Bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica

This is the published version. Copyright 2015 International Glaciological Society This paper presents the bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica, derived from sounding these glaciers with high-sensitivity radars. To understand the processes causing the speed-up...

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Published in:Journal of Glaciology
Main Authors: Gogineni, Sivaprasad, Yan, J.-B., Paden, John D., Leuschen, Carl J., Li, Jilu, Rodriguez-Morales, Fernando, Braaten, David A., Purdon, Kyle, Wang, Z., Liu, Weibo, Gauch, J.
Format: Article in Journal/Newspaper
Language:unknown
Published: International Glaciological Society 2015
Subjects:
Byrd
Byrd Glacier
Greenland
Antarc*
Antarctica
Antarctica Journal
glacier
Ice Sheet
Jakobshavn
Journal of Glaciology
Online Access:http://hdl.handle.net/1808/19149
https://doi.org/10.3189/2014JoG14J129
id ftunivkansas:oai:kuscholarworks.ku.edu:1808/19149
record_format openpolar
spelling ftunivkansas:oai:kuscholarworks.ku.edu:1808/19149 2023-05-15T13:32:09+02:00 Bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica Gogineni, Sivaprasad Yan, J.-B. Paden, John D. Leuschen, Carl J. Li, Jilu Rodriguez-Morales, Fernando Braaten, David A. Purdon, Kyle Wang, Z. Liu, Weibo Gauch, J. 2015-12-09T16:16:02Z http://hdl.handle.net/1808/19149 https://doi.org/10.3189/2014JoG14J129 unknown International Glaciological Society Gogineni, S., J.-B. Yan, J. Paden, C. Leuschen, J. Li, F. Rodriguez-Morales, D. Braaten, K. Purdon, Z. Wang, W. Liu, and J. Gauch. "Bed Topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica." Journal of Glaciology 60.223 (2014): 813-33. http://dx.doi.org/10.3189/2014JoG14J129 http://hdl.handle.net/1808/19149 doi:10.3189/2014JoG14J129 openAccess Article 2015 ftunivkansas https://doi.org/10.3189/2014JoG14J129 2022-08-26T13:18:10Z This is the published version. Copyright 2015 International Glaciological Society This paper presents the bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica, derived from sounding these glaciers with high-sensitivity radars. To understand the processes causing the speed-up and retreat of outlet glaciers, and to enable the development of next-generation ice-sheet models, we need information on bed topography and basal conditions. To this end, we performed measurements with the progressively improved Multichannel Coherent Radar Depth Sounder/Imager (MCoRDS/I). We processed the data from each antenna-array element using synthetic aperture radar algorithms to improve radar sensitivity and reduce along-track surface clutter. We then applied array and image-processing algorithms to extract the weak bed echoes buried in off-vertical scatter (cross-track surface clutter). At Jakobshavn Isbrae, we observed 2.7 km thick ice ∼30 km upstream of the calving front and ∼850 m thick ice at the calving front. We also observed echoes from multiple interfaces near the bed. We applied the MUSIC algorithm to the data to derive the direction of arrival of the signals. This analysis revealed that clutter is dominated by the ice surface at Jakobshavn Isbrae. At Byrd Glacier, we found ∼3.62 km thick ice, as well as a subglacial trench ∼3.05 km below sea level. We used ice thickness information derived from radar data in conjunction with surface elevation data to generate bed maps for these two critical glaciers. The performance of current radars must be improved further by ∼15 dB to fully sound the deepest part of Byrd Glacier. Unmanned aerial systems equipped with radars that can be flown over lines spaced as close as 5 m apart in the cross-track direction to synthesize a two-dimensional aperture would be ideal for collecting fine-resolution data over glaciers like Jakobshavn near their grounding lines. Article in Journal/Newspaper Antarc* Antarctica Antarctica Journal Byrd Glacier glacier Greenland Ice Sheet Jakobshavn Journal of Glaciology The University of Kansas: KU ScholarWorks Byrd Byrd Glacier ENVELOPE(160.333,160.333,-80.250,-80.250) Greenland Journal of Glaciology 60 223 813 833
institution Open Polar
collection The University of Kansas: KU ScholarWorks
op_collection_id ftunivkansas
language unknown
description This is the published version. Copyright 2015 International Glaciological Society This paper presents the bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica, derived from sounding these glaciers with high-sensitivity radars. To understand the processes causing the speed-up and retreat of outlet glaciers, and to enable the development of next-generation ice-sheet models, we need information on bed topography and basal conditions. To this end, we performed measurements with the progressively improved Multichannel Coherent Radar Depth Sounder/Imager (MCoRDS/I). We processed the data from each antenna-array element using synthetic aperture radar algorithms to improve radar sensitivity and reduce along-track surface clutter. We then applied array and image-processing algorithms to extract the weak bed echoes buried in off-vertical scatter (cross-track surface clutter). At Jakobshavn Isbrae, we observed 2.7 km thick ice ∼30 km upstream of the calving front and ∼850 m thick ice at the calving front. We also observed echoes from multiple interfaces near the bed. We applied the MUSIC algorithm to the data to derive the direction of arrival of the signals. This analysis revealed that clutter is dominated by the ice surface at Jakobshavn Isbrae. At Byrd Glacier, we found ∼3.62 km thick ice, as well as a subglacial trench ∼3.05 km below sea level. We used ice thickness information derived from radar data in conjunction with surface elevation data to generate bed maps for these two critical glaciers. The performance of current radars must be improved further by ∼15 dB to fully sound the deepest part of Byrd Glacier. Unmanned aerial systems equipped with radars that can be flown over lines spaced as close as 5 m apart in the cross-track direction to synthesize a two-dimensional aperture would be ideal for collecting fine-resolution data over glaciers like Jakobshavn near their grounding lines.
format Article in Journal/Newspaper
author Gogineni, Sivaprasad
Yan, J.-B.
Paden, John D.
Leuschen, Carl J.
Li, Jilu
Rodriguez-Morales, Fernando
Braaten, David A.
Purdon, Kyle
Wang, Z.
Liu, Weibo
Gauch, J.
spellingShingle Gogineni, Sivaprasad
Yan, J.-B.
Paden, John D.
Leuschen, Carl J.
Li, Jilu
Rodriguez-Morales, Fernando
Braaten, David A.
Purdon, Kyle
Wang, Z.
Liu, Weibo
Gauch, J.
Bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica
author_facet Gogineni, Sivaprasad
Yan, J.-B.
Paden, John D.
Leuschen, Carl J.
Li, Jilu
Rodriguez-Morales, Fernando
Braaten, David A.
Purdon, Kyle
Wang, Z.
Liu, Weibo
Gauch, J.
author_sort Gogineni, Sivaprasad
title Bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica
title_short Bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica
title_full Bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica
title_fullStr Bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica
title_full_unstemmed Bed topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica
title_sort bed topography of jakobshavn isbrae, greenland, and byrd glacier, antarctica
publisher International Glaciological Society
publishDate 2015
url http://hdl.handle.net/1808/19149
https://doi.org/10.3189/2014JoG14J129
long_lat ENVELOPE(160.333,160.333,-80.250,-80.250)
geographic Byrd
Byrd Glacier
Greenland
geographic_facet Byrd
Byrd Glacier
Greenland
genre Antarc*
Antarctica
Antarctica Journal
Byrd Glacier
glacier
Greenland
Ice Sheet
Jakobshavn
Journal of Glaciology
genre_facet Antarc*
Antarctica
Antarctica Journal
Byrd Glacier
glacier
Greenland
Ice Sheet
Jakobshavn
Journal of Glaciology
op_relation Gogineni, S., J.-B. Yan, J. Paden, C. Leuschen, J. Li, F. Rodriguez-Morales, D. Braaten, K. Purdon, Z. Wang, W. Liu, and J. Gauch. "Bed Topography of Jakobshavn Isbrae, Greenland, and Byrd Glacier, Antarctica." Journal of Glaciology 60.223 (2014): 813-33. http://dx.doi.org/10.3189/2014JoG14J129
http://hdl.handle.net/1808/19149
doi:10.3189/2014JoG14J129
op_rights openAccess
op_doi https://doi.org/10.3189/2014JoG14J129
container_title Journal of Glaciology
container_volume 60
container_issue 223
container_start_page 813
op_container_end_page 833
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