Basal Conditions of Petermann Glacier and Jakobshavn Isbrae derived from Airborne Ice Penetrating Radar Measurements
Understanding ice dynamics and ice basal conditions is important because of their impacts on sea level rise. Radio echo sounding has been extensively used for characterizing the ice sheets. The radar reflectivity of the ice bed is of special importance because it can discriminate frozen and thawed i...
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University of Kansas
2018
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| Online Access: | http://hdl.handle.net/1808/27608 http://dissertations.umi.com/ku:16212 |
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ftunivkansas:oai:kuscholarworks.ku.edu:1808/27608 2023-05-15T13:07:37+02:00 Basal Conditions of Petermann Glacier and Jakobshavn Isbrae derived from Airborne Ice Penetrating Radar Measurements Adhikari, Manjish Leuschen, Carl Li, Jilu Allen, Christopher Paden, John 2018 96 pages http://hdl.handle.net/1808/27608 http://dissertations.umi.com/ku:16212 en eng University of Kansas http://dissertations.umi.com/ku:16212 http://hdl.handle.net/1808/27608 Copyright held by the author. openAccess Electrical engineering Remote sensing Glaciers Ice Basal Condition Ice Sheet Petermann and Jakobshavn Radar Echo Sounding Thesis 2018 ftunivkansas 2022-08-26T13:23:36Z Understanding ice dynamics and ice basal conditions is important because of their impacts on sea level rise. Radio echo sounding has been extensively used for characterizing the ice sheets. The radar reflectivity of the ice bed is of special importance because it can discriminate frozen and thawed ice beds. The knowledge of the spatial distribution of basal water is crucial in explaining the flow velocity and stability of glaciers and ice sheets. Basal echo reflectivity used to identify the areas of basal melting can be calculated by compensating ice bed power for geometric losses, rough interface losses, system losses and englacial attenuation. Two important outlet glaciers of Greenland, Petermann glacier and Jakobshavn isbrae have been losing a lot of ice mass in recent years, and are therefore studied to derive its basal conditions from airborne radar surveys in this thesis. The ice surface and bed roughness of these glaciers are estimated using Radar Statistical Reconnaissance (RSR) method and validated using roughness derived from NASA’s Airborne Topographic Mapper (ATM) and Ku band altimeter. Englacial attenuation is modeled using Schroeder’s variable attenuation method. After compensating for these losses, the basal reflectivity for the two glaciers is estimated and validated using cross over analysis, geophysics, hydraulic potential, abruptive index and coherence index. The areas of basal melting i.e. areas with higher reflectivity are identified. Petermann glacier is found to have alternate frozen and thawed regions explaining the process of ice movement by friction and freezing. Due to the lack of topographic pinning the glacier is subject to higher ice flow speed. Jakobshavn glacier has several areas of basal melting scattered in the catchment area with most concentration near the glacier front which is likely due to surface water infiltration into ice beds via moulins and sinks. The ice bed channels and retrograde slope of this glacier are also important in routing subglacial water and ice mass. The ... Thesis Airborne Topographic Mapper glacier Greenland Ice Sheet Jakobshavn Petermann glacier The University of Kansas: KU ScholarWorks Greenland |
| institution |
Open Polar |
| collection |
The University of Kansas: KU ScholarWorks |
| op_collection_id |
ftunivkansas |
| language |
English |
| topic |
Electrical engineering Remote sensing Glaciers Ice Basal Condition Ice Sheet Petermann and Jakobshavn Radar Echo Sounding |
| spellingShingle |
Electrical engineering Remote sensing Glaciers Ice Basal Condition Ice Sheet Petermann and Jakobshavn Radar Echo Sounding Adhikari, Manjish Basal Conditions of Petermann Glacier and Jakobshavn Isbrae derived from Airborne Ice Penetrating Radar Measurements |
| topic_facet |
Electrical engineering Remote sensing Glaciers Ice Basal Condition Ice Sheet Petermann and Jakobshavn Radar Echo Sounding |
| description |
Understanding ice dynamics and ice basal conditions is important because of their impacts on sea level rise. Radio echo sounding has been extensively used for characterizing the ice sheets. The radar reflectivity of the ice bed is of special importance because it can discriminate frozen and thawed ice beds. The knowledge of the spatial distribution of basal water is crucial in explaining the flow velocity and stability of glaciers and ice sheets. Basal echo reflectivity used to identify the areas of basal melting can be calculated by compensating ice bed power for geometric losses, rough interface losses, system losses and englacial attenuation. Two important outlet glaciers of Greenland, Petermann glacier and Jakobshavn isbrae have been losing a lot of ice mass in recent years, and are therefore studied to derive its basal conditions from airborne radar surveys in this thesis. The ice surface and bed roughness of these glaciers are estimated using Radar Statistical Reconnaissance (RSR) method and validated using roughness derived from NASA’s Airborne Topographic Mapper (ATM) and Ku band altimeter. Englacial attenuation is modeled using Schroeder’s variable attenuation method. After compensating for these losses, the basal reflectivity for the two glaciers is estimated and validated using cross over analysis, geophysics, hydraulic potential, abruptive index and coherence index. The areas of basal melting i.e. areas with higher reflectivity are identified. Petermann glacier is found to have alternate frozen and thawed regions explaining the process of ice movement by friction and freezing. Due to the lack of topographic pinning the glacier is subject to higher ice flow speed. Jakobshavn glacier has several areas of basal melting scattered in the catchment area with most concentration near the glacier front which is likely due to surface water infiltration into ice beds via moulins and sinks. The ice bed channels and retrograde slope of this glacier are also important in routing subglacial water and ice mass. The ... |
| author2 |
Leuschen, Carl Li, Jilu Allen, Christopher Paden, John |
| format |
Thesis |
| author |
Adhikari, Manjish |
| author_facet |
Adhikari, Manjish |
| author_sort |
Adhikari, Manjish |
| title |
Basal Conditions of Petermann Glacier and Jakobshavn Isbrae derived from Airborne Ice Penetrating Radar Measurements |
| title_short |
Basal Conditions of Petermann Glacier and Jakobshavn Isbrae derived from Airborne Ice Penetrating Radar Measurements |
| title_full |
Basal Conditions of Petermann Glacier and Jakobshavn Isbrae derived from Airborne Ice Penetrating Radar Measurements |
| title_fullStr |
Basal Conditions of Petermann Glacier and Jakobshavn Isbrae derived from Airborne Ice Penetrating Radar Measurements |
| title_full_unstemmed |
Basal Conditions of Petermann Glacier and Jakobshavn Isbrae derived from Airborne Ice Penetrating Radar Measurements |
| title_sort |
basal conditions of petermann glacier and jakobshavn isbrae derived from airborne ice penetrating radar measurements |
| publisher |
University of Kansas |
| publishDate |
2018 |
| url |
http://hdl.handle.net/1808/27608 http://dissertations.umi.com/ku:16212 |
| geographic |
Greenland |
| geographic_facet |
Greenland |
| genre |
Airborne Topographic Mapper glacier Greenland Ice Sheet Jakobshavn Petermann glacier |
| genre_facet |
Airborne Topographic Mapper glacier Greenland Ice Sheet Jakobshavn Petermann glacier |
| op_relation |
http://dissertations.umi.com/ku:16212 http://hdl.handle.net/1808/27608 |
| op_rights |
Copyright held by the author. openAccess |
| _version_ |
1766061195984371712 |