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Rincón de la Vieja, Costa Rica
Official, Figure in hazard assessment
Mapa de detalle de las obras y de un posible lahar de 100 000 m3 (arriba) y 1 500 000 m3 (abajo) bajando por la quebrada Pacayal
(Detail map of the works and a possible lahar of 100,000 m3 (above) and 1,500,000 m3 (below) going down the Pacayal stream)
Figure 6.42 (in reprint) in: Alvarado, G.E., Aguilar, I.L. & Vargas, A. (2018). Evaluación de la amenaza volcánica del Rincón de la Vieja para el proyecto geotérmico Borinquen, Guanacaste. Área de Amenazas y Auscultación Sismológica y Volcánica, ICE [Inf. Interno]. Reprinted in: Alvarado, G.E., Brenes-André, J., Venegas, L., Alpízar, Y., Núñez, S., Sánchez, M., Abarca, K., Abarca, J., Báez, W.A., Sibaja, J.P., Esquivel, L., & Arcia, T. (2022). Análisis del Peligro Volcánico del Rincón de la Vieja, Costa Rica. Instituto Costarricense de Electricidad (ICE). Setiembre 2022.

Rincón de la Vieja, Costa Rica
Official, Figure in hazard assessment
Mapa de detalle de un posible lahar de 100 000 m3 (arriba) y 1 500 000 m3 (abajo) bajando por la quebrada “Sin Nombre”
(Detail map of a possible lahar of 100,000 m3 (above) and 1,500,000 m3 (below) going down the “Sin Nombre” stream)
Figure 6.40 (in reprint) in: Alvarado, G.E., Aguilar, I.L. & Vargas, A. (2018). Evaluación de la amenaza volcánica del Rincón de la Vieja para el proyecto geotérmico Borinquen, Guanacaste. Área de Amenazas y Auscultación Sismológica y Volcánica, ICE [Inf. Interno]. Reprinted in: Alvarado, G.E., Brenes-André, J., Venegas, L., Alpízar, Y., Núñez, S., Sánchez, M., Abarca, K., Abarca, J., Báez, W.A., Sibaja, J.P., Esquivel, L., & Arcia, T. (2022). Análisis del Peligro Volcánico del Rincón de la Vieja, Costa Rica. Instituto Costarricense de Electricidad (ICE). Setiembre 2022.

Ruawahia (Okataina), New Zealand
Figure in a journal article
Maps showing the average probability of accumulating ≥10 mm of ash in the event of a–c a basaltic Plinian eruption from Ruawahia Dome, a vent in the Tarawera LVZ, and d–f an initial Plinian phase of a rhyolitic Plinian eruption from Ruawahia Dome, for fruit farms in the BoP
Figure 9 in: Thompson, M. A., Lindsay, J. M., Wilson, T. M., Biass, S., & Sandri, L. (2017). Quantifying risk to agriculture from volcanic ashfall: a case study from the Bay of Plenty, New Zealand. Natural Hazards, 86(1), 31-56. https://doi.org/10.1007/s11069-016-2672-7

Haroharo (Okataina) & Tarawera (Okataina), New Zealand
Figure in a journal article
Maps showing the average risk index (here, probability of accumulating ≥10 mm of ash × a Vc of 1.0) in the event of an initial Plinian phase of a rhyolitic Plinian eruption during peak season from the Tarawera LVZ for a fruit farms in the BoP
Figure 8 in: Thompson, M. A., Lindsay, J. M., Wilson, T. M., Biass, S., & Sandri, L. (2017). Quantifying risk to agriculture from volcanic ashfall: a case study from the Bay of Plenty, New Zealand. Natural Hazards, 86(1), 31-56. https://doi.org/10.1007/s11069-016-2672-7

Rincón de la Vieja, Costa Rica
Official, Figure in hazard assessment
Modelo de Afectación por Lahares de con 95% de Confiabilidad para 2.1 x 10^6 m3
(Lahars Affectation Model with 95% Confidence for 2.1 x 10^6 m3)
Figure 6.45 in: Alvarado, G.E., Brenes-André, J., Venegas, L., Alpízar, Y., Núñez, S., Sánchez, M., Abarca, K., Abarca, J., Báez, W.A., Sibaja, J.P., Esquivel, L., & Arcia, T. (2022). Análisis del Peligro Volcánico del Rincón de la Vieja, Costa Rica. Instituto Costarricense de Electricidad (ICE). Setiembre 2022. (Modified from: Alpízar, 2018)

Rincón de la Vieja, Costa Rica
Figure in a thesis or dissertation
Modelo de Afectación por Lahares de con 95% de Confiabilidad para 2.1 x 10^6 m3
(Lahars Affectation Model with 95% Confidence for 2.1 x 10^6 m3)
Figure 9 in: Alpízar, Y. (2018). Mapa Preliminar de Peligros Volcánicos para el Volcán Rincón de la Vieja (Costa Rica): Descripción de un Escenario de Afectación por Lahares. Ciudad Universitaria Rodrigo Facio, Costa Rica. 160 p.

Merapi, Indonesia
Figure in a journal article
Pyroclastic Flow and Surge Hazard Map Merapi Volcano (Gendol River)
Figure 5 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

Puyehue-Cordon Caulle, Chile
Figure in a journal article
Spatial distribution of the probability of reaching a tephra accumulation of 10 kg m−2
Figure 8 in: Elissondo, M., Baumann, V., Bonadonna, C., Pistolesi, M., Cioni, R., Bertagnini, A., Biass, S., Herrero, J.-C., & Gonzalez, R. (2016). Chronology and impact of the 2011 Cordón Caulle eruption, Chile. Natural Hazards and Earth System Sciences, 16(3), 675-704. https://doi.org/10.5194/nhess-16-675-2016, 2016

Long Valley Area, United States
Figure in a journal article
Vent opening probability maps - Model 1 (kernel denisty estimator)
Figure 7 in: Bevilacqua, A., Bursik, M., Patra, A., Pitman, E. B., & Till, R. (2017). Bayesian construction of a long-term vent opening probability map in the Long Valley volcanic region (CA, USA). Statistics in Volcanology, 3(1), 1. http://dx.doi.org/10.5038/2163-338X.3.1

Long Valley Area, United States
Figure in a journal article
Vent opening probability maps - Model 2 (Bayesian update of fault map)
Figure 9 in: Bevilacqua, A., Bursik, M., Patra, A., Pitman, E. B., & Till, R. (2017). Bayesian construction of a long-term vent opening probability map in the Long Valley volcanic region (CA, USA). Statistics in Volcanology, 3(1), 1. http://dx.doi.org/10.5038/2163-338X.3.1