Integrated borehole, radar, and seismic velocity analysis reveals dynamic spatial variations within a firn aquifer in southeast Greenland

Siobhan Killingbeck; N. C. Schmerr; L. N. Montgomery; A. D. Booth; P. W. Livermore; J. Guandique; Olivia L. Miller; S. Burdick; R. R. Forster; L. S. Koenig; Anatoly Legchenko; S. R. M. Ligtenberg; C. Miege; D. K. Solomon; L. J. West

doi:10.1029/2020GL089335

Integrated borehole, radar, and seismic velocity analysis reveals dynamic spatial variations within a firn aquifer in southeast Greenland

Geophysical Research Letters

By: Siobhan Killingbeck, N. C. Schmerr, L. N. Montgomery, A. D. Booth, P. W. Livermore, J. Guandique, Olivia L. Miller, S. Burdick, R. R. Forster, L. S. Koenig, Anatoly Legchenko, S. R. M. Ligtenberg, C. Miege, D. K. Solomon, and L. J. West

https://doi.org/10.1029/2020GL089335

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Abstract

Perennial water storage in firn aquifers has been observed within the lower percolation zone of the southeast Greenland ice sheet. Spatially distributed seismic and radar observations, made ~50 km upstream of the Helheim Glacier terminus, reveal spatial variations of seismic velocity within a firn aquifer. From 1.65 to 1.8 km elevation, shear‐wave velocity (Vs) is 1,290 ± 180 m/s in the unsaturated firn, decreasing below the water table (~15 m depth) to 1,130 ± 250 m/s. Below 1.65 km elevation, Vs in the saturated firn is 1,270 ± 220 m/s. The compressional‐to‐shear velocity ratio decreases in the downstream saturated zone, from 2.30 ± 0.54 to 2.01 ± 0.46, closer to its value for pure ice (2.00). Consistent with colocated firn cores, these results imply an increasing concentration of ice in the downstream sites, reducing the porosity and storage potential of the firn likely caused by episodic melt and freeze during the evolution of the aquifer.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Integrated borehole, radar, and seismic velocity analysis reveals dynamic spatial variations within a firn aquifer in southeast Greenland
Series title	Geophysical Research Letters
DOI	10.1029/2020GL089335
Volume	47
Issue	18
Year Published	2020
Language	English
Publisher	American Geophysical Union
Contributing office(s)	Utah Water Science Center
Description	e2020GL089335, 10 p.
Country	Greenland
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