Aso Caldera

Last updated
Aso Caldera
Aso Volcano, Asosan
Aso Caldera 3D 2012.jpg
Aso Caldera
Highest point
PeakTakadake, 32°53′03″N131°06′14″E / 32.88417°N 131.10389°E / 32.88417; 131.10389
Elevation 1,592 m (5,223 ft)
Coordinates 32°53′02″N131°06′14″E / 32.884°N 131.104°E / 32.884; 131.104 [1]
Dimensions
Length25 km (16 mi)NS
Width18 km (11 mi)EW
Naming
Native name阿蘇カルデラ (Japanese)
Geography
Japan natural location map with side map of the Ryukyu Islands.jpg
Red triangle with thick white border.svg
Aso Caldera
Kumamoto, Japan
CountryJapan
State Kumamoto Prefecture
Region Aso District, Aso City, Takamori
Geology
Rock age Pleistocene onwards
Mountain type(s) Caldera
Somma volcano
Rock type(s) Dacite, Andesite [2]
Last eruption 2021 CE [3]

Aso caldera (also known as Asosan, the Aso Volcano or Mount Aso , although the later term usually is used related to its currently active vents) is a geographical feature of Kumamoto Prefecture, Japan. It stretches 25 kilometers north to south and 18 kilometers east to west. The central core "Aso Gogaku" is the five major mountains in the area. Aso valley (Asodani) runs along the northern base of Mount Aso and Nango valley (Nangodani) along the south. According to research of caldera sediment, lakes used to exist in these valleys. The dried up lake areas have come to be called Old Aso Lake, Kugino Lake, and Aso Valley Lake. The Kikuchi, Shirakawa and Kurokawa rivers now drain the caldera. [4]

Contents

Geology

Within the caldera are more than 17 cones. [5] The central "Aso Gogaku" group of volcanoes are Takadake (Mount Taka) at 1,592 m (5,223 ft), Nekodake at 1,433 m (4,701 ft), Nakadake (Mount Naka) at 1,506 m (4,941 ft), Kijimadake at 1,321 m (4,334 ft) and Eboshidake at 1,337 m (4,386 ft). [4] These are higher than the caldera rim itself that towards the south west is 1,236 m (4,055 ft) high. [2] Other volcanic features include Kishimadake (Mount Kishima), Kusasenrigahama, Komezuka, a scoria cone, Ikenokubo maar, a tuff ring and Takanooban, a lava dome. [4] The currently active Nakadake has seven craters roughly aligned in a north–south direction with most recent eruptions being from the northernmost first crater of Nakadake which has hydrothermal reservoirs beneath it at about 1 km (0.62 mi) to 2.5 km (1.6 mi) depth. [5] Presently there is a roughly spherical magma chamber at a depth of 6 km (3.7 mi), and flattened at 10 km (6.2 mi) located between Kishimadake, Eboshidake, and Nakadake with the magmatic source beneath the center of Aso caldera. [5] Magma migrates diagonally upward from approximately 17 km (11 mi) depth through a northward-dipping magma-filled crack propagation zone, then into the shallow magma reservoirs mentioned already and during eruptions into an upright crack intrusion zone at 2–4 km (1.2–2.5 mi) depth. [6] There are many geothermal areas including centrally the Jigoku or "hell" Onsen and Tarutama hot springs and in the northern part, the Uchinomaki hot springs. [4]

Formation

Immediate impact of the Aso Caldera forming eruption. The pink pyroclastic flow although sterilising was modified by landforms more than this figure suggests, but 15 cm tephra contour did have significant impact on all higher life forms. Aso-4 tephra 90-85ka.svg
Immediate impact of the Aso Caldera forming eruption. The pink pyroclastic flow although sterilising was modified by landforms more than this figure suggests, but 15 cm tephra contour did have significant impact on all higher life forms.

The caldera formed from four major pyroclastic flow events which occurred between 90,000 and 270,000 years ago. The largest of these was the fourth, which reached as far as nearby Yamaguchi Prefecture 160 kilometers away. The fourth eruption left a massive pyroclastic plateau which is what remains even today. In 1985 it was discovered that volcanic ash from the fourth eruption covered much of the Japanese islands. The eruptive volume of the fourth eruption is estimated to be 384 km3 (92 cu mi) dense-rock equivalent (DRE). [7] Ashfall deposit greater than 15 cm (5.9 in) deep was identified on Hokkaido Island about 1,500 km (930 mi) to the north. [6]

Aerial view of Aso Caldera Mt. Aso, Japan.jpg
Aerial view of Aso Caldera
Central cones of Aso volcano from their north east 20140516A Su Shan Guang Yu .jpg
Central cones of Aso volcano from their north east
Central cones of Aso volcano as seen from the north Mt.Aso and caldera01.jpg
Central cones of Aso volcano as seen from the north
Central cones of Aso volcano as seen from the south near Takamori MtAso from Takamori.jpg
Central cones of Aso volcano as seen from the south near Takamori
View of the Central cones of Aso volcano with Nakadake steaming Aso-zan-nakadake.JPG
View of the Central cones of Aso volcano with Nakadake steaming
Nekodake, the most western Central cone within the Aso Caldera Mt.nekodake.jpg
Nekodake, the most western Central cone within the Aso Caldera

Eruptions

Aso volcano has been active at intervals of approximately 10–20 years with the most active cone in recorded history being Nakadake located in the center of the caldera. [5] It has been active since the sixth century. [6] Eruptions occurred from November 2014 to May 2015, with two major phreatomagmatic eruptions on September 14, 2015, and October 8, 2016. [5] Eruptive activity occurred on 20 October 2021. [3]

Main eruption ages and eruption volume (DRE (dense-rock equivalent) is the equivalent magma eruption volume. The volume of erupted products is much higher): [8]

  • Aso-1: About 266,000 years ago, [9] erupted 32 km3 (7.7 cu mi) DRE. [7]
  • Aso-2: About 141,000 years ago, [9] erupted 32 km3 (7.7 cu mi) DRE. [7]
  • Aso-3: About 130,000 years ago, [10] erupted 96 km3 (23 cu mi) DRE. [7]
  • Aso-4: About 90,000 years ago, erupted 384 km3 (92 cu mi) DRE [7] which was at least VEI 7.
  • Nojiri pumice about 84,000 years ago erupted 1 km3 (0.24 cu mi) DRE. [11]
  • Kusasenrigahama Pumice from Kusasenrigahama at approximately 30,000 years ago [5] erupted 1 km3 (0.24 cu mi) DRE at VEI 5 [11]
  • Jigoku spa about 8,050 BCE, Ikph2 tephra [8] [1]
  • Janoo before 5,300 BCE Tephta and scora cone [8]
  • Nakadake 5,300 to 12,000 BCE tephra falls [8]
  • near Janoo about 5,300 BCE Akamizu lava flow [8]
  • Near Ikenokubo about 5,300 BCE tuff ring [8]
  • Jigoku Onsen 3,000 to 4,400 BCE tephra, Ikph1 tephra [8] [1]
  • Nakadake 3,000 to 4,400 BCE tephra falls [8]
  • Nakadake 4,000 to 3,000 BCE tephra falls [8]
  • Unknown vent near Janoo, 2150 BCE Aso central cone No. 1 pumice, ACP-1 tephra [1]
  • Kishimadake 2,050 BCE >0.02 km3 (0.0048 cu mi) DME VEI 4, KsS tephra [8] [1]
  • Nakadake 1,600 to 2,000 BCE tephra falls [8]
  • Ojodake 1,650 BCE >0.02 km3 (0.0048 cu mi) DME VEI 4, OjS tephra [8] [1]
  • Komezuka, Kamikomezuka 1,350 BCE tephra 0.05 km3 (0.012 cu mi) DME [8]
  • Unknown Aso 1270 ± 75 BCE [1]
  • Western central cones debris avalanche 100 CE to 400 BCE [8]
  • Nakadake 630 ± 50 BCE tephra falls [8]
  • Nakadake 440 ± 75 CE N2S tephra fall [8] [1]
  • See timeline for eruptions in historic written record (KEY-pink if confined to volcano, red tephra fall, magenta human deaths)

Tectonics

There are multiple active faults both under the volcano and adjacent on this area of the Amur Plate. The Okinawa Plate collides with the Amur Plate to the south and the Pacific Plate is subducting under both. The caldera is located where two volcanic lines intersect, being those in the Central Kyushu Rift Valley with volcanoes of Mount Yufu, in Oita Prefecture, through the Kuju volcanoes and Aso Caldera, and on to Mount Unzen and line that runs from Aso Caldera to the Kirishima volcanic group, Aira Caldera, Ata Caldera, and on to the Kikai Caldera. [4] The high resolution Bouguer gravity imaging of Kyushu has confirmed the caldera to be piston rather than funnel shaped, as originally proposed, and related to known active faults and in particular the gravity gradient zone of the Aso Caldera is part of the Oita-Kumamoto Tectonic Line (OKTL) gravity gradient zone and this appears to connect with the Japan Median Tectonic Lines gravity gradient zone, strengthening the evidence that the lines are closely related tectonic features. [12]

Size and other context

In Japan, the caldera forming Lake Kussharo, which measures 26 by 20 km (16 by 12 mi), is larger than Aso caldera leaving it the second largest in Japan. It is not rare to see calderas of this scale; however, to see calderas with an interior stable enough to cultivate land, build highways and lay railroads is quite rare. The caldera contains the city of Aso as well as the town and village of Takamori and Minamiaso.

Timeline

Aso Caldera

Related Research Articles

A caldera is a large cauldron-like hollow that forms shortly after the emptying of a magma chamber in a volcanic eruption. An eruption that ejects large volumes of magma over a short period of time can cause significant detriment to the structural integrity of such a chamber, greatly diminishing its capacity to support its own roof, and any substrate or rock resting above. The ground surface then collapses into the emptied or partially emptied magma chamber, leaving a large depression at the surface. Although sometimes described as a crater, the feature is actually a type of sinkhole, as it is formed through subsidence and collapse rather than an explosion or impact. Compared to the thousands of volcanic eruptions that occur over the course of a century, the formation of a caldera is a rare event, occurring only a few times within a given window of 100 years. Only eight caldera-forming collapses are known to have occurred between 1911 and 2018, with a caldera collapse at Kīlauea, Hawaii in 2018. Volcanoes that have formed a caldera are sometimes described as "caldera volcanoes".

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References

  1. 1 2 3 4 5 6 7 8 "Asosan |Global Volcanism Program | Smithsonian Institution". volcano.si.edu. Retrieved 2022-09-25.
  2. 1 2 "Aso Caldera" . Retrieved 2022-09-25.
  3. 1 2 "Mount Aso in Kumamoto erupts". nhk.or.jp. Retrieved October 20, 2021.
  4. 1 2 3 4 5 "Aso GeoPark Annex 2:Geological Heritage" (PDF). Retrieved 2022-09-25.
  5. 1 2 3 4 5 6 Huang, YC; Ohkura, T.; Kagiyama, T. (2018). "Shallow volcanic reservoirs and pathways beneath Aso caldera revealed using ambient seismic noise tomography". Earth Planets Space. 70 (169): 169. Bibcode:2018EP&S...70..169H. doi: 10.1186/s40623-018-0941-2 . hdl: 2433/245903 .
  6. 1 2 3 Hata, M.; Matsushima, N.; Takakura, S.; Utsugi, M.; Hashimoto, T.; Uyeshima, M. (2018). "Three-Dimensional Electrical Resistivity Modeling to Elucidate the Crustal Magma Supply System Beneath Aso Caldera, Japan". Journal of Geophysical Research: Solid Earth. 123 (8): 6334. Bibcode:2018JGRB..123.6334H. doi:10.1029/2018JB015951. S2CID   135216076.
  7. 1 2 3 4 5 阿蘇カルデラ. 産総研
  8. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 "Asosan: National catalogue of the active volcanoes in Japan" (PDF). Retrieved 2022-09-25.
  9. 1 2 阿蘇火砕流について Archived 2021-10-23 at the Wayback Machine 熊本県高等学校教育研究会 地学部会
  10. 下山正一、低平地地下における阿蘇3火砕流堆積物(Aso-3)の年代について 佐賀大学低平地防災研究センター編 低平地研究 Vol.10 p.31-38
  11. 1 2 Miyabuchi, Yasuo (2009). "A 90,000-year tephrostratigraphic framework of Aso Volcano, Japan". Sedimentary Geology. 220 (3–4): 169–189. Bibcode:2009SedG..220..169M. doi:10.1016/j.sedgeo.2009.04.018. ISSN   0037-0738.
  12. Shichi, R.; Yamamoto, A.; Kudo, T.; Murata, Y.; Nawa, Kazunari; Komazawa, Masao; Nakada, M.; Miyamachi, H.; Komuro, Hitoshi; Fukuda, Yoichi; Higashi, T.; Yusa, Y. (2005). "A Gravity Database of Southwest Japan: Application to Bouguer Gravity Imaging in Kyushu District, Southwest Japan". A Window on the Future of Geodesy. International Association of Geodesy Symposia. Vol. 128. pp. 236–241. doi:10.1007/3-540-27432-4_40. ISBN   3-540-24055-1.
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