Browse Maps By Volcano
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Showing 12 volcanoes
Falso Azufre, Chile-Argentina [VNUM = 355124]
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
Fisher, United States [VNUM = 311350]
Preliminary Volcano-Hazard Assessment for Fisher Volcano, Alaska (2014)
Sheet 1 in: Stelling, P.L., Beget, J.E., Gardner, J.E., & Schaefer, J.R. (2014). Preliminary volcano-hazard assessment for Fisher volcano, Unimak Island, Alaska: Alaska Division of Geological & Geophysical Surveys, Report of Investigation 2014-5, 32 p., 1 sheet, scale 1:500,000. http://doi.org/10.14509/29146
Fogo, Cape Verde [VNUM = 384010]
Pre- and posteruptive hazard maps for the Fogo scenario (2016)
Figure 10 in: Richter, N., Favalli, M., de Zeeuw-van Dalfsen, E., Fornaciai, A., da Silva Fernandes, R. M., Pérez, N. M., Levy, J., Victoria, S.S., & Walter, T. R. (2016). Lava flow hazard at Fogo Volcano, Cabo Verde, before and after the 2014–2015 eruption. Natural Hazards and Earth System Sciences, 16(8), 1925-1951. https://doi.org/10.5194/nhess-16-1925-2016
Pre- and posteruptive hazard maps for the Pico Pequeno scenario (2016)
Figure 9 in: Richter, N., Favalli, M., de Zeeuw-van Dalfsen, E., Fornaciai, A., da Silva Fernandes, R. M., Pérez, N. M., Levy, J., Victoria, S.S., & Walter, T. R. (2016). Lava flow hazard at Fogo Volcano, Cabo Verde, before and after the 2014–2015 eruption. Natural Hazards and Earth System Sciences, 16(8), 1925-1951. https://doi.org/10.5194/nhess-16-1925-2016
Probability distribution of future vent opening for the Fogo scenario (2016)
Figure 6 in: Richter, N., Favalli, M., de Zeeuw-van Dalfsen, E., Fornaciai, A., da Silva Fernandes, R. M., Pérez, N. M., Levy, J., Victoria, S.S., & Walter, T. R. (2016). Lava flow hazard at Fogo Volcano, Cabo Verde, before and after the 2014–2015 eruption. Natural Hazards and Earth System Sciences, 16(8), 1925-1951. https://doi.org/10.5194/nhess-16-1925-2016
Provisional volcanic hazard map for a large explosive eruption similar to the 1680 event (2009)
Figure 5 in: Komorowski JC., Morin J., Jenkins S., & Kelman I. (2016) Challenges of Volcanic Crises on Small Islands States. In: Fearnley C.J., Bird D.K., Haynes K., McGuire W.J., Jolly G. (eds) Observing the Volcano World. Advances in Volcanology. International Association of Volcanology and Chemistry of the Earth’s Interior – IAVCEI. Springer. https://doi.org/10.1007/11157_2015_15. Adapted from: Day, S.F., Faria, B.V.E. (2009). A geological hazard map of the Island of Fogo showing broad distribution of volcanic and other hazards. MIA-VITA Workshop, São Filipe, Fogo.
Fuego, Guatemala [VNUM = 342090]
Crisis del Volcán de Fuego (2018)
Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Map Action, Volcano Disaster Assistance Program (VDAP), U.S. Geological Survey (USGS), University of Edinburgh & Michigan Technological University. (2018). Crisis del Volcan Fuego.
Mapa de Ubicación de Amenaza Volcánica - Volcán de Fuego - Flujos Piroclásticos (2018)
Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH). (2018). Mapa de Ubicación de Amenaza Volcánica - Volcán de Fuego.
Mapa de Ubicación de Amenaza Volcánica - Volcán de Fuego - Lahares Escenario A (2018)
Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH). (2018). Mapa de Ubicación de Amenaza Volcánica - Volcán de Fuego.
Mapa de Ubicación de Amenaza Volcánica - Volcán de Fuego - Lahares Escenario B (2018)
Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH). (2018). Mapa de Ubicación de Amenaza Volcánica - Volcán de Fuego.
Mapa Preliminar de Amenaza de Lahares - Crisis Eruptiva del Volcán de Fuego (Junio 2018) - Escenario A (Lluvias moderadas) (2018)
Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Volcano Disaster Assistance Program (VDAP), U.S. Geological Survey (USGS), University of Edinburgh, & Michigan Technological University. (2018). Mapa Preliminar de Amenaza de Lahares - Crisis Eruptiva del Volcán de Fuego (Junio 2018) - Escenario A (Lluvias moderadas).
Mapa Preliminar de Amenaza de Lahares - Crisis Eruptiva del Volcán de Fuego (Junio 2018) - Escenario B (Lluvias muy intensas) (2018)
Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Volcano Disaster Assistance Program (VDAP), U.S. Geological Survey (USGS), University of Edinburgh, & Michigan Technological University. (2018). Mapa Preliminar de Amenaza de Lahares - Crisis Eruptiva del Volcán de Fuego (Junio 2018) - Escenario B (Lluvias muy intensas).
Mapa Preliminar de Amenaza por Flujos Piroclásticos - Crisis Eruptiva del Volcán de Fuego (Junio 2018) (2018)
Instituto Nacional de Sismología, Vulcanologia, Meteorologia e Hidrología (INSIVUMEH), Volcano Disaster Assistance Program (VDAP), U.S. Geological Survey (USGS), University of Edinburgh, & Michigan Technological University. (2018). Mapa Preliminar de Amenaza por Flujos Piroclásticos - Crisis Eruptiva del Volcán de Fuego (Junio 2018).
Lahar Hazards of Fuego Volcano, Guatemala (2001)
Plate 1 (Color) in: Vallance, J.W., Schilling, S.P., Matías, O., Rose, W.I. & Howell, M.M. (2001). Volcano Hazards at Fuego and Acatenango, Guatemala. U.S. Geological Survey, Open-File Report 01-431. https://doi.org/10.3133/ofr01431
Lahar Hazards of Fuego Volcano, Guatemala (2001)
Plate 1 (B&W) in: Vallance, J.W., Schilling, S.P., Matías, O., Rose, W.I. & Howell, M.M. (2001). Volcano Hazards at Fuego and Acatenango, Guatemala. U.S. Geological Survey, Open-File Report 01-431. https://doi.org/10.3133/ofr01431
Volcano Hazards of Fuego Volcano, Guatemala (2001)
Plate 3 in: Vallance, J.W., Schilling, S.P., Matías, O., Rose, W.I. & Howell, M.M. (2001). Volcano Hazards at Fuego and Acatenango, Guatemala. U.S. Geological Survey, Open-File Report 01-431. https://doi.org/10.3133/ofr01431
Mapa Preliminar de Riesgo Volcanico del Volcan de Fuego, Guatemala (1988)
Map 2 in: Mercado, R. & Rose, W.I., 1988. Mapa preliminar de zonas de riesgo potencial de depositos de nubes de ceniza de futuras erupciones del volcan de Fuego, Guatemala - Preliminary ashfall hazard map for Fuego volcano Guatemala. Instituto Nacional de Sismología, Vulcanología, Meteorología e Hidrología (INSIVUMEH), Ciudad de Guatemala.
Mapa Preliminar de Zonas de Riesgo Potencial de Depositos de Nubes de Ceniza de Futuras Erupciones del Volcan de Fuego, Guatemala - Preliminary Ashfall Hazard Map for Fuego Volcano, Guatemala (1988)
Map 1 in: Mercado, R. & Rose, W.I., 1988. Mapa preliminar de zonas de riesgo potencial de depositos de nubes de ceniza de futuras erupciones del volcan de Fuego, Guatemala - Preliminary ashfall hazard map for Fuego volcano Guatemala. Instituto Nacional de Sismología, Vulcanología, Meteorología e Hidrología (INSIVUMEH), Ciudad de Guatemala.
Fueguino, Chile [VNUM = 358090]
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.
Fui (Mocho-Choshuenco), Chile [VNUM = 357130]
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.
Fujisan, Japan [VNUM = 283030]
Fujisan Eruption Evacuation Route Map (2016)
Fujisan Eruption Evacuation Route Map
Fujisan Volcanic Alert Levels (2016)
Japan Meteorological Agency. (2016). Fujisan Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.
Mt. Fuji Volcanic Hazard Map: Being Prepared for a Possible Eruption (2007)
Mt. Fuji Volcanic Disaster Prevention Conference. (2007). Mt. Fuji Volcanic Hazard Map: Being Prepared for a Possible Eruption.
Ash fall possibility map (2004)
Figure 5.5.1 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Ashigarakami District Volcanic Disaster Prevention Map (2004)
Figure 6.3.14 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Assumed crater range for each scale (2004)
Figure 4.1.4 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Debris flow possibility map (2004)
Figure 5.7.1 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Fuji City Volcano Disaster Prevention Map (2004)
Figure 6.3.13 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Fujiyoshida City Volcano Disaster Prevention Map (2004)
Figure 6.3.11 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Gotemba Volcano Disaster Prevention Map (2004)
Figure 6.3.12 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Lava flow possibility map (2004)
Figure 5.2.1 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Lava flow scenario map (arrival time of lava for large-scale eruptions) (2004)
Figure 4.2.8 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Lava flow scenario map (arrival time of lava for medium-scale eruptions) (2004)
Figure 4.2.7 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Lava flow scenario map (arrival time of lava for small-scale eruptions) (2004)
Figure 4.2.6 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Monthly large-scale prediction distribution of ash fall using the average meteorological field over the past 45 years (January-June) (2004)
Figure 4.5.6 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Monthly large-scale prediction distribution of ash fall using the average meteorological field over the past 45 years (July-December) (2004)
Figure 4.5.6 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Monthly medium-scale eruption ash fall prediction distribution using the average meteorological field over the past 45 years (January-June) (2004)
Figure 4.5.7 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Monthly medium-scale eruption ash fall prediction distribution using the average meteorological field over the past 45 years (July-December) (2004)
Figure 4.5.7 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Monthly small-scale eruption ash fall prediction distribution using the average meteorological field over the past 45 years (January-June) (2004)
Figure 4.5.8 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Monthly small-scale eruption ash fall prediction distribution using the average meteorological field over the past 45 years (July-December) (2004)
Figure 4.5.8 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Odawara City Volcano Disaster Prevention Map (2004)
Figure 6.3.15 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Pyroclastic flow scenario map (2004)
Figure 4.3.6 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Pyroclastic flow/pyroclastic surge possibility map (2004)
Figure 5.3.1 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Scenario map of snow-melting lahar (2004)
Figure 4.4.3 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Snow-melting type lahar possibility map (2004)
Figure 5.3.4 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcanic bomb possibility map (2004)
Figure 5.6.4 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcanic bomb reachability range large scale (4km) (2004)
Figure 5.6.3 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcanic bomb reachability range medium/small scale (2km) (2004)
Figure 5.6.2 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcanic disaster prevention map (volcanic bomb) (2004)
Figure 6.3.5 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcanic Disaster Prevention Map of Mt.Fuji (2004)
Figure 6.3.9 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcano disaster prevention map (ash fall) (2004)
Figure 6.3.6 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcano disaster prevention map (assumed crater) (2004)
Figure 6.3.1 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcano disaster prevention map (debris flow) (2004)
Figure 6.3.7 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcano disaster prevention map (lava flow) (2004)
Figure 6.3.2 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcano disaster prevention map (Pyroclastic flow/pyroclastic surge) (2004)
Figure 6.3.3 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Volcano disaster prevention map (Snow melting type volcanic mudflow) (2004)
Figure 6.3.4 in: Mt. Fuji Hazard Map Review Committee. (2004). Mt. Fuji Hazard Map Review Committee Report. June 2004. https://www.bousai.go.jp/kazan/fuji_map/pdf/report_200406.pdf
Fumarole Butte, United States [VNUM = 327803]
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
Furnas, Sao Miguel, Azores [Portugal] [VNUM = 382100]
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.
Fuss Peak, Russia [VNUM = 290340]
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.
Nevado El Fraile (Nevado de Incahuasi), Chile-Argentina [VNUM = 355125]
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
Piton de la Fournaise, Reunion Island [France] [VNUM = 233020]
Evolution of the lava flow hazard maps within the Enclos (2021)
Figure 7 in: Chevrel, M. O., Favalli, M., Villeneuve, N., Harris, A. J., Fornaciai, A., Richter, N., Derrien, A., Di Muro, A., & Peltier, A. (2021). Lava flow hazard map of Piton de la Fournaise volcano. Natural Hazards and Earth System Sciences, 21(8), 2355-2377. https://doi.org/10.5194/nhess-21-2355-2021, 2021
Lava flow hazard map of Piton de la Fournaise (2021)
Figure 6 in: Chevrel, M. O., Favalli, M., Villeneuve, N., Harris, A. J., Fornaciai, A., Richter, N., Derrien, A., Di Muro, A., & Peltier, A. (2021). Lava flow hazard map of Piton de la Fournaise volcano. Natural Hazards and Earth System Sciences, 21(8), 2355-2377. https://doi.org/10.5194/nhess-21-2355-2021, 2021
Probability density function of vent opening (in % km−2) (2021)
Figure 3 in: Chevrel, M. O., Favalli, M., Villeneuve, N., Harris, A. J., Fornaciai, A., Richter, N., Derrien, A., Di Muro, A., & Peltier, A. (2021). Lava flow hazard map of Piton de la Fournaise volcano. Natural Hazards and Earth System Sciences, 21(8), 2355-2377. https://doi.org/10.5194/nhess-21-2355-2021, 2021
Cartographie de l’Alea Volcanique (2012)
Figure 6 in: Préfet de la Région Réunion. (2012). Schema de Prevention des Risques Naturels de la Réunion. Diagnostic et Programme d’Actions.