Modelling glacier-bed overdeepenings and possible future lakes for the glaciers in the Himalaya—Karakoram region

Surface digital elevation models (DEMs) and slope-related estimates of glacier thickness enable modelling of glacier-bed topographies over large ice-covered areas. Due to the erosive power of glaciers, such bed topographies can contain numerous overdeepenings, which when exposed following glacier re...

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Bibliographic Details
Published in:Annals of Glaciology
Main Authors: A. Linsbauer, H. Frey, W. Haeberli, H. Machguth, M.F. Azam, S. Allen
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press 2016
Subjects:
glacial geomorphology
glaciological model experiments
processes and landforms of glacial erosion
Meteorology. Climatology
QC851-999
New Lakes
Annals of Glaciology
ice covered areas
Online Access:https://doi.org/10.3189/2016AoG71A627
https://doaj.org/article/f46a8d83cd5b43b38df87aba5123ff1f
Description
Summary:Surface digital elevation models (DEMs) and slope-related estimates of glacier thickness enable modelling of glacier-bed topographies over large ice-covered areas. Due to the erosive power of glaciers, such bed topographies can contain numerous overdeepenings, which when exposed following glacier retreat may fill with water and form new lakes. In this study, the bed overdeepenings for ~28 000 glaciers (40 775 km2) of the Himalaya-Karakoram region are modelled using GlabTop2 (Glacier Bed Topography model version 2), in which ice thickness is inferred from surface slope by parameterizing basal shear stress as a function of elevation range for each glacier. The modelled ice thicknesses are uncertain (±30%), but spatial patterns of ice thickness and bed elevation primarily depend on surface slopes as derived from the DEM and, hence, are more robust. About 16 000 overdeepenings larger than 104m2 were detected in the modelled glacier beds, covering an area of ~2200 km2 and having a volume of ~120km3 (3-4% of present-day glacier volume). About 5000 of these overdeepenings (1800 km2) have a volume larger than 106m3. The results presented here are useful for anticipating landscape evolution and potential future lake formation with associated opportunities (tourism, hydropower) and risks (lake outbursts).

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