1. Ceboruco hazard map: part II—modeling volcanic phenomena and construction of the general hazard map
- Author
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Dolors Ferrés, Charles B. Connor, Claus Siebe, K. González Zuccolotto, Laura Connor, Gianluca Groppelli, Lucia Capra, Katrin Sieron, and Robert Constantinescu
- Subjects
Hazard map ,Atmospheric Science ,Volcanic hazards ,010504 meteorology & atmospheric sciences ,Lava ,Earth science ,Ballistics ,Lava flows ,0211 other engineering and technologies ,Pyroclastic rock ,02 engineering and technology ,01 natural sciences ,Pyroclastic flows and surges ,Natural hazard ,Ceboruco volcano ,Lahars ,Earth and Planetary Sciences (miscellaneous) ,Stratovolcano ,Ash fallout ,0105 earth and related environmental sciences ,Water Science and Technology ,021110 strategic, defence & security studies ,geography ,geography.geographical_feature_category ,Volcanic belt ,Volcano ,Geology - Abstract
Ceboruco volcano in the western Trans-Mexican Volcanic Belt is one of the eleven most active stratovolcanoes in Mexico. Due to its recent eruptive history including a large Plinian eruption ~ 1000 years ago, the AD 1870 eruption, and recurrent recent seismic activity, it seemed highly appropriate to construct a hazard map in order to be prepared for future eruptions and their associated hazards. Ceboruco volcano eruptions are predominantly effusive; however, it also has been characterized by a great variability of eruptive styles throughout its record of activity. In fact, some eruptions comprise a significant diversity of volcanic processes, including lava flows, tephra fallout, ballistic emission, pyroclastic flows and surges, and lahars. In this work, we present (1) an integrated and simplified hazard map and (2) more detailed scenario-based hazard maps showing the areas affected by the different expected volcanic phenomena attempting to account for this great diversity of eruptive processes. The maps represent the basis to identify the main hazard zones during a future eruption and the related impacts on population and infrastructure within the area of influence of Ceboruco (~ 700 km2), as well as for undertaking subsequent vulnerability and risk analyses. The maps provide a tool to develop measures of prevention and mitigation of volcanic hazards (preparedness of the population, establishment of evacuation routes and refuges, etc.), as well as for decision-making by authorities during territorial planning (urban expansion for example). The integrated simplified hazard map can also be a tool for dissemination purposes, in order to create awareness of associated hazards derived from a possible future activity of the volcano among the public in general. This is important because in the western sector of the Trans-Mexican Volcanic Belt (and specifically in the State of Nayarit) most volcanic edifices (with the exception of Colima volcano) are closed-vent volcanoes (sealed volcanic vent vs. open-vent systems) with long repose periods (up to ~ 16,000 years for example in the case of San Juan volcano 60 km to the W), a situation that consequently and unfortunately has led to a practically nonexistent volcanic risk perception.
- Published
- 2019