We present continuous estimates of snow and firn density, layer depth and accumulation from a multi-channel, multi-offset, ground-penetrating radar traverse. Our method uses the electromagnetic velocity, estimated from waveform travel-times measured at common-midpoints between sources and receivers. Previously, common-midpoint radar experiments on ice sheets have been limited to point observations. We completed radar velocity analysis in the upper ∼2 m to estimate the surface and average snow density of the Greenland Ice Sheet. We parameterized the Herron and Langway (1980) firn density and age model using the radar-derived snow density, radar-derived surface mass balance (2015–2017) and reanalysis-derived temperature data. We applied structure-oriented filtering to the radar image along constant age horizons and increased the depth at which horizons could be reliably interpreted.We reconstructed the historical instantaneous surface mass balance, which we averaged into annual and multidecadal products along a 78 km traverse for the period 1984–2017. We found good agreement between our physically constrained parameterization and a firn core collected from the dry snow accumulation zone, and gained insights into the spatial correlation of surface snow density.
Article
Reconstruction of Historical Surface Mass Balance, 1984–2017 from GreenTraACS Multi-Offset Ground-Penetrating Radar
Journal of Glaciology
Document Type
Article
Publication Date
4-1-2021
Disciplines
Abstract
Creative Commons License
Creative Commons Attribution 4.0 International
Citation Information
Meehan, Tate G.; Marshall, H.P.; Bradford, John H.; Hawley, Robert L.; Overly, Thomas B.; Lewis, Gabriel; . . . and McCarthy, Forrest. (2021). "Reconstruction of Historical Surface Mass Balance, 1984–2017 from GreenTraACS Multi-Offset Ground-Penetrating Radar". Journal of Glaciology, 67(262), 219-228. https://doi.org/10.1017/jog.2020.91
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