A topographic origin for double-ridge features in visible imagery of ice divides in Antarctica

Abstract The appearance of double-ridge features on visible imagery of the ice divides of Antarctic ice rises has often been noted but, largely due to a lack of adequate ground truth, their origins have remained enigmatic. We present several examples of ice rises and other isolated ice-flow centres...

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Bibliographic Details
Published in:Journal of Glaciology
Main Authors: Goodwin, A. H., Vaughan, D. G.
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press (CUP) 1995
Subjects:
Earth-Surface Processes
Antarctic
Fletcher Promontory
Antarc*
Antarctica
Journal of Glaciology
Online Access:http://dx.doi.org/10.1017/s0022143000034821
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0022143000034821
id crcambridgeupr:10.1017/s0022143000034821
record_format openpolar
spelling crcambridgeupr:10.1017/s0022143000034821 2024-03-03T08:38:55+00:00 A topographic origin for double-ridge features in visible imagery of ice divides in Antarctica Goodwin, A. H. Vaughan, D. G. 1995 http://dx.doi.org/10.1017/s0022143000034821 https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0022143000034821 en eng Cambridge University Press (CUP) Journal of Glaciology volume 41, issue 139, page 483-489 ISSN 0022-1430 1727-5652 Earth-Surface Processes journal-article 1995 crcambridgeupr https://doi.org/10.1017/s0022143000034821 2024-02-08T08:41:37Z Abstract The appearance of double-ridge features on visible imagery of the ice divides of Antarctic ice rises has often been noted but, largely due to a lack of adequate ground truth, their origins have remained enigmatic. We present several examples of ice rises and other isolated ice-flow centres that apparently show double ridges. We investigate one of these in particular: Fletcher Promontory, Antarctica. A digtal-elevation model (DEM) of the summit region is derived from surface profiles obtained using the Global Positioning System (GPS) and this is correlated with Landsat MSS satellite imagery. Precise registration is achieved by correlating image-brightness values with surface slope calculated along the direction of the Sun azimuth in the image. Using a simple bi-directional relation, the DEM data are used to model the Landsat image. We therefore demonstrate that the double ridge is a product of a subtle concavity parallel to the ridge and is unlikely to be dependent on other factors. This concavity is not predicted by steady-state models of ice divides and so we suggest that the ridge may not be in a steady-state but responding to changes in the glaciological boundary conditions. We speculate that this may be an indication of ongoing migration of the ice divide. Article in Journal/Newspaper Antarc* Antarctic Antarctica Journal of Glaciology Cambridge University Press Antarctic Fletcher Promontory ENVELOPE(-80.000,-80.000,-78.416,-78.416) Journal of Glaciology 41 139 483 489
institution Open Polar
collection Cambridge University Press
op_collection_id crcambridgeupr
language English
topic Earth-Surface Processes
spellingShingle Earth-Surface Processes
Goodwin, A. H.
Vaughan, D. G.
A topographic origin for double-ridge features in visible imagery of ice divides in Antarctica
topic_facet Earth-Surface Processes
description Abstract The appearance of double-ridge features on visible imagery of the ice divides of Antarctic ice rises has often been noted but, largely due to a lack of adequate ground truth, their origins have remained enigmatic. We present several examples of ice rises and other isolated ice-flow centres that apparently show double ridges. We investigate one of these in particular: Fletcher Promontory, Antarctica. A digtal-elevation model (DEM) of the summit region is derived from surface profiles obtained using the Global Positioning System (GPS) and this is correlated with Landsat MSS satellite imagery. Precise registration is achieved by correlating image-brightness values with surface slope calculated along the direction of the Sun azimuth in the image. Using a simple bi-directional relation, the DEM data are used to model the Landsat image. We therefore demonstrate that the double ridge is a product of a subtle concavity parallel to the ridge and is unlikely to be dependent on other factors. This concavity is not predicted by steady-state models of ice divides and so we suggest that the ridge may not be in a steady-state but responding to changes in the glaciological boundary conditions. We speculate that this may be an indication of ongoing migration of the ice divide.
format Article in Journal/Newspaper
author Goodwin, A. H.
Vaughan, D. G.
author_facet Goodwin, A. H.
Vaughan, D. G.
author_sort Goodwin, A. H.
title A topographic origin for double-ridge features in visible imagery of ice divides in Antarctica
title_short A topographic origin for double-ridge features in visible imagery of ice divides in Antarctica
title_full A topographic origin for double-ridge features in visible imagery of ice divides in Antarctica
title_fullStr A topographic origin for double-ridge features in visible imagery of ice divides in Antarctica
title_full_unstemmed A topographic origin for double-ridge features in visible imagery of ice divides in Antarctica
title_sort topographic origin for double-ridge features in visible imagery of ice divides in antarctica
publisher Cambridge University Press (CUP)
publishDate 1995
url http://dx.doi.org/10.1017/s0022143000034821
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0022143000034821
long_lat ENVELOPE(-80.000,-80.000,-78.416,-78.416)
geographic Antarctic
Fletcher Promontory
geographic_facet Antarctic
Fletcher Promontory
genre Antarc*
Antarctic
Antarctica
Journal of Glaciology
genre_facet Antarc*
Antarctic
Antarctica
Journal of Glaciology
op_source Journal of Glaciology
volume 41, issue 139, page 483-489
ISSN 0022-1430 1727-5652
op_doi https://doi.org/10.1017/s0022143000034821
container_title Journal of Glaciology
container_volume 41
container_issue 139
container_start_page 483
op_container_end_page 489
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