Glacial lake outburst flood hazard assessment by satellite Earth observation in the Himalayas (Chomolhari area, Bhutan)

Glacial lake outburst flood hazard assessment by satellite Earth observation in the Himalayas (Chomolhari area, Bhutan)

<p>A case study of glacial lakes outburst flood (GLOF) hazard assessment by satellite Earth observation (EO) and numerical modelling is presented for the supraglacial and ice-contact lakes on Thangothang Chhu glacier, Chomolhari area (Bhutan). Detailed geomorphological mapping, including lands...

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Main Authors: C. Scapozza, C. Ambrosi, M. Cannata, T. Strozzi
Format: Article
Language:deu
Published: Copernicus Publications 2019-03-01
Series:Geographica Helvetica
Online Access:https://www.geogr-helv.net/74/125/2019/gh-74-125-2019.pdf
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spelling doaj-8962ba7604894f76a86c4490312d6bd42020-11-25T02:46:23ZdeuCopernicus PublicationsGeographica Helvetica0016-73122194-87982019-03-017412513910.5194/gh-74-125-2019Glacial lake outburst flood hazard assessment by satellite Earth observation in the Himalayas (Chomolhari area, Bhutan)C. Scapozza0C. Ambrosi1M. Cannata2T. Strozzi3Institute of Earth Sciences, University of Applied Sciences and Arts of Southern Switzerland (SUPSI), Campus Trevano, 6952 Canobbio, SwitzerlandInstitute of Earth Sciences, University of Applied Sciences and Arts of Southern Switzerland (SUPSI), Campus Trevano, 6952 Canobbio, SwitzerlandInstitute of Earth Sciences, University of Applied Sciences and Arts of Southern Switzerland (SUPSI), Campus Trevano, 6952 Canobbio, SwitzerlandGamma Remote Sensing, Worbstrasse 225, 3073 Gümligen, Switzerland<p>A case study of glacial lakes outburst flood (GLOF) hazard assessment by satellite Earth observation (EO) and numerical modelling is presented for the supraglacial and ice-contact lakes on Thangothang Chhu glacier, Chomolhari area (Bhutan). Detailed geomorphological mapping, including landslide and rock glacier inventories, as well as surface displacement determination using an interferometric SAR (InSAR) satellite, allowed a GLOF hazard assessment for lake Wa-007 to be performed. Outburst scenario modelling was achieved by combining both empirical and numerical modelling approaches, revealing that only a flood wave can have an impact on the two human settlements located downslope of Wa-007 lake. The worst-case scenario, modelled thanks to r.damflood, allowed the wave-front arrival time, the maximum water depth and the arrival time of maximum water height for the two human settlements to be quantified. A long-term monitoring strategy based entirely on EO data, with an update cycle of 5 years, is proposed to assess the future evolution of the area.</p>https://www.geogr-helv.net/74/125/2019/gh-74-125-2019.pdf
collection DOAJ
language deu
format Article
sources DOAJ
author C. Scapozza
C. Ambrosi
M. Cannata
T. Strozzi
spellingShingle C. Scapozza
C. Ambrosi
M. Cannata
T. Strozzi
Glacial lake outburst flood hazard assessment by satellite Earth observation in the Himalayas (Chomolhari area, Bhutan)
Geographica Helvetica
author_facet C. Scapozza
C. Ambrosi
M. Cannata
T. Strozzi
author_sort C. Scapozza
title Glacial lake outburst flood hazard assessment by satellite Earth observation in the Himalayas (Chomolhari area, Bhutan)
title_short Glacial lake outburst flood hazard assessment by satellite Earth observation in the Himalayas (Chomolhari area, Bhutan)
title_full Glacial lake outburst flood hazard assessment by satellite Earth observation in the Himalayas (Chomolhari area, Bhutan)
title_fullStr Glacial lake outburst flood hazard assessment by satellite Earth observation in the Himalayas (Chomolhari area, Bhutan)
title_full_unstemmed Glacial lake outburst flood hazard assessment by satellite Earth observation in the Himalayas (Chomolhari area, Bhutan)
title_sort glacial lake outburst flood hazard assessment by satellite earth observation in the himalayas (chomolhari area, bhutan)
publisher Copernicus Publications
series Geographica Helvetica
issn 0016-7312
2194-8798
publishDate 2019-03-01
description <p>A case study of glacial lakes outburst flood (GLOF) hazard assessment by satellite Earth observation (EO) and numerical modelling is presented for the supraglacial and ice-contact lakes on Thangothang Chhu glacier, Chomolhari area (Bhutan). Detailed geomorphological mapping, including landslide and rock glacier inventories, as well as surface displacement determination using an interferometric SAR (InSAR) satellite, allowed a GLOF hazard assessment for lake Wa-007 to be performed. Outburst scenario modelling was achieved by combining both empirical and numerical modelling approaches, revealing that only a flood wave can have an impact on the two human settlements located downslope of Wa-007 lake. The worst-case scenario, modelled thanks to r.damflood, allowed the wave-front arrival time, the maximum water depth and the arrival time of maximum water height for the two human settlements to be quantified. A long-term monitoring strategy based entirely on EO data, with an update cycle of 5 years, is proposed to assess the future evolution of the area.</p>
url https://www.geogr-helv.net/74/125/2019/gh-74-125-2019.pdf
work_keys_str_mv AT cscapozza glaciallakeoutburstfloodhazardassessmentbysatelliteearthobservationinthehimalayaschomolhariareabhutan
AT cambrosi glaciallakeoutburstfloodhazardassessmentbysatelliteearthobservationinthehimalayaschomolhariareabhutan
AT mcannata glaciallakeoutburstfloodhazardassessmentbysatelliteearthobservationinthehimalayaschomolhariareabhutan
AT tstrozzi glaciallakeoutburstfloodhazardassessmentbysatelliteearthobservationinthehimalayaschomolhariareabhutan
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