Estuaries beneath ice sheets

Huw J. Horgan; Richard B. Alley; Knut Christianson; Robert W. Jacobel; Sridhar Anandakrishnan; Atsuhiro Muto; Lucas H. Beem; Matthew R. Siegfried

doi:10.1130/G34654.1

Estuaries beneath ice sheets

Huw J. Horgan, Richard B. Alley, Knut Christianson, Robert W. Jacobel, Sridhar Anandakrishnan, Atsuhiro Muto, Lucas H. Beem, Matthew R. Siegfried

Geosciences

Research output: Contribution to journal › Article › peer-review

67 Scopus citations

Abstract

Interactions between subglacial hydrology and the ocean make the existence of estuaries at the grounding zones of ice sheets likely. Here we present geophysical observations of an estuary at the downstream end of the hydrologic system that links the active subglacial lakes beneath Whillans Ice Stream to the ocean beneath the Ross Ice Shelf, Antarctica. This subglacial estuary consists of a hydropotential low upstream of the grounding zone, which is linked to the ocean by a hydropotential trough and a large subglacial channel. This subglacial channel, which is imaged using active source seismic methods, has an apparent width of 1 km and a maximum depth of 7 m. The hydropotential trough continues upstream of the grounding zone and results from an along-flow depression in surface elevations. Pressure differences along the trough axis are within a range that can be overcome by tidally induced processes, making the interaction of subglacial and ocean water likely.

Original language	English (US)
Pages (from-to)	1159-1162
Number of pages	4
Journal	Geology
Volume	41
Issue number	11
DOIs	https://doi.org/10.1130/G34654.1
State	Published - Nov 2013

All Science Journal Classification (ASJC) codes

Geology

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10.1130/G34654.1

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title = "Estuaries beneath ice sheets",

abstract = "Interactions between subglacial hydrology and the ocean make the existence of estuaries at the grounding zones of ice sheets likely. Here we present geophysical observations of an estuary at the downstream end of the hydrologic system that links the active subglacial lakes beneath Whillans Ice Stream to the ocean beneath the Ross Ice Shelf, Antarctica. This subglacial estuary consists of a hydropotential low upstream of the grounding zone, which is linked to the ocean by a hydropotential trough and a large subglacial channel. This subglacial channel, which is imaged using active source seismic methods, has an apparent width of 1 km and a maximum depth of 7 m. The hydropotential trough continues upstream of the grounding zone and results from an along-flow depression in surface elevations. Pressure differences along the trough axis are within a range that can be overcome by tidally induced processes, making the interaction of subglacial and ocean water likely.",

author = "Horgan, {Huw J.} and Alley, {Richard B.} and Knut Christianson and Jacobel, {Robert W.} and Sridhar Anandakrishnan and Atsuhiro Muto and Beem, {Lucas H.} and Siegfried, {Matthew R.}",

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AU - Horgan, Huw J.

AU - Alley, Richard B.

AU - Christianson, Knut

AU - Jacobel, Robert W.

AU - Anandakrishnan, Sridhar

AU - Muto, Atsuhiro

AU - Beem, Lucas H.

AU - Siegfried, Matthew R.

PY - 2013/11

Y1 - 2013/11

N2 - Interactions between subglacial hydrology and the ocean make the existence of estuaries at the grounding zones of ice sheets likely. Here we present geophysical observations of an estuary at the downstream end of the hydrologic system that links the active subglacial lakes beneath Whillans Ice Stream to the ocean beneath the Ross Ice Shelf, Antarctica. This subglacial estuary consists of a hydropotential low upstream of the grounding zone, which is linked to the ocean by a hydropotential trough and a large subglacial channel. This subglacial channel, which is imaged using active source seismic methods, has an apparent width of 1 km and a maximum depth of 7 m. The hydropotential trough continues upstream of the grounding zone and results from an along-flow depression in surface elevations. Pressure differences along the trough axis are within a range that can be overcome by tidally induced processes, making the interaction of subglacial and ocean water likely.

AB - Interactions between subglacial hydrology and the ocean make the existence of estuaries at the grounding zones of ice sheets likely. Here we present geophysical observations of an estuary at the downstream end of the hydrologic system that links the active subglacial lakes beneath Whillans Ice Stream to the ocean beneath the Ross Ice Shelf, Antarctica. This subglacial estuary consists of a hydropotential low upstream of the grounding zone, which is linked to the ocean by a hydropotential trough and a large subglacial channel. This subglacial channel, which is imaged using active source seismic methods, has an apparent width of 1 km and a maximum depth of 7 m. The hydropotential trough continues upstream of the grounding zone and results from an along-flow depression in surface elevations. Pressure differences along the trough axis are within a range that can be overcome by tidally induced processes, making the interaction of subglacial and ocean water likely.

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JO - Geology

JF - Geology

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ER -

Estuaries beneath ice sheets

Abstract

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