A decade of change in the hydraulic connection between an Antarctic epishelf lake and the ocean

Observations of the water level in Beaver Lake, an epishelf lake in East Antarctica, show a regular tidal signal that is lagged and attenuated from the tides beneath the adjacent Amery Ice Shelf. The phase lag and amplitude attenuation can be created by a narrow inlet connection between Beaver Lake...

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Bibliographic Details
Published in:Journal of Glaciology
Main Authors: Galton-Fenzi, BK, Hunter, JR, Coleman, R, Young, ND
Format: Article in Journal/Newspaper
Language:English
Published: 2012
Subjects:
Online Access:https://eprints.utas.edu.au/16204/
https://eprints.utas.edu.au/16204/1/Coleman,_Richard_Jour_of_Glac_2012.pdf
Description
Summary:Observations of the water level in Beaver Lake, an epishelf lake in East Antarctica, show a regular tidal signal that is lagged and attenuated from the tides beneath the adjacent Amery Ice Shelf. The phase lag and amplitude attenuation can be created by a narrow inlet connection between Beaver Lake and the cavity beneath the Amery Ice Shelf. A forced linear damped oscillator is used to determine the inlet dimensions that are required to produce the observed phase lag and amplitude attenuation. The model shows that the observations are consistent with a tidal flow that is restricted by the drag created by flow in the narrow inlet. Analysis shows that the phase lag and amplitude attenuation of the tides in Beaver Lake has increased over the years 1991–2002, probably due to a thickening of the overlying ice shelf. The response is sensitive to subtle variations in the dimensions of the inlet.