The Subglacial Lake That Wasn't There: Improved Interpretation From Seismic Data Reveals a Sediment Bedform at Isunnguata Sermia

Radio Echo Sounding (RES) surveys conducted in May 2010 and April 2011 revealed a 2 km 2 flat area with increased bed reflectivity at the base of Isunnguata Sermia at the western margin of the Greenland Ice Sheet. This flat reflector was located within a localized subglacial hydraulic potential (hyd...

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Bibliographic Details
Published in:Journal of geophysical research. Earth surface 2023-10, Vol.128 (10)
Main Authors: Hofstede, C., Wilhelms, F., Neckel, N., Fritzsche, D., Beyer, S., Hubbard, A., Pettersson, R., Eisen, O.
Format: Article
Language:English
Subjects:
Analysis
Bedforms
Climate change
Drainage
Drainage patterns
Drainage systems
Echo sounding
Echoes
Echosounding
Elongation
Glaciation
Global warming
Greenland ice sheet
ground based radar
Hydrologic processes
Ice
Ice accumulation
Ice sheets
Incidence angle
Jupiter
Lake ice
Lakes
Lenses
Meltwater
Ponding
potential
Radar
Radio echoes
Reflectance
Reflection
Sediment
Sedimentary structures
sedimentation
Sediments
Seismic data
Seismic surveys
seismics
Seismological data
Storage reservoirs
subglacial hydrology
Subglacial lakes
Substrates
Surveys
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Summary:Radio Echo Sounding (RES) surveys conducted in May 2010 and April 2011 revealed a 2 km 2 flat area with increased bed reflectivity at the base of Isunnguata Sermia at the western margin of the Greenland Ice Sheet. This flat reflector was located within a localized subglacial hydraulic potential (hydropotential) minimum, as part of a complex and elongated trough system. By analogy with comparable features in Antarctica, the initial interpretation of such a feature was a potential subglacial lake. In September 2013 a co‐located seismic survey revealed a 1,750 m by 540 and 37 m thick stratified lens‐shaped bedform at the base of a subglacial trough system. Amplitude Versus Angle (AVA) analysis yields a derived reflection coefficient R  = 0.09 ± 0.14 indicative of consolidated sediments possibly overlain by dilatant till. The bed and flank on the northern side of the trough consist of unconsolidated, possibly water‐bearing sediments with R  = −0.10 ± 0.08, whereas on the southern side it consists of more consolidated material. We interpret the trough as a key component of the wider subglacial drainage network, for which the sediments on its northern side act as a localized water‐storage reservoir. Given the observation of seasonally forming and rapidly draining supraglacial meltwater lakes in this area, we interpret the lens‐shaped bedform as deposited by episodically ponding meltwater within the subglacial trough system. Our results highlight the importance of transient subglacial hydrological and sedimentological processes such as drainage events for the interaction of ice sheets and their substrates, to understand ice dynamics in a warming climate. A ground based radar survey in West Greenland showed an unusually flat, highly reflective zone in an otherwise rough bed suggesting a possible subglacial lake beneath the ice. The highly reflective zone was part of a drainage system transporting meltwater under the ice sheet. We performed a detailed seismic survey across the area which, unlike radar signals, has the advantage of penetrating through the overlying ice into any rock, sediments and water below it. Analysis of our reflection data reveal that the flat area was in fact an elongated lens‐shaped bedform consisting of layered (stratified) sediments. However at a larger angle of incidence, analysis showed the bedform is possibly overlain by a thin layer of water‐bearing sediments likely saturated by ponding water. Our interpretation is that episodically dra
ISSN:2169-9003
2169-9011
2169-9011
DOI:10.1029/2022JF006850