Volcanic field

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https://en.wikipedia.org/wiki/Volcanic_field
The north face of Mount Garibaldi rises above The Table and Garibaldi Lake in the Garibaldi Lake volcanic field.

A volcanic field is an area of Earth's crust that is prone to localized volcanic activity. The type and number of volcanoes required to be called a "field" is not well-defined. [1] Volcanic fields usually consist of clusters of up to 100 volcanoes such as cinder cones. Lava flows may also occur. They may occur as a monogenetic volcanic field or a polygenetic volcanic field.

Description

Alexander von Humboldt observed in 1823 that geologically young volcanoes are not distributed uniformly across the Earth's surface, but tend to be clustered into specific regions. Young volcanoes are rarely found within cratons, but are characteristic of subduction zones, rift zones, or in ocean basins. Intraplate volcanoes are clustered along hotspot traces. [2]

Within regions of volcanic activity, volcanic fields are clusters of volcanoes that share a common magma source. [3] Scoria cones are particularly prone to cluster into volcanic fields, which are typically 30–80 kilometers (19–50 mi) in diameter and consist of several tens to several hundred individual cones. The unusually large Trans-Mexican Volcanic Belt has nearly 1000 cones covering an area of 60,000 square kilometers (23,000 sq mi). [4]

Examples

Karapınar Field in Turkey
SP Crater in the San Francisco volcanic field is a cinder cone with a basalt lava flow that extends for 4 miles (6 km).
El Muweilih Crater in Sudan with natron-rich clay on the crater floor

Canada

Mexico

United States

Others

References

  1. ^ Canon-Tapia, E (December 2017). "From 'Volcanic Field' to 'Volcanic Province': A Continuum of Spatial-Clustered Structures With Geological Significance or a Matter of Academic Snobbism?". NASA/ADS. 'Volcanic Field' is a term commonly used to describe a group of small, monogenetic and dominantly basaltic volcanoes, but that often includes groups of mixed monogenetic and polygenetic edifices. Besides ambiguities on the type of edifice that should be considered to form a VF, there is a lack of agreement concerning the number of volcanoes required to define a VF (ranging from five to over 1000), it is uncertain if the area covered by the volcanoes forming a VF must have a minimum number of volcanoes/unit area, or if the distance between adjacent structures needs to have a specific length. Furthermore, in many cases it is uncertain whether some area is occupied by two adjacent fields or if it is occupied by two subgroups belonging to a unique field.
  2. ^ Schmincke, Hans-Ulrich (2003). Volcanism. Berlin: Springer. pp. 17–19. ISBN  9783540436508.
  3. ^ "Volcanic Fields". Capulin Volcano. National Park Service. Retrieved 27 October 2020.
  4. ^ Schmincke 2003, p.100

See also