Browse Maps By Volcano
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Showing 10 volcanoes
Yakedake, Japan [VNUM = 283070]
Yakedake Volcanic Alert Levels (2020)
Japan Meteorological Agency. (2020). Yakedake Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.
Yakedake Basic Volcano Disaster Prevention Map (2019)
Yakedake Volcano Disaster Prevention Council. (2019). Yakedake volcano disaster prevention and evacuation plan.
Yakedake volcano disaster prevention map (mobile version for climbers) (2017)
Gifu Prefecture Volcano Disaster Prevention Council. (2017). Yakedake Volcano Disaster Prevention Map. (waterproof hiking map).
Yakedake Volcano Disaster Prevention Map (2015)
Matsumoto City, Nagano Prefecture & Yakedake Volcano Eruption Countermeasure Council. (2015). Yakedake Volcano Disaster Prevention Map.
Yakedake Volcano Disaster Prevention Map (2014)
Takeyama City. (2014). Yakedake Volcano Disaster Prevention Map.
Yanteles, Chile [VNUM = 358049]
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.
Yasur, Vanuatu [VNUM = 257100]
Carte des Risques Volcaniques de Tanna à Long-Terme (2016)
Vanuatu Meteorology & Geo-Hazards Department. (2016). Carte des Risques Volcaniques de Tanna à Long-Terme. Government of Vanuatu, Vanuatu Meteorology & Geo-Hazards Department, Vanuatu National Disaster Risk Management Office, New Zealand Foreign Affairs & Trade Aid Programme, GNS Science.
Long-Term Denja Map Blong Volkeno Long Tanna (2016)
Vanuatu Meteorology & Geo-Hazards Department. (2016). Long-Term Denja Map Blong Volkeno Long Tanna. Government of Vanuatu, Vanuatu Meteorology & Geo-Hazards Department, Vanuatu National Disaster Risk Management Office, New Zealand Foreign Affairs & Trade Aid Programme, GNS Science.
Tanna Communities Safety Map (2016)
Vanuatu Meteorology & Geo-Hazards Department. (2016). Tanna Communities Safety Map. Government of Vanuatu, Vanuatu Meteorology & Geo-Hazards Department, Vanuatu National Disaster Risk Management Office, New Zealand Foreign Affairs & Trade Aid Programme, GNS Science.
Tanna Long-Term Background Volcanic Hazards Map (2016)
Vanuatu Meteorology & Geo-Hazards Department. (2016). Tanna Long-Term Background Volcanic Hazards Map. Government of Vanuatu, Vanuatu Meteorology & Geo-Hazards Department, Vanuatu National Disaster Risk Management Office, New Zealand Foreign Affairs & Trade Aid Programme, GNS Science.
Yasur Safety Map (2016)
Vanuatu Meteorology & Geo-Hazards Department. (2016). Yasur Safety Map. Government of Vanuatu, Vanuatu Meteorology & Geo-Hazards Department, Vanuatu National Disaster Risk Management Office, New Zealand Foreign Affairs & Trade Aid Programme, GNS Science.
Volcanic Hazard Map for Tanna Island - Carte des Menaces Volcaniques pour l'Ile d'Tanna (Vanuatu) (1996)
Appendix 1, Page 105 (in reprint) in: Robin, C. & Monzier, M. (1996). Volcanic Hazard Map for Tanna Island - Carte des Menaces Volcaniques pour l'Ile d'Tanna (Vanuatu). ORSTOM. (Reprinted in: Esau Wate, J. (2016). National Disaster Management Structure, Volcanic Alert Levels, Emergency Evacuation Plans and Public Awareness Strategies for Vanuatu. In: Taylor, P.W. (Ed.) Volcanic Hazards and Emergency Management in the Southwest Pacific, SPC Technical Bulletin, SPC00017, p. 96-105.)
Volcano Fact Sheet Yasur Volcano - Yenkahe Caldera ([?])
Vanuatu Meteorology & Geo-Hazards Department. Volcano Fact Sheet Yasur Volcano - Yenkahe Caldera. Government of Vanuatu, Vanuatu Meteorology & Geo-Hazards Department, Vanuatu National Disaster Risk Management Office, New Zealand Foreign Affairs & Trade Aid Programme, GNS Science.
Yate, Chile [VNUM = 358022]
Peligros Volcánicos del Volcán Yate (2017)
Mella, M. (2017). Peligros del Volcán Yate, región de Los Lagos. Servicio Nacional de Geología y Minería, Carta Geológica de Chile, Serie Geología Ambiental 31, mapa escala 1:50.000. Santiago.
Peligros Volcánicos del Volcán Yate (2012)
Mella, M. (2012). Mapa Preliminar de peligros volcánicos Volcán Yate, región de Los Lagos. 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.
Yavinsky, Russia [VNUM = 300021]
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.
Yellowstone, United States [VNUM = 325010]
Ashfall model output for Yellowstone supereruption (2014)
U.S. Geological Survey (USGS). (2014). Ashfall model output for Yellowstone supereruption. U.S. Geological Survey. Modeling the Ash Distribution of a Yellowstone Supereruption (2014). https://www.usgs.gov/volcanoes/yellowstone/modeling-ash-distribution-yellowstone-supereruption-2014 (Simplified from: Mastin et al. 2014)
Results of simulations with no umbrella cloud: (a) 1 month (January); 1 week(21–27 January); and 3 days (14–16 January (2014)
Figure 9 in: Mastin, L.G., Van Eaton, A.R., & Lowenstern, J.B. (2014). Modeling ash fall distribution from a Yellowstone supereruption. Geochemistry, Geophysics, Geosystems, 15(8), 3459-3475. https://doi.org/10.1002/2014GC005469
Simulated tephra fall thickness resulting from a 3-day-long Yellowstone eruption of 330 km³ using 2001 wind fields for (a) 14–16 January, (b) 14–16 April, (c) 14–16 July, and(d) 14–16 October. (2014)
Figure 8 in: Mastin, L.G., Van Eaton, A.R., & Lowenstern, J.B. (2014). Modeling ash fall distribution from a Yellowstone supereruption. Geochemistry, Geophysics, Geosystems, 15(8), 3459-3475. https://doi.org/10.1002/2014GC005469
Simulated tephra fall thickness resulting from a month-long Yellowstone eruption of 330 km³ using 2001 wind fields for (a) January, (b) April, (c) July, and (d) October. (2014)
Figure 6 in: Mastin, L.G., Van Eaton, A.R., & Lowenstern, J.B. (2014). Modeling ash fall distribution from a Yellowstone supereruption. Geochemistry, Geophysics, Geosystems, 15(8), 3459-3475. https://doi.org/10.1002/2014GC005469
Simulated tephra fall thickness resulting from a week-long Yellowstone eruption of 330 km³ using 2001 wind fields for (a) 21–27 January, (b) 21–27 April, 21–27 July, and(d) 21–27 October. (2014)
Figure 7 in: Mastin, L.G., Van Eaton, A.R., & Lowenstern, J.B. (2014). Modeling ash fall distribution from a Yellowstone supereruption. Geochemistry, Geophysics, Geosystems, 15(8), 3459-3475. https://doi.org/10.1002/2014GC005469
Tephra fall thickness for simulations from 21 to 27 April, using (a) a 15 km umbrella-cloud height, (b) a 35 km umbrella-cloud height, (c) grain-size distribution GSD2, and(d) grain-size distribution GSD3. (2014)
Figure 11 in: Mastin, L.G., Van Eaton, A.R., & Lowenstern, J.B. (2014). Modeling ash fall distribution from a Yellowstone supereruption. Geochemistry, Geophysics, Geosystems, 15(8), 3459-3475. https://doi.org/10.1002/2014GC005469
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
Yucamane, Peru [VNUM = 354050]
Mapa de Peligros del Complejo Volcánico Yucamane - Calientes (2018)
Rivera, M., Samaniego, P., Vela, J., & Jacome, G. (2018). Mapa de Peligros del Complejo Volcánico Yucamane-Calientes. Instituto Geologico Minero y Metalurgico (INGEMMET), Direccion de Geologia Ambiental y Riesgo, mapa escala 50,000. https://doi.org/10.1002/2014GC005469
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
Yufu (Yufu-Tsurumi), Japan [VNUM = 282130]
Active Volcanoes in Oita (2006)
Oita Prefectural Government. (2006). Active Volcanoes in Oita (Beppu and Yufuin Areas). Sabo Division, Civil Engineering and Construction Department, Oita Prefectural Government.
Yufudake/Tsurumidake/Garandake Volcano Disaster Prevention Map (2006)
Beppu City, Yufu City, Oita Prefecture, Usa City, & Hiji Town Survey. (2006). Yufudake/Tsurumidake/Garandake Volcano Disaster Prevention Map.
Yufu-Tsurumi, Japan [VNUM = 282130]
Active Volcanoes in Oita (2006)
Oita Prefectural Government. (2006). Active Volcanoes in Oita (Beppu and Yufuin Areas). Sabo Division, Civil Engineering and Construction Department, Oita Prefectural Government.
Yufudake/Tsurumidake/Garandake Volcano Disaster Prevention Map (2006)
Beppu City, Yufu City, Oita Prefecture, Usa City, & Hiji Town Survey. (2006). Yufudake/Tsurumidake/Garandake Volcano Disaster Prevention Map.
Yugama (Kusatsu-Shiranesan), Japan [VNUM = 283120]
Kusatsu-Shiranesan (near Yugama) Volcanic Alert Levels (2019)
Japan Meteorological Agency. (2019). Kusatsu-Shiranesan (near Yugama) Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.
Volcanic hazard map of Kusatsu-Shiranesan (2019)
Volcano Disaster Management Councils of Kusatsu-Shiranesan. (2019). Volcanic Hazard Map of Kusatsu-Shiranesan.