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  • 1985-1989  (274,880)
  • 1980-1984  (207,465)
  • 1935-1939  (4)
  • 1989  (274,860)
  • 1983  (207,463)
Collection
Keywords
Publisher
Language
Years
Year
  • 1
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    Unknown
    Component parts of the World Heat Flow Data Collection (1989)
    PANGAEA
    Details
    Publication Date: 2024-07-06
    Keywords: Area/locality; Depth, bottom/max; Depth, top/min; LATITUDE; LONGITUDE; Sample, optional label/labor no; Temperature gradient
    Type: Dataset
    Format: text/tab-separated-values, 5 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 2
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    Unknown
    (Table 2) Survey of Pacific Ocean DSDP sites for hiatuses PH and NH 1 through NH 7 (1983)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: 16-155; 16-157; 16-158; 16-159; 16-160; 16-161; 16-162; 16-163; 17-164; 17-165; 17-166; 17-168; 17-170; 17-171; 18-172; 18-173; 19-183; 19-192; 20-199; 20-200; 20-202; 21-205; 21-206; 21-207; 21-208; 21-209; 21-210; 28-273; 28-274; 29-275; 29-276; 29-277; 29-278; 29-279; 29-280; 29-281; 29-282; 29-283; 29-284; 30-285; 30-286; 30-287; 30-288; 30-289; 31-290; 31-292; 31-296; 32-304; 32-305; 32-306; 32-307; 32-308; 32-310; 32-311; 32-313; 33-315; 33-316; 33-317; 33-318; 34-319; 5-34; 5-36; 5-38; 5-39; 5-40; 5-41; 5-42; 55-430; 55-431; 55-432; 55-433; 56-436; 57-438; 57-439; 57-440; 58-443; 58-444; 58-445; 59-447; 59-448; 59-449; 59-450; 59-451; 61-462; 62-463; 62-464; 62-465; 62-466; 63-467; 63-468; 63-469; 63-470; 63-471; 63-472; 6-45; 6-46; 6-47; 6-48; 6-49; 6-50; 6-51; 6-52; 6-53; 6-55; 6-56; 67-495; 68-503; 7-61; 7-62; 7-63; 7-64; 7-65; 7-66; 7-67; 8-68; 8-69; 8-70; 8-71; 8-72; 8-73; 8-74; 8-75; 9-77; 9-78; 9-79; 9-83; 9-84; Antarctic Ocean; Antarctic Ocean/BASIN; Antarctic Ocean/CONT RISE; Antarctic Ocean/PLATEAU; Antarctic Ocean/Tasman Sea; Antarctic Ocean/Tasman Sea/CONT RISE; Antarctic Ocean/Tasman Sea/PLATEAU; Antarctic Ocean/Tasman Sea/RIDGE; Deep Sea Drilling Project; DRILL; Drilling/drill rig; DSDP; Elevation of event; Event label; Glomar Challenger; Hiatus; Latitude of event; Leg16; Leg17; Leg18; Leg19; Leg20; Leg21; Leg28; Leg29; Leg30; Leg31; Leg32; Leg33; Leg34; Leg5; Leg55; Leg56; Leg57; Leg58; Leg59; Leg6; Leg61; Leg62; Leg63; Leg67; Leg68; Leg7; Leg8; Leg9; Longitude of event; North Pacific; North Pacific/ABYSSAL FLOOR; North Pacific/BASIN; North Pacific/CONT RISE; North Pacific/ESCARPMENT; North Pacific/FAN; North Pacific/FLANK; North Pacific/GAP; North Pacific/GUYOT; North Pacific/HILL; North Pacific/Philippine Sea/BASIN; North Pacific/Philippine Sea/CONT RISE; North Pacific/Philippine Sea/RIDGE; North Pacific/PLAIN; North Pacific/PLATEAU; North Pacific/RIDGE; North Pacific/SEAMOUNT; North Pacific/SEDIMENT POND; North Pacific/SLOPE; North Pacific/TERRACE; North Pacific/TRENCH; North Pacific/VALLEY; South Pacific; South Pacific/BASIN; South Pacific/CONT RISE; South Pacific/Coral Sea; South Pacific/Coral Sea/BASIN; South Pacific/Coral Sea/PLATEAU; South Pacific/PLATEAU; South Pacific/RIDGE; South Pacific/Tasman Sea/BASIN; South Pacific/Tasman Sea/CONT RISE
    Type: Dataset
    Format: text/tab-separated-values, 1016 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 3
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    Unknown
    Paleomagnetic measurements of 10 sediment profiles from the Antarctic continental slope (1989)
    PANGAEA
    In:  Alfred Wegener Institute for Polar and Marine Research, Bremerhaven (1986-2013)
    Details
    Publication Date: 2024-07-01
    Description: Die im Rahmen des zweijährigen Forschungsprojekts über paläomagnetisch-sedimentologische Analysen sedimentärer Zyklen in der Weddell See und ihre stratigraphische Interpretation durchgeführten Arbeiten lieferten Ergebnisse zur Geschichte glaziomariner Sedimentationsprozesse am antarktischen Kontinentalrand. So konnte für ein Kernprofil mit einer außergewöhnlichen Terassenstruktur eine fazielle Gliederung und stratigraphische Einordnung erreicht werden, die auch auf größere Areale in der Weddell See anwendbar sind. Aufgrund der stratigraphischen Randbedingungen konnten die gewonnenen paläo- und gesteinsmagnetischen Messungen in eine Altersstruktur integriert und zusammen mit den sedimentologischen Parametern im Hinblick auf lokale und regionale Umweltveränderungen interpretiert werden. Insbesondere die gesteinsmagnetischen Analysen haben gezeigt, daß die magnetische Kornfraktion als accessorischer Bestandteil im Gesamtsediment dennoch an die Sortierungsprozesse des terrigenen Sedimenteintrags gekoppelt ist. Die ungewöhnlich deutlichen Variationen korngrößenabhängiger Parameter zeigten weiterhin, daß in Verbindung mit einer hochauflösenden Stratigraphie die magnetische Detailanalyse und ein besseres Verständnis der Sedimentationsprozesse in der Nähe der Schelfeiskante und speziell bei Meeresspiegeltiefständen die Möglichkeit eröffnen, unmittelbar Aussagen über die Bewegungen der Schelfeise und die Qualität der Meereisbedeckungen zu machen. Die gezielte Fortsetzung dieser Arbeiten in anderen Arealen am antarktischen Kontinentalrand ist daher wünschenswert. Die verwendeten Verfahren lassen sich mit den derzeit verfügbaren Instrumenten noch erweitern und versprechen durch die sehr sensitive Methodik detaillierte Aussagen zu glaziomarinen Sedimentationsprozessen.
    Keywords: ANT-IV/3; ANT-V/4; ANT-VI/3; ANT-VIII/5; Atka Bay; AWI_Paleo; Camp Norway; Eastern Weddell Sea, Southern Ocean; Gravity corer (Kiel type); Kapp Norvegia; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS08; PS08/333; PS08/335; PS08/336; PS08/338; PS08/347; PS08/353; PS08/354; PS08/355; PS08/356; PS08/357; PS08/361; PS08/364; PS08/365; PS08/366; PS08/367; PS08/368; PS08/371; PS08/374; PS08/486; PS10; PS10/694; PS10/699; PS10/778; PS10/816; PS12; PS12/291; PS12/302; PS12/536; PS1367-2; PS1368-3; PS1369-2; PS1370-2; PS1375-3; PS1377-2; PS1378-3; PS1379-3; PS1380-3; PS1381-3; PS1385-3; PS1386-2; PS1387-3; PS1388-3; PS1389-3; PS1390-3; PS1392-1; PS1394-4; PS1431-1; PS1481-3; PS1483-3; PS1498-2; PS1506-1; PS1588-1; PS1591-1; PS16; PS16/444; PS1648-1; PS1799-1; SL; Weddell Sea
    Type: Dataset
    Format: application/zip, 9 datasets
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 4
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    Stable isotope and Cd/Ca ratios of Neogloboquadrina pachyderma in high-latitude sediments (1989)
    PANGAEA
    In:  Supplement to: Keigwin, Lloyd D; Boyle, Edward A (1989): Late Quaternary paleochemistry of high-latitude surface waters. Palaeogeography, Palaeoclimatology, Palaeoecology, 73(1-2), 85-106, https://doi.org/10.1016/0031-0182(89)90047-3
    Details
    Publication Date: 2024-07-01
    Description: Recent studies have stressed the role of high latitude nutrient levels and productivity in controlling the carbon isotopic composition of the deep sea and the CO2 content of the atmosphere. We undertook a study of the chemical composition of the polar planktonic foraminifer Neogloboquadrina pachyderma (s., sinistral coiling) from 30 late Holocene samples and 49 down core records from the high-latitude North and South Atlantic Oceans to evaluate the history of sea surface chemical change from glacial to interglacial time. Stable isotopic analysis of coretop samples from the Atlantic, Pacific and Southern Oceans shows no significant correlation between the delta13C of N. pachyderma and either delta13C or PO4 in seawater. Conversely, Cd/Ca ratios in planktonic foraminifera are consistent with the PO4 content of surface waters. The level of maximum glaciation (18,000 yr B.P.), identified by CLIMAP and delta18O, was chosen for mapping. Isopleths of delta18O on N. pachyderma (s.) in the North Atlantic reveal a pattern largely influenced by sea surface temperature (S.S.T.) and generally support the S.S.T. reconstruction of CLIMAP. Differences between the two suggest significantly lower salinity in North Atlantic surface waters at high latitudes than in lower latitudes. Down core delta13C records of N. pachyderma confirm that low delta13C values occurred in the northeast Atlantic during the latest glacial maximum (Labeyrie and Duplessy, 1985, doi:10.1016/0031-0182(85)90069-0). However, a map of delta13C for the 18,000 yr B.P. level for a much larger region in the North Atlantic shows that minimum N. pachyderma delta13C occurred in temperate waters. N. pachyderma delta13C decreased toward the southwest, reaching a minimum of -1 per mil at 37°N. Despite the variability seen in delta13C records of N. pachyderma, none of our cores show significant temporal variability in Cd/Ca. From the combined Cd/Ca and delta13C data we can see no evidence for an upwelling gyre in the eastern North Atlantic during the latest glacial maximum, nor evidence that the southern and northern oceans had significantly different levels of preformed nutrients than today.
    Keywords: 94-606_Site; AT_II-107_19; AT_II-107_22; ATII_USA; Atlantic Ocean; Atlantis II (1963); CEPAG; CH67-19; CH69-32; CH69-69; CH6X; CH70-K11; CH72-101; CH72-104; CH73-110; CH73-136; CH73-139; CH73-139C; CH77-07; CH7X; CH8X; CHN115-26PG; CHN115-27PG; CHN115-36PG; CHN82-04; CHN82-15; CHN82-20; CHN83-20; COMPCORE; Composite Core; Core; CORE; Fram-I; FramI/7; FramII/4; GC; GEOGAS; Glomar Challenger; Gravity corer; Gravity corer (Kiel type); HU75-41; HU75-42; Ice drift station; Jean Charcot; K708-006; Keigwin_31-33; KN708-1; KN708-6; KN714-15; KNR54-16BC; Leg94; Le Noroit; Le Suroît; NO77/79; NO79-06; North Atlantic; North Atlantic/FLANK; PC; Piston corer; RAMA; RAMA03WT; RAMA-44P; RC09; RC09-225; Robert Conrad; ROMANCHA; SL; South Atlantic; SU81-47; Thomas Washington; V23; V23-23; V23-42; V23-81; V23-82; V23-83; V27; V27-114; V27-116; V27-17; V27-19; V27-20; V27-60; V27-86; V28; V28-14; V28-56; V29; V29-177; V29-178; V29-179; V29-180; V29-183; V29-206; V30; V30-101; V30-108; V30-96; V30-97; Vema
    Type: Dataset
    Format: application/zip, 9 datasets
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 5
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    Unknown
    Occurrence of hiatuses PH and NH 1 through NH 7 in DSDP holes (1983)
    PANGAEA
    In:  Supplement to: Keller, Gerta; Barron, John A (1983): Paleoceanographic implications of Miocene deep-sea hiatuses. Geological Society of America Bulletin, 94(5), 590-613, https://doi.org/10.1130/0016-7606(1983)94%3C590:PIOMDH%3E2.0.CO;2
    Details
    Publication Date: 2024-07-01
    Description: Miocene paleoceanographic evolution exhibits major changes resulting from the opening and closing of passages, the subsequent changes in oceanic circulation, and development of major Antarctic glaciation. The consequences and timing of these events can be observed in variations in the distribution of deep-sea hiatuses, sedimentation patterns, and biogeographic distribution of planktic organisms. The opening of the Drake Passage in the latest Oligocene to early Miocene (25-20 Ma) resulted in the establishment of the deep circumpolar current, which led to thermal isolation of Antarctica and increased global cooling. This development was associated with a major turnover in planktic organisms, resulting in the evolution of Neogene assemblages and the eventual extinction of Paleogene assemblages. The erosive patterns of two widespread hiatuses (PH, 23.0-22.5 Ma; and NH 1, 20-18 Ma) indicate that a deep circumequatorial circulation existed at this time, characterized by a broad band of carbonate-ooze deposition. Siliceous sedimentation was restricted to the North Atlantic and a narrow band around Antarctica. A major reorganization in deep-sea sedimentation and hiatus distribution patterns occurred near the early/middle Miocene boundary, apparently resulting from changes in oceanic circulation. Beginning at this time, deep-sea erosion occurred throughout the Caribbean (hiatus NH 2, 16-15 Ma), suggesting disruption of the deep circumequatorial circulation and northward deflection of deep currents, and/or intensification of the Gulf Stream. Sediment distribution patterns changed dramatically with the sudden appearance of siliceous-ooze deposition in the marginal and east equatorial North Pacific by 16.0 to 15.5 Ma, coincident with the decline of siliceous sedimentation in the North Atlantic. This silica switch may have been caused by the introduction of Norwegian Overflow Water into the North Atlantic acting as a barrier to outcropping of silica-rich Antarctic Bottom Water. The main aspects of the present oceanic circulation system and sediment distribution pattern were established by 13.5 to 12.5 Ma (hiatus NH 3), coincident with the establishment of a major East Antarctic ice cap. Antarctic glaciation resulted in a broadening belt of siliceous-ooze deposition around Antarctica, increased siliceous sedimentation in the marginal and east equatorial North Pacific and Indian Oceans, and further northward restriction of siliceous sediments in the North Atlantic. Periodic cool climatic events were accompanied by lower eustatic sea levels and widespread deep-sea erosion at 12 to 11 Ma (NH 4), 10 to 9 Ma (NH 5), 7.5 to 6.2 Ma (NH 6), and 5.2 to 4.7 Ma (NH 7).
    Keywords: 10-90; 10-97; 11-101; 11-102; 11-103; 11-104; 12-111; 12-116; 12-119; 14-141; 14-142; 15-149; 15-150; 15-151; 15-153; 15-154; 16-155; 16-157; 16-158; 16-159; 16-160; 16-161; 16-162; 16-163; 17-164; 17-165; 17-166; 17-168; 17-170; 17-171; 18-172; 18-173; 19-183; 19-192; 20-199; 20-200; 20-202; 21-205; 21-206; 21-207; 21-208; 21-209; 21-210; 22-212; 22-213; 22-214; 22-215; 22-216; 22-218; 23-220; 23-221; 23-223; 23-224; 24-231; 24-234; 24-236; 24-237; 24-238; 26-251; 26-253; 26-254; 26-255; 26-256; 26-257; 26-258; 27-259; 28-264; 28-265; 28-266; 28-273; 28-274; 29-275; 29-276; 29-277; 29-278; 29-279; 29-280; 29-281; 29-282; 29-283; 29-284; 30-285; 30-286; 30-287; 30-288; 30-289; 31-290; 31-292; 31-296; 3-14; 3-15; 3-17; 3-20; 32-304; 32-305; 32-306; 32-307; 32-308; 32-310; 32-311; 32-313; 33-315; 33-316; 33-317; 33-318; 34-319; 36-327; 36-328; 36-329; 37-334; 38-336; 38-338; 38-339; 38-352; 39-354; 39-355; 39-356; 39-357; 39-359; 40-360; 40-362; 40-363; 40-364; 41-366; 41-368; 41-369; 42-372; 4-25; 4-29; 4-30; 43-386; 44-391; 45-396; 47-397; 47-398; 48-400; 48-404; 48-405; 48-406; 49-407; 49-408; 49-410; 5-34; 5-36; 5-38; 5-39; 5-40; 5-41; 5-42; 55-430; 55-431; 55-432; 55-433; 56-436; 57-438; 57-439; 57-440; 58-443; 58-444; 58-445; 59-447; 59-448; 59-449; 59-450; 59-451; 61-462; 62-463; 62-464; 62-465; 62-466; 63-467; 63-468; 63-469; 63-470; 63-471; 63-472; 6-45; 6-46; 6-47; 6-48; 6-49; 6-50; 6-51; 6-52; 6-53; 6-55; 6-56; 67-495; 68-503; 7-61; 7-62; 7-63; 7-64; 7-65; 7-66; 7-67; 8-68; 8-69; 8-70; 8-71; 8-72; 8-73; 8-74; 8-75; 9-77; 9-78; 9-79; 9-83; 9-84; Antarctic Ocean; Antarctic Ocean/BASIN; Antarctic Ocean/CONT RISE; Antarctic Ocean/PLATEAU; Antarctic Ocean/RIDGE; Antarctic Ocean/Tasman Sea; Antarctic Ocean/Tasman Sea/CONT RISE; Antarctic Ocean/Tasman Sea/PLATEAU; Antarctic Ocean/Tasman Sea/RIDGE; Caribbean Sea/BASIN; Caribbean Sea/GAP; Caribbean Sea/RIDGE; Deep Sea Drilling Project; DRILL; Drilling/drill rig; DSDP; Glomar Challenger; Gulf of Mexico/BANK; Gulf of Mexico/PLAIN; Indian Ocean//BASIN; Indian Ocean//FAN; Indian Ocean//FRACTURE ZONE; Indian Ocean//PLATEAU; Indian Ocean//RIDGE; Indian Ocean/Arabian Sea/HILL; Indian Ocean/Arabian Sea/PLAIN; Indian Ocean/Arabian Sea/RIDGE; Indian Ocean/Gulf of Aden/BASIN; Leg10; Leg11; Leg12; Leg14; Leg15; Leg16; Leg17; Leg18; Leg19; Leg20; Leg21; Leg22; Leg23; Leg24; Leg26; Leg27; Leg28; Leg29; Leg3; Leg30; Leg31; Leg32; Leg33; Leg34; Leg36; Leg37; Leg38; Leg39; Leg4; Leg40; Leg41; Leg42; Leg43; Leg44; Leg45; Leg47; Leg48; Leg49; Leg5; Leg55; Leg56; Leg57; Leg58; Leg59; Leg6; Leg61; Leg62; Leg63; Leg67; Leg68; Leg7; Leg8; Leg9; Mediterranean Sea/BASIN; North Atlantic/BASIN; North Atlantic/CONT RISE; North Atlantic/CONT SLOPE; North Atlantic/DIAPIR; North Atlantic/KNOLL; North Atlantic/Norwegian Sea; North Atlantic/Norwegian Sea/DIAPIR; North Atlantic/Norwegian Sea/PLATEAU; North Atlantic/PLAIN; North Atlantic/PLATEAU; North Atlantic/RIDGE; North Atlantic/SEAMOUNT; North Atlantic/SEDIMENT POND; North Pacific; North Pacific/ABYSSAL FLOOR; North Pacific/BASIN; North Pacific/CONT RISE; North Pacific/ESCARPMENT; North Pacific/FAN; North Pacific/FLANK; North Pacific/GAP; North Pacific/GUYOT; North Pacific/HILL; North Pacific/Philippine Sea/BASIN; North Pacific/Philippine Sea/CONT RISE; North Pacific/Philippine Sea/RIDGE; North Pacific/PLAIN; North Pacific/PLATEAU; North Pacific/RIDGE; North Pacific/SEAMOUNT; North Pacific/SEDIMENT POND; North Pacific/SLOPE; North Pacific/TERRACE; North Pacific/TRENCH; North Pacific/VALLEY; South Atlantic; South Atlantic/BANK; South Atlantic/BASIN; South Atlantic/CONT RISE; South Atlantic/HILL; South Atlantic/PLATEAU; South Atlantic/RIDGE; South Atlantic/SEAMOUNT; South Atlantic/SYNCLINE; South Atlantic/VALLEY; South Pacific; South Pacific/BASIN; South Pacific/CONT RISE; South Pacific/Coral Sea; South Pacific/Coral Sea/BASIN; South Pacific/Coral Sea/PLATEAU; South Pacific/PLATEAU; South Pacific/RIDGE; South Pacific/Tasman Sea/BASIN; South Pacific/Tasman Sea/CONT RISE
    Type: Dataset
    Format: application/zip, 3 datasets
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 6
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    Radiosonde PS13/02596 during POLARSTERN cruise ARK-V/2 on 1988-06-09 10:20h (1989)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ALTITUDE; ARK-V/2; AWI_Meteo; Humidity, relative; Meteorological Long-Term Observations @ AWI; Polarstern; Pressure, at given altitude; PS13; PS13/02596; RADIO; Radiosonde; Temperature, air; Wind direction; Wind speed
    Type: Dataset
    Format: text/tab-separated-values, 1894 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 7
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    Radiosonde PS13/02595 during POLARSTERN cruise ARK-V/2 on 1988-06-08 10:13h (1989)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ALTITUDE; ARK-V/2; AWI_Meteo; Humidity, relative; Meteorological Long-Term Observations @ AWI; Polarstern; Pressure, at given altitude; PS13; PS13/02595; RADIO; Radiosonde; Temperature, air; Wind direction; Wind speed
    Type: Dataset
    Format: text/tab-separated-values, 2165 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 8
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    Radiosonde PS13/02597 during POLARSTERN cruise ARK-V/2 on 1988-06-10 10:16h (1989)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ALTITUDE; ARK-V/2; AWI_Meteo; Humidity, relative; Meteorological Long-Term Observations @ AWI; Polarstern; Pressure, at given altitude; PS13; PS13/02597; RADIO; Radiosonde; Temperature, air; Wind direction; Wind speed
    Type: Dataset
    Format: text/tab-separated-values, 3152 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 9
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    Radiosonde PS13/02598 during POLARSTERN cruise ARK-V/2 on 1988-06-11 10:16h (1989)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ALTITUDE; ARK-V/2; AWI_Meteo; Humidity, relative; Meteorological Long-Term Observations @ AWI; Polarstern; Pressure, at given altitude; PS13; PS13/02598; RADIO; Radiosonde; Temperature, air; Wind direction; Wind speed
    Type: Dataset
    Format: text/tab-separated-values, 2150 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 10
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    Radiosonde PS13/02594 during POLARSTERN cruise ARK-V/2 on 1988-06-07 10:15h (1989)
    PANGAEA
    In:  Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven
    Details
    Publication Date: 2024-07-01
    Keywords: ALTITUDE; ARK-V/2; AWI_Meteo; Humidity, relative; Meteorological Long-Term Observations @ AWI; Polarstern; Pressure, at given altitude; PS13; PS13/02594; RADIO; Radiosonde; Temperature, air; Wind direction; Wind speed
    Type: Dataset
    Format: text/tab-separated-values, 3158 data points
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
    DATA PANGAEA
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