Volcanic plateau: Difference between revisions
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Pyroclastic plateaus are produced by massive [[pyroclastic flow]]s. They are underlain by [[pyroclastic rock]]s: [[agglomerate]]s, [[tephra]], [[volcanic ash]]es cemented into [[tuff]]s, [[mafic]] or [[felsic]]. Pyroclastic plateaus are also called [[ignimbrite]] plateaus. |
Pyroclastic plateaus are produced by massive [[pyroclastic flow]]s. They are underlain by [[pyroclastic rock]]s: [[agglomerate]]s, [[tephra]], [[volcanic ash]]es cemented into [[tuff]]s, [[mafic]] or [[felsic]]. Pyroclastic plateaus are also called [[ignimbrite]] plateaus. |
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Examples include [[Shirasu-Daichi]] which |
Examples include the [[Shirasu-Daichi]], which makes up almost all of southern [[Kyushu|Kyūshū]], [[Japan]]<ref>{{cite web|url=http://www.glgarcs.rgr.jp/intro/kys.html|title=Kyushu -- GLGArcs|website=www.glgarcs.rgr.jp}}</ref>, and the [[North Island Volcanic Plateau]] in [[New Zealand]]. |
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== See also == |
== See also == |
Revision as of 05:05, 17 February 2024
A volcanic plateau is a plateau produced by volcanic activity. There are two main types: lava plateaus and pyroclastic plateaus.
Lava plateau
Lava plateaus are formed by highly fluid basaltic lava during numerous successive eruptions through numerous vents without violent explosions (quiet eruptions). These eruptions are quiet because of low viscosity of lava, so that it is very fluid and contains a small amount of trapped gases. The resulting sheet lava flows may be extruded from linear fissures or rifts or gigantic volcanic eruptions through multiple vents characteristic of the prehistoric era which produced giant flood basalts. Multiple successive and extensive lava flows cover the original landscape to eventually form a plateau, which may contain lava fields, cinder cones, shield volcanoes and other volcanic landforms. In some cases, a lava plateau may be part of a single volcano. An example is the massive Level Mountain shield volcano in northern British Columbia, Canada, which covers an area of 1,800 km2 (690 sq mi) and a volume of 860 km3 (210 cu mi).[1]
Perhaps the most extensive of all the subaerial basaltic plateaus existed during the Paleogene[2] and possibly extended over 1,800,000 km2 (690,000 sq mi) of the northern Atlantic Ocean region. This region, known as the Thulean Plateau, is generally believed to have been broken up by foundering of the Earth's crust to form the present ocean basin.
Earth features numerous subaerial and submarine volcanic plateaus such as the Columbia River Plateau (subaerial) and the vast Ontong Java Plateau (submarine).
Pyroclastic plateau
Pyroclastic plateaus are produced by massive pyroclastic flows. They are underlain by pyroclastic rocks: agglomerates, tephra, volcanic ashes cemented into tuffs, mafic or felsic. Pyroclastic plateaus are also called ignimbrite plateaus.
Examples include the Shirasu-Daichi, which makes up almost all of southern Kyūshū, Japan[3], and the North Island Volcanic Plateau in New Zealand.
See also
- Lava field – Large, mostly flat area of lava flows
References
- ^ Wood, Charles A.; Kienle, Jürgen (2001). Volcanoes of North America: United States and Canada. Cambridge, England: Cambridge University Press. p. 121. ISBN 978-0-521-43811-7. OCLC 27910629.
- ^ Brittle tectonism in relation to the Palaeogene evolution of the Thulean/NE Atlantic domain: a study in Ulster Retrieved on 2007-11-10
- ^ "Kyushu -- GLGArcs". www.glgarcs.rgr.jp.