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IPY: Collaborative Research: Ocean-Ice Sheet Interaction in the Amundsen Sea: The Keystone of West Antarctic Stability A joint proposal to NSF and NASA.

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Presentation on theme: "IPY: Collaborative Research: Ocean-Ice Sheet Interaction in the Amundsen Sea: The Keystone of West Antarctic Stability A joint proposal to NSF and NASA."— Presentation transcript:

1 IPY: Collaborative Research: Ocean-Ice Sheet Interaction in the Amundsen Sea: The Keystone of West Antarctic Stability A joint proposal to NSF and NASA for the International Polar Year

2 by Robert Bindschadler/NASA Goddard Space Flight Center Sridhar Anandakrishnan/Penn State University Alberto Behar/NASA Jet Propulsion Laboratory David Holland/New York University Miles McPhee/McPhee Research Company Timothy Stanton/Naval Postgraduate School Martin Truffer/University of Alaska, Fairbanks David Vaughan/British Antarctic Survey Hugh Corr/ British Antarctic Survey Adrian Jenkins/ British Antarctic Survey Andy Smith/ British Antarctic Survey Tony Payne/University of Bristol US Investigators UK Collaborators

3 Why Keystone? The WAIS goal of predicting the future sea-level contribution of the West Antarctic CAN’T BE MET without understanding the interaction of ocean on ice shelves and of ice shelves on ice streams and outlet glaciers

4 Goal To understand the interaction of the ocean and ice (heat, mass and salt fluxes) at the sub-ice-shelf interface and to incorporate this knowledge into a coupled model that includes dynamics of the ocean and of the ice along with their interaction.

5 Objectives 1.Define the shape (surface elevation and thickness) of the ice shelf (Bindschadler) 2.Define the shape of the ocean cavity beneath the ice shelf (Anandakrishnan) 3.Access the cavity by drilling through the ice shelf (Truffer) 4.Develop and deploy remotely controlled instrumentation to measure the temporal and spatial variations of water properties and of the mass exchange with the ice shelf (Stanton) 5.Interpret these measurements to define the nature of heat, mass and salt exchange between the ocean and the ice (McPhee) 6.Visually explore the ocean cavity, sea floor and ice-shelf underside (Behar) 7.Incorporate the interactive processes into a coupled ocean-ice dynamics model (Holland)

6 Strategy PIG is relatively well-studied, is known to be changing and contributes significantly to sea level Grounding line area is accessible –Imagery shows smooth area as possible landing site –Ice thickness (~580 m) is within range of hot-water drill Commandable ocean profilers –Follows sub-shelf water masses –Tracks thinning ice shelf Survey of cavity shape and profiling of model grid cell enable improved modeling

7 1. Define the shape (surface elevation and thickness) of the ice shelf Elevation ground control from ICESat altimetry –Spacing ~10 km Complete elevation field with photoclinometry Convert elevation to thickness –Average column density from field holes

8 2. Define the shape of the ocean cavity beneath the ice shelf Seismic shots at 28 sites –Ice and water thicknesses –Maybe bed slope Gravity to assist in interpretation of BAS aerogravity survey in 2004-05

9 4. Develop and deploy remotely controlled instrumentation to measure the temporal and spatial variations of water properties and of the mass exchange with the ice shelf Deployed through hot- water holes CTD profiler Data linked to surface Inmarsat to USA Controlled from USA

10 7. Incorporate the interactive processes into a coupled ocean-ice dynamics model Seismic measurements define the sub-shelf cavity Ocean profiler measurements quantify fluxes along a model “grid cell” –Holland’s “PIG pen”

11 Field Work 2007-08 –Recon landing site –Local radar and seismic surveys measure ice thickness Measure water thickness and cavity shape –Conduct phase-sensitive radar survey for melting rate –Establish GPS and AWS –Hand auger for firn profiles of density and temperature –Media?

12 Field Work 2008-09 –Drill one hole Explore with optical probe Leave vertical strain gauge Deploy ocean instrument package –Large-scale seismic/gravity survey Helicopters required 2 other proposals have requested helos –Maintain/repair AWS/GPS –Deploy 3 additional GPS –More phase-sensitive measurements? –Media?

13 Field Work 2009-10 –Drill three holes Deploy ocean instrument package –Maintain/repair AWS/GPS –Collect data not telemetered back 2010-11 –Recover surface instrumentation and data

14 Fingers are crossed Proposal submitted for joint funding from NSF and NASA Likely success ratio at each is < 10%

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