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Trachyte

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About TrachyteHide

Name:
Etymol: Greek trachys, rough, in reference to the fact that rocks of this group are commonly rough to the touch.

Trachytic rocks, with felsics comprising 0-5% quartz and alkali feldspar/total feldspar: 0.65-0.9

A group of fine-grained, generally porphyritic, extrusive rocks having alkali feldspar and minor mafic minerals (biotite, hornblende, or pyroxene) as the main components, and possibly a small amount of sodic plagioclase; also, any member of that group; the extrusive equivalent of syenite. Trachyte grades into latite as the alkali feldspar content decreases, and into rhyolite with an increase in quartz.

Ref: AGI


Classification of TrachyteHide

QAPF_V_7.png

Trachyte appears in field 7 in the QAPF diagram.

TAS_T.png

Trachyte is found in field T in the TAS diagram.

Sub-divisions of TrachyteHide

Mineralogy of TrachyteHide

Essential minerals - these are minerals that are required within the classification of this rock:
Feldspar > Alkali FeldsparFeldspar Group minerals rich in Potassium or Sodium.
Feldspar > PlagioclaseA petrological term for Albite-Anorthite Series.

Age distributionHide

Recorded ages:
Phanerozoic : 165 ± 2 Ma to Ma - based on 9 recorded ages.

Other Language Names for TrachyteHide

Portuguese:Traquito

References for TrachyteHide

Reference List:
Sort by Year (asc) | by Year (desc) | by Author (A-Z) | by Author (Z-A)
Klaus K.E. Neuendorf, James P. Mehl, Jr., and Julia A. Jackson (Editors), 2017. Glossary of Geology. Fifth REVISED edition. American Geological Institute (abbreviated as AGI).

Internet Links for TrachyteHide

mindat.org URL:
https://www.mindat.org/min-48478.html
Please feel free to link to this page.

Localities for TrachyteHide

This map shows a selection of localities that have latitude and longitude coordinates recorded. Click on the symbol to view information about a locality. The symbol next to localities in the list can be used to jump to that position on the map.

Locality ListHide

- This locality has map coordinates listed. - This locality has estimated coordinates. ⓘ - Click for further information on this occurrence. ? - Indicates mineral may be doubtful at this locality. - Good crystals or important locality for species. - World class for species or very significant. (TL) - Type Locality for a valid mineral species. (FRL) - First Recorded Locality for everything else (eg varieties). Struck out - Mineral was erroneously reported from this locality. Faded * - Never found at this locality but inferred to have existed at some point in the past (eg from pseudomorphs.)

All localities listed without proper references should be considered as questionable.
Angola
 
  • Huambo Province
    • Londuimbali City Council
Amores-Casals, S.; Gonçalves, A.O.; Melgarejo, J.-C.; Molist, J.M. (2020) Nb and REE Distribution in the Monte Verde Carbonatite–Alkaline–Agpaitic Complex (Angola). Minerals 10, 5.
Antarctica
 
  • Eastern Antarctica
    • Victoria Land
      • Adare Peninsula
        • Cape Adare
Smith, W. C. (1959). The Volcanic Rocks of Cape Adare, South Victoria Land. order of the Trustees of the British Museum; sold by B. Quaritch [and others].
Hamilton, W. B. (1972). The Hallett Volcanic Province, Antarctica (No. 456-C), 1-62 Nardini, I., Armienti, P., Rocchi, S., Dallai, L., & Harrison, D. (2009). Sr–Nd–Pb–He–O isotope and geochemical constraints on the genesis of Cenozoic magmas from the West Antarctic Rift. Journal of Petrology, 50(7), 1359-1375.
Nardini, I., Armienti, P., Rocchi, S., & Burgess, R. (2003). ^ 4^ 0Ar-^ 3^ 9Ar Chronology and Petrology of the Miocene Rift-related Volcanism of Daniell Peninsula (Northern Victoria Land, Antarctica). Terra Antartica, 10, 39-62.
Ricci, C. A. (1997). The Antarctic Region: Geological Evolution and Processes; Proceedings of the VII International Symposium on Antarctic Earth Sciences, Siena, 1995. Terra Antartica Publ., 511-521
Harrington, H. J., Wood, B. L., McKellar, I. C., & Lensen, G. J. (1967). Topography and geology of the Cape Hallett-Tucker Glacier district, Antarctica. Bull. NZ. Geo!. Surv, 80, 100. Hamilton, W. B. (1972). The Hallett Volcanic Province, Antarctica (No. 456-C), 1-62
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 128-133
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 117-119
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 120-123
Martin, A. P., Cooper, A. F., & Price, R. C. (2013). Petrogenesis of Cenozoic, alkalic volcanic lineages at Mount Morning, West Antarctica and their entrained lithospheric mantle xenoliths: Lithospheric versus asthenospheric mantle sources. Geochimica et Cosmochimica Acta, 122, 127-152.
Gair, H. S. (1967). The geology from the upper Rennick Glacier to the coast, northern Victoria Land, Antarctica. New Zealand journal of geology and geophysics, 10(2), 309-344. LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 65-68
Armienti, P., & Tripodo, A. (1991). Petrography and geochemistry of lavas and comagmatic xenoliths of Mt. Rittmann, a volcano discovered during the IV Italian Expedition in Northern Victoria Land (Antarctica). Memorie della Società Geologica Italiana, (46), 427-451.
      • Ross Archipelago
Cole, J. W., & Ewart, A. (1968). Contributions to the volcanic geology of the Black Island, Brown Peninsula, and Cape Bird areas, Mcmurdo sound, Antarctica. New Zealand Journal of Geology and Geophysics, 11(4), 793-828. Goldich, S. S., Treves, S. B., Suhr, N. H., & Stuckless, J. S. (1975). Geochemistry of the Cenozoic volcanic rocks of Ross Island and vicinity, Antarctica. The Journal of Geology, 83(4), 415-435.
        • Ross Island
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 97-98 Goldich, S. S., Treves, S. B., Suhr, N. H., & Stuckless, J. S. (1975). Geochemistry of the Cenozoic volcanic rocks of Ross Island and vicinity, Antarctica. The Journal of Geology, 83(4), 415-435.
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 99-102 Jones, L. M. (1972). GEOCHEMISTRY OF MCMURDO VOLCANICS, VICTORIA LAND. 1. STRONTIUM ISOTOPE COMPOSITION. Antarctic Journal of the United States, 7(5), 142-144.
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 60-64 Kyle, P. R., & Rankin, P. C. (1976). Rare earth element geochemistry of Late Cenozoic alkaline lavas of the McMurdo Volcanic Group, Antarctica. Geochimica et Cosmochimica Acta, 40(12), 1497-1507. Stump, E. (1986). Geological investigations in northern Victoria Land (Vol. 46). American Geophysical Union, 305-337
      • Transantarctic Mts
Martin, A. P., Cooper, A. F., & Dunlap, W. J. (2010). Geochronology of Mount Morning, Antarctica: two-phase evolution of a long-lived trachyte-basanite-phonolite eruptive center. Bulletin of Volcanology, 72(3), 357-371.
  • Western Antarctica
    • Antarctic Peninsula
      • South Shetland Islands
Barton, C.M. (1965) The geology of the South Shetland Islands: III. The Stratigraphy of King George Island. British Antarctic Survey Scientific Reports, No.44, 33 pages plus plates.
    • Marie Byrd Land
      • Crary Mountains
Boudette, E.L., Ford, A.B. (1966) Physical properties of anorthoclase from Antarctica. The American Mineralogist, 51(9-10), 1374-1387. LeMasurier, W.E., Rex, D.C. (1982) Eruptive potential of volcanoes in Marie Byrd Land. Antarctic Journal of the United States, 17, 34-36. LeMasurier, W.E., Rex, D.C. (1982) Volcanic record of Cenozoic glacial history in Marie Byrd Land and Western Ellsworth Land: Revised chronology and evaluation of tectonic factors. In: Craddock, C. (ed.) (1977) Antarctic Geoscience, University of Wisconsin Press, Madison, WI, 725-734.
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 5 LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 235-237 LeMasurier, W. E., & Rex, D. C. (1982). Volcanic record of Cenozoic glacial history in Marie Byrd Land and western Ellsworth Land: Revised chronology and evaluation of tectonic factors. Antarctic Geoscience, 89, 725-734. Rocchi, S., LeMasurier, W. E., & Di Vincenzo, G. (2006). Oligocene to Holocene erosion and glacial history in Marie Byrd Land, West Antarctica, inferred from exhumation of the Dorrel Rock intrusive complex and from volcano morphologies. Geological Society of America Bulletin, 118(7-8), 991-1005.
      • Executive Committee Range
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 195-198
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 8
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 8
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 199-202
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 8
      • Flood Range
[Peralkaline trachyte] LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 229-233
        • Mount Bursey
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 221-224
Hart, S. R., Blusztajn, J., LeMasurier, W. E., & Rex, D. C. (1997). Hobbs Coast Cenozoic volcanism: implications for the West Antarctic rift system. Chemical Geology, 139(1-4), 223-248.
      • McCuddin Mountains
        • Mount Flint
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 212-215
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 5
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 6 LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 169-174 LeMasurier, W. E., Choi, S. H., Hart, S. R., Mukasa, S., & Rogers, N. (2016). Reconciling the shadow of a subduction signature with rift geochemistry and tectonic environment in Eastern Marie Byrd Land, Antarctica. Lithos, 260, 134-153.
Bentley, C. R., & Clough, J. W. (1972). Antarctic subglacial structure from seismic refraction measurements. In Antarctic geology and geophysics (pp. 683-691). Universitetsforlaget Oslo, 683-691 LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 175-179
Argentina
 
  • Mendoza Province
    • Luján de Cuyo department
      • Cacheuta
Grundmann, G., & Förster, H. J. (2018). The Sierra de Cacheuta Vein-Type Se Mineralization, Mendoza Province, Argentina. Minerals, 8(4), 127.
  • Neuquén Province
    • Pehuenches Department
https://static-content.springer.com/esm/art%3A10.1007%2Fs00410-013-0870-9/MediaObjects/410_2013_870_MOESM1_ESM.pdf (Supplement to Kay, S.M., Jones, H.A., and Kay, R.W. (2013) Origin of Tertiary to Recent EM- and subduction-like chemical and isotopic signatures in Auca Mahuida region (37°–38°S) and other Patagonian plateau lavas. Contributions to Mineralogy and Petrology, vol. 166, n° 1, 165-192.)
Asia
 
Song, X. Y., Qi, H. W., Robinson, P. T., Zhou, M. F., Cao, Z. M., & Chen, L. M. (2008). Melting of the subcontinental lithospheric mantle by the Emeishan mantle plume; evidence from the basal alkaline basalts in Dongchuan, Yunnan, Southwestern China. Lithos, 100(1-4), 93-111. Qi, L., Wang, C. Y., & Zhou, M. F. (2008). Controls on the PGE distribution of Permian Emeishan alkaline and peralkaline volcanic rocks in Longzhoushan, Sichuan Province, SW China. Lithos, 106(3-4), 222-236.
Australia
 
  • New South Wales
    • Bathurst Co.
      • Cargo
Andrews, E.C., Morrison, M. (1915) Geological Survey of the Cargo Gold-Field, Minerals Resources No. 19, New South Wales Department of Mines.
    • Georgiana Co.
Raggatt, H.G. (1934) Trunkey-Tuena Gold Field, New South Wales Geological Survey Report GS 1934/004).
    • Gordon Co.
Spandler, C., Morris, C. (2016) Geology and genesis of the Toongi rare metal (Zr, Hf, Nb, Ta, Y and REE) deposit, NSW, Australia, and implications for rare metal mineralization in peralkaline igneous rocks. Contributions to Mineralogy and Petrology 171:104 (24 pages).
    • Mouramba Co.
      • Mt Lewis
Gilligan, L.B., Byrnes, J.G. (1995) Metallogenic Study and Mineral Deposit Data Sheets: Cobar Metallogenic Map 1:250 000 (SH/55-14), Geological Survey of New South Wales, Sydney, 240 pages.
Gilligan, L.B., Byrnes, J.G. (1995) Metallogenic Study and Mineral Deposit Data Sheets: Cobar Metallogenic Map 1:250 000 (SH/55-14), Geological Survey of New South Wales, Sydney, 240 pages.
    • Sandon Co.
      • Hillgrove
Gilligan, L.B., Brownlow, J.W., Cameron, R.G., Henley, H.F. (1992) Metallogenic Study and Mineral Deposit Data Sheets: Dorrigo-Coffs Harbour 1:250 000 Metallogenic Map SH/56-10, SH/56-11. Geological Survey of New South Wales, Sydney, 509 pages.
  • Queensland
    • Charters Towers Region
Graham-Ruzicka, J.L. (2014) Gold-bismuth occurrences in the Kennedy igneous province, North Queensland: constraints on tectonic, magmatic and hydrothermal processes in intrusion-related gold deposits. PhD thesis, James Cook University, Queensland.
Austria
 
  • Styria
    • Südoststeiermark District
      • Bad Gleichenberg
Postl, W., Taucher, J. & Moser, B. (1996): Neue Mineralfunde im oststeirischen Vulkangebiet. Mitt. Abt. Miner. Landesmuseum Joanneum, 60/61, 3-76.
Canada
 
  • Yukon
    • Dawson mining district
      • White Gold mining district
https://www.commanderresources.com/assets/docs/CMD_Flume_Aug_2016.pdf
Chile
 
  • Valparaíso
    • Ísla de Pascua Province
Gioncada, A., Gonzales-Ferran, O., Lezzerini, M., Mazzuoli, R., Bisson, M., and Rapu, S.A. (2010) The volcanic rocks of Easter Island (Chile) and their use for the Moai sculptures. European Journal of Mineralogy, 22, 6, 855-867.
China
 
  • Anhui
    • Lu'an
      • Yu'an District
Yang, Z. L., Shen, W. Z., Shen, J. L., Tao, K. Y., & Xie, F. G. (1999). Isotopic geochronology of the Xianghongdian alkaline complex, northern margin of the Dabie Mountains, China. ACTA GEOLOGICA SINICA-ENGLISH EDITION, 73(4), 404-410. Taixi, Z., Jiangfeng, C., Xun, Z., & Xueming, L. (1995). Geochemistry of the North Huaiyang granite-syenite zone and its tectonic implication [J]. Geological Review, 41, 144-151.
    • Ma'anshan
      • He County
Tao, K., Xie, J., Huang, G., Yin, J., Yang, Z., Wang, Q. & Yu, Y. 1996. Volcanic Geology and Mineral Resources in Jiangsu and Zhejiang Provinces. Field Trip Guide 4, 30th International Geological Congress, 4-14 August 1996, Beijing, China, Y324.1-34.
  • Fujian
    • Fuzhou
      • Yongtai County
Hong, W., Xu, X., Zou, H. (2013) Petrogenesis of coexisting high-silica aluminous and peralkaline rhyolites from Yunshan (Yongtai), southeastern China. Journal of Asian Earth Sciences, 74, 316-329.
  • Guangdong
    • Foshan
      • Nanhai District
Zhou, H., Xiao, L., Dong, Y., Wang, C., Wang, F., & Ni, P. (2009). Geochemical and geochronological study of the Sanshui basin bimodal volcanic rock suite, China: implications for basin dynamics in southeastern China. Journal of Asian Earth Sciences, 34(2), 178-189.
  • Hebei
    • Handan
      • Congtai District
Feng-Jun, N., & Wu Cheng-Yu, W. (1998). Gold deposits related to alkaline igneous rocks in North China craton, People's Republic of China. Global Tectonics and Metallogeny, 159-172. Chen, B., Jahn, B. M., Arakawa, Y., & Zhai, M. G. (2004). Petrogenesis of the Mesozoic intrusive complexes from the southern Taihang Orogen, North China Craton: elemental and Sr–Nd–Pb isotopic constraints. Contributions to Mineralogy and petrology, 148(4), 489-501.
    • Qinhuangdao
      • Shanhaiguan District
Wei, C. S., Zhao, Z. F., & Spicuzza, M. J. (2008). Zircon oxygen isotopic constraint on the sources of late Mesozoic A-type granites in eastern China. Chemical Geology, 250(1-4), 1-15. Yang, J. H., Wu, F. Y., Wilde, S. A., Chen, F., Liu, X. M., & Xie, L. W. (2008). Petrogenesis of an alkali syenite–granite–rhyolite suite in the Yanshan Fold and Thrust Belt, Eastern North China Craton: geochronological, geochemical and Nd–Sr–Hf isotopic evidence for lithospheric thinning. Journal of Petrology, 49(2), 315-351.
  • Heilongjiang
    • Heihe
      • Aihui District
Zhai, D., & Liu, J. (2014). Gold-telluride-sulfide association in the Sandaowanzi epithermal Au-Ag-Te deposit, NE China: implications for phase equilibrium and physicochemical conditions. Mineralogy and Petrology, 108(6), 853-871.; Zhai, D., Liu, J., Ripley, E. M., & Wang, J. (2015). Geochronological and He–Ar–S isotopic constraints on the origin of the Sandaowanzi gold-telluride deposit, northeastern China. Lithos, 212, 338-352.
  • Hubei
    • Shiyan
      • Zhushan Co.
[Keratophyre] Li, S. (1982). Geochemical features and petrogenesis of Miaoya carbonatites, Hubei Province. Geochemistry, 1(4), 409-420. Xu, C., Kynicky, J., Chakhmouradian, A. R., Li, X., & Song, W. (2015). A case example of the importance of multi-analytical approach in deciphering carbonatite petrogenesis in South Qinling orogen: Miaoya rare-metal deposit, central China. Lithos, 227, 107-121. Xu, C., Kynicky, J., Chakhmouradian, A. R., Campbell, I. H., & Allen, C. M. (2010). Trace-element modeling of the magmatic evolution of rare-earth-rich carbonatite from the Miaoya deposit, Central China. Lithos, 118(1-2), 145-155. Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575.
  • Jilin
    • Baishan
      • Fusong County
Ogura, T. Geology and mineral resources of the Far East. University of Tokyo Press, Tokyo, 2, 373-413. Popov, V. K., Sandimirova, G. P., & Velivetskaya, T. A. (2008, March). Strontium, neodymium, and oxygen isotopic variations in the alkali basalt-trachyte-pantellerite-comendite series of Paektusan Volcano. In Doklady Earth Sciences (Vol. 419, No. 1, pp. 329-334). MAIK Nauka/Interperiodica. Basu, A. R., Wang, J. W., Huang, W. K., Xie, G. H., & Tatsumoto, M. (1991). Major element, REE, and Pb, Nd and Sr isotopic geochemistry of Cenozoic volcanic rocks of their origin from suboceanic-type mantle reservoirs. Earth Planet Sci. Lett, 105, 149-169.
  • Qinghai
    • Gyêgu Autonomous Prefecture (Yushu Autonomous Prefecture)
      • Nangqên Co. (Nanqian Co.)
Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M., Bonin, B., Bateman, P., ... & Lameyre, J. 2002, Igneous Rocks: A Classification and Glossary of Terms: Recommendations of the International Union of Geological Sciences Subcommission on the Systematics of Igneous Rocks. Hongjuan, S. U. N., Wanming, D. E. N. G., & Yuquan, Z. (2001). Petrogenesis of Cenozoic potassic volcanic rocks in the Nangqen basin. Acta Geologica Sinica‐English Edition, 75(1), 27-40.
  • Shanxi
    • Lüliang
      • Xing County
Ying, J., Zhang, H., Sun, M., Tang, Y., Zhou, X., & Liu, X. (2007). Petrology and geochemistry of Zijinshan alkaline intrusive complex in Shanxi Province, western North China Craton: implication for magma mixing of different sources in an extensional regime. Lithos, 98(1-4), 45-66. Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575.
  • Sichuan
    • Panzhihua
      • Dong District
Shellnutt, J. G., & Iizuka, Y. (2011). Mineralogy from three peralkaline granitic plutons of the Late Permian Emeishan large igneous province (SW China): evidence for contrasting magmatic conditions of A-type granitoids. European Journal of Mineralogy, 23(1), 45-61. Shellnutt, J. G., & Jahn, B. M. (2010). Formation of the Late Permian Panzhihua plutonic-hypabyssal-volcanic igneous complex: implications for the genesis of Fe–Ti oxide deposits and A-type granites of SW China. Earth and Planetary Science Letters, 289(3-4), 509-519. Shellnutt, J. G., & Zhou, M. F. (2007). Permian peralkaline, peraluminous and metaluminous A-type granites in the Panxi district, SW China: their relationship to the Emeishan mantle plume. Chemical Geology, 243(3-4), 286-316. Zhang, Y., Luo, Y., & Yang, C. (Eds.). (1990). Panxi Rift and its geodynamics. Geological Publishing House. Zhong, H., Zhu, W. G., Hu, R. Z., Xie, L. W., He, D. F., Liu, F., & Chu, Z. Y. (2009). Zircon U–Pb age and Sr–Nd–Hf isotope geochemistry of the Panzhihua A-type syenitic intrusion in the Emeishan large igneous province, southwest China and implications for growth of juvenile crust. Lithos, 110(1-4), 109-128. Zhong, H., Campbell, I. H., Zhu, W. G., Allen, C. M., Hu, R. Z., Xie, L. W., & He, D. F. (2011). Timing and source constraints on the relationship between mafic and felsic intrusions in the Emeishan large igneous province. Geochimica et Cosmochimica Acta, 75(5), 1374-1395. Zhou, M. F., Robinson, P. T., Lesher, C. M., Keays, R. R., Zhang, C. J., & Malpas, J. (2005). Geochemistry, petrogenesis and metallogenesis of the Panzhihua gabbroic layered intrusion and associated Fe–Ti–V oxide deposits, Sichuan Province, SW China. Journal of Petrology, 46(11), 2253-2280.
      • Yanbian County
HOUJUN, M., JIZU, T., XINGCHUN, Z., MINGKUN, W., & RUGANG, S. (1989). Ultrapotassic rocks in Qinghai-Xizang (Tibet) Plateau and adjacent areas and their tectonic circumstances. In Developments in geoscience. Chinese Academy of Sciences, contribution to international geological congress. 28 (pp. 119-128).
HOUJUN, M., JIZU, T., XINGCHUN, Z., MINGKUN, W., & RUGANG, S. (1989). Ultrapotassic rocks in Qinghai-Xizang (Tibet) Plateau and adjacent areas and their tectonic circumstances. In Developments in geoscience. Chinese Academy of Sciences, contribution to international geological congress. 28 (pp. 119-128).
  • Tibet
    • Nagchu Prefecture (Naqu Prefecture)
      • Nyima Co. (Nima Co.)
Zhao, Z., Mo, X., Dilek, Y., Niu, Y., DePaolo, D. J., Robinson, P., ... & Luo, Z. (2009). Geochemical and Sr–Nd–Pb–O isotopic compositions of the post-collisional ultrapotassic magmatism in SW Tibet: petrogenesis and implications for India intra-continental subduction beneath southern Tibet. Lithos, 113(1-2), 190-212. Zhao, Z. D., Mo, X. X., Nomade, S., Renne, P. R., Zhou, S., Dong, G. C., ... & Liao, Z. L. (2006). Post-collisional ultrapotassic rocks in Lhasa block, Tibetan Plateau: Spatial and temporal distribution and its' implications. Acta Petrologica Sinica, 22(4), 787-794.
Ding, L., Kapp, P., Zhong, D., & Deng, W. (2003). Cenozoic volcanism in Tibet: evidence for a transition from oceanic to continental subduction. Journal of Petrology, 44(10), 1833-1865.
    • Ngari
      • Gêrzê Co. (Gaize Co.)
Ding, L., Kapp, P., Zhong, D., & Deng, W. (2003). Cenozoic volcanism in Tibet: evidence for a transition from oceanic to continental subduction. Journal of Petrology, 44(10), 1833-1865. Guo, Z., Wilson, M., Liu, J., & Mao, Q. (2006). Post-collisional, potassic and ultrapotassic magmatism of the northern Tibetan Plateau: Constraints on characteristics of the mantle source, geodynamic setting and uplift mechanisms. Journal of Petrology, 47(6), 1177-1220.
    • Xigazê Prefecture (Rikaze Prefecture; Shigatse Prefecture)
      • Ngamring Co. (Angren Co.)
Gao, Y., Hou, Z., Kamber, B. S., Wei, R., Meng, X., & Zhao, R. (2007). Lamproitic rocks from a continental collision zone: evidence for recycling of subducted Tethyan oceanic sediments in the mantle beneath southern Tibet. Journal of Petrology, 48(4), 729-752. Gao, Y., Wei, R., Ma, P., Hou, Z., & Yang, Z. (2009). Post-collisional ultrapotassic volcanism in the Tangra Yumco-Xuruco graben, south Tibet: constraints from geochemistry and Sr–Nd–Pb isotope. Lithos, 110(1-4), 129-139. Ding, L., Kapp, P., Zhong, D., & Deng, W. (2003). Cenozoic volcanism in Tibet: evidence for a transition from oceanic to continental subduction. Journal of Petrology, 44(10), 1833-1865.
Zhao, Z., Mo, X., Dilek, Y., Niu, Y., DePaolo, D. J., Robinson, P., ... & Luo, Z. (2009). Geochemical and Sr–Nd–Pb–O isotopic compositions of the post-collisional ultrapotassic magmatism in SW Tibet: petrogenesis and implications for India intra-continental subduction beneath southern Tibet. Lithos, 113(1-2), 190-212.
      • Saga County
Mo, X., Zhao, Z., Deng, J., Flower, M., Yu, X., Luo, Z., ... & Wang, L. (2006). Petrology and geochemistry of postcollisional volcanic rocks from the Tibetan plateau: implications for lithosphere heterogeneity and collision-induced asthenospheric mantle flow. SPECIAL PAPERS-GEOLOGICAL SOCIETY OF AMERICA, 409, 507. Zhao, Z., Mo, X., Dilek, Y., Niu, Y., DePaolo, D. J., Robinson, P., ... & Luo, Z. (2009). Geochemical and Sr–Nd–Pb–O isotopic compositions of the post-collisional ultrapotassic magmatism in SW Tibet: petrogenesis and implications for India intra-continental subduction beneath southern Tibet. Lithos, 113(1-2), 190-212.
  • Xinjiang
    • Tulufan Prefecture (Turfan Prefecture; Turpan Prefecture)
      • Shanshan Co. (Piqan Co.; Pichan Co.)
[Albitophyre] Han, C., Xiao, W., Zhao, G., Su, B., Sakyi, P. A., Ao, S., ... & Zhang, Z. (2014). Late Paleozoic metallogenesis and evolution of the East Tianshan Orogenic Belt (NW China, Central Asia Orogenic Belt). Geology of Ore Deposits, 56(6), 493-512.
    • Yili Hasake Autonomous Prefecture (Ili Kazakh Autonomous Prefecture)
      • Aletai Prefecture (Altay Prefecture)
        • Fuyun Co. (Koktokay Co.)
Liu, X., Liu, W., Xiao, W., & Wei, Y. (2016). Multiple sources and genesis of the Suoerkuduke Cu-Mo deposit during the Carboniferous, East Junggar: Insights from zircon U-Pb age and COS-Pb isotopes. Ore Geology Reviews.
  • Yunnan
    • Chuxiong
      • Nanhua County
HOUJUN, M., JIZU, T., XINGCHUN, Z., MINGKUN, W., & RUGANG, S. (1989). Ultrapotassic rocks in Qinghai-Xizang (Tibet) Plateau and adjacent areas and their tectonic circumstances. In Developments in geoscience. Chinese Academy of Sciences, contribution to international geological congress. 28 (pp. 119-128).
Denmark
 
  • Greenland
    • Kujalleq
      • Narsaq
        • Ilímaussaq complex
          • Kvanefjeld (Kuannersuit Plateau)
Petersen, O. V. & Johnsen, O. (2005): Mineral species first described from Greenland. Canadian Mineralogist, Special publication no. 8.
Egypt
 
  • Red Sea
    • Eastern Desert
      • Central Eastern Desert
El-Naby, H. H. A. (2009). Role of geochemical alteration on the formation of secondary Zr-and U-bearing minerals in El Atshan trachyte, central Eastern Desert, Egypt. Journal of Mineralogical and Petrological Sciences, 104(1), 37-51.
      • Wadi Allaqi District
Zoheir, B., Emam, A., Pitcairn, I. K., Boskabadi, A., Lehaye, Y., & Cooper, M. J. (2018). Trace elements and isotope data of the Um Garayat gold deposit, Wadi Allaqi district, Egypt. Mineralium Deposita, 1-16.
Eritrea
 
  • Northern Red Sea Region
Namias, I. (1892) Contributo allo studio di alcune rocce d'Abissinia. Atti della Società dei Naturalisti e Matematici di Modena, serie 3, 12 (27), 87-94.
Namias, I. (1892) Contributo allo studio di alcune rocce d'Abissinia. Atti della Società dei Naturalisti e Matematici di Modena, serie 3, 12 (27), 87-94.
France
 
  • French Southern and Antarctic Lands
    • Kerguelen Islands
Renac, C., Kyser, K., Bowden, P., Moine, B., & Cottin, J. Y. (2010). Hydrothermal fluid interaction in basaltic lava units, Kerguelen Archipelago (SW Indian Ocean). European Journal of Mineralogy, 22(2), 215-234.
Germany
https://en.wikipedia.org/wiki/Geology_of_Germany
  • North Rhine-Westphalia
    • Cologne
      • Rhein-Sieg-Kreis
        • Königswinter
Krul, H. (1969) Geologische zwerftochten. N.V. W.J. Thieme & Cie - Zutphen, Netherlands, 161 pages (in Dutch).; Pape, H. (1974) Der Gesteinssammler. Franck'sche Verlagshandlung, W. Keller & Co, Stuttgart, 100 pages.
        • Wachtberg
Meyer, W. (1983) Geologischer Wanderführer: Eifel. Franckh'sche Verlangshandlung W. Keller & Co., Stuttgart.
Meyer, W. (1983) Geologischer Wanderführer: Eifel. Franckh'sche Verlangshandlung W. Keller & Co., Stuttgart.
  • Rhineland-Palatinate
    • Ahrweiler
      • Adenau
        • Quiddelbach
[Peralkaline trachyte] Meyer, W. (1983) Geologischer Wanderführer: Eifel. Franckh'sche Verlangshandlung W. Keller & Co., Stuttgart.
    • Vulkaneifel
      • Kelberg
        • Reimerath
Automatically generated from locality name Meyer, W. (1983) Geologischer Wanderführer: Eifel. Franckh'sche Verlangshandlung W. Keller & Co., Stuttgart.
Honduras
 
  • Lempira Department
    • San Andrés
      • Sosoal
Sinkankas, J. (1976) Gemstones of North America, vol. 2, p. 67.
Iceland
 
  • Southern Region
    • Rangárþing eystra
Balić-Žunić, T., Garavelli, A., Jakobsson, S. P., Jonasson, K., Katerinopoulos, A., Kyriakopoulos, K., & Acquafredda, P. (2016). Fumarolic minerals: An overview of active European volcanoes. In Updates in Volcanology-From Volcano Modelling To Volcano Geology. InTechOpen.
India
 
  • Gujarat
    • Chhota Udaipur District
Sethna, S. F., SF, S., & SM, B. (1981). Petrology of the carbonatites and associated alkaline rocks of Siriwasan, Chhota Udaipur. Journal of the Geological Society of India, 22, 417-425. Gwalani, L. G., Rock, N. M. S., Chang, W. J., Fernandez, S., Allegre, C. J., & Prinzhofer, A. (1993). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Igneous Province, Gujarat, India: 1. Geology, petrography and petrochemistry. Mineralogy and Petrology, 47(2-4), 219-253. Sukheswala, R. N., & Borges, S. M. (1975). The carbonatite-injected sandstones of Siriwasan, Chhota Udaipur, Gujarat. Indian Jour. Earth Sci, 2(1), 1-10.
  • Karnataka
    • Chamarajanagar District
[Solvsbergite] MAKKONEN, H., LAAJOKI, K., & DEVARAJU, T. 1993. MINERAL CHEMISTRY OF CLINOPYROXENE AND FELDSPARS IN THE NEOPROTEROZOIC ALKALINE DYKES OF THE BANGALORE DISTRICT, KARNATAKA, INDIA. Bulletin of the Geological Society of Finland, 65, 77-88.
    • Ramanagara District
[Solvsbergite] Devaraju, T.C., Laajoki, K., Makkonen, H., Khandali, S.D., Ugarkar, A.G. & Jamakhandi, M.S.R. 1995. Neo-Proterozoic dyke swarms of southern Karnataka: Part I: Field characters, petrography and mineralogy. Memoir, Geological Society of India, 33, 209-265. Devaraju, T.C., Laajoki, K., Zozulya, D., Khanadali, S.D., & Ugarkar, A.G. 1995. Neo-Proterozoic dyke swarm of southern Karnataka: Part II: Geochemistry, oxygen isotope composition, Rb-Sr age and petrogenesis. Memoir, Geological Society of India, 33, 267-306. Ikramuddin, M., & Stueber, A. M. (1976). Rb-Sr ages of Precambrian dolerite and alkaline dikes, southeast Mysore state, India. Lithos, 9(3), 235-241.
  • Meghalaya
    • East Garo Hills District
KUMAR, S., DHANA RAJU, R., Varma, H. M., & Dougall, N. K. (1984). Cancrinite-tinguaite and K-rich tachyte in the Nongcharam-Darugiri area of east Garo Hills district, Meghalaya: a preliminary study. Journal of the Geological Society of India, 25(8), 528-532.
    • West Khasi Hills District
RAGHAVAN NAMBIAR, A. (1987). Alkaline magmatism in parts of West Khasi Hills and East Garo Hills district, Meghalaya. Records of the Geological Survey of India, 115(3-4), 25-44. Ray, J. S., Ramesh, R., & Pande, K. (1999). Carbon isotopes in Kerguelen plume-derived carbonatites: evidence for recycled inorganic carbon. Earth and Planetary Science Letters, 170(3), 205-214. Sarkar, A., Datta, A. K., Poddar, B. C., Bhattacharyya, B. K., Kollapuri, V. K., & Sanwal, R. (1996). Geochronological studies of Mesozoic igneous rocks from eastern India. Journal of Southeast Asian Earth Sciences, 13(2), 77-81.
  • Rajasthan
    • Barmer District
Bhushan, S.K. 2000 Neoproterozoic magmatism of the Malani Igneous Suite western Rajasthan, Indian. Geological Survey of India, Special Publications, 55, 319-332. Bhushan, S. K., & Chittora, V. K. (1999). Late Proterozoic bimodal volcanic assemblage of Siwana subsidence structure, Western Rajasthan, India. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 53, 433-452. Dhar, S., Frei, R., Kramers, J. D., Nagler, T. F., & Kochhar, N. (1996). Sr, Pb and Nd isotope studies and their bearing on the petrogenesis of the Jalor and Siwana complexes, Rajasthan, India. Journal of the Geological Society of India, 48(2), 151-160. Eby, G. N., & Kochhar, N. (1990). Geochemistry and petrogenesis of the Malani igneous suite, North Peninsular India. J. Geol. Soc. India, 36(2), 109-130. Maheshwari, A., Coltorti, M., Rajput, S. K., & Verma, M. (2009). Geochemical characteristics, discrimination and petrogenesis of Neoproterozoic peralkaline granites, Barmer District, SW Rajasthan, India. International Geology Review, 51(12), 1103-1120. Singh, A. K., & Vallinayagam, G. (2009). Radioactive element distribution and rare-metal mineralization in anorogenic acid volcano-plutonic rocks of the Neoproterozoic Malani Felsic Province, Western Peninsular India. Journal of the Geological Society of India, 73(6), 837-853. Singh, A. K., Singh, R. B., & Vallinayagam, G. (2006). Anorogenic Acid Volcanic rocks in the Kundal area of the Malani Igneous Suite, Northwestern India: geochemical and petrogenetic studies. Journal of Asian Earth Sciences, 27(4), 544-557.
    • Jodhpur district
      • Sirohi district
Subrahmanyam, N. P., & Rao, G. V. D. (1977). Petrography, geochemistry and origin of the carbonatite veins of Mer pluton, Mundwara igneous complex, Rajasthan. Geological Society of India, 18(7), 306-322. LE-BAS, M. J., & Srivastava, R. K. (1989). The mineralogy and geochemistry of the Mundwara carbonatite dykes, Sirohi District, Rajasthan, India. Neues Jahrbuch für Mineralogie. Abhandlungen, (2), 207-227. Subrahmanyam, N. P., & Leelanandam, C. (1991). Geochemistry and petrology of the cumulophyric layered suite of rocks from the Toa pluton of the Mundwara alkali igneous complex, Rajasthan. Journal of the Geological Society of India, 38(4), 397-411. Narayan Das, G.R., Sharma, C.V. & Navaneetham, K.V. 1982. Carbonate-alkaline Complex of Mundwara. Journal of the Geological Society of India, 23, 604-609.
Indonesia
 
  • East Nusa Tenggara Province
Brouwer, H.A. 1927. On the age of alkaline rocks from the Island of Timor. Proceedings. Koninklijke Nederlandse Akademie van Wetenschappen, Amsterdam, 31, 56-58. Roever, W. P. (1940). Olivine-basalts and their alkaline differentiates in the Permian of Timor. In: Geological Expedition of the University of Amsterdam to the Lesser Sunda Islands in the South Eastern Part of the Netherlands East Indies 1937 under Leadership of H.A. Brouwer, 4, 209-289. Simons, A.L. 1940. Geological investigations in N.E. Netherlands Timor. In: Geological Expedition of the University of Amsterdam to the Lesser Sunda Islands in the south eastern part of the Netherlands East Indies 1937 under leadership of H.A.Brouwer, Vol. 1, 107-213.; Brouwer, H.A. 1927. On the age of alkaline rocks from the Island of Timor. Proceedings. Koninklijke Nederlandse Akademie van Wetenschappen, Amsterdam, 31, 56-58. Roever, W. P. (1940). Olivine-basalts and their alkaline differentiates in the Permian of Timor. In: Geological Expedition of the University of Amsterdam to the Lesser Sunda Islands in the South Eastern Part of the Netherlands East Indies 1937 under Leadership of H.A. Brouwer, 4, 209-289. Simons, A.L. 1940. Geological investigations in N.E. Netherlands Timor. In: Geological Expedition of the University of Amsterdam to the Lesser Sunda Islands in the south eastern part of the Netherlands East Indies 1937 under leadership of H.A.Brouwer, Vol. 1, 107-213.
Roever, W. P. (1940). Olivine-basalts and their alkaline differentiates in the Permian of Timor. In: Geological Expedition of the University of Amsterdam to the Lesser Sunda Islands in the South Eastern Part of the Netherlands East Indies 1937 under Leadership of H.A. Brouwer, 4, 209-289. Brouwer, H.A. 1927. On the age of alkaline rocks from the Island of Timor. Proceedings. Koninklijke Nederlandse Akademie van Wetenschappen, Amsterdam, 31, 56-58.
  • South Sulawesi Province
Elburg, M. A., van Leeuwen, T., & Foden, J. (2002). Origin of geochemical variability by arc–continent collision in the Biru area, southern Sulawesi (Indonesia). Journal of Petrology, 43(4), 581-606. Van Leeuwen, T. M. (1981). The geology of southwest Sulawesi with special reference to the Biru area. The Geology and Tectonics of Eastern Indonesia, 277-304.
Iddings, J. P., & Morley, E. W. (1915). Contributions to the petrography of Java and Celebes. The Journal of Geology, 23(3), 231-245.
Iran
 
  • East Azerbaijan Province
    • Ahar County
Woolley, A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe (excluding the former USSR), Australasia and Oceanic Islands. Geological Society, 384 pages, p.131. Alberti, A. A., Comin-Chiaramonti, P., Di Battistini, G., Nicoletti, M., Petrucciani, C., & Sinigoi, S. (1976). Geochronology of the Eastern Azerbaijan volcanic plateau (northwest Iran). Rend. Soc. Ital. Mineral. Petrol, 32(2), 579-589. Alberti, A., Comin‐Chiaramonti, P., Di Battistini, G., Sinigoi, S., & Zerbi, M. (1979). Upper Eocene to early Oligocene shoshonitic volcanism in eastern Azerbaijan. Neues Jahrb. Mineral Abh, 134, 248-264. Alberti, A., Comin‐Chiaramonti, P., Di Battistini, G., Fioriti, R. & Sinigoi, S. 1981. Crystal fractionation in the eastern Azerbaijan (Iran) Lower Tertiary shoshonitic suite. Neues Jahrbuch für Mineralogie Monatshefte, 35-48. Riou, R., Dupuy, C., & Dostal, J. (1981). Geochemistry of coexisting alkaline and calc-alkaline volcanic rocks from northern Azerbaijan (NW Iran). Journal of Volcanology and Geothermal Research, 11(2-4), 253-275.
    • Osku County
Moine-Vaziri, H., Khalili-Marandi, S., & Brousse, R. (1991). Importance d'un volcanisme potassique, au Miocène supérieur, en Azerbaidjan (Iran). Comptes rendus de l'Académie des sciences. Série 2, Mécanique, Physique, Chimie, Sciences de l'univers, Sciences de la Terre, 313(13), 1603-1610. Le Maitre, R. W., Streckeisen, A., Zanettin, B., LeBase, M. J., Bonin, B., Batemen, P., ... & Lameyre, J. 2002, Igneous rocks: A classification and glossary of Terms. Moayyed, M., Moazzen, M., Calagari, A. A., Jahangiri, A., & Modjarrad, M. (2008). Geochemistry and petrogenesis of lamprophyric dykes and the associated rocks from Eslamy peninsula, NW Iran: Implications for deep-mantle metasomatism. Chemie der Erde-Geochemistry, 68(2), 141-154. Stocklin, J., & Nabavi, M. H. (1973). Tectonic map of Iran. Geological Survey of Iran, Tehran. Pang, K. N., Chung, S. L., Zarrinkoub, M. H., Lin, Y. C., Lee, H. Y., Lo, C. H., & Khatib, M. M. (2013). Iranian ultrapotassic volcanism at~ 11 Ma signifies the initiation of post‐collisional magmatism in the A rabia–E urasia collision zone. Terra Nova, 25(5), 405-413.
  • Razavi Khorasan Province
    • Nishapur County
      • Nishâpûr (Nishabur; Neyshabur)
        • Ali-mersai mountain
Gübelin, E., Wolgensinger, M. (1976) Edelstenen. Uitgeverij Artis, Brussel [in Dutch].
  • Tehran Province
Bazargani-Guilani, K., & Rabbani, M. S. (2004). Amygdaloidal and other cavity filling zeolites of Kuh-e-Aradeh, Central Iran. Journal of Sciences, Islamic Republic of Iran, 15(2), 149-157.
Italy
 
  • Lazio
    • Viterbo Province
      • Bagnoregio
        • Ponzano
Automatically generated from locality name
      • Bolsena
Automatically generated from locality name
      • Gradoli
Automatically generated from locality name
  • Sicily
    • Trapani Province
Civetta, L., D ‘Antonio, M., Orsi, G., & Tilton, G. R. (1998). The geochemistry of volcanic rocks from Pantelleria Island, Sicily Channel: petrogenesis and characteristics of the mantle source region. Journal of Petrology, 39(8), 1453-1491.
  • Tuscany
    • Grosseto Province
      • Castel del Piano
Del Caldo, A., Moro, C., Gramaccioli, C.M., and Boscardin, M. (1973) Guida ai minerali. Fratelli Fabbri Editori, Milano, 208 pp.
Kenya
 
  • Kajiado County
Nash, W.P., Carmichael, I.S.E., Hohnson, R.W. (1969) The Mineralogy and Petrology of Mount Suswa, Kenya. Journal of Petrology, 10:3, 409-439.
Kosovo
 
  • District of Kosovska Mitrovica
    • Kosovska Mitrovica
      • Trepča valley
        • Trepča complex
Kołodziejczyk, J., Pršek, J., Melfos, V., Voudouris, P. C., Maliqi, F., & Kozub-Budzyń, G. (2015). Bismuth minerals from the Stan Terg deposit (Trepça, Kosovo). Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 192(3), 317-333.
Madagascar
 
  • Vakinankaratra
    • Antsirabe I
Lacroix, A. (1922): Mineralogie de Madagascar, Tome I. Géologie-Minéralogie descriptive. A.Challamel (Éditeur), Paris. 624p. (p.563)
    • Faratsiho
      • Faratsiho Commune
Alsace, C. (1963) Etude Geologique et prospection de la feuille Faratsiho. Travaux du Bureau Geologique nr 112, Service Geologique, Tananarive.
Mauritania
 
  • Adrar Region
    • Ksar El Barka
Mauritanian Geological Survey (1995) database
  • Tiris Zemmour Region
    • Ain Ben Tili
Mauritanian Geological Survey (1995) database
    • Blekhzaymat
Mauritanian Geological Survey (1995) database
Mauritanian Geological Survey (1995) database
    • El Hassan Ould Hamed
Mauritanian Geological Survey (1995) database
  • Trarza Region
    • Bir Allah
Mauritanian Geological Survey (1995) database
Mauritanian Geological Survey (1995) database
Namibia
 
  • ǁKaras Region
    • ǃNamiǂNûs Constituency
Reid, D. L., & Cooper, A. F. (1998, April). Carbonatite and silicate magmas at Dicker Willem, southern Namibia: their origin and source region characteristics. In International Kimberlite Conference: Extended Abstracts (Vol. 7, No. 1, pp. 727-729).
Netherlands
 
  • Utrecht
Krul, H. (1969) Geologische zwerftochten. N.V. W.J. Thieme & Cie - Zutphen, Netherlands, 161 pp. (in Dutch).
New Zealand
 
  • Canterbury Region
    • Christchurch City
      • Lyttelton
Speight, R. (1907) On a Soda Amphibole Trachyte from Cass's Peak, Banks Peninsula. Transactions of the New Zealand Institute, 40: Art. XIV, 176-184.
Campbell, H.J., Andrews, P.B., Beu, A.G., Edwards, A.R., Hornibrook, N. deB., Laird, M.G., Maxwell, P.A., Watters, W.A. (1988) Cretaceous-Cenozoic lithostratigraphy of the Chatham Islands. Journal of the Royal Society of New Zealand, 18:3, 285-308.
  • Nelson Region
[Keratophyre] Lauder, W.R. (1964) The geology of Pepin Island and part of the adjacent mainland. New Zealand Journal of Geology and Geophysics, 7:1, 205-241.
  • New Zealand Outlying Islands
Gamble, J., Adams, C. (1985) Volcanic geology of Carnley volcano, Auckland Islands. New Zealand Journal of Geology and Geophysics, 28,43-54.
    • Campbell Island group
Adams, C.J., Morris, P.A., Beggs, J.M. (1979) Age and correlation of volcanic rocks of Campbell Island and Metamorphic basement of the Campbell Plateau, South-west Pacific. New Zealand Journal of Geology and Geophysics, 22:6, 679-691.
Adams, C.J., Morris, P.A., Beggs, J.M. (1979) Age and correlation of volcanic rocks of Campbell Island and Metamorphic basement of the Campbell Plateau, South-west Pacific. New Zealand Journal of Geology and Geophysics, 22:6, 679-691.
  • Otago Region
    • Dunedin City
McLeod, O.E., White, J.D.L. (2018) Petrogenetic links between the Dunedin Volcano and peripheral volcanics of the Karitane Suite. New Zealand Journal of Geology and Geophysics, 61(4), 543-561.
      • Otago Peninsula
        • Portobello
Graham, I.T., Colchester, D.M., Harris, S., Lay, A., Burkett, D., Thornton, J. (2018) Aluminoceladonite pseudomorphs after euhedral nepheline from Pudding Island, near Portobello, Dunedin, New Zealand. Australian Journal of Mineralogy, 19:2, 21-25.
North Korea
 
  • Ryanggang Province
[Peralkaline trachyte] Woolley, A.R. (2019) Alkaline Rocks and Carbonatites of the World, Part 4
Norway
 
  • Akershus
    • Eidsvoll
      • Minnesund
[Maenaite] Nordrum, F.S., Raade, G. (2006): The emerald deposit at Byrud, Eidsvoll, S. Norway. Norsk Bergverkmuseums Skrift. 33, 9-16
Prestvik, T., Goldberg, S., and Goles, G.G. (1999) Petrogenesis of the volcanic suite of Bouvetøya (Bouvet Island), South Atlantic. Norsk Geologisk Tidsskrift, 79, 205-218.
  • Hedmark
    • Folldal
      • Folldal Mines
[Keratophyre] Geological Survey of Norway. The Ore Database. Deposit Area 08.feb.2017. Grimsdalen.
[Keratophyre] Geological Survey of Norway. The Ore Database. Deposit Area 439 - 006. Nygruva.
[Keratophyre] Geological Survey of Norway. The Ore Database. Deposit Area 439 - 013. Geiteryggen.
  • Hordaland
    • Bømlo
[Keratophyre] Geological Survey of Norway. The Ore database. Deposit Area 1219 - 032. Folderøy fyr.
  • Troms
    • Karlsøy
[Keratophyre] Geological Survey of Norway. The Ore Database. Deposit Area 1936 - 058. Hårskoltan
[Keratophyre] Geological Survey of Norway. The Ore Database. Deposit Area 1936 - 012. Sørdalshøgda
  • Trøndelag
    • Røyrvik
[Keratophyre] Geological Survey of Norway. The Ore Database. Deposit Area 1739 - 034. Gjersvik
    • Trondheim
      • Byneset
[Keratophyre] Rø, G. & Midtsian, A. (1995) Bymarka.Geologi og gruvedrift i byens utmark. Bergvesenet Rapport 4580.
  • Vestfold
    • Holmestrand
      • Hof
Larsen, K. E. & Larsen, S. (2004): Mineralforekomster på Vestfold lavaplatå. Del 1: I rombeporfyrene. Norsk Bergverksmuseum Skrift, 28: 51-58
    • Larvik
      • Hedrum
Geological Survey of Norway. The Ore Database. Deposit Area 709 - 006. Sæteråsen.
Pacific Ocean
 
Astakhova, N. V., & Kolesnik, O. N. (2014). Ore mineralization in volcanic rocks from the submarine rises of the Sea of Japan. Geochemistry International, 52(2), 144-161.
Astakhova, N. V., & Kolesnik, O. N. (2014). Ore mineralization in volcanic rocks from the submarine rises of the Sea of Japan. Geochemistry International, 52(2), 144-161.
Poland
 
  • Lower Silesian Voivodeship
    • Jawor County
      • Gmina Bolków
[Keratophyre] Muszer J., Muszer A. (2017) Konflikt pomiędzy wykorzystaniem gospodarczym regionu a ochroną przyrody na przykładzie Wojcieszowa
    • Złotoryja Co.
      • Wojcieszów
[Keratophyre] http://przyrodniczo.pl/cenne-tereny/kamieniolom-gruszka/
  • Podlaskie Voivodeship
Specjalne, P. T. M. P. (2005) Fluid Inclusions and Cathodoluminescence of Fluorite from Carbonatites of the Tajno Massif, NE Poland. in Mineralogical Society of Poland – Special Papers; Volume 26, 2005
Portugal
 
  • Lisbon
    • Sintra
      • São João das Lampas
        • Magoito
Rui Nunes' info
  • Madeira
    • Porto Santo Island
Rui Nunes' info 2019
A geological tour of the Archipelago of Madeira: Maria Luisa Ribeiro, Miguel Magalhães Ramalho; Direcção Regional do Comércio, Indústria e Energia & Laboratório Nacional de Energia e Geologia, I.P. - Lisbon, August 2010
Rui Nunes' info 2019
Russia
 
  • Kabardino-Balkaria
Kaigorodova, E. N. (2017). Rare-earth and Rare-metal Mineralization in Trachytes of the Khulam Complex (Kabardino-balkaria Republic, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 87-89).
  • Khakassia
Zanin, Y. N., Tsykin, R. A., & Dar’in, A. V. (2005). Phosphorites of the Arkheologicheskaya cave (Khakassia, east Siberia). Lithology and Mineral Resources, 40(1), 48-55.
    • Askizsky Rayon
Kassandrov, E. G., & Mazurov, M. P. (2009). Magmatogenic manganese ores of the South Minusa Intermontane Trough. Geology of Ore Deposits, 51(5), 356.
  • Murmansk Oblast
[Peralkaline trachyte] Kogarko et al. (1995) Alkaline Rocks and Carbonatites of the World, Part 2 Former USSR
Spain
 
  • Canary Islands
    • Las Palmas Province
      • Fuerteventura
http://www.atan.org/geologia/articulos/Fuerteventura.pdf
USA
 
  • Arizona
    • Mohave County
      • Oatman Mining District
        • Oatman
          • Boundary Cone
USGS (2005), Mineral Resources Data System (MRDS): U.S. Geological Survey, Reston, Virginia, deposit ID #10027922.
  • California
    • San Bernardino Co.
      • Bullion Mts (Bullion Range)
USGS (2005), Mineral Resources Data System (MRDS): U.S. Geological Survey, Reston, Virginia, loc. file ID #10035768.
      • Ord Mining District
        • Ord Mts
          • Ord Mountain
[Keratophyre] Weber, F.H., Jr. (1963c), Geology and mineral deposits of the Ord Mountain district San Bernardino County, California: California Division Mines & Geology Special Report 77: 25.
  • Colorado
    • Custer Co.
      • Rosita Mining District
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
      • Silver Cliff Mining District
From USGS MRDS database
    • Fremont Co.
      • Tallahassee Creek Mining District
From USGS MRDS database
    • Gunnison Co.
      • Goose Creek Mining District
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
      • Vulcan Mining District (Cebolla Mining District; Domingo Mining District)
From USGS MRDS database
    • Saguache Co.
      • Jacks Creek Area
From USGS MRDS database
    • Teller Co.
      • Cripple Creek Mining District
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Hawaii
    • Maui Co.
      • Maui
        • Lahaina
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Idaho
    • Adams Co.
      • Seven Devils Mining District
[Keratophyre] From USGS MRDS database
[Keratophyre] From USGS MRDS database
[Keratophyre] From USGS MRDS database
[Keratophyre] From USGS MRDS database
[Keratophyre] From USGS MRDS database
    • Bonneville Co.
      • Mount Pisgah Mining District
        • Caribou City-Stump Creek Area MLA
From USGS MRDS database
From USGS MRDS database
From USGS MRDS database
      • Willow Creek - Caribou Mining District
From USGS MRDS database
  • Minnesota
    • Beltrami Co.
From USGS MRDS database
  • Montana
    • Deer Lodge Co.
      • Lost Creek Mining District
From USGS MRDS database
  • Nevada
    • Esmeralda Co.
      • Royston Mining District
U.S. Geological Survey (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • New Mexico
    • Santa Fe Co.
      • Old Placers District
        • Golden
U.S. Geological Survey (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Socorro Co.
      • Socorro Peak District
U.S. Geological Survey (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Oregon
    • Baker Co.
      • Baker Mining District (Pocahontas Mining District)
[Keratophyre] From USGS MRDS database
[Keratophyre] From USGS MRDS database
      • Eagle Creek Mining District
[Keratophyre] From USGS MRDS database
  • Utah
    • Garfield Co.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
      • Henry Mts
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.; U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Iron Co.
      • Enterprise
From USGS MRDS database
    • Utah Co.
      • Oquirrh Mts
        • Bingham Mining District
From USGS MRDS database
  • Wyoming
    • Crook Co.
From USGS MRDS database
 
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