Amalia Tuff

The Amalia Tuff is a geologic formation exposed in and around Questa, New Mexico.[1] It has a radiometric age of 25.39 ± 0.04 million years, corresponding to the Oligocene epoch.[2]

Amalia Tuff
Stratigraphic range: Oligocene, 26–23 Ma
A fragment of Amalia Tuff from an outcropping near Petaca, New Mexico
TypeGeologic formation
Thickness2,500 m (8,200 ft)
Lithology
PrimaryIgnimbrite
Location
Coordinates36°56′45″N 105°27′45″W
Region New Mexico
Country United States
Type section
Named forAmalia Post Office
Named byP.F. McKinlay
Year defined1956

Description

The Amalia Tuff is a weakly to densely welded ash-flow tuff erupted during the formation of the Questa caldera 25.39 ± 0.04 million years ago (Ma),[2] which erupted some 500–1,000 cubic kilometres (120–240 cu mi) of magma.[3] It originally formed an outflow sheet 20–50 meters (66–164 feet) thick[1] that extended as far as 45 kilometres (28 miles) to the southwest and 25 kilometres (16 miles) to the northeast. Within the caldera the tuff pooled to a depth of 1,000–2,000 meters (3,300–6,600 feet). The tuff appears to be a single cooling unit.[4]

The tuff is silicic and alkaline, though its silica content of 77-80% likely reflects some secondary silicification. It contains 10-20% quartz and alkali feldspar phenocrysts. Rare occurrences of a vitrophyric tuff at the base of the main bed contain ferrohedenbergite and fayalite, while the upper beds sometimes preserve sodic amphibole phenocrysts. The intracaldera tuff contains lenticular megabreccia blocks up to 1,000 meters (0.62 miles) across. The tuff includes a lithic-rich lower facies that is nonwelded to partially welded and up to 30 meters (98 feet) thick. This contains up to 5% andesite and sparse Proterozoic rock fragments. This grades into the main bed of the formation.[1]

Ar-Ar dating of the tuffs and associated plutons indicates the magma that formed the tuff was not generated in situ in the upper crust.[2] Isotope evidence suggests the original basaltic magma assimilated considerable crust material and underwent crystal fractionation at a deeper level of the crust than that of the magma chamber responsible for the Questa eruption.[5]

History of investigation

The unit was first designated the Amalia Formation in 1956 by P.F. McKinlay. [6] As originally defined, it included basalt flows and sedimentary beds dating from before the Questa eruption. These were removed from the unit definition by Lipman in 1983, who restricted the unit to the densely welded tuff outflow sheet from the Questa eruption and renamed the unit the Amalia Tuff.[4]

Footnotes

References

  • Johnson, Clark M.; Lipman, Peter W. (September 1988). "Origin of metaluminous and alkaline volcanic rocks of the Latir volcanic field, northern Rio Grande rift, New Mexico". Contributions to Mineralogy and Petrology. 100 (1): 107–128. doi:10.1007/BF00399442.
  • Johnson, C.M.; Shannon, J.R.; Fridrich, C.J. (1989). "Roots of ignimbrite calderas: Batholithic plutonism, volcanism, and mineralization in the Southern Rocky Mountains, Colorado and New Mexico". New Mexico Bureau of Mines and Mineral Resources Memoir. 46: 275–302.
  • Lipman, P.W. (1983). "The Miocene Questa Caldera, northern New Mexico; relation to batholith emplacement and associated molybdenum mineralization". In Babcock, J.W. (ed.). The genesis of Rocky Mountain ore deposits; changes with time and tectonics. Society of Exploration Geologists. pp. 133–148. Retrieved 26 July 2020.
  • Lipman, P.W.; Reed, J.C., Jr. (1989). "Geologic map of the Latir volcanic field and adjacent areas, northern New Mexico" (PDF). U.S. Geological Survey Miscellaneous Investigations Series Map. I-1907. Retrieved 26 July 2020.
  • McKinlay, P.F. (1956). "Geology of the Costilla and Latir Peak quadrangles, Taos County, New Mexico" (PDF). New Mexico Bureau of Mines and Mineral Resources Bulletin. 42. Retrieved 11 November 2020.
  • Zimmerer, M. J.; McIntosh, W. C. (18 May 2012). "The geochronology of volcanic and plutonic rocks at the Questa caldera: Constraints on the origin of caldera-related silicic magmas". Geological Society of America Bulletin. 124 (7–8): 1394–1408. doi:10.1130/B30544.1.
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