Measuring beneath the Pine Island Ice Shelf
On the margins of Antarctica, an ice shelve acts as a dam slowing the movement of outlet glaciers flowing toward the sea. However, the ice shelves are exposed to the underlying ocean and may weaken as a result of warm ocean currents. Scientists recently completed an expedition to the ice shelf buffering the Pine Island glacier, a major outlet of the West Antarctic Ice Sheet that has rapidly thinned and accelerated in recent decades. Drilling a shaft through the ice shelf, they submerged instruments beneath the ice to measure ocean velocity, temperature, and salinity. Their observations revealed a 600-m-wide 80-m-deep channel cut into the underside of the ice-shelf that incurs melting beneath the ice shelf of 0.06 m per day. See the paper here for details.
This animation shows the ocean currents colored by their velocity circulating around and under the Pine Island ice shelf. Orange and yellow indicate faster currents while green and blue depict slower. A small red marker indicates the location of the drill site. In this animation, the Pine Island ice shelf is temporarily sliced away to reveal the ocean flows under the ice and subsequently restored up to the location of the drill site. A shaft penetrates through the ice sheet and the instrument is lowered through the shaft into the water that flows beneath the ice shelf.
In this animation, the topography and ice shelf thickness is exaggerated by 15 times.
This animation shows the drill site location on the Pine Island Ice Shelf along with velocity-colored ocean flows from the ECCO3 model.
A still image showing the ocean current flows colored by velocity indicating the circulation in the Pine Island Bay.
A still image showing half of the Pine Island ice shelf removed to reveal the ocean flows moving under the ice shelf. A red marker indicates the drilling location.
A still image showing half of the Pine Island ice shelf removed and a shaft drilled through the ice shelf. The ocean flows shown moving under the ice shelf are colored by velocity.
Colorbar used for the ocean flows.
Credits
Please give credit for this item to:
NASA's Goddard Space Flight Center Scientific Visualization Studio
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Visualizer
- Cindy Starr (Global Science and Technology, Inc.)
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Animators
- Horace Mitchell (NASA/GSFC)
- Greg Shirah (NASA/GSFC)
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Producer
- Jefferson Beck (USRA)
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Scientists
- T. P. Stanton (Naval Postgraduate School)
- W. J. Shaw (Naval Postgraduate School)
- Martin Truffer (University of Alaska)
- H. F. J. Corr (British Antarctic Survey)
- L. E. Peters (The Pennsylvania State University)
- K. L. Riverman (The Pennsylvania State University)
- Bob Bindschadler (NASA/GSFC)
- D. M. Holland (New York University)
- S. Anandakrishnan (The Pennsylvania State University)
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Project support
- Laurence Schuler (ADNET Systems, Inc.)
- Ian Jones (ADNET Systems, Inc.)
Release date
This page was originally published on Thursday, September 19, 2013.
This page was last updated on Wednesday, May 3, 2023 at 1:51 PM EDT.
Missions
This page is related to the following missions:Related papers
T. P. Stanton1, W. J. Shaw1, M. Truffer2, H. F. J. Corr3, L. E. Peters4, K. L. Riverman4, R. Bindschadler5, D. M. Holland6, S. Anandakrishnan4, "Channelized Ice Melting in the Ocean Boundary Layer Beneath Pine Island Glacier, Antarctica", Science 13 September 2013: Vol. 341 no. 6151 pp. 1236-1239.
T. P. Stanton1, W. J. Shaw1, M. Truffer2, H. F. J. Corr3, L. E. Peters4, K. L. Riverman4, R. Bindschadler5, D. M. Holland6, S. Anandakrishnan4, "Channelized Ice Melting in the Ocean Boundary Layer Beneath Pine Island Glacier, Antarctica", Science 13 September 2013: Vol. 341 no. 6151 pp. 1236-1239.
Datasets used
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LIMA (Landsat Image Mosaic of Antarctica) [Landsat-7: ETM+]
ID: 599Mosaicing to avoid clouds produced a high quality, nearly cloud-free benchmark data set of Antarctica for the International Polar Year from images collected primarily during 1999-2003.
This dataset can be found at: http://lima.nasa.gov/
See all pages that use this dataset -
ECCO3 High Resolution Ocean and Sea Ice Model
ID: 802
Note: While we identify the data sets used on this page, we do not store any further details, nor the data sets themselves on our site.