Browse Maps By Volcano

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Showing 46 volcanoes

Kaba, Indonesia [VNUM = 261220]

Volcanic Hazard Map of Kaba Volcano, Bengkulu Province (2008)
Mulyana, A.R., Pujowarsito, & Irianto. (2008). Volcanic Hazard Map of Kaba Volcano, Bengkulu Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).

Kambalny, Russia [VNUM = 300010]

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.

Kanaga, United States [VNUM = 311110]

Preliminary Volcano-Hazard Assessment for Kanaga Volcano, Alaska (2002)
Plate 1 in: Waythomas, C.F., Miller, T.P. & Nye, C.J. (2002). Preliminary volcano-hazard assessment for Kanaga Volcano, Alaska. U.S. Geological Survey, Open-File Report 02-0397, 27 p., 1 plate. https://doi.org/10.3133/ofr02397

Kanlaon, Philippines [VNUM = 272020]

Kanlaon Volcano Lahar Hazard Map (2016)
Bornas, M.A.V., Rivera, D.J.V., Pidlaoan, A.C., Delos Reyes, P.J., Daag, A.S., Martinez-Villegas, M.M.L., & Solidum Jr., R.U. (2016). Kanlaon Volcano Lahar Hazard Map. Philippines Institute of Volcanology and Seismology (PHIVOLCS).

Kanlaon Volcano Lava Flow Hazard Map (2016)
Bornas, M.A.V., Rivera, D.J.V., Pidlaoan, A.C., Delos Reyes, P.J., Daag, A.S., Martinez-Villegas, M.M.L., & Solidum Jr., R.U. (2016). Kanloan Volcano Lava Flow Hazard Map. Philippines Institute of Volcanology and Seismology (PHIVOLCS).

Kanlaon Volcano Pyroclastic Flow Hazard Map (2016)
Bornas, M.A.V., Rivera, D.J.V., Pidlaoan, A.C., Delos Reyes, P.J., Daag, A.S., Martinez-Villegas, M.M.L., & Solidum Jr., R.U. (2016). Kanloan Volcano Pyroclastic Flow Hazard Map. Philippines Institute of Volcanology and Seismology (PHIVOLCS).

HazardHunterPH Kanlaon ([?])
GeoRisk Philippines. HazardHunterPH.

Karangetang, Indonesia [VNUM = 267020]

Volcanic Hazard Map of Karangetang Volcano, North Sulawesi Province (1996)
Bronto, S. & Djuhara, A. (1996). Volcanic Hazard Map of Karangetang Volcano, North Sulawesi Province. Volcanological Survey of Indonesia (VSI).

Karkar, Papua New Guinea [VNUM = 251030]

Evacuation Plan for Karkar Island Volcano Based on Distribution of Known Hazardous Areas (1982)
Figure 14 in: Lowenstein, P.L. (1982). Problems of volcanic hazards in Papua New Guinea. Geological Survey of Papua New Guinea, Report 82/7, 62 p.

Volcanic Hazards Map for Karkar Island (1982)
Figure 13 in: Lowenstein, P.L. (1982). Problems of volcanic hazards in Papua New Guinea. Geological Survey of Papua New Guinea, Report 82/7, 62 p.

Karpinsky Group, Russia [VNUM = 290350]

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.

Karthala, Comoros [VNUM = 233010]

Lava flow hazard probability map of Karthala volcano (2019)
Figure 3 in: Mossoux, S., Kervyn, M., & Canters, F. (2019). Assessing the impact of road segment obstruction on accessibility of critical services in case of a hazard. Natural Hazards & Earth System Sciences, 19(6). https://doi.org/10.5194/nhess-19-1251-2019

Road hazard exposure map for the Karthala volcano (2019)
Figure 7 in: Mossoux, S., Kervyn, M., & Canters, F. (2019). Assessing the impact of road segment obstruction on accessibility of critical services in case of a hazard. Natural Hazards & Earth System Sciences, 19(6). https://doi.org/10.5194/nhess-19-1251-2019

Volcanic risk and hazards zonation for Grande Comore (2001)
Figure 3 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: Nassor, H. (2001) Contribution à l’étude du risque volcanique sur les grands volcans boucliers basaltiques: le Karthala et le Piton de la Fournaise, unpublished PhD dissertation, University of La Réunion, 218 p.

Karymsky, Russia [VNUM = 300130]

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.

Katla, Iceland [VNUM = 372030]

Katla, tephra fall probability - After Larsen and Gíslason (2013) (2019)
Larsen, G. & Guðmundsson, M.T. (2019). Katla. In: Oladottir, B., Larsen, G. & Guðmundsson, M. T. Catalogue of Icelandic Volcanoes. Iceland Meteorological Office (IMO), Univeristy of Iceland, and Civil Protection Department of the National Commissioner of the Iceland Police (CPD-NCIP). (Simplified from: Larsen and Gíslason 2013)

Tephra fall probabilities based on 15 historical Katla eruptions (2019)
Larsen, G. & Guðmundsson, M.T. (2019). Katla. In: Oladottir, B., Larsen, G. & Guðmundsson, M. T. Catalogue of Icelandic Volcanoes. Iceland Meteorological Office (IMO), Univeristy of Iceland, and Civil Protection Department of the National Commissioner of the Iceland Police (CPD-NCIP). https://icelandicvolcanos.is//index.html (Simplified from: Larsen & Gíslason 2013)

Atmospheric dispersion of tephra for a threshold of 2 mg m−3 for all FL for the eruption scenarios of Hekla ERS 1947-type (a, b, c), Katla LLERS (d, e, f) and Askja OES 1875-type (g, h, i) (2014)
Figure 13 in: Biass, S., Scaini, C., Bonadonna, C., Folch, A., Smith, K., & Höskuldsson, A. (2014). A multi-scale risk assessment for tephra fallout and airborne concentration from multiple Icelandic volcanoes–Part 1: Hazard assessment. Natural hazards and earth system sciences, 14(8), 2265-2287. https://doi.org/10.5194/nhess-14-2265-2014

Expected impacts of tephra dispersal on European airspace sectors (2014)
Figure 11 in: Scaini, C., Biass, S., Galderisi, A., Bonadonna, C., Folch, A., Smith, K., & Höskuldsson, A. (2014). A multi-scale risk assessment for tephra fallout and airborne concentration from multiple Icelandic volcanoes–Part 2: Vulnerability and impact. Natural hazards and earth system sciences, 14(8), 2289–2312. https://doi.org/10.5194/nhess-14-2289-2014

Probability maps (%) for ground accumulation for a longlasting eruption at Katla (2014)
Figure 9 in: Biass, S., Scaini, C., Bonadonna, C., Folch, A., Smith, K., & Höskuldsson, A. (2014). A multi-scale risk assessment for tephra fallout and airborne concentration from multiple Icelandic volcanoes–Part 1: Hazard assessment. Natural hazards and earth system sciences, 14(8), 2265-2287. https://doi.org/10.5194/nhess-14-2265-2014

Eruption emergency guidelines – Katla in Mýrdalsjökull: English ([?])
Almannavarnir. (2017). Eruption emergency guidelines - Katla in Mýrdalsjökull.

Katla – Mýrdalsjökull ([?])
Almannavarnir. (2017). Katla – Mýrdalsjökull.

Katmai, United States [VNUM = 312170]

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

Kelimutu, Indonesia [VNUM = 264140]

Volcanic Hazard Map of Kelimutu Volcano, East Nusa Tenggara Province (2008)
Mulyana, A.R., Sumpena, A.D., Purwoto, & Wahyudi, Y. (2008). Volcanic Hazard Map of Kelimutu Volcano, East Nusa Tenggara Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).

Kelud, Indonesia [VNUM = 263280]

Volcanic Hazard Map of Kelud Volcano, East Java Province (2014)
Primulyana, S., Hariwaseso, A., Zaenuddin, A., & Budianto, A. (2014). Volcanic Hazard Map of Kelud Volcano, East Java Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).

Kerinci, Indonesia [VNUM = 261170]

Volcanic Hazard Map of Kerinci Volcano, Jambi and West Sumatera Province (2014)
Primulyana, S., Zaennudin, A., Lusy, D.E., & Saragih, A. (2014). Volcanic Hazard Map of Kerinci Volcano, Jambi and West Sumatera Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).

Ketoi, Russia [VNUM = 290200]

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.

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.

Kick 'em Jenny, Grenada [VNUM = 360160]

Kick 'em Jenny Volcanic Hazard Zones for a minor basaltic submarine eruption & Île de Caille Volcanic Hazard Zones for a moderate basaltic eruption (2005)
Pocket insert in: Lindsay, J.M. & Shepherd, J.B. (2005). Kick’em Jenny and Ile de Caille. 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. 105-125.

Volcanic hazard map for Kick 'em Jenny Scenario 2: sustained effusive eruption becoming more explosive as the volcano grows towards the water surface (2005)
Page 122 in: Lindsay, J.M. & Shepherd, J.B. (2005). Kick’em Jenny and Ile de Caille. 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. 105-125.

Volcanic hazard map for Kick 'em Jenny, Scenario 1: short-lived phreatomagmatic eruption at the current depth to vent of 267m (2005)
Page 121 in: Lindsay, J.M. & Shepherd, J.B. (2005). Kick’em Jenny and Ile de Caille. 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. 105-125.

Kie Besi, Indonesia [VNUM = 268070]

Volcanic Hazard Map of Kie Besi - Makian Island Volcano, North Maluku (2006)
Mulyana, A.R., Bronto, S., Sumpena, A.D., Hadisantono, R.D., & Martono, A. (2006). Volcanic Hazard Map of Kie Besi - Makian Island Volcano, North Maluku. Center for Volcanology and Geological Hazard Mitigation (CVGHM).

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.

Kikhpinych, Russia [VNUM = 300180]

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.

Kilauea, United States [VNUM = 332010]

Map depicting the numbered hazard zones 1 to 4 for ground fractures and “small-scale” subsidence for the Island of Hawai‘i (2014)
Figure 15 in: Kauahikaua, J.P. & Tilling, R.I. (2014). Natural hazards and risk reduction in Hawai‘i. In: Poland, M.P., Takahashi, T.J., & Landowski, C.M. (eds.) Characteristics of Hawaiian Volcanoes. US Geological Survey Professional Paper 1801, p. 397-427. https://doi.org/10.3133/pp180110

Map of the eight main Hawaiian Islands, showing probability of future earthquake ground shaking (2014)
Figure 12 in: Kauahikaua, J.P. & Tilling, R.I. (2014). Natural hazards and risk reduction in Hawai‘i. In: Poland, M.P., Takahashi, T.J., & Landowski, C.M. (eds.) Characteristics of Hawaiian Volcanoes. US Geological Survey Professional Paper 1801, p. 397-427. https://doi.org/10.3133/pp180110

Preliminary integrated lava flow hazards map for the State of Hawaii (2014)
Figure 4 in: Kauahikaua, J.P. & Tilling, R.I. (2014). Natural hazards and risk reduction in Hawai‘i. In: Poland, M.P., Takahashi, T.J., & Landowski, C.M. (eds.) Characteristics of Hawaiian Volcanoes. US Geological Survey Professional Paper 1801, p. 397-427. https://doi.org/10.3133/pp180110

Shaded relief map showing tephra hazard zones on the Island of Hawai‘i (2014)
Figure 8 in: Kauahikaua, J.P. & Tilling, R.I. (2014). Natural hazards and risk reduction in Hawai‘i. In: Poland, M.P., Takahashi, T.J., & Landowski, C.M. (eds.) Characteristics of Hawaiian Volcanoes. US Geological Survey Professional Paper 1801, p. 397-427. https://doi.org/10.3133/pp180110

Map for part of the Puna District (2007)
Figure 1 in: Kauahikaua, J. (2007). Lava flow hazard assessment, as of August 2007, for Kīlauea east rift zone eruptions, Hawai‘i Island. U.S. Geological Survey Open-File Report 2007-1264, 9 p.

Hazard zones for lava flows on Kilauea (1997)
Page 24 in: U.S. Geological Survey (USGS). (1997). Volcanic and Seismic Hazards on the Island of Hawaii. U.S. Geological Survey, Unumbered Series, 48 p. https://doi.org/10.3133/7000036 (Simplified from: Wright 1992)

The Island of Hawaii is divided into zones according to the degree of hazards from lava flows (1997)
Page 22 in: U.S. Geological Survey (USGS). (1997). Volcanic and Seismic Hazards on the Island of Hawaii. U.S. Geological Survey, Unumbered Series, 48 p. https://doi.org/10.3133/7000036 (Simplified from: Wright 1992)

Lava Flow Hazard Zones (1994)
Figure 2 in: Kauahikaua, J. P., Moore, R. B., & Delaney, P. (1994). Volcanic activity and ground deformation hazard analysis for the Hawaii geothermal project environmental impact statement. US Geological Survey, Open File Report 94-553. 44 p. https://doi.org/10.3133/ofr94553 (Modified from: Wright et al. 1992)

Map of the middle east rift zone of Kilauea Volcano showing the hazard zonation of the former Campbell Estate property at Kahauale‘a, the three geothermal subzones, and the subsequent coverage by lavas from the current eruption (1994)
Figure 3 in: Kauahikaua, J. P., Moore, R. B., & Delaney, P. (1994). Volcanic activity and ground deformation hazard analysis for the Hawaii geothermal project environmental impact statement. US Geological Survey, Open File Report 94-553. 44 p. https://doi.org/10.3133/ofr94553

Map Showing Lava-Flow Hazard Zones, Island of Hawaii (1992)
Wright, T.L., Chun, J.Y.F., Exposo, J., Heliker, C., Hodge, J., Lockwood, J.P., & Vogt, S.M. (1992). Map showing lava-flow hazard zones, Island of Hawaii. U.S. Geological Survey, Miscellaneous Field Studies Map 2193, scale 1:250,000. https://doi.org/10.3133/mf2193

Hazard zones for ground fractures and subsidence on the Island of Hawaii (1987)
Figure 22.12 in: Mullineaux, D.R., Peterson, D.W., & Crandell, D.R. (1987). Volcanic hazards in the Hawaiian Islands. In: Decker, R.W., Wright, T.L., & Stauffer, P.H. (Eds.) Volcanism in Hawaii. US Geological Survey Professional Paper 1350, Chapter 22, p. 599-621. https://doi.org/10.3133/pp1350

Hazard zones for lava flows on the Island of Hawaii (1987)
Figure 22.10 in: Mullineaux, D.R., Peterson, D.W., & Crandell, D.R. (1987). Volcanic hazards in the Hawaiian Islands. In: Decker, R.W., Wright, T.L., & Stauffer, P.H. (Eds.) Volcanism in Hawaii. US Geological Survey Professional Paper 1350, Chapter 22, p. 599-621. https://doi.org/10.3133/pp1350

Hazard zones for tephra on the Island of Hawaii (1987)
Figure 22.11 in: Mullineaux, D.R., Peterson, D.W., & Crandell, D.R. (1987). Volcanic hazards in the Hawaiian Islands. In: Decker, R.W., Wright, T.L., & Stauffer, P.H. (Eds.) Volcanism in Hawaii. US Geological Survey Professional Paper 1350, Chapter 22, p. 599-621. https://doi.org/10.3133/pp1350

General areas of high (H), medium (M), and low (L) risk from surface ruptures (1974)
Figure 14 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Map of Zones of Overall Relative Risk From Volcanic Hazards, Island of Hawaii (1974)
Plate 1 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Volcano rift and shoreline zones subject to relatively high risk from subsidence (cross hachured) (1974)
Figure 12 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Zones of overall relative risk from volcanic hazards. Risk increases from "A" through "F" (1974)
Figure 15 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Zones of relative risk from falling volcanic fragments (1974)
Figure 10 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Zones of relative risk from lava-flow burial (1974)
Figure 9 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Index of lava flow incidence per 10,000 years past per square mile (1940)
Figure 2 (in reprint) in: Hawaiian Volcano Observatory. (1940s or 1950s). Index of lava flow incidence per 10,000 years past per square mile. (Reprinted in: Kauahikaua, J.P. & Tilling, R.I. (2014). Natural hazards and risk reduction in Hawai‘i. In: Poland, M.P., Takahashi, T.J., & Landowski, C.M. (eds.) Characteristics of Hawaiian Volcanoes. US Geological Survey Professional Paper 1801, p. 397-427. https://doi.org/10.3133/pp180110)

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

Kirishimayama (Ohachi) Volcanic Alert Levels (2019)
Japan Meteorological Agency. (2019). Kirishimayama (Ohachi) Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.

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.

Kirishimayama (Ebinokogen-Ioyama) Volcanic Alert Levels (2016)
Japan Meteorological Agency. (2016). Kirishimayama (Ebinokogen-Ioyama) 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.

Kizimen, Russia [VNUM = 300230]

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.

Klyuchevskoy, Russia [VNUM = 300260]

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.

Kohala, United States [VNUM = 332800]

Map depicting the numbered hazard zones 1 to 4 for ground fractures and “small-scale” subsidence for the Island of Hawai‘i (2014)
Figure 15 in: Kauahikaua, J.P. & Tilling, R.I. (2014). Natural hazards and risk reduction in Hawai‘i. In: Poland, M.P., Takahashi, T.J., & Landowski, C.M. (eds.) Characteristics of Hawaiian Volcanoes. US Geological Survey Professional Paper 1801, p. 397-427. https://doi.org/10.3133/pp180110

Map of the eight main Hawaiian Islands, showing probability of future earthquake ground shaking (2014)
Figure 12 in: Kauahikaua, J.P. & Tilling, R.I. (2014). Natural hazards and risk reduction in Hawai‘i. In: Poland, M.P., Takahashi, T.J., & Landowski, C.M. (eds.) Characteristics of Hawaiian Volcanoes. US Geological Survey Professional Paper 1801, p. 397-427. https://doi.org/10.3133/pp180110

Preliminary integrated lava flow hazards map for the State of Hawaii (2014)
Figure 4 in: Kauahikaua, J.P. & Tilling, R.I. (2014). Natural hazards and risk reduction in Hawai‘i. In: Poland, M.P., Takahashi, T.J., & Landowski, C.M. (eds.) Characteristics of Hawaiian Volcanoes. US Geological Survey Professional Paper 1801, p. 397-427. https://doi.org/10.3133/pp180110

Shaded relief map showing tephra hazard zones on the Island of Hawai‘i (2014)
Figure 8 in: Kauahikaua, J.P. & Tilling, R.I. (2014). Natural hazards and risk reduction in Hawai‘i. In: Poland, M.P., Takahashi, T.J., & Landowski, C.M. (eds.) Characteristics of Hawaiian Volcanoes. US Geological Survey Professional Paper 1801, p. 397-427. https://doi.org/10.3133/pp180110

Hazard zones for lava flows on Mauna Kea and Kohala (1997)
Page 32 in: U.S. Geological Survey (USGS). (1997). Volcanic and Seismic Hazards on the Island of Hawaii. U.S. Geological Survey, Unumbered Series, 48 p. https://doi.org/10.3133/7000036 (Simplified from: Wright 1992)

The Island of Hawaii is divided into zones according to the degree of hazards from lava flows (1997)
Page 22 in: U.S. Geological Survey (USGS). (1997). Volcanic and Seismic Hazards on the Island of Hawaii. U.S. Geological Survey, Unumbered Series, 48 p. https://doi.org/10.3133/7000036 (Simplified from: Wright 1992)

Lava Flow Hazard Zones (1994)
Figure 2 in: Kauahikaua, J. P., Moore, R. B., & Delaney, P. (1994). Volcanic activity and ground deformation hazard analysis for the Hawaii geothermal project environmental impact statement. US Geological Survey, Open File Report 94-553. 44 p. https://doi.org/10.3133/ofr94553 (Modified from: Wright et al. 1992)

Map Showing Lava-Flow Hazard Zones, Island of Hawaii (1992)
Wright, T.L., Chun, J.Y.F., Exposo, J., Heliker, C., Hodge, J., Lockwood, J.P., & Vogt, S.M. (1992). Map showing lava-flow hazard zones, Island of Hawaii. U.S. Geological Survey, Miscellaneous Field Studies Map 2193, scale 1:250,000. https://doi.org/10.3133/mf2193

Hazard zones for ground fractures and subsidence on the Island of Hawaii (1987)
Figure 22.12 in: Mullineaux, D.R., Peterson, D.W., & Crandell, D.R. (1987). Volcanic hazards in the Hawaiian Islands. In: Decker, R.W., Wright, T.L., & Stauffer, P.H. (Eds.) Volcanism in Hawaii. US Geological Survey Professional Paper 1350, Chapter 22, p. 599-621. https://doi.org/10.3133/pp1350

Hazard zones for lava flows on the Island of Hawaii (1987)
Figure 22.10 in: Mullineaux, D.R., Peterson, D.W., & Crandell, D.R. (1987). Volcanic hazards in the Hawaiian Islands. In: Decker, R.W., Wright, T.L., & Stauffer, P.H. (Eds.) Volcanism in Hawaii. US Geological Survey Professional Paper 1350, Chapter 22, p. 599-621. https://doi.org/10.3133/pp1350

Hazard zones for tephra on the Island of Hawaii (1987)
Figure 22.11 in: Mullineaux, D.R., Peterson, D.W., & Crandell, D.R. (1987). Volcanic hazards in the Hawaiian Islands. In: Decker, R.W., Wright, T.L., & Stauffer, P.H. (Eds.) Volcanism in Hawaii. US Geological Survey Professional Paper 1350, Chapter 22, p. 599-621. https://doi.org/10.3133/pp1350

General areas of high (H), medium (M), and low (L) risk from surface ruptures (1974)
Figure 14 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Map of Zones of Overall Relative Risk From Volcanic Hazards, Island of Hawaii (1974)
Plate 1 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Volcano rift and shoreline zones subject to relatively high risk from subsidence (cross hachured) (1974)
Figure 12 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Zones of overall relative risk from volcanic hazards. Risk increases from "A" through "F" (1974)
Figure 15 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Zones of relative risk from falling volcanic fragments (1974)
Figure 10 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Zones of relative risk from lava-flow burial (1974)
Figure 9 in: Mullineaux, D.R. & Peterson, D.W. (1974). Volcanic hazards on the Island of Hawaii. U.S. Geological Survey, Open-File Report 74-239. https://doi.org/10.3133/ofr74239

Index of lava flow incidence per 10,000 years past per square mile (1940)
Figure 2 (in reprint) in: Hawaiian Volcano Observatory. (1940s or 1950s). Index of lava flow incidence per 10,000 years past per square mile. (Reprinted in: Kauahikaua, J.P. & Tilling, R.I. (2014). Natural hazards and risk reduction in Hawai‘i. In: Poland, M.P., Takahashi, T.J., & Landowski, C.M. (eds.) Characteristics of Hawaiian Volcanoes. US Geological Survey Professional Paper 1801, p. 397-427. https://doi.org/10.3133/pp180110)

Kolob, United States [VNUM = 327800]

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

Kolokol Group, Russia [VNUM = 290120]

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.

Komarov, Russia [VNUM = 300220]

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.

Koolau, United States [VNUM = 332807]

Diagrammatic representation (best guess) of relative risk on Oahu from fallout of tephra originating in the zone of most recent volcanism. (1975)
Figure 2 in: Crandell, D. R. (1975). Assessment of volcanic risk on the island of Oahu, Hawaii. U.S. Geological Survey, Open-File Report 75-287. https://doi.org/10.3133/ofr75287

Zones of relative risk from lateral blasts (1975)
Figure 3 in: Crandell, D. R. (1975). Assessment of volcanic risk on the island of Oahu, Hawaii. U.S. Geological Survey, Open-File Report 75-287. https://doi.org/10.3133/ofr75287

Zones of relative risk from lava flows (1975)
Figure 4 in: Crandell, D. R. (1975). Assessment of volcanic risk on the island of Oahu, Hawaii. U.S. Geological Survey, Open-File Report 75-287. https://doi.org/10.3133/ofr75287

Zones of relative risk from mudflows (1975)
Figure 5 in: Crandell, D. R. (1975). Assessment of volcanic risk on the island of Oahu, Hawaii. U.S. Geological Survey, Open-File Report 75-287. https://doi.org/10.3133/ofr75287

Koryaksky, Russia [VNUM = 300090]

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.

Koshelev, Russia [VNUM = 300020]

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.

Kostakan, Russia [VNUM = 300122]

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.

Kozushima, Japan [VNUM = 284030]

Kozushima Volcanic Alert Levels (2019)
Japan Meteorological Agency. (2019). Kozushima Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.

Kozushima Volcano Hazard Map (Assumed Crater Position, Large Volcanic Stone, Pyroclastic Surge) (2019)
Page 15 in: Kozushima Volcano Disaster Prevention Council. (2020). Kozushima Volcano Evacuation Plan.

Krakatau, Indonesia [VNUM = 262000]

Volcanic Hazard Map of Anak Krakatau Volcano, Lampung Province (2007)
Hadisantono, R.D., Abdurachman, E.K., & Martono, A. (2007). Volcanic Hazard Map of Anak Krakatau Volcano, Lampung Province. Center for Volcanology and Geological Hazard Mitigation (CVGHM).

Krasheninnikov, Russia [VNUM = 300190]

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.

Krenitzyn Peak (Tao-Rusyr Caldera), Russia [VNUM = 290310]

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.

Kronotsky, Russia [VNUM = 300200]

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.

Ksudach, Russia [VNUM = 300050]

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.

Kuchinoerabujima, Japan [VNUM = 282050]

Kuchinoerabujima Volcanic Alert Levels (2018)
Japan Meteorological Agency. (2018). Kuchinoerabujima Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.

Kudryavyi (Moyorodake [Medvezhia]), Russia [VNUM = 290100]

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.

Kujusan, Japan [VNUM = 282120]

Kujusan Volcanic Alert Levels (2016)
Japan Meteorological Agency. (2016). Kujusan Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.

Volcanic disaster prevention map of Kujusan volcano (2013)
Oita Prefecture, Yufu City, Takeda City & Kokonoe Town. (2013). Volcanic disaster prevention map of Kujusan volcano.

Kuju Mountain Volcano Disaster Prevention Map (2004)
Oita Prefecture, Yufu City, Taketa City, Kokonoe Town. (2004). Kuju Mountain Volcano Disaster Prevention Map.

Kurikomayama, Japan [VNUM = 283210]

Kurikomayama Volcanic Alert Levels (2019)
Japan Meteorological Agency. (2019). Kurikomayama Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.

Volcanic disaster prevention map of Kurikomayama volcano (2018)
Volcano Disaster Management Councils of Kurikomayama volcano. (2018). Volcanic disaster prevention map of Kurikomayama volcano. Iwate Prefecture, Miyagi Prefecture, Akita Prefecture, Ichinoseki City, kurihara City, Yokote City, Yuzawa City, Ugo Town, Higashinaruse.

Kurile Lake, Russia [VNUM = 300023]

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.

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.

Kusatsu-Shiranesan (Honshirane) Volcanic Alert Levels (2018)
Japan Meteorological Agency. (2018). Kusatsu-Shiranesan (Honshirane) Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.

Kusatsu-Shiranesan Volcano Disaster Preventions Map (1995)
Kusatsu-Shirane Volcano Eruption Hazard Area Prediction Map Preparation Review Committee. (1995). Kusatsu-Shiranesan Volcano Disaster Preventions Map. Kusatsu Town, Marikoi Village, Naganomachi, and Rokugo Village.

Kussharo, Japan [VNUM = 285080]

Atosanupuri Hazard map (magma eruption) (2018)
Page 7 in: Teshikaga Town Office. (2018). Teshikaga Town Disaster Prevention Guidebook.

Atosanupuri Hazard Map (steam eruption) (2018)
Page 6 in: Teshikaga Town Office. (2018). Teshikaga Town Disaster Prevention Guidebook.

Atosanupuri Volcanic Alert Levels (2018)
Japan Meteorological Agency. (2018). Atosanupuri Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.

Volcanic disaster prevention map of Atosanupuri volcano (2001)
Teshikaga Town. (2001). Volcanic Disaster Prevention Map of Atosanupuri Volcano.

Kuttara, Japan [VNUM = 285034]

Kuttara Volcanic Alert Levels (2016)
Japan Meteorological Agency. (2016). Kuttara Volcanic Alert Levels. Volcano Monitoring and Warning Center, Volcano Division, Earthquake and Volcano Department.

Kuttara Volcanic Disaster Prevention Map (2014)
Page 5-6 in: Noboribetsu City. (2014). Noboribetsu City Disaster Prevention Map. 47 p.