Peléan eruption

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Pelean eruption: 1 Ash plume, 2 Volcanic ash rain, 3 Lava dome, 4 Volcanic bomb, 5 Pyroclastic flow, 6 Layers of lava and ash, 7 Strata, 8 Magma conduit, 9 Magma chamber, 10 Dike
Pelean eruption: 1 Ash plume, 2 Volcanic ash rain, 3 Lava dome, 4 Volcanic bomb, 5 Pyroclastic flow, 6 Layers of lava and ash, 7 Strata, 8 Magma conduit, 9 Magma chamber, 10 Dike

Pelean eruptions are a type of volcanic eruption. They can occur when viscous magma, typically of rhyolitic or andesitic type, is involved, and share some similarities with Vulcanian eruptions. The most important characteristics of a Pelean eruption is the presence of a glowing avalanche of hot volcanic ash, a pyroclastic flow. Formation of lava domes is another characteristical feature. Short flows of ash or creation of pumice cones may be observed as well.

The initial phases of eruption are characterized by pyroclastic flows. The tephra deposits have lower volume and range than the corresponding Plinian and Vulcanian eruptions. The viscous magma then forms a steep-sided dome or volcanic spine in the volcano's vent. The dome may later collapse, resulting on flows of ash and hot blocks. The eruption cycle is usually completed in few years, but in some cases may continue for decades, like in the case of Santiaguito. [1]

The 1902 explosion of Mount Pelee is the first described case of a Pelean eruption, and gave it its name.

Some other examples are the 1948-1951 eruption of Hibok Hibok, the 1951 eruption of Mount Lamington which remains the most detailed observation of this kind, the 1956 eruption of Bezymianny, the 1968 eruption of Mayon Volcano and the 1980 eruption of Mt St Helens. [2]