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  • Elsevier  (163)
  • PANGAEA  (47)
  • 2020-2024  (42)
  • 2015-2019  (168)
  • 1950-1954
  • 2022  (42)
  • 2019  (84)
  • 2018  (84)
Collection
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  • 2020-2024  (42)
  • 2015-2019  (168)
  • 1950-1954
  • 2020-2023  (1)
Year
  • 1
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    Unknown
    Sequence alignments of South Shetland Placopsis mycobionts and photobionts (2018)
    PANGAEA
    In:  Supplement to: Beck, Andreas; Bechteler, Julia; Casanova-Katny, Angélica; Dzhilyanova, Iva (2019): The pioneer lichen Placopsis in maritime Antarctica: Genetic diversity of their mycobionts and green algal symbionts, and their correlation with deglaciation time. Symbiosis, https://doi.org/10.1007/s13199-019-00624-4
    Details
    Publication Date: 2023-01-13
    Description: Since ice-free areas in Antarctica are predicted to increase by up to 25% before the end of this century, lichens such as the genus Placopsis will be important colonizers of these newly available grounds and will still be present in later successional stages of the lichen community. The main symbionts of Placopsis species are examined for 56 specimens collected from the South Shetland Islands, Antarctica using molecular (fungal and algal nrITS, fungal RPB1, algal rbcL sequences) and morphological methods. The specimens were collected from soils with different deglaciation times. Eight uni-algal photobiont cultures were obtained and analysed from two specimens. Placopsis antarctica and P. contortuplicata proved to be monophyletic and are sister species, only the former producing vegetative diaspores (soredia). Both share the same photobiont pool and are lichenized with two closely related species, Stichococcus antarcticus and S. allas. Two haplotypes of S. antarcticus are restricted to areas deglaciated for more than 5000 years and the volcanic Deception Island indicating a shift in the photobionts of Placopsis in the course of the soil and lichen community development. These photobiont haplotypes exhibit different ecological preferences, possibly leading to adaptation of the symbiotic entity to changing environmental conditions.
    Keywords: Antarctica; MULT; Multiple investigations; S_Shetland_Is
    Type: Dataset
    Format: application/zip, 30.5 kBytes
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 2
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    (Table S4) Seasonal oxygen, nutrient, Mn, and Fe data for intertidal pore waters and adjacent seawater of Spiekeroog Island North Beach (Germany) (2019)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Keywords: ammonium; Ammonium; Calculated; Calculated: NOx - NO2; Calulated: NOx + NH4; Coastal section; Conductivity probe with integrated temperature sensor; CSEC; DATE/TIME; DEPTH, water; DGPS; estimated for North Beach Seawater; Event label; Flow through cell; optical measurement (PyroScience); High Energy Beach; iron; Iron; LATITUDE; LONGITUDE; manganese; Manganese; Mass spectrometry; nitrate; Nitrate; Nitrate and Nitrite; nitrite; Nitrite; Nitrogen, inorganic, dissolved; North Sea; Oxygen; Photometric; Salinity; Spiekeroog_S4_NBSW-01; Spiekeroog_S4_NBSW-02; Spiekeroog_S4_NBSW-03; Spiekeroog, German Bight, North Sea; Station label; subterranean estuary; Temperature, water; Transect; UTM Easting, Universal Transverse Mercator; UTM Northing, Universal Transverse Mercator
    Type: Dataset
    Format: text/tab-separated-values, 44 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 3
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    Unknown
    (Table S5) Seasonal oxygen, nutrient, Mn, and Fe data for intertidal pore waters and adjacent seawater of Spiekeroog Island North Beach (Germany) (2019)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Keywords: ammonium; Ammonium; Calculated: NOx - NO2; Coastal section; CSEC; DATE/TIME; DGPS; estimated for North Beach Seawater; Event label; High Energy Beach; iron; LATITUDE; LONGITUDE; manganese; nitrate; Nitrate; Nitrate and Nitrite; nitrite; Nitrite; North Sea; Photometric; Silicon; Spiekeroog_S5-01; Spiekeroog_S5-02; Spiekeroog_S5-03; Spiekeroog_S5-04; Spiekeroog_S5-05; Spiekeroog_S5-06; Spiekeroog_S5-07; Spiekeroog_S5-08; Spiekeroog_S5-09; Spiekeroog_S5-10; Spiekeroog_S5-11; Spiekeroog_S5-12; Spiekeroog_S5-13; Spiekeroog_S5-14; Spiekeroog_S5-15; Spiekeroog_S5-16; Spiekeroog_S5-17; Spiekeroog_S5-18; Spiekeroog_S5-19; Spiekeroog_S5-20; Spiekeroog_S5-21; Spiekeroog_S5-22; Spiekeroog_S5-23; Spiekeroog_S5-24; Spiekeroog_S5-25; Spiekeroog_S5-26; Spiekeroog_S5-27; Spiekeroog_S5-28; Spiekeroog_S5-29; Spiekeroog_S5-30; Spiekeroog_S5-31; Spiekeroog_S5-32; Spiekeroog_S5-33; Spiekeroog_S5-34; Spiekeroog_S5-35; Spiekeroog_S5-36; Spiekeroog_S5-37; Spiekeroog_S5-38; Spiekeroog_S5-39; Spiekeroog_S5-40; Spiekeroog_S5-41; Spiekeroog_S5-42; Spiekeroog_S5-43; Spiekeroog, German Bight, North Sea; Station label; subterranean estuary; UTM Easting, Universal Transverse Mercator; UTM Northing, Universal Transverse Mercator
    Type: Dataset
    Format: text/tab-separated-values, 391 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 4
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    (Table S3) Seasonal oxygen, nutrient, Mn, and Fe data for intertidal pore waters and adjacent seawater of Spiekeroog Island North Beach (Germany) (2019)
    PANGAEA
    Details
    Publication Date: 2023-02-07
    Keywords: ammonium; Ammonium; Calculated; Calculated: DGPS surface elevation - depth below sediment surface; Calculated: NOx - NO2; Calulated: NOx + NH4; Coastal section; Conductivity probe; Conductivity probe with integrated temperature sensor; CSEC; DATE/TIME; DEPTH, sediment/rock; DGPS; estimated for North Beach Seawater; ELEVATION; Event label; Flow through cell; optical measurement (PyroScience); High Energy Beach; iron; Iron; LATITUDE; LONGITUDE; manganese; Manganese; Mass spectrometry; nitrate; Nitrate; Nitrate and Nitrite; nitrite; Nitrite; Nitrogen, inorganic, dissolved; North Sea; Oxygen; Photometric; POINT DISTANCE from start; Salinity; Spiekeroog_S3_Grid100-401; Spiekeroog_S3_Grid100-403; Spiekeroog_S3_Grid100-405; Spiekeroog_S3_Grid100-407; Spiekeroog_S3_Grid100-409; Spiekeroog_S3_Grid100-411; Spiekeroog_S3_Grid100-413; Spiekeroog_S3_Grid100-415; Spiekeroog_S3_Grid100-417; Spiekeroog_S3_Grid100-419; Spiekeroog_S3_Grid100-421; Spiekeroog_S3_Grid100-427; Spiekeroog_S3_Grid100-428; Spiekeroog_S3_Grid100-443; Spiekeroog_S3_Grid100-445; Spiekeroog_S3_Grid100-447; Spiekeroog_S3_Grid100-449; Spiekeroog_S3_Grid100-451; Spiekeroog_S3_Grid100-453; Spiekeroog_S3_Grid100-455; Spiekeroog_S3_Grid100-457; Spiekeroog_S3_Grid100-459; Spiekeroog_S3_Grid100-461; Spiekeroog_S3_Grid100-463; Spiekeroog_S3_Grid100-485; Spiekeroog_S3_Grid100-487; Spiekeroog_S3_Grid100-489; Spiekeroog_S3_Grid100-491; Spiekeroog_S3_Grid100-493; Spiekeroog_S3_Grid100-495; Spiekeroog_S3_Grid100-504; Spiekeroog_S3_Grid100-506; Spiekeroog_S3_Grid100-508; Spiekeroog_S3_Grid100-509; Spiekeroog_S3_Grid100-510; Spiekeroog_S3_Grid100-511; Spiekeroog_S3_Grid100-512; Spiekeroog_S3_Grid100-514; Spiekeroog_S3_Grid100-516; Spiekeroog_S3_Grid100-517; Spiekeroog_S3_Grid100-518; Spiekeroog_S3_Grid100-519; Spiekeroog_S3_Grid100-520; Spiekeroog_S3_Grid100-521; Spiekeroog_S3_Grid100-522; Spiekeroog_S3_Grid100-523; Spiekeroog_S3_Grid100-524; Spiekeroog_S3_Grid100-525; Spiekeroog_S3_Grid100-526; Spiekeroog_S3_Grid100-527; Spiekeroog_S3_Grid100-528; Spiekeroog_S3_Grid100-529; Spiekeroog_S3_Grid100-530; Spiekeroog_S3_Grid100-531; Spiekeroog_S3_Grid100-532; Spiekeroog_S3_Grid100-533; Spiekeroog_S3_Grid100-534; Spiekeroog_S3_Grid100-535; Spiekeroog_S3_Grid100-536; Spiekeroog_S3_Grid100-537; Spiekeroog_S3_Grid100-538; Spiekeroog_S3_Grid100-539; Spiekeroog_S3_Grid100-540; Spiekeroog_S3_Grid100-541; Spiekeroog_S3_Grid100-542; Spiekeroog_S3_Grid100-543; Spiekeroog_S3_Grid100-544; Spiekeroog_S3_Grid100-545; Spiekeroog_S3_Grid100-546; Spiekeroog_S3_Grid100-547; Spiekeroog_S3_Grid100-548; Spiekeroog_S3_Grid100-552; Spiekeroog_S3_Grid100-553; Spiekeroog_S3_Grid100-554; Spiekeroog_S3_Grid100-555; Spiekeroog_S3_Grid100-556; Spiekeroog_S3_Grid100-557; Spiekeroog_S3_Grid100-558; Spiekeroog_S3_Grid100-559; Spiekeroog_S3_Grid100-560; Spiekeroog_S3_Grid100-561; Spiekeroog_S3_Grid100-562; Spiekeroog_S3_Grid100-563; Spiekeroog_S3_Grid100-564; Spiekeroog_S3_Grid100-565; Spiekeroog_S3_Grid100-567; Spiekeroog_S3_Grid100-568; Spiekeroog_S3_Grid100-569; Spiekeroog_S3_Grid100-570; Spiekeroog_S3_Grid100-571; Spiekeroog_S3_Grid100-572; Spiekeroog_S3_Grid100-573-1; Spiekeroog_S3_Grid100-573-2; Spiekeroog_S3_Grid100-574; Spiekeroog_S3_Grid100-575; Spiekeroog_S3_Grid100-576; Spiekeroog_S3_Grid100-577; Spiekeroog_S3_Grid100-578; Spiekeroog_S3_Grid100-579; Spiekeroog_S3_Grid100-580; Spiekeroog_S3_Grid100-581; Spiekeroog_S3_Grid100-582; Spiekeroog_S3_Grid100-583; Spiekeroog_S3_Grid100-584; Spiekeroog_S3_Grid100-585; Spiekeroog_S3_Grid100-586; Spiekeroog_S3_Grid100-587; Spiekeroog_S3_Grid100-588; Spiekeroog_S3_Grid100-589; Spiekeroog_S3_Grid100-590; Spiekeroog_S3_Grid100-599; Spiekeroog_S3_Grid50-401; Spiekeroog_S3_Grid50-403; Spiekeroog_S3_Grid50-405; Spiekeroog_S3_Grid50-407; Spiekeroog_S3_Grid50-409; Spiekeroog_S3_Grid50-411; Spiekeroog_S3_Grid50-413; Spiekeroog_S3_Grid50-415; Spiekeroog_S3_Grid50-417; Spiekeroog_S3_Grid50-419; Spiekeroog_S3_Grid50-421; Spiekeroog_S3_Grid50-427; Spiekeroog_S3_Grid50-428; Spiekeroog_S3_Grid50-443; Spiekeroog_S3_Grid50-445; Spiekeroog_S3_Grid50-447; Spiekeroog_S3_Grid50-449; Spiekeroog_S3_Grid50-451; Spiekeroog_S3_Grid50-453; Spiekeroog_S3_Grid50-455; Spiekeroog_S3_Grid50-457; Spiekeroog_S3_Grid50-459; Spiekeroog_S3_Grid50-461; Spiekeroog_S3_Grid50-463; Spiekeroog_S3_Grid50-485; Spiekeroog_S3_Grid50-487; Spiekeroog_S3_Grid50-489; Spiekeroog_S3_Grid50-491; Spiekeroog_S3_Grid50-493; Spiekeroog_S3_Grid50-495; Spiekeroog_S3_Grid50-504; Spiekeroog_S3_Grid50-506; Spiekeroog_S3_Grid50-508; Spiekeroog_S3_Grid50-509; Spiekeroog_S3_Grid50-510; Spiekeroog_S3_Grid50-511; Spiekeroog_S3_Grid50-512; Spiekeroog_S3_Grid50-514; Spiekeroog_S3_Grid50-516; Spiekeroog_S3_Grid50-517; Spiekeroog_S3_Grid50-518; Spiekeroog_S3_Grid50-519; Spiekeroog_S3_Grid50-520; Spiekeroog_S3_Grid50-521; Spiekeroog_S3_Grid50-522; Spiekeroog_S3_Grid50-523; Spiekeroog_S3_Grid50-524; Spiekeroog_S3_Grid50-525; Spiekeroog_S3_Grid50-526; Spiekeroog_S3_Grid50-527; Spiekeroog_S3_Grid50-528; Spiekeroog_S3_Grid50-529; Spiekeroog_S3_Grid50-530; Spiekeroog_S3_Grid50-531; Spiekeroog_S3_Grid50-532; Spiekeroog_S3_Grid50-533; Spiekeroog_S3_Grid50-534; Spiekeroog_S3_Grid50-535; Spiekeroog_S3_Grid50-536; Spiekeroog_S3_Grid50-537; Spiekeroog_S3_Grid50-538; Spiekeroog_S3_Grid50-539; Spiekeroog_S3_Grid50-540; Spiekeroog_S3_Grid50-541; Spiekeroog_S3_Grid50-542; Spiekeroog_S3_Grid50-543; Spiekeroog_S3_Grid50-544; Spiekeroog_S3_Grid50-545; Spiekeroog_S3_Grid50-546; Spiekeroog_S3_Grid50-547; Spiekeroog_S3_Grid50-548; Spiekeroog_S3_Grid50-552; Spiekeroog_S3_Grid50-553; Spiekeroog_S3_Grid50-554; Spiekeroog_S3_Grid50-555; Spiekeroog_S3_Grid50-556; Spiekeroog_S3_Grid50-557; Spiekeroog_S3_Grid50-558; Spiekeroog_S3_Grid50-559; Spiekeroog_S3_Grid50-560; Spiekeroog_S3_Grid50-561; Spiekeroog_S3_Grid50-562; Spiekeroog_S3_Grid50-563; Spiekeroog_S3_Grid50-564; Spiekeroog_S3_Grid50-565; Spiekeroog_S3_Grid50-567; Spiekeroog_S3_Grid50-568; Spiekeroog_S3_Grid50-569; Spiekeroog_S3_Grid50-570; Spiekeroog_S3_Grid50-571; Spiekeroog_S3_Grid50-572; Spiekeroog_S3_Grid50-573-1; Spiekeroog_S3_Grid50-573-2; Spiekeroog_S3_Grid50-574; Spiekeroog_S3_Grid50-575; Spiekeroog_S3_Grid50-576; Spiekeroog_S3_Grid50-577; Spiekeroog_S3_Grid50-578; Spiekeroog_S3_Grid50-579; Spiekeroog_S3_Grid50-580; Spiekeroog_S3_Grid50-581; Spiekeroog_S3_Grid50-582; Spiekeroog_S3_Grid50-583; Spiekeroog_S3_Grid50-584; Spiekeroog_S3_Grid50-585; Spiekeroog_S3_Grid50-586; Spiekeroog_S3_Grid50-587; Spiekeroog_S3_Grid50-588; Spiekeroog_S3_Grid50-589; Spiekeroog_S3_Grid50-590; Spiekeroog_S3_Grid50-599; Spiekeroog_S3_T1-186; Spiekeroog_S3_T1-188; Spiekeroog_S3_T1-191; Spiekeroog_S3_T1-573; Spiekeroog_S3_T1-7; Spiekeroog_S3_T1-78; Spiekeroog_S3_T2-13; Spiekeroog_S3_T2-143; Spiekeroog_S3_T2-164; Spiekeroog_S3_T2-169; Spiekeroog_S3_T2-599; Spiekeroog_S3_T2-72; Spiekeroog_S3_THR-S1; Spiekeroog_S3_THR-S10; Spiekeroog_S3_THR-S11; Spiekeroog_S3_THR-S12; Spiekeroog_S3_THR-S13; Spiekeroog_S3_THR-S14; Spiekeroog_S3_THR-S15; Spiekeroog_S3_THR-S16; Spiekeroog_S3_THR-S17; Spiekeroog_S3_THR-S18; Spiekeroog_S3_THR-S19; Spiekeroog_S3_THR-S2; Spiekeroog_S3_THR-S20; Spiekeroog_S3_THR-S21; Spiekeroog_S3_THR-S22; Spiekeroog_S3_THR-S23; Spiekeroog_S3_THR-S24; Spiekeroog_S3_THR-S25; Spiekeroog_S3_THR-S26; Spiekeroog_S3_THR-S3; Spiekeroog_S3_THR-S4; Spiekeroog_S3_THR-S5; Spiekeroog_S3_THR-S6; Spiekeroog_S3_THR-S7; Spiekeroog_S3_THR-S8; Spiekeroog_S3_THR-S9; Spiekeroog, German Bight, North Sea; Station label; subterranean estuary; Temperature, water; Transect; UTM Easting, Universal Transverse Mercator; UTM Northing, Universal Transverse Mercator
    Type: Dataset
    Format: text/tab-separated-values, 4538 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 5
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    (Table S2) Seasonal oxygen, nutrient, Mn, and Fe data for intertidal pore waters and adjacent seawater of Spiekeroog Island North Beach (Germany) (2019)
    PANGAEA
    Details
    Publication Date: 2023-02-08
    Keywords: ammonium; Ammonium; Calculated; Calculated: DGPS surface elevation - depth below sediment surface; Calculated: NOx - NO2; Calulated: NOx + NH4; Coastal section; Conductivity probe; Conductivity probe with integrated temperature sensor; CSEC; DATE/TIME; DEPTH, sediment/rock; DGPS; estimated for North Beach Seawater; ELEVATION; Event label; Flow through cell; optical measurement (PyroScience); High Energy Beach; iron; Iron; LATITUDE; LONGITUDE; manganese; Manganese; Mass spectrometry; nitrate; Nitrate; Nitrate and Nitrite; nitrite; Nitrite; Nitrogen, inorganic, dissolved; North Sea; Oxygen; Photometric; POINT DISTANCE from start; Salinity; Spiekeroog_S2_T1-174B; Spiekeroog_S2_T1-188; Spiekeroog_S2_T1-191; Spiekeroog_S2_T1-7; Spiekeroog_S2_T1-78; Spiekeroog_S2_T2-13; Spiekeroog_S2_T2-143; Spiekeroog_S2_T2-164; Spiekeroog_S2_T2-169; Spiekeroog_S2_T2-72; Spiekeroog_S2_T3-210; Spiekeroog_S2_T3-229; Spiekeroog_S2_T3-230; Spiekeroog_S2_T3-249-230; Spiekeroog_S2_T3-249-231; Spiekeroog_S2_T3-249-232; Spiekeroog_S2_T3-249-233; Spiekeroog_S2_T3-270; Spiekeroog_S2_T3-291; Spiekeroog_S2_THR-12; Spiekeroog_S2_THR-15; Spiekeroog_S2_THR-18; Spiekeroog_S2_THR-21; Spiekeroog_S2_THR-24; Spiekeroog_S2_THR-27; Spiekeroog_S2_THR-3; Spiekeroog_S2_THR-30; Spiekeroog_S2_THR-33; Spiekeroog_S2_THR-36; Spiekeroog_S2_THR-39; Spiekeroog_S2_THR-42; Spiekeroog_S2_THR-45; Spiekeroog_S2_THR-48; Spiekeroog_S2_THR-51; Spiekeroog_S2_THR-57; Spiekeroog_S2_THR-6; Spiekeroog_S2_THR-9; Spiekeroog, German Bight, North Sea; Station label; subterranean estuary; Temperature, water; Transect; UTM Easting, Universal Transverse Mercator; UTM Northing, Universal Transverse Mercator
    Type: Dataset
    Format: text/tab-separated-values, 1771 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 6
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    (Table S1) Seasonal oxygen, nutrient, Mn, and Fe data for intertidal pore waters and adjacent seawater of Spiekeroog Island North Beach (Germany) (2019)
    PANGAEA
    Details
    Publication Date: 2023-02-08
    Keywords: ammonium; Ammonium; Calculated; Calculated: DGPS surface elevation - depth below sediment surface; Calculated: NOx - NO2; Calulated: NOx + NH4; Coastal section; Conductivity probe; Conductivity probe with integrated temperature sensor; CSEC; DATE/TIME; DEPTH, sediment/rock; DGPS; estimated for North Beach Seawater; ELEVATION; Event label; Flow through cell; optical measurement (PyroScience); High Energy Beach; iron; Iron; LATITUDE; LONGITUDE; manganese; Manganese; Mass spectrometry; nitrate; Nitrate; Nitrate and Nitrite; nitrite; Nitrite; Nitrogen, inorganic, dissolved; North Sea; Oxygen; Photometric; POINT DISTANCE from start; Salinity; Spiekeroog_S1_T1-178; Spiekeroog_S1_T1-186; Spiekeroog_S1_T1-188; Spiekeroog_S1_T1-191; Spiekeroog_S1_T1-7; Spiekeroog_S1_T1-78; Spiekeroog_S1_T1E-186; Spiekeroog_S1_T1E-188; Spiekeroog_S1_T1E-191; Spiekeroog_S1_T1E-7; Spiekeroog_S1_T1E-78; Spiekeroog_S1_T1W-186; Spiekeroog_S1_T1W-188; Spiekeroog_S1_T1W-191; Spiekeroog_S1_T1W-7; Spiekeroog_S1_T1W-78; Spiekeroog_S1_T2-13; Spiekeroog_S1_T2-143; Spiekeroog_S1_T2-162; Spiekeroog_S1_T2-164; Spiekeroog_S1_T2-169; Spiekeroog_S1_T2-72; Spiekeroog, German Bight, North Sea; Station label; subterranean estuary; Temperature, water; Transect; UTM Easting, Universal Transverse Mercator; UTM Northing, Universal Transverse Mercator
    Type: Dataset
    Format: text/tab-separated-values, 1115 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 7
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    Digital Elevation Model from raw CoSSC TanDEM-X data (2015) in the area of Trail Valley Creek, Northwest Territories, Canada (2019)
    PANGAEA
    Details
    Publication Date: 2023-02-24
    Description: We have generated a digital elevation model (DEM) of an area between the town of Inuvik and Eskimo Lakes near the Mackenzie Delta, Northwest Territories, Canada. We used seven TanDEM-X CoSSC pairs, acquired in summer 2015 during the TanDEM-X Science Phase, and provide here the mean elevation of the seven produced DEMs (GeoTIFF raster). The processing was based on differential SAR interferometry with the use of ArcticDEM as reference. We also provide the standard deviation map of the seven DEMs (GeoTIFF raster) as a quality indicator. The final mean DEM was validated against DGPS measurements. Height values are given in meters in reference to ellipsoid (WGS84). The pixel size of the products is 10 m. The coordinate reference system is UTM Zone 8N WGS84. Detailed description of the TanDEM-X data, interferometric processing, and the validation is given in the attached metadata file.
    Keywords: AWI Arctic Land Expedition; CA-Land_2016_TrailValleyCreek; CoSSC; DEM; Northwest Territories, Canada; PermaSAR; PermaSAR: Development of a Method to Detect Subsidence by Means of D-InSAR in Permafrost Regions; SAT; Satellite remote sensing; TanDEM-X; Trail_Valley_Creek_area
    Type: Dataset
    Format: application/zip, 378.6 MBytes
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 8
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    Temperature and salinity measurements at station Cross Huinay (X) in Comau Fjord, Chile (2022)
    PANGAEA
    Details
    Publication Date: 2023-04-29
    Keywords: Biomass; calcification; Chilean Patagonia; Comau Fjord, Patagonia, Chile; DATE/TIME; DEPTH, water; environmental fluctuation; growth; Identification; Latitude of event; Longitude of event; Monitoring station; MONS; PACOC; Plankton- And cold-water COral ecology in Comau Fjord, Chile; Respiration; Salinity; Season; Station label; Temperature, water; X-Huinay
    Type: Dataset
    Format: text/tab-separated-values, 49491 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 9
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    The HYPERMAQ dataset (2022)
    PANGAEA
    Details
    Publication Date: 2023-06-24
    Description: The HYPERMAQ dataset contributes to a better description of marine optics in optically complex water bodies by providing optical and biogeochemical parameters for 180 sampling stations with turbidity and chlorophyll-a concentration ranging between 1 to 700 FNU and between 0.9 to 180 mg m-3 respectively. The HYPERMAQ dataset is composed of biogeochemical parameters (i.e. turbidity, suspended particulate matter, chlorophyll-a and other phytoplankton pigments concentrations), apparent optical properties (i.e. water reflectance from above water measurements) and inherent optical properties (i.e. absorption and attenuation coefficients) from six different study areas. These study areas include large estuaries (i.e. the Rio de la Plata in Argentina, the Yangtze Estuary in China and the Gironde Estuary in France), inland waters (i.e. the Spuikom in Belgium and Chascomus Lake in Argentina) and coastal waters (Belgium). All data were collected between April and September 2018.
    Keywords: chlorophyll-a concentration; HYPERMAQ; Hyperspectral and multi-mission high resolution optical remote sensing of aquatic environments; inherent optical properties; LifeWatch_BE; LifeWatch BE; optically complex waters; radiometry; Suspended particulate matter; turbidity; water reflectance
    Type: Dataset
    Format: application/zip, 11 datasets
    Location Call Number Expected Availability
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  • 10
    facet.materialart.
    Unknown
    Water reflectance standard deviation from six different study areas (in Argentina, China, France and Belgium) measured with TRiOS (2022)
    PANGAEA
    Details
    Publication Date: 2023-08-07
    Keywords: BELGIUM_WATERS_APRIL2018; BELGIUM_WATERS_APRIL2018_ST130; BELGIUM_WATERS_APRIL2018_ST215; BELGIUM_WATERS_APRIL2018_ST230; BELGIUM_WATERS_APRIL2018_ST330; BELGIUM_WATERS_APRIL2018_ST700; BELGIUM_WATERS_APRIL2018_ST710; BELGIUM_WATERS_APRIL2018_ST780; BELGIUM_WATERS_APRIL2018_W07BIS; BELGIUM_WATERS_JULY2018; BELGIUM_WATERS_JULY2018_LW_120; BELGIUM_WATERS_JULY2018_LW_130; BELGIUM_WATERS_JULY2018_LW_215; BELGIUM_WATERS_JULY2018_LW_230; BELGIUM_WATERS_JULY2018_LW_330; BELGIUM_WATERS_JULY2018_LW_700; BELGIUM_WATERS_JULY2018_LW_710; BELGIUM_WATERS_JULY2018_LW_780; BELGIUM_WATERS_JULY2018_LW_Harbour; BELGIUM_WATERS_JULY2018_LW_ZG02; Campaign; CHASCOMUS; CHASCOMUS_C01; CHASCOMUS_C02; CHASCOMUS_C03; CHASCOMUS_C04; CHASCOMUS_C05; chlorophyll-a concentration; DATE/TIME; DEPTH, water; Event label; HYP_0001; HYP_0002; HYP_0003; HYP_0004; HYP_0005; HYP_0006; HYP_0007; HYP_0008; HYP_0010; HYP_0011; HYP_0012; HYP_0013; HYP_0014; HYP_0015; HYP_0016; HYP_0017; HYP_0018; HYP_0019; HYP_0020; HYP_0021; HYP_0022; HYP_0023; HYP_0024; HYP_0081; HYP_0082; HYP_0083; HYP_0084; HYP_0085; HYP_0086; HYP_0087; HYP_0088; HYP_0089; HYP_0090; HYP_0091; HYP_0094; HYP_0095; HYP_0096; HYP_0097; HYP_0098; HYP_0099; HYP_0100; HYP_0101; HYP_0102; HYP_0103; HYP_0104; HYP_0105; HYP_0106; HYP_0107; HYP_0108; HYP_0109; HYP_0110; HYP_0111; HYP_0112; HYP_0113; HYP_0114; HYP_0115; HYP_0117; HYP_0118; HYP_0119; HYP_0120; HYP_0121; HYP_0122; HYP_0123; HYP_0124; HYP_0125; HYP_0126; HYP_0127; HYP_0128; HYP_0129; HYP_0130; HYP_0131; HYP_0132; HYP_0133; HYP_0134; HYP_0135; HYP_0136; HYP_0137; HYP_0138; HYP_0139; HYP_0140; HYP_0141; HYP_0142; HYP_0143; HYP_0144; HYP_0145; HYP_0146; HYP_0153; HYP_0155; HYP_0157; HYP_0158; HYP_0159; HYP_0160; HYP_0161; HYP_0162; HYP_0163; HYP_0164; HYP_0165; HYP_0166; HYP_0167; HYP_0168; HYP_0169; HYP_0170; HYP_0171; HYP_0172; HYP_0173; HYP_0174; HYP_0175; HYP_0176; HYP_0177; HYP_0178; HYP_0179; HYPERMAQ; Hyperspectral and multi-mission high resolution optical remote sensing of aquatic environments; Identification; inherent optical properties; LATITUDE; LE_VERDON; LE_VERDON_GG14; LE_VERDON_GG15; LE_VERDON_GG16; LE_VERDON_GG17; LE_VERDON_GG18; LE_VERDON_GG19; LE_VERDON_GG20; LE_VERDON_GG21; LE_VERDON_GG22; LE_VERDON_GG23; LE_VERDON_GG24; LE_VERDON_GG41; LE_VERDON_GG42; LE_VERDON_GG43; LE_VERDON_GG44; LE_VERDON_GG45; LE_VERDON_GG46; LE_VERDON_GG47; LE_VERDON_GG48; LE_VERDON_GG49; LE_VERDON_GG50; LE_VERDON_GG51; LifeWatch_BE; LifeWatch BE; LONGITUDE; MULT; Multiple investigations; optically complex waters; PAUILLAC; PAUILLAC_GG01; PAUILLAC_GG02; PAUILLAC_GG03; PAUILLAC_GG04; PAUILLAC_GG05; PAUILLAC_GG06; PAUILLAC_GG07; PAUILLAC_GG08; PAUILLAC_GG09; PAUILLAC_GG10; PAUILLAC_GG11; PAUILLAC_GG25; PAUILLAC_GG26; PAUILLAC_GG27; PAUILLAC_GG28; PAUILLAC_GG29; PAUILLAC_GG30; PAUILLAC_GG31; PAUILLAC_GG32; PAUILLAC_GG33; PAUILLAC_GG34; PAUILLAC_GG35; PAUILLAC_GG36; PAUILLAC_GG37; PAUILLAC_GG38; Radiometer, TriOS; radiometry; RIO_DE_LA_PLATA; RIO_DE_LA_PLATA_P01; RIO_DE_LA_PLATA_P02; RIO_DE_LA_PLATA_P03; RIO_DE_LA_PLATA_P04; RIO_DE_LA_PLATA_P05; RIO_DE_LA_PLATA_P06; RIO_DE_LA_PLATA_P07; RIO_DE_LA_PLATA_P08; RIO_DE_LA_PLATA_P09; RIO_DE_LA_PLATA_P10; RIO_DE_LA_PLATA_P11; RIO_DE_LA_PLATA_P12; RIO_DE_LA_PLATA_P13; RIO_DE_LA_PLATA_P14; RIO_DE_LA_PLATA_P15; RIO_DE_LA_PLATA_P16; Rubber boat; Sampling on land; Simon Stevin; SPUIKOM_APRIL2018; SPUIKOM_APRIL2018_SP38; SPUIKOM_APRIL2018_SP39b; SPUIKOM_APRIL2018_SP40b; SPUIKOM_APRIL2018_SP41; SPUIKOM_APRIL2018_SP42; SPUIKOM_APRIL2018_SP43; SPUIKOM_APRIL2018_SP44; SPUIKOM_JULY2018; SPUIKOM_JULY2018_SP50; SPUIKOM_JULY2018_SP51; SPUIKOM_JULY2018_SP52; SPUIKOM_JULY2018_SP53; SPUIKOM_JULY2018_SP54; SPUIKOM_JULY2018_SP55; SPUIKOM_JULY2018_SP56; SPUIKOM_JULY2018_SP57; SPUIKOM_JULY2018_SP58; SPUIKOM_JULY2018_SP59; SPUIKOM_JULY2018_SP60; SPUIKOM_JULY2018_SP62; SPUIKOM_JULY2018_SP63; SPUIKOM_JULY2018_SP64; SPUIKOM_JULY2018_SP65; SPUIKOM_JULY2018_SP66; SPUIKOM_JULY2018_SP67; SPUIKOM_JULY2018_SP68; Station label; Suspended particulate matter; turbidity; water reflectance; Water reflectance at 350 nm, standard deviation; Water reflectance at 352.5 nm, standard deviation; Water reflectance at 355 nm, standard deviation; Water reflectance at 357.5 nm, standard deviation; Water reflectance at 360 nm, standard deviation; Water reflectance at 362.5 nm, standard deviation; Water reflectance at 365 nm, standard deviation; Water reflectance at 367.5 nm, standard deviation; Water reflectance at 370 nm, standard deviation; Water reflectance at 372.5 nm, standard deviation; Water reflectance at 375 nm, standard deviation; Water reflectance at 377.5 nm, standard deviation; Water reflectance at 380 nm, standard deviation; Water reflectance at 382.5 nm, standard deviation; Water reflectance at 385 nm, standard deviation; Water reflectance at 387.5 nm, standard deviation; Water reflectance at 390 nm, standard deviation; Water reflectance at 392.5 nm, standard deviation; Water reflectance at 395 nm, standard deviation; Water reflectance at 397.5 nm, standard deviation; Water reflectance at 400 nm, standard deviation; Water reflectance at 402.5 nm, standard deviation; Water reflectance at 405 nm, standard deviation; Water reflectance at 407.5 nm, standard deviation; Water reflectance at 410 nm, standard deviation; Water reflectance at 412.5 nm, standard deviation; Water reflectance at 415 nm, standard deviation; Water reflectance at 417.5 nm, standard deviation; Water reflectance at 420 nm, standard deviation; Water reflectance at 422.5 nm, standard deviation; Water reflectance at 425 nm, standard deviation; Water reflectance at 427.5 nm, standard deviation; Water reflectance at 430 nm, standard deviation; Water reflectance at 432.5 nm, standard deviation; Water reflectance at 435 nm, standard deviation; Water reflectance at 437.5 nm, standard deviation; Water reflectance at 440 nm, standard deviation; Water reflectance at 442.5 nm, standard deviation; Water reflectance at 445 nm, standard deviation; Water reflectance at 447.5 nm, standard deviation; Water reflectance at 450 nm, standard deviation; Water reflectance at 452.5 nm, standard deviation; Water reflectance at 455 nm, standard deviation; Water reflectance at 457.5 nm, standard deviation; Water reflectance at 460 nm, standard deviation; Water reflectance at 462.5 nm, standard deviation; Water reflectance at 465 nm, standard deviation; Water reflectance at 467.5 nm, standard deviation; Water reflectance at 470 nm, standard deviation; Water reflectance at 472.5 nm, standard deviation; Water reflectance at 475 nm, standard deviation; Water reflectance at 477.5 nm, standard deviation; Water reflectance at 480 nm, standard deviation; Water reflectance at 482.5 nm, standard deviation; Water reflectance at 485 nm, standard deviation; Water reflectance at 487.5 nm, standard deviation; Water reflectance at 490 nm, standard deviation; Water reflectance at 492.5 nm, standard deviation; Water reflectance at 495 nm, standard deviation; Water reflectance at 497.5 nm, standard deviation; Water reflectance at 500 nm, standard deviation; Water reflectance at 502.5 nm, standard deviation; Water reflectance at 505 nm, standard deviation; Water reflectance at 507.5 nm, standard deviation; Water reflectance at 510 nm, standard deviation; Water reflectance at 512.5 nm, standard deviation; Water reflectance at 515 nm, standard deviation; Water reflectance at 517.5 nm, standard deviation; Water reflectance at 520 nm, standard deviation; Water reflectance at 522.5 nm, standard deviation; Water reflectance at 525 nm, standard deviation; Water reflectance at 527.5 nm, standard deviation; Water reflectance at 530 nm, standard deviation; Water reflectance at 532.5 nm, standard deviation; Water reflectance at 535 nm, standard deviation; Water reflectance at 537.5 nm, standard deviation; Water reflectance at 540 nm, standard deviation; Water reflectance at 542.5 nm, standard deviation; Water reflectance at 545 nm, standard deviation; Water
    Type: Dataset
    Format: text/tab-separated-values, 20223 data points
    Location Call Number Expected Availability
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