Internal reflecting horizon 12 at Little Dome C, Antarctica

This dataset of radio-echo sounding internal reflecting horizons (IRH) which were traced across the radar surveys conducted in the 2019/20 Antarctic summer season at Little Come C, in the Dome C region of the East Antarctic Plateau. The data set is associated to publication: Chung, A., et al. (2023)...

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Bibliographic Details
Main Authors: Chung, Ailsa, Parrenin, Frédéric, Steinhage, Daniel, Mulvaney, Rob, Martín, Carlos, Cavitte, Marie G P, Lilien, David A, Helm, Veit, Taylor, Drew, Gogineni, Prasad, Ritz, Catherine, Frezzotti, Massimo, O'Neill, Charles, Miller, Heinrich, Dahl-Jensen, Dorthe, Eisen, Olaf
Format: Dataset
Language:English
Published: PANGAEA 2023
Subjects:
20201001
20201002
20201003
20201004
20201005
20201006
20201007
20201008
20201009
20201010
20201011
20201012
Antarctica
ANT-Land_2019_BE-OI
AWI Antarctic Land Expedition
BE-OI
Beyond EPICA - Oldest Ice
Calculated
Depth of internal reflection horizon
below ice surface
Distance
Dome C
Event label
Internal Reflection Horizon
LATITUDE
LDC-VHF
LDC-VHF_20201001
LDC-VHF_20201002
LDC-VHF_20201003
LDC-VHF_20201004
LDC-VHF_20201005
LDC-VHF_20201006
LDC-VHF_20201007
LDC-VHF_20201008
LDC-VHF_20201009
LDC-VHF_20201010
LDC-VHF_20201011
LDC-VHF_20201012
Line
Little Dome C - Very High Frequency multichannel coherent radar depth sounder
LONGITUDE
radio echo sounding
Two-way traveltime
Antarc*
Antarctic
EPICA
The Cryosphere
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.957495
https://doi.org/10.1594/PANGAEA.957495
Description
Summary:This dataset of radio-echo sounding internal reflecting horizons (IRH) which were traced across the radar surveys conducted in the 2019/20 Antarctic summer season at Little Come C, in the Dome C region of the East Antarctic Plateau. The data set is associated to publication: Chung, A., et al. (2023). The data were collected during a radar survey conducted in the Antarctic field seasons of 2019-20 using the Little Dome C - Very High Frequency (LDC-VHF) multichannel coherent radar depth sounder developed through a collaboration of The University of Alabama (UA), the University of Copenhagen (CPH) and the Alfred Wegener Institute (AWI). The survey covered Patches A and B of Little Dome C (Lilien et al., 2021), in order to select the exact drill site for the Beyond EPICA Oldest Ice drilling project. The datasets consists of 12 transects systematically covering Patches A and B with parallel lines, over an area of approximately 5×8 km^2. The dataset contains 19 IRHs, the basal unit horizon and the ice-bed interface which were manually traced by Ailsa Chung, using the seismic environment of the Echos software from Paradigm Geophysical. A single file for each IRH is provided in a text file, tab separated format with both depth and two-way travel time. The conversion to depth done using c = 0.1685 m/μs and firn correction of 10 m. The IRHs are provided at approximately 3.5 m spacial resolution.

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