Tides of the Ross Sea and Ross Ice Shelf cavity

LAURENCE PADMAN; SVETLANA EROFEEVA; IAN JOUGHIN

doi:10.1017/S0954102003001032

Abstract

Two new ocean tide models for the Ross Sea including the ocean cavity under the Ross Ice Shelf, are described. The optimum model for predicting ice shelf surface height variability is based on assimilation of gravimetry-derived tidal constituents from the Ross Ice Shelf. Synthetic aperture radar interferograms provide an independent test of model performance. The standard deviation of tide height variability is largest under the eastern ice shelf along the Shirase and Siple Coasts, where it can exceed 0.8 m. The maximum peak-to-peak tidal range in this region is ∼3 m. The best predictor for ocean tidal currents north of the ice front is a dynamics-based model that solves the depth-integrated shallow water equations with a linear representation of benthic friction rather than the more usual quadratic form. Tidal currents over the open Ross Sea are dominated by diurnal, topographically trapped vorticity waves. The strongest modelled currents exceed 1 m s−1 at spring tide in a narrow band along the upper continental slope in the north-western Ross Sea. Typical tidal currents in the central continental shelf area of the Ross Sea are 10–20 cm s−1. Under the ice shelf the typical currents are ∼5 cm s−1.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Goring, Derek G. and Pyne, Alex 2003. Observations of sea‐level variability in Ross Sea, Antarctica. New Zealand Journal of Marine and Freshwater Research, Vol. 37, Issue. 2, p. 241.

Bindschadler, Robert A. King, Matt A. Alley, Richard B. Anandakrishnan, Sridhar and Padman, Laurence 2003. Tidally Controlled Stick-Slip Discharge of a West Antarctic Ice. Science, Vol. 301, Issue. 5636, p. 1087.

Padman, Laurie King, Matt Goring, Derek Corr, Hugh and Coleman, Richard 2003. Ice-shelf elevation changes due to atmospheric pressure variations. Journal of Glaciology, Vol. 49, Issue. 167, p. 521.

Williams, G.D. and Bindoff, N.L. 2003. Wintertime oceanography of the Adélie Depression. Deep Sea Research Part II: Topical Studies in Oceanography, Vol. 50, Issue. 8-9, p. 1373.

Howard, S.L. Hyatt, J. and Padman, L. 2004. Mixing in the pycnocline over the western Antarctic Peninsula shelf during Southern Ocean GLOBEC. Deep Sea Research Part II: Topical Studies in Oceanography, Vol. 51, Issue. 17-19, p. 1965.

Arbic, Brian K. Garner, Stephen T. Hallberg, Robert W. and Simmons, Harper L. 2004. The accuracy of surface elevations in forward global barotropic and baroclinic tide models. Deep Sea Research Part II: Topical Studies in Oceanography, Vol. 51, Issue. 25-26, p. 3069.

Padman, L. and Erofeeva, S. 2004. A barotropic inverse tidal model for the Arctic Ocean. Geophysical Research Letters, Vol. 31, Issue. 2,

McGillivary, P. D'Spain, G. Boyd, T. Doolittle, D. Vogel, S. and Schenke, H.-W. 2005. AUVs for ANSWRS - ANtarctic Studies of the Western Ross Sea. p. 1.

Erofeeva, S. Y. Padman, Laurie and Egbert, Gary 2005. Assimilation of Ship-Mounted ADCP Data for Barotropic Tides: Application to the Ross Sea. Journal of Atmospheric and Oceanic Technology, Vol. 22, Issue. 6, p. 721.

Padman, Laurie and Fricker, Helen Amanda 2005. Tides on the Ross Ice Shelf observed with ICESat. Geophysical Research Letters, Vol. 32, Issue. 14,

Smethie, William M. and Jacobs, Stanley S. 2005. Circulation and melting under the Ross Ice Shelf: estimates from evolving CFC, salinity and temperature fields in the Ross Sea. Deep Sea Research Part I: Oceanographic Research Papers, Vol. 52, Issue. 6, p. 959.

Joughin, Ian and MacAyeal, Douglas R. 2005. Calving of large tabular icebergs from ice shelf rift systems. Geophysical Research Letters, Vol. 32, Issue. 2,

Maraldi, Claire Galton‐Fenzi, Benjamin Lyard, Florent Testut, Laurent and Coleman, Richard 2007. Barotropic tides of the Southern Indian Ocean and the Amery Ice Shelf cavity. Geophysical Research Letters, Vol. 34, Issue. 18,

Holland, Paul R. 2008. A model of tidally dominated ocean processes near ice shelf grounding lines. Journal of Geophysical Research: Oceans, Vol. 113, Issue. C11,

Ray, R. D. 2008. A preliminary tidal analysis of ICESat laser altimetry: Southern Ross Ice Shelf. Geophysical Research Letters, Vol. 35, Issue. 2,

Padman, Laurie Erofeeva, Svetlana Y. and Fricker, Helen Amanda 2008. Improving Antarctic tide models by assimilation of ICESat laser altimetry over ice shelves. Geophysical Research Letters, Vol. 35, Issue. 22,

MacAyeal, Douglas R. Okal, Marianne H. Thom, Jonathan E. Brunt, Kelly M. Kim, Young-Jin and Bliss, Andrew K. 2008. Tabular iceberg collisions within the coastal regime. Journal of Glaciology, Vol. 54, Issue. 185, p. 371.

Muench, Robin Padman, Laurie Gordon, Arnold and Orsi, Alejandro 2009. A dense water outflow from the Ross Sea, Antarctica: Mixing and the contribution of tides. Journal of Marine Systems, Vol. 77, Issue. 4, p. 369.

Padman, Laurie Howard, Susan L. Orsi, Alejandro H. and Muench, Robin D. 2009. Tides of the northwestern Ross Sea and their impact on dense outflows of Antarctic Bottom Water. Deep Sea Research Part II: Topical Studies in Oceanography, Vol. 56, Issue. 13-14, p. 818.

Loose, B. Schlosser, P. Smethie, W. M. and Jacobs, S. 2009. An optimized estimate of glacial melt from the Ross Ice Shelf using noble gases, stable isotopes, and CFC transient tracers. Journal of Geophysical Research: Oceans, Vol. 114, Issue. C8,

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Tides of the Ross Sea and Ross Ice Shelf cavity

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