Earth:Rhyodacite

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Short description: Volcanic rock rich in silica and low in alkali metal oxides
A sample of rhyodacite from Slovakia

Rhyodacite is a volcanic rock intermediate in composition between dacite and rhyolite. It is the extrusive equivalent of those plutonic rocks that are intermediate in composition between monzogranite and granodiorite. Rhyodacites form from rapid cooling of lava relatively rich in silica and low in alkali metal oxides.

Description

QAPF diagram with the approximate location of rhyodacite highlighted
TAS diagram with the approximate location of rhyodacite highlighted

Under IUGS guidelines, rhyodacites are not formally defined in either the QAPF classification, used to classify igneous rocks by their mineral content, or the TAS classification, used to classify volcanic rocks chemically. However, the IUGS allows the use of the term to describe rocks close to the boundary between the rhyolite and dacite fields in each classification scheme. Rhyodacite then describes a fine-grained igneous rock containing between 20% and 60% quartz and in which plagioclase makes up about two-thirds of the total feldspar content.[1][2] Such a rock will contain between 69% and 72% silica by weight.[3]

The U.S. Geological Survey defines rhyodacite as volcanic rock containing 20% to 60% quartz and with plagioclase making up 35% to 65% of the total feldspar content. This makes rhyodacite the extrusive equivalent of monzogranite.[4]

In addition to its quartz and feldspar content, rhyodacite commonly contains phenocrysts of andesine, biotite, hornblende, and pyroxene. Quartz and sanidine phenocrysts are less common than in rhyolite, and rhyolite has only scant mafic phenocrysts.[5]

Occurrence

Like other silica-rich compositions, rhyodacites are more abundant as pyroclastic rock than as lava flows.[6] These include extensive ash flows and fallout sheets that are important stratigraphic markers.[5]

Rhyodacite lava flows occur in northwestern Ferry County (Washington),[4] and at An Sgùrr on the island of Eigg in Scotland.[7]

References

  1. "Rock Classification Scheme - Vol 1 - Igneous". British Geological Survey: Rock Classification Scheme 1: 1–52. 1999. http://nora.nerc.ac.uk/id/eprint/3223/1/RR99006.pdf. 
  2. Philpotts, Anthony R.; Ague, Jay J. (2009). Principles of igneous and metamorphic petrology (2nd ed.). Cambridge, UK: Cambridge University Press. pp. 139–143. ISBN 9780521880060. 
  3. Goff, Fraser; Gardner, Jamie N.; Reneau, Steven L.; Kelley, Shari A.; Kempter, Kirt A.; Lawrence, John R. (2011). "Geologic map of the Valles caldera, Jemez Mountains, New Mexico". New Mexico Bureau of Geology and Mineral Resources Map Series 79: V13C–2606. Bibcode2011AGUFM.V13C2606G. https://geoinfo.nmt.edu/publications/maps/geologic/gm/79/. Retrieved 18 May 2020. 
  4. 4.0 4.1 "Geologic units containing rhyodacite". usgs.gov. http://mrdata.usgs.gov/geology/state/sgmc-lith.php?text=rhyodacite. 
  5. 5.0 5.1 Fisher, Richard V. (1984). Pyroclastic rocks. Berlin: Springer-Verlag. p. 22. ISBN 3540127569. 
  6. Troll, Valentin R.; Donaldson, Colin H.; Emeleus, C. Henry. (2004-08-01). "Pre-eruptive magma mixing in ash-flow deposits of the Tertiary Rum Igneous Centre, Scotland" (in en). Contributions to Mineralogy and Petrology 147 (6): 722–739. doi:10.1007/s00410-004-0584-0. ISSN 1432-0967. Bibcode2004CoMP..147..722T. https://doi.org/10.1007/s00410-004-0584-0. 
  7. Emeleus, C.H. and Bell, B.R. (2005) British Regional Geology: The Palaeogene Volcanic Districts of Scotland, 4th edition, Nottingham, British Geological Survey, page 77




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