Evaluation of reconstructions of snow/ice melt in Greenland by regional atmospheric climate models using laser altimetry data

peer reviewed he surface mass balance (SMB) of the Greenland Ice Sheet critically depend on the intensity of ice/snow melt in its ablation zone, but in‐situ data have been too limited to quantify the error of regional climate models. Here, we use 23 years of NASA satellite and airborne laser altimet...

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Bibliographic Details
Published in:Geophysical Research Letters
Main Authors: Sutterley, T., Velicogna, I., Fettweis, Xavier, Rignot, E., Noël, Brice, van den Broeke, M.
Format: Article in Journal/Newspaper
Language:English
Published: Wiley-Blackwell 2018
Subjects:
Physical
chemical
mathematical & earth Sciences
Earth sciences & physical geography
Physique
chimie
mathématiques & sciences de la terre
Sciences de la terre & géographie physique
Airborne Topographic Mapper
Greenland
Ice Sheet
North Greenland
Online Access:https://orbi.uliege.be/handle/2268/226651
https://orbi.uliege.be/bitstream/2268/226651/1/2018GL078645.pdf
https://doi.org/10.1029/2018gl078645
Description
Summary:peer reviewed he surface mass balance (SMB) of the Greenland Ice Sheet critically depend on the intensity of ice/snow melt in its ablation zone, but in‐situ data have been too limited to quantify the error of regional climate models. Here, we use 23 years of NASA satellite and airborne laser altimetry from the Airborne Topographic Mapper (ATM), Land, Vegetation and Ice Sensor (LVIS) and Ice, Cloud and land Elevation Satellite (ICESat) to generate time series of elevation change to compare with SMB products from the Regional Atmospheric Climate Model (RACMO2.3p2) and from the Modèle Atmosphérique Régional (MARv3.5.2). For 1994‐2016, the results agree at the 15‐26% level, with the largest discrepancy in north Greenland. During the cold summer 2015, the RMS discrepancy is 40% in the north, 30% in the southwest, and 18‐25% at low elevation. The difference drops to 23% in the southwest and 14% at low elevation during the 2016 warm summer.

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