Lahar risk assessment from source identification to potential impact analysis: the case of Vulcano Island, Italy
Lahars are rapid flows composed of water and volcaniclastic sediments, which have the potential to impact residential buildings and critical infrastructure as well as to disrupt critical services, especially in the absence of hazard-based land-use planning. Their destructive power is mostly associat...
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2023
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Science::Geology Lahar Debris Flow |
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Science::Geology Lahar Debris Flow Gattuso, Alessandro Bonadonna, Costanza Frischknecht, Corine Cuomo, Sabatino Baumann, Valérie Pistolesi, Marco Biass, Sebastien Arrowsmith, J. Ramon Moscariello, Mariagiovanna Rosi, Mauro Lahar risk assessment from source identification to potential impact analysis: the case of Vulcano Island, Italy |
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Lahars are rapid flows composed of water and volcaniclastic sediments, which have the potential to impact residential buildings and critical infrastructure as well as to disrupt critical services, especially in the absence of hazard-based land-use planning. Their destructive power is mostly associated with their velocity (related to internal flow properties and topographic interactions) and to their ability to bury buildings and structures (due to deposit thickness). The distance reached by lahars depends on their volume, on sediments/water ratio, as well as on the geometrical properties of the topography where they propagate. Here we present the assessment of risk associated with lahar using Vulcano island (Italy) as a case study. First, we estimated an initial lahar source volume considering the remobilisation by intense rain events of the tephra fallout on the slopes of the La Fossa cone (the active system on the island), where the tephra fallout is associated with the most likely scenario (e.g. long-lasting Vulcanian cycle). Second, we modelled and identified the potential syn-eruptive lahar impact areas on the northern sector of Vulcano, where residential and touristic facilities are located. We tested a range of parameters (e.g., entrainment capability, consolidation of tephra fallout deposit, friction angle) that can influence lahar propagation output both in terms of intensity of the event and extent of the inundation area. Finally, exposure and vulnerability surveys were carried out in order to compile exposure and risk maps for lahar-flow front velocity (semi-quantitative indicator-based risk assessment) and final lahar-deposit thickness (qualitative exposure-based risk assessment). Main outcomes show that the syn-eruptive lahar scenario with medium entrainment capability produces the highest impact associated with building burial by the final lahar deposit. Nonetheless, the syn-eruptive lahar scenario with low entrainment capacity is associated with higher runout and results in the highest impact associated with lahar-flow velocities. Based on our simulations, two critical infrastructures (telecommunication and power plant), as well as the main road crossing the island are exposed to potential lahar impacts (either due to lahar-flow velocity or lahar-deposit thickness or both). These results show that a risk-based spatial planning of the island could represent a valuable strategy to reduce the volcanic risk in the long term. |
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Earth Observatory of Singapore |
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Earth Observatory of Singapore Gattuso, Alessandro Bonadonna, Costanza Frischknecht, Corine Cuomo, Sabatino Baumann, Valérie Pistolesi, Marco Biass, Sebastien Arrowsmith, J. Ramon Moscariello, Mariagiovanna Rosi, Mauro |
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Article |
| author |
Gattuso, Alessandro Bonadonna, Costanza Frischknecht, Corine Cuomo, Sabatino Baumann, Valérie Pistolesi, Marco Biass, Sebastien Arrowsmith, J. Ramon Moscariello, Mariagiovanna Rosi, Mauro |
| author_sort |
Gattuso, Alessandro |
| title |
Lahar risk assessment from source identification to potential impact analysis: the case of Vulcano Island, Italy |
| title_short |
Lahar risk assessment from source identification to potential impact analysis: the case of Vulcano Island, Italy |
| title_full |
Lahar risk assessment from source identification to potential impact analysis: the case of Vulcano Island, Italy |
| title_fullStr |
Lahar risk assessment from source identification to potential impact analysis: the case of Vulcano Island, Italy |
| title_full_unstemmed |
Lahar risk assessment from source identification to potential impact analysis: the case of Vulcano Island, Italy |
| title_sort |
lahar risk assessment from source identification to potential impact analysis: the case of vulcano island, italy |
| publishDate |
2023 |
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https://hdl.handle.net/10356/164945 |
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1759856297714384896 |
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sg-ntu-dr.10356-1649452023-03-01T03:31:48Z Lahar risk assessment from source identification to potential impact analysis: the case of Vulcano Island, Italy Gattuso, Alessandro Bonadonna, Costanza Frischknecht, Corine Cuomo, Sabatino Baumann, Valérie Pistolesi, Marco Biass, Sebastien Arrowsmith, J. Ramon Moscariello, Mariagiovanna Rosi, Mauro Earth Observatory of Singapore Science::Geology Lahar Debris Flow Lahars are rapid flows composed of water and volcaniclastic sediments, which have the potential to impact residential buildings and critical infrastructure as well as to disrupt critical services, especially in the absence of hazard-based land-use planning. Their destructive power is mostly associated with their velocity (related to internal flow properties and topographic interactions) and to their ability to bury buildings and structures (due to deposit thickness). The distance reached by lahars depends on their volume, on sediments/water ratio, as well as on the geometrical properties of the topography where they propagate. Here we present the assessment of risk associated with lahar using Vulcano island (Italy) as a case study. First, we estimated an initial lahar source volume considering the remobilisation by intense rain events of the tephra fallout on the slopes of the La Fossa cone (the active system on the island), where the tephra fallout is associated with the most likely scenario (e.g. long-lasting Vulcanian cycle). Second, we modelled and identified the potential syn-eruptive lahar impact areas on the northern sector of Vulcano, where residential and touristic facilities are located. We tested a range of parameters (e.g., entrainment capability, consolidation of tephra fallout deposit, friction angle) that can influence lahar propagation output both in terms of intensity of the event and extent of the inundation area. Finally, exposure and vulnerability surveys were carried out in order to compile exposure and risk maps for lahar-flow front velocity (semi-quantitative indicator-based risk assessment) and final lahar-deposit thickness (qualitative exposure-based risk assessment). Main outcomes show that the syn-eruptive lahar scenario with medium entrainment capability produces the highest impact associated with building burial by the final lahar deposit. Nonetheless, the syn-eruptive lahar scenario with low entrainment capacity is associated with higher runout and results in the highest impact associated with lahar-flow velocities. Based on our simulations, two critical infrastructures (telecommunication and power plant), as well as the main road crossing the island are exposed to potential lahar impacts (either due to lahar-flow velocity or lahar-deposit thickness or both). These results show that a risk-based spatial planning of the island could represent a valuable strategy to reduce the volcanic risk in the long term. Published version A. Gattuso was supported by the Measuring and Modelling of Volcano Eruption Dynamics (MeMoVolc) ESF Network for his participation to the CERG-C program. 2023-03-01T01:19:49Z 2023-03-01T01:19:49Z 2021 Journal Article Gattuso, A., Bonadonna, C., Frischknecht, C., Cuomo, S., Baumann, V., Pistolesi, M., Biass, S., Arrowsmith, J. R., Moscariello, M. & Rosi, M. (2021). Lahar risk assessment from source identification to potential impact analysis: the case of Vulcano Island, Italy. Journal of Applied Volcanology, 10(1). https://dx.doi.org/10.1186/s13617-021-00107-6 2191-5040 https://hdl.handle.net/10356/164945 10.1186/s13617-021-00107-6 2-s2.0-85120935321 1 10 en Journal of Applied Volcanology © The Author(s) 2021. Open Access. This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. The Creative Commons Public Domain Dedication waiver (http://creativeco mmons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated in a credit line to the data. application/pdf |