Fredenslund Levinsen, Joanna1; Howat, I. M.3; Tscherning, C. C.4
1 National Space Institute, Technical University of Denmark2 Geodynamics, National Space Institute, Technical University of Denmark3 Ohio State University4 University of Copenhagen
We combine the complementary characteristics of laser altimeter data and stereoscopic digital elevation models (DEMs) to construct high-resolution (_100 m) maps of surface elevations and elevation changes over rapidly changing outlet glaciers in Greenland. Measurements from spaceborne and airborne laser altimeters have relatively low errors but are spatially limited to the ground tracks, while DEMs have larger errors but provide spatially continuous surfaces. The principle of our method is to fit the DEM surface to the altimeter point clouds in time and space to minimize the DEM errors and use that surface to extrapolate elevations away from altimeter flight lines. This reduces the DEM registration errors and fills the gap between the altimeter paths. We use data from ICESat and ATM as well as SPOT 5 DEMs from 2007 and 2008 and apply them to the outlet glaciers Jakobshavn Isbræ (JI) and Kangerdlugssuaq (KL). We find that the main trunks of JI and KL lowered at rates of 30–35 and 7–20ma_1, respectively. The rates decreased inland. The corresponding errors were 0.3–5.2ma_1 for JI and 0.3–5.1ma_1 for KL, with errors increasing proportionally with distance from the altimeter paths.
Journal of Glaciology, 2013, Vol 59, Issue 215, p. 524-532