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Rhyolite

April 25, 2024

For other uses, see Rhyolite (disambiguation).

Rhyolite (/ˈr.əlt/ RY-ə-lyte)[1][2][3][4] is the most silica-rich of volcanic rocks. It is generally glassy or fine-grained (aphanitic) in texture, but may be porphyritic, containing larger mineral crystals (phenocrysts) in an otherwise fine-grained groundmass. The mineral assemblage is predominantly quartz, sanidine, and plagioclase. It is the extrusive equivalent of granite.

Rhyolite
Igneous rock
Composition
ClassificationFelsic
PrimaryQuartz and alkali feldspar (sanidine and sodic plagioclase)
SecondaryBiotite and hornblende
TextureGlassy or aphanitic, sometimes porphyritic

Its high silica content makes rhyolitic magma extremely viscous. This favors explosive eruptions over effusive eruptions, so this type of magma is more often erupted as pyroclastic rock than as lava flows. Rhyolitic ash-flow tuffs are among the most voluminous of continental igneous rock formations.

Rhyolitic tuff has been used extensively for construction. Obsidian, which is rhyolitic volcanic glass, has been used for tools from prehistoric times to the present day because it can be shaped to an extremely sharp edge. Rhyolitic pumice finds use as an abrasive, in concrete, and as a soil amendment.

Description edit

 
QAPF diagram with rhyolite field highlighted
 
TAS diagram with rhyolite field highlighted

Rhyolite is an extrusive igneous rock, formed from magma rich in silica that is extruded from a volcanic vent to cool quickly on the surface rather than slowly in the subsurface. It is generally light in color due to its low content of mafic minerals, and it is typically very fine-grained (aphanitic) or glassy.[5]

An extrusive igneous rock is classified as rhyolite when quartz constitutes 20% to 60% by volume of its total content of quartz, alkali feldspar, and plagioclase (QAPF) and alkali feldspar makes up 35% to 90% of its total feldspar content. Feldspathoids are not present. This makes rhyolite the extrusive equivalent of granite. However, while the IUGS recommends classifying volcanic rocks on the basis of their mineral composition whenever possible, volcanic rocks are often glassy or so fine-grained that mineral identification is impractical. The rock must then be classified chemically based on its content of silica and alkali metal oxides (K2O plus Na2O). Rhyolite is high in silica and total alkali metal oxides, placing it in the R field of the TAS diagram.[6][7][8][9]: 140–146 

The alkali feldspar in rhyolites is sanidine or, less commonly, orthoclase. It is rarely anorthoclase. These feldspar minerals sometimes are present as phenocrysts. The plagioclase is usually sodium-rich (oligoclase or andesine). Cristobalite and trydimite are sometimes present along with the quartz. Biotite, augite, fayalite, and hornblende are common accessory minerals.[5]

Geology edit

Due to their high content of silica and low iron and magnesium contents, rhyolitic magmas form highly viscous lavas.[9]: 23–26  As a result, many eruptions of rhyolite are highly explosive, and rhyolite occurs more frequently as pyroclastic rock than as lava flows.[10]: 22  Rhyolitic ash flow tuffs are the only volcanic product with volumes rivaling those of flood basalts.[9]: 77  Rhyolites also occur as breccias or in lava domes, volcanic plugs, and dikes.[11][12][9]: 71–72  Rhyolitic lavas erupt at a relatively low temperature of 800 to 1,000 °C (1,470 to 1,830 °F), significantly cooler than basaltic lavas, which typically erupt at temperatures of 1,100 to 1,200 °C (2,010 to 2,190 °F).[9]: 20 

Rhyolites that cool too quickly to grow crystals form a natural glass or vitrophyre, also called obsidian.[13] Slower cooling forms microscopic crystals in the lava and results in textures such as flow foliations, spherulitic, nodular, and lithophysal structures. Some rhyolite is highly vesicular pumice.[5]

Peralkaline rhyolites (rhyolites unusually rich in alkali metals) include comendite and pantellerite.[14] Peralkalinity has significant effects on lava flow morphology and mineralogy, such that peralkaline rhyolites can be 10–30 times more fluid than typical calc-alkaline rhyolites. As a result of their increased fluidity, they are able to form small-scale flow folds, lava tubes and thin dikes. Peralkaline rhyolites erupt at relatively high temperatures of more than 1,200 °C (2,190 °F). They comprise bimodal shield volcanoes at hotspots and rifts (e.g. Rainbow Range, Ilgachuz Range and Level Mountain in British Columbia, Canada).[15]

Eruptions of rhyolite lava are relatively rare compared to eruptions of less felsic lavas. Only four eruptions of rhyolite have been recorded since the start of the 20th century: at the St. Andrew Strait volcano in Papua New Guinea and Novarupta volcano in Alaska as well as at Chaitén and Cordón Caulle volcanoes in southern Chile.[16][17] The eruption of Novarupta in 1912 was the largest volcanic eruption of the 20th century,[18] and began with explosive volcanism that later transitioned to effusive volcanism and the formation of a rhyolite dome in the vent.[19]

Petrogenesis edit

Rhyolite magmas can be produced by igneous differentiation of a more mafic (silica-poor) magma, through fractional crystallization or by assimilation of melted crustal rock (anatexis). Associations of andesites, dacites, and rhyolites in similar tectonic settings and with similar chemistry suggests that the rhyolite members were formed by differentiation of mantle-derived basaltic magmas at shallow depths. In other cases, the rhyolite appears to be a product of melting of crustal sedimentary rock.[10]: 21  Water vapor plays an important role in lowering the melting point of silicic rock,[10]: 43  and some rhyolitic magmas may have a water content as high as 7–8 weight percent.[20][21]: 44 

High-silica rhyolite (HSR), with a silica content of 75 to 77·8% SiO2, forms a distinctive subgroup within the rhyolites. HSRs are the most evolved of all igneous rocks, with a composition very close to the water-saturated granite eutectic and with extreme enrichment in most incompatible elements. However, they are highly depleted in strontium, barium, and europium. They are interpreted as products of repeated melting and freezing of granite in the subsurface. HSRs typically erupt in large caldera eruptions.[22]

Occurrence edit

Rhyolite is common along convergent plate boundaries, where a slab of oceanic lithosphere is being subducted into the Earth's mantle beneath overriding oceanic or continental lithosphere. It can sometimes be the predominant igneous rock type in these settings. Rhyolite is more common when the overriding lithosphere is continental rather than oceanic. The thicker continental crust gives the rising magma more opportunity to differentiate and assimilate crustal rock.[23]

Rhyolite has been found on islands far from land, but such oceanic occurrences are rare.[24] The tholeiitic magmas erupted at volcanic ocean islands, such as Iceland, can sometimes differentiate all the way to rhyolite, and about 8% of the volcanic rock in Iceland is rhyolite. However, this is unusual, and the Hawaiian Islands (for example) have no known occurrences of rhyolite. The alkaline magmas of volcanic ocean islands will very occasionally differentiate all the way to peralkaline rhyolites, but differentiation usually ends with trachyte.[25]

Small volumes of rhyolite are sometimes erupted in association with flood basalts, late in their history and where central volcanic complexes develop.[26]

Name edit

The name rhyolite was introduced into geology in 1860 by the German traveler and geologist Ferdinand von Richthofen[27][28][29] from the Greek word rhýax ("a stream of lava")[30] and the rock name suffix "-lite".[31]

Uses edit

In North American pre-historic times, rhyolite was quarried extensively in what is now eastern Pennsylvania. Among the leading quarries was the Carbaugh Run Rhyolite Quarry Site in Adams County. Rhyolite was mined there starting 11,500 years ago.[32] Tons of rhyolite were traded across the Delmarva Peninsula,[32] because the rhyolite kept a sharp point when knapped and was used to make spear points and arrowheads.[33]

Obsidian is usually of rhyolitic composition, and it has been used for tools since prehistoric times.[34] Obsidian scalpels have been investigated for use in delicate surgery.[35] Pumice, also typically of rhyolitic composition, finds important uses as an abrasive, in concrete,[36] and as a soil amendment.[37] Rhyolitic tuff was used extensively for construction in ancient Rome[38] and has been used in construction in modern Europe.[21]: 138 

See also edit

  • List of rock types – List of rock types recognized by geologists
  • Thunderegg – Nodule-like rock, that is formed within rhyolitic volcanic ash layers

References edit

  1. ^ Wells, John C. (2008). Longman Pronunciation Dictionary (3rd ed.). Longman. ISBN 978-1-4058-8118-0.
  2. ^ "rhyolite". Dictionary.com Unabridged (Online). n.d.
  3. ^ "rhyolite". Merriam-Webster.com Dictionary. Retrieved 2012-07-10.
  4. ^ "rhyolite". The American Heritage Dictionary of the English Language (5th ed.). HarperCollins.
  5. ^ a b c Blatt, Harvey; Tracy, Robert J. (1996). Petrology : igneous, sedimentary, and metamorphic (2nd ed.). New York: W.H. Freeman. pp. 55, 74. ISBN 0716724383.
  6. ^ Le Bas, M. J.; Streckeisen, A. L. (1991). "The IUGS systematics of igneous rocks". Journal of the Geological Society. 148 (5): 825–833. Bibcode:1991JGSoc.148..825L. CiteSeerX 10.1.1.692.4446. doi:10.1144/gsjgs.148.5.0825. S2CID 28548230.
  7. ^ "Rock Classification Scheme - Vol 1 - Igneous" (PDF). British Geological Survey: Rock Classification Scheme. 1: 1–52. 1999.
  8. ^ . Archived from the original on 30 September 2011.
  9. ^ a b c d e Philpotts, Anthony R.; Ague, Jay J. (2009). Principles of igneous and metamorphic petrology (2nd ed.). Cambridge, UK: Cambridge University Press. ISBN 9780521880060.
  10. ^ a b c Fisher, Richard V.; Schmincke, H.-U. (1984). Pyroclastic rocks. Berlin: Springer-Verlag. ISBN 3540127569.
  11. ^ Hanson, Richard E.; Schweickert, Richard A. (1 November 1982). "Chilling and Brecciation of a Devonian Rhyolite Sill Intruded into Wet Sediments, Northern Sierra Nevada, California". The Journal of Geology. 90 (6): 717–724. Bibcode:1982JG.....90..717H. doi:10.1086/628726. S2CID 128948336.
  12. ^ Spell, Terry L.; Kyle, Philip R. (1989). "Petrogenesis of Valle Grande Member rhyolites, Valles Caldera, New Mexico: Implications for evolution of the Jemez Mountains Mgmatic System". Journal of Geophysical Research: Solid Earth. 94 (B8): 10379–10396. Bibcode:1989JGR....9410379S. doi:10.1029/JB094iB08p10379.
  13. ^ Raymond, Loren A. (1997). Petrology : the study of igneous, sedimentary, metamorphic rocks (Complete customized version ed.). Dubuque, IA: McGraw-Hill Companies, Inc. p. 27. ISBN 0697413403.
  14. ^ Mbowou, Gbambie Isaac Bertrand; Lagmet, Claudial; Nomade, Sébastien; Ngounoun, Ismaïla; Déruelle, Bernard; Ohnenstetter, Daniel (2012). "Petrology of the Late Cretaceous peralkaline rhyolites (pantellerite and comendite) from Lake Chad, Central Africa". Journal of Geosciences. 57: 127. doi:10.3190/jgeosci.118. ISSN 1802-6222.
  15. ^ Wood, Charles A.; Kienle, Jürgen (1990). Volcanoes of North America: United States and Canada. Cambridge, England: Cambridge University Press. pp. 123. 131, 132, 133. ISBN 0-521-43811-X.
  16. ^ Wilson, C.J. (2011). Insights Into the Workings of Rhyolitic Explosive Eruptions and Their Magmatic Sources. American Geophysical Union Fall Meeting 2011. AGU Fall Meeting Abstracts. Vol. 2011. American Geophysical Union. pp. V42A–01. Bibcode:2011AGUFM.V42A..01W. abstract id. V42A-01. Retrieved 27 October 2020.
  17. ^ Magnall, N.; James, M.R.; Tuffen, H.; Vye-Brown, C. (2017). "Emplacing a Cooling-Limited Rhyolite Lava Flow: Similarities with Basaltic Lava Flows". Frontiers in Earth Science. 5: 44. Bibcode:2017FrEaS...5...44M. doi:10.3389/feart.2017.00044. S2CID 12887930.
  18. ^ Fierstein, Judy; Hildreth, Wes; Hendley, James W. II; Stauffer, Peter H. (1998). "Can Another Great Volcanic Eruption Happen in Alaska?". U.S. Geological Survey Fact Sheet 075-98. Version 1.0. United States Geological Survey. Retrieved September 10, 2008.
  19. ^ Nguyen, Chinh T.; Gonnermann, Helge M.; Houghton, Bruce F. (August 2014). (PDF). Geology. 42 (8): 703–706. Bibcode:2014Geo....42..703N. doi:10.1130/G35593.1. S2CID 129328343. Archived from the original (PDF) on 2020-02-19.
  20. ^ Ewart, A.; Hildreth, W.; Carmichael, I. S. E. (1 March 1975). "Quaternary acid magma in New Zealand". Contributions to Mineralogy and Petrology. 51 (1): 1–27. Bibcode:1975CoMP...51....1E. doi:10.1007/BF00403509. S2CID 129102186.
  21. ^ a b Schmincke, Hans-Ulrich (2003). Volcanism. Berlin: Springer. ISBN 9783540436508.
  22. ^ Wolff, J. A.; Ramos, F. C. (1 February 2014). "Processes in Caldera-Forming High-Silica Rhyolite Magma: Rb-Sr and Pb Isotope Systematics of the Otowi Member of the Bandelier Tuff, Valles Caldera, New Mexico, USA". Journal of Petrology. 55 (2): 345–375. doi:10.1093/petrology/egt070.
  23. ^ Philpotts & Ague 2009, p. 375.
  24. ^ Farndon, John (2007) The Illustrated Encyclopedia of Rocks of the World. Southwater. p. 54. ISBN 1844762696
  25. ^ Philpotts & Ague 2009, pp. 318, 369.
  26. ^ Philpotts & Ague 2009, p. 381.
  27. ^ Richthofen, Ferdinand Freiherrn von (1860). "Studien aus den ungarisch-siebenbürgischen Trachytgebirgen" [Studies of the trachyte mountains of Hungarian Transylvania]. Jahrbuch der Kaiserlich-Königlichen Geologischen Reichsanstalt (Wein) [Annals of the Imperial-Royal Geological Institute of Vienna] (in German). 11: 153–273.
  28. ^ Simpson, John A.; Weiner, Edmund S. C., eds. (1989). Oxford English Dictionary. Vol. 13 (2nd ed.). Oxford: Oxford University Press. p. 873.
  29. ^ Young, Davis A. (2003). Mind Over Magma: The Story of Igneous Petrology. Princeton University Press. p. 117. ISBN 0-691-10279-1.
  30. ^ "Definition of RHYOLITE". www.merriam-webster.com. 18 April 2024.
  31. ^ "Definition of LITE". www.merriam-webster.com. 7 May 2023.
  32. ^ a b Fergus, Charles (2001). Natural Pennsylvania: Exploring the State Forest Natural Areas. Stackpole Books. p. 30. OCLC 47018498.
  33. ^ Bricker, Dakota. "Snaggy Ridge Indian Rhyolite Quarries". Mercersburg Historical Society. Retrieved 2019-01-20.
  34. ^ Cotterell, Brian; Kamminga, Johan (1992). Mechanics of pre-industrial technology: an introduction to the mechanics of ancient and traditional material culture. Cambridge University Press. pp. 127–. ISBN 978-0-521-42871-2. Retrieved 9 September 2011.
  35. ^ Buck, BA (March 1982). "Ancient Technology in Contemporary Surgery". The Western Journal of Medicine. 136 (3): 265–269. PMC 1273673. PMID 7046256.
  36. ^ Grasser, Klaus (1990). Building with Pumice (PDF). Deutsche Gesellschaft für Technische Zusammenarbeit (GTZ). p. 64. ISBN 3-528-02055-5. Retrieved 23 March 2019.
  37. ^ Crangle, Robert D. Jr. (January 2012). "Pumice and pumicite – USGS Mineral Resources Program" (PDF). United States Geological Survey. Retrieved 25 November 2018.
  38. ^ Jackson, M. D.; Marra, F.; Hay, R. L.; Cawood, C.; Winkler, E. M. (2005). "The Judicious Selection and Preservation of Tuff and Travertine Building Stone in Ancient Rome*". Archaeometry. 47 (3): 485–510. doi:10.1111/j.1475-4754.2005.00215.x.

External links edit

 
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Rhyolite (category)
  • Geology.com - Rhyolite
  • Gemstones.com - guide and properties chart - Rhyolite

April 25, 2024
rhyolite, other, uses, disambiguation, lyte, most, silica, rich, volcanic, rocks, generally, glassy, fine, grained, aphanitic, texture, porphyritic, containing, larger, mineral, crystals, phenocrysts, otherwise, fine, grained, groundmass, mineral, assemblage, . For other uses see Rhyolite disambiguation Rhyolite ˈ r aɪ e l aɪ t RY e lyte 1 2 3 4 is the most silica rich of volcanic rocks It is generally glassy or fine grained aphanitic in texture but may be porphyritic containing larger mineral crystals phenocrysts in an otherwise fine grained groundmass The mineral assemblage is predominantly quartz sanidine and plagioclase It is the extrusive equivalent of granite RhyoliteIgneous rockCompositionClassificationFelsicPrimaryQuartz and alkali feldspar sanidine and sodic plagioclase SecondaryBiotite and hornblendeTextureGlassy or aphanitic sometimes porphyritic Its high silica content makes rhyolitic magma extremely viscous This favors explosive eruptions over effusive eruptions so this type of magma is more often erupted as pyroclastic rock than as lava flows Rhyolitic ash flow tuffs are among the most voluminous of continental igneous rock formations Rhyolitic tuff has been used extensively for construction Obsidian which is rhyolitic volcanic glass has been used for tools from prehistoric times to the present day because it can be shaped to an extremely sharp edge Rhyolitic pumice finds use as an abrasive in concrete and as a soil amendment Contents 1 Description 2 Geology 3 Petrogenesis 4 Occurrence 5 Name 6 Uses 7 See also 8 References 9 External linksDescription edit nbsp QAPF diagram with rhyolite field highlighted nbsp TAS diagram with rhyolite field highlighted Rhyolite is an extrusive igneous rock formed from magma rich in silica that is extruded from a volcanic vent to cool quickly on the surface rather than slowly in the subsurface It is generally light in color due to its low content of mafic minerals and it is typically very fine grained aphanitic or glassy 5 An extrusive igneous rock is classified as rhyolite when quartz constitutes 20 to 60 by volume of its total content of quartz alkali feldspar and plagioclase QAPF and alkali feldspar makes up 35 to 90 of its total feldspar content Feldspathoids are not present This makes rhyolite the extrusive equivalent of granite However while the IUGS recommends classifying volcanic rocks on the basis of their mineral composition whenever possible volcanic rocks are often glassy or so fine grained that mineral identification is impractical The rock must then be classified chemically based on its content of silica and alkali metal oxides K2O plus Na2O Rhyolite is high in silica and total alkali metal oxides placing it in the R field of the TAS diagram 6 7 8 9 140 146 The alkali feldspar in rhyolites is sanidine or less commonly orthoclase It is rarely anorthoclase These feldspar minerals sometimes are present as phenocrysts The plagioclase is usually sodium rich oligoclase or andesine Cristobalite and trydimite are sometimes present along with the quartz Biotite augite fayalite and hornblende are common accessory minerals 5 Geology editDue to their high content of silica and low iron and magnesium contents rhyolitic magmas form highly viscous lavas 9 23 26 As a result many eruptions of rhyolite are highly explosive and rhyolite occurs more frequently as pyroclastic rock than as lava flows 10 22 Rhyolitic ash flow tuffs are the only volcanic product with volumes rivaling those of flood basalts 9 77 Rhyolites also occur as breccias or in lava domes volcanic plugs and dikes 11 12 9 71 72 Rhyolitic lavas erupt at a relatively low temperature of 800 to 1 000 C 1 470 to 1 830 F significantly cooler than basaltic lavas which typically erupt at temperatures of 1 100 to 1 200 C 2 010 to 2 190 F 9 20 Rhyolites that cool too quickly to grow crystals form a natural glass or vitrophyre also called obsidian 13 Slower cooling forms microscopic crystals in the lava and results in textures such as flow foliations spherulitic nodular and lithophysal structures Some rhyolite is highly vesicular pumice 5 Peralkaline rhyolites rhyolites unusually rich in alkali metals include comendite and pantellerite 14 Peralkalinity has significant effects on lava flow morphology and mineralogy such that peralkaline rhyolites can be 10 30 times more fluid than typical calc alkaline rhyolites As a result of their increased fluidity they are able to form small scale flow folds lava tubes and thin dikes Peralkaline rhyolites erupt at relatively high temperatures of more than 1 200 C 2 190 F They comprise bimodal shield volcanoes at hotspots and rifts e g Rainbow Range Ilgachuz Range and Level Mountain in British Columbia Canada 15 Eruptions of rhyolite lava are relatively rare compared to eruptions of less felsic lavas Only four eruptions of rhyolite have been recorded since the start of the 20th century at the St Andrew Strait volcano in Papua New Guinea and Novarupta volcano in Alaska as well as at Chaiten and Cordon Caulle volcanoes in southern Chile 16 17 The eruption of Novarupta in 1912 was the largest volcanic eruption of the 20th century 18 and began with explosive volcanism that later transitioned to effusive volcanism and the formation of a rhyolite dome in the vent 19 Petrogenesis editRhyolite magmas can be produced by igneous differentiation of a more mafic silica poor magma through fractional crystallization or by assimilation of melted crustal rock anatexis Associations of andesites dacites and rhyolites in similar tectonic settings and with similar chemistry suggests that the rhyolite members were formed by differentiation of mantle derived basaltic magmas at shallow depths In other cases the rhyolite appears to be a product of melting of crustal sedimentary rock 10 21 Water vapor plays an important role in lowering the melting point of silicic rock 10 43 and some rhyolitic magmas may have a water content as high as 7 8 weight percent 20 21 44 High silica rhyolite HSR with a silica content of 75 to 77 8 SiO2 forms a distinctive subgroup within the rhyolites HSRs are the most evolved of all igneous rocks with a composition very close to the water saturated granite eutectic and with extreme enrichment in most incompatible elements However they are highly depleted in strontium barium and europium They are interpreted as products of repeated melting and freezing of granite in the subsurface HSRs typically erupt in large caldera eruptions 22 Occurrence editRhyolite is common along convergent plate boundaries where a slab of oceanic lithosphere is being subducted into the Earth s mantle beneath overriding oceanic or continental lithosphere It can sometimes be the predominant igneous rock type in these settings Rhyolite is more common when the overriding lithosphere is continental rather than oceanic The thicker continental crust gives the rising magma more opportunity to differentiate and assimilate crustal rock 23 Rhyolite has been found on islands far from land but such oceanic occurrences are rare 24 The tholeiitic magmas erupted at volcanic ocean islands such as Iceland can sometimes differentiate all the way to rhyolite and about 8 of the volcanic rock in Iceland is rhyolite However this is unusual and the Hawaiian Islands for example have no known occurrences of rhyolite The alkaline magmas of volcanic ocean islands will very occasionally differentiate all the way to peralkaline rhyolites but differentiation usually ends with trachyte 25 Small volumes of rhyolite are sometimes erupted in association with flood basalts late in their history and where central volcanic complexes develop 26 Name editThe name rhyolite was introduced into geology in 1860 by the German traveler and geologist Ferdinand von Richthofen 27 28 29 from the Greek word rhyax a stream of lava 30 and the rock name suffix lite 31 Uses editIn North American pre historic times rhyolite was quarried extensively in what is now eastern Pennsylvania Among the leading quarries was the Carbaugh Run Rhyolite Quarry Site in Adams County Rhyolite was mined there starting 11 500 years ago 32 Tons of rhyolite were traded across the Delmarva Peninsula 32 because the rhyolite kept a sharp point when knapped and was used to make spear points and arrowheads 33 Obsidian is usually of rhyolitic composition and it has been used for tools since prehistoric times 34 Obsidian scalpels have been investigated for use in delicate surgery 35 Pumice also typically of rhyolitic composition finds important uses as an abrasive in concrete 36 and as a soil amendment 37 Rhyolitic tuff was used extensively for construction in ancient Rome 38 and has been used in construction in modern Europe 21 138 See also editList of rock types List of rock types recognized by geologists Thunderegg Nodule like rock that is formed within rhyolitic volcanic ash layersReferences edit Wells John C 2008 Longman Pronunciation Dictionary 3rd ed Longman ISBN 978 1 4058 8118 0 rhyolite Dictionary com Unabridged Online n d rhyolite Merriam Webster com Dictionary Retrieved 2012 07 10 rhyolite The American Heritage Dictionary of the English Language 5th ed HarperCollins a b c Blatt Harvey Tracy Robert J 1996 Petrology igneous sedimentary and metamorphic 2nd ed New York W H Freeman pp 55 74 ISBN 0716724383 Le Bas M J Streckeisen A L 1991 The IUGS systematics of igneous rocks Journal of the Geological Society 148 5 825 833 Bibcode 1991JGSoc 148 825L CiteSeerX 10 1 1 692 4446 doi 10 1144 gsjgs 148 5 0825 S2CID 28548230 Rock Classification Scheme Vol 1 Igneous PDF British Geological Survey Rock Classification Scheme 1 1 52 1999 Classification of igneous rocks Archived from the original on 30 September 2011 a b c d e Philpotts Anthony R Ague Jay J 2009 Principles of igneous and metamorphic petrology 2nd ed Cambridge UK Cambridge University Press ISBN 9780521880060 a b c Fisher Richard V Schmincke H U 1984 Pyroclastic rocks Berlin Springer Verlag ISBN 3540127569 Hanson Richard E Schweickert Richard A 1 November 1982 Chilling and Brecciation of a Devonian Rhyolite Sill Intruded into Wet Sediments Northern Sierra Nevada California The Journal of Geology 90 6 717 724 Bibcode 1982JG 90 717H doi 10 1086 628726 S2CID 128948336 Spell Terry L Kyle Philip R 1989 Petrogenesis of Valle Grande Member rhyolites Valles Caldera New Mexico Implications for evolution of the Jemez Mountains Mgmatic System Journal of Geophysical Research Solid Earth 94 B8 10379 10396 Bibcode 1989JGR 9410379S doi 10 1029 JB094iB08p10379 Raymond Loren A 1997 Petrology the study of igneous sedimentary metamorphic rocks Complete customized version ed Dubuque IA McGraw Hill Companies Inc p 27 ISBN 0697413403 Mbowou Gbambie Isaac Bertrand Lagmet Claudial Nomade Sebastien Ngounoun Ismaila Deruelle Bernard Ohnenstetter Daniel 2012 Petrology of the Late Cretaceous peralkaline rhyolites pantellerite and comendite from Lake Chad Central Africa Journal of Geosciences 57 127 doi 10 3190 jgeosci 118 ISSN 1802 6222 Wood Charles A Kienle Jurgen 1990 Volcanoes of North America United States and Canada Cambridge England Cambridge University Press pp 123 131 132 133 ISBN 0 521 43811 X Wilson C J 2011 Insights Into the Workings of Rhyolitic Explosive Eruptions and Their Magmatic Sources American Geophysical Union Fall Meeting 2011 AGU Fall Meeting Abstracts Vol 2011 American Geophysical Union pp V42A 01 Bibcode 2011AGUFM V42A 01W abstract id V42A 01 Retrieved 27 October 2020 Magnall N James M R Tuffen H Vye Brown C 2017 Emplacing a Cooling Limited Rhyolite Lava Flow Similarities with Basaltic Lava Flows Frontiers in Earth Science 5 44 Bibcode 2017FrEaS 5 44M doi 10 3389 feart 2017 00044 S2CID 12887930 Fierstein Judy Hildreth Wes Hendley James W II Stauffer Peter H 1998 Can Another Great Volcanic Eruption Happen in Alaska U S Geological Survey Fact Sheet 075 98 Version 1 0 United States Geological Survey Retrieved September 10 2008 Nguyen Chinh T Gonnermann Helge M Houghton Bruce F August 2014 Explosive to effusive transition during the largest volcanic eruption of the 20th century Novarupta 1912 Alaska PDF Geology 42 8 703 706 Bibcode 2014Geo 42 703N doi 10 1130 G35593 1 S2CID 129328343 Archived from the original PDF on 2020 02 19 Ewart A Hildreth W Carmichael I S E 1 March 1975 Quaternary acid magma in New Zealand Contributions to Mineralogy and Petrology 51 1 1 27 Bibcode 1975CoMP 51 1E doi 10 1007 BF00403509 S2CID 129102186 a b Schmincke Hans Ulrich 2003 Volcanism Berlin Springer ISBN 9783540436508 Wolff J A Ramos F C 1 February 2014 Processes in Caldera Forming High Silica Rhyolite Magma Rb Sr and Pb Isotope Systematics of the Otowi Member of the Bandelier Tuff Valles Caldera New Mexico USA Journal of Petrology 55 2 345 375 doi 10 1093 petrology egt070 Philpotts amp Ague 2009 p 375 Farndon John 2007 The Illustrated Encyclopedia of Rocks of the World Southwater p 54 ISBN 1844762696 Philpotts amp Ague 2009 pp 318 369 Philpotts amp Ague 2009 p 381 Richthofen Ferdinand Freiherrn von 1860 Studien aus den ungarisch siebenburgischen Trachytgebirgen Studies of the trachyte mountains of Hungarian Transylvania Jahrbuch der Kaiserlich Koniglichen Geologischen Reichsanstalt Wein Annals of the Imperial Royal Geological Institute of Vienna in German 11 153 273 Simpson John A Weiner Edmund S C eds 1989 Oxford English Dictionary Vol 13 2nd ed Oxford Oxford University Press p 873 Young Davis A 2003 Mind Over Magma The Story of Igneous Petrology Princeton University Press p 117 ISBN 0 691 10279 1 Definition of RHYOLITE www merriam webster com 18 April 2024 Definition of LITE www merriam webster com 7 May 2023 a b Fergus Charles 2001 Natural Pennsylvania Exploring the State Forest Natural Areas Stackpole Books p 30 OCLC 47018498 Bricker Dakota Snaggy Ridge Indian Rhyolite Quarries Mercersburg Historical Society Retrieved 2019 01 20 Cotterell Brian Kamminga Johan 1992 Mechanics of pre industrial technology an introduction to the mechanics of ancient and traditional material culture Cambridge University Press pp 127 ISBN 978 0 521 42871 2 Retrieved 9 September 2011 Buck BA March 1982 Ancient Technology in Contemporary Surgery The Western Journal of Medicine 136 3 265 269 PMC 1273673 PMID 7046256 Grasser Klaus 1990 Building with Pumice PDF Deutsche Gesellschaft fur Technische Zusammenarbeit GTZ p 64 ISBN 3 528 02055 5 Retrieved 23 March 2019 Crangle Robert D Jr January 2012 Pumice and pumicite USGS Mineral Resources Program PDF United States Geological Survey Retrieved 25 November 2018 Jackson M D Marra F Hay R L Cawood C Winkler E M 2005 The Judicious Selection and Preservation of Tuff and Travertine Building Stone in Ancient Rome Archaeometry 47 3 485 510 doi 10 1111 j 1475 4754 2005 00215 x External links edit nbsp Wikimedia Commons has media related to Rhyolite category Geology com Rhyolite Gemstones com guide and properties chart Rhyolite Retrieved from https en wikipedia org w index php title Rhyolite amp oldid 1219690849, wikipedia, wiki, book, books, library,

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