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  • PANGAEA  (9,651)
  • Frontiers Media SA
  • Wiley-Blackwell
  • 2020-2024  (9,654)
  • 2005-2009
  • 1975-1979
  • 2020  (9,654)
Collection
Keywords
Publisher
Years
Year
  • 1
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    Lithogenic accumulation rates of sediment core SO90_63KA (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-29
    Keywords: Accumulation rate, lithogenic; AGE; Alkenones; Arabian Sea; CAHOL; CAME-II_CAHOL; Crossing Climatic Tipping Points - Central Asian Holocene Climate; DEPTH, sediment/rock; Grain Size; KAL; Kasten corer; n-alkanes; PAKOMIN; SO90; SO90_63KA; Sonne
    Type: Dataset
    Format: text/tab-separated-values, 172 data points
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    DATA PANGAEA
  • 2
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    Grain sizes distribution of sediment core SO90_63KA (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-29
    Keywords: AGE; Alkenones; Arabian Sea; CAHOL; CAME-II_CAHOL; Crossing Climatic Tipping Points - Central Asian Holocene Climate; DEPTH, sediment/rock; Grain Size; KAL; Kasten corer; n-alkanes; PAKOMIN; Size fraction; SO90; SO90_63KA; Sonne
    Type: Dataset
    Format: text/tab-separated-values, 9344 data points
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  • 3
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    n-Alkane content in sediment core SO90_63KA (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-29
    Keywords: AGE; Alkenones; Arabian Sea; Average chain length, n-Alkanes, C27-C33; CAHOL; CAME-II_CAHOL; Carbon Preference Index, n-Alkanes (C27-C33); Crossing Climatic Tipping Points - Central Asian Holocene Climate; DEPTH, sediment/rock; Grain Size; KAL; Kasten corer; n-Alkane, C31/(C29+C31) ratio; n-Alkane, C33/(C29+C33) ratio; n-Alkane C23 of total alkanes; n-Alkane C24 of total alkanes; n-Alkane C25 of total alkanes; n-Alkane C26 of total alkanes; n-Alkane C27 of total alkanes; n-Alkane C28 of total alkanes; n-Alkane C29 of total alkanes; n-Alkane C30 of total alkanes; n-Alkane C31 of total alkanes; n-Alkane C32 of total alkanes; n-Alkane C33 of total alkanes; n-Alkane C34 of total alkanes; n-Alkane C35 of total alkanes; n-alkanes; PAKOMIN; SO90; SO90_63KA; Sonne
    Type: Dataset
    Format: text/tab-separated-values, 2788 data points
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  • 4
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    Grain sizes and geochemistry of Holocene sediments in the Arabian Sea (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-29
    Description: The Indian Summer Monsoon (ISM) with its rainfall is the lifeline for people living on the Indian subcontinent today and possibly was the driver of the rise and fall of early agricultural societies in the past. Intensity and position of the ISM have shifted in response to orbitally forced thermal land-ocean contrasts. At the northwestern monsoon margins, interactions between the subtropical westerly jet (STWJ) and the ISM constitute a tipping element in the Earth's climate system, because their non-linear interaction may be a first-order influence on rainfall. We reconstructed marine sea surface temperature (SST), supply of terrestrial material and vegetation changes from a very well-dated sediment core from the northern Arabian Sea to reconstruct the STWJ-ISM interaction. The Holocene record (from 11,000 years) shows a distinct, but gradual, southward displacement of the ISM in the Early to Mid-Holocene, increasingly punctuated by phases of intensified STWJ events that are coeval with interruptions of North Atlantic overturning circulation (Bond events). Effects of the non-linear interactions culminate between 4.6-3 ka BP, marking a climatic transition period during which the ISM shifted southwards and the influence of SWTJ became prominent. The lithogenic input shows an up to 4-fold increase after this time period signaling the strengthened influence of agricultural activities of the Indus civilization with enhanced erosion of soils amplifying the impact of Bond events and adding to the marine sedimentation rates adjacent to the continent.
    Keywords: Alkenones; Arabian Sea; CAHOL; CAME-II_CAHOL; Crossing Climatic Tipping Points - Central Asian Holocene Climate; Grain Size; KAL; Kasten corer; n-alkanes; PAKOMIN; SO90; SO90_63KA; Sonne
    Type: Dataset
    Format: application/zip, 4 datasets
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  • 5
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    SST reconstruction for sediment core SO90_63KA (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-29
    Keywords: AGE; Alkenone, unsaturation index UK'37; Alkenones; Arabian Sea; CAHOL; Calculated from UK'37 (Sonzogni et al., 1997); CAME-II_CAHOL; Crossing Climatic Tipping Points - Central Asian Holocene Climate; DEPTH, sediment/rock; Gas chromatograph, Agilent 6850, coupled with a flame ionization detector; Grain Size; KAL; Kasten corer; n-alkanes; PAKOMIN; Sea surface temperature, annual mean; Sea surface temperature, annual mean, standard deviation; SO90; SO90_63KA; Sonne
    Type: Dataset
    Format: text/tab-separated-values, 507 data points
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  • 6
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    Photographs of Potter Cove, King George Island, looking northeast towards glacier in 2020 (2020)
    PANGAEA
    In:  Instituto Antártico Argentino, Buenos Aires, Argentina
    Details
    Publication Date: 2024-06-29
    Keywords: Binary Object; Carlini_Base_C2; Carlini/Jubany Station; DATE/TIME; IMCOAST/IMCONet; Impact of climate induced glacier melt on marine coastal systems, Antarctica; Jubany; Jubany_Station_C2; Potter Cove, King George Island, Antarctic Peninsula; Research station; RS
    Type: Dataset
    Format: text/tab-separated-values, 486 data points
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  • 7
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    Photographs of Potter Cove, King George Island, looking west towards Maxwell Bay in 2020 (2020)
    PANGAEA
    In:  Instituto Antártico Argentino, Buenos Aires, Argentina
    Details
    Publication Date: 2024-06-29
    Keywords: Binary Object; Carlini_Base_C1; Carlini/Jubany Station; DATE/TIME; IMCOAST/IMCONet; Impact of climate induced glacier melt on marine coastal systems, Antarctica; Jubany; Jubany_Station_C1; Potter Cove, King George Island, Antarctic Peninsula; Research station; RS
    Type: Dataset
    Format: text/tab-separated-values, 251 data points
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  • 8
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    Oxygen isotope and salinity measurements of coastal surface waters in the Gulf of Maine (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-29
    Description: These data include salinity and oxygen isotope measurements of water samples collected from coastal sites along the Gulf of Maine between 2003 and 2015. In particular, a suite of samples were collected along the coast of Maine, east of Penobscot Bay, on a monthly basis between April 2014 and March 2015. These data also include several freshwater samples collected from the Kennebec and Penobscot Rivers on a semi-monthly basis in 2014 and 2015. For the water samples with sample IDs starting with DSW, JSW, NSW, or OSW: The water samples were collected by hand from shore or boat using French square glass bottles with phenolic polycone lined caps. Salinity was measured using a Oakton SALT 6+ handheld salinity meter. Oxygen isotopes were measured using a Picarro L2130-i Isotopic Liquid Water Analyzer with an attached autosampler. Water samples with sample IDs starting with ASW were collected from shore. Samples with sample IDs starting with DMC 2010 were collected at the flowing seawater laboratory at the Darling Marine Center. Samples with sample IDs starting with Summer 2011 were collected from a boat. For these last 3 sample types (ASW, DMC 2010, Summer 2011): Salinity was measured with YSI Professional Plus salinity meter and oxygen isotopes were measured using a Picarro L1102-i Isotopic Liquid Water Analyzer with an attached autosampler. Data from Owen et al., 2008 and Wanamaker et al. (2006, 2007) was collected from the flowing seawater laboratory at the Darling marine center. Salinity was measured using a YSI model 85 oxygen, conductivity, salinity, and temperature system and oxygen isotopes were measured using a dual-inlet VG/Micromass SIRA (CO2–H2O equilibration method at 30 °C for 12 h).
    Keywords: Comment; DATE/TIME; Gulf_of_Maine_water_samples; Gulf of Maine; LATITUDE; LONGITUDE; Oxygen isotopes; Reference of data; Salinity; Sample ID; Water sample; WS; Year of observation; δ18O, water
    Type: Dataset
    Format: text/tab-separated-values, 1152 data points
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  • 9
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    Raw data including physical oceanography from mooring DS-2-17 recovered during Maria S. Merian cruise MSM76 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: Raw data including physical oceanography from mooring DS-2-17 recovered during Maria S. Merian cruise MSM76.
    Keywords: 64PE426; 64PE426_DS-2-17; ADCP; CTD; DS-2-17; Maria S. Merian; MOOR; Mooring; MSM76; MSM76_51-1; MSM76_51-1, 64PE426_DS-2-17; North Atlantic; Pelagia
    Type: Dataset
    Format: application/zip, 82.5 MBytes
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  • 10
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    Raw data including physical oceanography from mooring DS-28-17 recovered during Maria S. Merian cruise MSM76 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: Raw data including physical oceanography from mooring DS-28-17 recovered during Maria S. Merian cruise MSM76.
    Keywords: 64PE426; 64PE426_DS-28-17; ADCP; CTD; DS-28-17; Maria S. Merian; MOOR; Mooring; MSM76; MSM76_140-1; MSM76_140-1, 64PE426_DS-28-17; North Atlantic; Pelagia
    Type: Dataset
    Format: application/zip, 27.7 MBytes
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  • 11
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    Raw data including physical oceanography from mooring DS-27-17 recovered during Maria S. Merian cruise MSM76 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: Raw data including physical oceanography from mooring DS-27-17 recovered during Maria S. Merian cruise MSM76.
    Keywords: 64PE426; 64PE426_DS-27-17; ADCP; CTD; DS-27-17; Maria S. Merian; MOOR; Mooring; MSM76; MSM76_139-1; MSM76_139-1, 64PE426_DS-27-17; North Atlantic; Pelagia
    Type: Dataset
    Format: application/zip, 85.2 MBytes
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  • 12
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    Absolute organic-walled dinoflagellate cysts counts in nepheloid layers off Cape Blanc (N-W Africa) (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Keywords: ADOMIS; Bitectatodinium spongium; Brigentedinium spp.; Center for Marine Environmental Sciences; CTD/Rosette; CTD-RO; DEPTH, sediment/rock; DEPTH, water; Dinoflagellate cyst, gonyaulacoid; Dinoflagellate cyst, peridinioids; Dinoflagellate cyst per unit mass; Dinoflagellate cysts; Dubridinium spp.; Echinidinium aculeatum; Echinidinium delicatum; Echinidinium granulatum; Echinidinium spp.; Echinidinium transparantum; Echinidinium zonneveldii; Event label; GeoB; GeoB20317-4; GeoB20318-4; GeoB20321-2; GeoB20325-1; GeoB20326-3; GeoB20327-1; GeoB20328-1; GeoB20329-1; GeoB20330-3; GeoB20331-7; GeoB20332-1; Geosciences, University of Bremen; Gymnodinium microreticulatum cyst; Impagidinium aculeatum; Impagidinium paradoxum; Impagidinium patulum; Impagidinium spp.; Lejeunecysta paratenella; Lingulodinium machaerophorum; Maria S. Merian; MARUM; MSM48; MSM48_567-4; MSM48_568-4; MSM48_570-2; MSM48_575-1; MSM48_576-3; MSM48_577; MSM48_578-1; MSM48_579-1; MSM48_580-3; MSM48_581-7; MSM48_582-1; MSN; MUC; MultiCorer; Multiple opening/closing net; Nematosphaeropsis labyrinthus; nepheloid layer; Operculodinium centrocarpum; Operculodinium israelianum; particle transport; Pentapharsodinium dalei cyst; Percentage counted; Polykrikos spp.; Protoperidinium americanum cyst; Protoperidinium monospinum cyst; Sample code/label; Selenopemphix nephroides; Selenopemphix quanta; South Atlantic Ocean; Spiniferites spp.; Stelladinium stellatum; Total counts; Volume; Xandarodinium xanthum
    Type: Dataset
    Format: text/tab-separated-values, 1218 data points
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  • 13
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    Raw data of continuous VM-ADCP (vessel-mounted Acoustic Doppler Current Profiler) profile during POLARSTERN cruise ARK-XXV-2 (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-28
    Keywords: Acoustic Doppler Current Profiling (ADCP), TRDI Ocean Surveyor, 153.6 kHz; ARK-XXV/2; AWI_PhyOce; Comment; CT; Fram Strait; Physical Oceanography @ AWI; Polarstern; PS76; PS76/2-track; Underway cruise track measurements; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 18 data points
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  • 14
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    Compilation of deglacial planktic d18O data from the North Pacific (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Keywords: 146-893; 167-1017; 184-1145; A-7; AGE; AHF-28181; Akademik M.A. Lavrentyev; British Columbia Margin; CALYPSO; Calypso Corer; CH84-04; CH84-14; COMPCORE; Composite Core; deglacial; DEPTH, sediment/rock; Eastern slope of Kurile Basin; ELEVATION; Emperor Seamount; Emperor Seamounts; ESTASE1; Event label; GC; GGC37-VG19; gh02-1030; Giant piston corer; Globigerina bulloides, δ18O; Globigerinoides ruber, δ18O; GPC; Gravity corer; Gravity corer (Kiel type); IMAGES VIII - MONA; IMAGES VII - WEPAMA; Isotope ratio mass spectrometry; Japan Trench; Jean Charcot; Joides Resolution; KALMAR II; KOMEX II; Kronotsky Peninsula; KT90-9_21; KY07-04-PC1; LATITUDE; Leg146; Leg167; Leg184; LONGITUDE; LV29-114-3; LV29-2; Marion Dufresne (1972); Marion Dufresne (1995); MD012416; MD01-2416; MD012420; MD01-2420; MD012421; MD01-2421; MD022489; MD02-2489; MD022496; MD02-2496; MD022503; MD02-2503; MD05; MD05-2505; MD122; MD126; Neogloboquadrina pachyderma, δ18O; North Pacific; North Pacific Ocean; Pacific Ocean; PAR87A-02; PAR87A-10; PC; Piston corer; planktic d18O; Reference/source; San Nicolas Basin; Santa Barbara Basin; Shirshov Ridge; SL; SO201/2; SO201-2-101; SO201-2-12KL; SO201-2-77; SO201-2-85; Sonne; South China Sea
    Type: Dataset
    Format: text/tab-separated-values, 7216 data points
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  • 15
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    Dinoflagellate cysts, porosity, mass density data of sediment core GeoB20305-7 (Madeira Abyssal Plain) Cruise MSM48 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: We report on the succession of selective degradation of dinoflagellate cyst species that can be considered representative for discrete particulate organic matter (POM) classes of different degradability. The effects of anaerobic and aerobic degradation as well as bioturbation in a natural setting are documented in high resolution by means of palynological and geochemical analyses on Madeira Abyssal Plain A- and F-turbidites. These turbidites are unique as their initial ungraded sediments are affected by a downward penetrating oxydation front. The dataset covers the density, porosity, water content and dinoflagellate cysts content of sediments from the so called A- and F-turbidite.
    Keywords: ADOMIS; bioturbation; Bitectatodinium tepikiense; Brigantedinium spp.; Carbon, organic, total; Center for Marine Environmental Sciences; Comment; Density; Density, grain; Density, wet bulk; DEPTH, sediment/rock; Dinoflagellate cyst, phototrophic; Dinoflagellate cysts; Dinoflagellates, total; early diagenesis; Echinidinium aculeatum; Echinidinium spp.; Fraction of mass; GeoB20305-7; Gravity corer (Kiel type); Gymnodinium catenatum; Impagidinium; Impagidinium aculeatum; Impagidinium paradoxum; Impagidinium patulum; Impagidinium sphaericum; Lingulodinium machaerophorum; Maria S. Merian; MARUM; Mass; MSM48; MSM48_554-6; Nematosphaeropsis labyrinthus; Operculodinium centrocarpum; Operculodinium israelianum; Oxygen; Oxygen exposure; Pentapharsodinium dalei; Peridiniaceae; Polykrikos kofoidii; Polysphaeridium zoharyi; Porosity; preservation; Protoperidinium monospinum; Pyxidinopsis reticulata; Ratio; Selenopemphix nephroides; Selenopemphix quanta; SL; South Atlantic Ocean; Spiniferites elongatus; Spiniferites mirabilis; Spiniferites ramosus; Spiniferites spp.; Trinovantedinium applanatum; Tuberculodinium vancampoae; Water content, wet mass
    Type: Dataset
    Format: text/tab-separated-values, 1408 data points
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  • 16
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    Benthic foraminiferal abundances from eastern Baffin Bay, sediment core AMD14-204C (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: Baffin Bay is a semi-enclosed basin connecting the Arctic Ocean and the western North Atlantic, thus making out a significant pathway for heat exchange. Here we reconstruct the alternating advection of relatively warmer and saline Atlantic waters versus the incursion of colder Arctic water masses entering Baffin Bay through the multiple gateways in the Canadian Arctic Archipelago and the Nares Strait during the Holocene. We carried out benthic foraminiferal assemblage analyses, X-ray fluorescence scanning, and radiocarbon dating of a 738 cm long marine sediment core retrieved from eastern Baffin Bay near Upernavik, Greenland (Core AMD14-204C; 987m water depth). Results reveal that eastern Baffin Bay was subjected to several oceanographic changes during the last 9.2 kyrCE1. Waning deglacial conditions with enhanced meltwater influxes and an extensive sea-ice cover prevailed in eastern Baffin Bay from 9.2 to 7.9 ka. A transition towards bottom water amelioration is recorded at 7.9 ka by increased advection of Atlantic water masses, encompassing the Holocene Thermal Maximum. A cold period with growing sea-ice cover at 6.7 ka interrupts the overall warm subsurface water conditions, promoted by a weaker northward flow of Atlantic waters. The onset of the neoglaciation at ca. 2.9 ka is marked by an abrupt transition towards a benthic fauna dominated by agglutinated species, likely in part explained by a reduction of the influx of Atlantic Water, allowing an increased influx of the cold, corrosive Baffin Bay Deep Water originating from the Arctic Ocean to enter Baffin Bay through the Nares Strait. These cold subsurface water conditions persisted throughout the Late Holocene, only interrupted by short-lived warmings superimposed on this cooling trend.
    Keywords: AGE; AMD14_1b; AMD14-204_CASQ; AMD14-204C; ArcticNet; Astrononion gallowayi; Baffin Bay; Benthic foraminifera; Bolivina pseudopunctata; Buliminella elegantissima; Calypso square corer; CASQ; Cassidulina neoteretis; Cassidulina reniforme; CCGS Amundsen; DEPTH, sediment/rock; Elphidium clavatum; Epistominella arctica; Epistominella vitrea; Foraminifera, benthic; Foraminifera, benthic agglutinated; Foraminifera, benthic atlantic species; Foraminifera, benthic calcareous; Foraminifera, planktic; Foraminifera, sea ice species; Holocene; Islandiella norcrossi; Nonionellina labradorica; Portatrochammina bipolaris; Psammosphaera fusca; Ratio; Recurvoides trochamminiformis; Reophax subfusiformis; Stainforthia feylingi; Textularia earlandi; Textularia kattegatensis; Textularia torquata
    Type: Dataset
    Format: text/tab-separated-values, 2106 data points
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  • 17
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    Thorium and Uranium in sediment core PS72/396-5 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Keywords: 230Th excess; Arctic Ocean; ARK-XXIII/3; Calcium; Calcium, standard deviation; Depth, composite; DEPTH, sediment/rock; freshwater; KAL; Kasten corer; Manganese; Manganese, standard deviation; Polarstern; PS72; PS72/396-5; Sulfur; Sulfur, standard deviation; Thorium-230; Thorium-230, standard deviation; Thorium-230 excess; Thorium-230 excess, standard deviation; Thorium-232; Thorium-232, standard deviation; Uranium-234; Uranium-234, standard deviation; Uranium-234/Uranium-238 activity ratio; Uranium-234/Uranium-238 activity ratio, standard deviation; Uranium-238; Uranium-238, standard deviation
    Type: Dataset
    Format: text/tab-separated-values, 2365 data points
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  • 18
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    Foraminifera and isotope record of sediment core PS72/396-3 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Keywords: 230Th excess; Arctic Ocean; ARK-XXIII/3; Cibicides lobatulus subsp. grossa; Counting 〉125 µm fraction; DEPTH, sediment/rock; Foraminifera, planktic; Foraminifera, planktic, ice rafted/allochthon; freshwater; Giant box corer; GKG; Neogloboquadrina pachyderma, δ13C; Neogloboquadrina pachyderma, δ18O; Polarstern; PS72; PS72/396-3; Size fraction 〉 0.063 mm, sand
    Type: Dataset
    Format: text/tab-separated-values, 234 data points
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  • 19
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    Environmental data from the (sub)Arctic (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Keywords: Akademik Boris Petrov; AMD14; AMD14_101; AMD14_115; AMD14_200; ARA2B; ARA2B-11_BOX-01; ARA2B-15; ARA2B-16a_BOX-01; ARA2B-16B; ARA2B-18A; ARA2B-18B; ARA2B-1A; ARA2B-1B; ARA2B-2; ARA2B-3A; ARA2B-3B; ARA2B-8_BOX-01; ARA2B-9_BOX-01; ARA3B; ARA3B_01; ARA3B_08MUC-02; ARA3B_09MUC-02; ARA3B_10MUC-02; ARA3B_11MUC-02; ARA3B_12; ARA3B_13MUC-01; ARA3B_14MUC-01; ARA3B_15b; ARA3B_16MUC-01; ARA3B_18MUC-01; ARA3B_19MUC-02; ARA3B_26; ARA3B_27; ARA3B_28; ARA3B_29MUC-02; ARA3B_30MUC-01; ARA3B_38aMUC-01; ARA3B_41MUC-03; Araon; ARC/ASP13_Tyro-5; ARC/ASP13_YS163; ARC/ASP14_Tyro-8; ARC/ASP14_YS3.14; ARC/IGN15_SD60; ARC/IGN15_Tyro-100; ARC/IGN15_YS3.18; ARC/IGN15_YSD; ARC/IGN15_Z60; ARC-1; ARC-2; ARC-3; ARC-4; ARC-5; ARC-6; ARC-7; ARC-8; ArcticNet2005; ArcticNet2005_ARC-1; ArcticNet2005_ARC-2; ArcticNet2005_ARC-3; ArcticNet2005_ARC-4; ArcticNet2005_ARC-5; ArcticNet2005_ARC-6; ArcticNet2005_ARC-7; ArcticNet2005_ARC-8; Arctic Ocean; ARK-VIII/2; ARK-X/2; ARK-XI/1; ARK-XIV/1a; ARK-XIX/4a; ARK-XV/2; ARK-XVI/1; ARK-XVI/2; ARK-XVII/1; ARK-XVII/2; ARK-XVIII/1; ARK-XXIX/2.1; ARK-XXVI/3; ARK-XXVII/3; ARK-XXVIII/4 ALEX2014; ARK-XXXI/4; Baffin Bay; Barents_625; Barents_627; Barents_629; Barents_631; Barents_633; Barents_635; Barents_639; Barents_643; Barents_645; Barents_647; Barents_649; Barents_651; Barents_653; Barents_655; Barents_657; Barents_659; Barents_661; Barents_663; Barents_665; Barents_667; Barents_669; Barents_671; Barents_673; Barents_675; Barents_677; Barents_679; Barents_681; Barents_690; Barents_692; Barents_St02; Barents_St03; Barents_St04; Barents_St06; Barents_St07; Barents_St09; Barents_St11; Barents_St12; Barents_St13; Barents_St14; Barents_St15; Barents_St17; Barents_St18; Barents_St19; Barents_St20; Barents_St21; Barents_St22; Barents_St23; Barents_St24; Barents_St25; Barents_St26; Barents_St27; Barents_St29; Barents_St30; Barents_St31; Barents_St32; Barents_St34; Barents_St35; Barents_St36; Barents_St37; Barents_St38; Barents_St39; Barents_St40; Barents_St41; Barents_St43; Barents_St44; Barents_St45; Barents Sea; BC; Bering Sea; Box corer; BP00; BP00-02; BP00-04; BP00-05; BP00-07; BP00-08; BP00-09; BP00-13; BP00-14; BP00-15; BP00-16; BP00-17; BP00-22; BP00-23; BP00-26; BP00-27; BP00-28; BP00-29; BP00-30; BP00-31; BP00-35; BP00-36; BP00-38; BP01; BP01-38; BP01-43; BP01-64; BP01-67; BP01-73a; BP01-74; BP01-75; BP01-76; BP01-78; BP01-79; BP02; BP02-01B; BP02-02B; BP02-03/01; BP02-05/01; BUCKET; Bucket water sampling; CCGS Amundsen; Core; CORE; CORIBAR; CTD/Rosette; CTD-RO; Davis Strait; DB3.02; DB3.08; DB3.10; DB3.11; DB3.12; DB3.13; DB3.14; DB3.15; DB3.16; DB3.20; DB3.23; DB3.24; DB3.25; DB3.26; DB3.27; DB3.30; DB3.31; DB3.32; DB3.33; DB3.34; DB3.35; DB3.36; DB3.37; DB3.39; DB3.42; DB6.01; DB6.02; DB6.05; DB6.06; DB6.07; DB6.08; DB6.09; DEPTH, water; Dredge; DRG; East Greenland Sea; East Siberian Sea; EGS-1; Event label; FB1.02; FB1.04; FB1.05; FB1.07; FB1.12; FRAM-2014/15_ice_drift; FRAM2014/15-08-06; FRAM2014/15-11-09; FRAM2014/15-13-11; FRAM2014/15-15-13; FRAM2014/15-15-14; FRAM2014/15-15-15; FRAM2014/15-15-16; FRAM2014/15-15-17; FRAM2014/15-15-18; G. O. Sars (2003); GC; GeoB17601-2; GeoB17602-1; GeoB17603-1; GeoB17604-1; GeoB17605-1; GeoB17606-1; GeoB17607-1; GeoB17608-1; GeoB17609-1; GeoB17609-3; GeoB17610-1; GeoB17611-2; GeoB17612-1; GeoB17613-1; GeoB17614-1; GeoB17615-1; GeoB17616-1; GeoB17617-1; GeoB17618-1; GeoB17619-1; GeoB17620-1; GeoB17621-1; GeoB17622-1; GeoB17623-1; GeoB19904-1; GeoB19905-2; GeoB19916-5; GeoB19920-4; GeoB19927-2; GeoB19931-2; GeoB19933-2; GeoB19940-3; GeoB19946-3; GeoB19948-2; GeoB19953-5; GeoB19959-3; GeoB19961-2; GeoB19963-2; GeoB19969-2; GeoB19973-3; GeoB22304-4; GeoB22305-2; GeoB22306-2; GeoB22315-3; GeoB22316-1; GeoB22317-1; GeoB22318-1; GeoB22319-1; GeoB22320-1; GeoB22321-1; GeoB22329-3; GeoB22331-2; GeoB22333-3; GeoB22334-1; GeoB22336-2; GeoB22344-2; GeoB22346-2; GeoB22348-2; GeoB22350-2; GeoB22351-2; GeoB22353-2; GeoB22356-2; GeoB22357-2; GeoB22358-2; GeoB22359-2; Giant box corer; GKG; Gravity corer; Gravity corer (Kiel type); Greenland Sea; GS15-198-36; GS15-198-37; GS15-198-38; GS15-198-39; GS15-198-40; GS15-198-41; GS15-198-42; GS15-198-43; GS15-198-44; GS15-198-45; GS15-198-46; GS15-198-47; GS15-198-48; GS15-198-49; GS15-198-50; GS15-198-51; GS15-198-52; GS15-198-53; GS15-198-54; GS15-198-55; GS15-198-56; GS15-198-58; GS15-198-59; GS15-198-60; GS15-198-61; GS15-198-62; GS15-198-63; GS16-204-19; GS16-204-21; GS16-204-22; GS16-204-23; GS16-204-24; GS2015-198; GS2016-204; HB2.01; HB2.02; HB2.03; HB2.04; HB2.06; HE153; HE153/1239-2; HE153/1241-1; HE153/1251-2; HE153/1254-2; HE153/1255-2; HE153/1261-2; HE153/1262-2; HE153/1263-2; HE153/1265-2; HE153/1269-2; HE153/1270-2; HE153/1273-2; HE153/1286-2; HE153/1287-2; HE153/1288-2; HE153/1289-2; HE153/1290-2; Heincke; Helmer Hanssen; HG_I; HG_II; HG_IV; HG_IX; HH11; HH11-133GC; HH11-134BC; HH11-135GC; HH11-136BC; HH11-137BC; HH11-138GC; HH11-140BC; HH13-19; HH13-21; HH13-23E; HH13-25F; HH2011; HH2013; HUD2008/29; HUD2008/29_14; HUD2008/29_47; HUD2008/29_55; HUD2008/29_66; HUD2013/29; HUD2013/29_51; HUD2013/29_52; HUD2013/29_54; HUD2013/29_68; HUD2013/29_78; HUD2013/29_79; Hudson; Hudson Bay; Hurry Inlet, East Greenland; Iceland Sea; INOPEX; Investigator; James Clark Ross; JR142; JR142-GC10; JR142-GC11; JR142-GC12; JR142-GC13; JR142-GC14; JR142-GC15; JR142-GC17; JR142-GC19; JR142-GC20; JR142-GC21; JR142-GC22; JR142-GC23; JR142-GC4; JR142-GC5; JR142-GC6; JR142-GC7; JR142-GC8; JR142-GC9; JR20060728; JR20080823; JR211; JR211-04GC; JR211-10BC; JR211-12GC; JR211-13GC; JR211-15GC; JR211-26GC; JR211-28GC; JR211-33GC; KAL; Kapitan Dranitsyn; Kara Sea; Kasten corer; KD9523-8; KD9529-12; KD9533-11; KD9541-13; KD9548-13; KD9565-12; KD9568-8; KD9572-1; Kempe Fjord, East Greenland; Labrador Sea; Laptev Sea; LATITUDE; LONGITUDE; Maria S. Merian; MOOR; Mooring; MSM12/2; MSM12/2_642-2; MSM12/2_643-2; MSM12/2_645-3; MSM12/2_646-2; MSM12/2_647-1; MSM12/2_649-4; MSM12/2_650-2; MSM12/2_651-2; MSM12/2_653-3; MSM12/2_654-1; MSM12/2_656-2; MSM12/2-01-02; MSM12/2-02-02; MSM12/2-03-02; MSM12/2-04-02; MSM12/2-05-01; MSM12/2-06-03; MSM12/2-07-01; MSM12/2-08-02; MSM12/2-09-02; MSM12/2-10-01; MSM12/2-12-02; MSM30; MSM30_463-2; MSM30_466-1; MSM30_467-1; MSM30_469-1; MSM30_471-1; MSM30_472-1; MSM30_474-1; MSM30_476-1; MSM30_477-1; MSM30_477-3; MSM30_479-1; MSM30_480-2; MSM30_482-1; MSM30_483-1; MSM30_485-1; MSM30_486-1; MSM30_488-1; MSM30_490-2; MSM30_493-1; MSM30_499-1; MSM30_500-1; MSM30_501-1; MSM30_502-1; MSM30_503-1; MSM31; MSM31_550-5; MSM31_557-2; MSM31_561-2; MSM31_575-3; MSM31_585-4; MSM44; MSM44_330-1; MSM44_331-2; MSM44_342-5; MSM44_346-4; MSM44_353-2; MSM44_357-2; MSM44_359-2; MSM44_366-3; MSM44_372-3; MSM44_374-2; MSM44_379-5; MSM44_385-3; MSM44_387-2; MSM44_389-2; MSM44_395-2; MSM44_399-3; MSM46; MSM46_10-8; MSM46_12-5; MSM46_14-2; MSM46_16-6; MSM46_19-3; MSM46_20-3; MSM46_22-2; MSM46_25-1; MSM46_28-3; MSM46_3-5; MSM46_4-5; MSM46_5-8; MSM46_6-4; MSM46_7-10; MSM66; MSM66/05-2; MSM66/15-3; MSM66/16-1; MSM66/17-1; MSM66/18-1; MSM66/19-1; MSM66/20-1; MSM66/21-1; MSM66/29-3; MSM66/31-2; MSM66/33-3; MSM66/34-1; MSM66/36-2; MSM66/4-4; MSM66/44-2; MSM66/46-2; MSM66/48-2; MSM66/50-2; MSM66/51-2; MSM66/53-2; MSM66/56-2; MSM66/57-2; MSM66/58-2; MSM66/59-2; MSM66/6-2; MSN; MUC; MULT; MultiCorer; Multicorer with television; Multiple investigations; Multiple opening/closing net; Nitrate; North Greenland Sea; North Pacific Ocean; Northwestern Passages; Norwegian Sea; NOW-1; NOW-2; NOW-3; NOW-4; NOW-5; Number; OBS; OBS314; Ocean bottom seismometer; Paamiut; Paamiut2014; Phosphate; Polarstern; Primary production of carbon; PS109; PS109_105-1; PS109_115-2; PS109_125-1; PS109_129-1; PS109_139-1; PS109_19-2; PS109_36-2; PS109_46-2; PS109_76-1; PS109_85-1; PS109_93-2; PS19/040; PS19/045; PS19/078; PS19/080; PS19/082; PS19/102; PS19/116; PS19/119; PS19/126; PS19/132; PS19/134; PS19/136; PS19/143; PS19 EPOS II; PS2111-2; PS2113-1; PS2117-1; PS2119-2; PS2121-1; PS2131-1; PS2142-3; PS2144-3; PS2148-1; PS2149-1; PS2150-
    Type: Dataset
    Format: text/tab-separated-values, 15755 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 20
    facet.materialart.
    Unknown
    Relative abundance of Amphimelissa setosa in core sediments and the interpolated LR04 benthic δ18O values (Table S4) (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Keywords: 306-U1314; 323-U1341; 341-U1417; 346-U1425; 346-U1429; AGE; Akademik M.A. Lavrentyev; Akademik Mstislav Keldysh; AMKxx; Amphimelissa setosa; Andfjorden; Arctic Ocean; Asian Monsoon; Bering Sea; Bering Sea Paleoceanography; COMPCORE; Composite Core; Elevation of event; Event label; Exp306; Exp323; Exp341; Exp346; Foraminifera, benthic δ18O; GC; GC_POI; Giant box corer; Giant piston corer; GIK23071-2; GIK23259-2; GIK23411-5; GIK23424-3; GKG; GPC; Gravity corer; Gravity corer (POI); ice-edge; IMAGES VII - WEPAMA; Interpolated (Lisiecki and Raymo, 2005); Jan Mayen; JM99/11; JM99-1200; Joides Resolution; KALMAR II; KOL; KOMEX I; Kurilen Trench; L-254; Latitude of event; Longitude of event; LV27/GREGORY; LV27-5-3; LV27-8-4; LV28; LV28-41-4; LV28-42-4; LV28-44-3; M17/2; M2/2; M21/4; M7/2; Marine isotope stage; Marion Dufresne (1995); MD012412; MD01-2412; MD012415; MD01-2415; MD122; Meteor (1986); MK-316; MK-340; North Atlantic; North Atlantic Climate 2; Northern Hemisphere; Norwegian-Greenland Sea; Norwegian Sea; Ocean and sea region; P-172; paleoecology; PC; Piston corer; Piston corer (Kiel type); proxy; QUEEN_Exped; Radiolaria; Reykjanes Ridge; Sea of Ochotsk; Sea of Okhotsk; Shirshov Ridge; SO201/2; SO201-2-77; Sonne; Southern Alaska Margin: Tectonics, Climate and Sedimentation; SPINOF
    Type: Dataset
    Format: text/tab-separated-values, 4327 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 21
    facet.materialart.
    Unknown
    Shipborne Acoustic Current Profiler measurements on 2017-12-01 (cruise ASV45) (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: The data were collected using a Shipborne Acoustic Current Profiler (SADCP). We used a Teledyne RD Instruments Ocean Surveyor (TRDI OS) SADCP with a frequency of 76.8 kHz and range of 700 meters. Temporal averaging was made over 120 s. All data were collected using VmDas software.
    Keywords: Akademik Sergey Vavilov; ASV45_2017-10; ASV45_20171201_DP-U; Current direction; Current velocity, east-west; Current velocity, magnitude; Current velocity, north-south; Current velocity, vertical; DATE/TIME; DEPTH, water; Drake Passage; Identification; LATITUDE; LONGITUDE; Malvinas Current; Quality; SADCP; Track-01_20171201_DP-U; velocity measurements; Vessel mounted Acoustic Doppler Current Profiler [75 kHz]; VMADCP-75
    Type: Dataset
    Format: text/tab-separated-values, 413777 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 22
    facet.materialart.
    Unknown
    Maximum annual SST estimates during the early LIG (129-124 ka; 189 sites) (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Keywords: 06MT15_2; 108-658A; 117-723; 117-728A; 130-806B; 133-820; 145-882; 146-893A; 160-967C; 160-971A; 161-975; 161-976; 161-977A; 165-1002C; 165-999A; 167-1012; 167-1014; 167-1016; 167-1017B; 167-1018A; 167-1019C; 167-1020; 177-1090; 177-1094; 181-1123; 184-1144A; 184-1145; 202-1239; 90-593_Site; 90-594_Site; A150/180; A180-73; Agulhas Basin; Agulhas Ridge; Alboran Sea; Amazon Fan; AMK-4438; AMK-4442; Angola Basin; ANT-IX/4; ANT-VIII/3; ANT-XI/2; ANT-XXVI/2; APSARA4; Arabian Sea; Arctic Ocean; ARK-II/5; Atlantic Ocean; Australia; Azores; Bermuda Rise; Bicol shelf; BIGSET; BIO; Biology; Brazil Basin; C9001C; CALYPSO; CALYPSO2; Calypso Corer; Calypso Corer II; Calypso Square Core System; Canarias Sea; Caribbean Sea; CASQS; Cayman Rise, Caribbean Sea; CH69-K09; Change-Le_CL01; Chatham Rise; Cocos Ridge; COMPCORE; Composite Core; Congo Fan; Coral Sea; Core; CORE; D117; DRILL; Drilling/drill rig; E45-29; E49-18; East Atlantic; Eastern Basin; Eastern Rio Grande Rise; Eirik Drift; ELT49; ELT49.017-PC; Eltanin; Equatorial Atlantic; Equatorial East Pacific; Event label; EW03; EW9302; EW9302-JPC8; FR1/94-GC3; GC; GeoB10038-4; GeoB1008-3; GeoB1016-3; GeoB1028-5; GeoB1105-4; GeoB1112-4; GeoB1309-2; GeoB1312-2; GeoB1401-4; GeoB1523-1; GeoB1710-3; GeoB1711; GeoB1711-4; GeoB1712-4; GeoB1722-1; GeoB2204-2; GeoB3005-1; GeoB3603-2; GEOSCIENCES, MARMARCORE; Giant piston corer; GIK12392-1; GIK15637-1; GIK17732-1; GIK17954-2; GIK17961-2; GIK23243-1 PS05/431; GIK23323-1; GIK23352-3; GIK23414-5; GL-77; global reconstruction; Glomar Challenger; GPC; Gravity corer; Gravity corer (Kiel type); GS900963; Gulf of California; Hainan_Island-S009; Huon_Peninsula; IMAGES I; IMAGES III - IPHIS; IMAGES IV-IPHIS III; IMAGES VIII - MONA; IMAGES VII - WEPAMA; IMAGES XII - MARCO POLO; IMAGES XI - P.I.C.A.S.S.O.; IMAGES XIV - MARCO POLO 2; Indian Ocean; Japan Trench; Joides Resolution; JPC; Jumbo Piston Core; K708-001; K708-007; KAL; KALMAR II; Kasten corer; KH94-4TSP-2PC; KL; KOL; KS205; Last Interglacial; LATITUDE; Leg108; Leg117; Leg130; Leg133; Leg145; Leg146; Leg160; Leg161; Leg165; Leg167; Leg177; Leg181; Leg184; Leg202; Leg90; Le Suroît; LONGITUDE; LPAZ-21P; M12392-1; M13/2; M15/2; M16/1; M16/2; M17/2; M20/2; M23/3; M23414; M25; M31/3; M31/3-108_GC; M34/1; M35/1; M35027-1; M53; M6/6; M7/4; M7/5; M9/4; Marge Ibérique; Marion Dufresne (1972); Marion Dufresne (1995); MATACORE; Maurice Ewing; MD00; MD012378; MD01-2378; MD012421; MD01-2421; MD01-2444/2443; MD022529; MD02-2529; MD02-2594; MD032616; MD03-2616; MD032664; MD03-2664; MD03-2707; MD052896; MD05-2896; MD052904; MD05-2904; MD062986; MD06-2986; MD06-3052; MD101; MD106; MD111; MD122; MD123; MD126; MD128; MD132; MD147; MD152; MD155; MD65; MD73025-2; MD85668; MD85674; MD88-770; MD90-963; MD952036; MD95-2036; MD952037; MD95-2037; MD952040; MD95-2040; MD952042; MD95-2042; MD972106; MD97-2106; MD972108; MD97-2108; MD972120; MD97-2120; MD972121; MD97-2121; MD972125; MD97-2125; MD972142; MD97-2142; MD972151; MD97-2151; MD982162; MD98-2162; Mediterranean Sea; Meteor (1964); Meteor (1986); Meteor Rise; Method comment; MONITOR MONSUN; Namibia continental slope; Newfoundland margin; NingalooReef; North Atlantic; Northeast Atlantic; North Pacific Ocean; Northwestern Pacific Ocean; Norwegian Sea; OSIRIS I; P-013; P71; PABESIA; PALEOCINAT; PC; Piston corer; Piston corer (BGR type); Piston corer (Kiel type); Polarstern; Porto Seamount; PS05; PS1243-1; PS16; PS16/278; PS1754-1; PS18; PS18/232; PS2076-3; PS2489-2; PS28; PS28/256; PS75/034-2; PS75 BIPOMAC; RC08; RC08-145; RC08-39; RC10; RC10-62; RC10-65; RC11; RC1112; RC11-120; RC11-210; RC11-230; RC11-86; RC12; RC12-294; RC12-339; RC13; RC13-110; RC13-115; RC13-205; RC13-228; RC13-229; RC14; RC14-105; RC14-99; RC15; RC15-61; RC17; RC17-69; RC17-98; RC24; RC24-16; Reference/source; Robert Conrad; Sea surface temperature; Sea surface temperature, annual mean; Sea surface temperature, annual mean, standard deviation; Sea Surface Temperatures; SEYMAMA/SHIVA; Shirshov Ridge; Site; SK157/4; SL; SO136; SO136_003GC; SO184/1; SO201/2; SO201-2-85; SO95; Sonne; South Atlantic Ocean; South China Sea; South-East Pacific; Southern Cape Basin; Southern Ocean; South Pacific; South Pacific/CONT RISE; South Pacific/Tasman Sea/PLATEAU; South Pacific Ocean; South Tasman Rise; Southwest Pacific Ocean; SST; SU90-08; SU94-20bK; Super-interglacial; SWAF; TASQWA; Temperature anomaly; Temperature anomaly, standard deviation; TG7; Thermoluminescence, standard deviation; Thomas Washington; Timor Sea; TR126-23; TR126-29; TR163-19; TR163-22; TY93929/P; V12; V12-122; V18; V18-68; V19; V19-29; V19-53; V20; V20-120; V21; V21-146; V22; V22-108; V22-174; V22-182; V22-196; V22-38; V23; V23-82; V25; V25-21; V25-56; V25-59; V27; V27-116; V27-20; V27-60; V27-86; V28; V28-127; V28-14; V28-238; V28-304; V28-345; V28-56; V29; V29-179; V29-29; V30; V30-40; V30-49; V32; V32-126; V32-128; V34; V34-88; Vema; VNTR01; VNTR01-8PC; W8402A; W8402A-14; Walvis Ridge, Southeast Atlantic Ocean; Wecoma; Western Arabian See; Western Basin; Y69-106P; Y69-71P; Y71-06; Y71-06-12; Y71-09; Y71-09-101; Y71-3-2; Y7211; Y7211-1; Y9; Y9_core; YALOC69; Yaquina; Z14-16; Z2108
    Type: Dataset
    Format: text/tab-separated-values, 2073 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 23
    facet.materialart.
    Unknown
    Shipborne Acoustic Current Profiler measurements on 2020-02-04 (cruise AMK79) (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: The data were collected using a Shipborne Acoustic Current Profiler (SADCP). We used a Teledyne RD Instruments Ocean Surveyor (TRDI OS) SADCP with a frequency of 76.8 kHz and range of 700 meters. Temporal averaging was made over 120 s. All data were collected using VmDas software.
    Keywords: Akademik Sergey Vavilov; AMK79_20200204_DP-U; ASV45_2017-10; Current direction; Current velocity, east-west; Current velocity, magnitude; Current velocity, north-south; Current velocity, vertical; DATE/TIME; DEPTH, water; Drake Passage; Identification; LATITUDE; LONGITUDE; Malvinas Current; Quality; SADCP; Track-05_20200204_DP-U; velocity measurements; Vessel mounted Acoustic Doppler Current Profiler [75 kHz]; VMADCP-75
    Type: Dataset
    Format: text/tab-separated-values, 829409 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 24
    facet.materialart.
    Unknown
    Shipborne Acoustic Current Profiler measurements on 2020-02-10 (cruise AMK79) (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: The data were collected using a Shipborne Acoustic Current Profiler (SADCP). We used a Teledyne RD Instruments Ocean Surveyor (TRDI OS) SADCP with a frequency of 76.8 kHz and range of 700 meters. Temporal averaging was made over 120 s. All data were collected using VmDas software.
    Keywords: Akademik Sergey Vavilov; AMK79_20200210_DP-U; ASV45_2017-10; Current direction; Current velocity, east-west; Current velocity, magnitude; Current velocity, north-south; Current velocity, vertical; DATE/TIME; DEPTH, water; Drake Passage; Identification; LATITUDE; LONGITUDE; Malvinas Current; Quality; SADCP; Track-06_20200210_DP-U; velocity measurements; Vessel mounted Acoustic Doppler Current Profiler [75 kHz]; VMADCP-75
    Type: Dataset
    Format: text/tab-separated-values, 975730 data points
    Location Call Number Expected Availability
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  • 25
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    Unknown
    Shipborne Acoustic Current Profiler measurements on 2017-12-31 (cruise ASV45) (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: The data were collected using a Shipborne Acoustic Current Profiler (SADCP). We used a Teledyne RD Instruments Ocean Surveyor (TRDI OS) SADCP with a frequency of 76.8 kHz and range of 700 meters. Temporal averaging was made over 120 s. All data were collected using VmDas software.
    Keywords: Akademik Sergey Vavilov; ASV45_2017-10; ASV45_20171231_DP-F; Current direction; Current velocity, east-west; Current velocity, magnitude; Current velocity, north-south; Current velocity, vertical; DATE/TIME; DEPTH, water; Drake Passage; Identification; LATITUDE; LONGITUDE; Malvinas Current; Quality; SADCP; Track-07_20171231_DP-F; velocity measurements; Vessel mounted Acoustic Doppler Current Profiler [75 kHz]; VMADCP-75
    Type: Dataset
    Format: text/tab-separated-values, 508739 data points
    Location Call Number Expected Availability
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  • 26
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    Annual SST estimates from the late Marine Isotope Stage 6 (140-135 kyr) and comparison to the early LIG (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Keywords: 145-882; 167-1019C; 167-1020; 177-1090; 177-1094; 181-1123; 90-593_Site; Agulhas Basin; Agulhas Ridge; AMK-4438; AMK-4442; ANT-IX/4; ANT-VIII/3; ANT-XI/2; ANT-XXVI/2; APSARA4; C9001C; CALYPSO; CALYPSO2; Calypso Corer; Calypso Corer II; CH69-K09; Chatham Rise; COMPCORE; Composite Core; Core; CORE; D117; DRILL; Drilling/drill rig; E45-29; E49-18; Eirik Drift; ELT49; ELT49.017-PC; Eltanin; Event label; EW9302; EW9302-JPC8; FR1/94-GC3; GC; GIK23414-5; global reconstruction; Glomar Challenger; Gravity corer; Gravity corer (Kiel type); IMAGES I; IMAGES III - IPHIS; IMAGES XI - P.I.C.A.S.S.O.; Indian Ocean; Joides Resolution; JPC; Jumbo Piston Core; K708-001; K708-007; KALMAR II; KL; Last Interglacial; LATITUDE; Leg145; Leg167; Leg177; Leg181; Leg90; LONGITUDE; M17/2; M23414; Marion Dufresne (1972); Marion Dufresne (1995); MATACORE; Maurice Ewing; MD00; MD032664; MD03-2664; MD062986; MD06-2986; MD101; MD106; MD132; MD152; MD73025-2; MD88-770; MD952040; MD95-2040; MD972106; MD97-2106; MD972108; MD97-2108; MD972120; MD97-2120; Meteor (1986); Meteor Rise; Method comment; MUC; MultiCorer; Newfoundland margin; North Pacific Ocean; Northwestern Pacific Ocean; Norwegian Sea; Number of points; OSIRIS I; P-013; PC; Piston corer; Piston corer (BGR type); Polarstern; Porto Seamount; PS16; PS16/278; PS1754-1; PS18; PS18/232; PS2076-1; PS2489-2; PS28; PS28/256; PS75/034-2; PS75 BIPOMAC; RC08; RC08-39; RC11; RC1112; RC11-120; RC15; RC15-61; Reference/source; Robert Conrad; Sea surface temperature, annual mean; Sea Surface Temperatures; Shirshov Ridge; Site; SL; SO136; SO136_003GC; SO201/2; SO201-2-85; Sonne; South Atlantic Ocean; South Pacific; South Pacific/Tasman Sea/PLATEAU; South Pacific Ocean; South Tasman Rise; Southwest Pacific Ocean; SST; SU90/08; Super-interglacial; Tasman Sea; TASQWA; Temperature, difference; TSP-2PC; V18; V18-68; V20; V20-120; V22; V22-108; V23; V23-82; V27; V27-116; V27-20; V27-60; V27-86; V28; V28-14; V28-56; V29; V29-179; V30; V30-97; Vema; Y7211; Y7211-1; Y9; Y9_core; Yaquina
    Type: Dataset
    Format: text/tab-separated-values, 378 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 27
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    Collection of alkenone temperatures derived from sediment surface samples of the North Pacific (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: Collection of Alkenone temperatures derived from 42 Multicorer sediment surface samples of the subpolar North Pacific and its marginal seas (Okhotsk Sea and Bering Sea). Multicores were collected during several expeditions to the Okhotsk Sea, Bering Sea and North Pacific from 1997 to 2013 (R/V Akademik M.A. Lavrentyev cruise LV27 (Nürnberg et al., 1997); R/V Akademik M.A. Lavrentyev cruise LV28 (Biebow and Hütten, 1999); R/V Marshal Gelovany cruise GE99 (Biebow et al., 2000); R/V Akademik M.A. Lavrentyev cruise LV29 (Biebow et al., 2003); R/V Sonne cruise SO178, (Dullo and Biebow, 2004); R/V Sonne cruise SO201-2, Dullo et al., 2009); R/V Akademik M.A. Lavrentyev cruise LV55 (Gorbarenko, 2012); R/V Akademik M.A. Lavrentyev cruise LV63 (Gorbarenko, 2014).
    Keywords: Academy of Science Rise; Akademik M.A. Lavrentyev; Alkenone; Alkenone, unsaturation index UK'37; Area/locality; Bering Sea; Calculated from UK'37 (Müller et al, 1998); Calculated from UK37 (Sikes et al., 1997); Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; Derugin Basin; Eastern continental slope of Sakhalin; Eastern slope of Kurile Basin; Elevation of event; Event label; GE99/KOMEX_VI; GE99-10-2; GE99-12-3; GE99-1-3; GE99-2-2; GE99-30-2; GE99-31-3; GE99-38-3; GE99-4-3; GE99-5-2; GE99-6-3; Helmholtz-Verbund Regionale Klimaänderungen = Helmholtz Climate Initiative (Regional Climate Change); KALMAR II; KOMEX; KOMEX I; KOMEX II; Kronotsky Peninsula; Kurile Basin; La Perusa (Soya) Strait; Latitude of event; Longitude of event; LV27/GREGORY; LV27-3-2; LV28; LV28-2-2; LV28-40-3; LV28-41-3; LV28-42-3; LV28-4-3; LV28-43-3; LV28-61-3; LV28-64-3; LV29-104-1; LV29-106-1; LV29-108-3; LV29-110-1; LV29-112-1; LV29-114-1; LV29-131-1; LV29-2; LV29-69-1; LV29-70-3; LV29-94-1; LV55; LV55-12; LV55-18; LV55-9; LV63; LV63-14; LV63-16; LV63-28; LV63-33; LV63-41; Marshal Gelovany; MIC; MiniCorer; MUC; MultiCorer; Multicorer with television; North Derugin Basin; North Pacific; North-West Kurile basin slope; Okhotsk Sea; REKLIM; Sakhalin shelf; Sakhalin shelf and slope; Sea of Okhotsk; Sea surface temperature, annual mean; Sea surface temperature, autumn; Sea surface temperature, summer; sediment surface samples; Shirshov Ridge; SiGePAX; SO178; SO178-37-1; SO201/2; SO201-2-11; SO201-2-76; SO201-2-83; SO201-2-90; Sonne; Southwestern Kamchatka slope; SST; Terpenia bay; TVMUC; Uk´37; West Kurile basin; West Kurile basin slope; WTZ China - SiGePAX: Paläoklimatologische Entwicklung des Arktischen Ozeans
    Type: Dataset
    Format: text/tab-separated-values, 294 data points
    Location Call Number Expected Availability
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  • 28
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    SOCATv2019 metadata list with links to data in original SOCAT format and cruise documentation files (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Keywords: 0306SFC_PRT; 061ASFC_PRT; 06AQ19860627-track; 06AQ19860928-track; 06AQ19911114-track; 06AQ19911210-track; 06AQ19921005-track; 06AQ19930128-track; 06AQ19930228-track; 06AQ19931019-track; 06AQ19940524-track; 06AQ19951112-track; 06AQ19960320-track; 06AQ19980411-track; 06AQ19990327-track; 06AQ20001004-track; 06AQ20001026-track; 06AQ20021126-track; 06AQ20021214-track; 06AQ20071203-track; 06AQ20080209-track; 06AQ20080416-track; 06AQ20080624-track; 06AQ20080705-track; 06AQ20090109-track; 06AQ20090322-track; 06AQ20090413-track; 06AQ20090622-track; 06AQ20090711-track; 06AQ20090806-track; 06AQ20091023-track; 06AQ20091129-track; 06AQ20100131-track; 06AQ20100408-track; 06AQ20101026-track; 06AQ20110617-track; 06AQ20110715-track; 06AQ20110806-track; 06AQ20111214-track; 06AQ20120108-track; 06AQ20120318-track; 06AQ20120411-track; 06AQ20120615-track; 06AQ20120716-track; 06AQ20120803-track; 06AQ20131110-track; 06AQ20131221-track; 06AQ20140309-track; 06AQ20140608-track; 06AQ20140707-track; 06AQ20140805-track; 06AQ20141026-track; 06AQ20141203-track; 06AQ20150204-track; 06AQ20150519-track; 06AQ20150629-track; 06AQ20150818-track; 06AQ20151030-track; 06AQ20151207-track; 06AQ20160220-track; 06AQ20160412-track; 06AQ20160614-track; 06AQ20160720-track; 06AQ20170205-track; 06AQ20170321-track; 06AQ20170524-track; 06AQ20170723-track; 06AQ20170822-track; 06AQ20170912-track; 06BE19961010-track; 06BE19970515-track; 06BE19970612-track; 06BE20140710-track; 06BE20140723-track; 06CK20060523-track; 06CK20060715-track; 06CK20060821-track; 06GA19960613-track; 06GA276_3; 06LB19831130-track; 06LB19840107-track; 06LB19840629-track; 06LB19850110-track; 06LB19850313-track; 06LB19850812-track; 06LB19860116-track; 06LB19860323-track; 06LB19860801-track; 06LB19861011-track; 06LB19861214-track; 06LB19870221-track; 06LB19870501-track; 06LB19870721-track; 06LB19870920-track; 06LB19871126-track; 06LB19871231-track; 06LB19880204-track; 06M220110623-track; 06M320120320-track; 06M320120407-track; 06MT18_1; 06MT19910903-track; 06MT19920510-track; 06MT19921229-track; 06MT19941012-track; 06MT19941119-track; 06MT19950714-track; 06MT19960607-track; 06MT19960622-track; 06MT19970106-track; 06MT19970516-track; 06MT19970707-track; 06MT19981228-track; 06MT20021015-track; 06MT20060714; 06MT20060714-track; 06MT22_5; 06MT30_2; 06MT30_3; 06MT37_2; 06MT39_4; 06P119910616-track; 06P119950901-track; 06PO20050321; 06PO20050322-track; 06PO20070210-track; 06PO20100531-track; 06ZG20091213; 06ZG20091213-track; 06ZG20100115; 06ZG20100115-track; 06ZG20100207; 06ZG20100207-track; 06ZG20100226; 06ZG20100226-track; 06ZG20100321; 06ZG20100321-track; 06ZG20100409; 06ZG20100409-track; 06ZG20100506; 06ZG20100506-track; 06ZG20100716; 06ZG20100716-track; 06ZG20100813; 06ZG20100813-track; 06ZG20100902; 06ZG20100902-track; 06ZG20100930; 06ZG20100930-track; 06ZG20101023; 06ZG20101023-track; 06ZG20101118; 06ZG20101118-track; 06ZG20101211; 06ZG20101211-track; 07AL19951011-track; 07AL19960218-track; 07AL19970503-track; 07AL19990718-track; 07AL19991101-track; 07AL19991129-track; 07AL20000113-track; 07AL20000210-track; 07AL20000305-track; 07AL20010513-track; 07AL20010607-track; 07AL20010709-track; 07AL20010802-track; 08AI20000324-track; 08AI20010124-track; 08AI20010808-track; 08AI20020131-track; 08AI20030206-track; 08AI20040227-track; 08AI20041225-track; 08D820170918; 08D820170918-track; 08PD20051019-track; 08PD20060310-track; 08PD20060907-track; 096U20150321; 096U20150321-track; 096U20160108; 096U20160108-track; 096U20160314; 096U20160314-track; 096U20160426-track; 096U20160630; 096U20160630-track; 096U20160817; 096U20160817-track; 096U20160825; 096U20160825-track; 096U20160831; 096U20160831-track; 096U20160927; 096U20160927-track; 096U20161028; 096U20161028-track; 096U20170114; 096U20170114-track; 096U20170319; 096U20170319-track; 096U20170411; 096U20170411-track; 096U20170504; 096U20170504-track; 096U20170515; 096U20170515-track; 096U20170831; 096U20170831-track; 096U20170924; 096U20170924-track; 096U20171011; 096U20171011-track; 096U20171125; 096U20171125-track; 096U20180111; 096U20180111-track; 096U20180302; 096U20180302-track; 096U20180405; 096U20180405-track; 096U20180418; 096U20180418-track; 096U20180514; 096U20180514-track; 096U20180528; 096U20180528-track; 09AR0103; 09AR19910926-track; 09AR19921019-track; 09AR19930105-track; 09AR19930311-track; 09AR19930807-track; 09AR19931119-track; 09AR19940101-track; 09AR19940831-track; 09AR19941213-track; 09AR19950717-track; 09AR19950916-track; 09AR19960119-track; 09AR19960822-track; 09AR19970910-track; 09AR19971114-track; 09AR19980228-track; 09AR19980404-track; 09AR19980715-track; 09AR19990716-track; 09AR20011031-track; 09AR20060102; 09AR20060102-track; 09AR20110104; 09AR20110104-track; 09AR20110222; 09AR20110222-track; 09AR20120105; 09AR20120105-track; 09AR20120215; 09AR20120215-track; 09AR20120416; 09AR20120416-track; 09AR20120914; 09AR20120914-track; 09AR20121116; 09AR20121116-track; 09AR20121217; 09AR20121217-track; 09AR20130113; 09AR20130113-track; 09AR20130228; 09AR20130228-track; 09AR20131015; 09AR20131015-track; 09AR20140129; 09AR20140129-track; 09AR20140309; 09AR20140309-track; 09AR20141022; 09AR20141022-track; 09AR20141205; 09AR20141205-track; 09AR20150128; 09AR20150128-track; 09AR20151022; 09AR20151022-track; 09AR20151028; 09AR20151028-track; 09AR20151201; 09AR20151201-track; 09AR20151209; 09AR20151209-track; 09AR20160111; 09AR20160111-track; 09AR20161021; 09AR20161021-track; 09AR20161026; 09AR20161026-track; 09AR20161208; 09AR20161208-track; 09AR20170125; 09AR20170125-track; 09AR20170314; 09AR20170314-track; 09AR20171029; 09AR20171029-track; 09AR20171213; 09AR20171213-track; 09AR20180115; 09AR20180115-track; 09AR20180308; 09AR20180308-track; 09AR9401; 09AR9404; 09AR9407; 09AR9501; 09AR9502; 09AR9601; 09AR9604; 09AR9701; 09AR9703; 09AR9707; 09AR9801; 09AR9806; 09AR9901; 09FA19920618-track; 09FA19920625-track; 09FA20000927-track; 09FS20091009; 09FS20091009-moor; 09FS20100421; 09FS20100421-moor; 09FS20100908; 09FS20100908-moor; 09FS20110311; 09FS20110311-moor; 09FS20110420; 09FS20110420-moor; 09FS20110826; 09FS20110826-moor; 09FS20111018; 09FS20111018-moor; 09FS20120208; 09FS20120208-moor; 09FS20120417; 09FS20120417-moor; 09FS20160805; 09FS20160805-moor; 09FS20160817; 09FS20160817-moor; 09FS20160912; 09FS20160912-moor; 09FS20161129; 09FS20161129-moor; 09FS20170207; 09FS20170207-moor; 09FS20170306; 09FS20170306-moor; 09FS20170520; 09FS20170520-moor; 09FS20170907; 09FS20170907-moor; 09FS20170912; 09FS20170912-moor; 09FS20171206; 09FS20171206-moor; 09FS20180215; 09FS20180215-moor; 09FS20180419; 09FS20180419-moor; 09FS20180524; 09FS20180524-moor; 09SS19951116-track; 09SS19990205-track; 09SS20080111-track; 09SS20080204-track; 09SS20080228-track; 09SS20080321-track; 09SS20080405-track; 09SS20080410-track; 09SS20080416-track; 09SS20080430-track; 09SS20080608-track; 09SS20080724-track; 09SS20080812-track; 09SS20081010-track; 09SS20090128-track; 09SS20090203-track; 09SS20090422-track; 09SS20090604-track; 09SS20090703-track; 09SS20090729-track; 09SS20090922-track; 09SS20091010-track; 09SS20091016-track; 09SS20100128-track; 09SS20100315-track; 09SS20100329-track; 09SS20100414-track; 09SS20100508-track; 09SS20100706-track; 09SS20100729-track; 09SS20100810-track; 09SS20100906-track; 09SS20100922-track; 09SS20101015-track; 09SS20110405-track; 09SS20110416-track; 09SS20110505-track; 09SS20110513-track; 09SS20110606-track; 09SS20110801-track; 09SS20110812-track; 09SS20110825-track; 09SS20111110-track; 09SS20111122-track; 09SS20120411-track; 09SS20120420-track; 09SS20120502-track; 09SS20120512-track; 09SS20120607-track; 09SS20120711-track; 11BE19930419-track; 11BE19930921-track; 11BE19931003-track; 11BE19940411-track; 11BE19940413-track; 11BE19950303-track; 11BE19950912-track; 11BE19970513-track; 11BE19970527-track; 11BE19970609-track; 11BE19970618-track; 11BE19970621; 11BE19970621-track; 11BE19970702-track; 11BE19980614-track; 11BE19980625-track; 11BE19980627; 11BE19980627-track; 11BE19980710-track;
    Type: Dataset
    Format: text/tab-separated-values, 95289 data points
    Location Call Number Expected Availability
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  • 29
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    Whale sightings during POLARSTERN cruise ARK-XXIII/3 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: Data on whale distribution and abundance in the polar oceans is rather sparse, as implementing the standard surveying method, line-transect surveys, is challenging and costly. To overcome this problem, we initiated a program to electronically log all opportunistic cetacean sightings during all Polarstern expeditions through the nautical officer on watch. Opportunistic (visual) sightings by naked eye were logged during Polarstern Cruise ARK-XXIII/3 (Reykjavik - Bremerhaven) by the nautical officer on duty using a customized Software package (WALOG, WhAleLOGger) installed on a touch screen laptop located on the ship's bridge. Species were identified by naked eye or handheld binoculars (7x50) to the lowest possible taxonomical level and assigned a “certainty” level of identification. The number of animals were counted if possible or estimated for larger groups. Whenever identification to species level was not possible, the next identifiable taxonomical category was assigned. Information on sighting position, date and time are automatically transferred from the ship's DAVIS-Ship System (https://dship.awi.de/) to the WALOG software at the time of logging. Photographs were taken if possible for retrospective analysis. All data of acquired sightings were retrospectively validated by a marine biologist and converted to a standard format. To this end, plausibility of sighting time, location, standardization of species names, eventual comments added at the time of sighting, as well as additional information such as photographs (if available) were checked either to verify or improve species identification. Datasets are used in species distribution modelling and to inform interested parties about occurrences.
    Keywords: Arctic Ocean; ARK-XXIII/3; Certainty of identification; Cetacean sightings; CT; DATE/TIME; Individuals; LATITUDE; LONGITUDE; MAPS; Marine Mammal Perimeter Surveillance from RV Polarstern; Polarstern; PS72; PS72/3-track; Underway cruise track measurements; Visual observation; WALOG; Whale species
    Type: Dataset
    Format: text/tab-separated-values, 9 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 30
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    Authigenic Pb and Nd isotope composition snapshot of surface sediments in the Atlantic sector of the Southern Ocean (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-28
    Description: Radiogenic lead (Pb) and neodymium (Nd) isotope compositions extracted from authigenic phases in marine sediments are sensitive tracers to reconstruct past ocean circulation and water mass mixing. Chemical reductive leaching of hydrogenetic ferromanganese oxyhydroxides from bulk sediments is the most practical way to recover past seawater Pb and Nd isotope signatures in the Southern Ocean, due to the scarcity of alternative archives. However, the leached signal could be compromised if substantial quantities of Pb and Nd were released from non-hydrogenetic sediment fractions during chemical extraction. We developed a very short 10-seconds leaching method to extract reliable seawater Pb and Nd isotope signals from sediments in the Atlantic sector of Southern Ocean. Based on this method, we extracted seawater Pb and Nd signals from 70 core top sediments covering different geological settings in the Atlantic sector of Southern Ocean collected by past Polarstern RV cruises to evaluate factor controlling the regional authigenic Pb and Nd isotopic composition variability.
    Keywords: ANT-I/2; ANT-II/3; ANT-II/4; ANT-III/3; ANT-IV/3; ANT-IV/4; ANT-IX/3; ANT-IX/4; ANT-V/4; ANT-VI/3; ANT-VIII/3; ANT-VIII/5; ANT-X/5; ANT-XI/4; ANT-XIV/3; ANT-XX/2; ANT-XXXI/3; Argentine Islands; Atka Bay; Atlantic Indik Ridge; Atlantic Ridge; Atlantic sector of Southern Ocean; Authigenic Pb and Nd; Camp Norway; Cape Fiske; DEPTH, sediment/rock; Drake Passage; Dredge; DRG; Eastern Weddell Sea, Southern Ocean; Elevation of event; Event label; Filchner Shelf; Filchner Trough; Giant box corer; GKG; Gould Bay; Gravity corer (Kiel type); Halley Bay; isotope compositions; Kapp Norvegia; KL; KOL; Latitude of event; Lazarev Sea; Lead-206/Lead-204 ratio; Lead-206/Lead-204 ratio, error; Lead-207/Lead-204 ratio; Lead-207/Lead-204 ratio, error; Lead-207/Lead-206, error; Lead-207/Lead-206 ratio; Lead-208/Lead-204 ratio; Lead-208/Lead-204 ratio, error; Lead-208/Lead-206 ratio; Lead-208/Lead-206 ratio, error; Lead-208/Lead-207, error; Lead-208/Lead-207 ratio; Longitude of event; Lyddan Island; Maud Rise; PC; Piston corer; Piston corer (BGR type); Piston corer (Kiel type); Polarstern; PS01; PS01/154; PS01/156; PS01/161; PS01/177; PS04; PS04/254; PS04/367; PS04/414; PS04/433; PS04/477; PS04/528; PS04/542; PS06/301; PS06/302; PS06/303; PS06/304; PS06/306; PS06 SIBEX; PS08; PS08/333; PS08/335; PS08/338; PS08/347; PS08/353; PS08/356; PS08/364; PS08/366; PS08/381; PS08/450; PS08/507; PS08/509; PS08/529; PS08/546; PS08/564; PS08/634; PS10; PS10/778; PS10/816; PS10/820; PS1010-1; PS1012-1; PS1013-1; PS1016-1; PS1167-5; PS12; PS12/248; PS12/319; PS12/338; PS12/340; PS12/344; PS12/350; PS12/352; PS12/545; PS12/555; PS1202-1; PS1207-1; PS1210-1; PS1215-1; PS1224-3; PS1226-1; PS1275-1; PS1276-1; PS1277-1; PS1278-1; PS1279-1; PS1367-2; PS1368-1; PS1370-1; PS1375-2; PS1377-1; PS1380-1; PS1386-1; PS1388-1; PS1398-2; PS1423-1; PS1435-1; PS1436-1; PS1442-4; PS1448-3; PS1451-1; PS1461-1; PS1498-1; PS1506-2; PS1508-2; PS1575-2; PS1599-1; PS16; PS16/311; PS16/345; PS16/354; PS16/362; PS16/409; PS16/410; PS16/446; PS1606-1; PS1607-1; PS1609-2; PS1612-1; PS1613-2; PS1649-1; PS1653-2; PS1768-8; PS1778-5; PS1780-5; PS1782-5; PS1789-1; PS1790-1; PS18; PS18/175; PS18/185; PS18/186; PS18/187; PS18/192; PS18/193; PS18/194; PS18/196; PS18/198; PS18/203; PS18/204; PS18/225; PS18/260; PS18/262; PS1800-2; PS2028-1; PS2038-2; PS2039-1; PS2040-2; PS2045-3; PS2046-1; PS2047-3; PS2049-4; PS2050-1; PS2055-2; PS2056-1; PS2070-1; PS2102-2; PS2104-2; PS22/817; PS22 06AQANTX_5; PS2319-1; PS2575-5; PS2813-1; PS30; PS30/111; PS43; PS43/036; PS63/068-1; PS63 06AQ200211_2; PS97; PS97/085-1; Scotia Sea; Shona Ridge; SL; South Atlantic Ocean; South Orkney; South Sandwich Basin; Weddell Sea; ε-Neodymium; ε-Neodymium, error
    Type: Dataset
    Format: text/tab-separated-values, 980 data points
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  • 31
    facet.materialart.
    Unknown
    Whale sightings during POLARSTERN cruise ARK-XXIII/2 (2020)
    PANGAEA
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    Publication Date: 2024-06-28
    Description: Data on whale distribution and abundance in the polar oceans is rather sparse, as implementing the standard surveying method, line-transect surveys, is challenging and costly. To overcome this problem, we initiated a program to electronically log all opportunistic cetacean sightings during all Polarstern expeditions through the nautical officer on watch. Opportunistic (visual) sightings by naked eye were logged during Polarstern Cruise ARK-XXIII/2 (Longyearbyen - Reykjavik) by the nautical officer on duty using a customized Software package (WALOG, WhAleLOGger) installed on a touch screen laptop located on the ship's bridge. Species were identified by naked eye or handheld binoculars (7x50) to the lowest possible taxonomical level and assigned a “certainty” level of identification. The number of animals were counted if possible or estimated for larger groups. Whenever identification to species level was not possible, the next identifiable taxonomical category was assigned. Information on sighting position, date and time are automatically transferred from the ship's DAVIS-Ship System (https://dship.awi.de/) to the WALOG software at the time of logging. Photographs were taken if possible for retrospective analysis. All data of acquired sightings were retrospectively validated by a marine biologist and converted to a standard format. To this end, plausibility of sighting time, location, standardization of species names, eventual comments added at the time of sighting, as well as additional information such as photographs (if available) were checked either to verify or improve species identification. Datasets are used in species distribution modelling and to inform interested parties about occurrences.
    Keywords: Arctic Ocean; ARK-XXIII/2; Certainty of identification; Cetacean sightings; CT; DATE/TIME; Individuals; LATITUDE; LONGITUDE; MAPS; Marine Mammal Perimeter Surveillance from RV Polarstern; Polarstern; PS72; PS72/2-track; Underway cruise track measurements; Visual observation; WALOG; Whale species
    Type: Dataset
    Format: text/tab-separated-values, 24 data points
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  • 32
    facet.materialart.
    Unknown
    Fossil diatom record from marine sediment core AMD14-204_CASQ (2020)
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    Publication Date: 2024-06-28
    Description: Raw counts of fossil diatom taxa from the marine sediment core AMD14-204 that was retrieved from the West Greenland shelf, offshore Upernavik, and which spans the last ca. 9,000 years. Quantification was done using a light microscope (Olympus BX53, University of New Brunswick) with phase contrast optics, at 1000x magnification.
    Keywords: Achnanthes groenlandica; Actinocyclus curvatulus; AGE; AMD14_1b; AMD14-204_CASQ; ArcticNet; Asteromphalus spp.; Bacterosira bathyomphala; Bacterosira bathyomphala, resting spores; Baffin Bay; Calypso square corer; CASQ; CCGS Amundsen; Chaetoceros affinis, resting spores; Chaetoceros debilis, resting spores; Chaetoceros diadema, resting spores; Chaetoceros radicans, resting spores; Chaetoceros spp. resting spores; Cocconeis californica; Cocconeis costata; Cocconeis scutellum; Cocconeis spp.; Coscinodiscus spp.; Counting, diatoms; Cymatotheca spp.; DEPTH, sediment/rock; diatoms; Diatoms, centrales; Diatoms, pennales; Diatoms, pennales indeterminata; Diploneis spp.; Fields; Fossula arctica; Fragilariopsis atlantica; Fragilariopsis cylindrus; Fragilariopsis nana; Fragilariopsis oceanica; Fragilariopsis reginae-jahniae; Fragilariopsis spp.; Geochemistry; Gomphonemopsis littoralis; Grammatophora angulosa var. islandica; Highly branched isoprenoid (HBI) biomarkers; Mass; Melosira arctica; Melosira setosa; Navicula spp.; Nitzschia spp.; Odontella aurita; Paralia sulcata; Pauliella taeniata; Podosira cf. stelligera; Porosira glacialis; Pseudogomphonema cf. kamtschaticum; Rhizosolenia hebetata forma hebetata; Rhizosolenia hebetata forma semispina; Rhizosolenia spp.; Shionodiscus oestrupii; Shionodiscus trifultus; Synedropsis recta; Tabularia tabulata; Thalassiosira anguste-lineata; Thalassiosira antarctica var. borealis; Thalassiosira antarctica var. borealis, resting spores; Thalassiosira bulbosa; Thalassiosira constricta; Thalassiosira eccentrica; Thalassiosira gravida; Thalassiosira hyalina; Thalassiosira hyperborea; Thalassiosira nordenskioldii; Thalassiosira spp.; Thalassiothrix longissima
    Type: Dataset
    Format: text/tab-separated-values, 4799 data points
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  • 33
    facet.materialart.
    Unknown
    Seawater carbonate chemistry and respiratory metabolism of microplankton (2020)
    PANGAEA
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    Publication Date: 2024-06-27
    Description: In the autumn of 2014, nine large mesocosms were deployed in the oligotrophic subtropical North-Atlantic coastal waters off Gran Canaria (Spain). Their deployment was designed to address the acidification effects of CO2 levels from 400 to 1,400 μatm, on a plankton community experiencing upwelling of nutrient-rich deep water. Among other parameters, chlorophyll a (chl-a), potential respiration (PHi), and biomass in terms of particulate protein (B) were measured in the microplankton community (0.7–50.0 μm) during an oligotrophic phase (Phase I), a phytoplankton-bloom phase (Phase II), and a post-bloom phase (Phase III). Here, we explore the use of the PHi/chl-a ratio in monitoring shifts in the microplankton community composition and its metabolism. PHi/chl-a values below 2.5 μL O2/h/ (μg chl-a) indicated a community dominated by photoautotrophs. When PHi/chl-a ranged higher, between 2.5 and 7.0 μL O2/h/ (μg chl-a), it indicated a mixed community of phytoplankton, microzooplankton and heterotrophic prokaryotes. When PHi/chl-a rose above 7.0 μL O2/h/ (μg chl-a), it indicated a community where microzooplankton proliferated (〉10.0 μL O2/h/ (μg chl-a)), because heterotrophic dinoflagellates bloomed. The first derivative of B, as a function of time (dB/dt), indicates the rate of protein build-up when positive and the rate of protein loss, when negative. It revealed that the maximum increase in particulate protein (biomass) occurred between 1 and 2 days before the chl-a peak. A day after this peak, the trough revealed the maximum net biomass loss. This analysis did not detect significant changes in particulate protein, neither in Phase I nor in Phase III. Integral analysis of PHi, chl-a and B, over the duration of each phase, for each mesocosm, reflected a positive relationship between PHi and pCO2 during Phase II [alpha = 230*10−5 μL O2/h/L/(μatm CO2)/(phase-day), R2 = 0.30] and between chl-a and pCO2 during Phase III [alpha= 100*10−5 μg chl-a/L/ (μ atmCO2)/ (phase-day), R2 = 0.84]. At the end of Phase II, a harmful algal species (HAS), Vicicitus globosus, bloomed in the high pCO2 mesocosms. In these mesocosms, microzooplankton did not proliferate, and chl-a retention time in the water column increased. In these V. globosus-disrupted communities, the PHi/chl-a ratio [4.1 +- 1.5 μL O2/h/(μg chl-a)] was more similar to the PHi/chl-a ratio in a mixed plankton community than to a photoautotroph-dominated one.
    Keywords: Alkalinity, total; Amoeba; Amphidinium; Aragonite saturation state; Bicarbonate ion; Calcite saturation state; Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, dissolved; Carbonate ion; Carbonate system computation flag; Carbon dioxide; Chlorophyll a; Ciliates; Coast and continental shelf; Community composition and diversity; DATE/TIME; Day of experiment; Dinophyceae; Diplopsalis group indeterminata; Entire community; Event label; Field experiment; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Gymnodinium; Katodinium glaucum; KOSMOS_2014; KOSMOS_2014_Atlantic-Reference; KOSMOS_2014_Mesocosm-M1; KOSMOS_2014_Mesocosm-M2; KOSMOS_2014_Mesocosm-M3; KOSMOS_2014_Mesocosm-M4; KOSMOS_2014_Mesocosm-M5; KOSMOS_2014_Mesocosm-M6; KOSMOS_2014_Mesocosm-M7; KOSMOS_2014_Mesocosm-M8; KOSMOS_2014_Mesocosm-M9; Macro-nutrients; MESO; Mesocosm experiment; Mesocosm label; Mesocosm or benthocosm; North Atlantic; OA-ICC; Ocean Acidification International Coordination Centre; Oxytoxum; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); Pelagos; pH; Pronoctiluca sp.; Proteins, particulate; Protoperidinium sp.; Respiration; Respiration rate, oxygen, potential; Salinity; Scuticociliates, fractionated; Subtropical North Atlantic; Temperate; Temperature, water; Tintinnida indeterminata; Torodinium sp.; Type
    Type: Dataset
    Format: text/tab-separated-values, 6763 data points
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  • 34
    facet.materialart.
    Unknown
    Estimates of biomass carbon stocks of the Baltic Sea ecosystem, version 2 (2020)
    PANGAEA
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    Publication Date: 2024-06-27
    Description: We have estimated the standing stocks in carbon units per m² in the Baltic Sea ecosystem for 18 living and non-living groups relevant to carbon cycle and management activities in the Baltic Sea. We included three non-living apartments: POC, DOC and sediment carbon. The living groups comprise: phytoplankton, protozooplankton, bacteria, zooplankton, macrophythes, benthos, plaice, flounder, herring, sprat, cod, ringed seals, seals, grey seals and harbour porpoises. The estimates are based on ICES raw data and literature data and represent spatial and temporal averages. Data, data sources, assumptions and calculations are described in detail to ensure reproducibility.
    Keywords: Baltic Sea; BalticSea_biomass_C; Binary Object; Binary Object (File Size); Binary Object (MD5 Hash); Binary Object (Media Type); biomass standing stock; carbon storage; Description; MULT; Multiple investigations
    Type: Dataset
    Format: text/tab-separated-values, 44 data points
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  • 35
    facet.materialart.
    Unknown
    Upwelling radiance Lu measured during the cruise SO267/2 with RV SONNE (2020)
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    Details
    Publication Date: 2024-06-27
    Keywords: DATE/TIME; DEPTH, water; ELEVATION; Es; Event label; hyperspectral; Hyperspectral free falling profiler, Sea-Bird, HyperPro II [SN: 099 / SN: 262 / SN: 227 / SN: 263]; ICBM; Identification; Institut für Chemie und Biologie des Meeres; Integrated value (400 - 700 nm); LATITUDE; Light/Optics; LIOP; LONGITUDE; OceanLight; Pacific Ocean; radiance; Radiation, photosynthetically active; SO267/2; SO267/2_10-1; SO267/2_11-1; SO267/2_12-1; SO267/2_13-1; SO267/2_14-1; SO267/2_15-1; SO267/2_16-1; SO267/2_2-1; SO267/2_3-1; SO267/2_4-1; SO267/2_5-1; SO267/2_6-1; SO267/2_7-1; SO267/2_8-1; SO267/2_9-1; Sonne_2; Spectral radiance, upward at 400 nm; Spectral radiance, upward at 401 nm; Spectral radiance, upward at 402 nm; Spectral radiance, upward at 403 nm; Spectral radiance, upward at 404 nm; Spectral radiance, upward at 405 nm; Spectral radiance, upward at 406 nm; Spectral radiance, upward at 407 nm; Spectral radiance, upward at 408 nm; Spectral radiance, upward at 409 nm; Spectral radiance, upward at 410 nm; Spectral radiance, upward at 411 nm; Spectral radiance, upward at 412 nm; Spectral radiance, upward at 413 nm; Spectral radiance, upward at 414 nm; Spectral radiance, upward at 415 nm; Spectral radiance, upward at 416 nm; Spectral radiance, upward at 417 nm; Spectral radiance, upward at 418 nm; Spectral radiance, upward at 419 nm; Spectral radiance, upward at 420 nm; Spectral radiance, upward at 421 nm; Spectral radiance, upward at 422 nm; Spectral radiance, upward at 423 nm; Spectral radiance, upward at 424 nm; Spectral radiance, upward at 425 nm; Spectral radiance, upward at 426 nm; Spectral radiance, upward at 427 nm; Spectral radiance, upward at 428 nm; Spectral radiance, upward at 429 nm; Spectral radiance, upward at 430 nm; Spectral radiance, upward at 431 nm; Spectral radiance, upward at 432 nm; Spectral radiance, upward at 433 nm; Spectral radiance, upward at 434 nm; Spectral radiance, upward at 435 nm; Spectral radiance, upward at 436 nm; Spectral radiance, upward at 437 nm; Spectral radiance, upward at 438 nm; Spectral radiance, upward at 439 nm; Spectral radiance, upward at 440 nm; Spectral radiance, upward at 441 nm; Spectral radiance, upward at 442 nm; Spectral radiance, upward at 443 nm; Spectral radiance, upward at 444 nm; Spectral radiance, upward at 445 nm; Spectral radiance, upward at 446 nm; Spectral radiance, upward at 447 nm; Spectral radiance, upward at 448 nm; Spectral radiance, upward at 449 nm; Spectral radiance, upward at 450 nm; Spectral radiance, upward at 451 nm; Spectral radiance, upward at 452 nm; Spectral radiance, upward at 453 nm; Spectral radiance, upward at 454 nm; Spectral radiance, upward at 455 nm; Spectral radiance, upward at 456 nm; Spectral radiance, upward at 457 nm; Spectral radiance, upward at 458 nm; Spectral radiance, upward at 459 nm; Spectral radiance, upward at 460 nm; Spectral radiance, upward at 461 nm; Spectral radiance, upward at 462 nm; Spectral radiance, upward at 463 nm; Spectral radiance, upward at 464 nm; Spectral radiance, upward at 465 nm; Spectral radiance, upward at 466 nm; Spectral radiance, upward at 467 nm; Spectral radiance, upward at 468 nm; Spectral radiance, upward at 469 nm; Spectral radiance, upward at 470 nm; Spectral radiance, upward at 471 nm; Spectral radiance, upward at 472 nm; Spectral radiance, upward at 473 nm; Spectral radiance, upward at 474 nm; Spectral radiance, upward at 475 nm; Spectral radiance, upward at 476 nm; Spectral radiance, upward at 477 nm; Spectral radiance, upward at 478 nm; Spectral radiance, upward at 479 nm; Spectral radiance, upward at 480 nm; Spectral radiance, upward at 481 nm; Spectral radiance, upward at 482 nm; Spectral radiance, upward at 483 nm; Spectral radiance, upward at 484 nm; Spectral radiance, upward at 485 nm; Spectral radiance, upward at 486 nm; Spectral radiance, upward at 487 nm; Spectral radiance, upward at 488 nm; Spectral radiance, upward at 489 nm; Spectral radiance, upward at 490 nm; Spectral radiance, upward at 491 nm; Spectral radiance, upward at 492 nm; Spectral radiance, upward at 493 nm; Spectral radiance, upward at 494 nm; Spectral radiance, upward at 495 nm; Spectral radiance, upward at 496 nm; Spectral radiance, upward at 497 nm; Spectral radiance, upward at 498 nm; Spectral radiance, upward at 499 nm; Spectral radiance, upward at 500 nm; Spectral radiance, upward at 501 nm; Spectral radiance, upward at 502 nm; Spectral radiance, upward at 503 nm; Spectral radiance, upward at 504 nm; Spectral radiance, upward at 505 nm; Spectral radiance, upward at 506 nm; Spectral radiance, upward at 507 nm; Spectral radiance, upward at 508 nm; Spectral radiance, upward at 509 nm; Spectral radiance, upward at 510 nm; Spectral radiance, upward at 511 nm; Spectral radiance, upward at 512 nm; Spectral radiance, upward at 513 nm; Spectral radiance, upward at 514 nm; Spectral radiance, upward at 515 nm; Spectral radiance, upward at 516 nm; Spectral radiance, upward at 517 nm; Spectral radiance, upward at 518 nm; Spectral radiance, upward at 519 nm; Spectral radiance, upward at 520 nm; Spectral radiance, upward at 521 nm; Spectral radiance, upward at 522 nm; Spectral radiance, upward at 523 nm; Spectral radiance, upward at 524 nm; Spectral radiance, upward at 525 nm; Spectral radiance, upward at 526 nm; Spectral radiance, upward at 527 nm; Spectral radiance, upward at 528 nm; Spectral radiance, upward at 529 nm; Spectral radiance, upward at 530 nm; Spectral radiance, upward at 531 nm; Spectral radiance, upward at 532 nm; Spectral radiance, upward at 533 nm; Spectral radiance, upward at 534 nm; Spectral radiance, upward at 535 nm; Spectral radiance, upward at 536 nm; Spectral radiance, upward at 537 nm; Spectral radiance, upward at 538 nm; Spectral radiance, upward at 539 nm; Spectral radiance, upward at 540 nm; Spectral radiance, upward at 541 nm; Spectral radiance, upward at 542 nm; Spectral radiance, upward at 543 nm; Spectral radiance, upward at 544 nm; Spectral radiance, upward at 545 nm; Spectral radiance, upward at 546 nm; Spectral radiance, upward at 547 nm; Spectral radiance, upward at 548 nm; Spectral radiance, upward at 549 nm; Spectral radiance, upward at 550 nm; Spectral radiance, upward at 551 nm; Spectral radiance, upward at 552 nm; Spectral radiance, upward at 553 nm; Spectral radiance, upward at 554 nm; Spectral radiance, upward at 555 nm; Spectral radiance, upward at 556 nm; Spectral radiance, upward at 557 nm; Spectral radiance, upward at 558 nm; Spectral radiance, upward at 559 nm; Spectral radiance, upward at 560 nm; Spectral radiance, upward at 561 nm; Spectral radiance, upward at 562 nm; Spectral radiance, upward at 563 nm; Spectral radiance, upward at 564 nm; Spectral radiance, upward at 565 nm; Spectral radiance, upward at 566 nm; Spectral radiance, upward at 567 nm; Spectral radiance, upward at 568 nm; Spectral radiance, upward at 569 nm; Spectral radiance, upward at 570 nm; Spectral radiance, upward at 571 nm; Spectral radiance, upward at 572 nm; Spectral radiance, upward at 573 nm; Spectral radiance, upward at 574 nm; Spectral radiance, upward at 575 nm; Spectral radiance, upward at 576 nm; Spectral radiance, upward at 577 nm; Spectral radiance, upward at 578 nm; Spectral radiance, upward at 579 nm; Spectral radiance, upward at 580 nm; Spectral radiance, upward at 581 nm; Spectral radiance, upward at 582 nm; Spectral radiance, upward at 583 nm; Spectral radiance, upward at 584 nm; Spectral radiance, upward at 585 nm; Spectral radiance, upward at 586 nm; Spectral radiance, upward at 587 nm; Spectral radiance, upward at 588 nm; Spectral radiance, upward at 589 nm; Spectral radiance, upward at 590 nm; Spectral radiance, upward at 591 nm; Spectral radiance, upward at 592 nm; Spectral radiance, upward at 593 nm; Spectral radiance, upward at 594 nm; Spectral radiance, upward at 595 nm; Spectral radiance, upward at 596 nm; Spectral radiance, upward at 597 nm; Spectral radiance, upward at 598 nm; Spectral radiance, upward at 599
    Type: Dataset
    Format: text/tab-separated-values, 598020 data points
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  • 36
    facet.materialart.
    Unknown
    Hyperspectral total upward sea surface leaving radiance observed at 45° nadir angle during cruise SO267/2 aboard RV SONNE (2020)
    PANGAEA
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    Publication Date: 2024-06-27
    Keywords: CT; DATE/TIME; Heading; Hyperspectral radiance meter, TriOS, RAMSES-ARC; hypespectral; ICBM; Institut für Chemie und Biologie des Meeres; LATITUDE; LONGITUDE; OceanLight; Pacific Ocean; Radiance, upward at 320 nm; Radiance, upward at 321 nm; Radiance, upward at 322 nm; Radiance, upward at 323 nm; Radiance, upward at 324 nm; Radiance, upward at 325 nm; Radiance, upward at 326 nm; Radiance, upward at 327 nm; Radiance, upward at 328 nm; Radiance, upward at 329 nm; Radiance, upward at 330 nm; Radiance, upward at 331 nm; Radiance, upward at 332 nm; Radiance, upward at 333 nm; Radiance, upward at 334 nm; Radiance, upward at 335 nm; Radiance, upward at 336 nm; Radiance, upward at 337 nm; Radiance, upward at 338 nm; Radiance, upward at 339 nm; Radiance, upward at 340 nm; Radiance, upward at 341 nm; Radiance, upward at 342 nm; Radiance, upward at 343 nm; Radiance, upward at 344 nm; Radiance, upward at 345 nm; Radiance, upward at 346 nm; Radiance, upward at 347 nm; Radiance, upward at 348 nm; Radiance, upward at 349 nm; Radiance, upward at 350 nm; Radiance, upward at 351 nm; Radiance, upward at 352 nm; Radiance, upward at 353 nm; Radiance, upward at 354 nm; Radiance, upward at 355 nm; Radiance, upward at 356 nm; Radiance, upward at 357 nm; Radiance, upward at 358 nm; Radiance, upward at 359 nm; Radiance, upward at 360 nm; Radiance, upward at 361 nm; Radiance, upward at 362 nm; Radiance, upward at 363 nm; Radiance, upward at 364 nm; Radiance, upward at 365 nm; Radiance, upward at 366 nm; Radiance, upward at 367 nm; Radiance, upward at 368 nm; Radiance, upward at 369 nm; Radiance, upward at 370 nm; Radiance, upward at 371 nm; Radiance, upward at 372 nm; Radiance, upward at 373 nm; Radiance, upward at 374 nm; Radiance, upward at 375 nm; Radiance, upward at 376 nm; Radiance, upward at 377 nm; Radiance, upward at 378 nm; Radiance, upward at 379 nm; Radiance, upward at 380 nm; Radiance, upward at 381 nm; Radiance, upward at 382 nm; Radiance, upward at 383 nm; Radiance, upward at 384 nm; Radiance, upward at 385 nm; Radiance, upward at 386 nm; Radiance, upward at 387 nm; Radiance, upward at 388 nm; Radiance, upward at 389 nm; Radiance, upward at 390 nm; Radiance, upward at 391 nm; Radiance, upward at 392 nm; Radiance, upward at 393 nm; Radiance, upward at 394 nm; Radiance, upward at 395 nm; Radiance, upward at 396 nm; Radiance, upward at 397 nm; Radiance, upward at 398 nm; Radiance, upward at 399 nm; Radiance, upward at 400 nm; Radiance, upward at 401 nm; Radiance, upward at 402 nm; Radiance, upward at 403 nm; Radiance, upward at 404 nm; Radiance, upward at 405 nm; Radiance, upward at 406 nm; Radiance, upward at 407 nm; Radiance, upward at 408 nm; Radiance, upward at 409 nm; Radiance, upward at 410 nm; Radiance, upward at 411 nm; Radiance, upward at 412 nm; Radiance, upward at 413 nm; Radiance, upward at 414 nm; Radiance, upward at 415 nm; Radiance, upward at 416 nm; Radiance, upward at 417 nm; Radiance, upward at 418 nm; Radiance, upward at 419 nm; Radiance, upward at 420 nm; Radiance, upward at 421 nm; Radiance, upward at 422 nm; Radiance, upward at 423 nm; Radiance, upward at 424 nm; Radiance, upward at 425 nm; Radiance, upward at 426 nm; Radiance, upward at 427 nm; Radiance, upward at 428 nm; Radiance, upward at 429 nm; Radiance, upward at 430 nm; Radiance, upward at 431 nm; Radiance, upward at 432 nm; Radiance, upward at 433 nm; Radiance, upward at 434 nm; Radiance, upward at 435 nm; Radiance, upward at 436 nm; Radiance, upward at 437 nm; Radiance, upward at 438 nm; Radiance, upward at 439 nm; Radiance, upward at 440 nm; Radiance, upward at 441 nm; Radiance, upward at 442 nm; Radiance, upward at 443 nm; Radiance, upward at 444 nm; Radiance, upward at 445 nm; Radiance, upward at 446 nm; Radiance, upward at 447 nm; Radiance, upward at 448 nm; Radiance, upward at 449 nm; Radiance, upward at 450 nm; Radiance, upward at 451 nm; Radiance, upward at 452 nm; Radiance, upward at 453 nm; Radiance, upward at 454 nm; Radiance, upward at 455 nm; Radiance, upward at 456 nm; Radiance, upward at 457 nm; Radiance, upward at 458 nm; Radiance, upward at 459 nm; Radiance, upward at 460 nm; Radiance, upward at 461 nm; Radiance, upward at 462 nm; Radiance, upward at 463 nm; Radiance, upward at 464 nm; Radiance, upward at 465 nm; Radiance, upward at 466 nm; Radiance, upward at 467 nm; Radiance, upward at 468 nm; Radiance, upward at 469 nm; Radiance, upward at 470 nm; Radiance, upward at 471 nm; Radiance, upward at 472 nm; Radiance, upward at 473 nm; Radiance, upward at 474 nm; Radiance, upward at 475 nm; Radiance, upward at 476 nm; Radiance, upward at 477 nm; Radiance, upward at 478 nm; Radiance, upward at 479 nm; Radiance, upward at 480 nm; Radiance, upward at 481 nm; Radiance, upward at 482 nm; Radiance, upward at 483 nm; Radiance, upward at 484 nm; Radiance, upward at 485 nm; Radiance, upward at 486 nm; Radiance, upward at 487 nm; Radiance, upward at 488 nm; Radiance, upward at 489 nm; Radiance, upward at 490 nm; Radiance, upward at 491 nm; Radiance, upward at 492 nm; Radiance, upward at 493 nm; Radiance, upward at 494 nm; Radiance, upward at 495 nm; Radiance, upward at 496 nm; Radiance, upward at 497 nm; Radiance, upward at 498 nm; Radiance, upward at 499 nm; Radiance, upward at 500 nm; Radiance, upward at 501 nm; Radiance, upward at 502 nm; Radiance, upward at 503 nm; Radiance, upward at 504 nm; Radiance, upward at 505 nm; Radiance, upward at 506 nm; Radiance, upward at 507 nm; Radiance, upward at 508 nm; Radiance, upward at 509 nm; Radiance, upward at 510 nm; Radiance, upward at 511 nm; Radiance, upward at 512 nm; Radiance, upward at 513 nm; Radiance, upward at 514 nm; Radiance, upward at 515 nm; Radiance, upward at 516 nm; Radiance, upward at 517 nm; Radiance, upward at 518 nm; Radiance, upward at 519 nm; Radiance, upward at 520 nm; Radiance, upward at 521 nm; Radiance, upward at 522 nm; Radiance, upward at 523 nm; Radiance, upward at 524 nm; Radiance, upward at 525 nm; Radiance, upward at 526 nm; Radiance, upward at 527 nm; Radiance, upward at 528 nm; Radiance, upward at 529 nm; Radiance, upward at 530 nm; Radiance, upward at 531 nm; Radiance, upward at 532 nm; Radiance, upward at 533 nm; Radiance, upward at 534 nm; Radiance, upward at 535 nm; Radiance, upward at 536 nm; Radiance, upward at 537 nm; Radiance, upward at 538 nm; Radiance, upward at 539 nm; Radiance, upward at 540 nm; Radiance, upward at 541 nm; Radiance, upward at 542 nm; Radiance, upward at 543 nm; Radiance, upward at 544 nm; Radiance, upward at 545 nm; Radiance, upward at 546 nm; Radiance, upward at 547 nm; Radiance, upward at 548 nm; Radiance, upward at 549 nm; Radiance, upward at 550 nm; Radiance, upward at 551 nm; Radiance, upward at 552 nm; Radiance, upward at 553 nm; Radiance, upward at 554 nm; Radiance, upward at 555 nm; Radiance, upward at 556 nm; Radiance, upward at 557 nm; Radiance, upward at 558 nm; Radiance, upward at 559 nm; Radiance, upward at 560 nm; Radiance, upward at 561 nm; Radiance, upward at 562 nm; Radiance, upward at 563 nm; Radiance, upward at 564 nm; Radiance, upward at 565 nm; Radiance, upward at 566 nm; Radiance, upward at 567 nm; Radiance, upward at 568 nm; Radiance, upward at 569 nm; Radiance, upward at 570 nm; Radiance, upward at 571 nm; Radiance, upward at 572 nm; Radiance, upward at 573 nm; Radiance, upward at 574 nm; Radiance, upward at 575 nm; Radiance, upward at 576 nm; Radiance, upward at 577 nm; Radiance, upward at 578 nm; Radiance, upward at 579 nm; Radiance, upward at 580 nm; Radiance, upward at 581 nm; Radiance, upward at 582 nm; Radiance, upward at 583 nm; Radiance, upward at 584 nm; Radiance, upward at 585 nm; Radiance, upward at 586 nm; Radiance, upward at 587 nm; Radiance, upward at 588 nm; Radiance, upward at 589 nm; Radiance, upward at 590 nm; Radiance, upward at 591 nm; Radiance, upward at 592 nm; Radiance, upward at 593 nm; Radiance, upward at 594 nm; Radiance, upward at 595 nm; Radiance, upward at 596 nm; Radiance, upward at 597 nm; Radiance, upward at 598 nm;
    Type: Dataset
    Format: text/tab-separated-values, 860152 data points
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  • 37
    facet.materialart.
    Unknown
    Hyperspectral downward sky leaving radiance observed at 45° zenith angle during cruise SO267/2 aboard RV SONNE (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-27
    Keywords: CT; DATE/TIME; Heading; Hyperspectral radiance meter, TriOS, RAMSES-ARC; hypespectral; ICBM; Institut für Chemie und Biologie des Meeres; LATITUDE; LONGITUDE; OceanLight; Pacific Ocean; Radiance, sky at 320 nm; Radiance, sky at 321 nm; Radiance, sky at 322 nm; Radiance, sky at 323 nm; Radiance, sky at 324 nm; Radiance, sky at 325 nm; Radiance, sky at 326 nm; Radiance, sky at 327 nm; Radiance, sky at 328 nm; Radiance, sky at 329 nm; Radiance, sky at 330 nm; Radiance, sky at 331 nm; Radiance, sky at 332 nm; Radiance, sky at 333 nm; Radiance, sky at 334 nm; Radiance, sky at 335 nm; Radiance, sky at 336 nm; Radiance, sky at 337 nm; Radiance, sky at 338 nm; Radiance, sky at 339 nm; Radiance, sky at 340 nm; Radiance, sky at 341 nm; Radiance, sky at 342 nm; Radiance, sky at 343 nm; Radiance, sky at 344 nm; Radiance, sky at 345 nm; Radiance, sky at 346 nm; Radiance, sky at 347 nm; Radiance, sky at 348 nm; Radiance, sky at 349 nm; Radiance, sky at 350 nm; Radiance, sky at 351 nm; Radiance, sky at 352 nm; Radiance, sky at 353 nm; Radiance, sky at 354 nm; Radiance, sky at 355 nm; Radiance, sky at 356 nm; Radiance, sky at 357 nm; Radiance, sky at 358 nm; Radiance, sky at 359 nm; Radiance, sky at 360 nm; Radiance, sky at 361 nm; Radiance, sky at 362 nm; Radiance, sky at 363 nm; Radiance, sky at 364 nm; Radiance, sky at 365 nm; Radiance, sky at 366 nm; Radiance, sky at 367 nm; Radiance, sky at 368 nm; Radiance, sky at 369 nm; Radiance, sky at 370 nm; Radiance, sky at 371 nm; Radiance, sky at 372 nm; Radiance, sky at 373 nm; Radiance, sky at 374 nm; Radiance, sky at 375 nm; Radiance, sky at 376 nm; Radiance, sky at 377 nm; Radiance, sky at 378 nm; Radiance, sky at 379 nm; Radiance, sky at 380 nm; Radiance, sky at 381 nm; Radiance, sky at 382 nm; Radiance, sky at 383 nm; Radiance, sky at 384 nm; Radiance, sky at 385 nm; Radiance, sky at 386 nm; Radiance, sky at 387 nm; Radiance, sky at 388 nm; Radiance, sky at 389 nm; Radiance, sky at 390 nm; Radiance, sky at 391 nm; Radiance, sky at 392 nm; Radiance, sky at 393 nm; Radiance, sky at 394 nm; Radiance, sky at 395 nm; Radiance, sky at 396 nm; Radiance, sky at 397 nm; Radiance, sky at 398 nm; Radiance, sky at 399 nm; Radiance, sky at 400 nm; Radiance, sky at 401 nm; Radiance, sky at 402 nm; Radiance, sky at 403 nm; Radiance, sky at 404 nm; Radiance, sky at 405 nm; Radiance, sky at 406 nm; Radiance, sky at 407 nm; Radiance, sky at 408 nm; Radiance, sky at 409 nm; Radiance, sky at 410 nm; Radiance, sky at 411 nm; Radiance, sky at 412 nm; Radiance, sky at 413 nm; Radiance, sky at 414 nm; Radiance, sky at 415 nm; Radiance, sky at 416 nm; Radiance, sky at 417 nm; Radiance, sky at 418 nm; Radiance, sky at 419 nm; Radiance, sky at 420 nm; Radiance, sky at 421 nm; Radiance, sky at 422 nm; Radiance, sky at 423 nm; Radiance, sky at 424 nm; Radiance, sky at 425 nm; Radiance, sky at 426 nm; Radiance, sky at 427 nm; Radiance, sky at 428 nm; Radiance, sky at 429 nm; Radiance, sky at 430 nm; Radiance, sky at 431 nm; Radiance, sky at 432 nm; Radiance, sky at 433 nm; Radiance, sky at 434 nm; Radiance, sky at 435 nm; Radiance, sky at 436 nm; Radiance, sky at 437 nm; Radiance, sky at 438 nm; Radiance, sky at 439 nm; Radiance, sky at 440 nm; Radiance, sky at 441 nm; Radiance, sky at 442 nm; Radiance, sky at 443 nm; Radiance, sky at 444 nm; Radiance, sky at 445 nm; Radiance, sky at 446 nm; Radiance, sky at 447 nm; Radiance, sky at 448 nm; Radiance, sky at 449 nm; Radiance, sky at 450 nm; Radiance, sky at 451 nm; Radiance, sky at 452 nm; Radiance, sky at 453 nm; Radiance, sky at 454 nm; Radiance, sky at 455 nm; Radiance, sky at 456 nm; Radiance, sky at 457 nm; Radiance, sky at 458 nm; Radiance, sky at 459 nm; Radiance, sky at 460 nm; Radiance, sky at 461 nm; Radiance, sky at 462 nm; Radiance, sky at 463 nm; Radiance, sky at 464 nm; Radiance, sky at 465 nm; Radiance, sky at 466 nm; Radiance, sky at 467 nm; Radiance, sky at 468 nm; Radiance, sky at 469 nm; Radiance, sky at 470 nm; Radiance, sky at 471 nm; Radiance, sky at 472 nm; Radiance, sky at 473 nm; Radiance, sky at 474 nm; Radiance, sky at 475 nm; Radiance, sky at 476 nm; Radiance, sky at 477 nm; Radiance, sky at 478 nm; Radiance, sky at 479 nm; Radiance, sky at 480 nm; Radiance, sky at 481 nm; Radiance, sky at 482 nm; Radiance, sky at 483 nm; Radiance, sky at 484 nm; Radiance, sky at 485 nm; Radiance, sky at 486 nm; Radiance, sky at 487 nm; Radiance, sky at 488 nm; Radiance, sky at 489 nm; Radiance, sky at 490 nm; Radiance, sky at 491 nm; Radiance, sky at 492 nm; Radiance, sky at 493 nm; Radiance, sky at 494 nm; Radiance, sky at 495 nm; Radiance, sky at 496 nm; Radiance, sky at 497 nm; Radiance, sky at 498 nm; Radiance, sky at 499 nm; Radiance, sky at 500 nm; Radiance, sky at 501 nm; Radiance, sky at 502 nm; Radiance, sky at 503 nm; Radiance, sky at 504 nm; Radiance, sky at 505 nm; Radiance, sky at 506 nm; Radiance, sky at 507 nm; Radiance, sky at 508 nm; Radiance, sky at 509 nm; Radiance, sky at 510 nm; Radiance, sky at 511 nm; Radiance, sky at 512 nm; Radiance, sky at 513 nm; Radiance, sky at 514 nm; Radiance, sky at 515 nm; Radiance, sky at 516 nm; Radiance, sky at 517 nm; Radiance, sky at 518 nm; Radiance, sky at 519 nm; Radiance, sky at 520 nm; Radiance, sky at 521 nm; Radiance, sky at 522 nm; Radiance, sky at 523 nm; Radiance, sky at 524 nm; Radiance, sky at 525 nm; Radiance, sky at 526 nm; Radiance, sky at 527 nm; Radiance, sky at 528 nm; Radiance, sky at 529 nm; Radiance, sky at 530 nm; Radiance, sky at 531 nm; Radiance, sky at 532 nm; Radiance, sky at 533 nm; Radiance, sky at 534 nm; Radiance, sky at 535 nm; Radiance, sky at 536 nm; Radiance, sky at 537 nm; Radiance, sky at 538 nm; Radiance, sky at 539 nm; Radiance, sky at 540 nm; Radiance, sky at 541 nm; Radiance, sky at 542 nm; Radiance, sky at 543 nm; Radiance, sky at 544 nm; Radiance, sky at 545 nm; Radiance, sky at 546 nm; Radiance, sky at 547 nm; Radiance, sky at 548 nm; Radiance, sky at 549 nm; Radiance, sky at 550 nm; Radiance, sky at 551 nm; Radiance, sky at 552 nm; Radiance, sky at 553 nm; Radiance, sky at 554 nm; Radiance, sky at 555 nm; Radiance, sky at 556 nm; Radiance, sky at 557 nm; Radiance, sky at 558 nm; Radiance, sky at 559 nm; Radiance, sky at 560 nm; Radiance, sky at 561 nm; Radiance, sky at 562 nm; Radiance, sky at 563 nm; Radiance, sky at 564 nm; Radiance, sky at 565 nm; Radiance, sky at 566 nm; Radiance, sky at 567 nm; Radiance, sky at 568 nm; Radiance, sky at 569 nm; Radiance, sky at 570 nm; Radiance, sky at 571 nm; Radiance, sky at 572 nm; Radiance, sky at 573 nm; Radiance, sky at 574 nm; Radiance, sky at 575 nm; Radiance, sky at 576 nm; Radiance, sky at 577 nm; Radiance, sky at 578 nm; Radiance, sky at 579 nm; Radiance, sky at 580 nm; Radiance, sky at 581 nm; Radiance, sky at 582 nm; Radiance, sky at 583 nm; Radiance, sky at 584 nm; Radiance, sky at 585 nm; Radiance, sky at 586 nm; Radiance, sky at 587 nm; Radiance, sky at 588 nm; Radiance, sky at 589 nm; Radiance, sky at 590 nm; Radiance, sky at 591 nm; Radiance, sky at 592 nm; Radiance, sky at 593 nm; Radiance, sky at 594 nm; Radiance, sky at 595 nm; Radiance, sky at 596 nm; Radiance, sky at 597 nm; Radiance, sky at 598 nm; Radiance, sky at 599 nm; Radiance, sky at 600 nm; Radiance, sky at 601 nm; Radiance, sky at 602 nm; Radiance, sky at 603 nm; Radiance, sky at 604 nm; Radiance, sky at 605 nm; Radiance, sky at 606 nm; Radiance, sky at 607 nm; Radiance, sky at 608 nm; Radiance, sky at 609 nm; Radiance, sky at 610 nm; Radiance, sky at 611 nm; Radiance, sky at 612 nm; Radiance, sky at 613 nm; Radiance, sky at 614 nm; Radiance, sky at 615 nm; Radiance, sky at 616 nm; Radiance, sky at 617 nm; Radiance, sky at 618 nm; Radiance, sky at 619 nm; Radiance, sky at 620 nm; Radiance, sky at 621 nm; Radiance, sky at 622 nm; Radiance, sky at 623 nm; Radiance, sky at 624 nm; Radiance, sky at 625 nm; Radiance, sky at 626 nm; Radiance, sky at 627 nm; Radiance, sky at 628 nm; Radiance, sky at 629 nm; Radiance, sky at 630 nm; Radiance, sky at 631 nm; Radiance, sky
    Type: Dataset
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  • 38
    facet.materialart.
    Unknown
    Downwelling irradiance Ed measured during the cruise SO267/2 with RV SONNE (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-27
    Keywords: DATE/TIME; DEPTH, water; Ed; ELEVATION; Event label; hyperspectral; Hyperspectral free falling profiler, Sea-Bird, HyperPro II [SN: 099 / SN: 262 / SN: 227 / SN: 263]; ICBM; Identification; Institut für Chemie und Biologie des Meeres; Integrated value (400 - 700 nm); irradiance; LATITUDE; Light/Optics; LIOP; LONGITUDE; OceanLight; Pacific Ocean; Radiation, photosynthetically active; SO267/2; SO267/2_10-1; SO267/2_11-1; SO267/2_12-1; SO267/2_13-1; SO267/2_14-1; SO267/2_15-1; SO267/2_16-1; SO267/2_2-1; SO267/2_3-1; SO267/2_4-1; SO267/2_5-1; SO267/2_6-1; SO267/2_7-1; SO267/2_8-1; SO267/2_9-1; Sonne_2; Spectral irradiance, downward at 400 nm; Spectral irradiance, downward at 401 nm; Spectral irradiance, downward at 402 nm; Spectral irradiance, downward at 403 nm; Spectral irradiance, downward at 404 nm; Spectral irradiance, downward at 405 nm; Spectral irradiance, downward at 406 nm; Spectral irradiance, downward at 407 nm; Spectral irradiance, downward at 408 nm; Spectral irradiance, downward at 409 nm; Spectral irradiance, downward at 410 nm; Spectral irradiance, downward at 411 nm; Spectral irradiance, downward at 412 nm; Spectral irradiance, downward at 413 nm; Spectral irradiance, downward at 414 nm; Spectral irradiance, downward at 415 nm; Spectral irradiance, downward at 416 nm; Spectral irradiance, downward at 417 nm; Spectral irradiance, downward at 418 nm; Spectral irradiance, downward at 419 nm; Spectral irradiance, downward at 420 nm; Spectral irradiance, downward at 421 nm; Spectral irradiance, downward at 422 nm; Spectral irradiance, downward at 423 nm; Spectral irradiance, downward at 424 nm; Spectral irradiance, downward at 425 nm; Spectral irradiance, downward at 426 nm; Spectral irradiance, downward at 427 nm; Spectral irradiance, downward at 428 nm; Spectral irradiance, downward at 429 nm; Spectral irradiance, downward at 430 nm; Spectral irradiance, downward at 431 nm; Spectral irradiance, downward at 432 nm; Spectral irradiance, downward at 433 nm; Spectral irradiance, downward at 434 nm; Spectral irradiance, downward at 435 nm; Spectral irradiance, downward at 436 nm; Spectral irradiance, downward at 437 nm; Spectral irradiance, downward at 438 nm; Spectral irradiance, downward at 439 nm; Spectral irradiance, downward at 440 nm; Spectral irradiance, downward at 441 nm; Spectral irradiance, downward at 442 nm; Spectral irradiance, downward at 443 nm; Spectral irradiance, downward at 444 nm; Spectral irradiance, downward at 445 nm; Spectral irradiance, downward at 446 nm; Spectral irradiance, downward at 447 nm; Spectral irradiance, downward at 448 nm; Spectral irradiance, downward at 449 nm; Spectral irradiance, downward at 450 nm; Spectral irradiance, downward at 451 nm; Spectral irradiance, downward at 452 nm; Spectral irradiance, downward at 453 nm; Spectral irradiance, downward at 454 nm; Spectral irradiance, downward at 455 nm; Spectral irradiance, downward at 456 nm; Spectral irradiance, downward at 457 nm; Spectral irradiance, downward at 458 nm; Spectral irradiance, downward at 459 nm; Spectral irradiance, downward at 460 nm; Spectral irradiance, downward at 461 nm; Spectral irradiance, downward at 462 nm; Spectral irradiance, downward at 463 nm; Spectral irradiance, downward at 464 nm; Spectral irradiance, downward at 465 nm; Spectral irradiance, downward at 466 nm; Spectral irradiance, downward at 467 nm; Spectral irradiance, downward at 468 nm; Spectral irradiance, downward at 469 nm; Spectral irradiance, downward at 470 nm; Spectral irradiance, downward at 471 nm; Spectral irradiance, downward at 472 nm; Spectral irradiance, downward at 473 nm; Spectral irradiance, downward at 474 nm; Spectral irradiance, downward at 475 nm; Spectral irradiance, downward at 476 nm; Spectral irradiance, downward at 477 nm; Spectral irradiance, downward at 478 nm; Spectral irradiance, downward at 479 nm; Spectral irradiance, downward at 480 nm; Spectral irradiance, downward at 481 nm; Spectral irradiance, downward at 482 nm; Spectral irradiance, downward at 483 nm; Spectral irradiance, downward at 484 nm; Spectral irradiance, downward at 485 nm; Spectral irradiance, downward at 486 nm; Spectral irradiance, downward at 487 nm; Spectral irradiance, downward at 488 nm; Spectral irradiance, downward at 489 nm; Spectral irradiance, downward at 490 nm; Spectral irradiance, downward at 491 nm; Spectral irradiance, downward at 492 nm; Spectral irradiance, downward at 493 nm; Spectral irradiance, downward at 494 nm; Spectral irradiance, downward at 495 nm; Spectral irradiance, downward at 496 nm; Spectral irradiance, downward at 497 nm; Spectral irradiance, downward at 498 nm; Spectral irradiance, downward at 499 nm; Spectral irradiance, downward at 500 nm; Spectral irradiance, downward at 501 nm; Spectral irradiance, downward at 502 nm; Spectral irradiance, downward at 503 nm; Spectral irradiance, downward at 504 nm; Spectral irradiance, downward at 505 nm; Spectral irradiance, downward at 506 nm; Spectral irradiance, downward at 507 nm; Spectral irradiance, downward at 508 nm; Spectral irradiance, downward at 509 nm; Spectral irradiance, downward at 510 nm; Spectral irradiance, downward at 511 nm; Spectral irradiance, downward at 512 nm; Spectral irradiance, downward at 513 nm; Spectral irradiance, downward at 514 nm; Spectral irradiance, downward at 515 nm; Spectral irradiance, downward at 516 nm; Spectral irradiance, downward at 517 nm; Spectral irradiance, downward at 518 nm; Spectral irradiance, downward at 519 nm; Spectral irradiance, downward at 520 nm; Spectral irradiance, downward at 521 nm; Spectral irradiance, downward at 522 nm; Spectral irradiance, downward at 523 nm; Spectral irradiance, downward at 524 nm; Spectral irradiance, downward at 525 nm; Spectral irradiance, downward at 526 nm; Spectral irradiance, downward at 527 nm; Spectral irradiance, downward at 528 nm; Spectral irradiance, downward at 529 nm; Spectral irradiance, downward at 530 nm; Spectral irradiance, downward at 531 nm; Spectral irradiance, downward at 532 nm; Spectral irradiance, downward at 533 nm; Spectral irradiance, downward at 534 nm; Spectral irradiance, downward at 535 nm; Spectral irradiance, downward at 536 nm; Spectral irradiance, downward at 537 nm; Spectral irradiance, downward at 538 nm; Spectral irradiance, downward at 539 nm; Spectral irradiance, downward at 540 nm; Spectral irradiance, downward at 541 nm; Spectral irradiance, downward at 542 nm; Spectral irradiance, downward at 543 nm; Spectral irradiance, downward at 544 nm; Spectral irradiance, downward at 545 nm; Spectral irradiance, downward at 546 nm; Spectral irradiance, downward at 547 nm; Spectral irradiance, downward at 548 nm; Spectral irradiance, downward at 549 nm; Spectral irradiance, downward at 550 nm; Spectral irradiance, downward at 551 nm; Spectral irradiance, downward at 552 nm; Spectral irradiance, downward at 553 nm; Spectral irradiance, downward at 554 nm; Spectral irradiance, downward at 555 nm; Spectral irradiance, downward at 556 nm; Spectral irradiance, downward at 557 nm; Spectral irradiance, downward at 558 nm; Spectral irradiance, downward at 559 nm; Spectral irradiance, downward at 560 nm; Spectral irradiance, downward at 561 nm; Spectral irradiance, downward at 562 nm; Spectral irradiance, downward at 563 nm; Spectral irradiance, downward at 564 nm; Spectral irradiance, downward at 565 nm; Spectral irradiance, downward at 566 nm; Spectral irradiance, downward at 567 nm; Spectral irradiance, downward at 568 nm; Spectral irradiance, downward at 569 nm; Spectral irradiance, downward at 570 nm; Spectral irradiance, downward at 571 nm; Spectral irradiance, downward at 572 nm; Spectral irradiance, downward at 573 nm; Spectral irradiance, downward at 574 nm; Spectral irradiance, downward at 575 nm; Spectral irradiance, downward at 576 nm; Spectral irradiance, downward at 577 nm; Spectral irradiance, downward at 578 nm; Spectral irradiance, downward at 579 nm; Spectral
    Type: Dataset
    Format: text/tab-separated-values, 567711 data points
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  • 39
    facet.materialart.
    Unknown
    Above water irradiance Es measured during the cruise SO267/2 with RV SONNE (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-27
    Keywords: DATE/TIME; DEPTH, water; ELEVATION; Es; Event label; hyperspectral; Hyperspectral free falling profiler, Sea-Bird, HyperPro II [SN: 099 / SN: 262 / SN: 227 / SN: 263]; ICBM; Identification; Institut für Chemie und Biologie des Meeres; Integrated value (400 - 700 nm); irradiance; LATITUDE; Light/Optics; LIOP; LONGITUDE; OceanLight; Pacific Ocean; Radiation, photosynthetically active; SO267/2; SO267/2_10-1; SO267/2_11-1; SO267/2_12-1; SO267/2_13-1; SO267/2_14-1; SO267/2_15-1; SO267/2_16-1; SO267/2_2-1; SO267/2_3-1; SO267/2_4-1; SO267/2_5-1; SO267/2_6-1; SO267/2_7-1; SO267/2_8-1; SO267/2_9-1; Sonne_2; Spectral irradiance, above water at 400 nm; Spectral irradiance, above water at 401 nm; Spectral irradiance, above water at 402 nm; Spectral irradiance, above water at 403 nm; Spectral irradiance, above water at 404 nm; Spectral irradiance, above water at 405 nm; Spectral irradiance, above water at 406 nm; Spectral irradiance, above water at 407 nm; Spectral irradiance, above water at 408 nm; Spectral irradiance, above water at 409 nm; Spectral irradiance, above water at 410 nm; Spectral irradiance, above water at 411 nm; Spectral irradiance, above water at 412 nm; Spectral irradiance, above water at 413 nm; Spectral irradiance, above water at 414 nm; Spectral irradiance, above water at 415 nm; Spectral irradiance, above water at 416 nm; Spectral irradiance, above water at 417 nm; Spectral irradiance, above water at 418 nm; Spectral irradiance, above water at 419 nm; Spectral irradiance, above water at 420 nm; Spectral irradiance, above water at 421 nm; Spectral irradiance, above water at 422 nm; Spectral irradiance, above water at 423 nm; Spectral irradiance, above water at 424 nm; Spectral irradiance, above water at 425 nm; Spectral irradiance, above water at 426 nm; Spectral irradiance, above water at 427 nm; Spectral irradiance, above water at 428 nm; Spectral irradiance, above water at 429 nm; Spectral irradiance, above water at 430 nm; Spectral irradiance, above water at 431 nm; Spectral irradiance, above water at 432 nm; Spectral irradiance, above water at 433 nm; Spectral irradiance, above water at 434 nm; Spectral irradiance, above water at 435 nm; Spectral irradiance, above water at 436 nm; Spectral irradiance, above water at 437 nm; Spectral irradiance, above water at 438 nm; Spectral irradiance, above water at 439 nm; Spectral irradiance, above water at 440 nm; Spectral irradiance, above water at 441 nm; Spectral irradiance, above water at 442 nm; Spectral irradiance, above water at 443 nm; Spectral irradiance, above water at 444 nm; Spectral irradiance, above water at 445 nm; Spectral irradiance, above water at 446 nm; Spectral irradiance, above water at 447 nm; Spectral irradiance, above water at 448 nm; Spectral irradiance, above water at 449 nm; Spectral irradiance, above water at 450 nm; Spectral irradiance, above water at 451 nm; Spectral irradiance, above water at 452 nm; Spectral irradiance, above water at 453 nm; Spectral irradiance, above water at 454 nm; Spectral irradiance, above water at 455 nm; Spectral irradiance, above water at 456 nm; Spectral irradiance, above water at 457 nm; Spectral irradiance, above water at 458 nm; Spectral irradiance, above water at 459 nm; Spectral irradiance, above water at 460 nm; Spectral irradiance, above water at 461 nm; Spectral irradiance, above water at 462 nm; Spectral irradiance, above water at 463 nm; Spectral irradiance, above water at 464 nm; Spectral irradiance, above water at 465 nm; Spectral irradiance, above water at 466 nm; Spectral irradiance, above water at 467 nm; Spectral irradiance, above water at 468 nm; Spectral irradiance, above water at 469 nm; Spectral irradiance, above water at 470 nm; Spectral irradiance, above water at 471 nm; Spectral irradiance, above water at 472 nm; Spectral irradiance, above water at 473 nm; Spectral irradiance, above water at 474 nm; Spectral irradiance, above water at 475 nm; Spectral irradiance, above water at 476 nm; Spectral irradiance, above water at 477 nm; Spectral irradiance, above water at 478 nm; Spectral irradiance, above water at 479 nm; Spectral irradiance, above water at 480 nm; Spectral irradiance, above water at 481 nm; Spectral irradiance, above water at 482 nm; Spectral irradiance, above water at 483 nm; Spectral irradiance, above water at 484 nm; Spectral irradiance, above water at 485 nm; Spectral irradiance, above water at 486 nm; Spectral irradiance, above water at 487 nm; Spectral irradiance, above water at 488 nm; Spectral irradiance, above water at 489 nm; Spectral irradiance, above water at 490 nm; Spectral irradiance, above water at 491 nm; Spectral irradiance, above water at 492 nm; Spectral irradiance, above water at 493 nm; Spectral irradiance, above water at 494 nm; Spectral irradiance, above water at 495 nm; Spectral irradiance, above water at 496 nm; Spectral irradiance, above water at 497 nm; Spectral irradiance, above water at 498 nm; Spectral irradiance, above water at 499 nm; Spectral irradiance, above water at 500 nm; Spectral irradiance, above water at 501 nm; Spectral irradiance, above water at 502 nm; Spectral irradiance, above water at 503 nm; Spectral irradiance, above water at 504 nm; Spectral irradiance, above water at 505 nm; Spectral irradiance, above water at 506 nm; Spectral irradiance, above water at 507 nm; Spectral irradiance, above water at 508 nm; Spectral irradiance, above water at 509 nm; Spectral irradiance, above water at 510 nm; Spectral irradiance, above water at 511 nm; Spectral irradiance, above water at 512 nm; Spectral irradiance, above water at 513 nm; Spectral irradiance, above water at 514 nm; Spectral irradiance, above water at 515 nm; Spectral irradiance, above water at 516 nm; Spectral irradiance, above water at 517 nm; Spectral irradiance, above water at 518 nm; Spectral irradiance, above water at 519 nm; Spectral irradiance, above water at 520 nm; Spectral irradiance, above water at 521 nm; Spectral irradiance, above water at 522 nm; Spectral irradiance, above water at 523 nm; Spectral irradiance, above water at 524 nm; Spectral irradiance, above water at 525 nm; Spectral irradiance, above water at 526 nm; Spectral irradiance, above water at 527 nm; Spectral irradiance, above water at 528 nm; Spectral irradiance, above water at 529 nm; Spectral irradiance, above water at 530 nm; Spectral irradiance, above water at 531 nm; Spectral irradiance, above water at 532 nm; Spectral irradiance, above water at 533 nm; Spectral irradiance, above water at 534 nm; Spectral irradiance, above water at 535 nm; Spectral irradiance, above water at 536 nm; Spectral irradiance, above water at 537 nm; Spectral irradiance, above water at 538 nm; Spectral irradiance, above water at 539 nm; Spectral irradiance, above water at 540 nm; Spectral irradiance, above water at 541 nm; Spectral irradiance, above water at 542 nm; Spectral irradiance, above water at 543 nm; Spectral irradiance, above water at 544 nm; Spectral irradiance, above water at 545 nm; Spectral irradiance, above water at 546 nm; Spectral irradiance, above water at 547 nm; Spectral irradiance, above water at 548 nm; Spectral irradiance, above water at 549 nm; Spectral irradiance, above water at 550 nm; Spectral irradiance, above water at 551 nm; Spectral irradiance, above water at 552 nm; Spectral irradiance, above water at 553 nm; Spectral irradiance, above water at 554 nm; Spectral irradiance, above water at 555 nm; Spectral irradiance, above water at 556 nm; Spectral irradiance, above water at 557 nm; Spectral irradiance, above water at 558 nm; Spectral irradiance, above water at 559 nm; Spectral irradiance, above water at 560 nm; Spectral irradiance, above water at 561 nm; Spectral irradiance, above water at 562 nm; Spectral irradiance, above water at 563 nm; Spectral irradiance, above water at 564 nm; Spectral irradiance, above water at 565 nm; Spectral irradiance, above water at 566 nm; Spectral irradiance, above water at 567 nm;
    Type: Dataset
    Format: text/tab-separated-values, 820827 data points
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  • 40
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    Hyperspectral downward irradiance observed during cruise SO267/2 aboard RV SONNE (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-27
    Keywords: CT; DATE/TIME; Heading; hypespectral; ICBM; Institut für Chemie und Biologie des Meeres; LATITUDE; LONGITUDE; OceanLight; Pacific Ocean; radiometric quantities; RAMSES-ACC hyperspectral cosine irradiance meter, TriOS; RV Sonne; SO267/2; SO267/2-track; Sonne_2; Spectral irradiance, downward at 320 nm; Spectral irradiance, downward at 321 nm; Spectral irradiance, downward at 322 nm; Spectral irradiance, downward at 323 nm; Spectral irradiance, downward at 324 nm; Spectral irradiance, downward at 325 nm; Spectral irradiance, downward at 326 nm; Spectral irradiance, downward at 327 nm; Spectral irradiance, downward at 328 nm; Spectral irradiance, downward at 329 nm; Spectral irradiance, downward at 330 nm; Spectral irradiance, downward at 331 nm; Spectral irradiance, downward at 332 nm; Spectral irradiance, downward at 333 nm; Spectral irradiance, downward at 334 nm; Spectral irradiance, downward at 335 nm; Spectral irradiance, downward at 336 nm; Spectral irradiance, downward at 337 nm; Spectral irradiance, downward at 338 nm; Spectral irradiance, downward at 339 nm; Spectral irradiance, downward at 340 nm; Spectral irradiance, downward at 341 nm; Spectral irradiance, downward at 342 nm; Spectral irradiance, downward at 343 nm; Spectral irradiance, downward at 344 nm; Spectral irradiance, downward at 345 nm; Spectral irradiance, downward at 346 nm; Spectral irradiance, downward at 347 nm; Spectral irradiance, downward at 348 nm; Spectral irradiance, downward at 349 nm; Spectral irradiance, downward at 350 nm; Spectral irradiance, downward at 351 nm; Spectral irradiance, downward at 352 nm; Spectral irradiance, downward at 353 nm; Spectral irradiance, downward at 354 nm; Spectral irradiance, downward at 355 nm; Spectral irradiance, downward at 356 nm; Spectral irradiance, downward at 357 nm; Spectral irradiance, downward at 358 nm; Spectral irradiance, downward at 359 nm; Spectral irradiance, downward at 360 nm; Spectral irradiance, downward at 361 nm; Spectral irradiance, downward at 362 nm; Spectral irradiance, downward at 363 nm; Spectral irradiance, downward at 364 nm; Spectral irradiance, downward at 365 nm; Spectral irradiance, downward at 366 nm; Spectral irradiance, downward at 367 nm; Spectral irradiance, downward at 368 nm; Spectral irradiance, downward at 369 nm; Spectral irradiance, downward at 370 nm; Spectral irradiance, downward at 371 nm; Spectral irradiance, downward at 372 nm; Spectral irradiance, downward at 373 nm; Spectral irradiance, downward at 374 nm; Spectral irradiance, downward at 375 nm; Spectral irradiance, downward at 376 nm; Spectral irradiance, downward at 377 nm; Spectral irradiance, downward at 378 nm; Spectral irradiance, downward at 379 nm; Spectral irradiance, downward at 380 nm; Spectral irradiance, downward at 381 nm; Spectral irradiance, downward at 382 nm; Spectral irradiance, downward at 383 nm; Spectral irradiance, downward at 384 nm; Spectral irradiance, downward at 385 nm; Spectral irradiance, downward at 386 nm; Spectral irradiance, downward at 387 nm; Spectral irradiance, downward at 388 nm; Spectral irradiance, downward at 389 nm; Spectral irradiance, downward at 390 nm; Spectral irradiance, downward at 391 nm; Spectral irradiance, downward at 392 nm; Spectral irradiance, downward at 393 nm; Spectral irradiance, downward at 394 nm; Spectral irradiance, downward at 395 nm; Spectral irradiance, downward at 396 nm; Spectral irradiance, downward at 397 nm; Spectral irradiance, downward at 398 nm; Spectral irradiance, downward at 399 nm; Spectral irradiance, downward at 400 nm; Spectral irradiance, downward at 401 nm; Spectral irradiance, downward at 402 nm; Spectral irradiance, downward at 403 nm; Spectral irradiance, downward at 404 nm; Spectral irradiance, downward at 405 nm; Spectral irradiance, downward at 406 nm; Spectral irradiance, downward at 407 nm; Spectral irradiance, downward at 408 nm; Spectral irradiance, downward at 409 nm; Spectral irradiance, downward at 410 nm; Spectral irradiance, downward at 411 nm; Spectral irradiance, downward at 412 nm; Spectral irradiance, downward at 413 nm; Spectral irradiance, downward at 414 nm; Spectral irradiance, downward at 415 nm; Spectral irradiance, downward at 416 nm; Spectral irradiance, downward at 417 nm; Spectral irradiance, downward at 418 nm; Spectral irradiance, downward at 419 nm; Spectral irradiance, downward at 420 nm; Spectral irradiance, downward at 421 nm; Spectral irradiance, downward at 422 nm; Spectral irradiance, downward at 423 nm; Spectral irradiance, downward at 424 nm; Spectral irradiance, downward at 425 nm; Spectral irradiance, downward at 426 nm; Spectral irradiance, downward at 427 nm; Spectral irradiance, downward at 428 nm; Spectral irradiance, downward at 429 nm; Spectral irradiance, downward at 430 nm; Spectral irradiance, downward at 431 nm; Spectral irradiance, downward at 432 nm; Spectral irradiance, downward at 433 nm; Spectral irradiance, downward at 434 nm; Spectral irradiance, downward at 435 nm; Spectral irradiance, downward at 436 nm; Spectral irradiance, downward at 437 nm; Spectral irradiance, downward at 438 nm; Spectral irradiance, downward at 439 nm; Spectral irradiance, downward at 440 nm; Spectral irradiance, downward at 441 nm; Spectral irradiance, downward at 442 nm; Spectral irradiance, downward at 443 nm; Spectral irradiance, downward at 444 nm; Spectral irradiance, downward at 445 nm; Spectral irradiance, downward at 446 nm; Spectral irradiance, downward at 447 nm; Spectral irradiance, downward at 448 nm; Spectral irradiance, downward at 449 nm; Spectral irradiance, downward at 450 nm; Spectral irradiance, downward at 451 nm; Spectral irradiance, downward at 452 nm; Spectral irradiance, downward at 453 nm; Spectral irradiance, downward at 454 nm; Spectral irradiance, downward at 455 nm; Spectral irradiance, downward at 456 nm; Spectral irradiance, downward at 457 nm; Spectral irradiance, downward at 458 nm; Spectral irradiance, downward at 459 nm; Spectral irradiance, downward at 460 nm; Spectral irradiance, downward at 461 nm; Spectral irradiance, downward at 462 nm; Spectral irradiance, downward at 463 nm; Spectral irradiance, downward at 464 nm; Spectral irradiance, downward at 465 nm; Spectral irradiance, downward at 466 nm; Spectral irradiance, downward at 467 nm; Spectral irradiance, downward at 468 nm; Spectral irradiance, downward at 469 nm; Spectral irradiance, downward at 470 nm; Spectral irradiance, downward at 471 nm; Spectral irradiance, downward at 472 nm; Spectral irradiance, downward at 473 nm; Spectral irradiance, downward at 474 nm; Spectral irradiance, downward at 475 nm; Spectral irradiance, downward at 476 nm; Spectral irradiance, downward at 477 nm; Spectral irradiance, downward at 478 nm; Spectral irradiance, downward at 479 nm; Spectral irradiance, downward at 480 nm; Spectral irradiance, downward at 481 nm; Spectral irradiance, downward at 482 nm; Spectral irradiance, downward at 483 nm; Spectral irradiance, downward at 484 nm; Spectral irradiance, downward at 485 nm; Spectral irradiance, downward at 486 nm; Spectral irradiance, downward at 487 nm; Spectral irradiance, downward at 488 nm; Spectral irradiance, downward at 489 nm; Spectral irradiance, downward at 490 nm; Spectral irradiance, downward at 491 nm; Spectral irradiance, downward at 492 nm; Spectral irradiance, downward at 493 nm; Spectral irradiance, downward at 494 nm; Spectral irradiance, downward at 495 nm; Spectral irradiance, downward at 496 nm; Spectral irradiance, downward at 497 nm; Spectral irradiance, downward at 498 nm; Spectral irradiance, downward at 499 nm; Spectral irradiance, downward at 500 nm; Spectral irradiance, downward at 501 nm; Spectral irradiance, downward at 502 nm; Spectral irradiance, downward at 503 nm; Spectral irradiance, downward at 504 nm; Spectral irradiance, downward at 505 nm; Spectral irradiance, downward at 506 nm; Spectral irradiance, downward at 507 nm; Spectral irradiance, downward
    Type: Dataset
    Format: text/tab-separated-values, 860152 data points
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  • 41
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    Late Glacial/early Holocene benthic foraminifera assemblages, stable isotopes, IRD, magnetic susceptibility, Mn/Fe ratio and vivianite count from Storfjordrenna, western Barents Sea (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Lateglacial/early Holocene interval from the sediment core JM09-020GC recovered in Storfjordrenna (western Barents Sea) has been studied for benthic foraminifera assemblages, stable isotopes, IRD, vivianite microconcretions, magnetic susceptibility, and elemental composition in order to identify the causes and mechanisms of abrupt climate change during the Younger Dryas. The core was retrieved with R/V Jan Mayen (University of Tromsø – The Arctic University of Norway, UiT) in November 2009 from the Storfjordrenna (76°31489' N, 19°69957' E) at a bottom depth of 253 m. Prior to sediment core opening, the magnetic susceptibility was measured using a loop sensor installed on a GEOTEK Multi Sensor Core Logger at the Department of Geology, UiT. Core sections were stored in the laboratory for one day prior to measurements, thus allowing the sediments to adjust to room temperature and avoiding measurement errors related to temperature changes (Weber et al., 1997). Qualitative element-geochemical measurements were performed with Avaatech X-ray fluorescence (XRF) core scanner using the following settings: 10 kV, 1000 µA, 10-s measuring time, and no filter. Sediment samples for foraminiferal and vivianite analyses were freeze-dried, weighed, and wet sieved using sieves with mesh sizes of 500 µm and 100 µm. The residues were dried, weighed again, and subsequently split on a dry micro-splitter. Where possible, at least 300 specimens of foraminifera were counted in every 1 cm of sediment. Species identification under a binocular microscope (Nikon SMZ1500) was supported using the classification of Loeblich and Tappan (1987), with few exceptions, and percentages of the eight indicator species were applied. The benthic foraminiferal abundance and ice-rafted debris (IRD; grains 〉500 µm) were counted under a stereo-microscope and expressed as flux values (number of specimens/grains cm-2 ka-1) using the bulk sediment density and sediment accumulation rate.
    Keywords: Arctic; Barents Sea; Benthic foraminifera; GC; Gravity corer; Holocene; Jan Mayen; JM09-020GC; JM09702; Stable isotopes; Storfjorden Trough; Svalbard; vivianite; XRF; Younger Dryas
    Type: Dataset
    Format: application/zip, 7 datasets
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  • 42
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    Time series of methane and carbon dioxide concentrations measured during POSEIDON cruise POS527 (2020)
    PANGAEA
    In:  GEOMAR - Helmholtz Centre for Ocean Research Kiel
    Details
    Publication Date: 2024-06-26
    Description: A gas inlet was installed at the bow of RV Poseidon. Atmospheric gas concentrations of CH4 and CO2 were measured continuously with a Picarro G2301-f analyzer.
    Keywords: CT; POS527; POS527-track; Poseidon; STEMM-CCS; Strategies for Environmental Monitoring of Marine Carbon Capture and Storage; Underway cruise track measurements
    Type: Dataset
    Format: application/zip, 20 datasets
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  • 43
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    Porewater analyses from Meteor cruise M157 multicores and gravity cores (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Porewater analyses from all M157 multicores and gravity cores are presented here. For each site, both shipboard and shore-based analyses are included. Shipboard analyses include photometric determination dissolved iron (Fe2+) and phosphate (PO43-) (Hach Lange DR 5000 photometer, 565 nm and 880 nm wavelengths), as well as ammonium (NH4+) via flow injection gas separator technique. Additional porewater aliquots were collected for analyses at MARUM between December 2019 and February 2020. Shore-based analyses completed in the Sediment Geochemistry Laboratory at MARUM include: ion chromatography (F-, Br-, Cl-, SO42-, NO3-, and PO43-), photometric determination of sulfide (wavelength 670 nm), DIC and NPOC (Analytik Jena Multi N/C Series), and inductively coupled plasma emission spectrometry (Al, B, Ba, Ca, Cr, Cu, Fe, K, Li, Mg, Mn, Mo, Na, Ni, P, S, Si, Sr, Ti, V). All data is over-specified for calculation purposes. Several constituents were below detection and therefore not reported here. These include: IC determined NO3-, and PO43- , ICP measurements of Cr, Cu, Mo, No, and V. Both depth in core (cm) and a corrected depth below seafloor (cm) are presented. Gravity core depths were adjusted to extend the porewater profiles from the paired multicore from the site. This offset was determined visually, based on eight constituent profiles. Most gravity cores were offset only by the length of the multicore, except for Site 14 with an additional 5cm, and Site 34 which an additional 10 cm was needed. Sites 10, 48 and 44 are only multicores, while Site 47 is only a gravity core. The data from site 48 was used to estimate an offset for the Site 47 gravity core due to their proximity.
    Keywords: Benguela Upwelling System; Center for Marine Environmental Sciences; EVAR; M157; MARUM; porewater; The Benguela Upwelling System under climate change – Effects of VARiability in physical forcing on carbon and oxygen budgets
    Type: Dataset
    Format: application/zip, 9 datasets
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  • 44
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    Seismic refraction and wide-angle reflection data from profile MSM71-P02 of Maria S. Merian cruise MSM71 in the Ligurian Basin, with links to SGY data files (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: During RV Maria S. Merian cruise MSM71 refraction and wide-angle reflection seismic data were acquired. We present profile P02 consisting of 15 seismic record sections (seg-y format) of the hydrophone components from three ocean bottom hydrophones (OBH204, OBH208, OBH212) and twelf ocean bottom seismometers (OBS201 - OBS203, OBS205-OBS207, OBS209-OBS211, OBS213-OBS215) along the SW-NE oriented seismic profile MSM71-P02, which is situated in the centre of the Ligurian Basin. The profile stretches over a distance of 127 km and was shot using an airgun array of six G-gun clusters with a total volume of 84 l (5440 cu in) at 190 bar. A total of 1079 shots were fired every 60 s (~123 m) with an airgun towed behind the vessel in a depth of 8 m. Data are unprocessed, however, they are corrected for instrument drift along the profile using the symmetry of the direct arrival and the data are time corrected.
    Keywords: Event label; File content; File format; File name; File size; Ligurian Basin; Maria S. Merian; Mediterranean; MSM71; MSM71_62-1; MSM71_63-1; MSM71_64-1; MSM71_65-1; MSM71_66-1; MSM71_67-1; MSM71_68-1; MSM71_69-1; MSM71_70-1; MSM71_71-1; MSM71_72-1; MSM71_73-1; MSM71_74-1; MSM71_75-1; MSM71_76-1; MSM71_77-1; OBH; OBH204; OBH208; OBH212; OBS; OBS201; OBS202; OBS203; OBS205; OBS206; OBS207; OBS209; OBS210; OBS211; OBS213; OBS214; OBS215; Ocean bottom hydrophone; Ocean bottom seismometer; P02; SEIS; Seismic; Seismic wide-angle reflection and refraction data; Uniform resource locator/link to metadata file; Uniform resource locator/link to sgy data file; Western Basin
    Type: Dataset
    Format: text/tab-separated-values, 209 data points
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  • 45
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    Physical oceanography during towed CTD track POS534_14-1 (VCTD04) (2020)
    PANGAEA
    In:  GEOMAR - Helmholtz Centre for Ocean Research Kiel
    Details
    Publication Date: 2024-06-26
    Keywords: CTD, SEA-BIRD SBE 9 plus; CTD/Rosette; CTD-RO; DATE/TIME; DEPTH, water; LATITUDE; LONGITUDE; Oxygen; pH; pH sensor, SBE 27; POS534; POS534_14-1; Poseidon; Salinity; STEMM-CCS; Strategies for Environmental Monitoring of Marine Carbon Capture and Storage; Temperature, water; VCTD04
    Type: Dataset
    Format: text/tab-separated-values, 188672 data points
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  • 46
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    Physical oceanography during towed CTD track POS534_30-1 (VCTD08) (2020)
    PANGAEA
    In:  GEOMAR - Helmholtz Centre for Ocean Research Kiel
    Details
    Publication Date: 2024-06-26
    Keywords: CTD, SEA-BIRD SBE 9 plus; CTD/Rosette; CTD-RO; DATE/TIME; DEPTH, water; LATITUDE; LONGITUDE; Oxygen; pH; pH sensor, SBE 27; POS534; POS534_30-1; Poseidon; Salinity; STEMM-CCS; Strategies for Environmental Monitoring of Marine Carbon Capture and Storage; Temperature, water; VCTD08
    Type: Dataset
    Format: text/tab-separated-values, 207710 data points
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  • 47
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    Physical oceanography measured on water bottle samples during POLARSTERN cruise PS117 (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-26
    Keywords: AWI_PhyOce; Bottle number; Conductivity; CTD/Rosette; CTD-RO; Date/Time of event; Density, sigma-theta (0); DEPTH, water; Elevation of event; Event label; Latitude of event; Lazarev Sea; Longitude of event; Nitrate; Nitrite; Oxygen; Oxygen saturation; Oxygen sensor, SBE 43; Phosphate; Physical Oceanography @ AWI; Polarstern; Pressure, water; PS117; PS117_1-1; PS117_13-2; PS117_14-1; PS117_15-1; PS117_18-2; PS117_19-1; PS117_19-4; PS117_2-1; PS117_21-1; PS117_22-2; PS117_26-1; PS117_28-1; PS117_29-1; PS117_30-1; PS117_31-1; PS117_33-6; PS117_34-2; PS117_35-6; PS117_4-1; PS117_41-1; PS117_41-12; PS117_41-6; PS117_41-9; PS117_5-1; PS117_53-4; PS117_54-2; PS117_56-2; PS117_58-1; PS117_62-1; PS117_6-3; PS117_63-1; PS117_64-4; PS117_66-1; PS117_68-2; PS117_69-1; PS117_7-1; PS117_71-1; PS117_72-3; PS117_74-1; PS117_76-1; PS117_81-2; PS117_83-2; PS117_90-1; PS117_92-1; PS117_94-1; PS117_99-3; Salinity; Scotia Sea; Silicate; South Atlantic Ocean; SUIT; Surface and under ice trawl; Temperature, water; Temperature, water, potential; Titration; Weddell Sea
    Type: Dataset
    Format: text/tab-separated-values, 12673 data points
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  • 48
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    Physical oceanography during Maria S. Merian cruise MSM76 (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-26
    Keywords: AWI_PhyOce; Calculated; Conductivity; CTD, SEA-BIRD SBE 911plus, SN T1526-C1222; CTD, towed system; CTD/Rosette; CTD-RO; CTD-twoyo; CTD-yoyo; Date/Time of event; Density, sigma-theta (0); DEPTH, water; Der Nordatlantik als Teil des Erdsystems; Elevation of event; Event label; FRAM; Fram Strait; FRontiers in Arctic marine Monitoring; Greenland - Ice Sheet/Ocean Interaction: From process understanding to an analysis of the regional system; GROCE; Latitude of event; Longitude of event; Maria S. Merian; MSM76; MSM76_100-1; MSM76_101-1; MSM76_102-1; MSM76_103-1; MSM76_103-10; MSM76_103-11; MSM76_103-12; MSM76_103-13; MSM76_103-14; MSM76_103-15; MSM76_103-16; MSM76_103-17; MSM76_103-18; MSM76_103-19; MSM76_103-2; MSM76_103-20; MSM76_103-21; MSM76_103-22; MSM76_103-23; MSM76_103-24; MSM76_103-25; MSM76_103-26; MSM76_103-3; MSM76_103-4; MSM76_103-5; MSM76_103-6; MSM76_103-7; MSM76_103-8; MSM76_103-9; MSM76_104-1; MSM76_105-1; MSM76_106-1; MSM76_107-1; MSM76_108-1; MSM76_109-1; MSM76_1-1; MSM76_110-1; MSM76_11-1; MSM76_111-1; MSM76_112-1; MSM76_113-1; MSM76_114-1; MSM76_115-1; MSM76_116-1; MSM76_118-1; MSM76_119-1; MSM76_120-1; MSM76_121-1; MSM76_122-1; MSM76_123-1; MSM76_124-1; MSM76_125-1; MSM76_126-1; MSM76_129-1; MSM76_130-1; MSM76_13-1; MSM76_131-1; MSM76_133-1; MSM76_134-1; MSM76_135-1; MSM76_136-1; MSM76_137-1; MSM76_138-1; MSM76_14-1; MSM76_141-1; MSM76_142-1; MSM76_143-1; MSM76_144-1; MSM76_145-1; MSM76_146-1; MSM76_147-1; MSM76_148-1; MSM76_149-1; MSM76_15-1; MSM76_154-1; MSM76_154-10; MSM76_154-11; MSM76_154-12; MSM76_154-13; MSM76_154-14; MSM76_154-15; MSM76_154-16; MSM76_154-17; MSM76_154-18; MSM76_154-19; MSM76_154-2; MSM76_154-20; MSM76_154-21; MSM76_154-22; MSM76_154-23; MSM76_154-24; MSM76_154-25; MSM76_154-26; MSM76_154-27; MSM76_154-28; MSM76_154-29; MSM76_154-3; MSM76_154-30; MSM76_154-31; MSM76_154-4; MSM76_154-5; MSM76_154-6; MSM76_154-7; MSM76_154-8; MSM76_154-9; MSM76_158-1; MSM76_158-10; MSM76_158-11; MSM76_158-12; MSM76_158-13; MSM76_158-14; MSM76_158-15; MSM76_158-16; MSM76_158-17; MSM76_158-18; MSM76_158-19; MSM76_158-2; MSM76_158-20; MSM76_158-3; MSM76_158-4; MSM76_158-5; MSM76_158-6; MSM76_158-7; MSM76_158-8; MSM76_158-9; MSM76_159-1; MSM76_159-10; MSM76_159-11; MSM76_159-12; MSM76_159-13; MSM76_159-2; MSM76_159-3; MSM76_159-4; MSM76_159-5; MSM76_159-6; MSM76_159-7; MSM76_159-8; MSM76_159-9; MSM76_16-1; MSM76_162-1; MSM76_163-1; MSM76_164-1; MSM76_165-1; MSM76_166-1; MSM76_167-1; MSM76_168-1; MSM76_169-1; MSM76_170-1; MSM76_17-1; MSM76_171-1; MSM76_172-1; MSM76_173-1; MSM76_174-1; MSM76_175-1; MSM76_176-1; MSM76_177-1; MSM76_180-1; MSM76_18-1; MSM76_181-1; MSM76_182-1; MSM76_183-1; MSM76_184-1; MSM76_185-1; MSM76_186-1; MSM76_187-1; MSM76_188-1; MSM76_189-1; MSM76_190-1; MSM76_19-1; MSM76_191-1; MSM76_192-1; MSM76_193-1; MSM76_194-1; MSM76_195-1; MSM76_196-1; MSM76_197-1; MSM76_200-1; MSM76_20-1; MSM76_201-1; MSM76_207-1; MSM76_208-1; MSM76_209-1; MSM76_2-1; MSM76_210-1; MSM76_211-1; MSM76_212-1; MSM76_215-1; MSM76_216-1; MSM76_217-1; MSM76_218-1; MSM76_219-1; MSM76_220-1; MSM76_221-1; MSM76_222-1; MSM76_223-1; MSM76_224-1; MSM76_227-1; MSM76_228-1; MSM76_229-1; MSM76_230-1; MSM76_231-1; MSM76_232-1; MSM76_233-1; MSM76_234-1; MSM76_235-1; MSM76_236-1; MSM76_237-1; MSM76_238-1; MSM76_239-1; MSM76_24-1; MSM76_25-1; MSM76_26-1; MSM76_27-1; MSM76_28-1; MSM76_29-1; MSM76_30-1; MSM76_3-1; MSM76_31-1; MSM76_32-1; MSM76_33-1; MSM76_34-1; MSM76_35-1; MSM76_36-1; MSM76_37-1; MSM76_38-1; MSM76_39-1; MSM76_40-1; MSM76_4-1; MSM76_41-1; MSM76_42-1; MSM76_43-1; MSM76_44-1; MSM76_45-1; MSM76_46-1; MSM76_47-1; MSM76_48-1; MSM76_49-1; MSM76_50-1; MSM76_5-1; MSM76_53-1; MSM76_55-1; MSM76_56-1; MSM76_57-1; MSM76_58-1; MSM76_59-1; MSM76_60-1; MSM76_6-1; MSM76_61-1; MSM76_62-1; MSM76_63-1; MSM76_64-1; MSM76_65-1; MSM76_66-1; MSM76_67-1; MSM76_68-1; MSM76_69-1; MSM76_70-1; MSM76_7-1; MSM76_71-1; MSM76_72-1; MSM76_73-1; MSM76_74-1; MSM76_75-1; MSM76_76-1; MSM76_77-1; MSM76_78-1; MSM76_79-1; MSM76_80-1; MSM76_8-1; MSM76_81-1; MSM76_82-1; MSM76_83-1; MSM76_84-1; MSM76_85-1; MSM76_86-1; MSM76_87-1; MSM76_88-1; MSM76_89-1; MSM76_90-1; MSM76_91-1; MSM76_92-1; MSM76_93-1; MSM76_94-1; MSM76_95-1; MSM76_96-1; MSM76_97-1; MSM76_98-1; MSM76_99-1; NACLIM; Nordatlantik; North Atlantic; North Atlantic Climate; Number of observations; Oxygen; Oxygen saturation; Physical Oceanography @ AWI; Pressure, water; Priority Programme 1889 Regional Sea Level Change and Society; RACE; Regional Atlantic Circulation and global Change; Salinity; SPP1889; Temperature, water; Temperature, water, potential; TRR181; TRR181 Energy transfers in Atmosphere and Ocean; Yoyo-CTD
    Type: Dataset
    Format: text/tab-separated-values, 1762191 data points
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  • 49
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    Fish abundances and masses from trawl samples taken in the wider Weddell Sea (Antarctica) during POLARSTERN cruises ANT-XV/3 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Keywords: Aethotaxis mitopteryx; Aethotaxis mitopteryx, mass; Agassiz Trawl; AGT; Akarotaxis nudiceps; Akarotaxis nudiceps, mass; Anotopterus pharao; Anotopterus pharao, mass; ANT-XV/3; Artedidraco loennbergi; Artedidraco loennbergi, mass; Artedidraco orianae; Artedidraco orianae, mass; Artedidraco scottsbergi; Artedidraco scottsbergi, mass; Artedidraco shackletoni; Artedidraco shackletoni, mass; Artedidraco skottsbergi; Artedidraco skottsbergi, mass; Bathydraco macrolepis; Bathydraco macrolepis, mass; Bathydraco marri; Bathydraco marri, mass; Bathylagus; Bathylagus, mass; Bathyraja; Bathyraja, mass; Bathyraja maccaini; Bathyraja maccaini, mass; Bentho-pelagic trawl; Bottom trawl; BPT; BT; Chaenocephalus aceratus; Chaenocephalus aceratus, mass; Chaenodraco wilsoni; Chaenodraco wilsoni, mass; Channichthyidae; Channichthyidae, mass; Chionobathyscus dewitti; Chionobathyscus dewitti, mass; Chionodraco hamatus; Chionodraco hamatus, mass; Chionodraco myersi; Chionodraco myersi, mass; Comment; Cryodraco antarcticus; Cryodraco antarcticus, mass; CTD/Rosette; CTD-RO; Cygnodraco mawsoni; Cygnodraco mawsoni, mass; Dacodraco hunteri; Dacodraco hunteri, mass; DATE/TIME; Dissostichus mawsoni; Dissostichus mawsoni, mass; Distance; Dolloidraco longedorsalis; Dolloidraco longedorsalis, mass; Drake Passage; Drescher Inlet; Electrona; Electrona, mass; ELEVATION; Event label; Gear; Gerlachea australis; Gerlachea australis, mass; Gobionotothen gibberifrons; Gobionotothen gibberifrons, mass; Gymnodraco acuticeps; Gymnodraco acuticeps, mass; Gymnoscopelus; Gymnoscopelus, mass; Halley Bay; Histiodraco velifer; Histiodraco velifer, mass; Kapp Norvegia; King George Island, Antarctic Peninsula; LATITUDE; Lepidonotothen larseni; Lepidonotothen larseni, mass; Lepidonotothen myzops; Lepidonotothen myzops, mass; Lepidonotothen nudifrons; Lepidonotothen nudifrons, mass; Liparididae; Liparididae, mass; LONGITUDE; Lycenchelys tristichodon; Lycenchelys tristichodon , mass; Macrouridae; Macrouridae, mass; Macrourus whitsoni; Macrourus whitsoni, mass; MULT; Multiple investigations; Muraenolepis; Muraenolepis, mass; Neopagetopsis ionah; Neopagetopsis ionah, mass; Notolepis coatsi; Notolepis coatsi, mass; Nototheniidae; Nototheniidae, mass; Ophthalmolycus amberensis; Ophthalmolycus amberensis, mass; Pagetopsis macropterus; Pagetopsis macropterus, mass; Pagetopsis maculatus; Pagetopsis maculatus, mass; Pagothenia borchgrevinki; Pagothenia borchgrevinki, mass; Pleuragramma antarcticum; Pleuragramma antarcticum, mass; Pogonophryne barsukovi; Pogonophryne barsukovi, mass; Pogonophryne lanceobarbata; Pogonophryne lanceobarbata, mass; Pogonophryne macropogon; Pogonophryne macropogon, mass; Pogonophryne marmorata; Pogonophryne marmorata, mass; Pogonophryne phyllopogon; Pogonophryne phyllopogon, mass; Pogonophryne scotti; Pogonophryne scotti, mass; Polarstern; Prionodraco evansii; Prionodraco evansii, mass; PS48/013; PS48/014; PS48/015; PS48/023; PS48/024; PS48/026; PS48/039; PS48/044; PS48/049; PS48/058; PS48/062; PS48/071; PS48/077; PS48/078; PS48/082; PS48/084; PS48/088; PS48/095; PS48/097; PS48/100; PS48/120; PS48/123; PS48/134; PS48/141; PS48/150; PS48/154; PS48/167; PS48/168; PS48/189; PS48/194; PS48/197; PS48/206; PS48/220; PS48/222; PS48/245; PS48/247; PS48/261; PS48/262; PS48/263; PS48/277; PS48/295; PS48/297; PS48/336; PS48/338; PS48/348; PS48/352; PS48/353; PS48 EASIZ II; Racovitzia glacialis; Racovitzia glacialis, mass; South of Vestkapp; Station label; Trematomus; Trematomus, mass; Trematomus eulepidotus; Trematomus eulepidotus, mass; Trematomus hansoni; Trematomus hansoni, mass; Trematomus lepidorhinus; Trematomus lepidorhinus, mass; Trematomus loennbergii; Trematomus loennbergii, mass; Trematomus nicolai; Trematomus nicolai, mass; Trematomus pennellii; Trematomus pennellii, mass; Trematomus scotti; Trematomus scotti, mass; Vomeridens infuscipinnis; Vomeridens infuscipinnis, mass; Zoarcidae; Zoarcidae, mass
    Type: Dataset
    Format: text/tab-separated-values, 1072 data points
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  • 50
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    Borehole logging of MeBo sediment core GeoB23047-1 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Keywords: Center for Marine Environmental Sciences; DEPTH, sediment/rock; Gammaray; GeoB23047-1; M149; M149_59-2; MARUM; MeBo; MeBo (Meeresboden-Bohrgerät); Meteor (1986); Natural gamma ray; Potassium; Thorium; Uranium
    Type: Dataset
    Format: text/tab-separated-values, 7464 data points
    Location Call Number Expected Availability
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  • 51
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    Biostratigraphy of sediment cores from Meteor cruise M149, 2018 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Keywords: Age, maximum/old; Age, minimum/young; Age model; Age model, optional; biostratigraphy; Center for Marine Environmental Sciences; Comment; DEPTH, sediment/rock; Depth comment; Event label; GC; GeoB23003-1; GeoB23004-1; GeoB23005-1; GeoB23006-1; GeoB23007-1; GeoB23008-1; GeoB23009-1; GeoB23010-1; GeoB23011-1; GeoB23012-1; GeoB23013-1; GeoB23024-2; GeoB23024-3; GeoB23024-4; GeoB23025-2; GeoB23027-1; GeoB23028-1; GeoB23030-1; GeoB23031-1; GeoB23032-1; GeoB23034-1; GeoB23038-1; GeoB23039-1; GeoB23040-1; GeoB23041-2; GeoB23043-1; GeoB23043-2; GeoB23044-1; GeoB23047-1; GeoB23047-2; GeoB23047-3; GeoB23052-1; GeoB23053-1; GeoB23054-1; GeoB23056-1; GeoB23057-1; GeoB23062-1; GeoB23063-1; GeoB23064-1; GeoB23066-1; GeoB23067-1; GeoB23069-1; GeoB23073-1; GeoB23076-1; GeoB23077-1; GeoB23078-3; GeoB23079-1; GeoB23080-1; GeoB23081-1; GeoB23082-1; GeoB23086-2; GeoB23087-1; GeoB23088-1; GeoB23089-1; GeoB23091-1; GeoB23092-1; GeoB23093-1; GeoB23094-1; GeoB23095-1; Gravity corer; Horizon; M149; M149_10; M149_102-2; M149_103; M149_104; M149_105; M149_109; M149_11; M149_111; M149_112; M149_113; M149_114; M149_12; M149_13; M149_3; M149_33; M149_34; M149_35; M149_36; M149_37; M149_39; M149_4; M149_40; M149_41; M149_44; M149_48; M149_49; M149_5; M149_50; M149_51-2; M149_53; M149_55-1; M149_55-2; M149_56; M149_59-2; M149_6; M149_60; M149_65; M149_66; M149_67; M149_68; M149_7; M149_70; M149_71; M149_77; M149_78; M149_79; M149_8; M149_81; M149_82; M149_84; M149_88; M149_9; M149_90; M149_91; M149_93-3; M149_94; M149_95; M149_96; M149_97; MARUM; MeBo; MeBo (Meeresboden-Bohrgerät); Meteor (1986); Method/Device of event; Nannofossil zone; Optional event label; Reference/source; Species
    Type: Dataset
    Format: text/tab-separated-values, 1258 data points
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  • 52
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    Physicochemical parameters and stable water isotopes in the Godavari River basin, India (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: This dataset contains physicochemical parameters (Electrical Conductivity, Temperature) and stable water isotope measurements of river surface waters and depth profiles in the Godavari River basin, India, in the pre-monsoon and monsoon season.
    Keywords: Area/locality; Comment; Conductivity, electrical; DEPTH, water; Deuterium excess; Deuterium-excess; Distance; ETH1; ETH2; ETH3; ETH4; ETH5; ETH7; ETH8; ETH9; Event label; G10; G14; G15; G16; G17; G18; G19; G20; G21; G22; G23; G24; G25; G26; G27; G28; G29; G30; G31; G32; G33; G34; G35; G36; G37; G38; G39; G40; G41; G42; G43; G44; G45; G46; G47; G48; Godavari River; India; LATITUDE; LONGITUDE; LW1; LW2; LW3; Multiparameter instrument, Hach; Off-axis integrated cavity output spectroscopy, CCIA2-912, Los Gatos Research; RIVER; Sample ID; Sampling river; Season; seasonal variability; Site; spatial variability; stable water isotopes; T1; T2; T3; T4; T5; T6; Temperature, water; TW1; TW2; TW3; TW4; TW5; TW6; Type; W10-1; W10-2; W10-3; W15; W16; W17; W18; W19; W20; W21; W23; W24; W25; W26; W28-1; W28-2; W29; W30; W31; W32; W33; W34; W37; W38; W39; W40; W41; W42; W43; W44; W46; W47; W48; W49; W50; W51; W52; W53; δ18O; δ18O, water; δD; δ Deuterium, water
    Type: Dataset
    Format: text/tab-separated-values, 1203 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 53
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    Physical oceanography data from mooring J022 (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-26
    Keywords: ARK-XX/1; AWI_PhyOce; CTD; DATE/TIME; DEPTH, water; Gear identification number; J022; MOOR; Mooring; North Greenland Sea; Physical Oceanography @ AWI; Polarstern; Pressure, water; PS66; PS66/061-1; Salinity; Temperature, water
    Type: Dataset
    Format: text/tab-separated-values, 1307920 data points
    Location Call Number Expected Availability
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  • 54
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    Physical oceanography data from mooring J026 (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-26
    Keywords: AWI_PhyOce; CTD; DATE/TIME; DEPTH, water; Gear identification number; J026; Maria S. Merian; MOOR; Mooring; MSM02/2; MSM02/2_557-3; North Greenland Sea; Physical Oceanography @ AWI; Pressure, water; Salinity; Temperature, water
    Type: Dataset
    Format: text/tab-separated-values, 4128456 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 55
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    Physical oceanography data from mooring J028 (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-26
    Keywords: AWI_PhyOce; CTD; DATE/TIME; DEPTH, water; Gear identification number; J028; Maria S. Merian; MOOR; Mooring; MSM02/2; MSM02/2_546-1; North Greenland Sea; Physical Oceanography @ AWI; Pressure, water; Salinity; Temperature, water
    Type: Dataset
    Format: text/tab-separated-values, 4128480 data points
    Location Call Number Expected Availability
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  • 56
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    Physical oceanography data from mooring J030 (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-26
    Keywords: AWI_PhyOce; CTD; DATE/TIME; DEPTH, water; Gear identification number; J030; Maria S. Merian; MOOR; Mooring; MSM05/5; North Greenland Sea; Physical Oceanography @ AWI; Pressure, water; Salinity; Temperature, water
    Type: Dataset
    Format: text/tab-separated-values, 2094572 data points
    Location Call Number Expected Availability
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  • 57
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    Physical oceanography data from mooring J033 (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-26
    Keywords: ARK-XXIII/1; AWI_PhyOce; CTD; DATE/TIME; DEPTH, water; Gear identification number; J033; MOOR; Mooring; North Greenland Sea; Physical Oceanography @ AWI; Polarstern; Pressure, water; PS72; PS72/050-1; Salinity; Temperature, water
    Type: Dataset
    Format: text/tab-separated-values, 2178844 data points
    Location Call Number Expected Availability
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  • 58
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    Physical oceanography, CFC-12 and nutrients measured on water bottle samples during Pelagia cruise PE278 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Physical oceanography, CFC-12 and nutrients measured on the RV Pelagia Cruise PE278 Galway - Canical/Madeira 10/26 - 11/17/2007 Chief Scientist: Dagmar Kieke Region: Subpolar Northeastern Atlantic
    Keywords: 1; 10; 11; 12; 13; 14; 15; 16; 17; 18; 19; 2; 20; 21; 22; 23; 24; 25; 26; 27; 28; 29; 3; 30; 31; 32; 33; 34; 35; 36; 37; 38; 39; 4; 40; 41; 42; 43; 44; 45; 46; 47; 48; 49; 50; 51; 52; 7; 8; 9; anthropogenic tracers; Bottle number; Calculated; Capillary-chromatographic system with electron capture detector; CTD, SEA-BIRD SBE 9 plus, SBE 11 plus deck unit; CTD/Rosette; CTD-RO; Date/Time of event; Density, sigma-theta (0); DEPTH, water; Der Nordatlantik als Teil des Erdsystems; Elevation of event; Event label; Freon-12 (dichlorodifluoromethane); Latitude of event; Longitude of event; Nitrate; Nordatlantik; Oxygen; Oxygen, Winkler (Culberson, 1991, WOCE Report 68/91); PE278; PE278_1; PE278_10; PE278_11; PE278_12; PE278_13; PE278_14; PE278_15; PE278_16; PE278_17; PE278_18; PE278_19; PE278_2; PE278_20; PE278_21; PE278_22; PE278_23; PE278_24; PE278_25; PE278_26; PE278_27; PE278_28; PE278_29; PE278_3; PE278_30; PE278_31; PE278_32; PE278_33; PE278_34; PE278_35; PE278_36; PE278_37; PE278_38; PE278_39; PE278_4; PE278_40; PE278_41; PE278_42; PE278_43; PE278_44; PE278_45; PE278_46; PE278_47; PE278_48; PE278_49; PE278_50; PE278_51; PE278_52; PE278_7; PE278_8; PE278_9; Pelagia; Phosphate; Pressure, water; Profile ID; Salinity; Silicate; South Atlantic Ocean; Station label; subpolar North Atlantic; Temperature, water; Temperature, water, potential; Time in days
    Type: Dataset
    Format: text/tab-separated-values, 13672 data points
    Location Call Number Expected Availability
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  • 59
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    Elemental and Mo isotope data (porewater) of multicorer samples from the Guaymas Basin (Gulf of California; SONNE cruise SO241) (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: The here presented sample set is from three cores from the Guaymas Basin (Gulf of California), covering a broad range of depositional environments. This includes sediments from the oxygen minimum zone, from a semi-restricted oxic graben, and from near a hydrothermal vent field. Cores were taken with a multiple corer.
    Keywords: Climate - Biogeochemistry Interactions in the Tropical Ocean; DEPTH, sediment/rock; Event label; Fe speciation; Guaymas Basin; Gulf of California; Hydrogen sulfide; ICP-MS, VG-Plasma-Quad 1; Inductively coupled plasma atomic emission spectroscope (ICP-AES); Iron; MAKS; Manganese; Mo isotopes; Molybdenum; MUC; MultiCorer; oxygen minimum zone; SFB754; SO241; SO241_16; SO241_29; SO241_66; Sonne_2; Spectrophotometry; δ98Mo
    Type: Dataset
    Format: text/tab-separated-values, 167 data points
    Location Call Number Expected Availability
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  • 60
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    Semi-quantitative records of benthic taxa from trawl samples taken in the wider Weddell Sea (Antarctica) during POLARSTERN cruises ANT VII/4, ANT IX/3, ANT XIII/3, ANT XV/3 and ANT XXI/2 between 1989 and 2004 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: The dataset comprises a total of 9,540 records of semi-quantitative data for 53 benthic invertebrate taxa and fish from 180 trawl samples (Agassiz trawl, bottom trawl, Rauschert dredge, benthopelagic trawl). The semi-quantitative data represent four categories regarding the frequency of occurrence of the benthic taxa (i.e. 0 = absent, 1 = rare, 2 = common and 3 = very common). The dataset was collected on the shelf and slope of the eastern Weddell Sea and Lazarev Sea, near Bouvet Island and the region at the north western tip of the Antarctic Peninsula (depth range: 64 - 2334 m) between 1989 and 2004 onboard "Polarstern". Cruises ANT VII/4 (1989), ANT IX/3 (1990/91), ANT XIII/3 (1996), ANT XV/3 (1998) and ANT XXI/2 (2003/2004) contributed to the data collection.
    Keywords: Acari; Actiniaria; Agassiz Trawl; AGT; Alcyonacea; Amphipoda; ANT-IX/3; ANT-VII/4; ANT-XIII/3; ANT-XV/3; ANT-XXI/2; Aplacophora; Ascidiacea; Asteroidea; Bentho-pelagic trawl; Bivalvia; Bottom trawl; BPT; Brachiopoda; Bryozoa; BT; Campaign; Cephalopoda; Cirripedia; Crinoidea; Cumacea; DATE/TIME; Date/time end; Decapoda; Demospongia; DEPTH, water; Drake Passage; Dredge, Rauschert; Drescher Inlet; Eastern Weddell Sea, Southern Ocean; Echinoidea; Echiurida; Errantia; Event label; Gear; Gorgonariana; Graptolithoidea; Halley Bay; Haul 8; Height; Hexacorallia; Hexactinellida; Holothuroidea; Hydroidolina; Hydrozoa; Isopoda; Kapp Norvegia; King George Island, Antarctic Peninsula; LATITUDE; Lazarev Sea; Leptostraca; LONGITUDE; Mesh size; MULT; Multiple investigations; Mysida; Nematoda; Nemertea; Nudibranchia; Ophiuroidea; Opisthobranchia; Ostracoda; Pantopoda; Pennatula; Pisces; Platyhelminthes; Polarstern; Polyplacophora; Porifera; Priapulida; Project; Prosobranchia; PS14/211; PS14/212; PS14/217; PS14/224; PS14/226; PS14/229; PS14/230; PS14/235; PS14/235-1; PS14/241; PS14/241-1; PS14/245; PS14/245-1; PS14/248; PS14/249; PS14/249-1; PS14/250; PS14/250-1; PS14/252; PS14/253; PS14/256; PS14/257; PS14/258; PS14/259; PS14/260; PS14/261; PS14/269; PS14/270; PS14/271; PS14/272; PS14/273; PS14/274; PS14/275; PS14/281; PS14/282; PS14/284; PS14/289; PS14/290; PS14/291; PS14/293; PS14 EPOS I; PS18; PS18/123-1; PS18/129-1; PS18/130-1; PS18/133-1; PS18/135-2; PS18/158-1; PS18/160-2; PS18/162-1; PS18/165-2; PS18/168-1; PS18/169-1; PS18/171-2; PS18/173-1; PS18/174-1; PS18/176-1; PS18/179-1; PS18/180-3; PS18/189-3; PS18/192-2; PS18/206-1; PS18/207-2; PS18/211-1; PS18/212-8; PS18/220-2; PS39/001-1; PS39/002-9; PS39/004-4; PS39/005-11; PS39/006-12; PS39/006-15; PS39/009-1; PS39/009-15; PS39/009-18; PS39/011-1; PS39/012-1; PS39/013-4; PS39/014-2; PS39/015-1; PS39/016-1; PS39/017-1; PS39/018-1; PS39/024-2; PS39/025-1; PS39/025-13; PS39/029-1; PS39/030-2; PS39 EASIZ; PS48/006; PS48/037; PS48/039; PS48/044; PS48/049; PS48/050; PS48/062; PS48/071; PS48/077; PS48/082; PS48/088; PS48/095; PS48/097; PS48/100; PS48/115; PS48/120; PS48/123; PS48/128; PS48/134; PS48/141; PS48/144; PS48/150; PS48/154; PS48/157; PS48/166; PS48/167; PS48/168; PS48/172; PS48/189; PS48/194; PS48/197; PS48/198; PS48/206; PS48/214; PS48/220; PS48/222; PS48/277; PS48/295; PS48/296; PS48/303; PS48/308; PS48/322; PS48/324; PS48/329; PS48/336; PS48/337; PS48/338; PS48/346; PS48/348; PS48/352; PS48/355; PS48 EASIZ II; PS65/019-1; PS65/020-1; PS65/028-1; PS65/029-1; PS65/039-1; PS65/090-1; PS65/109-1; PS65/121-1; PS65/132-1; PS65/161-1; PS65/173-1; PS65/233-1; PS65/245-1; PS65/248-1; PS65/253-1; PS65/259-1; PS65/265-1; PS65/274-1; PS65/276-1; PS65/278-1; PS65/279-1; PS65/280-1; PS65/292-1; PS65/336-1; PS65/344-1; PS65 BENDEX; Pycnogonida; RD; Sample ID; Scaphopoda; Scleractinia; Sedentaria; Ship speed; Siboglinidae; Sipuncula; South Atlantic Ocean; South of Vestkapp; Station label; Stolonifera; Stylasteridae; Tanaidacea; Trawling time; Turbellaria; Weddell Sea; Width
    Type: Dataset
    Format: text/tab-separated-values, 11229 data points
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  • 61
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    Fish abundances and masses from trawl samples taken in the wider Weddell Sea (Antarctica) during POLARSTERN cruise ANT-XIX/5 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Keywords: -; Agassiz Trawl; AGT; ANT-XIX/5; Artedidraco mirus; Bathyraja; Bathyraja, mass; Bathyraja griseocauda; Bathyraja griseocauda, mass; Bathyraja maccaini; Bathyraja maccaini, mass; Bottom trawl; BT; Chaenocephalus aceratus; Chaenocephalus aceratus, mass; Champsocephalus gunari; Champsocephalus gunari, mass; Chionodraco rastrospinosus; Chionodraco rastrospinosus, mass; Comment; Cottoperca gobio; Cottoperca gobio, mass; Cryodraco antarcticus; Cryodraco antarcticus, mass; DATE/TIME; Dissostichus; Dissostichus, mass; Dissostichus eleginoides; Dissostichus eleginoides, mass; Distance; Electrona carlsbergi; Electrona carlsbergi, mass; ELEVATION; Event label; Gear; Gempylidae; Gempylidae, mass; Gobionotothen; Gobionotothen, mass; Gobionotothen gibberifrons; Gobionotothen gibberifrons, mass; Gymnoscopelus; Gymnoscopelus, mass; Gymnoscopelus nicholsi; Gymnoscopelus nicholsi, mass; Krefftichthys andersoni; Krefftichthys andersoni, mass; LATITUDE; Lepidonotothen kempi; Lepidonotothen kempi, mass; Lepidonotothen larseni; Lepidonotothen larseni, mass; Lepidonotothen macrophthalma; Lepidonotothen macrophthalma, mass; Lepidonotothen nudifrons; Lepidonotothen nudifrons, mass; Liparidae; Liparidae, mass; LONGITUDE; Lycodichthys antarcticus; Lycodichthys antarcticus, mass; Mancopsetta maculata; Mancopsetta maculata, mass; Mancopsetta milfordi; Mancopsetta milfordi, mass; Muraenolepis marmoratus; Muraenolepis marmoratus, mass; Muraenolepis microps; Muraenolepis microps, mass; Muraenolepis orangiensis; Muraenolepis orangiensis, mass; Myctophidae; Myctophidae, mass; Myctophidae sp.; Myctophidae sp., mass; Notothenia rossii; Notothenia rossii, mass; Nototheniidae; Nototheniidae, mass; Pachycara brachycephalum; Pachycara brachycephalum, mass; Parachaenichthys georgianus; Parachaenichthys georgianus, mass; Paradiplospinus gracilis; Paradiplospinus gracilis, mass; Paraliparis; Paraliparis, mass; Patagonotothen guntheri; Patagonotothen guntheri, mass; Pleuragramma antarcticum; Pleuragramma antarcticum, mass; Pogonophryne permittini; Polarstern; Protomyctophum choriodon; Protomyctophum choriodon, mass; PS61/145-1; PS61/150-1; PS61/153-1; PS61/160-1; PS61/166-1; PS61/174-1; PS61/182-1; PS61/187-1; PS61/194-1; PS61/196-1; PS61/207-1; PS61/208-1; PS61/214-1; PS61/217-1; PS61/223-1; PS61/229-1; PS61/231-1; PS61/241-1; PS61/252-1; PS61/253-1; PS61 LAMPOS; Pseudochaenichthys georgianus; Pseudochaenichthys georgianus, mass; Raja georgiana eggs; Raja georgiana eggs, mass; Scotia Sea, southwest Atlantic; South Atlantic Ocean; Station label; Trematomus eulepidotus; Trematomus eulepidotus, mass; Trematomus hansoni; Trematomus hansoni, mass; Trematomus lepidorhinus; Trematomus lepidorhinus, mass; Trematomus nicolai; Trematomus nicolai, mass; Weddell Sea
    Type: Dataset
    Format: text/tab-separated-values, 302 data points
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  • 62
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    Borehole logging of MeBo sediment core GeoB23047-3 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Keywords: Center for Marine Environmental Sciences; Conductivity, electrical; DEPTH, sediment/rock; elec. Conductivity (Deep and Medium); GeoB23047-3; M149; M149_65; MARUM; MeBo; MeBo (Meeresboden-Bohrgerät); Medium Resistivity; Meteor (1986); Resistivity (Deep and Medium)
    Type: Dataset
    Format: text/tab-separated-values, 14012 data points
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  • 63
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    Hydroacoustic data Eckernförde Bay, Germany aquired during ALKOR cruise AL447 and Elisabeth Mann Borgese EMB187, with links to files (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: This multibeam echo sounder (MBES) bathymetry data and backscatter data, as well as subbottom profiler data, was acquired in Eckernförde Bay, Germany. The MBES data were acquired using an EM2040c system which was installed on R/V Alkor (Cruise AL447 - 2014). It operates with a 200-400 kHz transducer combined with a CodaOctupus F180 motion sensor. The survey was designed to provide high-resolution bathymetry with 0.5 x 0.5 m resolution. The bathymetry data were post-processed using sound velocity profiles acquired at regular intervals. Tidal corrections were applied using the tidal gauge in Eckernförde with reference to NHN, DHHN92. The backscatter amplitude data were corrected for the variation with grazing angle. We ensured the highest possible resolution by using the raw backscatter time-series data for each footprint (snippets) and compensated for the angle of incidence using reference grids. Subbottom profiler data were acquired with the R/V Alkor and R/V Elisabeth Mann Borgese in late October 2014 (cruise AL447), the beginning of July 2018 (cruise EMB187). The data were acquired using a parametric Innomar SES-2000 medium system creating secondary peak frequencies between 4 and 15 kHz.
    Keywords: AL447; AL447_1341-1; AL447_1372-1; Alkor (1990); Bathymetry; Elisabeth Mann Borgese; EMB187; EMB187_1-1; Event label; File content; File format; File name; File size; MB; Multibeam; Sub-bottom profiler, SES-2000, Innomar; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 25 data points
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    DATA PANGAEA
  • 64
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    Litter trends at three stations of the HAUSGARTEN observatory (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: The deep sea is considered a major sink for debris even in regions as secluded as the Arctic Ocean. Here, we assess the variability of litter over a latitudinal gradient at the HAUSGARTEN observatory by adding imagery from the southernmost station S3 to previously published data from the northernmost station N3 and the central station HG-IV. The analysis includes footage of the seafloor from 2002 to 2017. Photographic surveys were analyzed to determine litter density, material composition, size and interactions with epibenthic fauna. Litter density clearly increased over time ranging between 813 ± 525 (SEM) and 6,717 ± 2,044 (SEM) items km-². The dominant material was plastic and small-sized items accounted for 63% of the litter in the observatory. N3 experienced the strongest increase in litter dominated by dark pieces of glass (41%). Interactions between litter and epibenthic megafauna were frequently observed (45% of items) in the form of entanglement with sponges or colonization by sea anemones.
    Keywords: Area; ARK-XVIII/1; ARK-XX/1; ARK-XXII/1c; ARK-XXIX/2.2; ARK-XXVI/2; ARK-XXVII/2; ARK-XXVIII/2; ARK-XXX/1.2; ARK-XXXI/2; Calculated; deep seafloor; Event label; Fauna interaction with litter; Hausgarten; HAUSGARTEN 2013; HG_IV; Image number/name; Interaction, megafauna; Interaction with litter, Actinia indeterminata; Interaction with litter, Actiniaria; Interaction with litter, Bathycrinus carpenterii; Interaction with litter, Bathyphellia margaritacea; Interaction with litter, Birsteiniamysis inermis; Interaction with litter, Bythocaris sp.; Interaction with litter, Caulophacus arcticus; Interaction with litter, Caulophacus debris; Interaction with litter, cf. Pachastrellidae; Interaction with litter, Cladorhiza gelida; Interaction with litter, Gersemia fruticosa; Interaction with litter, Holothuridae; Interaction with litter, Hormathiidae; Interaction with litter, Verum striolatum; Maria S. Merian; marine litter; Marine litter; Marine litter, fabric; Marine litter, food waste; Marine litter, glass; Marine litter, large items; Marine litter, medium items; Marine litter, metal; Marine litter, paper; Marine litter, plastic; Marine litter, plastic, fisheries; Marine litter, pottery; Marine litter, rope; Marine litter, rubber; Marine litter, small items; Marine litter, styrofoam; Marine litter, timber; Marine litter, unidentified; MSM29; MSM29_440-1; MSM29_445-1; N_3; N3; North Greenland Sea; Ocean Floor Observation System; OFOS; OFOS photographic survey with BIIGLE analysis; Persistent Identifier; plastic; Polarstern; PS107; PS107_2-20; PS107_36-6; PS107_6-12; PS62; PS62/161-3; PS66; PS66/106-1; PS66/120-1; PS66/127-4; PS70; PS70/164-1; PS70/170-1; PS70/202-1; PS78; PS78/143-2; PS78/171-1; PS78/182-1; PS80; PS80/176-1; PS80/179-3; PS80/193-1; PS85; PS85/461-1; PS85/474-1; PS93/048-8; PS93/050-11; PS93/062-1; PS93.2; PS99/041-11; PS99/042-10; PS99/056-1; PS99.2; S_3; S3; Station label; Type of interaction with litter, Actinia indeterminata; Type of interaction with litter, Actiniaria; Type of interaction with litter, Bathycrinus carpenterii; Type of interaction with litter, Bathyphellia margaritacea; Type of interaction with litter, Birsteiniamysis inermis; Type of interaction with litter, Bythocaris sp.; Type of interaction with litter, Caulophacus arcticus; Type of interaction with litter, Caulophacus debris; Type of interaction with litter, cf. Pachastrellidae; Type of interaction with litter, Cladorhiza gelida; Type of interaction with litter, Gersemia fruticosa; Type of interaction with litter, Holothuridae; Type of interaction with litter, Hormathiidae; Type of interaction with litter, Verum striolatum; Uniform resource locator/link to image; Year of imagery
    Type: Dataset
    Format: text/tab-separated-values, 889003 data points
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  • 65
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    Overview of all fluid samples collected during SONNE cruise SO253 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Overview of all fluid samples collected during SO253 along the Kermadec intraoceanic arc together with parameters that were analyzed directly onboard.Fe were determined by a visual Fe CHEMets© field kit.
    Keywords: CTD/Rosette; CTD-RO; Event label; high-chlorinity acidsulfate fluids; high Mg-fluids; Hydrogen sulfide; HYDROTHERMADEC; hydrothermalism at intraoceanic arcs; Iron; Iron 2+; Kermadec arc; Oxidation reduction (RedOx) potential; pH; Photometer; Remote operated vehicle; ROV; Salinity; Sample ID; SO253; SO253_13-1; SO253_18-1; SO253_23-1; SO253_26-1; SO253_30-1; SO253_35-1; SO253_45-1; SO253_48-1; SO253_61-1; SO253_64-1; SO253_67-1; SO253_72-1; SO253_74-1; SO253_78-1; SO253_80-1; SO253_81-1; SO253_85-1; SO253_9-1; Sonne_2; South Pacific Ocean; Stage; Station label; Temperature, technical; Temperature, water; trace metals; Visual description; WTW pH/Cond 340i multimeter
    Type: Dataset
    Format: text/tab-separated-values, 617 data points
    Location Call Number Expected Availability
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  • 66
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    Heat flow data at station H1802 during SONNE cruise SO266 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Keywords: Conductivity, thermal; DEPTH, sediment/rock; Event label; File content; GeoB23210-1; GeoB23210-2; GeoB23210-3; GeoB23210-4; GeoB23210-5; GeoB23210-6; GeoB23210-7; GeoB23210-8; GeoB23210-9; Heat-Flow probe; HF; Integrated thermal resistance; Sample code/label; SO266_10-1; SO266_10-2; SO266_10-3; SO266_10-4; SO266_10-5; SO266_10-6; SO266_10-7; SO266_10-8; SO266_10-9; SO266/1; Sonne_2; South China Sea; Station label; Temperature, in rock/sediment; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 909 data points
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  • 67
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    Surface oceanographic data (TSG) during METEOR cruise M77/3 (2020)
    PANGAEA
    In:  GEOMAR - Helmholtz Centre for Ocean Research Kiel
    Details
    Publication Date: 2024-06-26
    Keywords: Climate - Biogeochemistry Interactions in the Tropical Ocean; CT; DATE/TIME; DEPTH, water; LATITUDE; LONGITUDE; M77/3; M77/3-track; Meteor (1986); off Peru; Salinity; SFB754; Temperature, water; Thermosalinograph; TSG; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 171732 data points
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  • 68
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    Surface oceanographic data (TSG) during METEOR cruise M106 (2020)
    PANGAEA
    In:  GEOMAR - Helmholtz Centre for Ocean Research Kiel
    Details
    Publication Date: 2024-06-26
    Keywords: Climate - Biogeochemistry Interactions in the Tropical Ocean; CT; DATE/TIME; DEPTH, water; LATITUDE; LONGITUDE; M106; M106-track; Meteor (1986); Salinity; SFB754; Temperature, water; Thermosalinograph; TSG; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 266400 data points
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  • 69
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    Surface oceanographic data (TSG) during METEOR cruise M107 (2020)
    PANGAEA
    In:  GEOMAR - Helmholtz Centre for Ocean Research Kiel
    Details
    Publication Date: 2024-06-26
    Keywords: Climate - Biogeochemistry Interactions in the Tropical Ocean; DATE/TIME; DEPTH, water; LATITUDE; LONGITUDE; M107; M107-track; Meteor (1986); Salinity; SFB754; Temperature, water; Thermosalinograph; TSG
    Type: Dataset
    Format: text/tab-separated-values, 216000 data points
    Location Call Number Expected Availability
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  • 70
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    Spectrum gamma ray borehole logging data of MeBo sediment core GeoB23213-1 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Logging was performed with the sea floor drill rig MARUM-MeBo200 in a borehole drilled with a 103 mm diameter bit. The 1460 Slimhole Memory SGR instrument developed by ANTARES Datasystems GmbH was used. A CsI(Na) crystal with outer diameter of 37 mm and 250 mm length is used as detector. The probe provides Natural Gamma Ray counts and analyses the spectrum for the concentrations of the natural gamma ray emitters potassium, thorium and uranium with an accuracy of about 10%. The probe was deployed in the memory mode with the logging string being inserted into the drill string and the sensors located below the drill bit. The measurement was conducted as upcast while the drill string was pulled back to the seafloor out of the borehole. The trip out speed was about 1 cm/s and the logging frequency was 0.5 Hz. Data processing was conducted using the Antares software GeoBase 6.22.1 assuming a constant bore hole diameter according the bit diameter.
    Keywords: borehole logging; Center for Marine Environmental Sciences; DEPTH, sediment/rock; Formosa Ridge; GeoB23213-1; MARUM; MeBo200; Natural gamma ray; Potassium; SGR; SO266_13-1; SO266/1; Sonne_2; Thorium; Uranium
    Type: Dataset
    Format: text/tab-separated-values, 40524 data points
    Location Call Number Expected Availability
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  • 71
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    Spectrum gamma ray borehole logging data of MeBo sediment core GeoB23234-1 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Logging was performed with the sea floor drill rig MARUM-MeBo200 in a borehole drilled with a 103 mm diameter bit. The 1460 Slimhole Memory SGR instrument developed by ANTARES Datasystems GmbH was used. A CsI(Na) crystal with outer diameter of 37 mm and 250 mm length is used as detector. The probe provides Natural Gamma Ray counts and analyses the spectrum for the concentrations of the natural gamma ray emitters potassium, thorium and uranium with an accuracy of about 10%. The probe was deployed in the memory mode with the logging string being inserted into the drill string and the sensors located below the drill bit. The measurement was conducted as upcast while the drill string was pulled back to the seafloor out of the borehole. The trip out speed was about 1 cm/s and the logging frequency was 0.5 Hz. Data processing was conducted using the Antares software GeoBase 6.22.1 assuming a constant bore hole diameter according the bit diameter.
    Keywords: borehole logging; Center for Marine Environmental Sciences; DEPTH, sediment/rock; GeoB23234-1; MARUM; MeBo200; Natural gamma ray; Potassium; SGR; SO266_34-1; SO266/1; Sonne_2; Thorium; Uranium
    Type: Dataset
    Format: text/tab-separated-values, 20876 data points
    Location Call Number Expected Availability
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  • 72
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    Water vapour isotopes analyser raw data from POLARSTERN cruise PS18, links to files (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-26
    Keywords: AWI_Envi; CT; DATE/TIME; LATITUDE; LONGITUDE; Polarstern; Polar Terrestrial Environmental Systems @ AWI; PS118; PS118-track; Underway cruise track measurements; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 82 data points
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  • 73
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    Physical oceanography measured on water bottle samples during RV Sonne cruise SO266 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Oceanographic and biochemical data obtained during cruise SO266 from 15.10.2018 to 18.11.2018 from Kaohsiung (Taiwan) to Kaohsiung (Taiwan) . A Seabird CTD Model 9plus recorded oceanographic data. The CTD comprised conductivity, temperature, and pressure sensors as well as a SBE 43 oxygen sensor and a WET labs ECO FLNTURTD fluorometer and turbidity sensor. According to the manufacturers, the accuracy of the conductivity, temperature, pressure, and oxygen was ± 0.0003 S m-1, ± 0.0002 °C, ± 0.02%, and ± 2% of saturation, respectively. The difference between the two salinity and temperature sensors were 0.0069 and 0.0010 °C, respectively. The WETLabs FLNTU measured chlorophyll fluorescence (ChlF, λ excitation=470 nm, λ emission=695 nm) with a sensitivity of 0.025 µg l-1.
    Keywords: Bottle number; Calculated; Center for Marine Environmental Sciences; Conductivity; CTD; CTD, Sea-Bird SBE 911plus; CTD/Rosette; CTD-RO; DATE/TIME; Density, sigma-theta (0); DEPTH, water; ELEVATION; Event label; Fluorescence; Formosa Ridge; GeoB23208-1; GeoB23208-2; GeoB23208-3; GeoB23208-4; GeoB23211-2; GeoB23217-1; GeoB23217-2; GeoB23217-3; GeoB23219-1; GeoB23219-2; GeoB23219-3; GeoB23221-1; GeoB23224-1; GeoB23225-2; GeoB23229-1; GeoB23229-2; GeoB23229-3; GeoB23229-4; GeoB23232-1; GeoB23236-1; GeoB23238-1; GeoB23238-10; GeoB23238-11; GeoB23238-12; GeoB23238-2; GeoB23238-3; GeoB23238-4; GeoB23238-5; GeoB23238-6; GeoB23238-7; GeoB23238-8; GeoB23238-9; GeoB23241-1; GeoB23241-10; GeoB23241-11; GeoB23241-12; GeoB23241-13; GeoB23241-2; GeoB23241-3; GeoB23241-4; GeoB23241-5; GeoB23241-6; GeoB23241-7; GeoB23241-8; GeoB23241-9; GeoB23242-1; GeoB23242-10; GeoB23242-11; GeoB23242-12; GeoB23242-2; GeoB23242-3; GeoB23242-4; GeoB23242-5; GeoB23242-6; GeoB23242-7; GeoB23242-8; GeoB23242-9; LATITUDE; LONGITUDE; MARUM; Oxygen; Oxygen saturation; Penghu Canyon; Pressure, water; Salinity; SO266; SO266_11-2; SO266_17-1; SO266_17-2; SO266_17-3; SO266_19-1; SO266_19-2; SO266_19-3; SO266_21-1; SO266_24-1; SO266_25-2; SO266_29-1; SO266_29-2; SO266_29-3; SO266_29-4; SO266_32-1; SO266_36-1; SO266_38-1; SO266_38-10; SO266_38-11; SO266_38-12; SO266_38-2; SO266_38-3; SO266_38-4; SO266_38-5; SO266_38-6; SO266_38-7; SO266_38-8; SO266_38-9; SO266_41-1; SO266_41-10; SO266_41-11; SO266_41-12; SO266_41-13; SO266_41-2; SO266_41-3; SO266_41-4; SO266_41-5; SO266_41-6; SO266_41-7; SO266_41-8; SO266_41-9; SO266_42-1; SO266_42-10; SO266_42-11; SO266_42-12; SO266_42-2; SO266_42-3; SO266_42-4; SO266_42-5; SO266_42-6; SO266_42-7; SO266_42-8; SO266_42-9; SO266_8-1; SO266_8-2; SO266_8-3; SO266_8-4; SO266/1; Sonne_2; Sound velocity in water; South China Sea; Station label; Taiwan; Temperature, water; Temperature, water, potential
    Type: Dataset
    Format: text/tab-separated-values, 3696 data points
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  • 74
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    Profile of sediment echo sounding during POLARSTERN cruise PS113 with links to ParaSound data files (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-26
    Keywords: ANT-XXXIII/4; AWI_Paleo; DATE/TIME; DS3; LATITUDE; LONGITUDE; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS113; PS113_0_underway-8; Swath-mapping system Atlas Hydrosweep DS-3; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 3 data points
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  • 75
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    Multibeam bathymetry raw data (Atlas Hydrosweep DS 3 echo sounder entire dataset) of RV POLARSTERN during cruise PS118 (2020)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-06-26
    Description: Multibeam data were collected with RV Polarstern along the route of cruise PS118 and data acquisition was continuously monitored during the survey. Multibeam sonar system was Teledyne/Atlas Hydrosweep DS3. SVPs were retrieved from CTD data from other working groups on board. SVPs were processed with HydrOffice SoundSpeedManager (https://www.hydroffice.org/soundspeed/main) and extended with World Ocean Atlas 13 (https://doi.org/10.7289/v5f769gt). SVP data were applied during acquisition. Multibeam data are unprocessed and may contain outliers and blunders and should not be used for grid calculations and charting projects without further editing. The raw multibeam sonar data in Teledyne/Atlas multibeam processing format (.asd) were recorded with Teledyne/Atlas Parastore software. Raw data files can be processed using software packages like CARIS HIPS/SIPS. For updated vessel configuration files check further details.
    Keywords: AWI_GeoPhy; Binary Object; Binary Object (File Size); Binary Object (Media Type); Comment; CTD, underway; CTD/Rosette; CTD-RO; CTD-UW; DATE/TIME; DS3; ELEVATION; Event label; File content; LATITUDE; LONGITUDE; Marine Geophysics @ AWI; Polarstern; PS118; PS118_0_underway-14; PS118_10-1; PS118_1-1; PS118_13-1; PS118_14-2; PS118_15-2; PS118_16-1; PS118_17-1; PS118_18-1; PS118_19-1; PS118_20-1; PS118_2-1; PS118_21-1; PS118_22-1; PS118_23-1; PS118_24-1; PS118_24-4; PS118_26-1; PS118_27-1; PS118_28-1; PS118_29-1; PS118_30-1; PS118_3-1; PS118_32-1; PS118_33-1; PS118_34-1; PS118_35-1; PS118_36-1; PS118_38-1; PS118_38-12; PS118_4-1; PS118_41-1; PS118_42-1; PS118_43-1; PS118_44-1; PS118_45-1; PS118_46-1; PS118_49-2; PS118_5-1; PS118_51-1; PS118_52-1; PS118_53-1; PS118_54-1; PS118_55-1; PS118_56-1; PS118_57-1; PS118_58-1; PS118_59-1; PS118_60-1; PS118_6-1; PS118_61-1; PS118_71-2; PS118_8-2; PS118_82-2; Scotia Sea; Swath-mapping system Atlas Hydrosweep DS-3; Weddell Sea
    Type: Dataset
    Format: text/tab-separated-values, 444 data points
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  • 76
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    Multibeam bathymetry raw data (Kongsberg EM 122 entire dataset) of RV SONNE during cruise SO272 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Multibeam data were collected during RV Sonne cruise SO272 (2020-01-11 to 2020-03-04). Multibeam sonar system was Kongsberg EM122. Data are unprocessed and may contain outliers and blunders and should not be used for grid calculations and charting projects without further editing. The raw multibeam sonar data in Kongsberg multibeam processing format (*.all) were recorded with Kongsberg SIS software running on Windows operating system. Kongsberg data files can be processed using the software packages CARIS HIPS/SIPS or with the open source software package MB-System.
    Keywords: AWI_GeoPhy; Bathymetry; Binary Object; Binary Object (File Size); Binary Object (Media Type); Data file recording distance; Data file recording duration; DATE/TIME; EM122; File content; Indian Ocean; Kerguelen Plateau; LATITUDE; LONGITUDE; Marine Geophysics @ AWI; Multibeam; Ship speed; SO272; SO272_0_Underway-1; Sonne; Sonne_2; Southern Ocean; Start of data file recording, date/time; Start of data file recording, latitude; Start of data file recording, longitude; Stop of data file recording, date/time; Stop of data file recording, latitude; Stop of data file recording, longitude; Swath-mapping system Simrad EM122 (Kongsberg Maritime AS)
    Type: Dataset
    Format: text/tab-separated-values, 10430 data points
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  • 77
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    Current meter and temperature time series (2017/2018) from mooring ET1 south of Azores (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Data set of current meter and temperature logger mooring deployed at position 30°29.04'N, 30°11.7'W, in 4530m water depth. Record starts on Aug 8, 2017, ends May, 10, 2018. Instruments at 299m (ADCP/SBE56), 609m (Aquadopp/SBE56), 1027m (Aquadopp/SBE56), 1426m (Aquadopp/SBE39+), 2053m (Aquadopp/SBE39+), 2889m (Aquadopp/SBE39+), 3729m (Aquadopp/SBE39+), 4566m (Aquadopp/SBE39+).
    Keywords: currents; Current velocity, east-west; Current velocity, north-south; Current velocity, vertical; DATE/TIME; DEPTH, water; Device type; ENERGY TRANSFER; MOOR; Moor_ET1; Mooring; POS516; POS516_4-1; POS523; POS523_2-1; Poseidon; Pressure, water; See Device type column; South Atlantic Ocean; Temperature; Temperature, water; Time series; TRR181; TRR181 Energy transfers in Atmosphere and Ocean
    Type: Dataset
    Format: text/tab-separated-values, 5535740 data points
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  • 78
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    Hydrography, biogeochemistry, microbial population, growth and substrate dynamics between subarctic and subantarctic waters in the Pacific Ocean during the cruises SO248 and SO254 with RV Sonne (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Data presented here were collected during the two cruises SO248 and SO254 with RV SONNE in the Pacific Ocean at 25 stations along a transect closely following 180° longitude E/W between 52.1°S southeast of New Zealand and 58.9°N in the Bering Sea. The first cruise SO248 was conducted from Auckland, New Zealand, to Dutch Harbor, USA (May 1st, 2016 - June 3rd, 2016) and the second (SO254) took place from January 26th, 2017 - February 27th, 2017 and started and ended in Auckland, New Zealand. The data comprises hydrographical, chemical, biogeochemical and biological parameters.
    Keywords: Acetone extraction, fluorescence determination; Amino acid, total dissolved free; Amino acid, total dissolved free uptake; Amino acid, total hydrolysable dissolved; Amino acids, dissolved combined; BacGeoPac; Bacteria; Bacteria, heterotrophic with relatively low DNA content; BD FACS ARIA3 Flow Cytometer, autofluorescence (AF); Bering Sea; biogeochemistry; Biogeographical province; Biogeographical province after Longhurst (2006); biogeography; Breakdown of fluorescent substrate analoga (Obayashi and Suzuki, 2005, Limnol Oceanogr; Balmonte et al ., 2018, Environ Microbiol); Calculated; Calculated; DCAA = THDAA - DFAA; after Lunau et al. (2006); Calculated from downwelling photosynthetically active radiation PAR Ed, integrated from 400 - 700 nm; Carbohydrates, dissolved, neutral free; Carbohydrates, dissolved, neutral free, uptake; Carbohydrates, total hydrolyzable; Carbon, organic, particulate; Carbon, organic, particulate/Nitrogen, organic, particulate ratio; CARD-FISH; Catalyzed reporter deposition fluorescence in situ hybridisation (CARD-FISH); Catalyzed reporter deposition fluorescence in situ hybridisation (CARD-FISH), % of the DAPI positive stained cells; Chlorophyll a; Combustion by FlashEA 1112 CHN-analyzer; Conductivity; CTD, Sea-Bird, SBE 911plus [SN: 09-1266]; CTD, SEA-BIRD SBE 911plus, SN 5828 / SN 4529; CTD/Rosette; CTD-RO; cyanobacteria; Cyanobacteria; Cyanobacteria, cell size, forward scatter; Cyanobacteria, cell size, side scatter; Cytophaga-Flavobacteria; Cytophaga-Flavobacteria, cells; DATE/TIME; Density, sigma-theta (0); Depth, relative; DEPTH, water; Depth of Secchi Disk; ELEVATION; Equatorial Pacific; Eukaryotes; Eukaryotes, cell size, forward scatter; Eukaryotes, cell size, relative; Eukaryotes, cell size, side scatter; Event label; Flagellates+algae; Flagellates+algae, cell size, forward scatter; Flagellates+algae, cell size, side scatter; Flow Cytometer, BD Biosciences, C6 [autofluorescence, calibration of the forward scatter (FSC)]; Flow Cytometer, BD Biosciences, C6 [autofluorescence (AF)]; Flow Cytometer, BD Biosciences, C6 [calibration of the forward scatter (FSC), only relative cell size due to calibration after Giebel et al. (2019)]; Flow Cytometer, BD Biosciences, C6 [SybrGreenI staining]; flow cytometry; Fluorescence, chlorophyll; Fluorescence determination; Fluorometer, WET Labs ECO AFL/FL; Forel-Ule index; Gammaproteobacteria; Gammaproteobacteria, cells; Generation time; heterotrophic prokaryotic production; High nucleic acid bacteria; High nucleic acid bacteria, cell size, forward scatter; High nucleic acid bacteria, cell size, relative; High nucleic acid bacteria, cell size, side scatter; High performance liquid chromatography (HPLC) using an Agilent 1200 HPLC device after an ortho-phthaldialdehyde precolumn derivatization (Lindroth and Mopper, 1979) with slight modifications as described by Lunau et al. (2006); High Performance Liquid Chromatography (HPLC) using anion-exchange columns by pulsed amperometric detection according to Mopper et al. (1992); HNA; HPLC after Lindroth and Mopper (1979) with slight modifications as described by Lunau et al. (2006); Hydrolysis rate, beta-Glucose; Hydrolysis rate, Leucine; Incorporation of 14C-leucine (Simon and Azam, 1989, http://www.int-res.com/articles/meps/51/m051p201.pdf; Simon et al. 2004, doi:10.4319/lo.2004.49.4.1035); Incorporation of 3H-acetate (Simon et al. 2007, doi:10.4319/lo.2007.52.1.0085); Incorporation of 3H-Amino acid mix (Simon et al. 2004, doi:10.4319/lo.2004.49.4.1035; 2007, doi:10.4319/lo.2007.52.1.0085); Incorporation of 3H-Glucose (Simon et al. 2004, doi:10.4319/lo.2004.49.4.1035; 2007, doi:10.4319/lo.2007.52.1.0085); LATITUDE; LNA; LONGITUDE; Low nucleic acid bacteria; Low nucleic acid bacteria, cell size, forward scatter; Low nucleic acid bacteria, cell size, relative; Low nucleic acid bacteria, cell size, side scatter; Microplankton; Microplankton, cell size, forward scatter; Microplankton, cell size, relative; Microplankton, cell size, side scatter; Mixed layer depth; Nanoplankton; Nanoplankton, cell size, forward scatter; Nanoplankton, cell size, relative; Nanoplankton, cell size, side scatter; Nitrate; Nitrite; Nitrogen, organic, particulate; Nitrogen oxide; North Pacific Ocean; Ökologie, Physiologie und Molekularbiologie der Roseobacter-Gruppe: Aufbruch zu einem systembiologischen Verständnis einer global wichtigen Gruppe mariner Bakterien; Oxygen; Oxygen optode, Aanderaa, type 4831F; Pacific Ocean; Phosphate; Picoplankton; Picoplankton, cell size, forward scatter; Picoplankton, cell size, relative; Picoplankton, cell size, side scatter; Polaribacter; Polaribacter, cells; Pori Bac NewZ; Pressure, water; Prochlorococcus; Prochlorococcus, cell size, forward scatter; Prochlorococcus, cell size, side scatter; Prokaryotes, cell size, forward scatter; Prokaryotes, cell size, relative; Prokaryotes, growth rate; Prokaryotes, heterotroph; Prokaryotes, heterotroph, biomass production in mass protein; Prokaryotes, heterotroph, carbon production; Prokaryotes, heterotroph, cell size, side scatter; Prokaryotes, heterotroph, nitrogen production; Prokaryotes, heterotroph, protein production; Roseobacter; Roseobacter, cells; Roseobacter clade affiliated cluster, Planktomarina temperata; Roseobacter clade affiliated cluster, Planktomarina temperata, cells; RV Sonne; Salinity; SAR11; SAR11, cells; Silicate; SO248; SO248_10-2a; SO248_1-1; SO248_11-1; SO248_12-1; SO248_13-3; SO248_14-3; SO248_15-1; SO248_16-2; SO248_17-4; SO248_18-3; SO248_19-1; SO248_2-1; SO248_3-1; SO248_4-3; SO248_5-1; SO248_6-2; SO248_7-1; SO248_8-4; SO248_9-6; SO254; SO254_11-1; SO254_32-1; SO254_38-1; SO254_47-1; SO254_61-1; SO254_65-1; Sonne_2; Sound velocity in water; South Pacific Ocean; Station label; Synechococcus; Synechococcus, cell size, forward scatter; Synechococcus, cell size, side scatter; Temperature, water; Temperature, water, potential; TRR51; Turbidity (Nephelometric turbidity unit); Turnover rate, acetate; Turnover rate, amino acids, dissolved, free; Turnover rate, glucose
    Type: Dataset
    Format: text/tab-separated-values, 19990 data points
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  • 79
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    Cloudnet target categorization during PS106 (2020)
    PANGAEA
    In:  Leibniz-Institut für Troposphärenforschung e.V., Leipzig
    Details
    Publication Date: 2024-06-26
    Description: The dataset contains daily nc-files of the Cloudnet target categorization during Polarstern cruise PS106. The data is retrieved using the instrument synergystic approach Cloudnet (Illingworth, 2007 doi:10.1175/BAMS-88-6-883 ). This dataset is an aggregation of data from cloud radar, lidar, a numerical forecast model and optionally a rain gauge and microwave radiometer. It is intended to facilitate the application of synergistic cloud-retrieval algorithms by performing a number of the preprocessing tasks that are common to these algorithms. Each of the observational datasets has been interpolated onto the same grid, although the model data are provided on a reduced height grid. Radar reflectivity has been corrected for attenuation, where possible, and two additional fields have been added: \"category_bits\" contains a categorization of the targets in each pixel and \"quality_bits\" indicates the quality of the data at each pixel. Finally, estimates of the random and systematic errors in reflectivity factor and attenuated backscatter are provided.
    Keywords: AC3; Arctic Amplification; ARK-XXXI/1.1,PASCAL; DATE/TIME; Event label; File format; File name; File size; LiDAR; Polarstern; PS106_0_Underway-11; PS106_0_Underway-17; PS106/1; Remote sensing (Light detection and ranging, LiDAR); Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 220 data points
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  • 80
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    OCEANET-ATMOSPHERE Microwave Radiometer HATPRO during PS106 (2020)
    PANGAEA
    In:  Leibniz-Institut für Troposphärenforschung e.V., Leipzig
    Details
    Publication Date: 2024-06-26
    Description: The dataset contains daily nc-files of the integrated water vapour and liquid water content from the OCEANET microwave radiometer Haptro (Rose et al., 2005: doi:10.1016/j.atmosres.2004.12.005) during Polarstern cruise PS106. The data is calibrated within the Cloudnet (Illingworth, 2007 doi:10.1175/BAMS-88-6-883 ) processing scheme.
    Keywords: AC3; Arctic Amplification; ARK-XXXI/1.1,PASCAL; ARK-XXXI/1.2; DATE/TIME; Event label; File format; File name; File size; microwave radiometer; OCEANET-ATMOSPHERE; PASCAL; Polarstern; PS106; PS106_0_Underway-9; PS106/1; PS106/2; PS106/2_0_Underway-3; Radiometer; RM; TROPOS; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 900 data points
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  • 81
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    Cloudnet IWC during PS106 (2020)
    PANGAEA
    In:  Leibniz-Institut für Troposphärenforschung e.V., Leipzig
    Details
    Publication Date: 2024-06-26
    Description: The dataset contains daily nc-files of the Cloudnet ice water content during Polarstern cruise PS106 based on: - 35.5 GHz Cloud radar MIRA. The data is retrieved using the instrument synergystic approach Cloudnet (Illingworth, 2007 doi:10.1175/BAMS-88-6-883 ). This variable was calculated from the 35.5-GHz radar reflectivity factor after correction for gaseous attenuation, and temperature taken from a forecast model, using the following empirical formula: log10(iwc[g m-3]) = 0.000242Z[dBZ]T[degC] + 0.0699Z[dBZ] + -0.0186T[degC] + -1.63 (Hogan, 2006 doi:10.1175/JAM2340.1 ). In this formula Z is taken to be defined such that all frequencies of radar would measure the same Z in Rayleigh scattering ice. However, the radar is more likely to have been calibrated such that all frequencies would measure the same Z in Rayleigh scattering liquid cloud at 0 degrees C. The measured Z is therefore multiplied by |K(liquid,0degC,35GHz)|^2/0.93 = 0.9441 before applying this formula. The formula has been used where the \"categorization\" data has diagnosed that the radar echo is due to ice, but note that in some cases supercooled drizzle will erroneously be identified as ice. Missing data indicates either that ice cloud was present but it was only detected by the lidar so its ice water content could not be estimated, or that there was rain below the ice associated with uncertain attenuation of the reflectivities in the ice. Note that where microwave radiometer liquid water path was available it was used to correct the radar for liquid attenuation when liquid cloud occurred below the ice; this is indicated a value of 3 in the iwc_retrieval_status variable. There is some uncertainty in thisprodedure which is reflected by an increase in the associated values in the iwc_error variable. When microwave radiometer data were not available and liquid cloud occurred below the ice, the retrieval was still performed but its reliability is questionable due to the uncorrected liquid water attenuation. This is indicated by a value of 2 in the iwc_retrieval_status variable, and an increase in the value of the iwc_error variable.
    Keywords: AC3; Arctic Amplification; ARK-XXXI/1.1,PASCAL; Cloudnet; Cloud Radar; CRS; DATE/TIME; Event label; File format; File name; File size; OCEANET-ATMOSPHERE; PASCAL; Polarstern; PS106; PS106_0_Underway-12; PS106_0_Underway-14; PS106/1; TROPOS; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 220 data points
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  • 82
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    Sedimentological data of sediment core GeoB9064-1, Gulf of Cadiz (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: This data set includes TOC and CaCO3 (and the respective mass accumulation rates), C:N ratios and stable oxygen and carbon isotopes measured on the planktic formainifera N. pachyderma (dex.).
    Keywords: Accumulation rate, calcium carbonate; Accumulation rate, mass; Accumulation rate, total organic carbon; AGE; Belgica area off Morocco; Calcium carbonate; Carbon, organic, total; Carbon/Nitrogen ratio; Center for Marine Environmental Sciences; Density; DEPTH, sediment/rock; GAP; GC; GeoB9064-1; Gravity corer; Gulf of Cadiz; MARUM; Neogloboquadrina pachyderma dextral, δ13C; Neogloboquadrina pachyderma dextral, δ18O; Sedimentation rate; Sedimentology; SO175; Sonne; Stable isotopes
    Type: Dataset
    Format: text/tab-separated-values, 1075 data points
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  • 83
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    Sedimentological data of sediment core GeoB9069-1, Gulf of Cadiz (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: This data set includes TOC and CaCO3 (and the respective mass accumulation rates), C:N ratios and stable oxygen and carbon isotopes measured on the planktic formainifera N. pachyderma (dex.).
    Keywords: Accumulation rate, calcium carbonate; Accumulation rate, mass; Accumulation rate, total organic carbon; AGE; Belgica area off Morocco; Calcium carbonate; Carbon, organic, total; Carbon/Nitrogen ratio; Center for Marine Environmental Sciences; Density; DEPTH, sediment/rock; GAP; GC; GeoB9069-1; Gravity corer; Gulf of Cadiz; MARUM; Neogloboquadrina pachyderma dextral, δ13C; Neogloboquadrina pachyderma dextral, δ18O; Sedimentation rate; Sedimentology; SO175; Sonne; Stable isotopes
    Type: Dataset
    Format: text/tab-separated-values, 1006 data points
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  • 84
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    Shipborne Ice Nucleating Particle (INP) measurements in the Arctic during PS106.1 and PS106.2 (2020)
    PANGAEA
    In:  Leibniz-Institut für Troposphärenforschung e.V., Leipzig
    Details
    Publication Date: 2024-06-26
    Description: During the Polarstern cruises PS106.1 and PS106.2 in the framework of the PASCAL campaign atmospheric filter samples were taken. The filters (polycarbonate, 0.2µm pore size) were sampled through an PM10 inlet and analyzed for Ice Nucleating Particles (INP) with the Leipzig Ice Nucleation Array (LINA). Here the fraction of frozen droplets (f_ice) is reported. We also provide the drop volume (V_drop), the amount of water used wash off the particles from the filter (V_water) and the volume of air sampled onto each filter (V_air), which can be used to derive atmospheric INP concentrations.
    Keywords: AC3; Arctic; Arctic Amplification; ARK-XXXI/1.1,PASCAL; ARK-XXXI/1.2; CT; DATE/TIME; Frozen droplets, fraction; Ice Nucleating Particles; Leipzig Ice Nucleation Array (LINA); PASCAL; Polarstern; PS106; PS106_0_Underway-7; PS106/1; PS106/2; PS106/2-track; Sample ID; UAS; Underway air sampling; Underway cruise track measurements; Volume
    Type: Dataset
    Format: text/tab-separated-values, 53574 data points
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  • 85
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    Mineralogical and geochemical characterisation of iron-sulfur deposits from the Manus Basin (SW Pacific) sampled during SONNE cruise SO216 in 2011 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: In this dataset, seven inactive massive sulfide chimneys, collected in the Manus Basin (Bismarck Sea, Papua New Guinea, SW Pacific) during SONNE cruise SO216 in 2011, are characterized with respect to mineralogical and geochemical composition as well as age. The samples originate from the PACManus (Snowcap, Fenway, Satanic Mills, Solwara 6, Solwara 8) and SuSu Knolls (North Su) hydrothermal vent fields that emit highly sulfidic fluids and feature poly-metallic sulfide chimneys and mounds. They were collected by the ROV QUEST (Marum Bremen) with the ROV's hydraulic arm. Ore petrology was performed on polished thin sections and shows that the chimneys were mainly composed of chalcopyrite (CuFeS₂), pyrite/marcasite (FeS₂), sphalerite (Zn(Fe)S), and bornite (Cu₅FeS₄) with a suite of other minor to rare minerals. The bulk geochemistry of the samples was determined on representative samples (several tens to hundreds of grams) by a combination of methods including ICP-OES, ICP-MS and Instrumental Neutron Activation. Some samples show elevated As-and Pb-concentrations (up to 3.2 wt.% As; up to 2.0 wt.% Pb), which is also reflected in the presence of tennantite and galena as well as other sulfosalts in thin sections. Five of the seven collected inactive chimney samples were dated using the ²²⁶Ra/Ba method. The youngest, yet clearly inactive sample was StM-R2 (Satanic Mills; 0 y ± 160 y) followed by Fw-R1 (Fenway; 1400 y ± 160 y), Sol8-R1 (Solwara 8; 1800 y ± 160 y) and Sol6-R1 (Solwara 6; 2093 y ± 267 y). The oldest dated chimney was NSu-R7 (North Su; 3183 y ± 236 y). The chimney samples were part of a study, in which 16S rRNA gene based community profiling of active (n=6) and inactive (n=7) sulfide chimneys from the Manus Basin (SW Pacific) was conducted. The diversity information in combination with radiometric dating was used to select a subset of inactive sulfide chimneys of different age for functional analyses on metagenomic (n=4) and metaproteomic (n=1) level.
    Keywords: Age; AGE; Age, range; Antimony; Arsenic; BAMBUS; Barium; Bismarck Sea; Bismuth; Cadmium; Calcium; Chromium; Cobalt; Copper; DEPTH, water; Description; Event label; Gallium; Germanium; Gold; hydrothermal vent; Indium; Iron; LATITUDE; Lead; LONGITUDE; Manganese; Mercury; mineral weathering; Molybdenum; Name; Nickel; Oxygen; Radium-226, standard deviation; Radium-226/Barium activity ratio; Radium-226/Barium activity ratio, standard deviation; Radium-226 activity per mass; Remote operated vehicle; ROV; Sample ID; Sample type; Selenium; Silicon dioxide; Silver; SO216; SO216-27-1; SO216-29-1; SO216-31-1; SO216-43-1; SO216-47-1; SO216-49-1; SO216-53-1; Sonne; Status; Strontium; Sulfur, elemental; sulphide chimney; Tellurium; Tin; Titanium; Zinc
    Type: Dataset
    Format: text/tab-separated-values, 267 data points
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  • 86
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    Documentation of sediment sampling at multicorer station PS111_42-1 (video in *.mov format, 148 MB) (2020)
    PANGAEA
    In:  Alfred Wegener Institute - Polarstern core repository
    Details
    Publication Date: 2024-06-26
    Keywords: ANT-XXXIII/2; AWI_Paleo; MUC; MultiCorer; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS111; PS111_42-1; Weddell Sea
    Type: Dataset
    Format: video/quicktime, 141.3 MBytes
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  • 87
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    Documentation of sediment sampling at multicorer station PS111_29-2 (video in *.mov format, 141 MB) (2020)
    PANGAEA
    In:  Alfred Wegener Institute - Polarstern core repository
    Details
    Publication Date: 2024-06-26
    Keywords: ANT-XXXIII/2; AWI_Paleo; MUC; MultiCorer; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS111; PS111_29-2; Weddell Sea
    Type: Dataset
    Format: video/quicktime, 134.6 MBytes
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  • 88
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    Physical oceanography from glider mission IFM02_depl21 (2020)
    PANGAEA
    In:  GEOMAR - Helmholtz Centre for Ocean Research Kiel
    Details
    Publication Date: 2024-06-26
    Keywords: Cape Verde; Climate - Biogeochemistry Interactions in the Tropical Ocean; GLD; Glider; Ifm02; ifm02_depl21; M105; M105_194-1; M106; M106_325-1; Meteor (1986); SFB754
    Type: Dataset
    Format: application/gzip, 23.6 MBytes
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  • 89
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    Microstructure measurements during METEOR cruise M106 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: 118 profiles of post-processed upper-ocean microstructure data from a loosely-tethered profiler (MSS90-D, manufactured by Sea & Sun Technology) collected in the central and western tropical Atlantic. Dissipation rates of turbulent kinetic energy are calculated as described in Schafstall et al. (Journal of Geophysical Research, 2010). Stored parameters include: Dissipation rate of turbulent kinetic energy in m^2 s^(-3) from 3 microstructure shear sensors, temperature, salinity and depth.
    Keywords: Climate - Biogeochemistry Interactions in the Tropical Ocean; DATE/TIME; DEPTH, water; Dissipation rate; Event label; LATITUDE; LONGITUDE; M106; M106_324-3; M106_337-5/6; M106_346-1; M106_352-1; M106_353-1; M106_366-1; M106_367-3; M106_368-3; M106_371-2; M106_372-2; M106_403-2; M106_404-2; M106_405-2; M106_406-2; M106_407-2; M106_410-2; M106_411-4; M106_412-2; M106_413-2; M106_414-2; M106_415-2; M106_416-4; M106_417-2; M106_418-2; M106_419-2; M106_422-2; M106_423-2; M106_424-3; M106_425-2; M106_426-2; M106_427-2; M106_428-3; M106_429-2; M106_430-2; M106_431-2; M106_432-2; M106_433-2; M106_434-2; Meteor (1986); Micro structure probe; MSS; MSS_1; MSS_10; MSS_11; MSS_12; MSS_13; MSS_14; MSS_15; MSS_16; MSS_18; MSS_19; MSS_2; MSS_20; MSS_21; MSS_22; MSS_23; MSS_24; MSS_25; MSS_26; MSS_27; MSS_28; MSS_29; MSS_3; MSS_30; MSS_31; MSS_32; MSS_33; MSS_34; MSS_35; MSS_36; MSS_37; MSS_38; MSS_39; MSS_4; MSS_5; MSS_6; MSS_7; MSS_8; MSS_9; Pressure, water; Profile ID; Salinity; SFB754; Temperature, water; tropical Atlantic
    Type: Dataset
    Format: text/tab-separated-values, 684121 data points
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  • 90
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    Physical oceanography from glider mission IFM08_depl07 (2020)
    PANGAEA
    In:  GEOMAR - Helmholtz Centre for Ocean Research Kiel
    Details
    Publication Date: 2024-06-26
    Keywords: Climate - Biogeochemistry Interactions in the Tropical Ocean; GLD; Glider; ifm08_depl07; POS520; POS520_62-1; Poseidon; SFB754
    Type: Dataset
    Format: application/gzip, 18.9 MBytes
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  • 91
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    Physical oceanography from glider mission IFM11_depl03 (2020)
    PANGAEA
    In:  GEOMAR - Helmholtz Centre for Ocean Research Kiel
    Details
    Publication Date: 2024-06-26
    Keywords: Climate - Biogeochemistry Interactions in the Tropical Ocean; GLD; Glider; Maria S. Merian; MSM18/2; MSM18/2_629-1; MSM18/3; MSM18/3_749-1; SFB754
    Type: Dataset
    Format: application/gzip, 22.1 MBytes
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  • 92
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    Documentation of sediment sample PS111_147-1 (2020)
    PANGAEA
    In:  Alfred Wegener Institute - Polarstern core repository
    Details
    Publication Date: 2024-06-26
    Keywords: ANT-XXXIII/2; AWI_Paleo; CTD/Rosette; CTD-RO; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS111; PS111_147-1; Weddell Sea
    Type: Dataset
    Format: image/jpeg, 4.3 MBytes
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  • 93
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    Sediment echosounder raw data (Atlas Parasound P70 echosounder entire dataset) of RV METEOR during cruise M134/1 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Sediment echosounder data using Atlas Parasound P70 echosounder was recorded during RV METEOR cruise M134/1. The cruise took place between 16.01.2017 and 18.02.2017 around South Georgia. The main objective of the cruise was to investigate emissions of free gas from cross‐shelf troughs of South Georgia, their distribution, quantification, and sources for methane ebullition sites in sub‐Antarctic waters. Furthermore, the cruise aimed at mapping of the glacial bathymetry on the shelf. By using the parametric sub-bottom profiler PARASOUND next to the multibeam echosounder, emission sites and zones of acoustic blanking within the sediment were detected. CI Citation: Paul Wintersteller (seafloor-imaging@marum.de) as responsible party raw data ingest and approval. Description of data source: During the M134 cruise, the hull-mounted parametric sub-bottom profiler ATLAS PARASOUND P70 was used to conduct information about the sediment sub-surface and water column. Its function is based on the parametric effect of the non-linear relation of pressure and density during sonar propagation. The system utilizes two high-intensity waves with frequencies of 18-20 kHz (primary high frequency; PHF) and 22-24 kHz to create a secondary high (about 40-42 kHz) and secondary low frequency (SLF) of about 4 kHz. The SLF can record sub-bottom structures, whereas the PHF can image the water column and potential gas bubbles, plankton ,fish or nepheloid layers within. The transducer array has an opening angle of 4° by 5°, which corresponds to a footprint size of about 7% of the water depth. Data acquisition was performed using measured real-time values of surface sound velocity and a static sound velocity profile of 1500 m/s. Using the software ATLAS PARASTORE, data was displayed and stored as raw *.asd files and additional *.ps3 and auxiliary files for certain depth windows. The *.ps3 files are utilized for conversion to SEG-Y format and further processing using the software SeNT (developed by V. Spiess & H. Keil, MTU-GeoB) and Kingdom Suite. For further information on the system, consult: https://epic.awi.de/id/eprint/26733/7/ATLAS_PARASOUND_2015-02.pdf The sub-bottom profiler was operating almost continuously and simultaneously with the multibeam echosounder. Responsible persons during this cruise / PI: Wilhelm Weinrebe (wweinrebe@geomar.de) & Paul Wintersteller (pwintersteller@marum.de). Chief Scientist: G. Bohrmann (gbohrmann@marum.de) CR: https://elib.suub.uni-bremen.de/edocs/00106081-1.pdf CSR: http://www.bsh.de/aktdat/dod/fahrtergebnis/2017/20170002.htm A special thanks goes to the watch keeper during M134/1: Viola Bihler, Maximilan Grahs and Nikolas Stange.
    Keywords: Antarctic; Binary Object; Binary Object (File Size); Binary Object (MD5 Hash); Binary Object (Media Type); Center for Marine Environmental Sciences; CT; hydroacoustics; M134/1; M134/1-track; MARUM; Meteor (1986); PARASOUND; seismics; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 14522 data points
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  • 94
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    Multibeam bathymetry processed data (EM 120 echosounder entire dataset) of RV SONNE during cruise SO175 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Swath sonar bathymetry data used for that dataset was recorded during RV SONNE cruise SO175 using Kongsberg EM 120 multibeam echosounder. The cruise took place between 12.11.2003 and 30.12.2003 in the Gulf of Cadiz. The expedition aimed at a better understanding of the interaction between dynamic processes in a seismically active region with slow plate convergence. Bathymetric mapping with the multibeam echosounder (MBES) SIMRAD EM120 was utilized to image the nature of the Gibraltar Arc thrust wedge, a proposed subduction zone, and to identify possible sampling sites. CI Citation: Paul Wintersteller (seafloor-imaging@marum.de) as responsible party for bathymetry raw data ingest and approval. Description of the data source: During the SO175 cruise, hull-mounted KONGSBERG EM120 multibeam ecosounder (MBES) was utilized to perform bathymetric mapping in middle to deep water depths. Two linear transducer arrays in a Mills Cross configuration transmit acoustic signals of a nominal sonar frequency of 12 kHz. With 191 beams, the emission cone has a dimension of max 140° across track and 1° along track, while the actual beam footprint is 2° by 2°. Depending on the roughness of the seafloor, the swath width on a flat bottom is maximum six times the water depth. For further information on the system, consult https://www.km.kongsberg.com/. During the cruise, an opening angle of 135 - 140° was used depending on the state of the sea, though restricting the coverage of the swath to gain a more continuous spacing of beams on the ocean floor. The spacing within these limits was controlled automatically by the echosounder system. To convert the recorded travel times into water depth, several sound velocity profiles were obtained with the shipboard CTD, providing a correction for ray bending for each beam. Responsible person during this cruise / PI: Achim Kopf (akopf@marum.de) & Ingo Grevenmeyer (igrevemeyer@geomar.de) Description of data processing: Postprocessing and products were conducted by the Seafloor-Imaging & Mapping group of MARUM/FB5, responsible person Paul Wintersteller (seafloor-imaging@marum.de). The open source software MB-System (Caress, D. W., and D. N. Chayes, MB-System: Mapping the Seafloor, https://www.mbari.org/products/research-software/mb-system, 2017) was utilized for this purpose.SVPs taken during this cruise were not sufficient enough to correct the recorded bathymetric data. Therefore sound velocity profiles were modelled using reference profiles from the world ocean atlas (S. Levitus, 1982), extracted and calculated through the MB-System program mblevitus by utilizing the DelGrosso equation. The surface sound speed has then been adapted according to the recordings during this cruise while there were no further corrections for roll, pitch and heave applied during postprocessing. A tide correction was applied, based on the Oregon State University (OSU) tidal prediction software (OTPS) that is retrievable through MB-System. CTD measurements during the cruise were sufficient to represent the changes in the sound velocity throughout the study area. Using Mbeditviz, artefacts were cleaned manually. NetCDF (GMT) grids of the edited data as well as statistics were created with mbgrid. The published bathymetric EM120 grid of the cruise SO175 has a resolution of 35 m. No total propagated uncertainty (TPU) has been calculated to gather vertical or horizontal accuracy. A higher resolution is, at least partly, achievable. The grid extended with _num represents a raster dataset with the statistical number of beams/depths taken into account to create the depth of the cell. The extended _sd -grid contains the standard deviation for each cell. The DTMs projections are given in Geographic coordinate system Lat/Lon; Geodetic Datum: WGS84. All grids produced are retrievable through the PANGAEA database (www.pangaea.de). Chief Scientist: Achim Kopf (akopf@marum.de) CR: https://elib.suub.uni-bremen.de/ip/docs/ELibD1195_228.pdf CSR: https://www2.bsh.de/aktdat/dod/fahrtergebnis/2003/20050152.htm
    Keywords: Atlantic; Bathymetry; Center for Marine Environmental Sciences; CT; EM120; File format; File name; File size; GAP; gas hydrates; Golf of Cadiz; hydroacoustics; MARUM; Mud volcanoes; SO175; SO175-track; Sonne; Underway cruise track measurements; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 12 data points
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  • 95
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    Multibeam bathymetry processed data (Kongsberg EM 122 entire dataset) of RV MARIA S. MERIAN during cruise MSM57/2 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Swath sonar bathymetry data used for that dataset was recorded during RV MARIA S. MERIAN cruise MSM57/2 using Kongsberg EM 122 multibeam echosounder. The cruise took place between 13.08.2016 and 07.09.2016 off Svalbard. The cruise investigated gas hydrate systems and their dynamics at the continental margin of Svalbard. The key instrument to be used during this expedition was the Bremen Deep Sea Drill Rig MeBo. Drilling during Leg 2 was concentrated mostly at the uppermost part of the continental slope offshore Prins Karls Forland [DOI: edocx/00105895-1]. CI Citation: Paul Wintersteller (seafloor-imaging@marum.de) as responsible party for bathymetry raw data ingest creation of products and approval. Description of data source: During the MSM57/2 cruise, the hull-mounted Kongsberg EM122 multibeam echosounder (MBES) was utilized to perform bathymetric mapping in middle to deep water depths. Two linear transducer arrays in a Mills Cross configuration transmit acoustic signals of a nominal sonar frequency of 12 kHz. With 432 soundings per swath, the emission cone has a dimension of max 150° across track and 2° along track. With a reception obtained from 288 beams, the actual beam footprint is 2° by 2°. Depending on the roughness of the seafloor, the swath width on a flat bottom is generally maximum six times the water depth. For further information on the system, consult https://www.km.kongsberg.com/. During this cruise the swath width was set to 120° to improve data quality, reduce the amount of noisy data at the outer beams and increase the ping rate. The use of the high-density equidistant and the dual-swath mode of the EM122 resulted in up to 864 soundings per ping. The EM122 was running continuously during the cruise with an average vessel speed of about 4.4 kn. Responsible person during this cruise / PI: C. dos Santos Ferreira (cferreira@marum.de). Description of data processing: Postprocessing and products were conducted by the Seafloor-Imaging & Mapping group of MARUM/FB5, responsible person Paul Wintersteller (seafloor-imaging@marum.de). The open source software MB-System (Caress, D. W., and D. N. Chayes, MB-System: Mapping the Seafloor, https://www.mbari.org/products/research-software/mb-system, 2017) was utilized for this purpose. A sound velocity correction profile was applied to the MSM57/2 data; while there were no further corrections for roll, pitch and heave applied during postprocessing. A tide correction was applied, based on the Oregon State University (OSU) tidal prediction software (OTPS) that is retrievable through MB-System. CTD measurements during the cruise were sufficient to represent the changes in the sound velocity throughout the study area. Using Mbeditviz, artefacts were cleaned manually. NetCDF (GMT) grids of the edited data as well as statistics were created with mbgrid. The published bathymetric EM122 grid of the cruise MSM57/2 has a resolution of 35 m. No total propagated uncertainty (TPU) has been calculated to gather vertical or horizontal accuracy. A higher resolution is, at least partly, achievable. The grid extended with _num represents a raster dataset with the statistical number of beams/depths taken into account to create the depth of the cell. The extended _sd -grid contains the standard deviation for each cell. The DTMs projections are given in Geographic coordinate system Lat/Lon; Geodetic Datum: WGS84. All grids produced are retrievable through the PANGAEA database (www.pangaea.de). Chief Scientist: G. Bohrmann (gbohrmann@marum.de) A special thanks goes to the watchkeeper during MSM57/2: N. Stange and Michael Riedel
    Keywords: Arctic; Bathymetry; Center for Marine Environmental Sciences; CT; EM122; File format; File name; File size; Maria S. Merian; MARUM; MeBo; MSM57/2; MSM57/2-track; Svalbard; Underway cruise track measurements; Uniform resource locator/link to file; Vestnesa Ridge
    Type: Dataset
    Format: text/tab-separated-values, 12 data points
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  • 96
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    Biogenic silica (Opal) of sediment cores during METEOR cruise M77/1 and M77/2 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Keywords: B_LANDER; BIGO; BIGO 5; BIGO T; Biogeochemical observatory; Bottom lander; Climate - Biogeochemistry Interactions in the Tropical Ocean; DEPTH, sediment/rock; Event label; LANDER; M77/1; M77/1_445-1; M77/1_449-1; M77/1_455-1; M77/1_459-1; M77/1_464; M77/1_470-1; M77/1_474; M77/1_481-1; M77/1_487-1; M77/1_516-1; M77/1_519-1; M77/1_526; M77/1_543-1; M77/1_544; M77/1_549-1; M77/1_566; M77/1_568; M77/1_586; M77/2; M77/2_016; M77/2_662; Meteor (1986); MUC; MUC 15; MUC 19; MUC 21; MUC 25; MUC 29; MUC 33; MUC 38; MUC 43; MUC 53; MultiCorer; Multicorer with television; Opal, biogenic silica; Replicate; Sample code/label; SFB754; TVMUC
    Type: Dataset
    Format: text/tab-separated-values, 647 data points
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  • 97
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    Total flux of diatoms and relative composition of diatom groups in trap samples at the CBmeso (=Cape Blanc mesotrophic), off Mauritania (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: This study builds on earlier investigations of multiyear variability of the diatom flux captured with sediment traps deployed at the mesopelagial mooring site CBmeso (='Cape Blanc mesotrophic', formerly known as CB). The main goal of this study is the description of the multiyear dynamics of the total diatom flux and the shifts in the species-specific composition of the assemblage at site CBmeso during almost 20 years (March 1988 through June 2009).
    Keywords: Cape Blanc; CB1_trap; CB12; CB12_trap; CB13; CB13_trap; CB14; CB15; CB16; CB17; CB17_trap; CB18; CB18_trap; CB19; CB2_trap; CB20; CB3_trap; CB4_trap; CB5_trap; CB7; CB7_trap; CB8; CB9_trap; Center for Marine Environmental Sciences; coastal upwelling; Cruise/expedition; DATE/TIME; decadal; DEPTH, water; diatoms; Diatoms, benthic; Diatoms, coastal planktic; Diatoms, coastal upwelling; Diatoms, open-ocean; Diatom valves, flux; Eastern Boundary Current Ecosystems; Elevation of event; Event label; fluxes; Latitude of event; Longitude of event; M12/1; M16/2; M29/3; M6/6; M65/2; M9/4; Maria S. Merian; MARUM; Mauritania; Meteor (1986); MOOR; Mooring; MSM04/4b; multiyear; northwest Africa; Northwest Africa; POS310; Poseidon; Sample code/label; Sediment traps; time-series; Trap; TRAP
    Type: Dataset
    Format: text/tab-separated-values, 2155 data points
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  • 98
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    Holocene neodymium isotope data from site M45/5_90 (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: This dataset includes authigenic neodymium isotope data from deep east Atlantic site M45/5_90 covering the Holocene.
    Keywords: AGE; DEPTH, sediment/rock; KL; M45/5_90; M45/5a; Meteor (1986); Neodymium isotopes; Piston corer (BGR type); South Atlantic Ocean; ε-Neodymium; ε-Neodymium, standard deviation
    Type: Dataset
    Format: text/tab-separated-values, 26 data points
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  • 99
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    Whale sightings during POLARSTERN cruise PS99.1 (ARK-XXX/1.1) (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Data on whale distribution and abundance in the polar oceans is rather sparse, as implementing the standard surveying method, line-transect surveys, is challenging and costly. To overcome this problem, we initiated a program to electronically log all opportunistic cetacean sightings during all Polarstern expeditions through the nautical officer on watch. Opportunistic (visual) sightings by naked eye were logged during Polarstern Cruise PS99.1 (Bremerhaven - Longyearbyen) by the nautical officer on duty using a customized Software package (WALOG, WhAleLOGger) installed on a touch screen laptop located on the ship's bridge. Species were identified by naked eye or handheld binoculars (7x50) to the lowest possible taxonomical level and assigned a “certainty” level of identification. The number of animals were counted if possible or estimated for larger groups. Whenever identification to species level was not possible, the next identifiable taxonomical category was assigned. Information on sighting position, date and time are automatically transferred from the ship's DAVIS-Ship System (https://dship.awi.de/) to the WALOG software at the time of logging. Photographs were taken if possible for retrospective analysis. All data of acquired sightings were retrospectively validated by a marine biologist and converted to a standard format. To this end, plausibility of sighting time, location, standardization of species names, eventual comments added at the time of sighting, as well as additional information such as photographs (if available) were checked either to verify or improve species identification. Datasets are used in species distribution modelling and to inform interested parties about occurrences.
    Keywords: ARK-XXX/1.1; Certainty of identification; Cetacean sightings; CT; DATE/TIME; Individuals; LATITUDE; LONGITUDE; MAPS; Marine Mammal Perimeter Surveillance from RV Polarstern; Polarstern; PS99.1; PS99.1-track; Underway cruise track measurements; Visual observation; WALOG; Whale species
    Type: Dataset
    Format: text/tab-separated-values, 75 data points
    Location Call Number Expected Availability
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  • 100
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    Whale sightings during POLARSTERN cruise PS92 (ARK-XXIX/1) (2020)
    PANGAEA
    Details
    Publication Date: 2024-06-26
    Description: Data on whale distribution and abundance in the polar oceans is rather sparse, as implementing the standard surveying method, line-transect surveys, is challenging and costly. To overcome this problem, we initiated a program to electronically log all opportunistic cetacean sightings during all Polarstern expeditions through the nautical officer on watch. Opportunistic (visual) sightings by naked eye were logged during Polarstern Cruise PS92 (Bremerhaven - Longyearbyen) by the nautical officer on duty using a customized Software package (WALOG, WhAleLOGger) installed on a touch screen laptop located on the ship's bridge. Species were identified by naked eye or handheld binoculars (7x50) to the lowest possible taxonomical level and assigned a “certainty” level of identification. The number of animals were counted if possible or estimated for larger groups. Whenever identification to species level was not possible, the next identifiable taxonomical category was assigned. Information on sighting position, date and time are automatically transferred from the ship's DAVIS-Ship System (https://dship.awi.de/) to the WALOG software at the time of logging. Photographs were taken if possible for retrospective analysis. All data of acquired sightings were retrospectively validated by a marine biologist and converted to a standard format. To this end, plausibility of sighting time, location, standardization of species names, eventual comments added at the time of sighting, as well as additional information such as photographs (if available) were checked either to verify or improve species identification. Datasets are used in species distribution modelling and to inform interested parties about occurrences.
    Keywords: ARK-XXIX/1, TRANSSIZ; Certainty of identification; Cetacean sightings; CT; DATE/TIME; Individuals; LATITUDE; LONGITUDE; MAPS; Marine Mammal Perimeter Surveillance from RV Polarstern; Polarstern; PS92; PS92-track; Underway cruise track measurements; Visual observation; WALOG; Whale species
    Type: Dataset
    Format: text/tab-separated-values, 144 data points
    Location Call Number Expected Availability
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