Scenario ensemble modelling of possible future earthquake impacts in Bhutan

Robinson, Tom R.

doi:10.1007/s11069-020-04138-x

Scenario ensemble modelling of possible future earthquake impacts in Bhutan

Robinson, Tom R.

Authors

Tom R. Robinson

Abstract

Recent large earthquakes in the Himalaya have resulted in tens of thousands of fatalities, yet these events are thought to have had relatively moderate magnitudes for the region. Evidence suggests multiple events throughout the Himalaya in the last 1000 years have had M > 8.0 and at least two have had M > 8.5. Despite this, understanding of earthquake risk in the region is poorly constrained, particularly in Bhutan, where research on both past and future earthquakes is notably scarce. While recent work has clearly shown the potential for large earthquakes here, the impacts from potential future earthquakes in Bhutan are entirely unknown. This study attempts to address this by modelling the potential fatalities associated with a range of plausible earthquakes through a scenario ensemble analysis in order to inform contingency planning and preparedness. The results show that both the timing and location of future earthquakes are critical factors in determining the number of fatalities, with night-time earthquakes, and those located in the west of the country proving most fatal. The worst case involves ~ 9000 fatalities and results from an M8.5 earthquake directly beneath Bhutan. Nevertheless, at the local scale the number of fatalities appears to saturate at ~ M7.5, since larger earthquakes do not result in significantly larger modelled fatalities. This suggests that local-scale impacts approaching the worst case may be relatively common and emergency planning could focus on comparatively moderate-sized earthquakes since larger, less frequent events may not necessarily result in significantly more fatalities.

Citation

Robinson, T. R. (2020). Scenario ensemble modelling of possible future earthquake impacts in Bhutan. Natural Hazards, 103(3), 3457-3478. https://doi.org/10.1007/s11069-020-04138-x

Journal Article Type	Article
Acceptance Date	Jun 22, 2020
Online Publication Date	Jun 30, 2020
Publication Date	2020-10
Deposit Date	Jul 15, 2020
Publicly Available Date	Jul 15, 2020
Journal	Natural Hazards
Print ISSN	0921-030X
Electronic ISSN	1573-0840
Publisher	Springer
Peer Reviewed	Peer Reviewed
Volume	103
Issue	3
Pages	3457-3478
DOI	https://doi.org/10.1007/s11069-020-04138-x

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