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Tateyama Volcano

Midagahara

Stratovolcano · Japan · 2621m

Lake-filled Mikurigaike crater is part of Tateyama, an eroded stratovolcano on a plateau surrounded by the granite and gneiss peaks of the North Japan Alps. Formation of a 4-km-wide caldera was followed by Pleistocene eruptions of lava and pyroclastics forming a plateau that was later eroded by the Yukawa river. Holocene eruptions have been restricted to small phreatic explosions that formed craters such as the one seen here.
Lake-filled Mikurigaike crater is part of Tateyama, an eroded stratovolcano on a plateau surrounded by the granite and gneiss peaks of the North Japan Alps. Formation of a 4-km-wide caldera was followed by Pleistocene eruptions of lava and pyroclastics forming a plateau that was later eroded by the Yukawa river. Holocene eruptions have been restricted to small phreatic explosions that formed craters such as the one seen here. · Photo: Photo by Ichio Moriya, 1992 (Kanazawa University). · Wikimedia Commons
Type
Stratovolcano
Country
Japan
Region
Western Pacific Volcanic Regions / Nankai Volcanic Arc
Elevation
2621m
Coordinates
36.571, 137.590
Last eruption
1839
Tectonic setting
Subduction zone / Continental crust (> 25 km)
Landform
Composite
Major rock type
Andesite / Basaltic Andesite
Geological summary

Midagahara volcano is a dissected andesitic-to-dacitic stratovolcano on a plateau surrounded by high peaks of the North Japan Alps. The granite-and-gneiss peak of Tateyama lies immediately to the east. Formation of a 4-km-wide erosional caldera was followed by repeated eruptions of lava and pyroclastics forming the Midagahara plateau that was later dissected by the Yukawa river. Holocene eruptions have been restricted to small phreatic explosions that formed craters. A minor historical eruption occurred in the 19th century. An earthquake swarm took place in 1990. Hot springs occur in seven locations on the floor of the poorly defined erosional caldera.

Eruption history

Summary (VEI over time)
Click a bar to see individual eruptions
7300 BCE~6995 BCE · 1 eruptions · max VEI ?3340 BCE~3035 BCE · 1 eruptions · max VEI ?903 BCE~598 BCE · 1 eruptions · max VEI ?620~925 · 1 eruptions · max VEI ?1534~1839 · 2 eruptions · max VEI 27300 BCE5168 BCE2730 BCE598 BCE1534

Detailed timeline

  1. 1839VEI 2Observed
    1839-06-10 – Ongoing
    Jigoku-dani
  2. 1836VEI 1Observed
    1836-07-09 – Ongoing
    Jigoku-dani
  3. 704VEI ?Geological estimate
    704 – Ongoing
  4. 900 BCEVEI ?Geological estimate
    BCE 900 – Ongoing
    Jigoku-dani
  5. 3200 BCE (±2100 yrs)VEI ?Geological estimate
    BCE 3200 – Ongoing
    Jigoku-dani
  6. 7300 BCE (±1000 yrs)VEI ?Geological estimate
    BCE 7300 – Ongoing
    Jigoku-dani

External links

⚠ For reference only. Not for emergency response.