Modelling glacial lake outburst flood impacts in the Bolivian Andes

Ioannis Kougkoulos (), Simon J. Cook (), Laura A. Edwards, Leon J. Clarke, Elias Symeonakis, Jason M. Dortch and Kathleen Nesbitt
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Ioannis Kougkoulos: Manchester Metropolitan University
Simon J. Cook: University of Dundee
Laura A. Edwards: Liverpool John Moores University
Leon J. Clarke: Manchester Metropolitan University
Elias Symeonakis: Manchester Metropolitan University
Jason M. Dortch: University of Kentucky
Kathleen Nesbitt: University of Manchester

Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards, 2018, vol. 94, issue 3, No 23, 1415-1438

Abstract: Abstract The Bolivian Andes have experienced sustained and widespread glacier mass loss in recent decades. Glacier recession has been accompanied by the development of proglacial lakes, which pose a glacial lake outburst flood (GLOF) risk to downstream communities and infrastructure. Previous research has identified three potentially dangerous glacial lakes in the Bolivian Andes, but no attempt has yet been made to model GLOF inundation downstream from these lakes. We generated 2-m resolution DEMs from stereo and tri-stereo SPOT 6/7 satellite images to drive a hydrodynamic model of GLOF flow (HEC-RAS 5.0.3). The model was tested against field observations of a 2009 GLOF from Keara, in the Cordillera Apolobamba, and was shown to reproduce realistic flood depths and inundation. The model was then used to model GLOFs from Pelechuco lake (Cordillera Apolobamba) and Laguna Arkhata and Laguna Glaciar (Cordillera Real). In total, six villages could be affected by GLOFs if all three lakes burst. For sensitivity analysis, we ran the model for three scenarios (pessimistic, intermediate, optimistic), which give a range of ~ 1100 to ~ 2200 people affected by flooding; between ~ 800 and ~ 2100 people could be exposed to floods with a flow depth ≥ 2 m, which could be life threatening and cause a significant damage to infrastructure. We suggest that Laguna Arkhata and Pelechuco lake represent the greatest risk due to the higher numbers of people who live in the potential flow paths, and hence, these two glacial lakes should be a priority for risk managers.

Keywords: Bolivian Andes; Geohazards; Glacial lake outburst floods (GLOFs); Hydrodynamic modelling; Risk assessment (search for similar items in EconPapers)
Date: 2018
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DOI: 10.1007/s11069-018-3486-6

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