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From mixed to hybrid facies volcanic debris avalanche at Colima Volcano: sedimentology and numerical modeling as evidence of transport and emplacement mechanisms
AbstractNumerous partial collapses of Colima Volcano have occurred in its history, accompanied by the emplacement of volcanic debris avalanche deposits (VDADs). The collapse that generated the Tonila VDAD (T-VDAD; ~ 1 km3; ~ 15Ka cal. BP) occurred during “wet” paleoclimatic conditions in a high humidity environment, and water within the volcanic edifice, which played a significant role in the volcano’s instability and avalanche transport. This study aims to provide new data on the processes involved in the transport and emplacement mechanisms of debris avalanches based on a detailed granulometric and microtextural characterization and numerical modeling. In general, T-VDAD exhibited massive dynamic behavior during its transport, without segregation process, although some variation of the grains-size occurs from proximal to distal reaches from the source. At microscopic level, evidence suggests particle–particle interactions of rapid, high-energy, high velocity collisional nature, promoting comminution, which increases the fines content with distance. The general high content of fine material into the T-VDAD, combined with a significant water content within the mass before the collapse, due to partial edifice saturation, may have contributed to enhance its mobility. The T-VDAD mobility is here tested with the Titan2d numerical model; results show important paleo-topography implications and that the Coulomb frictional model with basal friction angles similar to previously tested cases best fits the areal propagation of the T-VDAD, confirming that, despite the fluid content that enhanced downslope transformation, the flow still behaved as a homogeneous and incompressible continuum with energy dissipation concentrated within its base.
From mixed to hybrid facies volcanic debris avalanche at Colima Volcano: sedimentology and numerical modeling as evidence of transport and emplacement mechanisms
AbstractNumerous partial collapses of Colima Volcano have occurred in its history, accompanied by the emplacement of volcanic debris avalanche deposits (VDADs). The collapse that generated the Tonila VDAD (T-VDAD; ~ 1 km3; ~ 15Ka cal. BP) occurred during “wet” paleoclimatic conditions in a high humidity environment, and water within the volcanic edifice, which played a significant role in the volcano’s instability and avalanche transport. This study aims to provide new data on the processes involved in the transport and emplacement mechanisms of debris avalanches based on a detailed granulometric and microtextural characterization and numerical modeling. In general, T-VDAD exhibited massive dynamic behavior during its transport, without segregation process, although some variation of the grains-size occurs from proximal to distal reaches from the source. At microscopic level, evidence suggests particle–particle interactions of rapid, high-energy, high velocity collisional nature, promoting comminution, which increases the fines content with distance. The general high content of fine material into the T-VDAD, combined with a significant water content within the mass before the collapse, due to partial edifice saturation, may have contributed to enhance its mobility. The T-VDAD mobility is here tested with the Titan2d numerical model; results show important paleo-topography implications and that the Coulomb frictional model with basal friction angles similar to previously tested cases best fits the areal propagation of the T-VDAD, confirming that, despite the fluid content that enhanced downslope transformation, the flow still behaved as a homogeneous and incompressible continuum with energy dissipation concentrated within its base.
From mixed to hybrid facies volcanic debris avalanche at Colima Volcano: sedimentology and numerical modeling as evidence of transport and emplacement mechanisms
Landslides
Roverato, Matteo (Autor:in) / Capra, Lucia (Autor:in)
Landslides ; 22 ; 17-29
01.01.2025
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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