1. Disruption of Long-Term Effusive-Explosive Activity at Santiaguito, Guatemala
- Author
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Oliver D. Lamb, Anthony Lamur, Alejandro Díaz-Moreno, Silvio De Angelis, Adrian J. Hornby, Felix W. von Aulock, Jackie E. Kendrick, Paul A. Wallace, Ellen Gottschämmer, Andreas Rietbrock, Isaac Alvarez, Gustavo Chigna, and Yan Lavallée
- Subjects
Santiaguito ,volcano-seismology ,infrasound ,eruption chronology ,volcanic explosions ,multi-parametric monitoring ,Science - Abstract
Rapid transitions in eruptive activity during lava dome eruptions pose significant challenges for monitoring and hazard assessment. A comprehensive understanding of the dynamic evolution of active lava dome systems requires extensive sets of multi-parametric datasets to fully constrain and understand shifts in eruptive behavior, but few such datasets have been compiled. The Santiaguito lava dome complex, Guatemala, is a remarkable example of an open-vent volcanic system where continuous eruptive activity has typically been characterized by cycles of effusion and frequent, small to moderate, gas-and-ash explosions. During 2015–2016 the volcano experienced a rapid intensification of activity including large vulcanian explosions, frequently accompanied by pyroclastic density currents. Here we present a chronology of the eruptive activity at Santiaguito from November 2014–May 2017, compiled from field observations (visual and thermal) and activity reports. We also present seismic and acoustic infrasound data collected during the same period, the longest and largest dataset collected at Santiaguito to date. Three major phases of eruptive activity took place during the study period. The first phase was consistent with the long-term eruptive behavior reported at Santiaguito by previous studies: lava effusion simultaneous with small (
- Published
- 2019
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