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Iceberg topography and volume classification using TanDEM-X interferometry

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Zeitschriftentitel: The Cryosphere
Personen und Körperschaften: Dammann, Dyre O., Eriksson, Leif E. B., Nghiem, Son V., Pettit, Erin C., Kurtz, Nathan T., Sonntag, John G., Busche, Thomas E., Meyer, Franz J., Mahoney, Andrew R.
In: The Cryosphere, 13, 2019, 7, S. 1861-1875
Format: E-Article
Sprache: Englisch
veröffentlicht:
Copernicus GmbH
Schlagwörter:
Earth-Surface Processes
Water Science and Technology
author_facet Dammann, Dyre O.
Eriksson, Leif E. B.
Nghiem, Son V.
Pettit, Erin C.
Kurtz, Nathan T.
Sonntag, John G.
Busche, Thomas E.
Meyer, Franz J.
Mahoney, Andrew R.
Dammann, Dyre O.
Eriksson, Leif E. B.
Nghiem, Son V.
Pettit, Erin C.
Kurtz, Nathan T.
Sonntag, John G.
Busche, Thomas E.
Meyer, Franz J.
Mahoney, Andrew R.
author Dammann, Dyre O.
Eriksson, Leif E. B.
Nghiem, Son V.
Pettit, Erin C.
Kurtz, Nathan T.
Sonntag, John G.
Busche, Thomas E.
Meyer, Franz J.
Mahoney, Andrew R.
spellingShingle Dammann, Dyre O.
Eriksson, Leif E. B.
Nghiem, Son V.
Pettit, Erin C.
Kurtz, Nathan T.
Sonntag, John G.
Busche, Thomas E.
Meyer, Franz J.
Mahoney, Andrew R.
The Cryosphere
Iceberg topography and volume classification using TanDEM-X interferometry
Earth-Surface Processes
Water Science and Technology
author_sort dammann, dyre o.
spelling Dammann, Dyre O. Eriksson, Leif E. B. Nghiem, Son V. Pettit, Erin C. Kurtz, Nathan T. Sonntag, John G. Busche, Thomas E. Meyer, Franz J. Mahoney, Andrew R. 1994-0424 Copernicus GmbH Earth-Surface Processes Water Science and Technology http://dx.doi.org/10.5194/tc-13-1861-2019 <jats:p>Abstract. Icebergs in polar regions affect water salinity, alter marine habitats, and impose serious hazards on maritime operations and navigation. These impacts mainly depend on the iceberg volume, which remains an elusive parameter to measure. We investigate the capability of TanDEM-X bistatic single-pass synthetic aperture radar interferometry (InSAR) to derive iceberg subaerial morphology and infer total volume. We cross-verify InSAR results with Operation IceBridge (OIB) data acquired near Wordie Bay, Antarctica, as part of the OIB/TanDEM-X Antarctic Science Campaign (OTASC). While icebergs are typically classified according to size based on length or maximum height, we develop a new volumetric classification approach for applications where iceberg volume is relevant. For icebergs with heights exceeding 5 m, we find iceberg volumes derived from TanDEM-X and OIB data match within 7 %. We also derive a range of possible iceberg keel depths relevant to grounding and potential impacts on subsea installations. These results suggest that TanDEM-X could pave the way for future single-pass interferometric systems for scientific and operational iceberg mapping and classification based on iceberg volume and keel depth. </jats:p> Iceberg topography and volume classification using TanDEM-X interferometry The Cryosphere
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source_id 49
title Iceberg topography and volume classification using TanDEM-X interferometry
title_unstemmed Iceberg topography and volume classification using TanDEM-X interferometry
title_full Iceberg topography and volume classification using TanDEM-X interferometry
title_fullStr Iceberg topography and volume classification using TanDEM-X interferometry
title_full_unstemmed Iceberg topography and volume classification using TanDEM-X interferometry
title_short Iceberg topography and volume classification using TanDEM-X interferometry
title_sort iceberg topography and volume classification using tandem-x interferometry
topic Earth-Surface Processes
Water Science and Technology
url http://dx.doi.org/10.5194/tc-13-1861-2019
publishDate 2019
physical 1861-1875
description <jats:p>Abstract. Icebergs in polar regions affect water salinity, alter marine habitats, and impose serious hazards on maritime operations and navigation. These impacts mainly depend on the iceberg volume, which remains an elusive parameter to measure. We investigate the capability of TanDEM-X bistatic single-pass synthetic aperture radar interferometry (InSAR) to derive iceberg subaerial morphology and infer total volume. We cross-verify InSAR results with Operation IceBridge (OIB) data acquired near Wordie Bay, Antarctica, as part of the OIB/TanDEM-X Antarctic Science Campaign (OTASC). While icebergs are typically classified according to size based on length or maximum height, we develop a new volumetric classification approach for applications where iceberg volume is relevant. For icebergs with heights exceeding 5 m, we find iceberg volumes derived from TanDEM-X and OIB data match within 7 %. We also derive a range of possible iceberg keel depths relevant to grounding and potential impacts on subsea installations. These results suggest that TanDEM-X could pave the way for future single-pass interferometric systems for scientific and operational iceberg mapping and classification based on iceberg volume and keel depth. </jats:p>
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author Dammann, Dyre O., Eriksson, Leif E. B., Nghiem, Son V., Pettit, Erin C., Kurtz, Nathan T., Sonntag, John G., Busche, Thomas E., Meyer, Franz J., Mahoney, Andrew R.
author_facet Dammann, Dyre O., Eriksson, Leif E. B., Nghiem, Son V., Pettit, Erin C., Kurtz, Nathan T., Sonntag, John G., Busche, Thomas E., Meyer, Franz J., Mahoney, Andrew R., Dammann, Dyre O., Eriksson, Leif E. B., Nghiem, Son V., Pettit, Erin C., Kurtz, Nathan T., Sonntag, John G., Busche, Thomas E., Meyer, Franz J., Mahoney, Andrew R.
author_sort dammann, dyre o.
container_issue 7
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container_title The Cryosphere
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description <jats:p>Abstract. Icebergs in polar regions affect water salinity, alter marine habitats, and impose serious hazards on maritime operations and navigation. These impacts mainly depend on the iceberg volume, which remains an elusive parameter to measure. We investigate the capability of TanDEM-X bistatic single-pass synthetic aperture radar interferometry (InSAR) to derive iceberg subaerial morphology and infer total volume. We cross-verify InSAR results with Operation IceBridge (OIB) data acquired near Wordie Bay, Antarctica, as part of the OIB/TanDEM-X Antarctic Science Campaign (OTASC). While icebergs are typically classified according to size based on length or maximum height, we develop a new volumetric classification approach for applications where iceberg volume is relevant. For icebergs with heights exceeding 5 m, we find iceberg volumes derived from TanDEM-X and OIB data match within 7 %. We also derive a range of possible iceberg keel depths relevant to grounding and potential impacts on subsea installations. These results suggest that TanDEM-X could pave the way for future single-pass interferometric systems for scientific and operational iceberg mapping and classification based on iceberg volume and keel depth. </jats:p>
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spelling Dammann, Dyre O. Eriksson, Leif E. B. Nghiem, Son V. Pettit, Erin C. Kurtz, Nathan T. Sonntag, John G. Busche, Thomas E. Meyer, Franz J. Mahoney, Andrew R. 1994-0424 Copernicus GmbH Earth-Surface Processes Water Science and Technology http://dx.doi.org/10.5194/tc-13-1861-2019 <jats:p>Abstract. Icebergs in polar regions affect water salinity, alter marine habitats, and impose serious hazards on maritime operations and navigation. These impacts mainly depend on the iceberg volume, which remains an elusive parameter to measure. We investigate the capability of TanDEM-X bistatic single-pass synthetic aperture radar interferometry (InSAR) to derive iceberg subaerial morphology and infer total volume. We cross-verify InSAR results with Operation IceBridge (OIB) data acquired near Wordie Bay, Antarctica, as part of the OIB/TanDEM-X Antarctic Science Campaign (OTASC). While icebergs are typically classified according to size based on length or maximum height, we develop a new volumetric classification approach for applications where iceberg volume is relevant. For icebergs with heights exceeding 5 m, we find iceberg volumes derived from TanDEM-X and OIB data match within 7 %. We also derive a range of possible iceberg keel depths relevant to grounding and potential impacts on subsea installations. These results suggest that TanDEM-X could pave the way for future single-pass interferometric systems for scientific and operational iceberg mapping and classification based on iceberg volume and keel depth. </jats:p> Iceberg topography and volume classification using TanDEM-X interferometry The Cryosphere
spellingShingle Dammann, Dyre O., Eriksson, Leif E. B., Nghiem, Son V., Pettit, Erin C., Kurtz, Nathan T., Sonntag, John G., Busche, Thomas E., Meyer, Franz J., Mahoney, Andrew R., The Cryosphere, Iceberg topography and volume classification using TanDEM-X interferometry, Earth-Surface Processes, Water Science and Technology
title Iceberg topography and volume classification using TanDEM-X interferometry
title_full Iceberg topography and volume classification using TanDEM-X interferometry
title_fullStr Iceberg topography and volume classification using TanDEM-X interferometry
title_full_unstemmed Iceberg topography and volume classification using TanDEM-X interferometry
title_short Iceberg topography and volume classification using TanDEM-X interferometry
title_sort iceberg topography and volume classification using tandem-x interferometry
title_unstemmed Iceberg topography and volume classification using TanDEM-X interferometry
topic Earth-Surface Processes, Water Science and Technology
url http://dx.doi.org/10.5194/tc-13-1861-2019