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Megata

Maar · Japan · 160m

Sannomegata (center), seen here from the NW with Toga bay in the foregound, is one of three small Megata maars along the tip of the Oga Peninsula. Lakes 300-700 m wide fill the maars, which are noted localities for mantle-derived xenoliths and are located immediately E and S of Toga Bay.
Sannomegata (center), seen here from the NW with Toga bay in the foregound, is one of three small Megata maars along the tip of the Oga Peninsula. Lakes 300-700 m wide fill the maars, which are noted localities for mantle-derived xenoliths and are located immediately E and S of Toga Bay. · Photo: Copyrighted photo by Hiroshi Yagi (Japanese Quaternary Volcanoes database, RIODB, http://riodb02.ibase.aist.go.jp/strata/VOL_JP/EN/index.htm and Geol Surv Japan, AIST, http://www.gsj.jp/). · Wikimedia Commons
Type
Maar
Country
Japan
Region
Northwestern Pacific / Northeast Japan Volcanic Arc
Elevation
160m
Coordinates
39.950, 139.725
Last eruption
-2050
Tectonic setting
Subduction zone / Continental crust (> 25 km)
Landform
Minor (Basaltic)
Major rock type
Andesite / Basaltic Andesite
Geological summary

Megata, a group of three small maars along the tip of the Oga Peninsula in NW Honshu, has been active during the Holocene (Ishikawa et al., 1957). Lakes 300-600 m wide fill the basaltic-to-dacitic maars, which are a noted locality for mantle-derived xenoliths. Ichinomegata, the easternmost, largest, and oldest of the three maars, is 600 m in diameter. Ninomegata and Sannomegata are located immediately E and S of Toga Bay, which itself is a maar. The rim of the rhyolitic Toga (Togowan) maar, larger than the Megata maars, is breached by the sea on the western side and was formed about 450,000 years ago. The Megata maars are mostly late Pleistocene in age, but Murayama (1987) noted that pottery from roughly 4,000 years before present (Jomon Period) has been found within tephra layers from the maars.

Eruption history

Summary (VEI over time)
Click a bar to see individual eruptions
7050 BCE~6850 BCE · 1 eruptions · max VEI ?2250 BCE~2050 BCE · 1 eruptions · max VEI ?7050 BCE5850 BCE4650 BCE3450 BCE2250 BCE

Detailed timeline

  1. 2050 BCEVEI ?Geological estimate
    BCE 2050 – Ongoing
  2. 7050 BCEVEI ?Geological estimate
    BCE 7050 – Ongoing

External links

⚠ For reference only. Not for emergency response.