Viscosity of andesitic lava and its implications for possible drain-back processes in the 2011 eruption of the Shinmoedake volcano, Japan

Abstract: The 850 m diameter crater of the Shinmoedake volcano was filled by andesitic lava after three subplinian eruptions on 26-27 January 2011. We analyzed blocks thrown from the lava-filled crater by subsequent Vulcanian explosions to estimate the lava's viscosity and evaluate the possibility of drain-back processes in the crater. Petrographic work on the ejecta, including bulk and glass chemistry, phenocryst and microlite modes, and the water content of the glass enabled us to estimate the bulk viscosity of the la… Show more

“…6c, d ). The subsidence is likely related to the combined action of (i) the cooling and gas release from the emplaced magma body (foam collapse 12 and gravitational compaction 11 , i.e., “soufflé” effect), and (ii) the drainage of extruded magma back into the conduit 12 , 24 , 48 . Evidence of this is provided by the subsiding dome center (occasionally materialized as a small pit which could reflect the underlying feeding conduit), the peripheral bulge, the development of concentric ring fractures accommodating the downward sag, as well as sub-circular piston collapse structures.…”

Lava dome cycles reveal rise and fall of magma column at Popocatépetl volcano

“…6c, d ). The subsidence is likely related to the combined action of (i) the cooling and gas release from the emplaced magma body (foam collapse 12 and gravitational compaction 11 , i.e., “soufflé” effect), and (ii) the drainage of extruded magma back into the conduit 12 , 24 , 48 . Evidence of this is provided by the subsiding dome center (occasionally materialized as a small pit which could reflect the underlying feeding conduit), the peripheral bulge, the development of concentric ring fractures accommodating the downward sag, as well as sub-circular piston collapse structures.…”

Lava dome cycles reveal rise and fall of magma column at Popocatépetl volcano

A melt viscosity scale for preeruptive magmas

Morphology-based characterization of intermediate to silicic lava flows: Application to the Central Andean Volcanic Zone