Abstract
During eruptive activity of andesitic stratovolcanoes, the extrusion of lava domes, their collapse and intermittent explosions are common volcanic hazards. Many lava domes grow in a preferred direction, in turn affecting the direction of lava flows and pyroclastic density currents. Access to active lava domes is difficult and hazardous, so detailed data characterizing lava dome growth are typically limited, keeping the processes controlling the directionality of extrusions unclear. Here we combine TerraSAR-X satellite radar observations with high-resolution airborne photogrammetry to assess morphological changes, and perform finite element modeling to investigate the impact of loading stress on shallow magma ascent directions associated with lava dome extrusion and crater formation at Volcan de Colima, Mexico. The TerraSAR-X data, acquired in ~1-m resolution spotlight mode, enable us to derive a chronology of the eruptive processes from intensity-based time-lapse observations of the general crater and dome evolution. The satellite images are complemented by close-range airborne photos, processed by the Structure-from-Motion workflow. This allows the derivation of high-resolution digital elevation models, providing insight into detailed loading and unloading features. During the observation period from Jan-2013 to Feb-2016, we identify a dominantly W-directed dome growth and lava flow production until Jan-2015. In Feb-2015, following the removal of the active summit dome, the surface crater widened and elongated along a NE-SW axis. Later in May-2015, a new dome grew toward the SW of the crater while a separate vent developed in the NE of the crater, reflecting a change in the direction of magma ascent and possible conduit bifurcation. Finite element models show a significant stress change in agreement with the observed magma ascent direction changes in response to the changing surface loads, both for loading (dome growth) and unloading (crater forming excavation) cases. These results allow insight into shallow dome growth dynamics and the migration of magma ascent in response to changing volcano summit morphology. They further highlight the importance of detailed volcano summit morphology surveillance, as changes in direction or location of dome extrusion may have major implications regarding the directions of potential volcanic hazards, such as pyroclastic density currents generated by dome collapse. Introduction
Highlights
The growth of lava domes is a common volcanic phenomenon, being recorded at over 120 volcanoes worldwide (Ogburn et al, 2015), with many varying growth styles
Directed effusion and the development of new vents or their migration in response to load stress changes, as we propose for the 2013–2015 eruption at Volcán de Colima, will affect the direction of dome-related flows, explosions and collapses, and the distribution of hazards around the volcano, mainly pyroclastic density currents (PDCs), lava flows and possibly ballistic ejecta
Modeling suggests that the emplacement and removal of the lava dome affected the local stress field and varied the direction of magma ascent and extrusion as well as the opening of new a vent, likely causing a conduit bifurcation
Summary
The growth of lava domes is a common volcanic phenomenon, being recorded at over 120 volcanoes worldwide (Ogburn et al, 2015), with many varying growth styles. The collapse of a lava dome can produce destructive pyroclastic density currents (PDCs), a hazard responsible for many volcano-related deaths (Witham, 2005). One of the most prominent examples of the destructive potential of a lava dome occurred in 1902 with the sudden collapse of the Mount Pelee, Martinique, lava spine. This resulted in a PDC that destroyed the nearby town St. Pierre, causing ∼28,000 deaths within a few minutes (Tanguy, 1994). Lava domes that are emplaced on slopes or grow by oblique extrusion are especially prone to gravitational collapse due to potential oversteepening (Voight, 2000), so a clear understanding of the dome growth dynamics is highly important
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