Airborne sea ice parameters during aircraft flight P6_217_ICEBIRD_2019_1904051001, Version 2 ...

Airborne multi-instrument measurements of sea ice were made in April 2019 during the winter campaign of the AWI IceBird campaign series. The data consist of five surveys spanning sea-ice covered areas in the Lincoln Sea, Central Arctic Ocean, as well as the Beaufort Sea. For each flight, the geoloca...

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Bibliographic Details
Main Authors: Jutila, Arttu, Hendricks, Stefan, Ricker, Robert, von Albedyll, Luisa, Haas, Christian
Format: Dataset
Language:unknown
Published: PANGAEA 2024
Subjects:
Arctic Ocean
Cryosphere
Freeboard
Sea ice
Sea ice density
Sea ice thickness
snow depth
DATE/TIME
LATITUDE
LONGITUDE
Sea ice and snow thickness
Sea ice and snow thickness, uncertainty
Snow thickness
Snow thickness, uncertainty
Snow thickness, standard deviation
Snow thickness, minimum
Snow thickness, maximum
Number of observations
Snow freeboard
Snow freeboard, uncertainty
Snow freeboard, standard deviation
Snow freeboard, minimum
Snow freeboard, maximum
Surface temperature
Surface temperature, standard deviation
Surface temperature, minimum
Surface temperature, maximum
Sea ice freeboard
Density, ice
Density, ice, uncertainty
Sea ice, age
Ice type
Quality flag
Aircraft
Airborne electromagnetic EM induction sounding
Airborne ultrawideband radar
Calculated
Airborne Laserscanner ALS RIEGL VQ580
Infrared radiation pyrometer, Heitronics, KT19.85II
P6-217_ICEBIRD_2019
POLAR 6
Airborne surveys to collect measurements of sea ice thickness in the Arctic AWI_IceBird
Sea Ice Physics @ AWI AWI_SeaIce
Arctic
Beaufort Sea
Lincoln Sea
ice covered areas
Online Access:https://dx.doi.org/10.1594/pangaea.966059
https://doi.pangaea.de/10.1594/PANGAEA.966059
Description
Summary:Airborne multi-instrument measurements of sea ice were made in April 2019 during the winter campaign of the AWI IceBird campaign series. The data consist of five surveys spanning sea-ice covered areas in the Lincoln Sea, Central Arctic Ocean, as well as the Beaufort Sea. For each flight, the geolocated total (ice+snow) thickness data from an airborne electromagnetic (EM) induction sensor are provided with a point spacing of approximately 5-6 meters. Larger gaps in the trajectories arise from high-altitude calibrations of the EM sensor. The data are combined with collocated and simultaneous snow depth measurements from an airborne frequency-modulated continuous-wave ultrawideband radar, snow freeboard measurements from an airborne near-infrared laser scanner, and surface temperature measurements from an airborne infrared radiation pyrometer. Each value represents the average within the approximately 40 m diameter footprint of the EM sensor, thus representing a smoothed representation. These values are then ...

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