Advanced Search for Maps

Showing 51-60 of 845

Nevado del Tolima, Colombia
Official, Interactive web-based map
Amenaza Tolima
(Tolima Hazards)
Servicio Geológico Colombiano (SGC). Amenaza Tolima.

Barú, Panama
Official (foreign agency), Insert/poster-size map with accompanying report
Amenaza Volcánica en el Volcán Barú, República de Panamá
(Volcano Hazards of Volcán Barú, Republic of Panamá)
Plate 1 (Spanish) in: Sherrod, D. R., Vallance, J. W., Espinosa, A. T., & McGeehin, J. P. (2007). Volcan Baru—eruptive history and volcano-hazards assessment. U.S. Geological Survey, Open-File Report, 2007-1401.

San Cristóbal, Nicaragua
Official, Map in an information statement
Amenazas Asociadas al Volcán San Cristóbal
(Hazards Associated with the San Cristobal Volcano)
Instituto Nicaragüense de Estudios Territoriales (INETER). (2006). Amenazas Asociadas al Volcán San Cristóbal. https://webserver2.ineter.gob.ni/vol/cristobal/Chinandega.gif

San Cristóbal, Nicaragua
Official, Map in an information statement
Amenazas Asociadas al Volcán San Cristóbal
(Hazards Associated with the San Cristobal Volcano)
Instituto Nicaragüense de Estudios Territoriales (INETER). (2006). Amenazas Asociadas al Volcán San Cristóbal. https://webserver2.ineter.gob.ni/vol/cristobal/Chinandega.gif

Isarog, Philippines
Figure in a thesis or dissertation
Andesitic lava flow hazard map
Figure 7 in: Daita, T.J.E. (2020). Preliminary Volcanic Hazard Assessment of Goa, Camarines Sur, Philippines. Thesis, Partido State University, Goa, Camarines Sur, Philippines.

Cascades Range (regional, USA only), United States
Official, Figure in hazard assessment
Annual probability of 1 cm (about 0.4 inches) or more of tephra accumulation from any major Cascade volcano
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

Baker, United States
Official, Figure in hazard assessment
Annual probability of 1 cm (about 0.4 inches) or more of tephra from Mount Baker.
Figure 5a 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

Glacier Peak, United States
Official, Figure in hazard assessment
Annual probability of >=10 cm tephra accumulation for Glacier Peak
Figure 2 in: Waitt, R.B., Mastin, L.G., & Begét, J.E. (1995). Volcanic-Hazard Zonation for Glacier Peak Volcano, Washington. U.S. Geological Survey, Open-File Report 95-499, 9 p., 1 plate. https://doi.org/10.3133/ofr95499

Cascades Range (regional, USA only), United States
Official, Figure in hazard assessment
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.
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

Tanaga, United States
Official, Figure in hazard assessment
Approximate areas likely to be affected by pyroclastic flows and surges originating at the active vents of the Tanaga volcanic cluster, Tanaga Island, Alaska
Figure 15 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

Page: 1   2   3   4   5   6   7   8   9   10   11   >   >>