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Loloru

Compound volcano · Papua New Guinea · 1887m

The summit of Loloru on SE Bougainville Island has two nested calderas and forested lava dome within the younger one. Loloru is constructed within the 10 x 15 km Pleistocene Laluai caldera; part of the rim of this outer caldera is seen at the lower right. Pyroclastic flow deposits from the volcano cover much of the southern part of the island. The most recent of several major Holocene explosive eruptions took place about 3,000 years ago.
The summit of Loloru on SE Bougainville Island has two nested calderas and forested lava dome within the younger one. Loloru is constructed within the 10 x 15 km Pleistocene Laluai caldera; part of the rim of this outer caldera is seen at the lower right. Pyroclastic flow deposits from the volcano cover much of the southern part of the island. The most recent of several major Holocene explosive eruptions took place about 3,000 years ago. · Photo: Photo by Wally Johnson, 1988 (Australia Bureau of Mineral Resources). · Wikimedia Commons
Type
Compound volcano
Country
Papua New Guinea
Region
Southwestern Pacific Volcanic Regions / Bougainville Volcanic Arc
Elevation
1887m
Coordinates
-6.520, 155.620
Last eruption
-1050
Tectonic setting
Subduction zone / Crustal thickness unknown
Landform
Composite
Major rock type
Andesite / Basaltic Andesite
Geological summary

Loloru, the SE-most volcano on Bougainville Island, is the source of a broad ignimbrite apron that covers much of the southern part of the island. The summit consists of two nested calderas, and a forested andesitic lava dome that restricts a crescent-shaped lake to the eastern side of the younger caldera. The smooth flanks of the pyroclastic shield are dissected by radiating deep valleys. A pristine lava flow occurs on the SE flank. Loloru is constructed within the 10 x 15 km Pleistocene Laluai caldera. The topographically higher Taroka group of volcanoes to the NW and the Takuan group to the north also were constructed within the caldera and deflected the bulk of Loloru ignimbrites to the south. The most recent of several major Holocene explosive eruptions took place about 3,000 years ago.

Eruption history

Summary (VEI over time)
Click a bar to see individual eruptions
6950 BCE~6753 BCE · 1 eruptions · max VEI ?4197 BCE~4000 BCE · 1 eruptions · max VEI ?3213 BCE~3017 BCE · 1 eruptions · max VEI ?2230 BCE~2033 BCE · 1 eruptions · max VEI ?1443 BCE~1247 BCE · 1 eruptions · max VEI ?1247 BCE~1050 BCE · 1 eruptions · max VEI ?6950 BCE5573 BCE4000 BCE2623 BCE1247 BCE

Detailed timeline

  1. 1050 BCEVEI ?Geological estimate
    BCE 1050 – Ongoing
  2. 1260 BCE (±300 yrs)VEI ?Geological estimate
    BCE 1260 – Ongoing
  3. 2150 BCEVEI ?Geological estimate
    BCE 2150 – Ongoing
  4. 3150 BCEVEI ?Geological estimate
    BCE 3150 – Ongoing
  5. 4150 BCEVEI ?Geological estimate
    BCE 4150 – Ongoing
  6. 6950 BCEVEI ?Geological estimate
    BCE 6950 – Ongoing

External links

⚠ For reference only. Not for emergency response.