Accurate coastal DEM generation by merging ASTER GDEM and ICESat/GLAS data over Mertz Glacier, Antarctica

Wang, Xianwei, Holland, David M. and Gudmundsson, Hilmar (2018) Accurate coastal DEM generation by merging ASTER GDEM and ICESat/GLAS data over Mertz Glacier, Antarctica. Remote Sensing of Environment, 206. pp. 218-230. ISSN 0034-4257

Full text not available from this repository.
Official URL: http://dx.doi.org/10.1016/j.rse.2017.12.041

Abstract

Mertz Glacier (MG) calved in February 2010 and a 70-years’ calving cycle of MG was reported recently because of the shallow Mertz Bank. To better investigate the calving process, a high accurate surface Digital Elevation Model (DEM) with accurate date marker over MG is urgently required for numerical modeling, especially over the ice tongue. However it is quite challenging to generate an accurate DEM over high relief and steep slope regions. To solve this problem, a new method for accurate coastal DEM production by merging ASTER GDEM and ICESat/GLAS data is designed, which can effectively discriminate accurate elevation data from ASTER GDEM. Then, a DEM corresponding to the end of 2002 over MG is generated, which has an accuracy of 0.99 ± 17.50 m. This DEM is several times better in accuracy than the original ASTER GDEM (accuracy: − 8.17 ± 54.31 m) and two new characteristics of ASTER GDEM have been found through analysis. First, ASTER GDEM has elevation bias (varying from − 23 m to 28 m), spatially correlated to ASTER ground tracks, which was most probably caused by uncertainty of attitude measurements of ASTER. Second, ASTER GDEM grids with stacking number ≥ 4 can be effectively adjusted by ground control points so as to improve elevation accuracy. Additionally, this DEM has the best accuracy by comparing with other DEMs (RAMP DEM: 47.71 ± 91.61 m, ICESat/GLAS DEM: − 1.01 ± 30.33, Bamber DEM: − 1.07 ± 33.04 m, Bedmap-2 DEM: 9.19 ± 48.34 m, and Cryosat-2 DEM: − 5.42 ± 32.02 m). The high performance of our DEM in accuracy indicates that our method is effective and has a potential to be widely used to improve existing ASTER GDEM along Antarctic coast.

Item Type: Article
Uncontrolled Keywords: ASTER GDEM; ICESat/GLAS; ICE-Bridge; Mertz Glacier; Antarctic coast; Laser altimetry
Subjects: F800 Physical and Terrestrial Geographical and Environmental Sciences
Department: Faculties > Engineering and Environment > Geography and Environmental Sciences
Depositing User: Paul Burns
Date Deposited: 04 Jun 2018 11:13
Last Modified: 21 Jun 2018 14:49
URI: http://nrl.northumbria.ac.uk/id/eprint/34462

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