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Mount Norikura

Norikuradake

Stratovolcano · Japan · 3026m

The summit of Norikura contains many small peaks and craters. The E (right) side of Enkodake (center) contains Kamegaike crater. Tsurugaike crater contains the pond in the center of the photo. The latest activity occurred during the Holocene and a recent eruption took place at the summit crater of Ichinoike.
The summit of Norikura contains many small peaks and craters. The E (right) side of Enkodake (center) contains Kamegaike crater. Tsurugaike crater contains the pond in the center of the photo. The latest activity occurred during the Holocene and a recent eruption took place at the summit crater of Ichinoike. · Photo: Photo by Lee Siebert, 1977 (Smithsonian Institution). · Wikimedia Commons
Type
Stratovolcano
Country
Japan
Region
Western Pacific Volcanic Regions / Nankai Volcanic Arc
Elevation
3026m
Coordinates
36.106, 137.554
Last eruption
-50
Tectonic setting
Subduction zone / Continental crust (> 25 km)
Landform
Composite
Major rock type
Andesite / Basaltic Andesite
Geological summary

Norikuradake volcano consists of an elongated group of small andesitic stratovolcanoes and craters arranged along a N-S line above a ridge crest in the southern part of the Northern Japan Alps. The 3026-m-high andesitic-to-dacitic volcano is the third highest in Japan and lies at the center of the Norikura volcanic zone extending from Yakedake on the north to Ontake on the south. Early eruptions occurred at both the northern and southern ends of the present-day volcano, forming stratovolcanoes that have been largely buried by later southward-migrating eruptions. It was active during the early Holocene, and the last eruption took place about 2000 years ago.

From Wikipedia

Mount Norikura is a potentially active volcano located on the borders of Gifu and Nagano prefectures in Japan. It is part of the Hida Mountains and is listed among the 100 Famous Japanese Mountains and the New 100 Famous Japanese Mountains.

Wikipedia · CC BY-SA · Read full article

Eruption history

Summary (VEI over time)
Click a bar to see individual eruptions
7700 BCE~7445 BCE · 1 eruptions · max VEI 37445 BCE~7190 BCE · 1 eruptions · max VEI 3305 BCE~50 BCE · 1 eruptions · max VEI 37700 BCE5915 BCE3875 BCE2090 BCE305 BCE

Detailed timeline

  1. 50 BCEVEI 3Geological estimate
    BCE 50 – Ongoing
  2. 7250 BCE (±150 yrs)VEI 3Geological estimate
    BCE 7250 – Ongoing
    Ichino-ike
  3. 7700 BCE (±150 yrs)VEI 3Geological estimate
    BCE 7700 – Ongoing
    Kengamine

External links

⚠ For reference only. Not for emergency response.