Resolving bathymetry from airborne gravity along Greenland fjords

Recent glacier mass loss in Greenland has been attributed to encroaching warming waters, but knowledge of fjord bathymetry is required to investigate this mechanism. The bathymetry in many Greenland fjords is unmapped and difficult to measure. From 2010 to 2012, National Aeronautics and Space Admini...

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Veröffentlicht in:Journal of geophysical research. Solid earth 2015-12, Vol.120 (12), p.8516-8533
Hauptverfasser: Boghosian, Alexandra, Tinto, Kirsty, Cochran, James R., Porter, David, Elieff, Stefan, Burton, Bethany L., Bell, Robin E.
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Sprache:eng
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Zusammenfassung:Recent glacier mass loss in Greenland has been attributed to encroaching warming waters, but knowledge of fjord bathymetry is required to investigate this mechanism. The bathymetry in many Greenland fjords is unmapped and difficult to measure. From 2010 to 2012, National Aeronautics and Space Administration's Operation IceBridge collected a unique set of airborne gravity, magnetic, radar, and lidar data along the major outlet glaciers and fjords in Greenland. We applied a consistent technique using the IceBridge gravity data to create 90 bathymetric profiles along 54 Greenland fjords. We also used this technique to recover subice topography where warm or crevassed ice prevents the radar system from imaging the bed. Here we discuss our methodology, basic assumptions and error analysis. We present the new bathymetry data and discuss observations in six major regions of Greenland covered by IceBridge. The gravity models provide a total of 1950 line kilometers of bathymetry, 875 line kilometers of subice topography, and 12 new grounding line depths. Key Points Operation IceBridge data sets used for gravity inversions in Greenland fjords New bathymetry in 54 fjords, new sub ice topography in outlet glaciers Models show fjord morphology, changes in geology, and resolve ambiguous radar
ISSN:2169-9313
2169-9356
DOI:10.1002/2015JB012129