Borehole imagery of meteoric and marine ice layers in the Amery Ice Shelf, East Antarctica

Abstract A real-time video camera probe was deployed in a hot-water drilled borehole through the Amery Ice Shelf, East Antarctica, where a total ice thickness of 480 m included at least 200 m of basal marine ice. Down-looking and side-looking digital video footage showed a striking transition from white bubbly meteoric ice above to dark marine ice below, but the transition was neither microscopically sharp nor flat, indicating the uneven nature (at centimetre scale) of the ice-shelf base upstream where the marine ice first started to accrete. Marine ice features were imaged including platelet structures, cell inclusions, entrained particles, and the interface with sea water at the base. The cells are assumed to be entrained sea water, and were present throughout the lower 100-150 m of the marine ice column, becoming larger and more prevalent as the lower surface was approached until, near the base, they became channels large enough that the camera field of view could not contain them. Platelets in the marine ice at depth appeared to be as large as 1-2 cm in diameter. Particles were visible in the borehole meltwater; probably marine and mineral particles liberated by the drill, but their distribution varied with depth.

[1]  A. Jenkins,et al.  Ice-Ocean Interaction On Ronne Ice Shelf, Antarctica , 1991, Annals of Glaciology.

[2]  Ian Allison,et al.  Distribution of marine ice beneath the Amery Ice Shelf , 2001 .

[3]  B. Kamb,et al.  Glacier bore-hole photography , 1973 .

[4]  E. M. Thorndike,et al.  Fish, Crustaceans, and the Sea Floor Under the Ross Ice Shelf , 1979, Science.

[5]  S. Jacobs,et al.  Rapid Bottom Melting Widespread near Antarctic Ice Sheet Grounding Lines , 2002, Science.

[6]  H. Oerter,et al.  Textural characteristics and impurity content of meteoric and marine ice in the Ronne Ice Shelf, Antarctica , 1994 .

[7]  R. Warner,et al.  Sensitivity of the Amery Ice Shelf, Antarctica, to changes in the climate of the Southern Ocean , 2002 .

[8]  J. Lipps,et al.  Life Below the Ross Ice Shelf, Antarctica , 1979, Science.

[9]  B. Koci Hot Water Drilling in Antarctic Firn, and Freezing Rates in Water-Filled Boreholes , 1984 .

[10]  H. Oerter,et al.  Evidence for basal marine ice in the Filchner–Ronne ice shelf , 1992, Nature.

[11]  V. Morgan Oxygen Isotope Evidence for Bottom Freezing on the Amery Ice Shelf , 1972, Nature.

[12]  B. Kamb,et al.  Instruments and Methods Glacier Bore-Hole Photography , 1973, Journal of Glaciology.

[13]  Pedro Skvarca,et al.  Glacier Surge After Ice Shelf Collapse , 2003, Science.

[14]  D. Vaughan,et al.  Recent atmospheric warming and retreat of ice shelves on the Antarctic Peninsula , 1996, Nature.

[15]  Appendix 6 , 1975 .

[16]  Ray F. Weiss,et al.  Ocean, Ice, and Atmosphere: Interactions at the Antarctic Continental Margin , 1998 .

[17]  E. Lewis,et al.  Ice pumps and their rates , 1986 .

[18]  H. Oerter,et al.  First access to the ocean beneath Ekströmisen, Antarctica, by means of hot-water drilling , 1994 .

[19]  T. Gammelsrød,et al.  Notes on Southern Ocean hydrography, sea-ice and bottom water formation , 1988 .

[20]  J. Hunter,et al.  Initial borehole results from the Amery Ice Shelf hot-water drilling project , 2004, Annals of Glaciology.

[21]  K. Nicholls,et al.  Ocean circulation beneath the Ronne ice shelf , 1991, Nature.

[22]  Helmut Rott,et al.  Northern Larsen Ice Shelf, Antarctica: further retreat after collapse , 2002, Annals of Glaciology.

[23]  H. Rott,et al.  Rapid Collapse of Northern Larsen Ice Shelf, Antarctica , 1996, Science.

[24]  H Engelhardt,et al.  Physical Conditions at the Base of a Fast Moving Antarctic Ice Stream , 1990, Science.

[25]  H. Engelhardt,et al.  Borehole evidence for a thick layer of basal ice in the central Ronne Ice Shelf , 1987, Nature.

[26]  D. Vaughan,et al.  Rapid disintegration of the Wordie Ice Shelf in response to atmospheric warming , 1991, Nature.

[27]  J. Tison,et al.  Low salinity frazil ice generation at the base of a small Antarctic ice shelf , 1993, Antarctic Science.

[28]  K. Makinson The BAS hot water drill: development and current design , 1993 .

[29]  J. Moore,et al.  Microstructure and electrical properties of marine ice and its relationship to meteoric ice and sea ice , 1994 .

[30]  J. Tison,et al.  Significant marine ice accumulation in the ablation zone beneath an antarctic ice shelf , 2001 .

[31]  J. Tison,et al.  A two‐phase approach to the simulation of the combined isotope/salinity signal of marine ice , 2001 .

[32]  H. Engelhardt,et al.  A hot-water ice-coring drill , 2000 .

[33]  Alberto Behar,et al.  A borehole camera system for imaging the deep interior of ice sheets , 2002, Journal of Glaciology.