 (1996)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ANT-VI/3; Atka Bay; AWI_Paleo; Calcium carbonate; Carbon, organic, total; DEPTH, sediment/rock; Element analyser CHN, LECO; Giant box corer; GKG; Grain size, sieving/settling tube; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS12; PS12/291; PS1588-3; Radiolarians; Sand; Silt; Size fraction 〈 0.002 mm, clay; Stereomicroscope, incident light (Wild M7A/S); Sulfur, total; Water content, wet mass
    Type: Dataset
    Format: text/tab-separated-values, 248 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 39
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    Sedimentology of core PS1799-1 (1996)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: Amphibole; ANT-VIII/5; AWI_Paleo; Calcium carbonate; Carbon, organic, total; Chlorite; DEPTH, sediment/rock; Element analyser CHN, LECO; Feldspar; Grain size, sieving; Grain size, sieving/settling tube; Gravity corer (Kiel type); Ice rafted debris, general; Illite; Kaolinite; Kapp Norvegia; Micronodules; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS16; PS16/444; PS1799-1; Quartz; Radiolarians; Sand; Silt; Size fraction 〈 0.002 mm, clay; Size fraction 〉 2 mm, gravel; SL; Smectite; Stereomicroscope, incident light (Wild M7A/S); Talc (Area, 9.37Å); Water content, wet mass; X-ray diffraction TEXTUR, clay fraction
    Type: Dataset
    Format: text/tab-separated-values, 720 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 40
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    Sedimentology of core PS1800-2 (1996)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: Amphibole; ANT-VIII/5; AWI_Paleo; Chlorite; DEPTH, sediment/rock; Feldspar; Giant box corer; GKG; Grain size, sieving; Grain size, sieving/settling tube; Illite; Kaolinite; Kapp Norvegia; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS16; PS16/446; PS1800-2; Quartz; Sand; Silt; Size fraction 〈 0.002 mm, clay; Size fraction 〉 2 mm, gravel; Smectite; Talc (Area, 9.37Å); Water content, wet mass; X-ray diffraction TEXTUR, clay fraction
    Type: Dataset
    Format: text/tab-separated-values, 91 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 41
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    Continuous thermosalinograph oceanography along POLARSTERN cruise track ARK-XI/2 (1998)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/2; AWI_PhyOce; CT; DATE/TIME; DEPTH, water; LATITUDE; LONGITUDE; Physical Oceanography @ AWI; Polarstern; PS37; PS37/2-track; Salinity; Temperature, water; Thermosalinograph; TSG; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 6584 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 42
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    Continuous thermosalinograph oceanography along POLARSTERN cruise track ARK-XIII/3 (1998)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XIII/3; AWI_PhyOce; CT; DATE/TIME; DEPTH, water; LATITUDE; LONGITUDE; Physical Oceanography @ AWI; Polarstern; PS45; PS45/3-track; Salinity; Temperature, water; Thermosalinograph; TSG; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 10537 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 43
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    Physical properties of sediment core PS2774-1 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; ARK-XI/1; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2774-1; PS36; PS36/076; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 930 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 44
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    Physical properties of sediment core PS2768-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; ARK-XI/1; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2768-4; PS36; PS36/067; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 3037 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 45
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    Physical properties of sediment core PS2773-8 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; ARK-XI/1; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2773-8; PS36; PS36/075; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2737 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 46
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    Physical properties of sediment core PS2779-6 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Laptev Sea; Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2779-6; PS36; PS36/083; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2533 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 47
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    Physical properties of sediment core PS2781-2 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Laptev Sea; Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2781-2; PS36; PS36/085; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2430 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 48
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    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS2646-5 (1996)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-X/2; AWI_Paleo; Denmark Strait; DEPTH, sediment/rock; Gravity corer (Kiel type); Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2646-5; PS31; PS31/162; SL
    Type: Dataset
    Format: text/tab-separated-values, 1148 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 49
    facet.materialart.
    Unknown
    Physical properties of sediment core PS2792-5 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Kara Sea; Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2792-5; PS36; PS36/096; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2872 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 50
    facet.materialart.
    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS2743-9 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; DEPTH, sediment/rock; Gravity corer (Kiel type); Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2743-9; PS36; PS36/031; Quaternary Environment of the Eurasian North; QUEEN; SL
    Type: Dataset
    Format: text/tab-separated-values, 135 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 51
    facet.materialart.
    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS2781-2 (1996)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; DEPTH, sediment/rock; Gravity corer (Kiel type); Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2781-2; PS36; PS36/085; Quaternary Environment of the Eurasian North; QUEEN; SL
    Type: Dataset
    Format: text/tab-separated-values, 565 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 52
    facet.materialart.
    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS2782-1 (1996)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; DEPTH, sediment/rock; Gravity corer (Kiel type); Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS2782-1; PS36; PS36/086; Quaternary Environment of the Eurasian North; QUEEN; SL
    Type: Dataset
    Format: text/tab-separated-values, 519 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 53
    facet.materialart.
    Unknown
    Physical properties of sediment core PS2741-1 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; ARK-XI/1; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; KAL; Kasten corer; Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2741-1; PS36; PS36/028; Quaternary Environment of the Eurasian North; QUEEN; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2843 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 54
    facet.materialart.
    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS1650-1 (1997)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ANT-VI/3; Atlantic Indik Ridge; AWI_Paleo; DEPTH, sediment/rock; Giant box corer; GKG; Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS12; PS12/549; PS1650-1
    Type: Dataset
    Format: text/tab-separated-values, 26 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 55
    facet.materialart.
    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS1651-2 (1997)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ANT-VI/3; Atlantic Indik Ridge; AWI_Paleo; DEPTH, sediment/rock; Giant box corer; GKG; Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS12; PS12/551; PS1651-2
    Type: Dataset
    Format: text/tab-separated-values, 40 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 56
    facet.materialart.
    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS1651-1 (1997)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ANT-VI/3; Atlantic Indik Ridge; AWI_Paleo; DEPTH, sediment/rock; Gravity corer (Kiel type); Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS12; PS12/551; PS1651-1; SL
    Type: Dataset
    Format: text/tab-separated-values, 367 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 57
    facet.materialart.
    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS1653-2 (1997)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ANT-VI/3; Atlantic Indik Ridge; AWI_Paleo; DEPTH, sediment/rock; Giant box corer; GKG; Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS12; PS12/555; PS1653-2
    Type: Dataset
    Format: text/tab-separated-values, 34 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 58
    facet.materialart.
    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS1654-2 (1997)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ANT-VI/3; Atlantic Indik Ridge; AWI_Paleo; DEPTH, sediment/rock; Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); KL; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Piston corer (BGR type); Polarstern; PS12; PS12/557; PS1654-2
    Type: Dataset
    Format: text/tab-separated-values, 1216 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 59
    facet.materialart.
    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS1653-1 (1997)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ANT-VI/3; Atlantic Indik Ridge; AWI_Paleo; DEPTH, sediment/rock; Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); KL; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Piston corer (BGR type); Polarstern; PS12; PS12/555; PS1653-1
    Type: Dataset
    Format: text/tab-separated-values, 701 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 60
    facet.materialart.
    Unknown
    Ice rafted debris (〉 2 mm gravel) distribution in sediment core PS1654-1 (1997)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ANT-VI/3; Atlantic Indik Ridge; AWI_Paleo; DEPTH, sediment/rock; Giant box corer; GKG; Ice rafted debris, number of gravel; IRD-Counting (Grobe, 1987); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS12; PS12/557; PS1654-1
    Type: Dataset
    Format: text/tab-separated-values, 46 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 61
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    Unknown
    Physical properties of sediment core PS2718-6 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Kara Sea; Multi-Sensor Core Logger 14, GEOTEK; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2718-6; PS36; PS36/002; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2946 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 62
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    Unknown
    Physical properties of sediment core PS2763-7 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; ARK-XI/1; AWI_Paleo; Density, wet bulk; Density Measuring System (DMS); DEPTH, sediment/rock; Event label; KAL; Kasten corer; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2763-7; PS36; PS36/060; Quaternary Environment of the Eurasian North; QUEEN; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 3565 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 63
    facet.materialart.
    Unknown
    Physical properties of sediment core PS2719-1 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; Density Measuring System (DMS); DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Kara Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2719-1; PS36; PS36/002a; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2837 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 64
    facet.materialart.
    Unknown
    Physical properties of sediment core PS2720-7 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; Density Measuring System (DMS); DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2720-7; PS36; PS36/003; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 2936 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 65
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    Unknown
    Physical properties of sediment core PS2722-4 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; ARK-XI/1; AWI_Paleo; Density, wet bulk; Density Measuring System (DMS); DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2722-4; PS36; PS36/006; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 1494 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 66
    facet.materialart.
    Unknown
    Physical properties of sediment core PS2724-10 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; ARK-XI/1; AWI_Paleo; Density, wet bulk; Density Measuring System (DMS); DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2724-10; PS36; PS36/008; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 884 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 67
    facet.materialart.
    Unknown
    Physical properties of sediment core PS2728-3 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: ARK-XI/1; AWI_Paleo; Density, wet bulk; Density Measuring System (DMS); DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Laptev Sea; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2728-3; PS36; PS36/012; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 1079 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 68
    facet.materialart.
    Unknown
    Physical properties of sediment core PS2724-9 (1996)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; ARK-XI/1; AWI_Paleo; Density, wet bulk; Density Measuring System (DMS); DEPTH, sediment/rock; Event label; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Porosity; PS2724-9; PS36; PS36/008; Quaternary Environment of the Eurasian North; QUEEN; SL; Susceptibility; Susceptibility unit, AWI, MS2C [145 mm]; Velocity, compressional, amplitude; Velocity, compressional wave
    Type: Dataset
    Format: text/tab-separated-values, 579 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
  • 69
    facet.materialart.
    Unknown
    Morphometry of planktonic foraminifera tests from surface sediment samples at stations PS1902-3 to PS2610-2 (1999)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: #375; Agulhas Basin; ANT-XI/4; ARK-VII/1; AWI_Paleo; Barcelona Coast; Conrad Rise; Danube Delta; Danube Delta Coast; DEPTH, sediment/rock; Diameter; Diameter, difference; Diameter, maximum; Diameter, minimum; Elevation of event; Event label; Giant box corer; GIK17725-1; GIK21902-3 PS17/077; GIK21904-1 PS17/079; GIK23386-1; GIK23454-2; GKG; Greenland Sea; Gulf of Riga; Himmerfjarden; Image analysis; Izmit Bay; LATITUDE; Lazarev Sea; Limfjorden; LONGITUDE; M13/2; M17/1; M21/4; Meteor (1986); MIC; MiniCorer; MUC; MultiCorer; Norwegian-Greenland Sea; Norwegian Sea; Oder Estuary; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Pertuis Charentais; Polarstern; PS17; PS1902-3; PS1904-1; PS2557-2; PS2560-3; PS2564-2; PS2567-1; PS2569-1; PS2585-1; PS2587-1; PS2598-1; PS2606-3; PS2607-1; PS2610-2; PS30; PS30/004; PS30/023; PS30/048; PS30/097; PS30/105; PS30/122; PS30/126; PS30/144; PS30/145; PS30/155; Quaternary Environment of the Eurasian North; QUEEN; Riiser-Larsen Sea; Scheldt Delta Estuary; South Atlantic; South Indian Ridge, South Indian Ocean; Taranto Mare Piccolo; Thau Lagoon; Thermaikos Gulf
    Type: Dataset
    Format: text/tab-separated-values, 17376 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 70
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    Unknown
    Silicate and phosphate surface flux data (1999)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Angola Basin; B_LANDER; Bottom lander; Brazil Basin; Calculated; Cape Basin; Comment; Congo Fan; DEPTH, sediment/rock; East Brazil Basin; Elevation of event; Equatorial Atlantic; Event label; GeoB; GeoB1008-6; GeoB1015-2; GeoB1018-2; GeoB1023-2; GeoB1028-4; GeoB1031-7; GeoB1035-2; GeoB1037-2; GeoB1041-1; GeoB1043-2; GeoB1101-4; GeoB1104-6; GeoB1111-5; GeoB1117-4; GeoB1401-2; GeoB1403-2; GeoB1405-8; GeoB1407-8; GeoB1413-1; GeoB1420-1; GeoB1701-2; GeoB1702-6; GeoB1703-3; GeoB1704-2; GeoB1706-1; GeoB1708-1; GeoB1710-1; GeoB1711-6; GeoB1712-1; GeoB1713-5; GeoB1715-3; GeoB1716-1; GeoB1719-4; GeoB1720-3; GeoB1721-5; GeoB1722-2; GeoB1724-3; GeoB1729-2; GeoB2002-2; GeoB2004-1; GeoB2010-1; GeoB2016-3; GeoB2212-1; GeoB2213-1; GeoB2215-8; GeoB2216-2; Geosciences, University of Bremen; Giant box corer; GKG; Guinea Basin; Kongo delta; Latitude of event; Longitude of event; M16/1; M20/2; M23/1; M23/3; M6/6; M9/4; Meteor (1986); MUC; MultiCorer; Namibia continental slope; Niger Sediment Fan; Northern Guinea Basin; off Kunene; Phosphate, flux; SFB261; Silicate, flux; Silicon Cycling in the World Ocean; SINOPS; South African margin; South Atlantic in Late Quaternary: Reconstruction of Budget and Currents; Southwest Guinea Basin; Walvis Ridge; West Angola Basin
    Type: Dataset
    Format: text/tab-separated-values, 100 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 71
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    Unknown
    Flux data of surface sediment cores (1999)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: 10BC35-2; 11.5BC46-2; 11BC39; 11TW1; 12.5BC54; 12BC47-2; 12GC2; 13BC56; 14BC59; 14GC1; 15BC64; 23GC1; 24SC1; 8BC27-3; Amazon Fan; Amazon Shelf/Fan; Angola Basin; Argentine Basin; B_LANDER; BC; Bottom lander; Box corer; Brazil Basin; Calculated; Cape Basin; Comment; Congo Fan; Continental slope off Brazil; DEPTH, sediment/rock; East Brazil Basin; Elevation of event; Equatorial Atlantic; Event label; GC; GeoB; GeoB1008-6; GeoB1015-2; GeoB1018-2; GeoB1023-2; GeoB1028-4; GeoB1031-7; GeoB1035-2; GeoB1037-2; GeoB1041-1; GeoB1043-2; GeoB1101-4; GeoB1104-6; GeoB1111-5; GeoB1117-4; GeoB1401-2; GeoB1403-2; GeoB1404-8; GeoB1405-8; GeoB1406-1; GeoB1407-8; GeoB1412-2; GeoB1413-1; GeoB1420-1; GeoB1421-1; GeoB1501-1; GeoB1505-3; GeoB1508-1; GeoB1511-6; GeoB1512-2; GeoB1514-4; GeoB1701-2; GeoB1702-6; GeoB1703-3; GeoB1704-2; GeoB1706-1; GeoB1708-1; GeoB1710-1; GeoB1711-6; GeoB1712-1; GeoB1713-5; GeoB1715-3; GeoB1716-1; GeoB1719-4; GeoB1720-3; GeoB1721-5; GeoB1722-2; GeoB1724-3; GeoB1726-1; GeoB1729-2; GeoB2002-2; GeoB2004-1; GeoB2010-1; GeoB2011-1; GeoB2016-3; GeoB2018-1; GeoB2019-2; GeoB2021-4; GeoB2022-3; GeoB2102-1; GeoB2104-1; GeoB2105-3; GeoB2106-1; GeoB2107-5; GeoB2108-1; GeoB2110-1; GeoB2112-1; GeoB2116-2; GeoB2117-4; GeoB2118-1; GeoB2119-2; GeoB2124-1; GeoB2125-2; GeoB2126-1; GeoB2201-1; GeoB2202-5; GeoB2204-1; GeoB2205-4; GeoB2208-1; GeoB2212-1; GeoB2213-1; GeoB2215-8; GeoB2216-2; GeoB2703-7; GeoB2704-1; GeoB2705-7; GeoB2706-6; GeoB2707-4; GeoB2708-5; GeoB2709-6; GeoB2712-1; GeoB2714-5; GeoB2715-1; GeoB2717-8; GeoB2718-1; GeoB2719-2; GeoB2722-2; GeoB2723-2; GeoB2724-7; GeoB2726-3; GeoB2727-1; GeoB2729-1; GeoB2730-1; GeoB2731-1; GeoB2801-1; GeoB2802-2; GeoB2803-1; GeoB2804-2; GeoB2805-1; GeoB2806-6; GeoB2807-1; GeoB2808-3; GeoB2809-2; GeoB2810-2; GeoB2811-1; GeoB2812-3; GeoB2813-1; GeoB2814-3; GeoB2817-3; GeoB2818-1; GeoB2820-1; GeoB2824-1; GeoB2825-3; GeoB2826-1; GeoB2828-1; GeoB2829-3; GeoB2903-1; GeoB2904-11; GeoB2905-1; GeoB2906-3; GeoB2907-1; GeoB2908-8; GeoB2909-1; GeoB2910-2; GeoB3608-1; GeoB3701-1; GeoB3702-2; GeoB3703-6; GeoB3704-2; GeoB3705-3; GeoB3706-3; GeoB3707-4; GeoB3713-1; GeoB3714-3; GeoB3715-2; GeoB3717-2; GeoB3718-4; GeoB3719-2; GeoB3721-4; GeoB3724-3; GeoB3801-5; GeoB3802-2; GeoB3803-1; GeoB3804-2; GeoB3808-7; GeoB3809-1; GeoB3810-2; GeoB3812-2; GeoB3822-1; GeoB3825-1; GeoB3827-1; GeoB3906-9; GeoB3908-1; GeoB3909-1; GeoB3910-3; GeoB3911-1; GeoB3914-3; GeoB3915-1; GeoB3925-2; Geosciences, University of Bremen; Giant box corer; GKG; Gravity corer; Guinea Basin; In situ pump; ISP; Kongo delta; LATITUDE; LONGITUDE; M16/1; M16/2; M20/2; M23/1; M23/2; M23/3; M29/1; M29/2; M29/3; M34/1; M34/2; M34/3; M34/4; M6/6; M9/4; Meteor (1986); Mid Atlantic Ridge; MUC; MultiCorer; Namibia continental slope; Niger Sediment Fan; Nitrate, flux; Northeast Brasilian Margin; Northern Brasil-Basin; Northern Cape Basin; Northern Guinea Basin; off Kunene; Phosphate, flux; Rio Grande Rise; Santos Plateau; SFB261; Sierra Leone Rise; Silicate, flux; Silicon Cycling in the World Ocean; SINOPS; Slope off Argentina; South African margin; South Atlantic in Late Quaternary: Reconstruction of Budget and Currents; Southwest Guinea Basin; SPC; Sphincter corer; TC; Trigger corer; Uruguay continental margin; Vema Channel; Walvis Ridge; West Angola Basin; Western Equatorial Atlantic
    Type: Dataset
    Format: text/tab-separated-values, 520 data points
    Location Call Number Expected Availability
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  • 72
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    Unknown
    Carbon and nitrogen data of sediment core GeoB1312-2 (1999)
    PANGAEA
    In:  Department of Geosciences, Bremen University
    Details
    Publication Date: 2024-07-01
    Keywords: 06MT15_2; Calcium carbonate; Carbon, total; DEPTH, sediment/rock; Eastern Rio Grande Rise; Element analyser CHN; GeoB; GeoB1312-2; Geosciences, University of Bremen; Gravity corer (Kiel type); M15/2; Meteor (1986); Nitrogen, total; SL
    Type: Dataset
    Format: text/tab-separated-values, 246 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 73
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    Unknown
    Carbon and nitrogen data of sediment core GeoB1309-2 (1999)
    PANGAEA
    In:  Department of Geosciences, Bremen University
    Details
    Publication Date: 2024-07-01
    Keywords: 06MT15_2; Calcium carbonate; Carbon, total; DEPTH, sediment/rock; Eastern Rio Grande Rise; Element analyser CHN; GeoB; GeoB1309-2; Geosciences, University of Bremen; Gravity corer (Kiel type); M15/2; Meteor (1986); Nitrogen, total; SL
    Type: Dataset
    Format: text/tab-separated-values, 564 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 74
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    Unknown
    (Table A1) Factor analysis of live benthic foraminifera assemblage in surface sediments (1993)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Agulhas Basin; ANT-IX/4; ANT-VI/3; ANT-VIII/3; Atlantic Indik Ridge; Atlantic Ridge; AWI_Paleo; Cape Basin; Communality; Discovery Seamount; Elevation of event; Event label; Factor 1; Factor 2; Factor 3; Factor 4; Factor 5; Factor analysis; Giant box corer; GKG; Indian-Antarctic Ridge; LATITUDE; LONGITUDE; Meteor Rise; MUC; MultiCorer; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS12; PS12/545; PS12/551; PS12/553; PS12/555; PS12/557; PS16; PS16/262; PS16/267; PS16/271; PS16/278; PS16/281; PS16/284; PS16/294; PS16/303; PS16/306; PS16/311; PS16/316; PS16/321; PS16/323; PS16/329; PS16/334; PS16/337; PS16/342; PS16/345; PS16/351; PS16/354; PS16/362; PS16/366; PS16/372; PS1649-1; PS1651-2; PS1652-1; PS1653-2; PS1654-1; PS1750-7; PS1751-2; PS1752-5; PS1754-2; PS1755-1; PS1756-6; PS1759-1; PS1764-2; PS1765-1; PS1768-1; PS1771-4; PS1772-6; PS1773-2; PS1774-1; PS1775-5; PS1776-6; PS1777-7; PS1778-1; PS1779-3; PS1780-1; PS1782-6; PS1783-1; PS1786-2; PS18; PS18/229; PS18/232; PS18/236; PS18/237; PS18/238; PS18/239; PS18/241; PS18/242; PS18/243; PS18/244; PS18/249; PS18/250; PS18/251; PS18/252; PS18/253; PS18/254; PS18/255; PS18/256; PS18/257; PS18/260; PS18/261; PS18/262; PS18/263; PS18/264; PS18/266; PS18/267; PS2073-1; PS2076-1; PS2080-1; PS2081-1; PS2082-3; PS2083-1; PS2084-2; PS2085-1; PS2086-3; PS2087-1; PS2091-1; PS2092-1; PS2093-1; PS2094-1; PS2095-1; PS2096-1; PS2097-1; PS2098-1; PS2099-1; PS2102-1; PS2103-2; PS2104-1; PS2105-2; PS2106-1; PS2108-1; PS2109-3; SFB261; Shona Ridge; South Atlantic in Late Quaternary: Reconstruction of Budget and Currents; South Sandwich Basin; South Sandwich Islands; South Sandwich Trough; Van Heesen Ridge
    Type: Dataset
    Format: text/tab-separated-values, 324 data points
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  • 75
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    Unknown
    Alkenones and SST of surface sediments (Appendix) (1998)
    PANGAEA
    In:  Supplement to: Müller, Peter J; Kirst, Georg; Ruhland, Götz; Von Storch, Isabel; Rosell-Melé, Antoni (1998): Calibration of the alkenone paleotemperature index UK'37 based on core-tops from the eastern South Atlantic and the global ocean (60°N-60°S). Geochimica et Cosmochimica Acta, 62(10), 1757-1772, https://doi.org/10.1016/S0016-7037(98)00097-0
    Details
    Publication Date: 2024-07-01
    Description: We have analysed alkenones in 149 surface sediments from the eastern South Atlantic in order to establish a sediment-based calibration of the U37K' paleotemperature index. Our study covers the major tropical to subpolar production systems and sea-surface temperatures (SST's) between 0° and 27°C. In order to define the most suitable calibration for this region, the U37K' values were correlated to seasonal, annual, and production-weighted annual mean atlas temperatures and compared to previously published culture and core-top calibrations. The best linear correlation between U37K' and SST was obtained using annual mean SST from 0 to 10 m water depth (U37K' = 0.033 T + 0.069, r**2 = 0.981). Data scattering increased significantly using temperatures of waters deeper than 20 m, suggesting that U37K' reflects mixed-layer SST and that alkenone production at thermocline depths was not high enough to significantly bias the mixed-layer signal. Regressions based on both production-weighted and on actual annual mean atlas SST were virtually identical, indicating that regional variations in the seasonality of primary production have no discernible effect on the U37K' vs. SST relationship. Comparison with published core-top calibrations from other oceanic regions revealed a high degree of accordance. We, therefore, established a global core-top calibration using U37K' data from 370 sites between 60°S and 60°N in the Atlantic, Indian, and Pacific Oceans and annual mean atlas SST (0-29°C) from 0 m water depth. The resulting relationship (U37K' = 0.033 T + 0.044, r**2 = 958) is identical within error limits to the widely used E. huxleyi calibrations of and attesting their general applicability. The observation that core-top calibrations extending over various biogeographical coccolithophorid zones are strongly linear and in better accordance than culture calibrations suggests that U37K' is less species-dependent than is indicated by culture experiments. The results also suggest that variations in growth rate of algae and nutrient availability do not significantly affect the sedimentary record of U37K' in open ocean environments.
    Keywords: Agulhas Basin; Agulhas Ridge; Alkenone, unsaturation index UK'37; Angola Benguela Front; Angola Diapir Field; ANT-VIII/3; ANT-XI/2; Atlantic Ridge; Brazil Basin; Calculated from C37 alkenones (Brassell et al., 1986); Cape Basin; Congo Fan; DEPTH, sediment/rock; East Brazil Basin; Elevation of event; Equatorial Atlantic; Event label; GeoB; GeoB1005-2; GeoB1006-2; GeoB1007-2; GeoB1008-6; GeoB1010-3; GeoB1015-2; GeoB1016-2; GeoB1017-3; GeoB1020-1; GeoB1023-2; GeoB1024-3; GeoB1025-2; GeoB1026-3; GeoB1027-2; GeoB1028-2; GeoB1028-4; GeoB1029-1; GeoB1031-1; GeoB1032-2; GeoB1035-3; GeoB1037-1; GeoB1039-1; GeoB1040-3; GeoB1041-1; GeoB1101-4; GeoB1102-3; GeoB1103-3; GeoB1104-5; GeoB1105-3; GeoB1106-5; GeoB1108-6; GeoB1109-4; GeoB1110-3; GeoB1111-5; GeoB1112-3; GeoB1114-3; GeoB1115-4; GeoB1116-1; GeoB1117-3; GeoB1118-2; GeoB1120-3; GeoB1203-2; GeoB1204-3; GeoB1207-2; GeoB1208-1; GeoB1209-1; GeoB1210-3; GeoB1211-1; GeoB1212-2; GeoB1214-2; GeoB1215-1; GeoB1216-2; GeoB1217-1; GeoB1218-1; GeoB1401-1; GeoB1403-2; GeoB1405-7; GeoB1407-7; GeoB1413-2; GeoB1414-2; GeoB1417-2; GeoB1418-1; GeoB1420-1; GeoB1607-8; GeoB1608-9; GeoB1609-9; GeoB1612-9; GeoB1613-10; GeoB1702-6; GeoB1703-5; GeoB1704-1; GeoB1705-2; GeoB1706-1; GeoB1707-2; GeoB1709-3; GeoB1710-2; GeoB1711-5; GeoB1712-2; GeoB1713-6; GeoB1714-1; GeoB1715-1; GeoB1716-2; GeoB1717-2; GeoB1718-1; GeoB1719-5; GeoB1720-4; GeoB1721-4; GeoB1722-3; GeoB1724-4; GeoB1726-2; GeoB1901-1; GeoB1902-3; GeoB1903-1; GeoB1904-1; GeoB1905-1; GeoB1906-1; GeoB1907-1; GeoB1908-1; GeoB2001-1; GeoB2007-1; GeoB2008-1; GeoB2009-1; GeoB2010-1; GeoB2011-1; GeoB2016-3; GeoB2019-2; GeoB2021-4; GeoB2301-1; GeoB2302-1; GeoB2303-1; GeoB2304-1; GeoB2305-1; GeoB2306-1; GeoB2307-1; GeoB2308-1; GeoB2309-1; GeoB2310-1; GeoB3602-2; GeoB3603-1; GeoB3604-4; GeoB3605-1; GeoB3606-2; GeoB3607-1; GeoB3608-1; Geosciences, University of Bremen; Giant box corer; GIK17836-1; GIK17843-1; GIK17851-1; GIK17862-1; GIK17866-1; GIK17884-1; GIK17912-1; GKG; Guinea Basin; Indian-Antarctic Ridge; Kongo delta; LATITUDE; LONGITUDE; M12/1; M16/1; M20/1; M20/2; M23/1; M34/1; M6/6; M9/4; Meteor (1986); Meteor Rise; MIC; Mid Atlantic Ridge; MiniCorer; MUC; MultiCorer; Namibia Continental Margin; Northern Cape Basin; Northern Guinea Basin; off Kunene; Polarstern; PROBOSWA; PS16; PS16/262; PS16/267; PS16/271; PS16/284; PS16/294; PS16/303; PS16/311; PS16/316; PS16/321; PS16/334; PS16/337; PS16/342; PS16/345; PS16/351; PS16/362; PS1750-7; PS1751-2; PS1752-5; PS1756-6; PS1759-1; PS1764-2; PS1768-1; PS1771-4; PS1772-6; PS1775-5; PS1776-6; PS1777-7; PS1778-1; PS1779-3; PS1782-6; PS2489-4; PS2491-5; PS2492-1; PS2493-3; PS2494-1; PS2495-1; PS2496-2; PS2498-2; PS2499-1; PS2500-7; PS28; PS28/256; PS28/264; PS28/277; PS28/280; PS28/289; PS28/293; PS28/298; PS28/304; PS28/314; PS28/316; Romanche fracture zone; Sea surface temperature, annual mean; Sea surface temperature, production weighted; SFB261; Shona Ridge; SO84; SO86; Sonne; South African margin; South Atlantic; South Atlantic in Late Quaternary: Reconstruction of Budget and Currents; Southern Cape Basin; South Sandwich Basin; Southwest Guinea Basin; ST. HELENA HOTSPOT; Van Heesen Ridge; Walvis Ridge; West Angola Basin
    Type: Dataset
    Format: text/tab-separated-values, 447 data points
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  • 76
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    Unknown
    Clay mineralogy of surface sediments (1997)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: Amphibole; Amundsen Basin; ARK-V/3b; ARK-VII/3b; ARK-VIII/2; ARK-VIII/3; AWI_Paleo; Barents Sea; Chlorite; DEPTH, sediment/rock; Elevation of event; Event label; Feldspar; Gakkel Ridge, Arctic Ocean; Giant box corer; Giant piston corer; GIK21709-1 PS13/151; GIK21710-1 PS13/156; GIK21712-1 PS13/160; GIK21713-1 PS13/161; GIK21714-1 PS13/165; GIK21715-1 PS13/166; GIK21716-1 PS13/167; GIK21717-1 PS13/169; GIK21733-1 PS13/240; GIK21734-1 PS13/247; GIK21735-1 PS13/249; GKG; GPC; Gravity corer (Kiel type); Greenland Shelf; Greenland Slope; Illite; KAL; Kaolinite; Kasten corer; King Oskar Fjord; LATITUDE; Lomonosov Ridge, Arctic Ocean; LONGITUDE; Makarov Basin; MG; MIC; MiniCorer; Morris Jesup Rise; MUC; Multiboxcorer; MultiCorer; Nansen Basin; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS13 GRÖKORT; PS17; PS17/239; PS17/240; PS17/241; PS17/242; PS17/243; PS17/244; PS17/245; PS17/247; PS17/248; PS17/249; PS17/250; PS17/251; PS17/252; PS17/258; PS17/260; PS17/262; PS17/264; PS17/265; PS17/266; PS17/272; PS17/273; PS17/274; PS17/275; PS17/276; PS17/277; PS17/281; PS17/282; PS17/283; PS17/285; PS17/286; PS17/287; PS17/288; PS17/289; PS17/290; PS1709-1; PS1710-1; PS1712-1; PS1713-1; PS1714-1; PS1715-1; PS1716-1; PS1717-1; PS1733-1; PS1734-1; PS1735-1; PS19/040; PS19/045; PS19/050; PS19/055; PS19/070; PS19/078; PS19/080; PS19/081; PS19/082; PS19/084; PS19/086; PS19/090; PS19/091; PS19/094; PS19/098; PS19/100; PS19/101; PS19/102; PS19/104; PS19/105; PS19/108; PS19/110; PS19/111; PS19/112; PS19/116; PS19/117; PS19/119; PS19/124; PS19/126; PS19/132; PS19/134; PS19/136; PS19/143; PS19/148; PS19/150; PS19/151; PS19/152; PS19/154; PS19/155; PS19/157; PS19/158; PS19/159; PS19/160; PS19/161; PS19/164; PS19/165; PS19/166; PS19/167; PS19/171; PS19/172; PS19/173; PS19/175; PS19/176; PS19/178; PS19/181; PS19/182; PS19/183; PS19/184; PS19/185; PS19/186; PS19/189; PS19/190; PS19/192; PS19/194; PS19/198; PS19/200; PS19/204; PS19/206; PS19/210; PS19/214; PS19/216; PS19/218; PS19/222; PS19/226; PS19/239; PS19/241; PS19/245; PS19/246; PS19/249; PS19/252; PS1916-1; PS1917-1; PS1918-1; PS1919-1; PS1920-1; PS1921-1; PS1922-1; PS1923-1; PS1924-1; PS1925-1; PS1926-1; PS1927-1; PS1928-1; PS1930-1; PS1931-1; PS1932-1; PS1933-1; PS1934-1; PS1935-1; PS1937-1; PS1938-1; PS1939-1; PS1940-1; PS1941-1; PS1942-1; PS1943-1; PS1944-1; PS1945-1; PS1946-1; PS1947-1; PS1948-1; PS1949-1; PS1950-1; PS1951-1; PS19 ARCTIC91; PS19 EPOS II; PS2111-1; PS2113-1; PS2114-1; PS2115-1; PS2116-1; PS2117-1; PS2119-1; PS2120-1; PS2121-1; PS2122-1; PS2123-1; PS2124-1; PS2125-1; PS2127-1; PS2128-1; PS2129-1; PS2130-1; PS2131-1; PS2132-1; PS2133-1; PS2134-1; PS2136-1; PS2137-1; PS2138-1; PS2142-1; PS2143-1; PS2144-1; PS2147-1; PS2148-1; PS2149-1; PS2150-1; PS2151-1; PS2153-1; PS2156-1; PS2157-1; PS2158-1; PS2159-1; PS2161-1; PS2162-1; PS2163-1; PS2164-1; PS2165-1; PS2166-1; PS2167-1; PS2168-1; PS2170-1; PS2171-1; PS2172-1; PS2174-1; PS2175-1; PS2176-1; PS2177-1; PS2178-1; PS2179-1; PS2180-1; PS2181-1; PS2182-1; PS2183-1; PS2184-1; PS2185-1; PS2186-1; PS2187-1; PS2189-1; PS2190-1; PS2192-1; PS2193-1; PS2194-1; PS2195-1; PS2196-1; PS2198-1; PS2199-1; PS2200-1; PS2202-1; PS2205-1; PS2209-1; PS2210-1; PS2212-1; PS2213-1; PS2214-1; PS2215-1; Quartz; Quaternary Environment of the Eurasian North; QUEEN; Scoresby Sund; SL; Smectite; Svalbard; Talc (Area, 9.37Å); X-ray diffraction TEXTUR, clay fraction; Yermak Plateau
    Type: Dataset
    Format: text/tab-separated-values, 1000 data points
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  • 77
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    Unknown
    (Table 2) Stable carbon isotope ratios of bottom water and benthic foraminifera from surface sediment samples (1993)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Agulhas Basin; ANT-IV/3; ANT-IV/4; ANT-IX/3; ANT-IX/4; ANT-V/4; ANT-VI/3; ANT-VIII/3; ANT-VIII/6; Argentine Islands; Astrid Ridge; Atka Bay; Atlantic Indik Ridge; Atlantic Ridge; AWI_Paleo; Bulimina aculeata, δ13C; Bulimina aculeata, δ18O; Camp Norway; Cape Basin; Cibicidoides cf. wuellerstorfi, δ13C; Cibicidoides cf. wuellerstorfi, δ18O; Cibicidoides spp., δ13C; Cibicidoides spp., δ18O; CTD/Rosette; CTD-RO; DEPTH, sediment/rock; Discovery Seamount; Eastern Weddell Sea, Southern Ocean; Elevation of event; Event label; Filchner Trough; Fram Strait; Giant box corer; GKG; Indian-Antarctic Ridge; Kapp Norvegia; LATITUDE; Lazarev Sea; LONGITUDE; Mass spectrometer Finnigan MAT 251; Meteor Rise; MUC; MultiCorer; Nuttallides umbonifera, δ13C; Nuttallides umbonifera, δ18O; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS08; PS08/345; PS08/374; PS08/410; PS08/509; PS10; PS10/816; PS12; PS12/382; PS12/545; PS12/551; PS12/553; PS12/555; PS12/557; PS1373-2; PS1394-1; PS1410-1; PS1436-1; PS1506-2; PS16; PS16/262; PS16/267; PS16/271; PS16/278; PS16/281; PS16/284; PS16/294; PS16/303; PS16/306; PS16/311; PS16/316; PS16/321; PS16/323; PS16/329; PS16/334; PS16/337; PS16/342; PS16/345; PS16/351; PS16/354; PS16/362; PS16/366; PS16/552; PS16/554; PS16/557; PS16/559; PS1626-1; PS1649-1; PS1651-2; PS1652-1; PS1653-2; PS1654-1; PS1750-7; PS1751-2; PS1752-5; PS1754-2; PS1755-1; PS1756-6; PS1759-1; PS1764-2; PS1765-1; PS1768-1; PS1771-4; PS1772-6; PS1773-2; PS1774-1; PS1775-5; PS1776-6; PS1777-7; PS1778-1; PS1779-3; PS1780-1; PS1782-6; PS1783-1; PS18; PS18/153; PS18/184; PS18/185; PS18/186; PS18/187; PS18/192; PS18/193; PS18/194; PS18/198; PS18/199; PS18/204; PS18/229; PS18/231; PS18/232; PS18/236; PS18/237; PS18/238; PS18/239; PS18/241; PS18/242; PS18/243; PS18/244; PS18/249; PS18/250; PS18/251; PS18/252; PS18/253; PS18/254; PS18/255; PS18/256; PS18/257; PS18/260; PS18/261; PS18/262; PS18/263; PS18/264; PS18/266; PS18/267; PS1828-6; PS1829-5; PS1831-6; PS1832-4; PS2011-1; PS2037-2; PS2038-3; PS2039-2; PS2040-1; PS2045-2; PS2046-2; PS2047-2; PS2050-2; PS2051-3; PS2056-3; PS2073-1; PS2075-3; PS2076-1; PS2080-1; PS2081-1; PS2082-3; PS2083-1; PS2084-2; PS2085-1; PS2086-3; PS2087-1; PS2091-1; PS2092-1; PS2093-1; PS2094-1; PS2095-1; PS2096-1; PS2097-1; PS2098-1; PS2099-1; PS2102-1; PS2103-2; PS2104-1; PS2105-2; PS2106-1; PS2108-1; PS2109-3; SFB261; Shona Ridge; South Atlantic in Late Quaternary: Reconstruction of Budget and Currents; South Sandwich Basin; South Sandwich Islands; Van Heesen Ridge; Weddell Sea; δ13C, dissolved inorganic carbon; δ13C, organic carbon
    Type: Dataset
    Format: text/tab-separated-values, 475 data points
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  • 78
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    Unknown
    Geochemical raw data of sediment core GeoB1101-4 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Aluminium; Barium; Calcium; DEPTH, sediment/rock; GeoB; GeoB1101-4; Geosciences, University of Bremen; Giant box corer; GKG; Guinea Basin; Inductively coupled plasma atomic emission spectroscope (ICP-AES); M9/4; Magnesium; Manganese; Meteor (1986); Potassium; Strontium
    Type: Dataset
    Format: text/tab-separated-values, 56 data points
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  • 79
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    Unknown
    Silicate in porewater of sediment core GeoB1101-6 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: DEPTH, sediment/rock; GeoB; GeoB1101-6; Geosciences, University of Bremen; Gravity corer (Kiel type); Guinea Basin; Inductively coupled plasma atomic emission spectroscope (ICP-AES); M9/4; Meteor (1986); Silicate; Silicon Cycling in the World Ocean; SINOPS; SL
    Type: Dataset
    Format: text/tab-separated-values, 38 data points
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  • 80
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    Unknown
    Silicate in porewater of sediment core GeoB1101-4 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: CFA; Continuous Flow Analysis; DEPTH, sediment/rock; GeoB; GeoB1101-4; Geosciences, University of Bremen; Giant box corer; GKG; Guinea Basin; M9/4; Meteor (1986); Silicate; Silicon Cycling in the World Ocean; SINOPS
    Type: Dataset
    Format: text/tab-separated-values, 8 data points
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  • 81
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    Unknown
    Silicate in porewater of sediment core GeoB1104-5 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: CFA; Continuous Flow Analysis; DEPTH, sediment/rock; Equatorial Atlantic; GeoB; GeoB1104-5; Geosciences, University of Bremen; Giant box corer; GKG; M9/4; Meteor (1986); Silicate; Silicon Cycling in the World Ocean; SINOPS
    Type: Dataset
    Format: text/tab-separated-values, 8 data points
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  • 82
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    Unknown
    Bioturbation of sediment core PS1533-3 (1999)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Antarctic Ocean; ARK-IV/3; AWI_Paleo; Bioturbation, numeric code; Calculated from X-radiographs; DEPTH, sediment/rock; GIK21533-3 PS11/412; Gravity corer (Kiel type); Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS11; PS1533-3; Quaternary Environment of the Eurasian North; QUEEN; SL
    Type: Dataset
    Format: text/tab-separated-values, 224 data points
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  • 83
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    Unknown
    Silicate in porewater of sediment core GeoB1104-6 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: CFA; Continuous Flow Analysis; DEPTH, sediment/rock; Equatorial Atlantic; GeoB; GeoB1104-6; Geosciences, University of Bremen; M9/4; Meteor (1986); MUC; MultiCorer; Silicate; Silicon Cycling in the World Ocean; SINOPS
    Type: Dataset
    Format: text/tab-separated-values, 5 data points
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    DATA PANGAEA
  • 84
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    Unknown
    Silicate in porewater of sediment core GeoB1104-4 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: DEPTH, sediment/rock; Equatorial Atlantic; GeoB; GeoB1104-4; Geosciences, University of Bremen; Gravity corer (Kiel type); Inductively coupled plasma atomic emission spectroscope (ICP-AES); M9/4; Meteor (1986); Silicate; Silicon Cycling in the World Ocean; SINOPS; SL
    Type: Dataset
    Format: text/tab-separated-values, 42 data points
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  • 85
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    Unknown
    Silicate in porewater of sediment core GeoB1111-4 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: DEPTH, sediment/rock; Equatorial Atlantic; GeoB; GeoB1111-4; Geosciences, University of Bremen; Gravity corer (Kiel type); Inductively coupled plasma atomic emission spectroscope (ICP-AES); M9/4; Meteor (1986); Silicate; Silicon Cycling in the World Ocean; SINOPS; SL
    Type: Dataset
    Format: text/tab-separated-values, 45 data points
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  • 86
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    Unknown
    Silicate in porewater of sediment core GeoB1117-4 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Brazil Basin; CFA; Continuous Flow Analysis; DEPTH, sediment/rock; GeoB; GeoB1117-4; Geosciences, University of Bremen; M9/4; Meteor (1986); MUC; MultiCorer; Silicate; Silicon Cycling in the World Ocean; SINOPS
    Type: Dataset
    Format: text/tab-separated-values, 4 data points
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  • 87
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    Unknown
    Oxygen content and paleoproductivity from surface sediment samples Y69-86 to PLDS-004G (1994)
    PANGAEA
    In:  Supplement to: Loubere, Paul (1994): Quantitative estimation of surface ocean productivity and bottom water oxygen concentration using benthic foraminifera. Paleoceanography, 9(5), 723-738, https://doi.org/10.1029/94PA01624
    Details
    Publication Date: 2024-07-01
    Description: Quantitative estimation of surface ocean productivity and bottom water oxygen concentration with benthic foraminifera was attempted using 70 samples from equatorial and North Pacific surface sediments. These samples come from a well defined depth range in the ocean, between 2200 and 3200 m, so that depth related factors do not interfere with the estimation. Samples were selected so that foraminifera were well preserved in the sediments and temperature and salinity were nearly uniform (T = 1.5° C; S = 34.6 per mil). The sample set was also assembled so as to minimize the correlation often seen between surface ocean productivity and bottom water oxygen values (r**2 = 0.23 for prediction purposes in this case). This procedure reduced the chances of spurious results due to correlations between the environmental variables. The samples encompass a range of productivities from about 25 to 〉300 gC m**-2 yr**-1, and a bottom water oxygen range from 1.8 to 3.5 ml/L. Benthic foraminiferal assemblages were quantified using the 〉62 µm fraction of the sediments and 46 taxon categories. MANOVA multivariate regression was used to project the faunal matrix onto the two environmental dimensions using published values for productivity and bottom water oxygen to calibrate this operation. The success of this regression was measured with the multivariate r? which was 0.98 for the productivity dimension and 0.96 for the oxygen dimension. These high coefficients indicate that both environmental variables are strongly imbedded in the faunal data matrix. Analysis of the beta regression coefficients shows that the environmental signals are carried by groups of taxa which are consistent with previous work characterizing benthic foraminiferal responses to productivity and bottom water oxygen. The results of this study suggest that benthic foraminiferal assemblages can be used for quantitative reconstruction of surface ocean productivity and bottom water oxygen concentrations if suitable surface sediment calibration data sets are developed and appropriate means for detecting no-analog samples are found.
    Keywords: AMPH-019G; AMPH01AR; AMPH-020P; AMPH-031GV; AMPHITRITE; Argo; AT_II-054_01PG; AT_II-054_14PC; AT_II-054_14PG; AT_II-054_25PC; ATII_USA; Atlantis II (1963); BC223; Calculated; Comment; Core; CORE; DEPTH, sediment/rock; Elevation of event; Event label; FFC; Free fall corer; GC; Gravity corer; GS7202-15; GS7202-16; GS7202-33; GS7202-56; GS7202-74G; GS7202-79G; GS7202-86G; KE1GGGC1; KK71-FFC-105; KK71-FFC-107; KK71-FFC-108; KK71-FFC-111; KK71-FFC-169; KK71-FFC-171; KK71-FFC-172; KK71-FFC-179; KK71-FFC-188; KK71-FFC-195; KK71-FFC-197; KK71-FFC-199; KK71-FFC-205; KK71-FFC-7W; KK72-FFC33W; KK72-FFC37; KK72-FFC41; KK73-1025; KK80-0714; Latitude of event; LG85NC96C; LG85NCGC6; Longitude of event; Melville; MG3; OC73-3; OC73-3-024; Oceanographer; Oxygen; P6702-33G; P6702-34G; P6702-35G; P6702-57; P6702-58; P6702-59; P6702-9; Pacific; Paleoproductivity as carbon; PC; Piston corer; PLDS-001G; PLDS-004G; PLDS-1; Pleiades; RC09; RC09-101; RC14; RC14-172; Robert Conrad; SCAN; SCAN-027G; SCAN-028G; South Pacific Ocean; V19; V19-50; V19-51; Vema; VM20-19; Y69-71P; Y69-86P; Y71-03; Y71-03-02; Y71-03-03; Y71-03-04; Y71-03-05; Y71-03-11; Y71-03-15; Y71-03-18; Y71-03-19; Y71-03-31; Y71-06; Y71-06-12; Y71-07; Y71-07-45; Y71-09; Y71-09-104; Y71-09-106; Y71-09-115; YALOC69; Yaquina
    Type: Dataset
    Format: text/tab-separated-values, 280 data points
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  • 88
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    Unknown
    Silicate in porewater of sediment core GeoB1117-3 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Brazil Basin; CFA; Continuous Flow Analysis; DEPTH, sediment/rock; GeoB; GeoB1117-3; Geosciences, University of Bremen; Giant box corer; GKG; M9/4; Meteor (1986); Silicate; Silicon Cycling in the World Ocean; SINOPS
    Type: Dataset
    Format: text/tab-separated-values, 6 data points
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  • 89
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    Unknown
    Silicate in porewater of sediment core GeoB1117-1 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Brazil Basin; DEPTH, sediment/rock; GeoB; GeoB1117-1; Geosciences, University of Bremen; Gravity corer (Kiel type); Inductively coupled plasma atomic emission spectroscope (ICP-AES); M9/4; Meteor (1986); Silicate; Silicon Cycling in the World Ocean; SINOPS; SL
    Type: Dataset
    Format: text/tab-separated-values, 51 data points
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  • 90
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    Unknown
    Silicate in porewater of sediment core GeoB1120-3 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: DEPTH, sediment/rock; GeoB; GeoB1120-3; Geosciences, University of Bremen; Giant box corer; GKG; Inductively coupled plasma atomic emission spectroscope (ICP-AES); M9/4; Meteor (1986); Romanche fracture zone; Silicate; Silicon Cycling in the World Ocean; SINOPS
    Type: Dataset
    Format: text/tab-separated-values, 6 data points
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  • 91
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    Unknown
    Silicate in porewater of sediment core GeoB1120-2 (1998)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: DEPTH, sediment/rock; GeoB; GeoB1120-2; Geosciences, University of Bremen; Gravity corer (Kiel type); Inductively coupled plasma atomic emission spectroscope (ICP-AES); M9/4; Meteor (1986); Romanche fracture zone; Silicate; Silicon Cycling in the World Ocean; SINOPS; SL
    Type: Dataset
    Format: text/tab-separated-values, 6 data points
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  • 92
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    Unknown
    Magnetic of surface sediments (1999)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Amazon Fan; Amazon Shelf/Fan; ARM, 100 mT AF, 0.04 mT DF; ARM, median destructive field of anhysteretic remanent magnetization; ARM/IRM; Bartington MS2B bulk sensor; Brazil Basin; Calculated; Congo Fan; DEPTH, sediment/rock; Elevation of event; Equatorial Atlantic; Event label; GeoB; GeoB1005-2; GeoB1009-3; GeoB1010-3; GeoB1039-1; GeoB1040-3; GeoB1043-2; GeoB1044-3; GeoB1046-2; GeoB1047-3; GeoB1101-4; GeoB1102-3; GeoB1104-5; GeoB1106-5; GeoB1109-4; GeoB1111-5; GeoB1113-7; GeoB1115-4; GeoB1116-1; GeoB1117-3; GeoB1118-2; GeoB1119-2; GeoB1120-3; GeoB1402-7; GeoB1403-1; GeoB1404-8; GeoB1405-8; GeoB1406-1; GeoB1501-2; GeoB1503-2; GeoB1504-1; GeoB1505-4; GeoB1506-1; GeoB1508-2; GeoB1509-2; GeoB1510-1; GeoB1511-6; GeoB1512-1; GeoB1513-2; GeoB1514-5; GeoB1515-2; GeoB1519-2; GeoB1523-2; GeoB1606-7; GeoB1701-1; GeoB1702-7; GeoB2301-1; GeoB2303-1; GeoB2905-1; GeoB2909-1; GeoB3906-9; GeoB3910-3; GeoB3911-1; GeoB3912-2; GeoB3915-1; GeoB3920-1; GeoB3925-2; Geosciences, University of Bremen; Giant box corer; GKG; Guinea Basin; Hysteresis, coercive field; Hysteresis, saturation magnetization/ saturation remanence; Hysteresis, susc., non-ferromag./MSS; Hysteresis 0.3 T; Hysteresis 1.4 T; Kongo sediment fan; Latitude of event; Longitude of event; M16/1; M16/2; M20/1; M20/2; M29/3; M34/4; M6/6; M9/4; Meteor (1986); MUC; MultiCorer; Northeast Brasilian Margin; Northern Guinea Basin; PROBOSWA; Romanche fracture zone; SFB261; SIRM 800 mT, Back field 300 mT; SO86; Sonne; South Atlantic in Late Quaternary: Reconstruction of Budget and Currents; S-ratio (hematite/magnetite); Susceptibility, frequency dependence; Walvis Ridge; Western Equatorial Atlantic
    Type: Dataset
    Format: text/tab-separated-values, 376 data points
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  • 93
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    Biogeochemical parameters from different sediment stations at the continental slope of Greenland (1999)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Adenosine 5-Triphosphate; ARK-X/1; ARK-XI/2; ARK-XIII/1b; Chlorophyll a; Deoxyribonucleic acid per volume; DEPTH, sediment/rock; Elevation of event; Event label; Fluorometry; Giant box corer; GKG; Global Environmental Change: The Northern North Atlantic; Incubation of bottom water, ex-situ; LATITUDE; LONGITUDE; M36/3; M36/3_249-1; M36/3_252-1; M36/3_254-2; M36/3_257-1; M36/3_259-1; M36/3_261-2; M36/3_263-1; M36/3_264-2; Meteor (1986); MUC; MultiCorer; Northeast Greenland; North Greenland Sea; Oxygen, flux, sediment oxygen demand; Photometry; Polarstern; PS020GKG1/2; PS31; PS31/006-13; PS31/009-11; PS31/014-12; PS31/016-12; PS31/017-12; PS31/020-11; PS31/024-14; PS31/025-9; PS37; PS37/020-1; PS44; PS44/020-8; PS44/021-3; PS44/022-3; PS44/023-1; PS44/024-13; PS44/030-5; PS44/031-9; PS44/032-1; SFB313
    Type: Dataset
    Format: text/tab-separated-values, 92 data points
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    DATA PANGAEA
  • 94
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    Physical oceanography during METEOR cruise M10/1 (Part 2) (1990)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Calculated; Calculated from conductivity; CTD, Neil Brown, Mark III B; CTD/Rosette; CTD profile; CTD-RO; Date/Time of event; Density, sigma-theta (0); DEPTH, water; Elevation of event; Event label; JGOFS; Joint Global Ocean Flux Study; Latitude of event; Longitude of event; M10/1; M10/1-CTD-323_129; M10/1-CTD-325_131; M10/1-CTD-326_132; M10/1-CTD-327_133; M10/1-CTD-328_134; M10/1-CTD-329_135; M10/1-CTD-330_136; M10/1-CTD-331_137; M10/1-CTD-332_138; M10/1-CTD-333_139; M10/1-CTD-334_140; M10/1-CTD-335_141; M10/1-CTD-336_142; M10/1-CTD-337_143; M10/1-CTD-338_144; M10/1-CTD-339_145; M10/1-CTD-340_146; M10/1-CTD-341_147; M10/1-CTD-342_148; M10/1-CTD-343_149; M10/1-CTD-344_150; M10/1-CTD-345_151; M10/1-CTD-346_152; M10/1-CTD-347_153; M10/1-CTD-348_154; M10/1-CTD-349_155; M10/1-CTD-350_156; M10/1-CTD-351_157; M10/1-CTD-352_158; M10/1-CTD-353_159; M10/1-CTD-354_160; M10/1-CTD-355_161; M10/1-CTD-356_162; M10/1-CTD-357_163; M10/1-CTD-358_164; M10/1-CTD-359_165; M10/1-CTD-361_166; M10/1-CTD-361_167; M10/1-CTD-362_168; M10/1-CTD-363_169; M10/1-CTD-364_170; M10/1-CTD-366_171; M10/1-CTD-367_172; M10/1-CTD-368_173; M10/1-CTD-369_174; M10/1-CTD-369_175; M10/1-CTD-369_176; M10/1-CTD-369_177; M10/1-CTD-369_178; M10/1-CTD-369_179; M10/1-CTD-370_180; M10/1-CTD-371_181; M10/1-CTD-373_182; M10/1-CTD-374_183; M10/1-CTD-375_184; M10/1-CTD-376_185; M10/1-CTD-376_186; M10/1-CTD-377_187; M10/1-CTD-378_188; M10/1-CTD-379_189; M10/1-CTD-380_190; M10/1-CTD-382_191; M10/1-CTD-382_192; M10/1-CTD-383_193; M10/1-CTD-384_194; M10/1-CTD-385_195; M10/1-CTD-387_196; M10/1-CTD-387_197; M10/1-CTD-388_198; M10/1-CTD-389_199; M10/1-CTD-390_200; M10/1-CTD-392_201; M10/1-CTD-393_202; M10/1-CTD-394_203; M10/1-CTD-394_204; M10/1-CTD-395_205; M10/1-CTD-396_206; M10/1-CTD-397_207; M10/1-CTD-398_208; M10/1-CTD-398_209; M10/1-CTD-399_210; M10/1-CTD-400_211; M10/1-CTD-401_212; M10/1-CTD-402_213; M10/1-CTD-403_214; M10/1-CTD-403_215; M10/1-CTD-404_216; M10/1-CTD-405_217; M10/1-CTD-406_218; M10/1-CTD-410_219; M10/1-CTD-414_220; M10/1-CTD-418_221; M10/1-CTD-422_222; M10/1-CTD-426_223; Meteor (1986); NABE; North Atlantic Bloom Experiment, 1989-1991; Pressure, water; Salinity; Temperature, water; Temperature, water, potential
    Type: Dataset
    Format: text/tab-separated-values, 238995 data points
    Location Call Number Expected Availability
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  • 95
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    Physical oceanography during METEOR cruise M10/1 (1993)
    PANGAEA
    In:  Supplement to: Podewski, Sigrid; Saure, G; Eppley, Richard W; Koeve, Wolfgang; Peinert, Rolf; Zeitzschel, Bernt (1993): The nose: a characteristic inversion within the salinity maximum water in the tropical northeast Atlantic. Deep Sea Research Part II: Topical Studies in Oceanography, 40(1-2), 537-557, https://doi.org/10.1016/0967-0645(93)90031-H
    Details
    Publication Date: 2024-07-01
    Description: During leg 1 of Meteor cruise 10 in March/April 1989 at 18°N, 30°W, the high spatial and temporal resolution of hydrographic CTD-stations indicated that the study site was in a hydrographically complex region in the transition zone between the Canary Current and the North Equatorial Current at the southern boundary of the subtropical gyre. Strong variability was found within the upper 120 m due to interleavings of warmer and saltier subtropical salinity maximum water with colder and less saline upper thermocline water. The interleavings caused unexpected nose-like temperature, salinity, nitrate and oxygen profiles yet not described in the literature. A second variability source was found in the Central Water area, because the study area was situated in the vicinity of the Central Water Boundary dividing North and South Atlantic Central Water. Hydrographic analysis of the study shows that interpretations of biological and chemical data can only be done in conjunction with high resolution CTD-profiling.
    Keywords: Calculated; Calculated from conductivity; CTD, Neil Brown, Mark III B; CTD/Rosette; CTD profile; CTD-RO; Date/Time of event; Density, sigma-theta (0); DEPTH, water; Elevation of event; Event label; JGOFS; Joint Global Ocean Flux Study; Latitude of event; Longitude of event; M10/1; M10/1-CTD-198_004; M10/1-CTD-199_005; M10/1-CTD-200_006; M10/1-CTD-201_007; M10/1-CTD-202_008; M10/1-CTD-203_009; M10/1-CTD-204_010; M10/1-CTD-205_011; M10/1-CTD-206_012; M10/1-CTD-207_013; M10/1-CTD-208_014; M10/1-CTD-209_015; M10/1-CTD-210_016; M10/1-CTD-211_017; M10/1-CTD-212_018; M10/1-CTD-213_019; M10/1-CTD-214_020; M10/1-CTD-215_021; M10/1-CTD-216_022; M10/1-CTD-217_023; M10/1-CTD-218_024; M10/1-CTD-219_025; M10/1-CTD-220_026; M10/1-CTD-221_027; M10/1-CTD-222_028; M10/1-CTD-223_029; M10/1-CTD-224_030; M10/1-CTD-225_031; M10/1-CTD-226_032; M10/1-CTD-227_033; M10/1-CTD-228_034; M10/1-CTD-229_035; M10/1-CTD-230_036; M10/1-CTD-231_037; M10/1-CTD-232_038; M10/1-CTD-233_039; M10/1-CTD-234_040; M10/1-CTD-235_041; M10/1-CTD-236_042; M10/1-CTD-237_043; M10/1-CTD-238_044; M10/1-CTD-239_045; M10/1-CTD-240_046; M10/1-CTD-241_047; M10/1-CTD-242_048; M10/1-CTD-244_049; M10/1-CTD-245_050; M10/1-CTD-246_051; M10/1-CTD-247_052; M10/1-CTD-249_053; M10/1-CTD-250_054; M10/1-CTD-251_055; M10/1-CTD-252_056; M10/1-CTD-253_057; M10/1-CTD-254_058; M10/1-CTD-255_059; M10/1-CTD-256_060; M10/1-CTD-256_061; M10/1-CTD-256_062; M10/1-CTD-257_063; M10/1-CTD-258_064; M10/1-CTD-259_065; M10/1-CTD-259_066; M10/1-CTD-260_067; M10/1-CTD-261_068; M10/1-CTD-262_069; M10/1-CTD-262_070; M10/1-CTD-262_071; M10/1-CTD-262_072; M10/1-CTD-262_073; M10/1-CTD-263_074; M10/1-CTD-264_075; M10/1-CTD-266_076; M10/1-CTD-267_077; M10/1-CTD-270_078; M10/1-CTD-273_079; M10/1-CTD-274_080; M10/1-CTD-277_081; M10/1-CTD-278_082; M10/1-CTD-279_083; M10/1-CTD-280_084; M10/1-CTD-282_085; M10/1-CTD-283_086; M10/1-CTD-284_087; M10/1-CTD-285_088; M10/1-CTD-286_089; M10/1-CTD-287_090; M10/1-CTD-288_091; M10/1-CTD-289_092; M10/1-CTD-290_093; M10/1-CTD-291_094; M10/1-CTD-291_095; M10/1-CTD-291_096; M10/1-CTD-291_097; M10/1-CTD-292_098; M10/1-CTD-293_099; M10/1-CTD-294_100; M10/1-CTD-295_101; M10/1-CTD-296_102; M10/1-CTD-297_103; M10/1-CTD-298_104; M10/1-CTD-299_105; M10/1-CTD-300_106; M10/1-CTD-301_107; M10/1-CTD-302_108; M10/1-CTD-303_109; M10/1-CTD-304_110; M10/1-CTD-305_111; M10/1-CTD-306_112; M10/1-CTD-307_113; M10/1-CTD-308_114; M10/1-CTD-309_115; M10/1-CTD-310_116; M10/1-CTD-311_117; M10/1-CTD-312_118; M10/1-CTD-313_119; M10/1-CTD-314_120; M10/1-CTD-315_121; M10/1-CTD-316_122; M10/1-CTD-317_123; M10/1-CTD-318_124; M10/1-CTD-319_125; M10/1-CTD-320_126; M10/1-CTD-321_127; M10/1-CTD-322_128; Meteor (1986); NABE; North Atlantic Bloom Experiment, 1989-1991; Pressure, water; Salinity; Temperature, water; Temperature, water, potential
    Type: Dataset
    Format: text/tab-separated-values, 263145 data points
    Location Call Number Expected Availability
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  • 96
    facet.materialart.
    Unknown
    Hydrochemistry measured on water bottle samples during METEOR cruise M10/1 (1993)
    PANGAEA
    In:  Supplement to: Passow, Uta; Peinert, Rolf (1993): The role of plankton in particle flux; two case studies from the northeast Atlantic. Deep Sea Research Part II: Topical Studies in Oceanography, 40(1-2), 573-585, https://doi.org/10.1016/0967-0645(93)90033-J
    Details
    Publication Date: 2024-07-01
    Description: The relationship between the vertical flux of microplankton and its standing stock in the upper ocean was determined in the subtropical (33°N, 21°W) and tropical (18°N, 30°W) northeast Atlantic in spring 1989 as part of the North Atlantic Bloom Experiment. In the subtropical area specific sedimentation rates at all depths were low (0.1% of standing stock) and 10-20% of settled particulate organic carbon (POC) was viable diatoms. The high contribution of viable diatoms, their empty frustules and tintinnid loricae to settled material characterized a system in transition between a diatom bloom sedimentation event and an oligotrophic summer situation. In the tropical area specific sedimentation rates were similar, but absolute rates (3 mg C m?2 day?1) were only about a third of those in the subtropical area. Microplankton carbon contributed only 2-6% to POC. Hard parts of heterotrophs found embedded in amorphous detrital matter suggest that particles had passed through a complex food web prior to sedimentation. Coccolithophorids, not diatoms dominated the autotrophic fraction in traps, and a shift in the composition of autotrophs may indicate a perturbation of the oligotrophic system.
    Keywords: Ammonium; Bottle, Niskin 30-L; Carbon, organic, particulate; Carbon/nitrogen analyser (GF/F filtered); Chlorophyll a; Chlorophyll a, fluorometric determination (Grasshoff et al., 1983, Chemie GmbH); Colorometric analysis, manual; Continuous Flow Automated Analysis (Gordon et al., 1993, WOCE Tech Rpt 93-1); Date/Time of event; DEPTH, water; Elevation of event; Event label; Gravimetric analysis (GF/F filtered); JGOFS; Joint Global Ocean Flux Study; Latitude of event; Longitude of event; M10/1; M10/1-RO6-241_003; M10/1-RO6-241_004; M10/1-RO6-245_006; M10/1-RO6-245_007; M10/1-RO6-249_009; M10/1-RO6-249_010; M10/1-RO6-254_011; M10/1-RO6-254_012; M10/1-RO6-260_013; M10/1-RO6-260_014; M10/1-RO6-266_016; M10/1-RO6-266_017; M10/1-RO6-273_020; M10/1-RO6-273_021; M10/1-RO6-279_024; M10/1-RO6-279_025; M10/1-RO6-283_028; M10/1-RO6-283_029; M10/1-RO6-287_031; M10/1-RO6-287_032; M10/1-RO6-292_034; M10/1-RO6-292_035; M10/1-RO6-361_039; M10/1-RO6-361_040; M10/1-RO6-366_044; M10/1-RO6-366_045; M10/1-RO6-370_046; M10/1-RO6-370_047; M10/1-RO6-376_049; M10/1-RO6-376_050; M10/1-RO6-382_054; M10/1-RO6-382_055; M10/1-RO6-387_058; M10/1-RO6-387_059; M10/1-RO6-387_060; M10/1-RO6-393_063; M10/1-RO6-393_064; M10/1-RO6-398_067; M10/1-RO6-398_068; M10/1-RO6-398_069; M10/1-RO6-403_071; M10/1-RO6-403_072; Meteor (1986); NABE; NIS_30L; Nitrate and Nitrite; Nitrite; Nitrogen, organic, particulate; North Atlantic Bloom Experiment, 1989-1991; Oxidation; then autoanalysis (GF/F filtered); Oxidation (alkaline) with borate buffered potassium persulphate; Phosphate; Phosphorus, particulate; Silicate; Silicon, particulate; Suspended matter, total
    Type: Dataset
    Format: text/tab-separated-values, 1700 data points
    Location Call Number Expected Availability
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  • 97
    facet.materialart.
    Unknown
    Sedimentology of core PS1584-1 (1999)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ANT-VI/3; AWI_Paleo; Calcium carbonate; Carbon, organic, total; Density; Density, wet bulk; DEPTH, sediment/rock; Element analyser CHN, LECO; KL; Maud Rise; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Piston corer (BGR type); Polarstern; Porosity; PS12; PS12/280; PS1584-1; Pycnometer (Micromeritics); Sulfur, total; Water content, wet mass
    Type: Dataset
    Format: text/tab-separated-values, 245 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 98
    facet.materialart.
    Unknown
    The Brown University Foraminiferal Data Base (BFD) (1999)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: 0050PG; 0055PG; 0058PG; 0066PG; 0071PG; 0075PG; 0082PG; 0091PG; A150/180; A153-154; A156-007; A156-7TW; A157-3; A164-13; A164-15; A164-16; A164-17; A164-23; A167-12; A167-13; A167-18TW; A167-1TW; A179-13; A179-15; A179-20; A179-24; A179-6; A179-7; A180-13; A180-15; A180-20; A180-39; A180-69; A180-70; A180-72; A180-76; A180-78; A181/185; A181-7; A181-9; Agassiz; also published as VM28-122; AR1-119; AR1-144; AR2-113; AR2-117; AR2-128; AR2-136; AR3-25; AR3-45; AR4-55; AR4-63; Arabian Sea; Argo; ARIES; ARIES-046G; ARIES-049G; Aru Sea; AT_II-15_547; AT_II-15_552; AT_II-15_558; AT_II-15_559; AT_II-15_572; AT_II-15_585; AT_II-15_586; AT_II-15_591; AT_II-15_592; AT_II-15_597A; AT_II-15_597B; AT_II-15_600; AT_II-15_602; AT_II-15_602-10a; AT_II-15_612; AT_II-15_614; AT_II-15_618; AT_II-93-12-38-21; AT_II-93-12-43-26; AT_II-93-12-45-27; AT_II-93-12-46-28; AT_II-93-14-55-35; AT_USA; Atlantic; Atlantic Ocean; Atlantis (1931); Bay of Bengal; BC; Berggrenia pumilio; Box corer; Candeina nitida; CH09908-0064PC; CH09908-0065PC; CH09908-0066PC; CH09908-0068PC; CH09908-0070PC; CHN99-064; CHN99-065; CHN99-066; CHN99-068; CHN99-070; CHUB4; CHUBIV; CIRCE; CIRCE-18P; CIRCE-19PG; CIRCE-21; CIRCE-239; CIRCE-24; CIRCE-26; CIRCE-27; CIRCE-32; CIRCE-36; CIRCE-38; CIRCE-42; CIRCE-44; Counting, foraminifera, benthic; Counting, foraminifera, planktic; Counting, pteropods; Counting, radiolarians; D17-05; D17-06; D17-14; D17-15; D17-17; D17-23; D17-24; D17-25; D17-27; D17-28; D17-29; D17-30; D17-32; D17-33; D17-34; D17-35; D17-36; D17-39; D17-41; DEPTH, sediment/rock; DODO; DODO-117P; DODO-119PG; DODO-121PGA; DODO-126P; DODO-130G; DODO-144G; DODO-173G; DODO-191; DODO-192G; DODO-193; DODO-194; DODO-197; DODO-200V; DODO-201G; DODO-220V; DW010; DW013; DW017; DW026; DW034; DW035; DW036; DW048; DW050; DW058; DW074; DW079; DW082; DW089; DW123; DW130; DW134; DW137; DW147B; DWD-10HH; DWD-123; DWD-130; DWD-134; DWD-137G; DWD-13HH; DWD-147B; DWD-149; DWD-17; DWD-26; DWD-34HG; DWD-35HH; DWD-36HG; DWD-48HG; DWD-50HG; DWD-58HH; DWD-74; DWD-79; DWD-82; DWD-89HH-2; Eastern Equatorial Pacific; Elevation of event; ELT11.010; ELT11.064; ELT11.089; ELT-1110; ELT-1164; ELT-1189; ELT12.027; ELT12.046; ELT1227; ELT1246; ELT49; ELT49.022-PC; ELT49.023-PC; ELT49.024-PC; ELT49.025-PC; Eltanin; ERDC; ERDC-077BX; ERDC-079BX; ERDC-092BX; ERDC-102BX; ERDC-108BX; ERDC-112BX; ERDC-120BX; ERDC-123BX; ERDC-125BX; ERDC-128BX; ERDC-129BX; ERDC-131BX; ERDC-135BX; ERDC-136BX; ERDC-139BX; ERDC-141BX; Event label; FFC; Foraminifera, benthic; Foraminifera, planktic; Foraminifera, planktic, fragments; Free fall corer; GC; GGC; Giant gravity corer; Globigerina bulloides; Globigerina calida; Globigerina falconensis; Globigerina quinqueloba; Globigerina rubescens; Globigerinella adamsi; Globigerinella aequilateralis; Globigerinella digitata; Globigerinita glutinata; Globigerinita iota; Globigerinita uvula; Globigerinoides conglobatus; Globigerinoides ruber; Globigerinoides ruber pink; Globigerinoides ruber white; Globigerinoides sacculifer; Globigerinoides sacculifer sac; Globigerinoides sacculifer wo sac; Globigerinoides tenellus; Globoquadrina conglomerata; Globoquadrina hexagona; Globorotalia anfracta; Globorotalia crassaformis; Globorotalia crassula; Globorotalia hirsuta; Globorotalia inflata; Globorotalia menardii; Globorotalia menardii flexuosa; Globorotalia scitula; Globorotalia theyeri; Globorotalia truncatulinoides dextral; Globorotalia truncatulinoides sinistral; Globorotalia tumida; Grab; GRAB; Gravity corer; Horizon; Indian Ocean; INMD; INMD-040BX; INMD-042BX; INMD-048BX; INMD-050BX; INMD-051BX; INMD-055BX; INMD-056BX; INMD-064BX; INMD-065BX; INMD-067BX; INMD-068BX; INMD-069BX; INMD-070BX; INMD-072BX; INMD-073BX; INMD-074BX; INMD-094BX; INMD-097BX; INMD-098BX; INMD-100BX; KM1-41; KN11002; KN11002-0096PG; KN11002-0099PG; Knorr; KNR110-01; KNR110-02; KNR110-05; KNR110-06; KNR110-07; KNR110-08; KNR110-09; KNR110-10; KNR110-11; KNR110-12; KNR110-14; KNR110-15; KNR110-16; KNR110-17; KNR110-18; KNR110-20; KNR110-21; KNR110-23; KNR110-24; KNR110-26; KNR110-27; KNR110-28; KNR110-30; KNR110-32; KNR110-33; KNR110-40; KNR110-43; KNR110-45; KNR110-46; KNR110-50; KNR110-51; KNR110-53; KNR110-54; KNR110-55; KNR110-56; KNR110-57; KNR110-58; KNR110-61; KNR110-62; KNR110-63; KNR110-64; KNR110-66; KNR110-71; KNR110-72; KNR110-73; KNR110-75; KNR110-77; KNR110-81; KNR110-82; KNR110-89; KNR110-91; KNR110-93; KNR110-95; KNR110-96; KNR110-99; Lakshadweep Sea; Latitude of event; Longitude of event; LSDA; LSDA-103V; LSDA-106G; LSDA-107GA; LSDA-113G; LSDA-117G; LSDA-128G; LSDA-129G; LSDA-131G; LSDA-133GA; LSDA-136G; LSDH; LSDH-001VB; LSDH-009TW; LSDH-025V; LSDH-033G; LSDH-038G; LSDH-058G; LSDH-062G; LSDH-064PG; LSDH-065V; LSDH-066PG; LSDH-067P; LSDH-068PG; LSDH-076PG; LSDH-077G; LSDH-078PG; LSDH-079PG; LUSIAD-A; LUSIAD-H; Marion Dufresne (1972); MD10; MD13; MD76-132; MD76-135; MD77-168; MD77-169; MD77-170; MD77-171; MD77-174; MD77-176; MD77-179; MD77-181; MD77-185; MD77-191; MD77-196; MD77-199; MD77-204; Melville; MOANAWAVE04; MOANAWAVE05; MOANAWAVE06; MOANAWAVE07; MOANAWAVE08; MOANAWAVE09; MOANAWAVE10; MOANAWAVE11; MOANAWAVE12; MOANAWAVE13; MOANAWAVE14; MOANAWAVE15; MOANAWAVE18; MOANAWAVE19; MOANAWAVE20; MOANAWAVE23; MOANAWAVE24; MOANAWAVE25; MOANAWAVE26; MOANAWAVE29; MOANAWAVE31; MOANAWAVE32; MOANAWAVE35; MOANAWAVE36; MOANAWAVE40; MOANAWAVE42; MOANAWAVE44; MONAWAVE07; MONAWAVE14; MONAWAVE15; MONAWAVE18; MONAWAVE19; MONAWAVE20; MONAWAVE23; MONAWAVE24; MONAWAVE25; MONAWAVE26; MONAWAVE29; MONAWAVE31; MONAWAVE32; MONAWAVE35; MONAWAVE36; MONAWAVE40; MONAWAVE42; MONAWAVE44; MONS01AR-MONS08AR; MONSOON; MP10-1; MP-10-1; MP33; MP-33; MSN-104P; MSN-126G; MSN-128G; MSN-135PG; MSN-136G; MSN-137P; MSN-138P; MSN-45G; MSN-55G; MSN-56P; MSN-63G; MSN-90G; MSN-92PG; MSN-93G; MUC; MUK-19BP; MUK-20BP; MUKBP19; MUKBP20; MultiCorer; NEL9; NEL-H5; Neogloboquadrina dutertrei; Neogloboquadrina pachyderma dextral; Neogloboquadrina pachyderma sinistral; Orbulina universa; OSIRIS II; OSIRIS III; Pacific Ocean; PC; Piston corer; PROA; PROA-048G; PROA-057G; PROA-066G; PROA-067G; PROA-083PG; PROA-084PG; PROA-085PG-1; PROA-087PG; PROA-088PG; PROA-118G; PROA-122G; PROA-124G1; PROA-147G; PROA-149G; PROA-151G; PROA-155G; PROA-156G; Pteropoda sp.; Pulleniatina obliquiloculata; Radiolarians; RC07; RC0701-RC0708; RC07-21; RC08; RC08-106; RC08-16; RC08-18; RC08-22; RC08-23; RC08-27; RC08-28; RC08-39; RC08-40; RC08-41; RC08-46; RC08-50; RC08-51; RC08-52; RC08-53; RC08-60; RC08-61; RC08-62; RC08-63; RC08-64; RC08-91; RC08-93; RC09; RC09-019; RC09-104; RC09-121; RC09-124; RC09-125; RC09-126; RC09-133; RC09-134; RC09-139; RC09-140; RC09-143; RC09-144; RC09-147; RC09-150; RC09-155; RC09-161; RC09-162; RC09-163; RC09-17; RC09-18; RC09-19; RC09-212; RC09-22; RC09-222; RC09-225; RC09-24; RC09-25; RC09-28; RC09-29; RC09-30; RC09-32; RC09-61; RC09-7; RC09-77; RC10; RC10-131; RC10-135; RC10-139; RC10-140; RC10-141; RC10-142; RC10-143; RC10-144; RC10-146; RC10-149; RC10-161; RC10-162; RC10-172; RC10-175; RC10-22; RC10-250; RC10-256; RC10-262; RC10-263; RC10-264; RC10-265; RC10-266; RC10-267; RC10-268; RC10-269; RC10-270; RC10-49; RC10-53; RC10-54; RC11; RC11-10; RC11-103; RC11-106; RC11-11; RC11-111; RC11-116; RC11-117; RC11-118; RC1112; RC11-12; RC11-120; RC11-121; RC11-122; RC11-123; RC11-124; RC11-125; RC11-126; RC11-128; RC11-13; RC11-134; RC11-138; RC11-14; RC11-141; RC11-145; RC11-146; RC11-15; RC11-150; RC11-156; RC11-158; RC11-16; RC11-160; RC11-162; RC11-187; RC11-21; RC11-211; RC11-217; RC11-220; RC11-227; RC11-22TW; RC11-230; RC11-232; RC11-237; RC11-255; RC11-26; RC11-260; RC11-35; RC11-37; RC11-78; RC11-79; RC11-80; RC11-82; RC11-84; RC11-86; RC11-9; RC11-99; RC12; RC12-10; RC12-107; RC12-109; RC12-113; RC12-12; RC12-121; RC12-122; RC12-123; RC12-124; RC12-138; RC12-139; RC12-143; RC12-146; RC12-173; RC12-18; RC12-19; RC12-210; RC12-233; RC12-235; RC12-241; RC12-266; RC12-268; RC12-291; RC12-292; RC12-293; RC12-294; RC12-297; RC12-298; RC12-299; RC12-300; RC12-303; RC12-
    Type: Dataset
    Format: text/tab-separated-values, 63125 data points
    Location Call Number Expected Availability
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  • 99
    facet.materialart.
    Unknown
    CaCO3, TOC, sedimentation rate and isotopes of sediment core GeoB1117-3 (1999)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Brazil Basin; Calcium carbonate; Calculated; Calculated from mass/volume; Carbon, organic, total; Density, dry bulk; DEPTH, sediment/rock; Element analyser CHN; Element analyser CHN, LECO; GeoB; GeoB1117-3; Geosciences, University of Bremen; Giant box corer; GKG; Globigerinoides ruber pink, δ13C; Globigerinoides ruber pink, δ18O; M9/4; Mass spectrometer Finnigan MAT 251; Meteor (1986); Sedimentation rate
    Type: Dataset
    Format: text/tab-separated-values, 66 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 100
    facet.materialart.
    Unknown
    CaCO3, TOC, sedimentation rate and isotopes of sediment core GeoB1117-2 (1999)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Brazil Basin; Calcium carbonate; Calculated; Carbon, organic, total; DEPTH, sediment/rock; Element analyser CHN; Element analyser CHN, LECO; GeoB; GeoB1117-2; Geosciences, University of Bremen; Globigerinoides ruber pink, δ13C; Globigerinoides ruber pink, δ18O; Gravity corer (Kiel type); M9/4; Mass spectrometer Finnigan MAT 251; Meteor (1986); Sedimentation rate; SL
    Type: Dataset
    Format: text/tab-separated-values, 1070 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
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