Improving estimation of glacier volume change: a GLIMS case study of Bering Glacier System, Alaska
The Global Land Ice Measurements from Space (GLIMS) project has developed tools and methods that can be employed by analysts to create accurate glacier outlines. To illustrate the importance of accurate glacier outlines and the effectiveness of GLIMS standards we conducted a case study on Bering Gla...
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Format: | Article |
Language: | English |
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Copernicus Publications
2008-04-01
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Series: | The Cryosphere |
Online Access: | http://www.the-cryosphere.net/2/33/2008/tc-2-33-2008.pdf |
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author | M. J. Beedle M. Dyurgerov W. Tangborn S. J. S. Khalsa C. Helm B. Raup R. Armstrong R. G. Barry |
author_facet | M. J. Beedle M. Dyurgerov W. Tangborn S. J. S. Khalsa C. Helm B. Raup R. Armstrong R. G. Barry |
author_sort | M. J. Beedle |
collection | DOAJ |
description | The Global Land Ice Measurements from Space (GLIMS) project has developed tools and methods that can be employed by analysts to create accurate glacier outlines. To illustrate the importance of accurate glacier outlines and the effectiveness of GLIMS standards we conducted a case study on Bering Glacier System (BGS), Alaska. BGS is a complex glacier system aggregated from multiple drainage basins, numerous tributaries, and many accumulation areas. Published measurements of BGS surface area vary from 1740 to 6200 km<sup>2</sup>, depending on how the boundaries of this system have been defined. Utilizing GLIMS tools and standards we have completed a new outline (3630 km<sup>2</sup>) and analysis of the area-altitude distribution (hypsometry) of BGS using Landsat images from 2000 and 2001 and a US Geological Survey 15-min digital elevation model. We compared this new hypsometry with three different hypsometries to illustrate the errors that result from the widely varying estimates of BGS extent. The use of different BGS hypsometries results in highly variable measures of volume change and net balance (<I>b<sub>n</sub></I>). Applying a simple hypsometry-dependent mass-balance model to different hypsometries results in a <I>b<sub>n</sub></I> rate range of &minus;1.0 to &minus;3.1 m a<sup>&minus;1</sup> water equivalent (W.E.), a volume change range of &minus;3.8 to &minus;6.7 km<sup>3</sup> a<sup>&minus;1</sup> W.E., and a near doubling in contributions to sea level equivalent, 0.011 mm a<sup>&minus;1</sup> to 0.019 mm a<sup>&minus;1</sup>. Current inaccuracies in glacier outlines hinder our ability to correctly quantify glacier change. Understanding of glacier extents can become comprehensive and accurate. Such accuracy is possible with the increasing volume of satellite imagery of glacierized regions, recent advances in tools and standards, and dedication to this important task. |
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issn | 1994-0416 1994-0424 |
language | English |
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spelling | doaj.art-ce0f194c2ece4b10a41448c530b1d4ef2022-12-22T03:12:06ZengCopernicus PublicationsThe Cryosphere1994-04161994-04242008-04-01213351Improving estimation of glacier volume change: a GLIMS case study of Bering Glacier System, AlaskaM. J. BeedleM. DyurgerovW. TangbornS. J. S. KhalsaC. HelmB. RaupR. ArmstrongR. G. BarryThe Global Land Ice Measurements from Space (GLIMS) project has developed tools and methods that can be employed by analysts to create accurate glacier outlines. To illustrate the importance of accurate glacier outlines and the effectiveness of GLIMS standards we conducted a case study on Bering Glacier System (BGS), Alaska. BGS is a complex glacier system aggregated from multiple drainage basins, numerous tributaries, and many accumulation areas. Published measurements of BGS surface area vary from 1740 to 6200 km<sup>2</sup>, depending on how the boundaries of this system have been defined. Utilizing GLIMS tools and standards we have completed a new outline (3630 km<sup>2</sup>) and analysis of the area-altitude distribution (hypsometry) of BGS using Landsat images from 2000 and 2001 and a US Geological Survey 15-min digital elevation model. We compared this new hypsometry with three different hypsometries to illustrate the errors that result from the widely varying estimates of BGS extent. The use of different BGS hypsometries results in highly variable measures of volume change and net balance (<I>b<sub>n</sub></I>). Applying a simple hypsometry-dependent mass-balance model to different hypsometries results in a <I>b<sub>n</sub></I> rate range of &minus;1.0 to &minus;3.1 m a<sup>&minus;1</sup> water equivalent (W.E.), a volume change range of &minus;3.8 to &minus;6.7 km<sup>3</sup> a<sup>&minus;1</sup> W.E., and a near doubling in contributions to sea level equivalent, 0.011 mm a<sup>&minus;1</sup> to 0.019 mm a<sup>&minus;1</sup>. Current inaccuracies in glacier outlines hinder our ability to correctly quantify glacier change. Understanding of glacier extents can become comprehensive and accurate. Such accuracy is possible with the increasing volume of satellite imagery of glacierized regions, recent advances in tools and standards, and dedication to this important task.http://www.the-cryosphere.net/2/33/2008/tc-2-33-2008.pdf |
spellingShingle | M. J. Beedle M. Dyurgerov W. Tangborn S. J. S. Khalsa C. Helm B. Raup R. Armstrong R. G. Barry Improving estimation of glacier volume change: a GLIMS case study of Bering Glacier System, Alaska The Cryosphere |
title | Improving estimation of glacier volume change: a GLIMS case study of Bering Glacier System, Alaska |
title_full | Improving estimation of glacier volume change: a GLIMS case study of Bering Glacier System, Alaska |
title_fullStr | Improving estimation of glacier volume change: a GLIMS case study of Bering Glacier System, Alaska |
title_full_unstemmed | Improving estimation of glacier volume change: a GLIMS case study of Bering Glacier System, Alaska |
title_short | Improving estimation of glacier volume change: a GLIMS case study of Bering Glacier System, Alaska |
title_sort | improving estimation of glacier volume change a glims case study of bering glacier system alaska |
url | http://www.the-cryosphere.net/2/33/2008/tc-2-33-2008.pdf |
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