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Developing an Event Tree for probabilistic hazard and risk assessment at Vesuvius

Developing an Event Tree for probabilistic hazard and risk assessment at Vesuvius
Developing an Event Tree for probabilistic hazard and risk assessment at Vesuvius
Probabilistic characterizations of possible future eruptive scenarios at Vesuvius volcano are elaborated and organized within a risk-based framework. In the EXPLORIS project, a wide variety of topics relating to this basic problem have been pursued: updates of historical data, reinterpretation of previous geological field data and the collection of new fieldwork results, the development of novel numerical modelling codes and of risk assessment techniques have all been completed. To achieve coherence, many diverse strands of evidence had to be unified within a formalised structure, and linked together by expert knowledge. For this purpose, a Vesuvius ‘Event Tree’ (ET) was created to summarise in a numerical-graphical form, at different levels of detail, all the relative likelihoods relating to the genesis and style of eruption, development and nature of volcanic hazards, and the probabilities of occurrence of different volcanic risks in the next eruption crisis. The Event Tree formulation provides a logical pathway connecting generic probabilistic hazard assessment to quantitative risk evaluation. In order to achieve a complete parameterization for this all-inclusive approach, exhaustive hazard and risk models were needed, quantified with comprehensive uncertainty distributions for all factors involved, rather than simple ‘best-estimate’ or nominal values. Thus, a structured expert elicitation procedure was implemented to complement more traditional data analysis and interpretative approaches. The structure of the Vesuvius Event Tree is presented, and some of the data analysis findings and elicitation outcomes that have provided initial indicative probability distributions to be associated with each of its branches are summarized. The Event Tree extends from initiating volcanic eruption events and hazards right through to human impact and infrastructure consequences, with the complete tree and its parameterisation forming a quantitative synoptic framework for comprehensive hazard evaluation and mapping of risk impacts. The organization of the Event Tree allows easy updating, as and when new information becomes available.
Vesuvius, volcanic hazard, volcanic risk, probabilistic risk assessment, Event Tree
0377-0273
397-415
Neri, A.
f5d770f3-6b0d-4245-97c0-2af49b3db7f7
Aspinall, W. P.
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Cioni, R.
35733fb4-b196-4b6c-a7b9-f11fd134176a
Bertagnini, A.
f0729480-64bb-4891-a795-f56889d0227a
Baxter, P. J.
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Zuccaro, G.
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Andronico, D.
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Barsotti, S.
98d47766-770b-471b-b534-cee091511022
Cole, P. D.
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Ongaro, T. Esposti
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Hincks, T. K.
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Macedonio, G.
165dd510-e21b-4f39-b664-c731d2e41272
Papale, P.
1e2d0a70-f75a-4e9a-af9d-0902b5056083
Rosi, M.
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Santacroce, R.
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Woo, G.
ebb38930-3015-42b7-97bc-d81b377b01a0
Neri, A.
f5d770f3-6b0d-4245-97c0-2af49b3db7f7
Aspinall, W. P.
25ef2452-87f4-47f7-8a3b-49b33dd1c377
Cioni, R.
35733fb4-b196-4b6c-a7b9-f11fd134176a
Bertagnini, A.
f0729480-64bb-4891-a795-f56889d0227a
Baxter, P. J.
b041a9ac-1970-4c6c-94e3-7e566472b792
Zuccaro, G.
27a8e92f-38db-44af-95eb-c3fe93d780bb
Andronico, D.
58aa90b9-f5ad-444e-8c10-27b5b745be9f
Barsotti, S.
98d47766-770b-471b-b534-cee091511022
Cole, P. D.
20e989bb-2d0d-4c1a-a7b1-e83296fd1487
Ongaro, T. Esposti
bad8c85b-5877-4072-baad-21de194de0bf
Hincks, T. K.
9654038a-2f5c-40bc-8f0e-33afc0b1fb71
Macedonio, G.
165dd510-e21b-4f39-b664-c731d2e41272
Papale, P.
1e2d0a70-f75a-4e9a-af9d-0902b5056083
Rosi, M.
2ad2297f-69fe-4839-94fd-e9e17bc4ac3d
Santacroce, R.
09a5c9b4-44d6-4345-90cf-c92c9fe45daa
Woo, G.
ebb38930-3015-42b7-97bc-d81b377b01a0

Neri, A., Aspinall, W. P., Cioni, R., Bertagnini, A., Baxter, P. J., Zuccaro, G., Andronico, D., Barsotti, S., Cole, P. D., Ongaro, T. Esposti, Hincks, T. K., Macedonio, G., Papale, P., Rosi, M., Santacroce, R. and Woo, G. (2008) Developing an Event Tree for probabilistic hazard and risk assessment at Vesuvius. Journal of Volcanology and Geothermal Research, 178 (3), 397-415. (doi:10.1016/j.jvolgeores.2008.05.014).

Record type: Article

Abstract

Probabilistic characterizations of possible future eruptive scenarios at Vesuvius volcano are elaborated and organized within a risk-based framework. In the EXPLORIS project, a wide variety of topics relating to this basic problem have been pursued: updates of historical data, reinterpretation of previous geological field data and the collection of new fieldwork results, the development of novel numerical modelling codes and of risk assessment techniques have all been completed. To achieve coherence, many diverse strands of evidence had to be unified within a formalised structure, and linked together by expert knowledge. For this purpose, a Vesuvius ‘Event Tree’ (ET) was created to summarise in a numerical-graphical form, at different levels of detail, all the relative likelihoods relating to the genesis and style of eruption, development and nature of volcanic hazards, and the probabilities of occurrence of different volcanic risks in the next eruption crisis. The Event Tree formulation provides a logical pathway connecting generic probabilistic hazard assessment to quantitative risk evaluation. In order to achieve a complete parameterization for this all-inclusive approach, exhaustive hazard and risk models were needed, quantified with comprehensive uncertainty distributions for all factors involved, rather than simple ‘best-estimate’ or nominal values. Thus, a structured expert elicitation procedure was implemented to complement more traditional data analysis and interpretative approaches. The structure of the Vesuvius Event Tree is presented, and some of the data analysis findings and elicitation outcomes that have provided initial indicative probability distributions to be associated with each of its branches are summarized. The Event Tree extends from initiating volcanic eruption events and hazards right through to human impact and infrastructure consequences, with the complete tree and its parameterisation forming a quantitative synoptic framework for comprehensive hazard evaluation and mapping of risk impacts. The organization of the Event Tree allows easy updating, as and when new information becomes available.

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More information

Published date: 20 December 2008
Additional Information: Copyright © 2008 Elsevier
Keywords: Vesuvius, volcanic hazard, volcanic risk, probabilistic risk assessment, Event Tree

Identifiers

Local EPrints ID: 458108
URI: http://eprints.soton.ac.uk/id/eprint/458108
ISSN: 0377-0273
PURE UUID: 94b1bef3-4b46-4f6d-9d4f-bf86168a12ab
ORCID for T. K. Hincks: ORCID iD orcid.org/0000-0003-4537-6194

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Date deposited: 28 Jun 2022 17:06
Last modified: 17 Mar 2024 03:53

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Contributors

Author: A. Neri
Author: W. P. Aspinall
Author: R. Cioni
Author: A. Bertagnini
Author: P. J. Baxter
Author: G. Zuccaro
Author: D. Andronico
Author: S. Barsotti
Author: P. D. Cole
Author: T. Esposti Ongaro
Author: T. K. Hincks ORCID iD
Author: G. Macedonio
Author: P. Papale
Author: M. Rosi
Author: R. Santacroce
Author: G. Woo

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