Browse Maps By Volcano
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Showing 76 volcanoes
Eastern Snake River Plain, United States
Simulation outputs from MOLASSES (MOdular LAva Simulation Software for Earth Science) simulator (2018)
Figure 3 in: Gallant, E., Richardson, J., Connor, C., Wetmore, P., Connor, L. (2018). A new approach to probabilistic lava flow hazard assessments, applied to the Idaho National Laboratory, eastern Snake River Plain, Idaho, USA. Geology, 46 (10), p. 895–898. https://doi.org/10.1130/G45123.1
Ground Deformation Hazard Zone (2002)
Figure 7 in: Hackett, W.R., Smith, R.P., & Khericha, S. (2002). Volcanic hazards of the Idaho National Engineering and Environmental Laboratory, southeast Idaho. In: Bonnichsen, B., White, C.M., and McCurry, M. (eds.). Tectonic and Magmatic Evolution of the Snake River Plain Volcanic Province. Idaho Geological Survey Bulletin 30, p. 461-482.
Lava Flow Hazard Zones (2002)
Figure 5 in: Hackett, W.R., Smith, R.P., & Khericha, S. (2002). Volcanic hazards of the Idaho National Engineering and Environmental Laboratory, southeast Idaho. In: Bonnichsen, B., White, C.M., and McCurry, M. (eds.). Tectonic and Magmatic Evolution of the Snake River Plain Volcanic Province. Idaho Geological Survey Bulletin 30, p. 461-482.
Tephra and Gas Hazard Zone (2002)
Figure 6 in: Hackett, W.R., Smith, R.P., & Khericha, S. (2002). Volcanic hazards of the Idaho National Engineering and Environmental Laboratory, southeast Idaho. In: Bonnichsen, B., White, C.M., and McCurry, M. (eds.). Tectonic and Magmatic Evolution of the Snake River Plain Volcanic Province. Idaho Geological Survey Bulletin 30, p. 461-482.
Volcanic Source Zones Significant to the Central Facilities Area (CFA) (2002)
Figure 8 in: Hackett, W.R., Smith, R.P., & Khericha, S. (2002). Volcanic hazards of the Idaho National Engineering and Environmental Laboratory, southeast Idaho. In: Bonnichsen, B., White, C.M., and McCurry, M. (eds.). Tectonic and Magmatic Evolution of the Snake River Plain Volcanic Province. Idaho Geological Survey Bulletin 30, p. 461-482.
Ground Deformation Hazard Zone (1994)
Figure 10 in: Hackett, W.R. & Smith, R.P. (1994). Volcanic hazards of the Idaho National Engineering Laboratory and adjacent areas (No. INEL--94/0276). Lockheed Martin Idaho Technologies Co..
Lava flow hazard zone map of the INEL area (1994)
Figure 8 in: Hackett, W.R. & Smith, R.P. (1994). Volcanic hazards of the Idaho National Engineering Laboratory and adjacent areas (No. INEL--94/0276). Lockheed Martin Idaho Technologies Co..
Tephra and Gas Hazard Zone (1994)
Figure 9 in: Hackett, W.R. & Smith, R.P. (1994). Volcanic hazards of the Idaho National Engineering Laboratory and adjacent areas (No. INEL--94/0276). Lockheed Martin Idaho Technologies Co..
Preliminary Overview Map of Volcanic Hazards in the 48 Coterminous United States (1978)
Mullineaux, D.R. (1978). Preliminary overview map of volcanic hazards in the 48 conterminous United States. U.S. Geological Survey, Miscellaneous Field Studies Map 786. https://doi.org/10.3133/mf786
El Solo, Chile-Argentina [VNUM = 355131]
Peligros Volcanicos de Chile (2011)
Lara, L.E., Orozco G., Amigo A. & Silva C. (2011). Peligros Volcanicos de Chile. Servicio Nacional de Geología y Minería (SERNAGEOMIN), Carte Geologica de Chile, Serie Geologia Ambiental, No. 13: 34 p., 1 mapa escala 1:2.000.000. Santiago.
Mount Scenery (Saba), Saba [Netherlands] [VNUM = 360010]
Integrated volcanic hazard zones for a dome-forming eruption from Mt. Scenery, Saba (2005)
Page 189 in: Smith, A.L. & Roobol, M.J. (2005). Saba. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 181-191.
Saba - Integrated Volcanic Hazard Zones for a dome-forming eruption from Mt. Scenery (2005)
Pocket insert in: Smith, A.L. & Roobol, M.J. (2005). Saba. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 181-191.
Volcanic hazard map for a dome-forming eruption from Mt. Scenery, Saba (2005)
Page 188 in: Smith, A.L. & Roobol, M.J. (2005). Saba. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 181-191.
Saba, Saba [Netherlands] [VNUM = 360010]
Integrated volcanic hazard zones for a dome-forming eruption from Mt. Scenery, Saba (2005)
Page 189 in: Smith, A.L. & Roobol, M.J. (2005). Saba. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 181-191.
Saba - Integrated Volcanic Hazard Zones for a dome-forming eruption from Mt. Scenery (2005)
Pocket insert in: Smith, A.L. & Roobol, M.J. (2005). Saba. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 181-191.
Volcanic hazard map for a dome-forming eruption from Mt. Scenery, Saba (2005)
Page 188 in: Smith, A.L. & Roobol, M.J. (2005). Saba. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 181-191.
Sabancaya, Peru [VNUM = 354006]
Volcan Sabancaya 3D (2019)
Instituto Geológico Minero y Metalúrgico (INGEMMET). (2019). Volcan Sabancaya 3D. Mapa de Peligros Volcanico Interativo 3D.
Mapas de Peligros del Complejo Volcánico Ampato-Sabancaya (2014)
Mariño, J., Samaniego, P., Rivera, M., Bellot, N., Manrique, N., Macedo, L., & Delgado, R. (2014). Mapas de Peligros del Complejo Volcánico Ampato-Sabancaya. Instituto Geologico Minero y Metalurgico (INGEMMET), Direccion de Geologia Ambiental y Riesgo, mapa escala 50,000.
Mapa Preliminar de Zonificación de Peligros Volcanicos - Sur del Perú (2003)
Comisión Multisectorial de Reducción de Riesgos en el Desarrollo (CMRRD) & Dirección General de Programación Multianual del Sector Público - MEF (DGPM) (2003). Mapa preliminar de zonificación de peligros volcánicos - Sur del Perú. Estrategía Nacional de Reducción de Riesgos para el Desarrollo. Escala 1:3000000
Sajaka (Tanaga), United States [VNUM = 311080]
Approximate extent of proximal hazard zones from ashfall and ballistics near the Tanaga volcanic cluster, Tanaga Island, Alaska (2007)
Figure 14 in: Coombs, M.L., McGimsey, R.G. & Browne, B.L. (2007). Preliminary volcano-hazard assessment for the Tanaga volcanic cluster, Tanaga Island, Alaska. U.S. Geological Survey, Scientific Investigations Report 2007-5094, 41 p., 1 plate. https://doi.org/10.3133/sir20075094
Preliminary Volcano-Hazard Assessment for the Tanaga Volcanic Cluster, Alaska (2007)
Plate 1 in: Coombs, M.L., McGimsey, R.G. & Browne, B.L. (2007). Preliminary volcano-hazard assessment for the Tanaga volcanic cluster, Tanaga Island, Alaska. U.S. Geological Survey, Scientific Investigations Report 2007-5094, 41 p., 1 plate. https://doi.org/10.3133/sir20075094
Sakurajima (Aira), Japan [VNUM = 282080]
Sakurajima Volcano Hazard Map [English version] (2023)
Kagoshima City. (2023). [English version] Sakurajima Volcano Hazard Map (published March 2010) [updated June 2023]. https://www.city.kagoshima.lg.jp/kikikanri/kurashi/bosai/bosai/map/sakurajima.html
Sakurajima Volcano Hazard Map [Japanese version] (2023)
Kagoshima City. (2023). [Japanese version] Sakurajima Volcano Hazard Map (published March 2010) [updated June 2023]. https://www.city.kagoshima.lg.jp/kikikanri/kurashi/bosai/bosai/map/sakurajima.html
Sakurajima Volcano Hazard Map [Korean version] (2023)
Kagoshima City. (2023). [Korean version] Sakurajima Volcano Hazard Map (published March 2010) [updated June 2023]. https://www.city.kagoshima.lg.jp/kikikanri/kurashi/bosai/bosai/map/sakurajima.html
Sakurajima Volcano Hazard Map [Simplified Chinese version] (2023)
Kagoshima City. (2023). [Simplified Chinese version] Sakurajima Volcano Hazard Map (published March 2010) [updated June 2023]. https://www.city.kagoshima.lg.jp/kikikanri/kurashi/bosai/bosai/map/sakurajima.html
Sakurajima Volcano Hazard Map [Traditional Chinese version] (2023)
Kagoshima City. (2023). [Traditional Chinese version] Sakurajima Volcano Hazard Map (published March 2010) [updated June 2023]. https://www.city.kagoshima.lg.jp/kikikanri/kurashi/bosai/bosai/map/sakurajima.html
Sakurajima Volcano Hazard Map [English version] (2018)
Kagoshima City. (2018). [English version] Sakurajima Volcano Hazard Map (published March 2010) [updated March 2018]. https://web.archive.org/web/20211028200319/https://www.city.kagoshima.lg.jp/kikikanri/kurashi/bosai/bosai/map/sakurajima.html
Sakurajima Volcano Hazard Map [Japanese version] (2018)
Kagoshima City. (2018). [Japanese version] Sakurajima Volcano Hazard Map (published March 2010) [updated March 2018]. https://web.archive.org/web/20211028200319/https://www.city.kagoshima.lg.jp/kikikanri/kurashi/bosai/bosai/map/sakurajima.html
Sakurajima Volcano Hazard Map [Korean version] (2018)
Kagoshima City. (2018). [Korean version] Sakurajima Volcano Hazard Map (published March 2010) [updated March 2018]. https://web.archive.org/web/20211028200319/https://www.city.kagoshima.lg.jp/kikikanri/kurashi/bosai/bosai/map/sakurajima.html
Sakurajima Volcano Hazard Map [Simplified Chinese version] (2018)
Kagoshima City. (2018). [Simplified Chinese version] Sakurajima Volcano Hazard Map (published March 2010) [updated March 2018]. https://web.archive.org/web/20211028200319/https://www.city.kagoshima.lg.jp/kikikanri/kurashi/bosai/bosai/map/sakurajima.html
Sakurajima Volcano Hazard Map [Traditional Chinese version] (2018)
Kagoshima City. (2018). [Traditional Chinese version] Sakurajima Volcano Hazard Map (published March 2010) [updated March 2018]. https://web.archive.org/web/20211028200319/https://www.city.kagoshima.lg.jp/kikikanri/kurashi/bosai/bosai/map/sakurajima.html
Sakurajima Volcanic Alert Levels (2016)
Japan Meteorological Agency. (2016). Sakurajima Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.
Sakurajima Volcano Hazard Map (2013)
Kagoshima City. (2013). Sakurajima Volcano Hazard Map.
Saladillo (Gemelos-Saladillo), Argentina [VNUM = 355866]
Integrated quantitative volcanic hazard map, constructed by adding each probability map (Figures 6A–E), weighted evenly (2022)
Figure 7 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Probabilistic volcanic hazard maps for the Central Volcanic Zone of Chile and Argentina (∼22.5–28°S), obtained after empirical, semi-empirical or analytical modeling (2022)
Figure 6 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Spatial probability analysis considering: (A) volcanic events, and (B) volcanic events (80%) and structural data (20%) (2022)
Figure 11 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Spatial probability maps of volcanic activity for our study area (2022)
Figure 3 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Spatio-temporal probability maps of future volcanic activity for our study area at different forecasting time intervals (2022)
Figure 4 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Salak, Indonesia [VNUM = 263050]
Volcanic Hazard Map of Salak Volcano, West Java Province (2006)
Haerani, N., Hadisantono, R.D., Martono, A., & Sumpena, A.D. (2006). Volcanic Hazazrd Map of Salak Volcano, West Java Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Salton Buttes, United States [VNUM = 323200]
Generalized volcanic hazard maps for very high, high, and moderate threat volcanoes compiled and simplified from Miller (1980, 1989), Miller and others (1982), Donnelly-Nolan and others (2007), Clynne and others (2012), White and others (2011), and Robinson and others (2012) (2019)
Figure 8 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of California showing counties and California Governor’s Office of Emergency Services (Cal OES) administrative regions (coastal, inland, and southern) and mutual aid regions (MARs) I–VI that could be directly affected by volcanic hazards. (2019)
Figure 11 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of California showing Federal, state, and local water storage and distribution centers in relation to moderate, high, and very high threat volcanoes (2019)
Figure 22 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of California showing high-voltage electric transmission lines in relation to volcanic hazard zones (2019)
Figure 16 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of sketched jet flight paths at >18,000 feet altitude above California (2019)
Figure 28 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map showing representative yearly traffic counts on principal road segments in the vicinity of (A) Mount Shasta, Medicine Lake volcano, and Lassen Volcanic Center; (B) Clear Lake volcanic field; (C ) Long Valley volcanic region and Ubehebe Craters; and (D) Salton Buttes (2019)
Figure 25 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Maps of 2010 population density in and near (A) Mount Shasta, Medicine Lake volcano, and Lassen Volcanic Center; (B ) Clear Lake volcanic field; (C ) Long Valley volcanic region and Ubehebe Craters; and (D ) Salton Buttes (2019)
Figure 14 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Maps showing the classification of land cover around (A) Mount Shasta, Medicine Lake volcano, and Lassen Volcanic Center; (B) Clear Lake volcanic field; (C ) Long Valley volcanic region and Ubehebe Craters; and (D) Salton Buttes (2019)
Figure 10 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Potential Hazards from future volcanic eruptions in California (1989)
Plate 1 in: Miller, C.D. (1989). Potential hazards from future volcanic eruptions in California. U.S. Geological Survey, Bulletin 1847, 17 p., 2 tables, 1 plate, scale 1:500,000.
Preliminary Overview Map of Volcanic Hazards in the 48 Coterminous United States (1978)
Mullineaux, D.R. (1978). Preliminary overview map of volcanic hazards in the 48 conterminous United States. U.S. Geological Survey, Miscellaneous Field Studies Map 786. https://doi.org/10.3133/mf786
San Cristóbal, Nicaragua [VNUM = 344020]
Mapa de Amenazas Volcán San Cristóbal (2019)
Instituto Nicaragüense de Estudios Territoriales (INETER). (2019). Sismos y Volcanes de Nicaragua 2019. Boletín Sismológico, Vulcanológico y Geológico.
Mapa de Amenazas Volcánica por Lahares y Flujos Piroclasticos Volcan San Cristóbal (2012)
Instituto Nicaragüense de Estudios Territoriales (INETER). (2012). Mapa de Amenazas Volcánica por Lahares y Flujos Piroclasticos Volcan San Cristóbal. Erupción Volcán San Cristóbal 08 Septiembre 2012.
San Cristóbal flujo de lava (2009)
Figure 21 in: Sistema Nacional de Prevención y Atención de Desastres (SINAPRED). (2009). Amenazas y Riesgos Naturales de Nicaragua. Compendio de Mapas. Catálogo de amenazas y riesgos para desastres asociados a fenómenos de la naturaleza. 190 p.
Volcán San Cristóbal caída de cenizas (2009)
Figure 17 in: Sistema Nacional de Prevención y Atención de Desastres (SINAPRED). (2009). Amenazas y Riesgos Naturales de Nicaragua. Compendio de Mapas. Catálogo de amenazas y riesgos para desastres asociados a fenómenos de la naturaleza. 190 p.
Volcán San Cristóbal flujos piroclásticos (2009)
Figure 19 in: Sistema Nacional de Prevención y Atención de Desastres (SINAPRED). (2009). Amenazas y Riesgos Naturales de Nicaragua. Compendio de Mapas. Catálogo de amenazas y riesgos para desastres asociados a fenómenos de la naturaleza. 190 p.
Amenazas Asociadas al Volcán San Cristóbal (2006)
Instituto Nicaragüense de Estudios Territoriales (INETER). (2006). Amenazas Asociadas al Volcán San Cristóbal. https://webserver2.ineter.gob.ni/vol/cristobal/Chinandega.gif
Amenazas Asociadas al Volcán San Cristóbal (2006)
Instituto Nicaragüense de Estudios Territoriales (INETER). (2006). Amenazas Asociadas al Volcán San Cristóbal. https://webserver2.ineter.gob.ni/vol/cristobal/Chinandega.gif
Mapa Preliminar de Amenaza por Avalanchas y Deslaves, Complejo Volcánico San Cristóbal-Casita (1999)
Strauch, W. (1999). Mapa Preliminar de Amenaza por Avalanchas y Deslaves, Complejo Volcánico San Cristóbal-Casita. Instituto Nicaragüense de Estudios Territoriales (INETER), Dirección de Geofisica, Managua.
Mapa de amenaza determinista por caída de cenizas [m] en el volcán San Cristóbal
([?])
Figure 6-5 in: CAPRA Probabilistic Risk Assessment Initiative. Nicaragua - Tomo I Metodología De Modelación Probabilista De Riesgos Naturales. Informe Técnico ERN-CAPRA-t2-3 Modelación Probabilista De Amenazas Naturales.
Mapa de amenaza determinista por flujos de lava en el volcán San Cristóbal ([?])
Figure 6-3 in: CAPRA Probabilistic Risk Assessment Initiative. Nicaragua - Tomo I Metodología De Modelación Probabilista De Riesgos Naturales. Informe Técnico ERN-CAPRA-t2-3 Modelación Probabilista De Amenazas Naturales.
Mapa de amenaza determinista por flujos piroclásticos en el volcán San Cristóbal ([?])
Figure 6-4 in: CAPRA Probabilistic Risk Assessment Initiative. Nicaragua - Tomo I Metodología De Modelación Probabilista De Riesgos Naturales. Informe Técnico ERN-CAPRA-t2-3 Modelación Probabilista De Amenazas Naturales.
Mapa de Vulnerabilidades y Peligro ante Volcanes ([?])
Instituto Nicaraguense de Estudios Territoriales (INETER). Mapa de Vulnerabilidades y Peligro ante Volcanes. https://gestionderiesgo.ineter.gob.ni/IDE-VulnerabilidadVolcanica/index.html
San Francisco, Chile [VNUM = 355861]
Integrated quantitative volcanic hazard map, constructed by adding each probability map (Figures 6A–E), weighted evenly (2022)
Figure 7 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Probabilistic volcanic hazard maps for the Central Volcanic Zone of Chile and Argentina (∼22.5–28°S), obtained after empirical, semi-empirical or analytical modeling (2022)
Figure 6 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Spatial probability analysis considering: (A) volcanic events, and (B) volcanic events (80%) and structural data (20%) (2022)
Figure 11 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Spatial probability maps of volcanic activity for our study area (2022)
Figure 3 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Spatio-temporal probability maps of future volcanic activity for our study area at different forecasting time intervals (2022)
Figure 4 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
San Francisco Volcanic Field, United States [VNUM = 329020]
Preliminary Overview Map of Volcanic Hazards in the 48 Coterminous United States (1978)
Mullineaux, D.R. (1978). Preliminary overview map of volcanic hazards in the 48 conterminous United States. U.S. Geological Survey, Miscellaneous Field Studies Map 786. https://doi.org/10.3133/mf786
San José, Chile-Argentina [VNUM = 357020]
Peligros Volcánicos del Complejo Volcánico San José (2012)
Silva, C., Orozco, G., Moreno, H. (2012). Mapa Preliminar de peligros volcánicos Complejo volcánico San José, Región Metropolitana. Informe inédito, Subdirección Nacional de Geología, Programa de Riesgo Volcánico. Escala 1:100.000. Santiago.
Peligros Volcanicos de Chile (2011)
Lara, L.E., Orozco G., Amigo A. & Silva C. (2011). Peligros Volcanicos de Chile. Servicio Nacional de Geología y Minería (SERNAGEOMIN), Carte Geologica de Chile, Serie Geologia Ambiental, No. 13: 34 p., 1 mapa escala 1:2.000.000. Santiago.
San Martín, Mexico [VNUM = 341110]
Mapa de Peligros del Volcán San Martín (2018)
Sieron, K., Rodríguez Elizarraráz, S., Córdoba Montiel, F., Alarcón Ferreira, A.M., & Mora González, I. (2018). Mapa de Peligros del Volcán San Martín. Centro de Ciencias de la Tierra, UV & Instituto de Geofísica, UNAM
Fig. 12 a Shows the scoria cone density/km². b Explosion crater density/km² is depicted. Each square corresponds to 1 km2. c Shows scoria cones density map (with overlapping rectangle-shaped cells), the point map used for calculation, and the area with the highest observed volcanic edifice density. (2014)
Figure 12 in: Sieron, K., Capra, L., & Rodríguez-Elizararrás, S. (2014). Hazard assessment at San Martín volcano based on geological record, numerical modeling, and spatial analysis. Natural hazards, 70(1), 275-297. https://doi.org/10.1007/s11069-013-0807-7
HAZMAP output maps in deposit mode for a 10,000-m-high eruptive column and b 15,000-m-high eruptive column for predominant wind directions during winter (blue) and summer (red) and transitional (spring: green) (2014)
Figure 9 in: Sieron, K., Capra, L., & Rodríguez-Elizararrás, S. (2014). Hazard assessment at San Martín volcano based on geological record, numerical modeling, and spatial analysis. Natural hazards, 70(1), 275-297. https://doi.org/10.1007/s11069-013-0807-7
HAZMAP output maps in probability mode for 10,000 m column (a, b) and 15,000 m column (c,
d). (2014)
Figure 10 in: Sieron, K., Capra, L., & Rodríguez-Elizararrás, S. (2014). Hazard assessment at San Martín volcano based on geological record, numerical modeling, and spatial analysis. Natural hazards, 70(1), 275-297. https://doi.org/10.1007/s11069-013-0807-7
Proximal hazard zone and lahar flood zones for four lahars of different total volume (2014)
Figure 11 in: Sieron, K., Capra, L., & Rodríguez-Elizararrás, S. (2014). Hazard assessment at San Martín volcano based on geological record, numerical modeling, and spatial analysis. Natural hazards, 70(1), 275-297. https://doi.org/10.1007/s11069-013-0807-7
San Miguel, El Salvador [VNUM = 343100]
Mapa de Escenarios de Amenaza Volcánica, Volcán de San Miguel o Chaparrastique (2004)
Escobar, C.D., Ferres, D., Pullinger, C., Delgado, H.G., Farraz, I.A., Alatorre, M.A. I., & Hurst, A.W. (2004). Mapa de Escenarios de Amenaza Volcánica Volcán de San Miguel o Chaparrastique. Servicio Nacionale de Estudios Terretoriales, Ave. Roosevelt y 55 Ave. Norte, Torre El Salvador (IPSFA).
Lahar Hazard Zonation for San Miguel Volcano, El Salvador
(2001)
Plate 1 in: Major, J.J., Schilling, S.P., Pullinger, C.R., Escobar, C.D., Chesner, C.A., & Howell, M.M. (2001). Lahar-Hazard Zonation for San Miguel Volcano, El Salvador. U.S. Geological Survey, Open-File Report 2001-395, 16 p., 1 plate. https://doi.org/10.3133/ofr01395
San Pedro (San Pedro-San Pablo), Chile [VNUM = 355070]
Peligros del Volcán San Pedro (2015)
Bertin, D. & Amigo, A. (2015). Peligros del volcán San Pedro, Región de Antofagasta. Servicio Nacional de Geología y Minería, Carta Geológica de Chile, Serie Geología Ambiente, No., p., 1, mapa escala 1:50.000. Santiago.
Peligros Volcánicos del Volcán San Pedro (2012)
Amigo, A. & Bertin, D. (2012). Mapa Preliminar de peligros volcánicos Volcán San Pedro, Región de Antofagasta. Informe inédito, Subdirección Nacional de Geología, Programa de Riesgo Volcánico, mapa escala 1:75.000. Santiago.
Peligros Volcanicos de Chile (2011)
Lara, L.E., Orozco G., Amigo A. & Silva C. (2011). Peligros Volcanicos de Chile. Servicio Nacional de Geología y Minería (SERNAGEOMIN), Carte Geologica de Chile, Serie Geologia Ambiental, No. 13: 34 p., 1 mapa escala 1:2.000.000. Santiago.
San Pedro-Pellado, Chile [VNUM = 357062]
Peligros Volcanicos de Chile (2011)
Lara, L.E., Orozco G., Amigo A. & Silva C. (2011). Peligros Volcanicos de Chile. Servicio Nacional de Geología y Minería (SERNAGEOMIN), Carte Geologica de Chile, Serie Geologia Ambiental, No. 13: 34 p., 1 mapa escala 1:2.000.000. Santiago.
San Pedro-San Pablo, Chile [VNUM = 355070]
Peligros del Volcán San Pedro (2015)
Bertin, D. & Amigo, A. (2015). Peligros del volcán San Pedro, Región de Antofagasta. Servicio Nacional de Geología y Minería, Carta Geológica de Chile, Serie Geología Ambiente, No., p., 1, mapa escala 1:50.000. Santiago.
Peligros Volcánicos del Volcán San Pedro (2012)
Amigo, A. & Bertin, D. (2012). Mapa Preliminar de peligros volcánicos Volcán San Pedro, Región de Antofagasta. Informe inédito, Subdirección Nacional de Geología, Programa de Riesgo Volcánico, mapa escala 1:75.000. Santiago.
Peligros Volcanicos de Chile (2011)
Lara, L.E., Orozco G., Amigo A. & Silva C. (2011). Peligros Volcanicos de Chile. Servicio Nacional de Geología y Minería (SERNAGEOMIN), Carte Geologica de Chile, Serie Geologia Ambiental, No. 13: 34 p., 1 mapa escala 1:2.000.000. Santiago.
San Salvador, El Salvador [VNUM = 343050]
Escenario 1 por Caida de Ceniza Promedio 12 Meses (2014)
Figure 101 in: Ferrés López, M.D. (2014). Estratigrafía, Geología y Evaluación de Peligros Volcánicos del Complejo Volcánico de San Salvador (El Salvador). Doctoral Thesis, Universidad Autónoma de México, México.
Escenario 2 por Caida de Ceniza Promedio 12 Meses (2014)
Figure 102 in: Ferrés López, M.D. (2014). Estratigrafía, Geología y Evaluación de Peligros Volcánicos del Complejo Volcánico de San Salvador (El Salvador). Doctoral Thesis, Universidad Autónoma de México, México.
Escenario 3 por Caida de Ceniza Promedio 12 Meses (2014)
Figure 103 in: Ferrés López, M.D. (2014). Estratigrafía, Geología y Evaluación de Peligros Volcánicos del Complejo Volcánico de San Salvador (El Salvador). Doctoral Thesis, Universidad Autónoma de México, México.
Escenarios de Amenaza por Emisión de Balísticos (2014)
Figure 107 in: Ferrés López, M.D. (2014). Estratigrafía, Geología y Evaluación de Peligros Volcánicos del Complejo Volcánico de San Salvador (El Salvador). Doctoral Thesis, Universidad Autónoma de México, México.
Escenarios de Amenaza por Flujos piroclásticos del Volcán Boquerón (2014)
Figure 114 in: Ferrés López, M.D. (2014). Estratigrafía, Geología y Evaluación de Peligros Volcánicos del Complejo Volcánico de San Salvador (El Salvador). Doctoral Thesis, Universidad Autónoma de México, México.
Escenarios de Amenaza por Oleadas Piroclásticas del Volcán Boquerón (2014)
Figure 118 in: Ferrés López, M.D. (2014). Estratigrafía, Geología y Evaluación de Peligros Volcánicos del Complejo Volcánico de San Salvador (El Salvador). Doctoral Thesis, Universidad Autónoma de México, México.
Gráficos de Amenaza por Emisión de Balísticos (distribución vertical) (2014)
Figure 108 in: Ferrés López, M.D. (2014). Estratigrafía, Geología y Evaluación de Peligros Volcánicos del Complejo Volcánico de San Salvador (El Salvador). Doctoral Thesis, Universidad Autónoma de México, México.
Volcano Hazards in the San Salvador Region, El Salvador (2001)
Plate 1 (B&W) in: Major, J.J., Schilling, S.P., Sofield, D.J., Escobar, C.D., & Pullinger, C.R. (2001). Volcano Hazards in the San Salvador Region, El Salvador. U.S. Geological Survey, Open-File Report 2001-366, 24 p., 2 plates. https://doi.org/10.3133/ofr01366
Volcano Hazards in the San Salvador Region, El Salvador (2001)
Plate 2 (B&W) in: Major, J.J., Schilling, S.P., Sofield, D.J., Escobar, C.D., & Pullinger, C.R. (2001). Volcano Hazards in the San Salvador Region, El Salvador. U.S. Geological Survey, Open-File Report 2001-366, 24 p., 2 plates. https://doi.org/10.3133/ofr01366
Volcano Hazards in the San Salvador Region, El Salvador (2001)
Plate 1 (Color) in: Major, J.J., Schilling, S.P., Sofield, D.J., Escobar, C.D., & Pullinger, C.R. (2001). Volcano Hazards in the San Salvador Region, El Salvador. U.S. Geological Survey, Open-File Report 2001-366, 24 p., 2 plates. https://doi.org/10.3133/ofr01366
Volcano Hazards in the San Salvador Region, El Salvador (2001)
Plate 2 (Color) in: Major, J.J., Schilling, S.P., Sofield, D.J., Escobar, C.D., & Pullinger, C.R. (2001). Volcano Hazards in the San Salvador Region, El Salvador. U.S. Geological Survey, Open-File Report 2001-366, 24 p., 2 plates. https://doi.org/10.3133/ofr01366
Zonificación de Peligros por Lahares para el Volcán de San Salvador, El Salvador (2001)
Plate 1 (Color) in: Major, J.J., Schilling, S.P., Sofield, D.J., Escobar, C.D., & Pullinger, C.R. (2001). Volcano Hazards in the San Salvador Region, El Salvador. U.S. Geological Survey, Open-File Report 2001-366, 24 p., 2 plates. https://doi.org/10.3133/ofr01366
San Vicente, El Salvador [VNUM = 343070]
Volcano-Hazard Zonation for San Vicente Volcano, El Salvador (2001)
Plate 1 in: Major, J.J., Schilling, S.P., Pullinger, C.R., Escobar, C.D., & Howell, M.M. (2001). Volcano-Hazard Zonation for San Vicente Volcano, El Salvador. U.S. Geological Survey, Open-File Report 2001-367, 22 p., 1 plate. https://doi.org/10.3133/ofr01367
Sangay, Ecuador [VNUM = 352090]
Volcán Sangay, Peligros Volcánicos Potenciales (2013)
Ordóñez, J., Vallejo, S., Bustillos, J., Hall, M., Andrade, D., Hidalgo, S., & Samaniego, P. (2013). Volcán Sangay, Peligros Volcánicos Potenciales. Instituto Geofisico de la Escuela Politecnica Nacional (IG-EPN) & Institut de Recherche pour le Développment (IRD). Quito.
Mapa de los "Volcanes Activos" del Ecuador (1982)
Salazar, E. & Bermúdez, R. (1982). Mapa de los "Volcanes Activos" del Ecuador. Mapa Base del Ecuador, Vulcanología. Ministerio de Energía y Minas, Instituto Ecuatoriano de Minería, Quito.
Sangeang Api, Indonesia [VNUM = 264050]
Volcanic Hazard Map of Sangeang Api Volcano, West Nusa Tenggara Province (2008)
Mulyana, A.R., Taufiqurrahman, R., Heriwaseso, A., Pujowarsito, Dahlan, A., & Ridwan, I. (2008). Volcanic Hazard Map of Sangeang Api Volcano, West Nusa Tenggara Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Santa Ana, El Salvador [VNUM = 343020]
Mapa de Escenarios de Amenaza Volcánica en el Volcán de Santa Ana - Fase Actual de Actividad 2004-2005 (2005)
Ferrés, D., Escobar, D., Pullinger, C., Vallance, J.W., & Griswold, J.P. (2005). Mapa de Escenarios de Amenaza del volcán de Santa Ana. Dirección General del Servicio Nacional de Estudios Territoriales, El Salvador (SNET), U.S. Geological Survey (USGS).
Mapa Preliminar de Amenaza Volcánica, Complejo Volcánico de Santa Ana (2004)
Ferrés, D., Escobar, D., Pullinger, C., Vallance, J.W., & Griswold, J.P. (2004). Mapa Preliminar de Amenaza Volcánica, Complejo Volcánico de Santa Ana. Servicio Nacionale de Estudios Terretoriales (SNET), Ave. Roosevelt y 55 Ave. Norte, Torre El Salvador (IPSFA).
Santa Clara, United States [VNUM = 327010]
Preliminary Overview Map of Volcanic Hazards in the 48 Coterminous United States (1978)
Mullineaux, D.R. (1978). Preliminary overview map of volcanic hazards in the 48 conterminous United States. U.S. Geological Survey, Miscellaneous Field Studies Map 786. https://doi.org/10.3133/mf786
Santa Isabel, Colombia [VNUM = 351021]
Mapa Preliminar de Amenaza Volcanica Nevado de Santa Isabel (2007)
Pocket insert in: Instituto Colombiano de Geología y Minería (INGEOMINAS). (2007). Atlas de Amenaza Volcánica Versión 2007. Mapa Preliminar de Amenaza Volcanica Nevado de Santa Isabel. mapa escala 1:100,000.
Amenaza por flujos piroclásticos del Nevado Santa Isabel, originados por colapso de columna eruptivo o por colapso o explosión de domos (1993)
Figure 6 in: Instituto de Investigaciones en Geociencias, Mineria y Quimica (INGEOMINAS). (1993). Mapa Preliminar de Amenaza Volcanica Potencial Complejo de Domos Santa Isabel, Cordillera Central de Colombia. Ibague.
Area expuesta a flujos de lava provenientes del Nevado Santa Isabel (1993)
Figure 5 in: Instituto de Investigaciones en Geociencias, Mineria y Quimica (INGEOMINAS). (1993). Mapa Preliminar de Amenaza Volcanica Potencial Complejo de Domos Santa Isabel, Cordillera Central de Colombia. Ibague.
Rio Campo Alegre, Sector El Porvenir - Q. San Jose (1993)
Plate 2 in: Instituto de Investigaciones en Geociencias, Mineria y Quimica (INGEOMINAS). (1993). Mapa Preliminar de Amenaza Volcanica Potencial Complejo de Domos Santa Isabel, Cordillera Central de Colombia. Ibague.
Rio Campo Alegre, Sector Oleoducto de Caldas Subestacion la Esmeralda (1993)
Plate 4 in: Instituto de Investigaciones en Geociencias, Mineria y Quimica (INGEOMINAS). (1993). Mapa Preliminar de Amenaza Volcanica Potencial Complejo de Domos Santa Isabel, Cordillera Central de Colombia. Ibague.
Rio Campo Alegre, Sector Q. Yarumal - Cruce Oleoducto Caldas (1993)
Plate 3 in: Instituto de Investigaciones en Geociencias, Mineria y Quimica (INGEOMINAS). (1993). Mapa Preliminar de Amenaza Volcanica Potencial Complejo de Domos Santa Isabel, Cordillera Central de Colombia. Ibague.
Mapa Preliminar de Amenaza Volcanica Nevado de Santa Isabel (1992)
Plate 1 in: Instituto de Investigaciones en Geociencias, Mineria y Quimica (INGEOMINAS). (1993). Mapa Preliminar de Amenaza Volcanica Potencial Complejo de Domos Santa Isabel, Cordillera Central de Colombia. Ibague.
Mapa Preliminar de Amenaza Volcanica Nevado de Santa Isabel (1992)
Digitized version of Plate 1 in: Instituto de Investigaciones en Geociencias, Mineria y Quimica (INGEOMINAS). (1993). Mapa Preliminar de Amenaza Volcanica Potencial Complejo de Domos Santa Isabel, Cordillera Central de Colombia. Ibague.
Amenaza Santa Isabel ([?])
Servicio Geológico Colombiano (SGC). Amenaza Santa Isabel.
Santa María, Guatemala [VNUM = 342030]
Mapa BOSAI en Tema de Volcán Santiaguito (2018)
Coordinadora Nacional para la Reducción de Desastres (CONRED), Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA). (2018). Mapa BOSAI en Tema de Volcán Santiaguito, Febrero, 2018.
Amenaza de Flujos Piroclásticos Volcán Santiaguito, Guatemala (2003)
Figure 4 in: Barillas-Cruz, M., van Westen, C., Orozco, E., Thonon, I., Lira, E., Guarín, G. P., & Tax, P. (2003). Zonificación de amenazas naturales en la cuenca del Río Samalá y análisis de vulnerabilidad y riesgo en la población de San Sebastián Retalhuleu, Guatemala. Retalhuleu, Guatemala: GEOS, 23(1), p. 17-24.
Volcanic Hazard Map Volcán Santiaguito 1 (2003)
Plate 5 in: Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA), & Instituto Geografico Nacional (IGN). (2003). Estudio del establecimiento de los mapas basicos y mapas de amenaza para el Sistema de informacion geografica de la Republica de Guatemala. Final report.
Volcanic Hazard Map Volcán Santiaguito 2 (2003)
Plate 6 in: Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA), & Instituto Geografico Nacional (IGN). (2003). Estudio del establecimiento de los mapas basicos y mapas de amenaza para el Sistema de informacion geografica de la Republica de Guatemala. Final report.
Volcanic Hazard Map Volcán Santiaguito 3 (2003)
Plate 7 in: Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA), & Instituto Geografico Nacional (IGN). (2003). Estudio del establecimiento de los mapas basicos y mapas de amenaza para el Sistema de informacion geografica de la Republica de Guatemala. Final report. (Reprinted in: Global Volcanism Program. (2014). Report on Santa Maria (Guatemala). In: Herrick, J.A., & Wunderman, R. (Eds.) Bulletin of the Global Volcanism Network, 39:3. Smithsonian Institution.)
Volcanic Hazard Map Volcán Santiaguito 4 (2003)
Plate 8 in: Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA), & Instituto Geografico Nacional (IGN). (2003). Estudio del establecimiento de los mapas basicos y mapas de amenaza para el Sistema de informacion geografica de la Republica de Guatemala. Final report.
Volcanic Hazard Map Volcán Santiaguito 5 (2003)
Plate 9 in: Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA), & Instituto Geografico Nacional (IGN). (2003). Estudio del establecimiento de los mapas basicos y mapas de amenaza para el Sistema de informacion geografica de la Republica de Guatemala. Final report.
Santiaguito (Santa María), Guatemala [VNUM = 342030]
Mapa BOSAI en Tema de Volcán Santiaguito (2018)
Coordinadora Nacional para la Reducción de Desastres (CONRED), Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA). (2018). Mapa BOSAI en Tema de Volcán Santiaguito, Febrero, 2018.
Amenaza de Flujos Piroclásticos Volcán Santiaguito, Guatemala (2003)
Figure 4 in: Barillas-Cruz, M., van Westen, C., Orozco, E., Thonon, I., Lira, E., Guarín, G. P., & Tax, P. (2003). Zonificación de amenazas naturales en la cuenca del Río Samalá y análisis de vulnerabilidad y riesgo en la población de San Sebastián Retalhuleu, Guatemala. Retalhuleu, Guatemala: GEOS, 23(1), p. 17-24.
Amenaza de Flujos Piroclásticos Volcán Santiaguito, Guatemala (2003)
Figure 26 in: UNESCO, Instituto Nacional de Sismología, Vulcanología, Meteorología e Hidrología (INSIVUMEH), Coordinadora Nacional para la Reducción de Desastres (CONRED), Instituto Geográfico Nacional (IGN), Facultad de Agronomía (FAUSAC), Universidad de San Carlos de Guatemala Centro de Estudios Superiores de Energía y Minas (CESEM), Universidad de San Carlos de Guatemala, Escuela Regional de Ingeniería Sanitaria (ERIS). (2003). Zonificación de Amenazas Naturales en la cuenca del río Samalá y Análisis de vulnerabilidad y riesgo en la población de San Sebastián Retalhuleu, Guatemala, Centro América. Capacity Building for Natural Disaster Reduction (CBNDR) Regional Action Program for Central America (RAPCA). Guatemala, Septiembre 2003.
Volcanic Hazard Map Volcán Santiaguito 1 (2003)
Plate 5 in: Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA), & Instituto Geografico Nacional (IGN). (2003). Estudio del establecimiento de los mapas basicos y mapas de amenaza para el Sistema de informacion geografica de la Republica de Guatemala. Final report.
Volcanic Hazard Map Volcán Santiaguito 2 (2003)
Plate 6 in: Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA), & Instituto Geografico Nacional (IGN). (2003). Estudio del establecimiento de los mapas basicos y mapas de amenaza para el Sistema de informacion geografica de la Republica de Guatemala. Final report.
Volcanic Hazard Map Volcán Santiaguito 3 (2003)
Plate 7 in: Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA), & Instituto Geografico Nacional (IGN). (2003). Estudio del establecimiento de los mapas basicos y mapas de amenaza para el Sistema de informacion geografica de la Republica de Guatemala. Final report. (Reprinted in: Global Volcanism Program. (2014). Report on Santa Maria (Guatemala). In: Herrick, J.A., & Wunderman, R. (Eds.) Bulletin of the Global Volcanism Network, 39:3. Smithsonian Institution.)
Volcanic Hazard Map Volcán Santiaguito 4 (2003)
Plate 8 in: Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA), & Instituto Geografico Nacional (IGN). (2003). Estudio del establecimiento de los mapas basicos y mapas de amenaza para el Sistema de informacion geografica de la Republica de Guatemala. Final report.
Volcanic Hazard Map Volcán Santiaguito 5 (2003)
Plate 9 in: Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Japan International Cooperation Agency (JICA), & Instituto Geografico Nacional (IGN). (2003). Estudio del establecimiento de los mapas basicos y mapas de amenaza para el Sistema de informacion geografica de la Republica de Guatemala. Final report.
Santorini, Greece [VNUM = 212040]
Top panel: Map of the Santorini island complex showing possible zonation of ballistic ejecta (red circle with radius 2.5 km), base surge (yellow circle with radius 6 km) and PGA values due to a Mw =5.9 shallow (3 km) earthquake accompanying the eruptive activity...Lower panel: The same for an earthquake with hypocentral depth of 5 km (2012)
Figure 7 in: Konstantinou, K.I. & Yeh, T.Y. (2012). Stress field around the Coloumbo magma chamber, southern Aegean: Its significance for assessing volcanic and seismic hazard in Santorini. Journal of Geodynamics, 54, 13-20. https://doi.org/10.1016/j.jog.2011.09.003
Volcanic Hazard Zonation Map From a Historic-Type Volcanic Activity in Santorini (1996)
Figure 7 in: Vougioukalakis, G.E. (1996). Volcanic Hazard Zonation Map From a Historic-Type Volcanic Activity in Santorini. https://www.santorini.net/wp-content/uploads/Volcanic_Hazard_Zonation_Map.pdf. (Reprinted in: Vougioukalakis, G.E., & Fytikas, M. (2005). Volcanic hazards in the Aegean area, relative risk evaluation, monitoring and present state of the active volcanic centers. In: Fytikas, M. and Vougioukalakis, G. (Eds.) Developments in Volcanology, Vol. 7, p. 161-183, Elsevier. https://doi.org/10.1016/S1871-644X(05)80037-3)
Santorini Volcano Hazard Zonation Maps ([?])
Vougioukalakis, G., Papazachos, C., Lekkas, E., & Antonakos, A. (Year Unknown). Santorini Volcano Hazard Zonation Maps.
Sara Sara, Peru [VNUM = 354002]
Mapa de Peligros por Flujo de Barro (Huayco o Lahares) (2020)
Figure 6.5 in: Rivera, M., Cueva, K., Le Pennec, J.-L., Vela, J., Samaniego, P., Manrique, N. & Soncco, Y. (2020). Geología y evaluación de peligros del volcán Sara Sara (Ayacucho). INGEMMET, Boletín, Serie C: Geodinámica e Ingeniería Geológica, 78, 154 p., 2 mapas.
Mapas de Peligros del Volcán Sara Sara (2020)
Rivera, M., LePennec, J.-L., Soncco, Y., Samaniego, P., Cueva, K., Vela, J., & Manrique, N. (2020). Mapas de Peligros del Volcán Sara Sara. INGEMMET, Boletín, Serie C: Geodinámica e Ingeniería Geológica, Mapa 1.
Mapas de Peligros Multiples de la Zona Proximal (2020)
Figure 6.3 in: Rivera, M., Cueva, K., Le Pennec, J.-L., Vela, J., Samaniego, P., Manrique, N. & Soncco, Y. (2020). Geología y evaluación de peligros del volcán Sara Sara (Ayacucho). INGEMMET, Boletín, Serie C: Geodinámica e Ingeniería Geológica, 78, 154 p., 2 mapas.
Mapas de Peligros por Caída de Ceniza y Pómez (2020)
Figure 6.4 in: Rivera, M., Cueva, K., Le Pennec, J.-L., Vela, J., Samaniego, P., Manrique, N. & Soncco, Y. (2020). Geología y evaluación de peligros del volcán Sara Sara (Ayacucho). INGEMMET, Boletín, Serie C: Geodinámica e Ingeniería Geológica, 78, 154 p., 2 mapas.
Mapa Preliminar de Zonificación de Peligros Volcanicos - Sur del Perú (2003)
Comisión Multisectorial de Reducción de Riesgos en el Desarrollo (CMRRD) & Dirección General de Programación Multianual del Sector Público - MEF (DGPM) (2003). Mapa preliminar de zonificación de peligros volcánicos - Sur del Perú. Estrategía Nacional de Reducción de Riesgos para el Desarrollo. Escala 1:3000000
Sarychev Peak, Russia [VNUM = 290240]
Scheme of volcano-geographical zoning in the Kuril Islands (1962)
Figure 3 in: Markhinin, E. K., Sirin, A. N., Timerbayeva, K. M., & Tokarev, P. I. (1962). Experience of volcanic-geographic zoning of Kamchatka and Kuril Islands. Bulletin of the Volcanological Station, Petropavlousk, Kamchatskiy, USSR, 32, 52-70.
Sashiusudake [Baransky], Russia [VNUM = 290080]
Scheme of volcano-geographical zoning in the Kuril Islands (1962)
Figure 3 in: Markhinin, E. K., Sirin, A. N., Timerbayeva, K. M., & Tokarev, P. I. (1962). Experience of volcanic-geographic zoning of Kamchatka and Kuril Islands. Bulletin of the Volcanological Station, Petropavlousk, Kamchatskiy, USSR, 32, 52-70.
Satsuma-Iojima (Kikai), Japan [VNUM = 282060]
Satsuma Iwo Jima Volcanic Alert Levels (2016)
Japan Meteorological Agency. (2016). Satsuma Iwo Jima Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.
Savai'i, Samoa [VNUM = 244040]
Hazard map revision as presented by Cronin et al. (2001b) (2006)
Figure 2 in: Cronin, S., Bonte-Grapentin, M. & Nemeth, K. (2006). Samoa technical report - Review of volcanic hazard maps for Savai'i and Upolu. Pacific Islands Applied Geoscience Commission (SOPAC) Project Report 59.
Long-term Lava Eruption e.g. Matavanu Eruption 1905-11 (2006)
Figure 4 in: Cronin, S., Bonte-Grapentin, M. & Nemeth, K. (2006). Samoa technical report - Review of volcanic hazard maps for Savai'i and Upolu. Pacific Islands Applied Geoscience Commission (SOPAC) Project Report 59.
Phreatomagmatic Eruption Explosive Activity (2006)
Figure 7 in: Cronin, S., Bonte-Grapentin, M. & Nemeth, K. (2006). Samoa technical report - Review of volcanic hazard maps for Savai'i and Upolu. Pacific Islands Applied Geoscience Commission (SOPAC) Project Report 59.
Potential Vent Locations Map, Savai'i Island, Samoa (2006)
Appendix 1 in: Cronin, S., Bonte-Grapentin, M. & Nemeth, K. (2006). Samoa technical report - Review of volcanic hazard maps for Savai'i and Upolu. Pacific Islands Applied Geoscience Commission (SOPAC) Project Report 59.
Short-term Spatter Cone Eruption Explosive Activity (2006)
Figure 6 in: Cronin, S., Bonte-Grapentin, M. & Nemeth, K. (2006). Samoa technical report - Review of volcanic hazard maps for Savai'i and Upolu. Pacific Islands Applied Geoscience Commission (SOPAC) Project Report 59.
Volcanic Hazards Map of Savai'i (1999)
Insert in: Taylor, P. & Talia, L. (1999). Volcanic Hazards Assessment of Savai'i, Samoa. Pacific Islands Applied Geoscience Commission (SOPAC) Technical Report 295, 25 p.
Savo, Solomon Islands [VNUM = 255070]
Isopachyte calculations for thicknesses of compacted tephra fallout, erupted under various wind conditions, for a 1 km³ Savo-centred eruption (2016)
Figure 9 in: Petterson, M.G., Tolia, D., Papabatu, A., Toba, T., & Qoptoto, C. (2016). Volcanic Hazard assessment of Savo Volcano, Solomon Islands, SW Pacific. In: Taylor, P.W. (Ed.) Volcanic Hazards and Emergency Management in the Southwest Pacific, SPC Technical Bulletin, SPC00017, p. 151-169
Volcanic Hazard Map of Savo (2016)
Figure 8 in: Petterson, M.G., Tolia, D., Papabatu, A., Toba, T., & Qoptoto, C. (2016). Volcanic Hazard assessment of Savo Volcano, Solomon Islands, SW Pacific. In: Taylor, P.W. (Ed.) Volcanic Hazards and Emergency Management in the Southwest Pacific, SPC Technical Bulletin, SPC00017, p. 151-169
Semeru, Indonesia [VNUM = 263300]
Disaster Prone Zone Map of Semeru Volcano, East Java (1996)
Bronto, S., Hamidi, S., & Martono, A. (1996). Disaster Prone Zone Map of Semeru Volcano, East Java. Volcanological Survey of Indonesia (VSI).
Sentinel Plain, United States [VNUM = 329801]
Preliminary Overview Map of Volcanic Hazards in the 48 Coterminous United States (1978)
Mullineaux, D.R. (1978). Preliminary overview map of volcanic hazards in the 48 conterminous United States. U.S. Geological Survey, Miscellaneous Field Studies Map 786. https://doi.org/10.3133/mf786
Sete Cidades, Sao Miguel, Azores [Portugal] [VNUM = 382080]
As for Fig. 9.3 for burial beneath 25 to 100 cm of pyroclastic fall deposits (1983)
Figure 9.4 in: Booth, B., Croasdale, R., & Walker, G.L. (1983). Volcanic hazard on Sao Miguel, Azores. In: Tazieff, H. & Sabroux, J.C. (eds.). Forecasting Volcanic Events. Elsevier, Amsterdam. p. 99-109.
Other volcanic hazards (1983)
Figure 9.6 in: Booth, B., Croasdale, R., & Walker, G.L. (1983). Volcanic hazard on Sao Miguel, Azores. In: Tazieff, H. & Sabroux, J.C. (eds.). Forecasting Volcanic Events. Elsevier, Amsterdam. p. 99-109.
The extent and frequency of hazard from burial beneath 100 to 400 cm of pyroclastic fall deposits, based on the record of the past 5,000 years (1983)
Figure 9.3 in: Booth, B., Croasdale, R., & Walker, G.L. (1983). Volcanic hazard on Sao Miguel, Azores. In: Tazieff, H. & Sabroux, J.C. (eds.). Forecasting Volcanic Events. Elsevier, Amsterdam. p. 99-109.
The extent of hazard by impact from large falling pyroclasts (1983)
Figure 9.5 in: Booth, B., Croasdale, R., & Walker, G.L. (1983). Volcanic hazard on Sao Miguel, Azores. In: Tazieff, H. & Sabroux, J.C. (eds.). Forecasting Volcanic Events. Elsevier, Amsterdam. p. 99-109.
The extent of hazard from burial beneath 400 cm or more in thickness of trachytic pyroclastic deposits (1983)
Figure 9.2 in: Booth, B., Croasdale, R., & Walker, G.L. (1983). Volcanic hazard on Sao Miguel, Azores. In: Tazieff, H. & Sabroux, J.C. (eds.). Forecasting Volcanic Events. Elsevier, Amsterdam. p. 99-109.
Seulawah Agam, Indonesia [VNUM = 261020]
Volcanic Hazard Map of Seulawahagam Volcano, Nanggroe Aceh Darussalam Province (2007)
Kartadinata, M.N., Patria, C., & Purwoto. (2007). Volcanic Hazard Map of Seulawahagam Volcano, Nanggroe Aceh Darussalam Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Severgina (Kharimkotan), Russia [VNUM = 290300]
Scheme of volcano-geographical zoning in the Kuril Islands (1962)
Figure 3 in: Markhinin, E. K., Sirin, A. N., Timerbayeva, K. M., & Tokarev, P. I. (1962). Experience of volcanic-geographic zoning of Kamchatka and Kuril Islands. Bulletin of the Volcanological Station, Petropavlousk, Kamchatskiy, USSR, 32, 52-70.
Shamiram Plateau, Armenia [VNUM = 214803]
Model for spatial density on the Shamiram Plateau (2012)
Figure 4 in: Connor, L.J., Connor, C.B., Meliksetian, K., Savov, I. (2012). Probabilistic approach to modeling lava flow inundation: a lava flow hazard assessment for a nuclear facility in Armenia. Journal of Applied Volcanology 1, 3. https://doi.org/10.1186/2191-5040-1-3
Results of Monte Carlo simulation of lava flow inundation of the site (2012)
Figure 6 in: Connor, L.J., Connor, C.B., Meliksetian, K., Savov, I. (2012). Probabilistic approach to modeling lava flow inundation: a lava flow hazard assessment for a nuclear facility in Armenia. Journal of Applied Volcanology 1, 3. https://doi.org/10.1186/2191-5040-1-3
Shasta, United States [VNUM = 323010]
Generalized volcanic hazard maps for very high, high, and moderate threat volcanoes compiled and simplified from Miller (1980, 1989), Miller and others (1982), Donnelly-Nolan and others (2007), Clynne and others (2012), White and others (2011), and Robinson and others (2012) (2019)
Figure 8 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of California showing counties and California Governor’s Office of Emergency Services (Cal OES) administrative regions (coastal, inland, and southern) and mutual aid regions (MARs) I–VI that could be directly affected by volcanic hazards. (2019)
Figure 11 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of California showing Federal, state, and local water storage and distribution centers in relation to moderate, high, and very high threat volcanoes (2019)
Figure 22 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of California showing high-voltage electric transmission lines in relation to volcanic hazard zones (2019)
Figure 16 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of key water resources and infrastructure of the Shasta-Trinity River Division of the Central Valley Project (CVP) in northern California (2019)
Figure 23 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of natural gas pipelines and substations in northern California (2019)
Figure 20 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of railways through hazard zones of Mount Shasta, Medicine Lake volcano, and Lassen Volcanic Center in northern California (2019)
Figure 26 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map of sketched jet flight paths at >18,000 feet altitude above California (2019)
Figure 28 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Map showing representative yearly traffic counts on principal road segments in the vicinity of (A) Mount Shasta, Medicine Lake volcano, and Lassen Volcanic Center; (B) Clear Lake volcanic field; (C ) Long Valley volcanic region and Ubehebe Craters; and (D) Salton Buttes (2019)
Figure 25 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Maps of 2010 population density in and near (A) Mount Shasta, Medicine Lake volcano, and Lassen Volcanic Center; (B ) Clear Lake volcanic field; (C ) Long Valley volcanic region and Ubehebe Craters; and (D ) Salton Buttes (2019)
Figure 14 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Maps showing the classification of land cover around (A) Mount Shasta, Medicine Lake volcano, and Lassen Volcanic Center; (B) Clear Lake volcanic field; (C ) Long Valley volcanic region and Ubehebe Craters; and (D) Salton Buttes (2019)
Figure 10 in: Mangan, M., Ball, J., Wood, N., Jones, J.L., Peters, J., Abdollahian, N., Dinitz, L., Blankenheim, S., Fenton, J., & Pridmore, C. (2019). California’s exposure to volcanic hazards. U.S. Geological Survey Scientific Investigations Report 2018–5159, v. 1.1, 49 p. https://doi.org/10.3133/sir20185159
Simplified volcano hazards map of Mount Shasta, California (2014)
Miller, C. D., Driedger, C.L., Scott, W.E., Iverson, R.M., Ramsey, D.W., & Faust, L.M. (2014). Simplified volcano hazards map of Mount Shasta, California. U.S. Geological Survey. Mount Shasta, CA Simplified Hazards Map. https://www.usgs.gov/media/images/mount-shasta-ca-simplified-hazards-map (Modified from: U.S. Geological Survey, Bulletin 1503)
Map showing one-year probability of accumulation of 1 centimeter (0.4 inch) or more of tephra from eruptions of volcanoes in the Cascade Range. (2013)
Nathensen, M. (2013). Map showing one-year probability of accumulation of 1 centimeter (0.4 inch) or more of tephra from eruptions of volcanoes in the Cascade Range. U.S. Geological Survey. Mount Bachelor Hazards. https://www.usgs.gov/volcanoes/mount-bachelor/hazards
Map showing annual probability of 1 centimeter or more of tephra accumulation from any major Cascade volcano (2012)
Figure 15 in: Clynne, M. A., Robinson, J. E., Nathenson, M. & Muffler, L. P. (2012). Volcano hazards assessment for the Lassen region, northern California. U.S. Geological Survey, Scientific Investigations Report 2012-5176-A, 47 p., 1 plate. https://doi.org/10.3133/sir20125176A
Preliminary probabilistic tephra-hazard map for Pacific Northwest (2011)
Figure 2 in: Hoblitt, R.P., & Scott, W.E. (2011). Estimate of tephra accumulation probabilities for the U.S. Department of Energy's Hanford Site, Washington. U.S. Geological Survey, Open-File Report 2011-1064, 15 p. https://doi.org/10.3133/ofr20111064
Map showing annual probability of 1 cm or more of tephra accumulation in Washington, Oregon, and northern California from eruptions throughout the Cascade Range. (1997)
Figure 4 in: Sherrod, D.R., Mastin, L.G., Scott, W.E. & Schilling, S.P. (1997). Volcano hazards at Newberry Volcano, Oregon. U.S. Geological Survey, Open-File Report 97-513, 14 p. https://doi.org/10.3133/ofr97513
Annual probability of 1 cm (about 0.4 inches) or more of tephra accumulation from any major Cascade volcano (1995)
Figure 5b in: Gardner, C.A., Scott, K.M., Miller, C.D., Myers, B., Hildreth, W., & Pringle, P.T. (1995). Potential volcanic hazards from future activity of Mount Baker, Washington. U.S. Geological Survey, Open-File Report 95-498, 16 p., 1 plate, scale 1:100,000. https://doi.org/10.3133/ofr95498
Annual probability of accumulation of ten or more centimeters (four or more inches) of tephra in Washington and Oregon from eruptions throughout the Cascade Range. (1995)
Figure 3 in: Wolfe, E.W. & Pierson, T.C. (1995). Volcanic-Hazard Zonation for Mount St. Helens, Washington, 1995. U.S. Geological Survey, Open-File Report 95-497, 12 p., 1 plate. https://doi.org/10.3133/ofr95497
Lava Flow Hazard Zones Map (1989)
Page 17 in: Crandell, D.R. & Nichols, D.R. (1989). Volcanic hazards at Mount Shasta, California. U.S. Geological Survey, General Information Product, 22 p. https://doi.org/10.3133/70039409
Map of Mount Shasta volcano and adjacent area. (1989)
Figure 17 in: Crandell, D.R. (1989). Gigantic debris avalanche of Pleistocene age from ancestral Mount Shasta Volcano, California, and debris-avalanche hazard zonation. U.S. Geological Survey, Bulletin 1861, 32 p. https://doi.org/10.3133/b1861
Mudflow Hazard Zones Map (1989)
Page 18 in: Crandell, D.R. & Nichols, D.R. (1989). Volcanic hazards at Mount Shasta, California. U.S. Geological Survey, General Information Product, 22 p. https://doi.org/10.3133/70039409
Potential Hazards from future volcanic eruptions in California (1989)
Plate 1 in: Miller, C.D. (1989). Potential hazards from future volcanic eruptions in California. U.S. Geological Survey, Bulletin 1847, 17 p., 2 tables, 1 plate, scale 1:500,000.
Pyroclastic Flow and Lateral Blast Hazard Map (1989)
Page 15 in: Crandell, D.R. & Nichols, D.R. (1989). Volcanic hazards at Mount Shasta, California. U.S. Geological Survey, General Information Product, 22 p. https://doi.org/10.3133/70039409
Volcanic-Ash Hazard Area Map (1989)
Page 14 in: Crandell, D.R. & Nichols, D.R. (1989). Volcanic hazards at Mount Shasta, California. U.S. Geological Survey, General Information Product, 22 p. https://doi.org/10.3133/70039409
Contour map of the estimated annual probability of the accumulation of 1 cm or more of tephra in the northwestern United States at eruptions at 13 major volcanic centers in the Cascades Range (1987)
Plate 4 in: Hoblitt, R. P., Miller, C. D., & Scott, W. E. (1987). Volcanic hazards with regard to siting nuclear-power plants in the Pacific Northwest. U.S. Geological Survey, Open-File Report 87-297. https://doi.org/10.3133/ofr87297
Contour map of the estimated annual probability of the accumulation of 1 m or more of tephra in the northwestern United States at eruptions at 13 major volcanic centers in the Cascades Range (1987)
Plate 2 in: Hoblitt, R. P., Miller, C. D., & Scott, W. E. (1987). Volcanic hazards with regard to siting nuclear-power plants in the Pacific Northwest. U.S. Geological Survey, Open-File Report 87-297. https://doi.org/10.3133/ofr87297
Contour map of the estimated annual probability of the accumulation of 10 cm or more of tephra in the northwestern United States at eruptions at 13 major volcanic centers in the Cascades Range (1987)
Plate 3 in: Hoblitt, R. P., Miller, C. D., & Scott, W. E. (1987). Volcanic hazards with regard to siting nuclear-power plants in the Pacific Northwest. U.S. Geological Survey, Open-File Report 87-297. https://doi.org/10.3133/ofr87297
Volcanic-hazard zones in the Cascades Range (1987)
Plate 1 in: Hoblitt, R. P., Miller, C. D., & Scott, W. E. (1987). Volcanic hazards with regard to siting nuclear-power plants in the Pacific Northwest. U.S. Geological Survey, Open-File Report 87-297. https://doi.org/10.3133/ofr87297
Zones of Potential Hazard from Lava Flows from Future Eruptions in the Vicinity of Mount Shasta, California (1980)
Plate 2 in: Miller, C.D. (1980). Potential hazards from future eruptions in the vicinity of Mount Shasta Volcano, Northern California. U.S. Geological Survey, Bulletin 1503, 43 p., 3 plates. https://doi.org/10.3133/b1503
Zones of Potential Hazard from Pyroclastic Flows and Associated Ash Clouds and Mudflows that may Result from future eruptions in the vicinity of Mount Shasta, California (1980)
Plate 3 in: Miller, C.D. (1980). Potential hazards from future eruptions in the vicinity of Mount Shasta Volcano, Northern California. U.S. Geological Survey, Bulletin 1503, 43 p., 3 plates. https://doi.org/10.3133/b1503
Preliminary Overview Map of Volcanic Hazards in the 48 Coterminous United States (1978)
Mullineaux, D.R. (1978). Preliminary overview map of volcanic hazards in the 48 conterminous United States. U.S. Geological Survey, Miscellaneous Field Studies Map 786. https://doi.org/10.3133/mf786
Sheveluch, Russia [VNUM = 300270]
Scheme of volcano-geographical zoning in Kamchatka (1962)
Figure 2 in: Markhinin, E. K., Sirin, A. N., Timerbayeva, K. M., & Tokarev, P. I. (1962). Experience of volcanic-geographic zoning of Kamchatka and Kuril Islands. Bulletin of the Volcanological Station, Petropavlousk, Kamchatskiy, USSR, 32, 52-70.
Shikotsu, Japan [VNUM = 285040]
Estimated damage range of a Tarumaeyama eruption (2021)
Page 14 in: Eniwa City Hall General Affairs Department. (2021). Eniwa City Disaster Prevention Guidebook. 19 p.
Mt. Tarumae Hazard Map (2019)
Page 7-8 in: Chitose City Disaster Prevention/Crisis Countermeasure Section. (2019). Chitose City Emergency Handbook. 34 p.
Tarumaesan Eruption Disaster Hazard Map (2018)
Page 37-38 in: Tomakomai City. (2018). Disaster Prevention Handbook of Tomakomai City.
Tarumaeyama Volcanic Alert Levels (2016)
Japan Meteorological Agency. (2016). Tarumaeyama Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.
Prepare for a Volcanic Disaster (2013)
Page 10-11 in: Eniwa City Disaster Prevention Division. (2013). Disaster Prevention Guidebook. 21 p.
Tarumaeyama Volcano Disaster Prevention Map (2013)
Page 27-28 in: Shiraoi Town. (2013). Shiraoi Town Disaster Prevention Map. 36 p.
Shinmoedake (Kirishimayama), Japan [VNUM = 282090]
Kirishima Trekking Map (2020)
Kirishimashi. (2020). Kirishima Trekking Map. 2020.03
Kirishima Trekking Map (2019)
Kirishimashi. (2019). Kirishima Trekking Map. 2019.03
Volcanic disaster prevention map of Mt. Kirishima (2019)
Volcano Disaster Management Councils of Mt. Kirishima (ED). (2019). Volcanic disaster prevention map of Mt. Kirishima. Volcano Disaster Management Councils of Mt. Kirishima, MLIT Miyazaki Office of River and National Highway, Sabo and Landslide Technical Center, Kan-Kirisima (Ebino City, Kirisima City, Kobayashi City, Soo City, Takaharu Town, Miyakonojo City and Yusui Town).
Kirishimayama (Shinmoedake) Volcanic Alert Levels (2018)
Japan Meteorological Agency. (2018). Kirishimayama (Shinmoedake) Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.
Kirishima Trekking Map (2015)
Kirishimashi. (2015). Kirishima Trekking Map.
Kirishima Trekking Map (2014)
Kirishimashi. (2014). Kirishima Trekking Map. 2014.11
Kirishima Volcano Disaster Prevention Map (2009)
Kan-Kirishima Conference. (2009). Kirishima Volcano Disaster Prevention Map. Miyakonojo, Kogen Town, Kobayashi City, Ebino City, Yusui Town, Shima City, Fuo City.
Shiretoko-Iozan, Japan [VNUM = 285090]
Volcanic disaster prevention map - Shiretoko-Iozan (2011)
Page 37-38 in: Shari Town. (2011). Disaster Prevention Map.
Shishaldin, United States [VNUM = 311360]
Areas likely to be affected by pyroclastic flows during small to moderate future eruptions of Shishaldin Volcano (2003)
Figure 13 in: Beget, J.E., Nye, C.J., Schaefer, J.R. & Stelling, P.L. (2003). Preliminary volcano-hazard assessment for Shishaldin Volcano, Alaska. Alaska Division of Geological & Geophysical Surveys, Report of Investigations 2002-4, 28 p., 1 sheet, scale 1:500,000. http://doi.org/10.14509/2872
Directed blast hazard zone at Shishaldin Volcano (2003)
Figure 17 in: Beget, J.E., Nye, C.J., Schaefer, J.R. & Stelling, P.L. (2003). Preliminary volcano-hazard assessment for Shishaldin Volcano, Alaska. Alaska Division of Geological & Geophysical Surveys, Report of Investigations 2002-4, 28 p., 1 sheet, scale 1:500,000. http://doi.org/10.14509/2872
Maximum likely travel distance of a future large debris avalanche at Shishaldin Volcano (2003)
Figure 15 in: Beget, J.E., Nye, C.J., Schaefer, J.R. & Stelling, P.L. (2003). Preliminary volcano-hazard assessment for Shishaldin Volcano, Alaska. Alaska Division of Geological & Geophysical Surveys, Report of Investigations 2002-4, 28 p., 1 sheet, scale 1:500,000. http://doi.org/10.14509/2872
Preliminary Volcano-Hazard Assessment for Shishaldin Volcano, Alaska (2003)
Sheet 1 in: Beget, J.E., Nye, C.J., Schaefer, J.R. & Stelling, P.L. (2003). Preliminary volcano-hazard assessment for Shishaldin Volcano, Alaska. Alaska Division of Geological & Geophysical Surveys, Report of Investigations 2002-4, 28 p., 1 sheet, scale 1:500,000. http://doi.org/10.14509/2872
This map shows areas that might be affected by ash fallout during a typical eruption of Shishaldin Volcano (2003)
Figure 10 in: Beget, J.E., Nye, C.J., Schaefer, J.R. & Stelling, P.L. (2003). Preliminary volcano-hazard assessment for Shishaldin Volcano, Alaska. Alaska Division of Geological & Geophysical Surveys, Report of Investigations 2002-4, 28 p., 1 sheet, scale 1:500,000. http://doi.org/10.14509/2872
Shishaldin 24-hrs. Airborne ash distribution map for Shishaldin volcano, Alaska (2002)
Figure 34b in: Papp, K. (2002). An analysis of volcanic ash plume movement and dispersion within the North Pacific. University of Alaska Fairbanks, M.S. Thesis. https://scholarworks.alaska.edu/handle/11122/6307
Shishaldin 6-hrs. Airborne ash distribution map for Shishaldin volcano, Alaska (2002)
Figure 34a in: Papp, K. (2002). An analysis of volcanic ash plume movement and dispersion within the North Pacific. University of Alaska Fairbanks, M.S. Thesis. https://scholarworks.alaska.edu/handle/11122/6307
Twenty-four hour airborne ash probability distribution (AAPD) maps for Shishaldin Volcano. (2002)
Figure 9 in: Beget, J.E., Nye, C.J., Schaefer, J.R. & Stelling, P.L. (2003). Preliminary volcano-hazard assessment for Shishaldin Volcano, Alaska. Alaska Division of Geological & Geophysical Surveys, Report of Investigations 2002-4, 28 p., 1 sheet, scale 1:500,000. http://doi.org/10.14509/2872. (Modified from: Papp 2002)
Shoshone Lava Field (Black Butte Crater Lava Field), United States [VNUM = 324010]
Simulation outputs from MOLASSES (MOdular LAva Simulation Software for Earth Science) simulator (2018)
Figure 3 in: Gallant, E., Richardson, J., Connor, C., Wetmore, P., Connor, L. (2018). A new approach to probabilistic lava flow hazard assessments, applied to the Idaho National Laboratory, eastern Snake River Plain, Idaho, USA. Geology, 46 (10), p. 895–898. https://doi.org/10.1130/G45123.1
Sinabung, Indonesia [VNUM = 261080]
Peta Kawasan Rawan Bencana Gunungapi Sinabung, Provinsi Sumatera Utara (2014)
Gunawan, H., Mulyana, A.R., Solihin, A., Pujowarsito, & Riyadi. (2014). Volcanic Hazard Map of Sinabung Volcano, North Sumatera Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Peta Kawasan Rawan Bencana Gunungapi Sinabung, Provinsi Sumatera Utara (2013)
Gunawan, H., Mulyana, A.R., Solihin, A., Pujowarsito, & Riyadi. (2013). Volcanic Hazard Map of Sinabung Volcano, North Sumatera Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Peta Kawasan Rawan Bencana Gunungapi Sinabung, Provinsi Sumatera Utara (2011)
Mulyana, A.R., Solihin, A., Pujowarsito, & Riyadi. (2011). Volcanic Hazard Map of Sinabung Volcano, North Sumatera Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Peta Daerah Bamaya G. Sinabung, Sumatra Utara ([?])
Center for Volcanology and Geological Hazard Mitigation (CVGHM). (Year Unknown). Peta Daerah Bamaya G. Sinabung, Sumatra Utara. Reprinted in: Global Volcanism Program. (2010). Report on Sinabung (Indonesia) (Wunderman, R., ed.). Bulletin of the Global Volcanism Network, 35:7. Smithsonian Institution. https://doi.org/10.5479/si.GVP.BGVN201007-261080
Sinarka, Russia [VNUM = 290290]
Scheme of volcano-geographical zoning in the Kuril Islands (1962)
Figure 3 in: Markhinin, E. K., Sirin, A. N., Timerbayeva, K. M., & Tokarev, P. I. (1962). Experience of volcanic-geographic zoning of Kamchatka and Kuril Islands. Bulletin of the Volcanological Station, Petropavlousk, Kamchatskiy, USSR, 32, 52-70.
Sirung, Indonesia [VNUM = 264270]
Volcanic Hazard Map of Sirung Volcano, East Nusa Tenggara Province (2010)
Surmayadi, M., Heriwaseso, A., Riyadi, & Karim, A. (2010). Volcanic Hazard Map of Sirung Volcano, East Nusa Tenggara Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Slamet, Indonesia [VNUM = 263180]
Volcanic Hazard Map of Slamet Volcano, Central Java Province (2006)
Abdurachman, E.K., Hadisantono, R.D., Sumpena, A.D., Warsito, P., & Kadarsetia, E. (2006). Volcanic Hazard Map of Slamet Volcano, Central Java Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Smelter Knolls, United States [VNUM = 327802]
Preliminary Overview Map of Volcanic Hazards in the 48 Coterminous United States (1978)
Mullineaux, D.R. (1978). Preliminary overview map of volcanic hazards in the 48 conterminous United States. U.S. Geological Survey, Miscellaneous Field Studies Map 786. https://doi.org/10.3133/mf786
Snow (Chirpoi), Russia [VNUM = 290150]
Scheme of volcano-geographical zoning in the Kuril Islands (1962)
Figure 3 in: Markhinin, E. K., Sirin, A. N., Timerbayeva, K. M., & Tokarev, P. I. (1962). Experience of volcanic-geographic zoning of Kamchatka and Kuril Islands. Bulletin of the Volcanological Station, Petropavlousk, Kamchatskiy, USSR, 32, 52-70.
Snowy Mountain, United States [VNUM = 312200]
Preliminary Volcano-Hazard Assessment for the Katmai Volcanic Cluster (2001)
Plate 1 in: Fierstein, J. & Hildreth, W. (2001). Preliminary volcano-hazard assessment for the Katmai Volcanic Cluster, Alaska. U.S. Geological Survey Open-File Report 00-489, 50 p., 1 plate. https://doi.org/10.3133/ofr00489
Socompa, Chile-Argentina [VNUM = 355109]
Integrated quantitative volcanic hazard map, constructed by adding each probability map (Figures 6A–E), weighted evenly (2022)
Figure 7 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Probabilistic volcanic hazard maps for the Central Volcanic Zone of Chile and Argentina (∼22.5–28°S), obtained after empirical, semi-empirical or analytical modeling (2022)
Figure 6 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Spatial probability analysis considering: (A) volcanic events, and (B) volcanic events (80%) and structural data (20%) (2022)
Figure 11 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Spatial probability maps of volcanic activity for our study area (2022)
Figure 3 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Spatio-temporal probability maps of future volcanic activity for our study area at different forecasting time intervals (2022)
Figure 4 in: Bertin, D., Lindsay, J.M., Cronin, S.J., de Silva, S.L., Connor, C.B., Caffe, P.J., Grosse, P., Báez, W., Bustos, E., & Constantinescu, R. (2022). Probabilistic Volcanic Hazard Assessment of the 22.5–28° S Segment of the Central Volcanic Zone of the Andes. Frontiers in Earth Science, 10. https://doi.org/10.3389/feart.2022.875439
Peligros Volcanicos de Chile (2011)
Lara, L.E., Orozco G., Amigo A. & Silva C. (2011). Peligros Volcanicos de Chile. Servicio Nacional de Geología y Minería (SERNAGEOMIN), Carte Geologica de Chile, Serie Geologia Ambiental, No. 13: 34 p., 1 mapa escala 1:2.000.000. Santiago.
Solimana, Peru [VNUM = 354803]
Mapa Preliminar de Zonificación de Peligros Volcanicos - Sur del Perú (2003)
Comisión Multisectorial de Reducción de Riesgos en el Desarrollo (CMRRD) & Dirección General de Programación Multianual del Sector Público - MEF (DGPM) (2003). Mapa preliminar de zonificación de peligros volcánicos - Sur del Perú. Estrategía Nacional de Reducción de Riesgos para el Desarrollo. Escala 1:3000000
Sollipulli, Chile [VNUM = 357111]
Peligros del Volcán Sollipulli (2014)
Jara, C. & Moreno, H. (2014). Peligros del Volcán Sollipulli, Región de La Araucanía. Servicio Nacional de Geología y Minería (SERNAGEOMIN), Carta Geológica de Chile, Serie Geología Ambiental No. 18, mapa escala 1:50.000. Santiago.
Peligros Volcanicos de Chile (2011)
Lara, L.E., Orozco G., Amigo A. & Silva C. (2011). Peligros Volcanicos de Chile. Servicio Nacional de Geología y Minería (SERNAGEOMIN), Carte Geologica de Chile, Serie Geologia Ambiental, No. 13: 34 p., 1 mapa escala 1:2.000.000. Santiago.
Soputan, Indonesia [VNUM = 266030]
LAHARZ model results for the lahar inundation of 100,000 (dark orange), 300,000 (light orange), 1,000,000 (light yellow), and 3,000,000 m³ (dark yellow) (2012)
Figure 22 in: Kushendratno, Pallister, J.S., Kristianto, Bina, F.R., McCausland, W., Carn, S., Haerani, N., Griswold, J., & Keeler, R. (2012). Recent explosive eruptions and volcano hazards at Soputan volcano—a basalt stratovolcano in north Sulawesi, Indonesia. Bulletin of volcanology, 74(7), 1581-1609. https://doi.org/10.1007/s00445-012-0620-2
Volcanic Hazard Map of Soputan Volcano, North Sulawesi Province (2006)
Hadisantono, R.D., Abdurachman, E.K., Surmayadi, M., & Martono, A. (2006). Volcanic Hazard Map of Soputan Volcano, North Sulawesi Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Sorikmarapi, Indonesia [VNUM = 261120]
Volcanic Hazard Map of Sorik Marapi Volcano, North Sumatera Province (2008)
Kadarsetia, E., Chaniago, R., Nasution, A., Purwoto, Rukada, T., & Dahlan, A. (2008). Volcanic Hazard Map of Sorik Marapi Volcano, North Sumatera Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Sotará, Colombia [VNUM = 351061]
Mapa de Amenaza Volcánica del Volcán Sotará - Primera versión 2019 (2019)
Servicio Geológico Colombiano (SGC). (2019). Mapa de Amenaza Volcánica del Volcán Sotará. Primera versión.
Zonificación de la amenaza por flujos de lava en el volcán Sotará (amenaza alta) (2019)
Figure 19 in: Pulgarín, B., Zuluaga, I., Galarza, J. Muñoz, C. y Laverde, C. (2019). Memoria del mapa de amenaza volcánica del volcán Sotará. Popayán, Pasto y Bogotá: Servicio Geológico Colombiano.
Zonificación de la amenaza por lahares en el área de influencia del volcán Sotará (amenaza alta) (2019)
Figure 18 in: Pulgarín, B., Zuluaga, I., Galarza, J. Muñoz, C. y Laverde, C. (2019). Memoria del mapa de amenaza volcánica del volcán Sotará. Popayán, Pasto y Bogotá: Servicio Geológico Colombiano.
Zonificación integrada de la amenaza alta por corrientes de densidad piroclástica (CDPs) concentradas (flujos piroclásticos) y diluidas (oleadas piroclásticas) (2019)
Figure 17 in: Pulgarín, B., Zuluaga, I., Galarza, J. Muñoz, C. y Laverde, C. (2019). Memoria del mapa de amenaza volcánica del volcán Sotará. Popayán, Pasto y Bogotá: Servicio Geológico Colombiano.
Zonificación por avalanchas de escombros en el volcán Sotará (amenaza alta) (2019)
Figure 23 in: Pulgarín, B., Zuluaga, I., Galarza, J. Muñoz, C. y Laverde, C. (2019). Memoria del mapa de amenaza volcánica del volcán Sotará. Popayán, Pasto y Bogotá: Servicio Geológico Colombiano.
Zonificación por caída de piroclastos transportados por acción de los vientos en el volcán Sotará (2019)
Figure 20 in: Pulgarín, B., Zuluaga, I., Galarza, J. Muñoz, C. y Laverde, C. (2019). Memoria del mapa de amenaza volcánica del volcán Sotará. Popayán, Pasto y Bogotá: Servicio Geológico Colombiano.
Zonificación por caída de proyectiles balísticos en el volcán Sotará (amenaza alta y media) (2019)
Figure 21 in: Pulgarín, B., Zuluaga, I., Galarza, J. Muñoz, C. y Laverde, C. (2019). Memoria del mapa de amenaza volcánica del volcán Sotará. Popayán, Pasto y Bogotá: Servicio Geológico Colombiano.
Zonificación por onda de choque para el volcán Sotará (2019)
Figure 22 in: Pulgarín, B., Zuluaga, I., Galarza, J. Muñoz, C. y Laverde, C. (2019). Memoria del mapa de amenaza volcánica del volcán Sotará. Popayán, Pasto y Bogotá: Servicio Geológico Colombiano.
Soufrière Guadeloupe, Guadeloupe [France] [VNUM = 360060]
Best-guess probability map of vent opening (2022)
Figure 2 in: Massaro, S., Rossi, E., Sandri, L., Bonadonna, C., Selva, J., Moretti, R., & Komorowski, J. C. (2022). Assessing hazard and potential impact associated with volcanic ballistic projectiles: The example of La Soufrière de Guadeloupe volcano (Lesser Antilles). Journal of volcanology and geothermal research, 423, 107453. https://doi.org/10.1016/j.jvolgeores.2021.107453
Exposure-based risk analysis considering the conditional probability and the overall probability of VBPs exceeding selected energy thresholds (2022)
Figure 10 in: Massaro, S., Rossi, E., Sandri, L., Bonadonna, C., Selva, J., Moretti, R., & Komorowski, J. C. (2022). Assessing hazard and potential impact associated with volcanic ballistic projectiles: The example of La Soufrière de Guadeloupe volcano (Lesser Antilles). Journal of volcanology and geothermal research, 423, 107453. https://doi.org/10.1016/j.jvolgeores.2021.107453
Probability maps to exceed Et3 (2750 J) considering the hypothetical scenario of a single vent (2022)
Figure 8 in: Massaro, S., Rossi, E., Sandri, L., Bonadonna, C., Selva, J., Moretti, R., & Komorowski, J. C. (2022). Assessing hazard and potential impact associated with volcanic ballistic projectiles: The example of La Soufrière de Guadeloupe volcano (Lesser Antilles). Journal of volcanology and geothermal research, 423, 107453. https://doi.org/10.1016/j.jvolgeores.2021.107453
Guadeloupe - Integrated Volcanic Hazard Zones for the areas most likely to be affected in the five eruptive scenarios defined for an eruption from a vent on or within 1 km the Soufrière dome and within the S-SW oriented most-recent edifice collapse depression and with the assumption of the presence of easterly trade winds between 0 and 5-8 km altitude (2005)
Pocket insert in: Komorowski, J.-C., Boudon, G., Michel-Semet, Beauducel, F., Anténor-Habazac, C., Bazin, S., & Hammouya, G. (2005). Guadeloupe. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 68-106.
Integrated volcanic hazards zones for southern Basse-Terre (Guadeloupe) based on eruptive scenarios 1-5 (2005)
Page 98 in: Komorowski, J.-C., Boudon, G., Michel-Semet, Beauducel, F., Anténor-Habazac, C., Bazin, S., & Hammouya, G. (2005). Guadeloupe. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 68-106.
Assessment and zonation of hazards from future lahars of phreatic and collapse-type at Soufrière in Guadeloupe (according to Westercamp, 1981b) (1983)
Figure 10.5 in: Westercamp, D. (1983). Appraisal and zonation of volcanic hazards in the French Lesser Antilles: preliminary results. In: Tazieff, H. & Sabroux, J.-C. (Eds.) Forecasting Volcanic Events, Elsevier, Amsterdam, p. 111-130.
Zonation of lava-flow hazards at Soufrière in Guadeloupe (according to Westercamp, 1977, slightly modified) (1983)
Figure 10.4 in: Westercamp, D. (1983). Appraisal and zonation of volcanic hazards in the French Lesser Antilles: preliminary results. In: Tazieff, H. & Sabroux, J.-C. (Eds.) Forecasting Volcanic Events, Elsevier, Amsterdam, p. 111-130.
Carte de zonation des risques d'éruption magmatique à la Soufrière de Guadeloupe (1981)
Figure 5 in: Westercamp, D. (1981). Cartographie du risque volcanique a la soufriere de guadeloupe: Retrospective et tendance actuelle. Bulletin of the International Association of Engineering Geology-Bulletin de l'Association Internationale de Géologie de l'Ingénieur, 23(1), p. 25-32. https://doi.org/10.1007/BF02594723
Carte de zonation des risques d'éruption phréatique à la Soufrière de Guadeloupe (d'après Westercamp 1977b) (1981)
Figure 4 in: Westercamp, D. (1981). Cartographie du risque volcanique a la soufriere de guadeloupe: Retrospective et tendance actuelle. Bulletin of the International Association of Engineering Geology-Bulletin de l'Association Internationale de Géologie de l'Ingénieur, 23(1), p. 25-32. https://doi.org/10.1007/BF02594723
Carte de zonation des risques volcaniques á la Soufrière de Guadeloupe (d'ápres Westercamp, Juin 1976) (1981)
Figure 2 in: Westercamp, D. (1981). Cartographie du risque volcanique a la soufriere de guadeloupe: Retrospective et tendance actuelle. Bulletin of the International Association of Engineering Geology-Bulletin de l'Association Internationale de Géologie de l'Ingénieur, 23(1), p. 25-32. https://doi.org/10.1007/BF02594723
Carte montrant les zones susceptibles d'être menacées par une éventuelle éruption de type péléen du volcan de la Soufrière de Guadeloupe (d'ápres Barrabe 1960) (1981)
Figure 1 in: Westercamp, D. (1981). Cartographie du risque volcanique a la soufriere de guadeloupe: Retrospective et tendance actuelle. Bulletin of the International Association of Engineering Geology-Bulletin de l'Association Internationale de Géologie de l'Ingénieur, 23(1), p. 25-32. https://doi.org/10.1007/BF02594723
Nouvelle présentation après modification de la carte de zonation des risques volcaniques à la Soufrière de Guadeloupe de Juin 1976 (d'après Westercamp, Février 1977) (1981)
Figure 3 in: Westercamp, D. (1981). Cartographie du risque volcanique a la soufriere de guadeloupe: Retrospective et tendance actuelle. Bulletin of the International Association of Engineering Geology-Bulletin de l'Association Internationale de Géologie de l'Ingénieur, 23(1), p. 25-32. https://doi.org/10.1007/BF02594723
Carte de Zonation des Risques d'Éruption Phréatique, et d'Éruption Magmatique Caractérisée par des Phénomènes Effusifs et Moyennement Explosifs à la Soufrière de Guadeloupe F.W.I. (1977)
Insert in: Westercamp, D. (1977) Levés géologiques, évaluation et zonation des risques volcaniques à la Soufrière de Guadeloupe F. W. I. (Rapport de mission) Mai-Juin 1977. Délégation Générale a la Recherche Scientifique et Technique. 77 Ant 29
Evaluation des Risques Potentiels de Lahars d'Accumulation a la Soufrière de Guadeloupe (1977)
Figure 17 in: Westercamp, D. (1977) Levés géologiques, évaluation et zonation des risques volcaniques à la Soufrière de Guadeloupe F. W. I. (Rapport de mission) Mai-Juin 1977. Délégation Générale a la Recherche Scientifique et Technique. 77 Ant 29
Localisation des Secteurs Susceptibles de Glisser sous L'action des Explosions Phréatiques ou des Secousses Sismiques Superficielles (1977)
Figure 13 in: Westercamp, D. (1977) Levés géologiques, évaluation et zonation des risques volcaniques à la Soufrière de Guadeloupe F. W. I. (Rapport de mission) Mai-Juin 1977. Délégation Générale a la Recherche Scientifique et Technique. 77 Ant 29
Zonation des Depôts et des Regions Soumises à l'Effet du Souffle des Nuées Ardentes du Type St Vincent 1902 à la Soufrière de Guadeloupe (1977)
Figure 18 in: Westercamp, D. (1977) Levés géologiques, évaluation et zonation des risques volcaniques à la Soufrière de Guadeloupe F. W. I. (Rapport de mission) Mai-Juin 1977. Délégation Générale a la Recherche Scientifique et Technique. 77 Ant 29
Zonation des Risques Potentiels de Coulées de Lave a la Soufriére de Guadeloupe (1977)
Figure 19 in: Westercamp, D. (1977) Levés géologiques, évaluation et zonation des risques volcaniques à la Soufrière de Guadeloupe F. W. I. (Rapport de mission) Mai-Juin 1977. Délégation Générale a la Recherche Scientifique et Technique. 77 Ant 29
Correspondance Probable Entre les Zones Menacées et le Secteur d'Ouverture de la Cheminée Volcanique (1976)
Figure 2 in: Westercamp, D. (1976). Dynamismes Éruptifs et Zonation des Risques Volcaniques a la Sourfrière de Guadeloupe. Bureau de Recherches Géologiques, Service Geologique des Antilles.
Types de Repartition des Cendres Soumises a l'Action d'un Vent Dominant (1976)
Figure 4 in: Westercamp, D. (1976). Dynamismes Éruptifs et Zonation des Risques Volcaniques a la Sourfrière de Guadeloupe. Bureau de Recherches Géologiques, Service Geologique des Antilles.
Carte Conjecturale des Zones Susceptibles d'etre Menacées par Une Éventuelle Éruption de Type Péleen du Volcan de la Soufrière dans le Sud de la Gaudeloupe et Particulièrement dans la Région de Basse-Terre (1960)
Figure 1 (in reprint) in: Barrabe, M.L. (1960) Rapport sur les risques qui pourraient resulter de la presense du volcan de la Soufriere pour la villa de Basse-Terre, avec une carte de zonation des risques volcaniques au 1/50.000. Report inedit, 6 p. (Reprinted in: Westercamp, D. (1976). Dynamismes Éruptifs et Zonation des Risques Volcaniques a la Sourfrière de Guadeloupe. Bureau de Recherches Géologiques, Service Geologique des Antilles. Reprinted from: Barrabe, M.L. (1960) Rapport sur les risques qui pourraient resulter de la presense du volcan de la Soufriere pour la villa de Basse-Terre, avec une carte de zonation des risques volcaniques au 1/50.000. Report inedit, 6 p.)
Soufrière Hills, Montserrat [United Kingdom] [VNUM = 360050]
Soufriere Hills Volcano, Monsterrat. Hazards Level System. Version 3, 1 August 2014 (2014)
Montserrat Volcano Observatory (MVO). (2014). Soufrière Hills Volcano, Monsterrat. Hazard Level System. Version 3, 1 August 2014. http://www.mvo.ms/pub/Hazard_Level_System/HLS-20140801.pdf
Hazard Level System Soufriere Hills Volcano, Monsterrat: Hazard Levels and Access Restrictions 4 November 2011 (2011)
Montserrat Volcano Observatory (MVO). (2011) Hazard Level System. Soufriere Hills Volcano, Monsterrat: Hazard Levels and Access Restrictions 4 November 2011. http://www.mvo.ms/pub/Hazard_Level_System/HLS-20111104.pdf
The PYROFLOW simulation ensemble, representing the equivalent of 66 years' worth of 1996-1998 activity constrained by the analysis of the directional growth of the dome. (2009)
Figure 9 in: Wadge, G. (2009). Assessing the pyroclastic flow hazards from dome collapse at Soufriere Hills Volcano, Montserrat. In: Thordarson, S., Self, S., Larsen, G., Rowland, S.K., & Hoskuldsson, A. (Eds.) Studies in Volcanology: The Legacy of George Walker. IAVCEI, Special Publications, 2, p. 211-224. https://doi.org/10.1144/IAVCEl002.11
Simulated inundations of block-and-ash PFs of selected volume for the Belham River drainage, Montserrat, to aid risk assessment in the volcanic crisis of Jan-Feb 2007. (2008)
Figure 4 in: Widiwijayanti, C., Voight, B., Hidayat, D., & Schilling, S. P. (2009). Objective rapid delineation of areas at risk from block-and-ash pyroclastic flows and surges. Bulletin of Volcanology, 71(6), p. 687-703. https://doi.org/10.1007/s00445-008-0254-6
Montserrat Maritime Areas Volcanic Risk Map January 2007 (2007)
Montserrat Volcano Observatory (MVO). (2007). Montserrat Maritime Areas Volcanic Risk Map January 2007.
Montserrat Risk Map Safe/Unsafe Areas (21 July 2007) (2007)
Montserrat Volcano Observatory (MVO). (2007). Montserrat Risk Map. Safe/Unsafe Areas (21 July 2007). Montserrat Volcano Observatory. Risk Map - July 2007. https://web.archive.org/web/20070827203508fw_/http://www.mvo.ms/riskmap_files/Current%20Risk%20Map.htm
Montserrat Risk Map Safe/Unsafe Areas (February 2007) (2007)
Montserrat Volcano Observatory (MVO). (2007). Montserrat Risk Map. Safe/Unsafe Areas (February 2007). Montserrat Volcano Observatory. Risk Map - February 2007. https://web.archive.org/web/20070702100219fw_/http://www.mvo.ms/0701%20Risk%20Map.htm
Montserrat Risk Map Safe/Unsafe Areas (January 2007) (2007)
Montserrat Volcano Observatory (MVO). (2007). Montserrat Risk Map Safe/Unsafe Areas (January 2007). Montserrat Volcano Observatory. Risk Map - Janary 2007. https://web.archive.org/web/20070219015306fw_/http://www.mvo.ms/0701%20Risk%20Map.htm
Montserrat - Volcanic deposits/hazard map for the Soufrière Hills Volcano (2005)
Pocket insert in: Hincks, T., Sparks, S., Dunkley, P., & Cole, P. (2005). Montserrat. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 148-168.
Volcanic deposits/hazard map for the Soufrière Hills Volcano (2005)
Page 163 in: Hincks, T., Sparks, S., Dunkley, P., & Cole, P. (2005). Montserrat. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 148-168.
Volcanic risk map for the Soufrière Hills Volcano, 1st August 2004 (2004)
Page 164 in: Hincks, T., Sparks, S., Dunkley, P., & Cole, P. (2005). Montserrat. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 148-168.
Montserrat Maritime Areas Volcanic Risk Map October 2002 (2002)
Montserrat Volcano Observatory (MVO). (2002). Montserrat Maritime Areas Volcanic Risk Map October 2002. Montserrat Volcano Observatory. Risk Map - October 2002. http://www.mvo.ms/documents/October%202002%20Risk%20Map.doc
Montserrat Volcano Risk Map (1997)
Montserrat Volcano Observatory (MVO). (1997). Montserrat Volcano Risk Map. Montserrat Volcano Observatory. Definition Of Boundary Limits and Volcanic Risk Map for Soufriere Hills Volcano. http://www.geo.mtu.edu/volcanoes/west.indies/soufriere/govt/miscdocs/rskzone.html
Hazard Level System ([?])
Montserrat Volcano Observatory (MVO). (Year Unknown). Hazard Level System. Soufrière Hills Volcano, Monsterrat, Hazards Level System.
Hazard Level: 1 ([?])
Montserrat Volcano Observatory (MVO). (Year Unknown). Hazard Level. Retrieved 29 March, 2022, from http://www.mvo.ms/
Soufrière St. Vincent, Saint Vincent and the Grenadines [VNUM = 360150]
Chateaubelair & Fitz Hughes Community Multi-Hazard Map (2021)
The University of the West Indies Seismic Research Centre (UWI-SRC) and National Emergency Management Organization (NEMO). (2021). Chateaubelair & Fitz Hughes Community Multi-Hazard Map. https://uwiseismic.com/wp-content/uploads/2021/10/Chateau-fitzhughes_Hazard-Map-scaled.jpg
Fancy Community Multi-Hazard Map (2021)
The University of the West Indies Seismic Research Centre (UWI-SRC) and National Emergency Management Organization (NEMO). (2021). Fancy Community Multi-Hazard Map. https://uwiseismic.com/wp-content/uploads/2021/10/Fancy-Hazard-Map-scaled.jpg
Georgetown Community Multi-Hazard Map (2021)
The University of the West Indies Seismic Research Centre (UWI-SRC) and National Emergency Management Organization (NEMO). (2021). Georgetown Community Multi-Hazard Map. https://uwiseismic.com/wp-content/uploads/2021/10/Georgetown-Hazard-Map-scaled.jpg
Overland Community Multi-Hazard Map (2021)
The University of the West Indies Seismic Research Centre (UWI-SRC) and National Emergency Management Organization (NEMO). (2021). Overland Community Multi-Hazard Map. https://uwiseismic.com/wp-content/uploads/2021/10/Overland-Hazard-Map-scaled.jpg
Owia/Point Community Multi-Hazard Map (2021)
The University of the West Indies Seismic Research Centre (UWI-SRC) and National Emergency Management Organization (NEMO). (2021). Owia/Point Community Multi-Hazard Map. https://uwiseismic.com/wp-content/uploads/2021/10/Owia-Point-Hazard-Map-scaled.jpg
Rose Hall Community Multi-Hazard Map (2021)
The University of the West Indies Seismic Research Centre (UWI-SRC) and National Emergency Management Organization (NEMO). (2021). Rose Hall Community Multi-Hazard Map. https://uwiseismic.com/wp-content/uploads/2021/10/Rose-Hall_Hazard-Map-scaled.jpg
Sandy Bay Community Multi-Hazard Map (2021)
The University of the West Indies Seismic Research Centre (UWI-SRC) and National Emergency Management Organization (NEMO). (2021). Sandy Bay Community Multi-Hazard Map. https://uwiseismic.com/wp-content/uploads/2021/10/Sandy-Bay_Hazard-Map-scaled.jpg
Spring Village Community Multi-Hazard Map (2021)
The University of the West Indies Seismic Research Centre (UWI-SRC) and National Emergency Management Organization (NEMO). (2021). Spring Village Community Multi-Hazard Map. https://uwiseismic.com/wp-content/uploads/2021/10/Spring-Village-Hazard-Map-scaled.jpg
Volcanic Hazard Map for La Soufrière Volcano (2021)
The University of the West Indies Seismic Research Centre (UWI-SRC) and National Emergency Management Organization (NEMO). (2021). Volcanic Hazard Map for La Soufrière Volcano. https://uwiseismic.com/wp-content/uploads/2021/10/SoufriereEruption-SVGHazMap.pdf. (Modified from: Robertson et al. 2005)
Integrated volcanic hazard zones for Scenario 1: Eruption from the Soufrière Volcano involving both effusive dome-forming and explosive activity (2005)
Page 258 in: Robertson, R. (2005). St. Vincent. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 241-261
St. Vincent - Integrated volcanic hazard zones for an eruption from La Soufrière Volcano involving both dome-forming and explosive activity (2005)
Pocket insert in: Robertson, R. (2005). St. Vincent. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 241-261
Volcanic hazard map for Scenario 1: Eruption from the Soufrière Volcano involving both effusive dome-forming and explosive activity (2005)
Page 254 in: Robertson, R. (2005). St. Vincent. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 241-261
Soufrière Volcanic Center (Qualibou), Saint Lucia [VNUM = 360140]
Integrated volcanic hazard zones for Scenario 3: Dome-forming eruption from within the Soufrière Volcanic Centre (2005)
Page 235 in: Lindsay, J.M. (2005). Saint Lucia. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 219-239.
Integrated volcanic hazard zones for Scenario 4: Explosive Plinian eruption from within the Soufrière Volcanic Centre (2005)
Page 236 in: Lindsay, J.M. (2005). Saint Lucia. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 219-239.
Saint Lucia - Integrated Volcanic Hazard Zones for an effusive dome-forming eruption from the Soufrière Volcanic Centre (2005)
Pocket Insert in: Lindsay, J.M. (2005). Saint Lucia. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 219-239.
Volcanic hazard map for Scenario 3: Dome-forming eruption from within the Soufrière Volcanic Centre (2005)
Page 232 in: Lindsay, J.M. (2005). Saint Lucia. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 219-239.
Volcanic hazard map for Scenario 4: Explosive Plinian eruption from within the Soufrière Volcanic Centre (2005)
Page 233 in: Lindsay, J.M. (2005). Saint Lucia. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 219-239.
Springerville Volcanic Field, United States [VNUM = 329802]
Preliminary Overview Map of Volcanic Hazards in the 48 Coterminous United States (1978)
Mullineaux, D.R. (1978). Preliminary overview map of volcanic hazards in the 48 conterminous United States. U.S. Geological Survey, Miscellaneous Field Studies Map 786. https://doi.org/10.3133/mf786
Spurr, United States [VNUM = 313040]
Debris-avalanche hazard zone (2002)
Figure 21 in: Waythomas, C.F. & Nye, C.J. (2002). Preliminary volcano-hazard assessment for Mount Spurr Volcano, Alaska. U.S. Geological Survey, Open-File Report 2001-482, 40 p., 1 plate. https://doi.org/10.3133/ofr01482
Directed-blast hazard zones (2002)
Figure 26 in: Waythomas, C.F. & Nye, C.J. (2002). Preliminary volcano-hazard assessment for Mount Spurr Volcano, Alaska. U.S. Geological Survey, Open-File Report 2001-482, 40 p., 1 plate. https://doi.org/10.3133/ofr01482
Distribution of lahar deposits known to be associated with Crater Peak vent and Mount Spurr volcano and extent of hazard zones (2002)
Figure 14 in: Waythomas, C.F. & Nye, C.J. (2002). Preliminary volcano-hazard assessment for Mount Spurr Volcano, Alaska. U.S. Geological Survey, Open-File Report 2001-482, 40 p., 1 plate. https://doi.org/10.3133/ofr01482
Extent of flooding associated with failure of lahar dams in Chakachatna River (2002)
Figure 16 in: Waythomas, C.F. & Nye, C.J. (2002). Preliminary volcano-hazard assessment for Mount Spurr Volcano, Alaska. U.S. Geological Survey, Open-File Report 2001-482, 40 p., 1 plate. https://doi.org/10.3133/ofr01482
Extent of proximal hazard zones around Mount Spurr volcano (2002)
Figure 8 in: Waythomas, C.F. & Nye, C.J. (2002). Preliminary volcano-hazard assessment for Mount Spurr Volcano, Alaska. U.S. Geological Survey, Open-File Report 2001-482, 40 p., 1 plate. https://doi.org/10.3133/ofr01482
Preliminary Volcano-Hazard Assessment for Mount Spurr Volcano, Alaska (2002)
Plate1 in: Waythomas, C.F. & Nye, C.J. (2002). Preliminary volcano-hazard assessment for Mount Spurr Volcano, Alaska. U.S. Geological Survey, Open-File Report 2001-482, 40 p., 1 plate. https://doi.org/10.3133/ofr01482
Pyroclastic-flow hazard zones and locations of known pyroclastic-flow deposits (2002)
Figure 23 in: Waythomas, C.F. & Nye, C.J. (2002). Preliminary volcano-hazard assessment for Mount Spurr Volcano, Alaska. U.S. Geological Survey, Open-File Report 2001-482, 40 p., 1 plate. https://doi.org/10.3133/ofr01482
St. Catherine, Grenada [VNUM = 360170]
Grenada - Integrated volcanic hazard map for a dome-forming eruption from Mt. St. Catherine (2005)
Pocket Insert in: Robertson, R. (2005). Grenada. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 49-66
Integrated volcanic hazard map for eruption Scenario 2: Effusive dome growth from Mt. St. Catherine (2005)
Page 63 in: Robertson, R. (2005). Grenada. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 49-66
Integrated volcanic hazard map for eruption Scenario 3: Explosive eruption from Mt. St. Catherine (2005)
Page 64 in: Robertson, R. (2005). Grenada. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 49-66
Volcanic hazard map for eruption Scenario 2: Effusive dome growth from Mt. St. Catherine (2005)
Page 60 in: Robertson, R. (2005). Grenada. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 49-66
Volcanic hazard map for eruption Scenario 3: Explosive eruption from Mt. St. Catherine (2005)
Page 61 in: Robertson, R. (2005). Grenada. In: Lindsay, J.M., Shepherd, J.B., Robertson, R.E.A., & Ali, S. (Eds) Volcanic hazard atlas of the Lesser Antilles. Seismic Research Unit, The University of the West Indies, Trinidad and Tobago, W.I., p. 49-66
St. Helens, United States [VNUM = 321050]
Tribal Lands and Volcano Hazards in the Pacific Northwest (2021)
Gardner, C.A. and Bard, J.A. (2021). How would a volcanic eruption affect your Tribe? U.S. Geological Survey General Information Product 209, https://doi.org/10.3133/gip209.
Simplified volcano hazards map of Mount St. Helens, Washington (2014)
Wolfe, E.W., Pierson, T.C., Driedger, C.L., Scott, W.E., Iverson, R.M., Ramsey, D.W., & Faust, L.M. (2014). Simplified volcano hazards map of Mount St. Helens, Washington. U.S. Geological Survey. Mount St. Helens, Washington Simplified Hazards Map. https://www.usgs.gov/media/images/mount-st-helens-washington-simplified-hazards-map (Modified from: U.S. Geological Survey, Open-File Report 95-497)
Map showing one-year probability of accumulation of 1 centimeter (0.4 inch) or more of tephra from eruptions of volcanoes in the Cascade Range. (2013)
Nathensen, M. (2013). Map showing one-year probability of accumulation of 1 centimeter (0.4 inch) or more of tephra from eruptions of volcanoes in the Cascade Range. U.S. Geological Survey. Mount Bachelor Hazards. https://www.usgs.gov/volcanoes/mount-bachelor/hazards
Map showing annual probability of 1 centimeter or more of tephra accumulation from any major Cascade volcano (2012)
Figure 15 in: Clynne, M. A., Robinson, J. E., Nathenson, M. & Muffler, L. P. (2012). Volcano hazards assessment for the Lassen region, northern California. U.S. Geological Survey, Scientific Investigations Report 2012-5176-A, 47 p., 1 plate. https://doi.org/10.3133/sir20125176A
Preliminary probabilistic tephra-hazard map for Pacific Northwest (2011)
Figure 2 in: Hoblitt, R.P., & Scott, W.E. (2011). Estimate of tephra accumulation probabilities for the U.S. Department of Energy's Hanford Site, Washington. U.S. Geological Survey, Open-File Report 2011-1064, 15 p. https://doi.org/10.3133/ofr20111064
Hazard Zonation Map for Mount St. Helens (2003)
Faust, L. (2003). Hazard zonation map for Mount St. Helens. U.S. Geological Survey. (Simplified from: Wolfe & Pierson 1995) (Reprinted in: Bluth, G. (Year Unknown). Mt. St. Helens Activity Update (+ 2004 events). Michigan Technological University, GE4150 Lecture. https://pages.mtu.edu/~gbluth/Teaching/GE4150/lecture_pdfs/L11_msh_seismic.pdf#page=2)
Map showing annual probability of 1 cm or more of tephra accumulation in Washington, Oregon, and northern California from eruptions throughout the Cascade Range. (1997)
Figure 4 in: Sherrod, D.R., Mastin, L.G., Scott, W.E. & Schilling, S.P. (1997). Volcano hazards at Newberry Volcano, Oregon. U.S. Geological Survey, Open-File Report 97-513, 14 p. https://doi.org/10.3133/ofr97513
Annual probability of 1 cm (about 0.4 inches) or more of tephra accumulation from any major Cascade volcano (1995)
Figure 5b in: Gardner, C.A., Scott, K.M., Miller, C.D., Myers, B., Hildreth, W., & Pringle, P.T. (1995). Potential volcanic hazards from future activity of Mount Baker, Washington. U.S. Geological Survey, Open-File Report 95-498, 16 p., 1 plate, scale 1:100,000. https://doi.org/10.3133/ofr95498
Annual probability of accumulation of ten or more centimeters (four or more inches) of tephra in Washington and Oregon from eruptions throughout the Cascade Range. (1995)
Figure 3 in: Wolfe, E.W. & Pierson, T.C. (1995). Volcanic-Hazard Zonation for Mount St. Helens, Washington, 1995. U.S. Geological Survey, Open-File Report 95-497, 12 p., 1 plate. https://doi.org/10.3133/ofr95497
Map of Washington and Oregon showing the percentage probability of accumulation of ten or more centimeters (four or more inches) of tephra from a large eruptions of Mount St. Helens. (1995)
Figure 2 in: Wolfe, E.W. & Pierson, T.C. (1995). Volcanic-Hazard Zonation for Mount St. Helens, Washington, 1995. U.S. Geological Survey, Open-File Report 95-497, 12 p., 1 plate. https://doi.org/10.3133/ofr95497
Volcanic-Hazard Zonation for Mount St. Helens, Washington (1995)
Plate 1 in: Wolfe, E.W. & Pierson, T.C. (1995). Volcanic-Hazard Zonation for Mount St. Helens, Washington, 1995. U.S. Geological Survey, Open-File Report 95-497, 12 p., 1 plate. https://doi.org/10.3133/ofr95497
Map of pre-1980 Mount St. Helens volcano and adjacent area. (1989)
Figure 19 in: Crandell, D.R. (1989). Gigantic debris avalanche of Pleistocene age from ancestral Mount Shasta Volcano, California, and debris-avalanche hazard zonation. U.S. Geological Survey, Bulletin 1861, 32 p. https://doi.org/10.3133/b1861
Contour map of the estimated annual probability of the accumulation of 1 cm or more of tephra in the northwestern United States at eruptions at 13 major volcanic centers in the Cascades Range (1987)
Plate 4 in: Hoblitt, R. P., Miller, C. D., & Scott, W. E. (1987). Volcanic hazards with regard to siting nuclear-power plants in the Pacific Northwest. U.S. Geological Survey, Open-File Report 87-297. https://doi.org/10.3133/ofr87297
Contour map of the estimated annual probability of the accumulation of 1 m or more of tephra in the northwestern United States at eruptions at 13 major volcanic centers in the Cascades Range (1987)
Plate 2 in: Hoblitt, R. P., Miller, C. D., & Scott, W. E. (1987). Volcanic hazards with regard to siting nuclear-power plants in the Pacific Northwest. U.S. Geological Survey, Open-File Report 87-297. https://doi.org/10.3133/ofr87297
Contour map of the estimated annual probability of the accumulation of 10 cm or more of tephra in the northwestern United States at eruptions at 13 major volcanic centers in the Cascades Range (1987)
Plate 3 in: Hoblitt, R. P., Miller, C. D., & Scott, W. E. (1987). Volcanic hazards with regard to siting nuclear-power plants in the Pacific Northwest. U.S. Geological Survey, Open-File Report 87-297. https://doi.org/10.3133/ofr87297
Volcanic-hazard zones in the Cascades Range (1987)
Plate 1 in: Hoblitt, R. P., Miller, C. D., & Scott, W. E. (1987). Volcanic hazards with regard to siting nuclear-power plants in the Pacific Northwest. U.S. Geological Survey, Open-File Report 87-297. https://doi.org/10.3133/ofr87297
Levels of Volcanic Risk Near Mount St. Helens (1984)
Figure 1 in: Newhall, C.G. (1984). Semi-quantitative assessment of changing volcanic risk at Mount St. Helens, Washington. U.S. Geological Survey, Open-File Report 84-272, 30 p. doi:10.3133/ofr84272
Zones of volcanic risk at Mount St. Helens August 1981 (1982)
Figure 3 in: Newhall, C.G. (1982). A method for estimating intermediate- and long-term risks from volcanic activity, with an example from Mount St. Helens, Washington. U.S. Geological Survey, Open-File Report 82-396, 59 p. doi: 10.3133/ofr82396
Zones of volcanic risk at Mount St. Helens February 1980 (1982)
Figure 1 in: Newhall, C.G. (1982). A method for estimating intermediate- and long-term risks from volcanic activity, with an example from Mount St. Helens, Washington. U.S. Geological Survey, Open-File Report 82-396, 59 p. doi: 10.3133/ofr82396
Zones of volcanic risk at Mount St. Helens February 1982 (1982)
Figure 4 in: Newhall, C.G. (1982). A method for estimating intermediate- and long-term risks from volcanic activity, with an example from Mount St. Helens, Washington. U.S. Geological Survey, Open-File Report 82-396, 59 p. doi: 10.3133/ofr82396
Zones of volcanic risk at Mount St. Helens June 1980 (1982)
Figure 2 in: Newhall, C.G. (1982). A method for estimating intermediate- and long-term risks from volcanic activity, with an example from Mount St. Helens, Washington. U.S. Geological Survey, Open-File Report 82-396, 59 p. doi: 10.3133/ofr82396
Computer plot of predicted movement of ash at seven different altitudes, erupted at 1100 PDT on May 18, 1980. (1981)
Figure 453 in: Miller, C.D., Mullineaux, D.R. & Crandell, D.R. (1981). Hazards assessments at Mount St. Helens. In: Lipman, P. W. & Mullineaux, D. R. (Eds.) The 1980 eruptions of Mount St. Helens, Washington. U.S. Geological Survey, Professional Paper 1250, p. 789-802. https://doi.org/10.3133/pp1250
Hazard zones as drawn May 26, 1980, after May 18 dacitic magmatic eruption. (1980)
Figure 455 in: Miller, C.D., Mullineaux, D.R. & Crandell, D.R. (1981). Hazards assessments at Mount St. Helens. In: Lipman, P. W. & Mullineaux, D. R. (Eds.) The 1980 eruptions of Mount St. Helens, Washington. U.S. Geological Survey, Professional Paper 1250, p. 789-802. https://doi.org/10.3133/pp1250
Volcanic-hazards zones, originally drawn on USFS map (approximately 1/2 in. = 1 mi), April 1, 1980. (1980)
Figure 454 in: Miller, C.D., Mullineaux, D.R. & Crandell, D.R. (1981). Hazards assessments at Mount St. Helens. In: Lipman, P. W. & Mullineaux, D. R. (Eds.) The 1980 eruptions of Mount St. Helens, Washington. U.S. Geological Survey, Professional Paper 1250, p. 789-802. https://doi.org/10.3133/pp1250
Areas of Potential Hazard from Lava Flows, Pyroclastic Flows, Mudflows, and Floods that May Result from Future Eruptions of Mount St. Helens (1978)
Plate 2 in: Crandell, D.R. & Mullineaux, D.R. (1978). Potential Hazards from Future Eruptions of Mount St. Helens Volcano, Washington. U.S. Geological Survey, Bulletin 1383-C, 26 p. https://doi.org/10.3133/b1383C
Preliminary Overview Map of Volcanic Hazards in the 48 Coterminous United States (1978)
Mullineaux, D.R. (1978). Preliminary overview map of volcanic hazards in the 48 conterminous United States. U.S. Geological Survey, Miscellaneous Field Studies Map 786. https://doi.org/10.3133/mf786
Tephra hazard zones (1978)
Figure 8 in: Crandell, D.R. & Mullineaux, D.R. (1978). Potential Hazards from Future Eruptions of Mount St. Helens Volcano, Washington. U.S. Geological Survey, Bulletin 1383-C, 26 p. https://doi.org/10.3133/b1383C
Washington Geologic Information Portal - Volcanic Hazards (USGS) ([?])
Washington Department of Natural Resources. Geologic Information Portal.
Stromboli, Italy [VNUM = 211040]
(a) Map of the dNBR obtained using the NBR indexes from the Sentinel-2 images acquired
on 22 May and 1 June 2022; (b) cumulative probability of combustion given by 100-run numerical
simulations (2024)
Figure 9 in: Guardo, R., Bilotta, G., Ganci, G., Zuccarello, F., Andronico, D., & Cappello, A. (2024). Modeling Fire Hazards Induced by Volcanic Eruptions: The Case of Stromboli (Italy). Fire, 7(3), 70.
(a) Map of the dNBR obtained using the NBR indexes from the Sentinel-2 images acquired on 2 and 7 July 2019; (b) cumulative probability of combustion given by 100-run numerical simulations (2024)
Figure 7 in: Guardo, R., Bilotta, G., Ganci, G., Zuccarello, F., Andronico, D., & Cappello, A. (2024). Modeling Fire Hazards Induced by Volcanic Eruptions: The Case of Stromboli (Italy). Fire, 7(3), 70.
Volcanic and tsunami hazard map at Stromboli Island (2014)
Figure 2 in: Di Traglia, F., Nolesini, T., Intrieri, E., Mugnai, F., Leva, D., Rosi, M., & Casagli, N. (2014). Review of ten years of volcano deformations recorded by the ground-based InSAR monitoring system at Stromboli volcano: a tool to mitigate volcano flank dynamics and intense volcanic activity. Earth-Science Reviews, 139, 317-335. https://doi.org/10.1016/j.earscirev.2014.09.011
Volcanic and Tsunami Risk Maps of Stromboli Island (Italy) (2010)
Supplemental Material in: Nave, R., Isaia, R., Vilardo, G., & Barclay, J. (2010). Re-assessing volcanic hazard maps for improving volcanic risk communication: application to Stromboli Island, Italy. Journal of Maps, 6(1), p. 260-269. https://doi.org/10.4113/jom.2010.1061
Hazard zonation map (1993)
Figure 8 in: Barberi, F., Rosi, M., & Sodi, A. (1993). Volcanic hazard assessment at Stromboli based on review of historical data. Acta Vulcanologica, 3, 173-187. (Reprinted in: Nave, R., Isaia, R., Vilardo, G., & Barclay, J. (2010). Re-assessing volcanic hazard maps for improving volcanic risk communication: application to Stromboli Island, Italy. Journal of Maps, 6(1), p. 260-269.)
Suiro (Biliran), Philippines [VNUM = 272080]
Lava Flow Hazard Map of Biliran Volcano (Anas & Suiro Volcanic Complex) (2023)
Department of Science and Technology-Philippine Institute of Volcanology and Seismology (DOST-PHIVOLCS). (2023). Lava Flow Hazard Map of Biliran Volcano (Anas & Suiro Volcanic Complex). Version 1. 1:40,000. Quezon City, Philippines.
Volcanic Hazard Map of Biliran Volcano (Anas & Suiro Volcanic Complex) (2023)
Department of Science and Technology-Philippine Institute of Volcanology and Seismology (DOST-PHIVOLCS). (2023). Volcanic Hazard Map of Biliran Volcano (Anas & Suiro Volcanic Complex). Version 1. 1:40,000. Quezon City, Philippines.
Sumaco, Ecuador [VNUM = 352040]
Mapa de Peligros Volcánicos Potenciales del Volcán Sumaco 1RA. Edición - 2022 (2022)
IG-EPN, IGM, IRD. Salgado Loza, J. A., Córdova, M. D., Mothes, P. A., Espín Bedón, P., Vallejo Vargas, S., Aguilar, J., Gaunt, H. E., Telenchana, E., Samaniego Eguiguren, P., Cuesta, R., & Lincango, D. (2022). Mapa de Peligros Volcánicos Potenciales del Volcán Sumaco 1ra. Edición. Escala 1:100,000. Quito - Ecuador.
Mapa de los "Volcanes Activos" del Ecuador (1982)
Salazar, E. & Bermúdez, R. (1982). Mapa de los "Volcanes Activos" del Ecuador. Mapa Base del Ecuador, Vulcanología. Ministerio de Energía y Minas, Instituto Ecuatoriano de Minería, Quito.
Sumbing, Indonesia [VNUM = 261180]
Volcanic Hazard Map of Sumbing Volcano, Central Java Province (2006)
Hadisantono, R.D., Martono, A., Sumpena, A.D., & Dahlan, A. (2006). Volcanic Hazard Map of Sumbing Volcano, Central Java Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Sundoro, Indonesia [VNUM = 263210]
Volcanic Hazard Map of Sundoro Volcano, Central Java Province (2007)
Mulyana, A.R., Martono, A., Sumpena, A.D., Riyadi, & Suherman, W. (2007). Volcanic Hazard Map of Sundoro Volcano, Central Java Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).
Suwanosejima, Japan [VNUM = 282030]
Suwanosejima Volcanic Alert Levels (2016)
Japan Meteorological Agency. (2016). Suwanosejima Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.
Suwanosejima disaster prevention information map (1996)
Figure 5-5-2 in: Kagoshima Prefecture. (1996). Kagoshima Prefecture regional plan for disaster prevention.
Suwanosejima volcanic disaster area prediction map (1996)
Figure 5-5-6 in: Kagoshima Prefecture. (1996). Kagoshima Prefecture regional plan for disaster prevention.
Svartsengi (Reykjanes), Iceland [VNUM = 371020]
Hættusvæði vegna jarðhræringa (2023)
Icelandic Meteorological Office (IMO). (2023). Hættusvæði vegna jarðhræringa, 13. desember 2023.
Hættusvæði vegna jarðhræringa (2023)
Icelandic Meteorological Office (IMO). (2023). Hættusvæði vegna jarðhræringa, 19. desember 2023.
Hættusvæði vegna jarðhræringa, 20. nóvember 2023 (2023)
Icelandic Meteorological Office (IMO). (2023). Hættusvæði vegna jarðhræringa, 20. nóvember 2023.
Hættusvæði vegna jarðhræringa, Uppfært 22. nóvember 2023 kl. 14:00 (2023)
Icelandic Meteorological Office (IMO). (2023). Hættusvæði vegna jarðhræringa, 20. nóvember 2023.
Lava flow hazard map of the area potentially affected by an eruption linked to the inflation in the Reykjanes peninsula (2020)
Figure 3 in: Tarquini, S., Favalli, M., Pfeffer, M., de'Michieli Vitturi, M., Barsotti, S., Pedersen, G., Óladóttir, B., & Jensen, E. H. (2020). Assessing the impact of lava flows during the 2020 unrest of the Svartsengi volcanic system on the Reykjanes peninsula, Iceland. Geomorphometry, Perugia, Italy. https://doi.org/10.30437/GEOMORPHOMETRY2020