Earth:Phonolite
Extrusive igneous rock | |
Dark, prismatic phenocrysts of aegirine in phonolite sample | |
Composition | |
---|---|
Primary | nepheline, sodalite, hauyne, leucite, analcite, sanidine, anorthoclase |
Secondary | biotite, amphibole, pyroxene, olivine |
Phonolite is an uncommon shallow intrusive or extrusive rock, of intermediate chemical composition between felsic and mafic, with texture ranging from aphanitic (fine-grained) to porphyritic (mixed fine- and coarse-grained). Phonolite is a variation of the igneous rock trachyte that contains nepheline or leucite rather than quartz.[1] It has an unusually high (12% or more) Na2O + K2O content, defining its position in the TAS classification of igneous rocks. Its coarse grained (phaneritic) intrusive equivalent is nepheline syenite. Phonolite is typically fine grained and compact. The name phonolite comes from the Ancient Greek meaning "sounding stone" due to the metallic sound it produces if an unfractured plate is hit; hence, the English name clinkstone is given as a synonym.
Formation
Unusually, phonolite forms from magma with a relatively low silica content, generated by low degrees of partial melting (less than 10%) of highly aluminous rocks of the lower crust such as tonalite, monzonite and metamorphic rocks. Melting of such rocks to a very low degree promotes the liberation of aluminium, potassium, sodium and calcium by melting of feldspar, with some involvement of mafic minerals. Because the rock is silica-undersaturated, it has no quartz or other silica crystals, and is dominated by low-silica feldspathoid minerals more than feldspar minerals.
A few geological processes and tectonic events can melt the necessary precursor rocks to form phonolite. These include intracontinental hotspot volcanism,[2] such as may form above mantle plumes covered by thick continental crust. A-type granites and alkaline igneous provinces usually occur alongside phonolites. Low-degree partial melting of underplates of granitic material in collisional orogenic belts may also produce phonolites.
Mineralogy and petrology
Phonolite is a fine-grained equivalent of nepheline syenite. They are products of partial melting, are silica-undersaturated, and have feldspathoids in their normative mineralogy.
Mineral assemblages in phonolite occurrences are usually abundant feldspathoids (nepheline, sodalite, hauyne, leucite and analcite) and alkali feldspar (sanidine, anorthoclase or orthoclase), and rare sodic plagioclase. Biotite, sodium-rich amphiboles and pyroxenes along with iron-rich olivine are common minor minerals. Accessory phases include titanite, apatite, corundum, zircon, magnetite and ilmenite.[4] Phonolite's characteristic dark color comes from its concentration of dark pyroxenes such as aegirine and augite.
Blairmorite is an analcite-rich variety of phonolite.[5][6]
Occurrence
Nepheline syenites and phonolites occur widely distributed throughout the world[7] in Canada, Norway, Greenland, Sweden, the United Kingdom , the Ural Mountains, the Pyrenees, Italy, Eifel and Kaiserstuhl in Germany, Brazil , the Transvaal region, the Magnet Cove igneous complex of Arkansas, the Beemerville Complex of New Jersey,[8] as well as on oceanic islands such as the Canary Islands.[9]
Phonolite is common across Europe, particularly within the Eifel Plateau and the Laacher See. It is also found in the Czech Republic and the Mediterranean area near Italy. For localities in the United States, phonolite can be found in the Black Hills Forest in South Dakokta. The most well known phonolite-composed natural structure is the Devil's Tower, found in Wyoming.[1]
Nepheline-normative rocks occur in close association with the Bushveld Igneous Complex, possibly formed from partial melting of the wall rocks adjacent to that large ultramafic layered intrusion. Phonolite occurs in the related Pilanesberg Complex and Pienaars River Complex.[10]
Examples
North America
- Cripple Creek & Victor Gold Mine phonolite pipe in Colorado
- Baldface Mountain, west-central British Columbia, Canada
- Devils Tower, Wyoming, United States, an example of columnar-jointed phonolite[11]
- Hoodoo Mountain, northwestern British Columbia, Canada
- Missouri Buttes, Crook County, northeast Wyoming, United States
Europe
- Bass Rock, North Berwick Law and Traprain Law in southeast Scotland, UK[12]
- Bořeň, northwestern Czech Republic
- Mont Gerbier de Jonc, Ardèche, France[13]
- Montiferru, Sardinia
- Wolf Rock, Cornwall
Other
- Jebel Nefusa, Libya[14]
- Mount Cargill, Dunedin, New Zealand[15]
- Teide, a stratovolcano on the island of Tenerife[16]
- The phonolitic lava lake in Mount Erebus, Ross Island, Antarctica
- The 'Bellstone' in Saint Helena[17]
Economic importance
Phonolites can be of interest as dimension stone or as aggregate for gravels.
Rarely, economically mineralised phonolite-nepheline syenite alkaline complexes can be associated with rare-earth mineralisation, uranium mineralisation and phosphates, such as at Phalaborwa, South Africa.
Phonolite tuff was used as a source of flint for adze heads and such by prehistoric people from Hohentwiel and Hegau, Germany.[18]
Phonolites can be separated into slabs of appropriate dimensions to be used as roofing tiles in place of roofing slate. One such occurrence is in the French Massif Central region such as the Haute Loire département.[citation needed]
References
- ↑ 1.0 1.1 Bonewitz, Ronald (2008) (in English). Rock and Gem: The Definitive Guide to Rocks, Minerals, Gems, and Fossils. United States: DK. pp. 47.
- ↑ Wiesmaier, Sebastian; Troll, Valentin R.; Carracedo, Juan Carlos; Ellam, Robert M.; Bindeman, Ilya; Wolff, John A. (2012-12-01). "Bimodality of Lavas in the Teide–Pico Viejo Succession in Tenerife—the Role of Crustal Melting in the Origin of Recent Phonolites" (in en). Journal of Petrology 53 (12): 2465–2495. doi:10.1093/petrology/egs056. ISSN 0022-3530. https://academic.oup.com/petrology/article/53/12/2465/1497678.
- ↑ Ridley, W. I., 2012, Petrology of Igneous Rocks, Volcanogenic Massive Sulfide Occurrence Model, USGS Scientific Report 2010-5070-C, Chapter 15.
- ↑ Blatt, Harvey and Robert J. Tracy, Petrology, Freeman, 2nd ed. 1996, p. 52, ISBN:0-7167-2438-3.
- ↑ Peterson, T.D.; Currie, K.L. (1993). Analcite-bearing igneous rocks from the Crowsnest Formation, southwestern Alberta (Current Research report 93-B1). Geological Survey of Canada. pp. 51–56. http://publications.gc.ca/collections/collection_2017/rncan-nrcan/M44-93-1B.pdf.
- ↑ Deer, W.A.; Howie, R.A.; Zussman, J. (2013). An Introduction to the Rock-Forming Minerals (3rd ed.). London: Mineralogical Society. ISBN 9780903056274.
- ↑ Woolley, A.R., 1995. Alkaline rocks and carbonatites of the world., Geological Society of London.
- ↑ Eby, G. N., 2012, The Beemerville alkaline complex, northern New Jersey, in Harper, J. A., ed., Journey along the Taconic unconformity, northeastern Pennsylvania, New Jersey, and southeastern New York: Guidebook, 77th Annual Field Conference of Pennsylvania Geologists, Shawnee on Delaware, PA, p. 85-91.
- ↑ Bryan, S. E; Cas, R. A. F.; Martı́, J (May 1998). "Lithic breccias in intermediate volume phonolitic ignimbrites, Tenerife (Canary Islands): constraints on pyroclastic flow depositional processes". Journal of Volcanology and Geothermal Research 81 (3–4): 269–296. doi:10.1016/S0377-0273(98)00004-3. Bibcode: 1998JVGR...81..269B.
- ↑ Pirajno, Franco (1992). Hydrothermal Mineral Deposits: Principles and Fundamental Concepts for the Exploration Geologist. Berlin: Sringer-Verlag. pp. 267–269. ISBN 978-3-642-75673-3.
- ↑ Bassett, W. A. (October 1961). "Potassium-Argon Age of Devils Tower, Wyoming". Science 134 (3487): 1373. doi:10.1126/science.134.3487.1373. ISSN 0036-8075. PMID 17807346. Bibcode: 1961Sci...134.1373B.
- ↑ BGS map viewer http://mapapps.bgs.ac.uk/geologyofbritain/home.html
- ↑ "Gerbier de Jonc et sources de la Loire" (in fr). Volcans des sucs. Geopark - Parc Naturel Régional des Monts d'Ardèche. http://www.geopark-monts-ardeche.fr/decouvrir-le-geopark/decouvrir-les-geosites-geopark/volcans-des-sucs-geopark/gerbier-de-jonc-et-sources-de-la-loire-2324.html.
- ↑ Bausch, W. M. (June 1978). "The central part of the Jebel Nefusa volcano (Libya) survey map, age relationship and preliminary results". Geologische Rundschau 67 (2): 389–400. doi:10.1007/BF01802796. Bibcode: 1978GeoRu..67..389B.
- ↑ Marshall, Patrick, 'The occurrence of a mineral hitherto unknown in the phonolites of Dunedin, New Zealand', 1929.
- ↑ Ablay, G. J.; Carroll, M. R.; Palmer, M. R.; Marti, J.; Sparks, R. S. J. (May 1998). "Basanite-Phonolite Lineages of the Teide-Pico Viejo Volcanic Complex, Tenerife, Canary Islands". Journal of Petrology 39 (5): 905–936. doi:10.1093/petroj/39.5.905. Bibcode: 1998JPet...39..905A.
- ↑ "Levelwood | Saint Helena Island Info: All about St Helena, in the South Atlantic Ocean". https://sainthelenaisland.info/levelwood.htm#bellstone.
- ↑ Affolter, J., 2002, Provenance des silex préhistoriques du Jura et des régions limitrophes, Archéologie neuchâteloise, 28.
External links
Original source: https://en.wikipedia.org/wiki/Phonolite.
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