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Pelée, Martinique [France]
Official, Figure in hazard assessment
Cartographie de l'Aléa Mouvements de Terrain de Grande Ampleur
(Map of the Hazards from Large-scale Land Movements)
Page 72 in: Préfet de la Martinique. (2014). Dossier Départemental des Risques Majeurs en Martinique. DDRM 972.

Pelée, Martinique [France]
Official, Figure in hazard assessment
Cartographie de l'Aléa Volcanique Global
(Global Volcanic Hazard Mapping)
Page 73 in: Préfet de la Martinique. (2014). Dossier Départemental des Risques Majeurs en Martinique. DDRM 972.

Iliamna, United States
Official, Figure in hazard assessment
Composite Area of Possible Ash Fallout in Upper Cook Inlet for a Future Eruption of Iliamna Volcano
Figure 9 in: Waythomas, C.F. & Miller, T.P. (1999). Preliminary volcano-hazard assessment for Iliamna Volcano, Alaska. U.S. Geological Survey, Open-File Report 99-373, 31 p., 1 plate. https://doi.org/10.3133/ofr99373

Cotopaxi, Ecuador
Official, Sign or billboard
En Caso de Una Eventual Reactivacion del Volcan Cotopaxi
(In Case of a Possible Reactivation of the Cotopaxi Volcano)
Mothes, P. (1990). En Caso de Una Eventual Reactivacion del Volcan Cotopaxi. Instituto Geofísico de la Escuela Politecnica Nacional and Dirección Nacional (IG-EPN) de Defensa Civil, Quito.

Cotopaxi, Ecuador
Official, Sign or billboard
En Caso de Una Eventual Reactivacion del Volcan Cotopaxi
(In Case of a Possible Reactivation of the Cotopaxi Volcano)
Mothes, P. (1991). En Caso de Una Eventual Reactivacion del Volcan Cotopaxi. Instituto Geofísico de la Escuela Politecnica Nacional (IG-EPN) and Dirección Nacional de Defensa Civil, Quito.

Karkar, Papua New Guinea
Official, Figure in hazard assessment
Evacuation Plan for Karkar Island Volcano Based on Distribution of Known Hazardous Areas
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.

Soufrière Guadeloupe, Guadeloupe [France]
Official, Figure in hazard assessment
Evaluation des Risques Potentiels de Lahars d'Accumulation a la Soufrière de Guadeloupe
(Assessment of the Potential Risks of Lahars of Accumulation at the Soufriere of Guadeloupe)
Figure 17 in: Westercamp, D. (1977) Levés géologiques, évaluation et zonation des risques volcaniques à la Soufrière de Guadeloupe F. W. I. (Rapport de mission) Mai-Juin 1977. Délégation Générale a la Recherche Scientifique et Technique. 77 Ant 29

Pelée, Martinique [France]
Official, Figure in hazard assessment
Evaluation Quantitative De L'Aléa Volcanique Global (combinaison "intensite * fréquence)
(Quantitative Assessment of the Global Volcanic Hazard (combination "intensity * frequency))
Annex 4.9 in: Stieltjes, L. & Mirgon, C. (1998). Approche méthodologique de la vulnérabilité aux phénomènes volcaniques. Test d’application sur les réseaux de la Martinique. Rapport de synthese. Rapport Bureau de Recherches Géologiques et Minières (BRGM), Marseille, R 40098. http://infoterre.brgm.fr/rapports/RR-40098-FR.pdf

San Martín, Mexico
Figure in a journal article
Fig. 12 a Shows the scoria cone density/km². b Explosion crater density/km² is depicted. Each square corresponds to 1 km2. c Shows scoria cones density map (with overlapping rectangle-shaped cells), the point map used for calculation, and the area with the highest observed volcanic edifice density.
Figure 12 in: Sieron, K., Capra, L., & Rodríguez-Elizararrás, S. (2014). Hazard assessment at San Martín volcano based on geological record, numerical modeling, and spatial analysis. Natural hazards, 70(1), 275-297. https://doi.org/10.1007/s11069-013-0807-7

Glacier Peak, United States
Official, Figure in hazard assessment
Flowage Hazard Zones
Figure 21 in: Beget, J.E. (1982). Postglacial Volcanic Deposits at Glacier Peak, Washington, and Potential Hazards from Future Eruptions. U.S. Geological Survey, Open-File Report 82-830, 81 p. https://doi.org/10.3133/ofr82830

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