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  • 1
    facet.materialart.
    Unknown
    Ridge snow oxygen and hydrogen isotope data MOSAiC Leg 4 (PS122/4) (2022)
    PANGAEA
    Details
    Publication Date: 2024-02-21
    Description: Oxygen (dO18) and hydrogen (dH) isotope ratio data from snow samples taken during MOSAiC leg 4 (PS122.4). Snow samples were taken from several locations around the central observatory (main ice floe. They were collected using a metal density cutter, placed in plastic cups with lids and melted at room temperature. Once completely melted, ~20 ml sub-samples were poured into 20 ml glass or plastic vials with lids and sealed with parafilm tape for isotope analyses. These samples were stored at +4°C. After the sub-samples were taken, bulk salinity was measured on the remaining water sample using a calibrated YSI 30 conductivity meter (practical salinity scale, unitless). The stable oxygen isotopic compositions of the melted snow samples (δ18O) were determined in the central laboratory of the Swiss Federal Institute for Forest, Snow and Landscape, Birmensdorf, Switzerland with an Isotopic Water Analyzer IWA-45-ER (ABB - Los Gatos Research Inc., US). Measurement uncertainty for δ18O is ±1‰, the precision ± 0.5‰. All samples were measured in duplicate and averaged. 169 The quality control was conducted with three standards for δ18O at 0.00‰, -12.34‰ and -55.50‰ and are presented as per mil difference relative to VSMOW (‰, Vienna Standard Mean Ocean Water).
    Keywords: Arctic Ocean; DATE/TIME; DEPTH, ice/snow; Event label; HAVOC; Ice type; isotope analysis; isotope ratios; Isotopic Water Analyzer IWA-45-ER (ABB - Los Gatos Research Inc., US), Swiss Federal Institute for Forest, Snow and Landscape, Birmensdorf; LATITUDE; Location; LONGITUDE; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; oxygen and hydrogen isotopes; Polarstern; PS122/4; PS122/4_44-215; PS122/4_44-216; PS122/4_45-108; PS122/4_45-16; PS122/4_45-18; PS122/4_45-87; PS122/4_46-107; PS122/4_46-110; PS122/4_46-135; PS122/4_46-29; PS122/4_48-142; PS122/4_48-143; PS122/4_48-144; PS122/4_48-146; PS122/4_48-177; PS122/4_49-47; Ridges - Safe HAVens for ice-associated Flora and Fauna in a Seasonally ice-covered Arctic OCean; Salinity; Sample ID; Sea ice; SNOWPIT; Snow pit; δ18O, water; δ Deuterium, water
    Type: Dataset
    Format: text/tab-separated-values, 387 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 2
    facet.materialart.
    Unknown
    Ridge ice oxygen and hydrogen isotope data MOSAiC Leg 4 (PS122/4) (2022)
    PANGAEA
    Details
    Publication Date: 2024-02-21
    Description: Oxygen (dO18) and hydrogen (dH) isotope ratio data from sea ice samples taken during MOSAiC leg 4 (PS122/4). Sea ice samples were taken from Jaride and Alli's Ridge. Sea ice cores were extracted f 139 rom the ridges using a 9 cm inner diameter ice corer (Kovacs Enterprise Mark II coring system) powered by a cordless electric drill. Salinity/isotope ice cores were stored in sterile U-Lines bags (sections 〈 1 m), immediately placed in Styrofoam boxes and transported back to the ship within 2 hours of sampling. Ice cores were stored in a -20°C walk-in freezer until processing. The ice cores were cut into ~5 cm sections using a stainless steel, electric butcher band saw. To ensure we captured potential transition zones within the sea ice (i.e., rapid transitions in salinity), we only cut to the top or bottom of natural breaks in the ice cores (i.e., some sections were thicker or thinner than 5 cm but all in the range of 2-7 cm). The samples were placed in plastic cups with lids and melted at room temperature. Once completely melted, ~20 ml sub-samples were poured into 20 ml glass or plastic vials with lids and sealed with parafilm tape for isotope analyses. These samples were stored at +4°C. After the sub-samples were taken, bulk salinity was measured on the remaining water sample using a calibrated YSI 30 conductivity meter (practical salinity scale, unitless). The stable oxygen isotopic compositions of the melted ice samples (δ18O) were determined in the central laboratory of the Swiss Federal Institute for Forest, Snow and Landscape, Birmensdorf, Switzerland with an Isotopic Water Analyzer IWA-45-ER (ABB - Los Gatos Research Inc., US). Measurement uncertainty for δ18O is ±1‰, the precision ± 0.5‰. All samples were measured in duplicate and averaged. 169 The quality control was conducted with three standards for δ18O at 0.00‰, -12.34‰ and -55.50‰ and are presented as per mil difference relative to VSMOW (‰, Vienna Standard Mean Ocean Water).
    Keywords: Arctic Ocean; BHJ; Borehole Jack; Comment; DATE/TIME; DEPTH, ice/snow; Distance, from water level; Event label; HAVOC; IC; Ice corer; Ice draft; Ice thickness; isotope analysis; isotope ratios; Isotopic Water Analyzer IWA-45-ER (ABB - Los Gatos Research Inc., US), Swiss Federal Institute for Forest, Snow and Landscape, Birmensdorf; LATITUDE; Location; LONGITUDE; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; oxygen and hydrogen isotopes; Polarstern; PS122/4; PS122/4_46-178; PS122/4_47-157; PS122/4_47-199; PS122/4_48-229; PS122/4_49-117; Ridges - Safe HAVens for ice-associated Flora and Fauna in a Seasonally ice-covered Arctic OCean; Salinity; Sample ID; Sea ice; Sea ice freeboard; Snow height; δ18O, water; δ Deuterium, water
    Type: Dataset
    Format: text/tab-separated-values, 4951 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 3
    facet.materialart.
    Unknown
    SnowMicroPen raw data (sn_smp_31, sn_smp_43 and sn_smp_49) during MOSAiC expedition (2021)
    PANGAEA
    Details
    Publication Date: 2024-04-20
    Description: The SnowMicroPen (SMP) is a portable device for high-resolution in-situ measurements of penetration resistance in snow and can be correlated to snow microstructure. The penetration force is measured using a piezo-electric sensor and is digitally recorded every 4 micrometers. The SMP signal can infer stratigraphy, snow type, and snow microstructure at a vertical resolution of 1-4 mm. Based on the force signal, density and specific surface area parameterizations are calculated. Through horizontally repeated measurements, the SMP can help relate detailed point-scale snow profiles to a larger sampling area and provide information about the spatial variability of snow stratigraphy and physical snow properties. During the MOSAiC expedition (October 2019-September 2020), the SMP was used to measure 389 snowpits or transects to allow for upscaling of detailed point measurements of snow profiles. This dataset consists of 6837 SMP measurements and covers a complete annual cycle of snow stratigraphy on sea ice in the high Arctic. Please direct inquiries to: David Wagner (Leg 1), Martin Schneebeli (Leg 2), Amy Macfarlane (Leg 3 and 4), Ruzica Dadic (Leg 5).
    Keywords: Arctic Ocean; Binary Object; Binary Object (File Size); Comment; DATE/TIME; Event label; File name; Gear; Identification; Location; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; Polarstern; PS122/1; PS122/1_10-11; PS122/1_10-18; PS122/1_10-5; PS122/1_10-50; PS122/1_10-58; PS122/1_10-70; PS122/1_10-71; PS122/1_10-72; PS122/1_11-23; PS122/1_4-10; PS122/1_5-28; PS122/1_5-35; PS122/1_5-5; PS122/1_6-146; PS122/1_6-147; PS122/1_6-29; PS122/1_6-30; PS122/1_6-41; PS122/1_6-42; PS122/1_6-43; PS122/1_6-44; PS122/1_6-45; PS122/1_6-46; PS122/1_6-47; PS122/1_6-5; PS122/1_6-6; PS122/1_6-65; PS122/1_6-66; PS122/1_6-67; PS122/1_6-68; PS122/1_6-69; PS122/1_6-70; PS122/1_6-75; PS122/1_7-12; PS122/1_7-129; PS122/1_7-32; PS122/1_7-33; PS122/1_7-34; PS122/1_7-35; PS122/1_7-36; PS122/1_7-37; PS122/1_7-38; PS122/1_7-5; PS122/1_7-68; PS122/1_7-69; PS122/1_7-70; PS122/1_7-71; PS122/1_7-72; PS122/1_7-73; PS122/1_7-8; PS122/1_7-87; PS122/1_7-88; PS122/1_8-27; PS122/1_8-28; PS122/1_8-29; PS122/1_8-30; PS122/1_8-31; PS122/1_8-32; PS122/1_8-68; PS122/1_8-69; PS122/1_8-70; PS122/1_8-78; PS122/1_8-79; PS122/1_9-111; PS122/1_9-117; PS122/1_9-23; PS122/1_9-25; PS122/1_9-3; PS122/1_9-71; PS122/1_9-72; PS122/1_9-73; PS122/1_9-74; PS122/2; PS122/2_16-24; PS122/2_16-44; PS122/2_16-45; PS122/2_16-46; PS122/2_16-62; PS122/2_16-73; PS122/2_16-9; PS122/2_17-109; PS122/2_17-16; PS122/2_17-43; PS122/2_17-45; PS122/2_17-46; PS122/2_17-47; PS122/2_17-49; PS122/2_18-107; PS122/2_18-108; PS122/2_18-17; PS122/2_18-47; PS122/2_18-52; PS122/2_18-53; PS122/2_18-54; PS122/2_18-55; PS122/2_18-56; PS122/2_18-66; PS122/2_18-76; PS122/2_18-8; PS122/2_18-9; PS122/2_19-128; PS122/2_19-129; PS122/2_19-131; PS122/2_19-132; PS122/2_19-133; PS122/2_19-134; PS122/2_19-135; PS122/2_19-137; PS122/2_19-142; PS122/2_19-144; PS122/2_19-146; PS122/2_19-160; PS122/2_19-161; PS122/2_19-181; PS122/2_19-28; PS122/2_19-75; PS122/2_19-9; PS122/2_19-92; PS122/2_20-107; PS122/2_20-108; PS122/2_20-123; PS122/2_20-139; PS122/2_20-140; PS122/2_20-141; PS122/2_20-142; PS122/2_20-143; PS122/2_20-144; PS122/2_20-145; PS122/2_20-164; PS122/2_20-36; PS122/2_20-4; PS122/2_20-70; PS122/2_20-80; PS122/2_20-83; PS122/2_21-14; PS122/2_21-15; PS122/2_21-158; PS122/2_21-159; PS122/2_21-16; PS122/2_21-170; PS122/2_21-52; PS122/2_21-53; PS122/2_21-72; PS122/2_21-84; PS122/2_21-96; PS122/2_22-43; PS122/2_22-46; PS122/2_22-5; PS122/2_22-6; PS122/2_22-61; PS122/2_22-66; PS122/2_22-67; PS122/2_22-68; PS122/2_22-69; PS122/2_22-73; PS122/2_22-74; PS122/2_23-105; PS122/2_23-2; PS122/2_23-34; PS122/2_23-73; PS122/2_23-74; PS122/2_23-75; PS122/2_23-76; PS122/2_23-77; PS122/2_23-78; PS122/2_23-79; PS122/2_23-85; PS122/2_23-9; PS122/2_24-14; PS122/2_24-15; PS122/2_24-35; PS122/2_24-56; PS122/2_24-81; PS122/2_24-86; PS122/2_25-105; PS122/2_25-128; PS122/2_25-22; PS122/2_25-23; PS122/2_25-59; PS122/2_25-60; PS122/2_25-61; PS122/2_25-62; PS122/2_25-63; PS122/2_25-80; PS122/2_25-81; PS122/3; PS122/3_29-28; PS122/3_29-29; PS122/3_29-38; PS122/3_29-43; PS122/3_29-50; PS122/3_29-9; PS122/3_30-17; PS122/3_30-25; PS122/3_30-42; PS122/3_30-61; PS122/3_31-55; PS122/3_31-79; PS122/3_32-41; PS122/3_32-59; PS122/3_32-61; PS122/3_32-88; PS122/3_32-92; PS122/3_32-93; PS122/3_33-102; PS122/3_33-103; PS122/3_33-113; PS122/3_33-41; PS122/3_33-65; PS122/3_34-2; PS122/3_34-34; PS122/3_34-45; PS122/3_34-46; PS122/3_34-60; PS122/3_34-91; PS122/3_35-111; PS122/3_35-120; PS122/3_35-121; PS122/3_35-23; PS122/3_35-24; PS122/3_35-53; PS122/3_35-56; PS122/3_36-102; PS122/3_36-103; PS122/3_36-104; PS122/3_36-105; PS122/3_36-106; PS122/3_36-107; PS122/3_36-137; PS122/3_36-138; PS122/3_36-14; PS122/3_36-15; PS122/3_36-35; PS122/3_36-99; PS122/3_37-129; PS122/3_37-130; PS122/3_37-131; PS122/3_37-132; PS122/3_37-21; PS122/3_37-22; PS122/3_37-39; PS122/3_37-40; PS122/3_37-41; PS122/3_37-56; PS122/3_37-57; PS122/3_37-58; PS122/3_37-68; PS122/3_38-1; PS122/3_38-142; PS122/3_38-4; PS122/3_38-51; PS122/3_38-52; PS122/3_38-93; PS122/3_38-94; PS122/3_38-95; PS122/3_38-96; PS122/3_38-97; PS122/3_38-98; PS122/3_39-45; PS122/3_39-46; PS122/3_39-47; PS122/3_39-48; PS122/3_39-87; PS122/3_39-88; PS122/3_39-89; PS122/3_39-90; PS122/3_39-91; PS122/3_39-92; PS122/3_40-14; PS122/3_40-15; PS122/4; PS122/4_44-155; PS122/4_44-156; PS122/4_44-157; PS122/4_44-215; PS122/4_44-216; PS122/4_44-44; PS122/4_44-45; PS122/4_44-46; PS122/4_44-47; PS122/4_45-16; PS122/4_45-17; PS122/4_45-18; PS122/4_45-63; PS122/4_45-86; PS122/4_45-87; PS122/4_46-105; PS122/4_46-107; PS122/4_46-110; PS122/4_46-135; PS122/4_46-138; PS122/4_46-139; PS122/4_46-140; PS122/4_46-29; PS122/4_46-31; PS122/4_46-32; PS122/4_47-22; PS122/4_47-23; PS122/4_48-177; PS122/4_49-46; PS122/5; PS122/5_59-267; PS122/5_59-268; PS122/5_59-292; PS122/5_59-302; PS122/5_59-303; PS122/5_59-304; PS122/5_59-313; PS122/5_59-314; PS122/5_59-350; PS122/5_59-351; PS122/5_59-352; PS122/5_59-353; PS122/5_59-354; PS122/5_60-128; PS122/5_60-142; PS122/5_60-143; PS122/5_60-144; PS122/5_60-145; PS122/5_60-168; PS122/5_60-170; PS122/5_61-10; PS122/5_61-102; PS122/5_61-103; PS122/5_61-104; PS122/5_61-105; PS122/5_61-132; PS122/5_61-138; PS122/5_61-139; PS122/5_61-140; PS122/5_61-162; PS122/5_61-166; PS122/5_61-167; PS122/5_61-168; PS122/5_61-170; PS122/5_61-198; PS122/5_61-2; PS122/5_61-230; PS122/5_61-231; PS122/5_61-232; PS122/5_61-233; PS122/5_61-234; PS122/5_61-235; PS122/5_61-236; PS122/5_61-237; PS122/5_61-25; PS122/5_61-27; PS122/5_61-28; PS122/5_61-4; PS122/5_61-5; PS122/5_61-8; PS122/5_61-9; PS122/5_61-97; PS122/5_62-10; PS122/5_62-100; PS122/5_62-101; PS122/5_62-102; PS122/5_62-119; PS122/5_62-123; PS122/5_62-124; PS122/5_62-125; PS122/5_62-126; PS122/5_62-139; PS122/5_62-140; PS122/5_62-145; PS122/5_62-147; PS122/5_62-163; PS122/5_62-20; PS122/5_62-21; PS122/5_62-22; PS122/5_62-23; PS122/5_62-24; PS122/5_62-25; PS122/5_62-26; PS122/5_62-27; PS122/5_62-28; PS122/5_62-39; PS122/5_62-43; PS122/5_62-44; PS122/5_62-45; PS122/5_62-47; PS122/5_62-69; PS122/5_62-70; PS122/5_62-89; PS122/5_62-97; PS122/5_62-98; PS122/5_62-99; PS122/5_63-262; PS122/5_63-263; PS122/5_63-95; PS122/5_63-96; PS122/5_63-97; PS122/5_63-98; SnowMicroPen; SNOWPIT; Snow pit; Subfolder
    Type: Dataset
    Format: text/tab-separated-values, 37791 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 4
    facet.materialart.
    Unknown
    Snow water equivalent retrievals from SnowMicroPen data from MOSAiC Leg 1 - Leg 3 (2021)
    PANGAEA
    Details
    Publication Date: 2024-04-20
    Description: The dataset includes computed snow water equivalent (SWE) in mm and depth (m) of the snowpack for MOSAiC leg 1 - 3, derived from SnowMicroPen (SMP) penetration force signals. The data origins from the devices SMP49 and SMP31 that have been used during MOSAiC leg 1 - 3. In a first step, force signal measurements that are known to be incorrect or that are known to be related to device function tests, have been discarded. In a second step, the snow surface was detected in the force signal and the signal located vertically above the surface has been discarded for each measurement. The snow depth was determined by where the SMP stopped measuring, i.e. at a depth where the overload signal of 41 N (SMP49) or 40 N (SMP31), was reached, respectively. Hence, the determined depth in the file does not necessarily tell the exact position of the snow-ice interface. In a third step, density of the snowpack was computed using the statistical model from Proksch et al. (2015). The coefficients used in the model are taken from King et al. (2020) where they have been explicitly fitted for Arctic sea ice. In a last step, snowpack density was vertically averaged for each measurement and multiplied with the determined snow depth to obtain the SWE. Besides snow depth and SWE, each measurement in the csv file was assigned a timestamp (UTC), a DSHIP device operation ID, a measuring location label and geographic coordinates (DD format), as long as the SMP-internal GPS receiver was running and the antenna was receiving a GPS position signal.
    Keywords: Arctic Ocean; DATE/TIME; Event label; force signals; LATITUDE; Location; LONGITUDE; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; Polarstern; PS122/1; PS122/1_10-5; PS122/1_10-50; PS122/1_10-58; PS122/1_10-70; PS122/1_10-71; PS122/1_10-72; PS122/1_11-23; PS122/1_4-10; PS122/1_5-28; PS122/1_5-35; PS122/1_5-5; PS122/1_6-30; PS122/1_6-41; PS122/1_6-42; PS122/1_6-43; PS122/1_6-44; PS122/1_6-45; PS122/1_6-46; PS122/1_6-47; PS122/1_6-5; PS122/1_6-6; PS122/1_6-75; PS122/1_7-12; PS122/1_7-129; PS122/1_7-32; PS122/1_7-33; PS122/1_7-34; PS122/1_7-37; PS122/1_7-68; PS122/1_7-69; PS122/1_7-70; PS122/1_7-71; PS122/1_7-72; PS122/1_7-73; PS122/1_7-87; PS122/1_7-88; PS122/1_8-31; PS122/1_8-68; PS122/1_8-69; PS122/1_8-70; PS122/1_8-78; PS122/1_8-79; PS122/1_9-111; PS122/1_9-25; PS122/1_9-71; PS122/1_9-72; PS122/1_9-73; PS122/1_9-74; PS122/2; PS122/2_16-24; PS122/2_16-44; PS122/2_16-45; PS122/2_16-46; PS122/2_16-62; PS122/2_16-73; PS122/2_16-9; PS122/2_17-109; PS122/2_17-16; PS122/2_17-43; PS122/2_17-45; PS122/2_17-46; PS122/2_17-47; PS122/2_17-49; PS122/2_18-107; PS122/2_18-108; PS122/2_18-17; PS122/2_18-47; PS122/2_18-52; PS122/2_18-53; PS122/2_18-54; PS122/2_18-55; PS122/2_18-56; PS122/2_18-66; PS122/2_18-76; PS122/2_18-8; PS122/2_18-9; PS122/2_19-128; PS122/2_19-129; PS122/2_19-131; PS122/2_19-132; PS122/2_19-133; PS122/2_19-134; PS122/2_19-135; PS122/2_19-137; PS122/2_19-142; PS122/2_19-144; PS122/2_19-146; PS122/2_19-160; PS122/2_19-161; PS122/2_19-28; PS122/2_19-75; PS122/2_19-9; PS122/2_19-92; PS122/2_20-107; PS122/2_20-108; PS122/2_20-123; PS122/2_20-139; PS122/2_20-140; PS122/2_20-141; PS122/2_20-142; PS122/2_20-143; PS122/2_20-144; PS122/2_20-145; PS122/2_20-164; PS122/2_20-36; PS122/2_20-4; PS122/2_20-70; PS122/2_20-80; PS122/2_20-83; PS122/2_21-14; PS122/2_21-15; PS122/2_21-158; PS122/2_21-159; PS122/2_21-16; PS122/2_21-170; PS122/2_21-52; PS122/2_21-53; PS122/2_21-72; PS122/2_21-84; PS122/2_22-43; PS122/2_22-46; PS122/2_22-5; PS122/2_22-6; PS122/2_22-61; PS122/2_22-66; PS122/2_22-67; PS122/2_22-68; PS122/2_22-69; PS122/2_22-73; PS122/2_22-74; PS122/2_23-105; PS122/2_23-2; PS122/2_23-34; PS122/2_23-73; PS122/2_23-74; PS122/2_23-75; PS122/2_23-76; PS122/2_23-77; PS122/2_23-78; PS122/2_23-79; PS122/2_23-85; PS122/2_23-9; PS122/2_24-14; PS122/2_24-15; PS122/2_24-35; PS122/2_24-56; PS122/2_24-81; PS122/2_24-86; PS122/2_25-105; PS122/2_25-22; PS122/2_25-23; PS122/2_25-59; PS122/2_25-60; PS122/2_25-61; PS122/2_25-62; PS122/2_25-63; PS122/2_25-80; PS122/2_25-81; PS122/3; PS122/3_29-28; PS122/3_29-29; PS122/3_29-38; PS122/3_29-43; PS122/3_29-50; PS122/3_29-9; PS122/3_30-17; PS122/3_30-25; PS122/3_30-42; PS122/3_30-61; PS122/3_31-55; PS122/3_31-79; PS122/3_32-41; PS122/3_32-59; PS122/3_32-61; PS122/3_32-88; PS122/3_32-92; PS122/3_32-93; PS122/3_33-102; PS122/3_33-103; PS122/3_33-41; PS122/3_33-65; PS122/3_33-66; PS122/3_34-2; PS122/3_34-34; PS122/3_34-45; PS122/3_34-46; PS122/3_34-60; PS122/3_34-91; PS122/3_35-111; PS122/3_35-120; PS122/3_35-121; PS122/3_35-23; PS122/3_35-24; PS122/3_35-53; PS122/3_35-56; PS122/3_36-102; PS122/3_36-103; PS122/3_36-104; PS122/3_36-105; PS122/3_36-106; PS122/3_36-107; PS122/3_36-137; PS122/3_36-138; PS122/3_36-14; PS122/3_36-15; PS122/3_36-35; PS122/3_36-99; PS122/3_37-129; PS122/3_37-130; PS122/3_37-131; PS122/3_37-132; PS122/3_37-21; PS122/3_37-22; PS122/3_37-39; PS122/3_37-40; PS122/3_37-41; PS122/3_37-56; PS122/3_37-57; PS122/3_37-58; PS122/3_37-68; PS122/3_38-1; PS122/3_38-142; PS122/3_38-4; PS122/3_38-51; PS122/3_38-52; PS122/3_38-93; PS122/3_38-94; PS122/3_38-95; PS122/3_38-96; PS122/3_38-97; PS122/3_38-98; PS122/3_39-45; PS122/3_39-46; PS122/3_39-47; PS122/3_39-48; PS122/3_39-87; PS122/3_39-88; PS122/3_39-89; PS122/3_39-90; PS122/3_39-91; PS122/3_39-92; PS122/3_40-14; PS122/3_40-15; SMP; Snow height; snowmicropen; SnowMicroPen; SNOWPIT; Snow pit; snow water equivalent; Snow water equivalent; SWE
    Type: Dataset
    Format: text/tab-separated-values, 9021 data points
    Location Call Number Limitation Availability
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  • 5
    facet.materialart.
    Unknown
    Stable water isotopes of snow during MOSAiC expedition (2022)
    PANGAEA
    Details
    Publication Date: 2024-06-12
    Description: Snow samples were collected from several locations on the main MOSAiC ice floe on weekly basis. Snow samples for measurement of stable water isotopes (δ18O, δD,) were collected in three different layers (top, middle, bottom) using a metal density cutter. At first, samples were stored in sealed plastic bags and the air was squeezed out before closing the bags. At later stages of the expedition, samples were stored in plastic cups with lids. Later the samples were thawed completely at room temperature and poured into 20 ml glass vials and sealed with parafilm tape and stored at 4°C. Oxygen and hydrogen isotope analyses were carried out at the ISOLAB Facility at AWI Potsdam (https://hdl.handle.net/10013/sensor.ddc92f54-4c63-492d-81c7-696260694001) with mass spectrometers (DELTA-S Finnigan MAT, USA): https://hdl.handle.net/10013/sensor.af148dea-fe65-4c87-9744-50dc4c81f7c9 https://hdl.handle.net/10013/sensor.62e86761-9fae-4f12-9c10-9b245028ea4c. employing the equilibration method (details in Meyer et al., 2000). δ18O and δD values were given in per mil (‰) vs. Vienna standard mean ocean water (V-SMOW) as the standard. The second order parameter d excess was computed according to: d excess = δD-8 δ18O (Dansgaard, 1964).
    Keywords: Arctic Ocean; Calculated after Dansgaard (1964); Comment; DATE/TIME; DEPTH, water; Deuterium excess; Event label; Height, relative, from ice/snow line, maximum; Height, relative, from ice/snow line, minimum; IC; Ice corer; isotopes; Layer description; Mass spectrometer Finnigan MAT Delta-S (ISOLAB); Mosaic; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; Polarstern; PS122/1; PS122/1_10-35; PS122/1_10-38; PS122/1_10-5; PS122/1_11-23; PS122/1_4-10; PS122/1_5-5; PS122/1_5-92; PS122/1_5-93; PS122/1_5-95; PS122/1_6-10; PS122/1_6-136; PS122/1_6-140; PS122/1_6-34; PS122/1_6-6; PS122/1_6-61; PS122/1_7-105; PS122/1_7-106; PS122/1_7-12; PS122/1_7-89; PS122/1_8-110; PS122/1_8-24; PS122/1_8-33; PS122/1_8-79; PS122/1_9-23; PS122/1_9-31; PS122/1_9-39; PS122/1_9-65; PS122/2; PS122/2_16-9; PS122/2_17-109; PS122/2_17-16; PS122/2_18-17; PS122/2_18-66; PS122/2_19-144; PS122/2_19-28; PS122/2_19-9; PS122/2_19-92; PS122/2_20-36; PS122/2_20-4; PS122/2_20-80; PS122/2_20-83; PS122/2_21-14; PS122/2_21-15; PS122/2_21-96; PS122/2_22-5; PS122/2_22-6; PS122/2_22-73; PS122/2_23-2; PS122/2_23-34; PS122/2_23-73; PS122/2_23-74; PS122/2_23-9; PS122/2_24-14; PS122/2_24-15; PS122/2_24-35; PS122/2_24-86; PS122/2_25-22; PS122/2_25-80; PS122/2_25-81; PS122/3; PS122/3_29-28; PS122/3_29-29; PS122/3_29-9; PS122/3_30-17; PS122/3_30-25; PS122/3_31-44; PS122/3_31-55; PS122/3_31-64; PS122/3_31-65; PS122/3_31-91; PS122/3_32-5; PS122/3_32-88; PS122/3_32-92; PS122/3_33-53; PS122/3_33-65; PS122/3_33-66; PS122/3_34-34; PS122/3_34-45; PS122/3_35-23; PS122/3_35-53; PS122/3_35-56; PS122/3_36-14; PS122/3_36-178; PS122/3_36-35; PS122/3_36-99; PS122/3_37-129; PS122/3_37-41; PS122/3_37-57; PS122/3_38-1; PS122/3_38-141; PS122/3_38-4; PS122/3_38-51; PS122/3_39-46; PS122/3_39-48; PS122/3_39-88; PS122/3_39-92; PS122/4; PS122/4_44-157; PS122/4_44-215; PS122/4_44-216; PS122/4_44-47; PS122/4_46-32; PS122/4_46-50; PS122/4_47-23; PS122/4_48-142; PS122/4_48-143; PS122/4_48-144; PS122/4_48-145; PS122/4_48-146; PS122/5; PS122/5_59-204; PS122/5_59-313; PS122/5_60-2; PS122/5_60-91; PS122/5_61-25; PS122/5_62-124; PS122/5_62-44; Sample code/label; Sample ID; Sample type; snow; SNOWPIT; Snow pit; Snow sampler metal; SSM; Station label; δ18O, water; δ Deuterium, water
    Type: Dataset
    Format: text/tab-separated-values, 2717 data points
    Location Call Number Limitation Availability
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  • 6
    facet.materialart.
    Unknown
    Snowpit temperature profiles measured during the MOSAiC expedition (2022)
    PANGAEA
    Details
    Publication Date: 2024-06-12
    Description: The snow temperature was measured using a waterproof thermometer with a needle probe. A ruler was used to determine the measuring height. 0 cm indicates the snow-ice interface. The measurements included the surface and the snow-ice interface temperature. Additional temperature measurements were taken at 5 cm intervals. Please direct inquiries to; David Wagner (PS122/1), Martin Schneebeli (PS122/2), Amy Macfarlane (PS122/3 and PS122/4), Ruzica Dadic (PS122/5).
    Keywords: air temperature; Arctic Ocean; Arctic Research Icebreaker Consortium: A strategy for meeting the needs for marine-based research in the Arctic; ARICE; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; Polarstern; PS122/1; PS122/1_10-11; PS122/1_10-18; PS122/1_10-5; PS122/1_10-70; PS122/1_10-71; PS122/1_10-72; PS122/1_11-23; PS122/1_4-10; PS122/1_5-28; PS122/1_5-35; PS122/1_5-5; PS122/1_6-146; PS122/1_6-147; PS122/1_6-30; PS122/1_6-5; PS122/1_6-6; PS122/1_7-12; PS122/1_7-5; PS122/1_7-8; PS122/1_7-87; PS122/1_7-88; PS122/1_8-1; PS122/1_8-68; PS122/1_8-78; PS122/1_8-79; PS122/1_9-117; PS122/1_9-23; PS122/1_9-25; PS122/1_9-3; PS122/2; PS122/2_16-62; PS122/2_17-109; PS122/2_17-16; PS122/2_17-43; PS122/2_17-44; PS122/2_17-45; PS122/2_17-46; PS122/2_17-47; PS122/2_17-49; PS122/2_17-89; PS122/2_17-90; PS122/2_17-91; PS122/2_18-17; PS122/2_18-52; PS122/2_18-53; PS122/2_18-66; PS122/2_18-76; PS122/2_18-8; PS122/2_19-129; PS122/2_19-132; PS122/2_19-134; PS122/2_19-137; PS122/2_19-142; PS122/2_19-144; PS122/2_19-146; PS122/2_19-28; PS122/2_19-35; PS122/2_19-41; PS122/2_19-75; PS122/2_19-9; PS122/2_19-92; PS122/2_20-107; PS122/2_20-108; PS122/2_20-140; PS122/2_20-142; PS122/2_20-143; PS122/2_20-145; PS122/2_20-35; PS122/2_20-36; PS122/2_20-4; PS122/2_20-70; PS122/2_20-80; PS122/2_20-83; PS122/2_21-14; PS122/2_21-15; PS122/2_21-52; PS122/2_21-53; PS122/2_21-84; PS122/2_21-96; PS122/2_22-5; PS122/2_22-6; PS122/2_22-61; PS122/2_22-66; PS122/2_22-67; PS122/2_22-68; PS122/2_22-69; PS122/2_22-73; PS122/2_23-2; PS122/2_23-34; PS122/2_23-53; PS122/2_23-73; PS122/2_23-74; PS122/2_23-75; PS122/2_23-76; PS122/2_23-77; PS122/2_23-79; PS122/2_23-9; PS122/2_24-112; PS122/2_24-113; PS122/2_24-14; PS122/2_24-15; PS122/2_24-35; PS122/2_24-81; PS122/2_24-86; PS122/2_25-22; PS122/2_25-23; PS122/2_25-59; PS122/2_25-60; PS122/2_25-61; PS122/2_25-62; PS122/2_25-63; PS122/2_25-80; PS122/2_25-81; PS122/3; PS122/3_29-28; PS122/3_29-29; PS122/3_29-43; PS122/3_29-9; PS122/3_30-17; PS122/3_30-25; PS122/3_30-61; PS122/3_31-55; PS122/3_31-79; PS122/3_32-22; PS122/3_32-59; PS122/3_32-61; PS122/3_32-88; PS122/3_32-92; PS122/3_33-102; PS122/3_33-112; PS122/3_33-41; PS122/3_33-42; PS122/3_33-65; PS122/3_33-66; PS122/3_34-34; PS122/3_34-45; PS122/3_34-60; PS122/3_35-111; PS122/3_35-121; PS122/3_35-23; PS122/3_35-53; PS122/3_35-56; PS122/3_36-102; PS122/3_36-103; PS122/3_36-106; PS122/3_36-107; PS122/3_36-137; PS122/3_36-138; PS122/3_36-35; PS122/3_36-99; PS122/3_37-129; PS122/3_37-132; PS122/3_37-21; PS122/3_37-22; PS122/3_37-39; PS122/3_37-41; PS122/3_37-57; PS122/3_37-58; PS122/3_37-68; PS122/3_38-1; PS122/3_38-141; PS122/3_38-152; PS122/3_38-4; PS122/3_38-51; PS122/3_38-93; PS122/3_38-94; PS122/3_38-95; PS122/3_39-45; PS122/3_39-46; PS122/3_39-47; PS122/3_39-48; PS122/3_39-87; PS122/3_39-88; PS122/3_39-91; PS122/3_39-92; PS122/4; PS122/4_44-156; PS122/4_44-157; PS122/4_44-215; PS122/4_44-216; PS122/4_44-249; PS122/4_44-45; PS122/4_44-47; PS122/4_45-16; PS122/4_45-176; PS122/4_45-177; PS122/4_45-179; PS122/4_45-18; PS122/4_45-180; PS122/4_45-181; PS122/4_45-182; PS122/4_45-63; PS122/4_45-8; PS122/4_45-87; PS122/4_46-105; PS122/4_46-107; PS122/4_46-110; PS122/4_46-135; PS122/4_46-187; PS122/4_46-188; PS122/4_46-190; PS122/4_46-191; PS122/4_46-192; PS122/4_46-29; PS122/4_46-31; PS122/4_46-32; PS122/4_47-178; PS122/4_47-179; PS122/4_47-22; PS122/4_47-23; PS122/4_47-66; PS122/4_47-97; PS122/4_48-142; PS122/4_48-146; PS122/4_48-177; PS122/4_48-186; PS122/4_48-187; PS122/4_48-188; PS122/4_48-189; PS122/4_48-190; PS122/4_48-191; PS122/4_48-196; PS122/4_48-40; PS122/4_48-41; PS122/4_48-45; PS122/4_49-19; PS122/4_49-20; PS122/4_49-47; PS122/4_49-8; PS122/4_99-56; PS122/4_99-57; PS122/4_99-58; PS122/4_99-59; PS122/4_99-60; PS122/4_99-61; PS122/4_99-62; PS122/4_99-63; PS122/4_99-65; PS122/4_99-66; PS122/4_99-67; PS122/4_99-68; PS122/4_99-69; PS122/4_99-70; PS122/4_99-71; PS122/4_99-72; PS122/4_99-73; PS122/5; PS122/5_59-204; PS122/5_59-206; PS122/5_59-222; PS122/5_59-235; PS122/5_59-250; PS122/5_59-267; PS122/5_59-292; PS122/5_59-303; PS122/5_59-313; PS122/5_59-350; PS122/5_59-352; PS122/5_60-128; PS122/5_60-142; PS122/5_60-168; PS122/5_60-2; PS122/5_60-24; PS122/5_60-26; PS122/5_60-43; PS122/5_60-74; PS122/5_60-75; PS122/5_60-77; PS122/5_60-78; PS122/5_60-91; PS122/5_61-104; PS122/5_61-132; PS122/5_61-139; PS122/5_61-162; PS122/5_61-167; PS122/5_61-198; PS122/5_61-2; PS122/5_61-231; PS122/5_61-232; PS122/5_61-233; PS122/5_61-234; PS122/5_61-236; PS122/5_61-25; PS122/5_61-28; PS122/5_61-4; PS122/5_61-97; PS122/5_62-10; PS122/5_62-101; PS122/5_62-119; PS122/5_62-123; PS122/5_62-124; PS122/5_62-126; PS122/5_62-139; PS122/5_62-140; PS122/5_62-146; PS122/5_62-163; PS122/5_62-25; PS122/5_62-27; PS122/5_62-39; PS122/5_62-44; PS122/5_62-69; PS122/5_62-89; PS122/5_62-99; PS122/5_63-262; PS122/5_63-96; PS122/5_63-97; PS122/5_63-99; snow height; SNOWPIT; Snow pit
    Type: Dataset
    Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, 126.6 kBytes
    Location Call Number Limitation Availability
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  • 7
    facet.materialart.
    Unknown
    Snowpit surface type observed during the MOSAiC expedition (2022)
    PANGAEA
    Details
    Publication Date: 2024-06-12
    Description: For the majority of snowpits the snow surface type was recorded by the observer. The documented surface types include; new snow, rime, surface hoar, glazed, drifted snow, wet, visible dust, frost flowers, surface crust, surface scattering layer, jewel snow, frozen. Please direct inquiries to; David Wagner (PS122/1), Martin Schneebeli (PS122/2), Amy Macfarlane (PS122/3 and PS122/4), Ruzica Dadic (PS122/5).
    Keywords: Arctic Ocean; Arctic Research Icebreaker Consortium: A strategy for meeting the needs for marine-based research in the Arctic; ARICE; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; Polarstern; PS122/2; PS122/2_19-128; PS122/2_19-129; PS122/2_19-131; PS122/2_19-132; PS122/2_19-133; PS122/2_19-134; PS122/2_19-135; PS122/2_19-137; PS122/2_19-142; PS122/2_19-144; PS122/2_19-75; PS122/2_19-92; PS122/2_20-4; PS122/2_20-80; PS122/2_20-83; PS122/2_22-43; PS122/2_22-61; PS122/2_22-66; PS122/2_22-67; PS122/2_22-68; PS122/2_22-69; PS122/2_23-105; PS122/2_23-2; PS122/2_23-34; PS122/2_23-53; PS122/2_23-75; PS122/2_23-76; PS122/2_23-77; PS122/2_23-9; PS122/2_24-112; PS122/2_24-113; PS122/2_24-35; PS122/2_25-59; PS122/2_25-60; PS122/2_25-61; PS122/2_25-62; PS122/2_25-63; PS122/2_25-80; PS122/2_25-81; PS122/3; PS122/3_29-43; PS122/3_30-17; PS122/3_30-25; PS122/3_30-61; PS122/3_31-55; PS122/3_31-79; PS122/3_32-22; PS122/3_32-41; PS122/3_32-59; PS122/3_32-61; PS122/3_32-88; PS122/3_32-92; PS122/3_33-102; PS122/3_33-112; PS122/3_33-41; PS122/3_33-42; PS122/3_33-65; PS122/3_33-66; PS122/3_34-34; PS122/3_35-121; PS122/3_35-23; PS122/3_35-53; PS122/3_36-102; PS122/3_36-106; PS122/3_36-107; PS122/3_36-137; PS122/3_36-14; PS122/3_36-35; PS122/3_36-99; PS122/3_37-129; PS122/3_37-21; PS122/3_37-22; PS122/3_37-39; PS122/3_37-40; PS122/3_37-41; PS122/3_37-56; PS122/3_37-58; PS122/3_37-68; PS122/3_38-1; PS122/3_38-141; PS122/3_38-152; PS122/3_38-4; PS122/3_38-51; PS122/3_38-93; PS122/3_38-94; PS122/3_38-95; PS122/3_39-46; PS122/3_39-48; PS122/3_39-87; PS122/3_39-88; PS122/3_39-91; PS122/3_39-92; PS122/4; PS122/4_44-156; PS122/4_44-157; PS122/4_44-215; PS122/4_44-216; PS122/4_44-45; PS122/4_44-46; PS122/4_44-47; PS122/4_45-16; PS122/4_45-18; PS122/4_45-46; PS122/4_45-63; PS122/4_45-8; PS122/4_45-87; PS122/4_46-105; PS122/4_46-106; PS122/4_46-107; PS122/4_46-108; PS122/4_46-109; PS122/4_46-110; PS122/4_46-111; PS122/4_46-135; PS122/4_46-30; PS122/4_46-31; PS122/4_46-32; PS122/4_47-22; PS122/4_47-23; PS122/4_47-66; PS122/4_48-146; PS122/4_48-177; PS122/4_48-40; PS122/4_48-41; PS122/4_48-45; PS122/4_48-85; PS122/4_49-47; PS122/4_49-7; PS122/4_49-8; PS122/5; PS122/5_59-204; PS122/5_59-206; PS122/5_59-222; PS122/5_59-235; PS122/5_59-250; PS122/5_59-267; PS122/5_59-292; PS122/5_59-303; PS122/5_59-313; PS122/5_59-350; PS122/5_59-352; PS122/5_60-128; PS122/5_60-142; PS122/5_60-168; PS122/5_60-2; PS122/5_60-24; PS122/5_60-26; PS122/5_60-43; PS122/5_60-74; PS122/5_60-75; PS122/5_60-77; PS122/5_60-78; PS122/5_60-91; PS122/5_61-104; PS122/5_61-132; PS122/5_61-139; PS122/5_61-162; PS122/5_61-167; PS122/5_61-198; PS122/5_61-2; PS122/5_61-231; PS122/5_61-232; PS122/5_61-233; PS122/5_61-234; PS122/5_61-235; PS122/5_61-236; PS122/5_61-25; PS122/5_61-28; PS122/5_61-4; PS122/5_61-97; PS122/5_62-10; PS122/5_62-101; PS122/5_62-119; PS122/5_62-123; PS122/5_62-124; PS122/5_62-126; PS122/5_62-139; PS122/5_62-140; PS122/5_62-146; PS122/5_62-163; PS122/5_62-25; PS122/5_62-27; PS122/5_62-39; PS122/5_62-44; PS122/5_62-69; PS122/5_62-89; PS122/5_62-99; PS122/5_63-262; PS122/5_63-96; PS122/5_63-97; PS122/5_63-99; SNOWPIT; Snow pit; snow surface
    Type: Dataset
    Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, 31.4 kBytes
    Location Call Number Limitation Availability
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  • 8
    facet.materialart.
    Unknown
    Snowpit snow density cutter profiles measured during the MOSAiC expedition (2022)
    PANGAEA
    Details
    Publication Date: 2024-06-12
    Description: A density cutter of fixed volume (100 cm3) and known weight was used to measure the density profile of snow/SSL in 3 cm intervals. The height of the sampled volume was recorded with a ruler. 0 cm is the snow-ice interface. The combined weight of the density cutter and the snow inside it was measured with digital scales. The resulting density is the weight of snow/volume. The snow from the density cutter was collected in plastic containers and used for subsequent salinity and stable water isotope measurements. Please direct inquiries to; David Wagner (PS122/1), Martin Schneebeli (PS122/2), Amy Macfarlane (PS122/3 and PS122/4), Ruzica Dadic (PS122/5).
    Keywords: Arctic Ocean; Arctic Research Icebreaker Consortium: A strategy for meeting the needs for marine-based research in the Arctic; ARICE; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; Polarstern; PS122/1; PS122/1_10-11; PS122/1_10-18; PS122/1_10-5; PS122/1_10-70; PS122/1_10-71; PS122/1_10-72; PS122/1_4-10; PS122/1_5-35; PS122/1_5-5; PS122/1_6-146; PS122/1_6-30; PS122/1_6-5; PS122/1_7-12; PS122/1_7-87; PS122/1_7-88; PS122/1_8-1; PS122/1_8-78; PS122/1_8-79; PS122/1_9-117; PS122/2; PS122/2_16-62; PS122/2_17-109; PS122/2_17-16; PS122/2_18-17; PS122/2_18-66; PS122/2_18-8; PS122/2_19-144; PS122/2_19-28; PS122/2_19-9; PS122/2_19-92; PS122/2_20-4; PS122/2_20-80; PS122/2_20-83; PS122/2_21-14; PS122/2_21-15; PS122/2_21-96; PS122/2_22-5; PS122/2_22-6; PS122/2_22-73; PS122/2_23-2; PS122/2_23-34; PS122/2_23-73; PS122/2_23-74; PS122/2_23-9; PS122/2_24-14; PS122/2_24-15; PS122/2_24-35; PS122/2_24-86; PS122/2_25-22; PS122/2_25-23; PS122/2_25-80; PS122/2_25-81; PS122/3; PS122/3_29-28; PS122/3_29-29; PS122/3_29-43; PS122/3_29-9; PS122/3_30-17; PS122/3_30-25; PS122/3_31-55; PS122/3_31-79; PS122/3_32-61; PS122/3_32-88; PS122/3_32-92; PS122/3_33-41; PS122/3_34-34; PS122/3_34-45; PS122/3_35-121; PS122/3_35-23; PS122/3_35-53; PS122/3_35-56; PS122/3_36-106; PS122/3_36-107; PS122/3_36-138; PS122/3_36-14; PS122/3_36-35; PS122/3_36-99; PS122/3_37-129; PS122/3_37-132; PS122/3_37-41; PS122/3_37-57; PS122/3_37-58; PS122/3_38-1; PS122/3_38-141; PS122/3_38-4; PS122/3_38-51; PS122/3_38-52; PS122/3_39-46; PS122/3_39-48; PS122/3_39-88; PS122/3_39-92; PS122/4; PS122/4_44-156; PS122/4_44-157; PS122/4_44-215; PS122/4_44-216; PS122/4_45-16; PS122/4_45-179; PS122/4_45-18; PS122/4_45-180; PS122/4_45-181; PS122/4_45-182; PS122/4_45-63; PS122/4_45-8; PS122/4_45-87; PS122/4_46-107; PS122/4_46-187; PS122/4_46-188; PS122/4_46-190; PS122/4_46-191; PS122/4_46-192; PS122/4_46-29; PS122/4_46-31; PS122/4_46-32; PS122/4_47-178; PS122/4_47-179; PS122/4_47-22; PS122/4_47-66; PS122/4_47-97; PS122/4_48-142; PS122/4_48-143; PS122/4_48-144; PS122/4_48-145; PS122/4_48-146; PS122/4_48-177; PS122/4_48-186; PS122/4_48-187; PS122/4_48-188; PS122/4_48-189; PS122/4_48-190; PS122/4_48-191; PS122/4_48-196; PS122/4_48-40; PS122/4_48-41; PS122/4_48-45; PS122/4_49-19; PS122/4_49-20; PS122/4_49-47; PS122/4_49-8; PS122/4_99-56; PS122/4_99-57; PS122/4_99-58; PS122/4_99-59; PS122/4_99-60; PS122/4_99-61; PS122/4_99-62; PS122/4_99-63; PS122/4_99-65; PS122/4_99-66; PS122/4_99-67; PS122/4_99-68; PS122/4_99-69; PS122/4_99-70; PS122/4_99-71; PS122/4_99-72; PS122/4_99-73; PS122/5; PS122/5_59-204; PS122/5_59-206; PS122/5_59-222; PS122/5_59-235; PS122/5_59-250; PS122/5_59-267; PS122/5_59-292; PS122/5_59-303; PS122/5_59-313; PS122/5_59-350; PS122/5_59-352; PS122/5_60-128; PS122/5_60-2; PS122/5_60-24; PS122/5_60-26; PS122/5_60-74; PS122/5_60-75; PS122/5_60-78; PS122/5_60-91; PS122/5_61-104; PS122/5_61-132; PS122/5_61-139; PS122/5_61-162; PS122/5_61-167; PS122/5_61-198; PS122/5_61-2; PS122/5_61-231; PS122/5_61-232; PS122/5_61-233; PS122/5_61-234; PS122/5_61-235; PS122/5_61-236; PS122/5_61-25; PS122/5_61-28; PS122/5_61-4; PS122/5_61-97; PS122/5_62-10; PS122/5_62-101; PS122/5_62-119; PS122/5_62-123; PS122/5_62-124; PS122/5_62-126; PS122/5_62-139; PS122/5_62-140; PS122/5_62-146; PS122/5_62-25; PS122/5_62-27; PS122/5_62-39; PS122/5_62-44; PS122/5_62-69; PS122/5_62-89; PS122/5_62-99; PS122/5_63-262; PS122/5_63-96; PS122/5_63-97; PS122/5_63-99; SNOWPIT; Snow pit
    Type: Dataset
    Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, 68 kBytes
    Location Call Number Limitation Availability
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  • 9
    facet.materialart.
    Unknown
    Snowpit height measurements during the MOSAiC expedition (2022)
    PANGAEA
    Details
    Publication Date: 2024-06-12
    Description: We used a regular foldable wooden ruler to measure the height of the snow and the SSL. The ruler was also used for height readings for all other measurements. 0 cm is the snow-ice interface. If multiple snow height measurements were taken for one snowpit event, details can be found in the comments section, which give a range of the depth values within the 1 m wide snowpit. Please direct inquiries to; David Wagner (PS122/1), Martin Schneebeli (PS122/2), Amy Macfarlane (PS122/3 and PS122/4), Ruzica Dadic (PS122/5).
    Keywords: Arctic Ocean; Arctic Research Icebreaker Consortium: A strategy for meeting the needs for marine-based research in the Arctic; ARICE; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; Polarstern; PS122/2; PS122/2_16-9; PS122/2_17-109; PS122/2_17-16; PS122/2_17-49; PS122/2_17-89; PS122/2_17-90; PS122/2_18-17; PS122/2_18-52; PS122/2_18-53; PS122/2_18-54; PS122/2_18-55; PS122/2_18-56; PS122/2_18-66; PS122/2_18-76; PS122/2_18-8; PS122/2_19-129; PS122/2_19-132; PS122/2_19-134; PS122/2_19-137; PS122/2_19-141; PS122/2_19-142; PS122/2_19-144; PS122/2_19-146; PS122/2_19-28; PS122/2_19-41; PS122/2_19-75; PS122/2_19-9; PS122/2_19-92; PS122/2_20-107; PS122/2_20-108; PS122/2_20-140; PS122/2_20-142; PS122/2_20-143; PS122/2_20-145; PS122/2_20-35; PS122/2_20-36; PS122/2_20-4; PS122/2_20-70; PS122/2_20-80; PS122/2_20-83; PS122/2_21-14; PS122/2_21-15; PS122/2_21-52; PS122/2_21-53; PS122/2_21-84; PS122/2_21-96; PS122/2_22-46; PS122/2_22-5; PS122/2_22-6; PS122/2_22-61; PS122/2_22-73; PS122/2_23-105; PS122/2_23-2; PS122/2_23-34; PS122/2_23-53; PS122/2_23-73; PS122/2_23-74; PS122/2_23-75; PS122/2_23-76; PS122/2_23-77; PS122/2_23-79; PS122/2_23-9; PS122/2_24-112; PS122/2_24-113; PS122/2_24-14; PS122/2_24-15; PS122/2_24-16; PS122/2_24-35; PS122/2_24-81; PS122/2_24-86; PS122/2_25-22; PS122/2_25-23; PS122/2_25-59; PS122/2_25-60; PS122/2_25-61; PS122/2_25-62; PS122/2_25-63; PS122/2_25-80; PS122/2_25-81; PS122/3; PS122/3_29-28; PS122/3_29-29; PS122/3_29-43; PS122/3_29-9; PS122/3_30-17; PS122/3_30-25; PS122/3_30-61; PS122/3_31-55; PS122/3_31-79; PS122/3_32-59; PS122/3_32-61; PS122/3_32-88; PS122/3_32-92; PS122/3_33-102; PS122/3_33-41; PS122/3_33-42; PS122/3_33-65; PS122/3_34-34; PS122/3_34-45; PS122/3_34-60; PS122/3_34-91; PS122/3_35-111; PS122/3_35-121; PS122/3_35-23; PS122/3_35-53; PS122/3_35-56; PS122/3_36-102; PS122/3_36-103; PS122/3_36-106; PS122/3_36-107; PS122/3_36-137; PS122/3_36-138; PS122/3_36-14; PS122/3_36-35; PS122/3_36-99; PS122/3_37-129; PS122/3_37-132; PS122/3_37-22; PS122/3_37-39; PS122/3_37-41; PS122/3_37-57; PS122/3_37-58; PS122/3_37-68; PS122/3_38-1; PS122/3_38-141; PS122/3_38-152; PS122/3_38-4; PS122/3_38-51; PS122/3_38-93; PS122/3_38-94; PS122/3_39-46; PS122/3_39-48; PS122/3_39-87; PS122/3_39-88; PS122/3_39-91; PS122/3_39-92; PS122/4; PS122/4_44-156; PS122/4_44-157; PS122/4_44-215; PS122/4_44-216; PS122/4_44-45; PS122/4_44-47; PS122/4_45-16; PS122/4_45-18; PS122/4_45-63; PS122/4_45-8; PS122/4_45-87; PS122/4_46-105; PS122/4_46-107; PS122/4_46-110; PS122/4_46-135; PS122/4_46-29; PS122/4_46-31; PS122/4_46-32; PS122/4_47-22; PS122/4_47-23; PS122/4_47-66; PS122/4_48-100; PS122/4_48-142; PS122/4_48-143; PS122/4_48-144; PS122/4_48-145; PS122/4_48-146; PS122/4_48-177; PS122/4_48-40; PS122/4_48-41; PS122/4_48-42; PS122/4_48-45; PS122/4_48-47; PS122/4_48-58; PS122/4_48-83; PS122/4_49-47; PS122/4_49-7; PS122/4_49-8; PS122/5; PS122/5_59-204; PS122/5_59-206; PS122/5_59-222; PS122/5_59-235; PS122/5_59-250; PS122/5_59-267; PS122/5_59-292; PS122/5_59-303; PS122/5_59-313; PS122/5_59-350; PS122/5_59-352; PS122/5_60-128; PS122/5_60-142; PS122/5_60-168; PS122/5_60-2; PS122/5_60-24; PS122/5_60-26; PS122/5_60-43; PS122/5_60-74; PS122/5_60-75; PS122/5_60-77; PS122/5_60-78; PS122/5_60-91; PS122/5_61-104; PS122/5_61-132; PS122/5_61-139; PS122/5_61-162; PS122/5_61-167; PS122/5_61-198; PS122/5_61-2; PS122/5_61-231; PS122/5_61-232; PS122/5_61-233; PS122/5_61-234; PS122/5_61-235; PS122/5_61-236; PS122/5_61-25; PS122/5_61-28; PS122/5_61-4; PS122/5_61-97; PS122/5_62-10; PS122/5_62-101; PS122/5_62-119; PS122/5_62-123; PS122/5_62-124; PS122/5_62-126; PS122/5_62-139; PS122/5_62-140; PS122/5_62-146; PS122/5_62-25; PS122/5_62-27; PS122/5_62-39; PS122/5_62-44; PS122/5_62-69; PS122/5_62-89; PS122/5_62-99; PS122/5_63-262; PS122/5_63-96; PS122/5_63-97; PS122/5_63-99; snow depth; SNOWPIT; Snow pit
    Type: Dataset
    Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, 33.3 kBytes
    Location Call Number Limitation Availability
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  • 10
    facet.materialart.
    Unknown
    Snowpit snow water equivalent collected with an ETH tube during the MOSAiC expedition (2022)
    PANGAEA
    Details
    Publication Date: 2024-06-12
    Description: SWE is the amount of water contained within the snowpack. To determine SWE, the snow depth and density are required. Snow depth (HS) is related to SWE by the local bulk density of snow (ρb): SWE = HS ρb / ρw, where HS is measured in mm, ρb in kg m−3, ρw is the density of water (1000 kg m−3), and SWE is measured in mm of water equivalent. At each snowpit, the ETH-SWE tube, was inserted into the snow vertically and then sealed at the bottom. The weight of the snow inside the cylindrical tube was then measured with a spring scale. If the snow cover is deeper than 0.45 m (height of the tube), then the SWE must be measured in several steps, using a ruler to note the snow height that the sample was taken from. The total water equivalent of the snow cover must be calculated as the sum of the vertically aligned samples. This dataset records the individual sample measurements, explaining why there may be multiple data entries for one snowpit event. We also measured the height of snow in each measurement, so we can back-calculate the snow density using an independent method. Please direct inquiries to; David Wagner (PS122/1), Martin Schneebeli (PS122/2), Amy Macfarlane (PS122/3 and PS122/4), Ruzica Dadic (PS122/5).
    Keywords: Arctic Ocean; Arctic Research Icebreaker Consortium: A strategy for meeting the needs for marine-based research in the Arctic; ARICE; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; Polarstern; PS122/1; PS122/1_10-11; PS122/1_10-18; PS122/1_10-5; PS122/1_10-50; PS122/1_10-58; PS122/1_10-70; PS122/1_10-71; PS122/1_10-72; PS122/1_11-23; PS122/1_4-10; PS122/1_5-28; PS122/1_5-35; PS122/1_5-5; PS122/1_6-146; PS122/1_6-147; PS122/1_6-30; PS122/1_6-5; PS122/1_6-6; PS122/1_6-75; PS122/1_7-129; PS122/1_7-32; PS122/1_7-33; PS122/1_7-34; PS122/1_7-35; PS122/1_7-36; PS122/1_7-37; PS122/1_7-38; PS122/1_7-5; PS122/1_7-68; PS122/1_7-69; PS122/1_7-70; PS122/1_7-71; PS122/1_7-72; PS122/1_7-73; PS122/1_7-8; PS122/1_7-87; PS122/1_7-88; PS122/1_8-27; PS122/1_8-29; PS122/1_8-30; PS122/1_8-31; PS122/1_8-32; PS122/1_8-68; PS122/1_8-69; PS122/1_8-70; PS122/1_8-78; PS122/1_8-79; PS122/1_9-117; PS122/1_9-23; PS122/1_9-25; PS122/1_9-3; PS122/1_9-71; PS122/1_9-72; PS122/1_9-73; PS122/1_9-74; PS122/2; PS122/2_16-24; PS122/2_16-44; PS122/2_16-45; PS122/2_16-46; PS122/2_16-62; PS122/2_17-109; PS122/2_17-16; PS122/2_17-43; PS122/2_17-44; PS122/2_17-45; PS122/2_17-46; PS122/2_17-47; PS122/2_17-49; PS122/2_18-17; PS122/2_18-52; PS122/2_18-53; PS122/2_18-54; PS122/2_18-55; PS122/2_18-56; PS122/2_18-66; PS122/2_18-8; PS122/2_19-129; PS122/2_19-132; PS122/2_19-134; PS122/2_19-137; PS122/2_19-142; PS122/2_19-144; PS122/2_19-146; PS122/2_19-28; PS122/2_19-75; PS122/2_19-9; PS122/2_19-92; PS122/2_20-140; PS122/2_20-142; PS122/2_20-143; PS122/2_20-145; PS122/2_20-36; PS122/2_20-4; PS122/2_20-70; PS122/2_20-80; PS122/2_20-83; PS122/2_21-14; PS122/2_21-15; PS122/2_21-52; PS122/2_21-53; PS122/2_21-84; PS122/2_21-96; PS122/2_22-5; PS122/2_22-6; PS122/2_22-61; PS122/2_22-66; PS122/2_22-67; PS122/2_22-68; PS122/2_22-69; PS122/2_22-73; PS122/2_23-105; PS122/2_23-2; PS122/2_23-34; PS122/2_23-73; PS122/2_23-74; PS122/2_23-75; PS122/2_23-76; PS122/2_23-77; PS122/2_23-79; PS122/2_23-9; PS122/2_24-112; PS122/2_24-113; PS122/2_24-14; PS122/2_24-15; PS122/2_24-35; PS122/2_24-81; PS122/2_24-86; PS122/2_25-22; PS122/2_25-23; PS122/2_25-59; PS122/2_25-60; PS122/2_25-61; PS122/2_25-62; PS122/2_25-63; PS122/2_25-80; PS122/2_25-81; PS122/3; PS122/3_29-28; PS122/3_29-29; PS122/3_29-43; PS122/3_29-9; PS122/3_30-17; PS122/3_30-25; PS122/3_30-61; PS122/3_31-55; PS122/3_31-79; PS122/3_32-59; PS122/3_32-61; PS122/3_32-88; PS122/3_32-92; PS122/3_33-102; PS122/3_33-41; PS122/3_33-65; PS122/3_34-45; PS122/3_34-60; PS122/3_35-121; PS122/3_35-23; PS122/3_35-53; PS122/3_35-56; PS122/3_36-102; PS122/3_36-103; PS122/3_36-106; PS122/3_36-107; PS122/3_36-137; PS122/3_36-138; PS122/3_36-14; PS122/3_36-35; PS122/3_36-99; PS122/3_37-129; PS122/3_37-132; PS122/3_37-22; PS122/3_37-39; PS122/3_37-41; PS122/3_37-57; PS122/3_37-58; PS122/3_38-1; PS122/3_38-141; PS122/3_38-152; PS122/3_38-4; PS122/3_38-51; PS122/3_38-93; PS122/3_38-94; PS122/3_38-95; PS122/3_39-45; PS122/3_39-46; PS122/3_39-47; PS122/3_39-48; PS122/3_39-87; PS122/3_39-88; PS122/3_39-91; PS122/3_39-92; PS122/4; PS122/4_44-156; PS122/4_44-157; PS122/4_44-215; PS122/4_44-216; PS122/4_44-45; PS122/4_45-16; PS122/4_45-18; PS122/4_45-63; PS122/4_45-87; PS122/4_46-105; PS122/4_46-107; PS122/4_46-110; PS122/4_46-135; PS122/4_46-29; PS122/4_46-31; PS122/4_46-32; PS122/4_47-22; PS122/4_47-23; PS122/4_47-66; PS122/4_47-97; PS122/4_48-142; PS122/4_48-143; PS122/4_48-144; PS122/4_48-145; PS122/4_48-146; PS122/4_48-177; PS122/4_48-40; PS122/4_48-41; PS122/4_48-45; PS122/4_49-47; PS122/4_49-8; PS122/5; PS122/5_59-222; PS122/5_59-235; PS122/5_59-250; PS122/5_59-267; PS122/5_59-292; PS122/5_59-303; PS122/5_59-313; PS122/5_59-350; PS122/5_59-352; PS122/5_60-128; PS122/5_60-142; PS122/5_60-2; PS122/5_60-24; PS122/5_60-26; PS122/5_60-77; PS122/5_60-78; PS122/5_60-91; PS122/5_61-104; PS122/5_61-132; PS122/5_61-139; PS122/5_61-162; PS122/5_61-167; PS122/5_61-198; PS122/5_61-2; PS122/5_61-236; PS122/5_61-25; PS122/5_61-28; PS122/5_61-4; PS122/5_61-97; PS122/5_62-10; PS122/5_62-101; PS122/5_62-119; PS122/5_62-123; PS122/5_62-124; PS122/5_62-126; PS122/5_62-140; PS122/5_62-25; PS122/5_62-27; PS122/5_62-39; PS122/5_62-44; PS122/5_62-69; PS122/5_62-89; PS122/5_62-99; PS122/5_63-262; PS122/5_63-96; PS122/5_63-97; PS122/5_63-99; SNOWPIT; Snow pit; SWE
    Type: Dataset
    Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, 29.9 kBytes
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