A review of Pine Island Glacier, West Antarctica: hypotheses of instability vs. observations of change

The Pine Island Glacier ice-drainage basin has been cited as the part of the West Antarctic ice sheet most prone to substantial retreat on human time-scales. Here we review the literature and present new analyses showing that this ice-drainage basin is glaciologically unusual. Due to high precipitat...

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Bibliographic Details
Main Authors: Vaughan, David G., Smith, Andrew M., Corr, Hugh F.J., Jenkins, Adrian, Bentley, Charles R., Stenoien, Mark D., Jacobs, Stanley S., Kellogg, Thomas b., Rignot, Eric, Lucchitta, Baerbel K.
Other Authors: Alley, R.B., Bindschadler, R.A.
Format: Book Part
Language:unknown
Published: American Geophysical Union 2001
Subjects:
Antarctic
West Antarctica
West Antarctic Ice Sheet
Pine Island Glacier
Antarc*
Antarctica
Ice Sheet
Ice Shelf
Pine Island
Online Access:http://nora.nerc.ac.uk/id/eprint/20326/
http://www.agu.org/books/ar/v077/AR077p0237/AR077p0237.shtml
id ftnerc:oai:nora.nerc.ac.uk:20326
record_format openpolar
spelling ftnerc:oai:nora.nerc.ac.uk:20326 2023-05-15T13:45:12+02:00 A review of Pine Island Glacier, West Antarctica: hypotheses of instability vs. observations of change Vaughan, David G. Smith, Andrew M. Corr, Hugh F.J. Jenkins, Adrian Bentley, Charles R. Stenoien, Mark D. Jacobs, Stanley S. Kellogg, Thomas b. Rignot, Eric Lucchitta, Baerbel K. Alley, R.B. Bindschadler, R.A. 2001 http://nora.nerc.ac.uk/id/eprint/20326/ http://www.agu.org/books/ar/v077/AR077p0237/AR077p0237.shtml unknown American Geophysical Union Vaughan, David G. orcid:0000-0002-9065-0570 Smith, Andrew M. orcid:0000-0001-8577-482X Corr, Hugh F.J.; Jenkins, Adrian orcid:0000-0002-9117-0616 Bentley, Charles R.; Stenoien, Mark D.; Jacobs, Stanley S.; Kellogg, Thomas b.; Rignot, Eric; Lucchitta, Baerbel K. 2001 A review of Pine Island Glacier, West Antarctica: hypotheses of instability vs. observations of change. In: Alley, R.B.; Bindschadler, R.A., (eds.) The West Antarctic Ice Sheet: Behavior and environment. Washington, D.C., American Geophysical Union, 237-256. (Antarctic Research Series, 77). Publication - Book Section NonPeerReviewed 2001 ftnerc 2023-02-04T19:32:47Z The Pine Island Glacier ice-drainage basin has been cited as the part of the West Antarctic ice sheet most prone to substantial retreat on human time-scales. Here we review the literature and present new analyses showing that this ice-drainage basin is glaciologically unusual. Due to high precipitation rates near the coast, Pine Island Glacier basin has the second highest balance flux of any extant ice stream or glacier. Well-defined tributaries flow at intermediate velocities through the interior of the basin and have no regions of rapid velocity increase. The tributaries coalesce to form Pine Island Glacier which has characteristics of outlet glaciers (e.g. high driving stress) and of ice streams (e.g. shear margins bordering slow-moving ice). The glacier flows across a complex grounding zone into an ice shelf. There, it comes into contact with warm Circumpolar Deep Water which fuels the highest basal melt-rates yet measured beneath an ice shelf. The ice front position may have retreated within the past few millennia but during the last few decades it appears to have shifted around a mean position. Mass balance calculations of the ice-drainage basin as a whole show that there is currently no measurable imbalance, although there is evidence that some specific areas within the basin are significantly out of balance. The grounding line has been shown to have retreated in recent years. The Pine Island Glacier basin is clearly important in the context of the future evolution of the West Antarctic ice sheet because theoretically, it has a high potential for change and because observations already show change occurring. There is, however, no clear evidence to indicate sustained retreat or collapse over the last few decades. Book Part Antarc* Antarctic Antarctica Ice Sheet Ice Shelf Pine Island Pine Island Glacier West Antarctica Natural Environment Research Council: NERC Open Research Archive Antarctic West Antarctica West Antarctic Ice Sheet Pine Island Glacier ENVELOPE(-101.000,-101.000,-75.000,-75.000)
institution Open Polar
collection Natural Environment Research Council: NERC Open Research Archive
op_collection_id ftnerc
language unknown
description The Pine Island Glacier ice-drainage basin has been cited as the part of the West Antarctic ice sheet most prone to substantial retreat on human time-scales. Here we review the literature and present new analyses showing that this ice-drainage basin is glaciologically unusual. Due to high precipitation rates near the coast, Pine Island Glacier basin has the second highest balance flux of any extant ice stream or glacier. Well-defined tributaries flow at intermediate velocities through the interior of the basin and have no regions of rapid velocity increase. The tributaries coalesce to form Pine Island Glacier which has characteristics of outlet glaciers (e.g. high driving stress) and of ice streams (e.g. shear margins bordering slow-moving ice). The glacier flows across a complex grounding zone into an ice shelf. There, it comes into contact with warm Circumpolar Deep Water which fuels the highest basal melt-rates yet measured beneath an ice shelf. The ice front position may have retreated within the past few millennia but during the last few decades it appears to have shifted around a mean position. Mass balance calculations of the ice-drainage basin as a whole show that there is currently no measurable imbalance, although there is evidence that some specific areas within the basin are significantly out of balance. The grounding line has been shown to have retreated in recent years. The Pine Island Glacier basin is clearly important in the context of the future evolution of the West Antarctic ice sheet because theoretically, it has a high potential for change and because observations already show change occurring. There is, however, no clear evidence to indicate sustained retreat or collapse over the last few decades.
author2 Alley, R.B.
Bindschadler, R.A.
format Book Part
author Vaughan, David G.
Smith, Andrew M.
Corr, Hugh F.J.
Jenkins, Adrian
Bentley, Charles R.
Stenoien, Mark D.
Jacobs, Stanley S.
Kellogg, Thomas b.
Rignot, Eric
Lucchitta, Baerbel K.
spellingShingle Vaughan, David G.
Smith, Andrew M.
Corr, Hugh F.J.
Jenkins, Adrian
Bentley, Charles R.
Stenoien, Mark D.
Jacobs, Stanley S.
Kellogg, Thomas b.
Rignot, Eric
Lucchitta, Baerbel K.
A review of Pine Island Glacier, West Antarctica: hypotheses of instability vs. observations of change
author_facet Vaughan, David G.
Smith, Andrew M.
Corr, Hugh F.J.
Jenkins, Adrian
Bentley, Charles R.
Stenoien, Mark D.
Jacobs, Stanley S.
Kellogg, Thomas b.
Rignot, Eric
Lucchitta, Baerbel K.
author_sort Vaughan, David G.
title A review of Pine Island Glacier, West Antarctica: hypotheses of instability vs. observations of change
title_short A review of Pine Island Glacier, West Antarctica: hypotheses of instability vs. observations of change
title_full A review of Pine Island Glacier, West Antarctica: hypotheses of instability vs. observations of change
title_fullStr A review of Pine Island Glacier, West Antarctica: hypotheses of instability vs. observations of change
title_full_unstemmed A review of Pine Island Glacier, West Antarctica: hypotheses of instability vs. observations of change
title_sort review of pine island glacier, west antarctica: hypotheses of instability vs. observations of change
publisher American Geophysical Union
publishDate 2001
url http://nora.nerc.ac.uk/id/eprint/20326/
http://www.agu.org/books/ar/v077/AR077p0237/AR077p0237.shtml
long_lat ENVELOPE(-101.000,-101.000,-75.000,-75.000)
geographic Antarctic
West Antarctica
West Antarctic Ice Sheet
Pine Island Glacier
geographic_facet Antarctic
West Antarctica
West Antarctic Ice Sheet
Pine Island Glacier
genre Antarc*
Antarctic
Antarctica
Ice Sheet
Ice Shelf
Pine Island
Pine Island Glacier
West Antarctica
genre_facet Antarc*
Antarctic
Antarctica
Ice Sheet
Ice Shelf
Pine Island
Pine Island Glacier
West Antarctica
op_relation Vaughan, David G. orcid:0000-0002-9065-0570
Smith, Andrew M. orcid:0000-0001-8577-482X
Corr, Hugh F.J.; Jenkins, Adrian orcid:0000-0002-9117-0616
Bentley, Charles R.; Stenoien, Mark D.; Jacobs, Stanley S.; Kellogg, Thomas b.; Rignot, Eric; Lucchitta, Baerbel K. 2001 A review of Pine Island Glacier, West Antarctica: hypotheses of instability vs. observations of change. In: Alley, R.B.; Bindschadler, R.A., (eds.) The West Antarctic Ice Sheet: Behavior and environment. Washington, D.C., American Geophysical Union, 237-256. (Antarctic Research Series, 77).
_version_ 1766217058083667968

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