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Foiditoid

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About FoiditoidHide

Fine grained igneous rocks with >60% foids.


Classification of FoiditoidHide

QAPF_V_15a,15b,15c.png

Foiditic rock appears in fields 15a, 15b and 15c in the QAPF diagram.

Sub-divisions of FoiditoidHide

Synonyms of FoiditoidHide

Internet Links for FoiditoidHide

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https://www.mindat.org/min-50679.html
Please feel free to link to this page.

Localities for FoiditoidHide

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.
Africa
 
[Leucitite] Denaeyer, M. E., & Schellinck, F. (1965). Recueil d'analyses des laves du fosse tectonique de l'Afrique Centrale (Kivu, Rwanda, Toro-Ankole). Musée royal de l'Afrique centrale. Marcelot, G., & Rançon, J. P. (1988). Mineral chemistry of leucitites from Visoke Volcano (Virunga Range, Rwanda): petrogenetic implications. Mineralogical Magazine, 52(368), 603-613. doi.org/10.1180/minmag.1988.052.368.05 De Mulder, M., & Pasteels, P. (1986). K Ar geochronology of the Karisimbi volcano (Virunga, Rwanda-Zaire). Journal of African Earth Sciences (1983), 5(6), 575-579. doi.org/10.1016/0899-5362(86)90023-0
[Ankaratrite] Marcelot, G., Rançon, J. P., & Demange, J. (1985). The potassic series of Karisimbi volcano (Virunga range, Rwanda): Volcanological and petrological aspects. Journal of volcanology and geothermal research, 26(1-2), 99-129. doi.org/10.1016/0377-0273(85)90048-4 De Mulder, M. (1985). The Karisimbi volcano (Virunga). Annales-Musée royal de l'Afrique Centrale. Sciences géologiques, (90). De Mulder, M., & Pasteels, P. (1986). K Ar geochronology of the Karisimbi volcano (Virunga, Rwanda-Zaire). Journal of African Earth Sciences (1983), 5(6), 575-579. doi.org/10.1016/0899-5362(86)90023-0 De Mulder, M., Hertogen, J., Deutsch, S., & André, L. (1986). The role of crustal contamination in the potassic suite of the Karisimbi volcano (Virunga, African Rift Valley). Chemical geology, 57(1-2), 117-136. doi.org/10.1016/0009-2541(86)90097-5 Rogers, N. W., De Mulder, M., & Hawkesworth, C. J. (1992). An enriched mantle source for potassic basanites: evidence from Karisimbi volcano, Virunga volcanic province, Rwanda. Contributions to Mineralogy and Petrology, 111(4), 543-556. doi.org//10.1007/BF00320908 Marcelot, G., Rançon, J. P., & Demange, J. (1985). The potassic series of Karisimbi volcano (Virunga range, Rwanda): Volcanological and petrological aspects. Journal of volcanology and geothermal research, 26(1-2), 99-129. doi.org/10.1016/0377-0273(85)90048-4 De Mulder, M. (1985). The Karisimbi volcano (Virunga). Annales-Musée royal de l'Afrique Centrale. Sciences géologiques, (90). De Mulder, M., & Pasteels, P. (1986). K Ar geochronology of the Karisimbi volcano (Virunga, Rwanda-Zaire). Journal of African Earth Sciences (1983), 5(6), 575-579. doi.org/10.1016/0899-5362(86)90023-0 De Mulder, M., Hertogen, J., Deutsch, S., & André, L. (1986). The role of crustal contamination in the potassic suite of the Karisimbi volcano (Virunga, African Rift Valley). Chemical geology, 57(1-2), 117-136. doi.org/10.1016/0009-2541(86)90097-5 Rogers, N. W., De Mulder, M., & Hawkesworth, C. J. (1992). An enriched mantle source for potassic basanites: evidence from Karisimbi volcano, Virunga volcanic province, Rwanda. Contributions to Mineralogy and Petrology, 111(4), 543-556. doi.org//10.1007/BF00320908
[Pyroxene-olivine leucitite] Antun, P., Bertossa, A., Delhaye, F., Peeters, L., Petricec, V., Salee, A. & Waleffe, A. 1971. Carte geologique du Rwanda. Feulle Ruhengeri Nord (S2/29 NW et NE). 1:100000. Institut Geographique Militaire de Belgique. Denaeyer, M. E., & Schellinck, F. (1965). Recueil d'analyses des laves du fosse tectonique de l'Afrique Centrale (Kivu, Rwanda, Toro-Ankole). Musée royal de l'Afrique centrale. Rogers, N. W., James, D., Kelley, S. P., & De Mulder, M. (1998). The generation of potassic lavas from the eastern Virunga province, Rwanda. Journal of Petrology, 39(6), 1223-1247. doi.org/10.1093/petroj/39.6.1223
Algeria
 
  • Aïn Témouchent Province
    • Béni Saf District
      • El Emir Abdelkader
[Foidite] Woolley, A (2000) Alkaline Rocks and Carbonatites of the World, Part 3: Africa
  • Tamanghasset Province
[Nephelinite] Allègre, C. J., Dupré, B., Lambret, B., & Richard, P. (1981). The subcontinental versus suboceanic debate, I Lead-neodymium-strontium isotopes in primary alkali basalts from a shield area the Ahaggar volcanic suite. Earth and Planetary Science Letters, 52(1), 85-92. Girod, M., Dautria, J. M., & De Giovanni, R. (1981). A first insight into the constitution of the upper mantle under the Hoggar area (southern Algeria): the lherzolite xenoliths in the alkali-basalts. Contributions to Mineralogy and Petrology, 77(1), 66-73. Dautria, J. M., Liotard, J. M., Cabanes, N., Girod, M., & Briqueu, L. (1987). Amphibole-rich xenoliths and host alkali basalts: petrogenetic constraints and implications on the recent evolution of the upper mantle beneath Ahaggar (Central Sahara, Southern Algeria). Contributions to Mineralogy and Petrology, 95(2), 133-144. Dautria, J. M., Dostal, J., Dupuy, C., & Liotard, J. M. (1988). Geochemistry and petrogenesis of alkali basalts from Tahalra (Hoggar, Northwest Africa). Chemical Geology, 69(1-2), 17-35. Leblanc, M., Dautria, J. M., & Girod, M. (1982). Magnesian ilmenitite xenoliths in a basanite from Tahalra, Ahaggar (Southern Algeria). Contributions to Mineralogy and Petrology, 79(4), 347-354
Angola
 
  • Cuanza Norte Province
[Clinopyroxene-leucite nephelinite] de Andrade, M. M. (1959). Análises químicas de rochas eruptivas de Angola, publicadas até fins de 1959. Publicacoes do Museu e Laboratorio Mineralogico e Geologico da Faculdade de Ciencias do Porto, (4 Serie), 76.
  • Namibe Province
    • Moçâmedes
[Nephelinite] Andrade, M.M. de 1957. Rochas vulcanicas da orla mesocenozoica entre Benguela e Mocamedes. Garcia de Orta. Revista da Junta de Investigacoes do Ultramar, 5, 739-768. Lapido-Loureiro, F.E. 1967. Consideracoes sobre o quimismo dos sienitos nefelinicos. Breves referencias a rochas alcalinas de Angola e ao seu interesse economico. Boletim do Instituto de Investigacao Cientifica de Angola, 4, 37-65. Beetz, P. F. W. (1934). Geology of south west Angola, between Cunene and Lunda axis. South African Journal of Geology, 37(1), 137-176.
Antarctica
 
  • Eastern Antarctica
    • Queen Maud Land
[Nephelinite] Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 11
  • Kaiser Wilhelm II Land
[Leucitite] Collerson, K. D., & McCulloch, M. T. (1983). Nd and Sr isotope geochemistry of leucite-bearing lavas from Gaussberg, East Antarctica. In Antarctic earth science. International symposium. 4 (pp. 676-680). Sheraton, J. W., & Cundari, A. (1980). Leucitites from gaussberg, Antarctica. Contributions to Mineralogy and Petrology, 71(4), 417-427.
Atlantic Ocean
 
  • Gorringe Ridge
[Nephelinite] Chernysheva, E. A., & Kharin, G. S. (2012). Melilitites in the alkaline volcanic succession of the Gorringe bank, Southwestern Portugal. Geochemistry International, 50(1), 54-62. doi.org/10.1134/S0016702912010028 Cornen, G. (1982). Petrology of the alkaline volcanism of Gorringe Bank (southwest Portugal). Marine Geology, 47(1-2), 101-130. doi.org/10.1016/0025-3227(82)90022-6 Féraud, G., York, D., Mével, C., Cornen, G., Hall, C. M., & Auzende, J. M. (1986). Additional 40Ar-39Ar dating of the basement and the alkaline volcanism of Gorringe Bank (Atlantic Ocean). Earth and Planetary Science Letters, 79(3-4), 255-269. doi.org/10.1016/0012-821X(86)90184-6 Bernard-Griffiths, J., Gruau, G., Cornen, G., Azambre, B., & Macé, J. (1997). Continental lithospheric contribution to alkaline magmatism: isotopic (Nd, Sr, Pb) and geochemical (REE) evidence from Serra de Monchique and Mount Ormonde complexes. Journal of Petrology, 38(1), 115-132. doi.org/10.1093/petroj/38.1.115
[Foidite] Peive, A. A. (2005). Alkaline volcanism of the Rio Grande Plateau, South Atlantic. In Doklady earth sciences (Vol. 401, No. 3, pp. 391-394). Pleiades Publishing, Ltd.(Плеадес Паблишинг, Лтд).
Australia
 
[Leucitite] Cundari, A. (1973). Petrology of the leucite‐bearing lavas in New South Wales. Journal of the Geological Society of Australia, 20(4), 465-492. Cundari, A., & Salviulo, G. (1989). Ti solubility in diopsidic pyroxene from a suite of New South Wales leucitites (Australia). Lithos, 22(3), 191-198. Cundari, A. (1989). East Australian leucitite suite. Intraplate Volcanism in Eastern Australia and New Zealand, 131-132. Ferguson, A. K., & Cundari, A. (1982). Feldspar crystallization trends in leucite-bearing and related assemblages. Contributions to Mineralogy and Petrology, 81(3), 212-218.
  • New South Wales
    • Camden Co.
[Nephelinite] O'Reilly, S.Y. (1989) Southern Highlands, Grabben Gullen, Abercrombie, and Kandos. In: Johnson, R.W., Knutson, J., Taylor, S.R. (eds.) (1989) Intraplate volcanism in Eastern Australia and New Zealand. Cambridge University Press, 129-130. O'Reilly, S.Y., Griffin, W.L. (1984) Sr isotopic heterogeneity in primitive basaltic rocks, southeastern Australia: correlation with mantle metasomatism. Contributions to Mineralogy and Petrology, 87(3), 220-230.
    • Cowper Co.
      • Byrock (Byerock)
[Leucitite] Byrnes, J.G. (1993) Bourke 1:250 000 Metallogenic Map (SH/55-10): Metallogenic Study and Mineral Deposit Data Sheets. Geological Survey of New South Wales, Sydney, 127p.
    • Gloucester Co.
[Nephelinite] O'Reilly, S. Y., & Griffin, W. L. (1984). Sr isotopic heterogeneity in primitive basaltic rocks, southeastern Australia: correlation with mantle metasomatism. Contributions to Mineralogy and Petrology, 87(3), 220-230. Mason, D. R. (1989). Barrington. Intraplate volcanism in eastern Australia and New Zealand. Cambridge University Press, Melbourne, 123-124.
    • Gough Co.
[Nephelinite] Binns, R. A., Duggan, M. B., & Wilkinson, J. F. G. (1970). High pressure megacrysts in alkaline lavas from northeastern New South Wales. American Journal of Science, 269(2), 132-168. Duggan, M.B. 1989. Central and Doughboy. Lishmund, S. R., & Oakes, G. M. (1989). Gemstones. Johnson RW compil. & ed. Intraplate volcanism in eastern Australia and New Zealand, 152-155. Wellman, P., & McDougall, I. (1974). Potassium‐argon ages on the Cainozoic volcanic rocks of New South Wales. Journal of the Geological Society of Australia, 21(3), 247-272. Wilkinson, J. F. G., & Kalocsai, G. I. Z. (1973). Pyroxenite xenoliths from an alkali trachybasalt in the Glen Innes area, northeastern New South Wales. Contributions to Mineralogy and Petrology, 42(1), 15-32.
    • King Co.
[Nephelinite] O'Reilly, S. Y., & Griffin, W. L. (1984). Sr isotopic heterogeneity in primitive basaltic rocks, southeastern Australia: correlation with mantle metasomatism. Contributions to Mineralogy and Petrology, 87(3), 220-230.
    • Murray Co.
[Nephelinite] Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lamere, J. (2002). Igneous rocks: A classification and glossary of terms; Recommendations of the International Union of Geological Sciences. In Subcommission on the Systematics of Igneous rocks. Cambridge University Press. Roach, I. C., Hill, S. M., & Lewis, A. C. (2008). Evolution of a small intraplate basaltic lava field: Jerrabattgulla creek, upper shoalhaven river catchment, southeast New South Wales. Australian Journal of Earth Sciences, 55(8), 1049-1061.
    • Roxburgh Co.
[Nephelinite] Lovering, J. F., & White, A. J. R. (1964). The significance of primary scapolite in granulitic inclusions from deep-seated pipes. Journal of Petrology, 5(2), 195-218. O'Reilly, S.Y. 1989. Southern Highlands, Grabben Gullen, Abercrombie and Kandos.
[Nephelinite] Lovering, J. F., & White, A. J. R. (1964). The significance of primary scapolite in granulitic inclusions from deep-seated pipes. Journal of Petrology, 5(2), 195-218.
[Nephelinite] Mayne, S. J., Nicholas, E., Bigg-Wither, A. L., RASINI, J., & Raine, M. J. (1974). The geology of the Sydney Basin–a review. Bur. Min. Res., Geol., Geoph., Aust. Bull, 149. Gamble, J. A. (1984). Petrology and geochemistry of differentiated teschenite intrusions from the Hunter Valley, New South Wales, Australia. Contributions to Mineralogy and Petrology, 88(1-2), 173-187. Jaques, A. L., Creaser, R. A., Ferguson, J., & Smith, C. B. (1985). A review of the alkaline rocks of Australia. Verhandelinge van die Geologiese Vereniging van Suid-Afrika, 88(2), 311-334.
    • Wallace Co.
[Nephelinite] Mackenzie, D. E., & White, A. J. R. (1970). Phonolite globules in basanite from Kiandra, Australia. Lithos, 3(4), 309-317.
    • Wellesley Co.
[Nephelinite] Kesson, S. E. (1973). The primary geochemistry of the Monaro alkaline volcanics, southeastern Australia—evidence for upper mantle heterogeneity. Contributions to Mineralogy and Petrology, 42(2), 93-108. Roach, I. C. (2004). Mineralogy, textures and P–T relationships of a suite of xenoliths from the Monaro Volcanic Province, New South Wales, Australia. Journal of Petrology, 45(4), 739-758.
    • Yanda Co.
      • Tindarey
[Leucitite] Brocx, M, 2017, Heritage matters. The Australian geologist, 182, p.13-14
  • Queensland
    • Central Highlands Region
[Nephelinite] Mollan, R. G., Forbes, V. R., Jensen, A. R., Exon, N. F., & Gregory, C. M. (1972). Geology of the Eddystone and Taroon 1: 250 000 Sheet areas and the western part of the Mundubbera 1: 250 000 Sheet area. Bur. Miner. Resour. Geol. Geophys. Aust., Rep., 142. Sutherland, F. L., Hollis, J. D., & Robertson, A. D. (1989). Buckland and Mitchell. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lamere, J. (2002). Igneous rocks: A classification and glossary of terms; Recommendations of the International Union of Geological Sciences. In Subcommission on the Systematics of Igneous rocks. Cambridge University Press. Johnson, R. W. (Eds.). (1989). Intraplate volcanism: in eastern Australia and New Zealand. Cambridge University Press, 103-104.
[Nephelinite] Stephenson, P. J. (1989). Northern Queensland. Intraplate Volcanism in Eastern Australia and New Zealand, 89-97. Stephenson, P. J., & PJ, S. (1976). SAPPHIRE AND ZIRCON IN SOME BASALTIC ROCKS FROM QUEENSLAND, AUSTRALIA. 25th International Geological Congress, Sydney, Australia, 2, 602-603. Veevers, J. J., Mollan, R. G., Olgers, F., & Kirkegaard, A. G. (1964). The geology of the Emerald 1: 250 000 Sheet area, Queensland. Report of Bureau of Mineral Resources. Geology and Geophysics, 68.
[Nephelinite] Ewart, A. (1982). Petrogenesis of the Tertiary anorogenic volcanic series of Southern Queensland, Australia, in the light of trace element geochemistry and O, Sr and Pb isotopes. Journal of Petrology, 23(3), 344-382. Mollan, R. G., Dickins, J. M., Exon, N. F., & Kirkegaard, A. G. (1969). Geology of the Springsure 1: 250,000 sheet area, Queensland: Report of the Bureau of Mineral Resources. Geology and Geophysics, Australia, 123, 114. Sutherland, F. L., Hollis, J. D., & Robertson, A. D. (1989). Springsure. Johnson, R. W. (Eds.). (1989). Intraplate volcanism: in eastern Australia and New Zealand. Cambridge University Press, 103-104. Webb, A. W., & McDougall, I. (1967). A comparison of mineral and whole rock potassium-argon ages of Tertiary volcanics from central Queensland, Australia. Earth and Planetary Science Letters, 3, 41-47.
[Nephelinite] Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.256
    • Charters Towers Region
[Nephelinite] Stephenson, P. J. (1989). Northern Queensland. Intraplate Volcanism in Eastern Australia and New Zealand, 89-97.
[Nephelinite] Irving, A. J. (1980). Petrology and geochemistry of composite ultramafic xenoliths in alkalic basalts and implications for magmatic processes within the mantle. American Journal of Science, 280(2), 389-426. Kay, S. M., & Kay, R. W. (1983). Thermal history of the deep crust inferred from granulite xenoliths, Queensland, Australia. Am. J. Sci, 283, 486-513. Rudnick, R. L., McDonough, W. F., McCulloch, M. T., & Taylor, S. R. (1986). Lower crustal xenoliths from Queensland, Australia: evidence for deep crustal assimilation and fractionation of continental basalts. Geochimica et Cosmochimica Acta, 50(6), 1099-1115. Stephenson, P. J. (1989). Northern Queensland. Intraplate Volcanism in Eastern Australia and New Zealand, 89-97.
    • Cook Shire
      • Cape York Peninsula
[Nephelinite] Stolz, A. J. (1987). Fluid activity in the lower crust and upper mantle: mineralogical evidence bearing on the origin of amphibole and scapolite in ultramafic and mafic granulite xenoliths. Mineralogical Magazine, 51(5), 719-732.
[Nephelinite] Morgan, W. R. (1968). The geology and petrology of Cainozoic basaltic rocks in the Cooktown area, north Queensland. Journal of the Geological Society of Australia, 15(1), 65-78. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.252
[Nephelinite] Stephenson, P. J. (1989). Northern Queensland. Intraplate Volcanism in Eastern Australia and New Zealand, 89-97. Morgan, W. R. (1968). The geology and petrology of Cainozoic basaltic rocks in the Cooktown area, north Queensland. Journal of the Geological Society of Australia, 15(1), 65-78. De Keyser, F., & Lucas, K. G. (1968). Geology of the Hodgkinson and Laura Basins, north Queensland. Bureau of Mineral Resources. Bulletin, 84.
[Nephelinite] Stephenson, P. J. (1989). Northern Queensland. Intraplate Volcanism in Eastern Australia and New Zealand, 89-97. Willmott, W. F., Whitaker, W. G., Palfreyman, W. D., & Trail, D. S. (1973). Igneous and metamorphic rocks of Cape York Peninsula and Torres Strait, Australian Bureau of Mineral Resources. Geology and Geophysics Bulletin, 135.
[Nephelinite] Johnson, R. W. (Eds.). (1989). Intraplate volcanism: in eastern Australia and New Zealand. Cambridge University Press. Willmott, W. F., Whitaker, W. G., Palfreyman, W. D., & Trail, D. S. (1973). Igneous and metamorphic rocks of Cape York Peninsula and Torres Strait, Australian Bureau of Mineral Resources. Geology and Geophysics Bulletin, 135.
    • Diamantina Shire
[Foidite] Carson, C. J., Hutton, L. J., Withnall, I. W., Perkins, W. G., Donchak, P. J. T., Parsons, A., ... & Lambeck, A. (2011). Joint GSQ–GA NGA geochronology project—Mount Isa region, 2009–2010. Geological Survey of Queensland, Record, 2011/03. Collerson, K.D. 2014. Application of spinifex biogeochemistry to identify mineralisation targets in obscured basement terranes beneath the Simpson Deserts in South Western Queensland - Final Report. Queensland Digital Exploration Report 88754, Queensland Government.
    • Isaac Region
[Nephelinite] Griffin, W. L., Sutherland, F. L., & Hollis, J. D. (1987). Geothermal profile and crust-mantle transition beneath east-central Queensland: volcanology, xenolith petrology and seismic data. Journal of Volcanology and Geothermal Research, 31(3-4), 177-203. Johnson, R. W. (Eds.). (1989). Intraplate volcanism: in eastern Australia and New Zealand. Cambridge University Press, 103-104. Sutherland, F. L., Hollis, J. D., & Robertson, A. D. (1989). Springsure. Sutherland, F. L., Stubbs, D., & Green, D. C. (1977). K‐Ar ages of Cainozoic volcanic suites, Bowen‐St Lawrence Hinterland, North Queensland (with some implications for petrologic models). Journal of the Geological Society of Australia, 24(7-8), 447-460.
[Nephelinite] Kay, S. M., & Kay, R. W. (1983). Thermal history of the deep crust inferred from granulite xenoliths, Queensland, Australia. Am. J. Sci, 283, 486-513. Irving, A. J., & Price, R. C. (1981). Geochemistry and evolution of Iherzolite-bearing phonolitic lavas from Nigeria, Australia, East Germany and New Zealand. Geochimica et Cosmochimica Acta, 45(8), 1309-1320. Stephenson, P. J. (1989). Northern Queensland. Intraplate Volcanism in Eastern Australia and New Zealand, 89-97. Stephenson, P. J., & Griffin, T. J. (1976). Some long basaltic lava flows in north Queensland, Volcanism in Australasia, 41–51.
    • Moreton Bay Region
[Nephelinite] Ewart, A. (1982). Petrogenesis of the Tertiary anorogenic volcanic series of Southern Queensland, Australia, in the light of trace element geochemistry and O, Sr and Pb isotopes. Journal of Petrology, 23(3), 344-382. Ewart, A., & Grenfell, A. T. (1985). Cainozoic volcanic centres in southeastern Queensland: with special reference to the Main Range, Bunya Mountains, and the volcanic centres of the northern Brisbane coastal region. Department of Geology, University of Queensland, Papers, 11 (Part 3), 1-57. Stevens, N.C., Grenfell, A., Knutson, J. & Ewart, A. 1989. Main Range. Ewart, A., Baxter, K., & Ross, J. A. (1980). The petrology and petrogenesis of the Tertiary anorogenic mafic lavas of southern and central Queensland, Australia—possible implications for crustal thickening. Contributions to Mineralogy and Petrology, 75(2), 129-152. Johnson, R. W., Johnson, R. W., Knutson, J., & Taylor, S. R. (Eds.). (1989). Intraplate volcanism: in eastern Australia and New Zealand. Cambridge University Press, 111-112. Webb, A. W., Stevens, N. C., & McDougall, I. (1967). Isotopic age determinations on Tertiary volcanic rocks and intrusives of southeastern Queensland. In Proceedings of the Royal Society of Queensland (Vol. 79, No. 7, pp. 79-92).
    • North Burnett Region
[Nephelinite] Johnson, R. W., Johnson, R. W., Knutson, J., & Taylor, S. R. (Eds.). (1989). Intraplate volcanism: in eastern Australia and New Zealand. Cambridge University Press, 106-107. Sutherland, F. L., Hollis, J. D., & Robertson, A. D. (1989). Monto.
  • Tasmania
    • Central Highlands municipality
      • Derwent Bridge
[Nephelinite] Bottrill, R. S. & Baker, W. E. (2008): A Catalogue of the Minerals of Tasmania. Geological Survey Bulletin 73, Mineral Resources Tasmania, 254 pp.
    • Kingborough municipality
      • Kingston
[Nephelinite] R Bottrill unpublished MRT report 2018
    • Waratah-Wynyard municipality
[Nephelinite] Bottrill, R. S. & Baker, W. E. (2008): A Catalogue of the Minerals of Tasmania. Geological Survey Bulletin 73, Mineral Resources Tasmania, 254 pp.
  • Victoria
    • Moorabool Shire
[Nephelinite] Day, R.A. 1989. Older Volcanics. Johnson, R. W., Johnson, R. W., Knutson, J., & Taylor, S. R. (Eds.). (1989). Intraplate volcanism: in eastern Australia and New Zealand. Cambridge University Press. 133-136.
    • Southern Grampians Shire
[Nephelinite] Douglas, J. G., Abele, C., Benedek, S., Dettman, M. E., & Kenley, P. R. (1976). C; R. Lawrence. Mesozoic Geology of Victoria, JG Douglas and JA Ferguson, eds., Geol. Soc. Aust. Spec. Publ, 5, 143-175. Fullarton, D. J., & Tattam, C. M. (1976). Volcanics of the Dundas Tableland. Geology of Victoria, 363-371. McDougall, I., & Wellman, P. (1976). Potassium‐argon ages for some Australian Mesozoic igneous rocks. Journal of the Geological Society of Australia, 23(1), 1-9.
[Analcimite] Irving, A. J., & Green, D. H. (1976). Geochemistry and petrogenesis of the Newer Basalts of Victoria and South Australia. Journal of the Geological Society of Australia, 23(1), 45-66. Nicholls, I. A., & Joyce, E. B. (1989). Newer volcanics. Intraplate volcanism in eastern Australia and New Zealand, 137-143.
Austria
 
  • Styria
    • Südoststeiermark District
[Nephelinite] Ali, S., Ntaflos, T., & Upton, B. G. (2013). Petrogenesis and mantle source characteristics of Quaternary alkaline mafic lavas in the western Carpathian–Pannonian Region, Styria, Austria. Chemical Geology, 337, 99-113. Dobosi, G., Schultz-Güttler, R., Kurat, G., & Kracher, A. (1991). Pyroxene chemistry and evolution of alkali basaltic rocks from Burgenland and Styria, Austria. Mineralogy and Petrology, 43(4), 275-292. Embey-Isztin, A., & Dobosi, G. (1995). Mantle source characteristics for Miocene-Pleistocene alkali basalts, Carpathian-Pannonian Region: a review of trace elements and isotopic composition. Acta Vulcanologica, 7, 155-166. Embey-Isztin, A., Downes, H., James, D. E., Upton, B. G. J., Dobosi, G., Ingram, G. A., ... & Scharbert, H. G. (1993). The petrogenesis of Pliocene alkaline volcanic rocks from the Pannonian Basin, Eastern Central Europe. Journal of Petrology, 34(2), 317-343. Flügel, H. W., & Neubauer, F. (1984). Steiermark: Erläuterungen zur geologischen Karte der Steiermark, 1: 200.000. Geologische Bundesanstalt. In: Geologie der österreichischen Bundesländer in kurzgefassten Einzeldarstellungen. Geologische Bundesanstalt, Vienna. Taucher, J., Postl, W., Moser, B., Jakely, D. & Golob, P. 1989. Ein Südosteirisches Basaltvorkommen und seine Minerale. Druckerei Klampfer, Vienna. Pohl, J. & Soffel, H. 1982. Paleomagnetism of Tertiary Volcanics of Styria (Austria). Geologische Jahrbuch, D52, 137-147.
Belarus
 
  • Minsk Region
[Nephelinite] Aizberg, R. Y., Beskopylny, V. N., Starchik, T. A., & Tsekoyeva, T. K. (2001). Late Devonian magmatism in the Pripyat Palaeorift: a geodynamic model. Geological Quarterly, 45(4), 349-358. Mikhailov, N.D. & Laptsevich, A.G. 2009. Lamprophyric rocks of the Devonian alkali igneous complex of Belarus. Geochemistry of Magmatic Rocks, 26, International Conference. Russian Academy of Sciences, Vernadsky Institute of Geochemistry, Moscow, 104-106. Mikhailov, N.D., Laptsevich, A.G. & Vladykin, N.V. 2010. Alkali lamprophyres of the Paleozoic igneous complex of Belarus. Vladykin, N.V. (ed) Deep-Seated Magmatism, its Sources and Plumes. Russian Academy of Sciences, Vinogradov Institute of Geochemistry, Siberian Branch, Irkutsk, 185-197. Veretennikov, N.V. & Laptsevich, A.G. 2007. First carbonatite finding in the platform cover of Belarus. Doklady of the National Academy of Science of Belarus, 51, 84-88. Wilson, M. & Lyashkevich, Z.M. 1996. Magmatism and the geodynamics of rifting of the Pripyat-Dnieper-Donets rift. East European Platform. Tectonophysics, 268, 65-81.
Bermuda
[Nephelinite] Aumento, F., & Ade-Hall, J. M. (1973). Deep Drill 1972: Petrology and geochemistry of the Bermuda Seamount: Am. Geophys. Union. Trans, 54, 485. Aumento, F. & Gunn, B.M. 2005. Geology of the Bermuda Seamount, www.geokem.com Rice, P. D., Hall, J. M., & Opdyke, N. D. (1980). Deep Drill 1972: a paleomagnetic study of the Bermuda Seamount. Canadian Journal of Earth Sciences, 17(2), 232-243. doi.org/10.1139/e80-018 Vogt, P. R., & Jung, W. Y. (2007). Origin of the Bermuda volcanoes and the Bermuda Rise: history, observations, models, and puzzles. SPECIAL PAPERS-GEOLOGICAL SOCIETY OF AMERICA, 430, 553-591.
Brazil
 
  • Espírito Santo
    • Vitória
      • Trindade and Martin Vaz archipelago
[Foidite] Cordani, U. G. (1970). Idade do vulcanismo no oceano Atlântico Sul (Doctoral dissertation, Universidade de São Paulo), 1, 9-75. Hansen, M. A. F., Viramonte, J. G., Troian, F. L., Mizusaki, A. M. P., Becchio, R., & Fensterseifer, H. C. (1998). Nuevas edades para el volcanismo de las isles Trindade y Martin Vaz, Brasil. In Sixth International Meeting: Colima Volcano, Abstracts, 26.1-28.1, 125. Marques, L. S., Ulbrich, M. N., Ruberti, E., & Tassinari, C. G. (1999). Petrology, geochemistry and Sr–Nd isotopes of the Trindade and Martin Vaz volcanic rocks (southern Atlantic Ocean). Journal of Volcanology and Geothermal Research, 93(3-4), 191-216. doi.org/10.1016/S0377-0273(99)00111-0 Mitchell-Thomé, R. C. (1970). Geology of the South Atlantic islands. Siebel, W., Becchio, R., Volker, F., Hansen, M. A. F., Viramonte, J., Trumbull, R. B., ... & Zimmer, M. (2000). Trindade and Martı́n Vaz Islands, South Atlantic: Isotopic (Sr, Nd, Pb) and trace element constraints on plume related magmatism. Journal of South American Earth Sciences, 13(1-2), 79-103. doi.org/10.1016/S0895-9811(00)00015-8 Cordani, U. G. (1970). Idade do vulcanismo no oceano Atlântico Sul (Doctoral dissertation, Universidade de São Paulo), 1, 9-75. Hansen, M. A. F., Viramonte, J. G., Troian, F. L., Mizusaki, A. M. P., Becchio, R., & Fensterseifer, H. C. (1998). Nuevas edades para el volcanismo de las isles Trindade y Martin Vaz, Brasil. In Sixth International Meeting: Colima Volcano, Abstracts, 26.1-28.1, 125. Marques, L. S., Ulbrich, M. N., Ruberti, E., & Tassinari, C. G. (1999). Petrology, geochemistry and Sr–Nd isotopes of the Trindade and Martin Vaz volcanic rocks (southern Atlantic Ocean). Journal of Volcanology and Geothermal Research, 93(3-4), 191-216. doi.org/10.1016/S0377-0273(99)00111-0 Mitchell-Thomé, R. C. (1970). Geology of the South Atlantic islands. Siebel, W., Becchio, R., Volker, F., Hansen, M. A. F., Viramonte, J., Trumbull, R. B., ... & Zimmer, M. (2000). Trindade and Martı́n Vaz Islands, South Atlantic: Isotopic (Sr, Nd, Pb) and trace element constraints on plume related magmatism. Journal of South American Earth Sciences, 13(1-2), 79-103. doi.org/10.1016/S0895-9811(00)00015-8
[Foidite] doi.org/10.1007/BF00302491 doi.org/10.1180/002646198547918 de Almeida, F. F. M. (1961). Geologia e petrologia da Ilha da Trindade Departamento Nacional da Produção Mineral, Divisão de Geologia e Mineralogia, Monografia, 18. Cordani, U. G. (1970). Idade do vulcanismo no oceano Atlântico Sul (Doctoral dissertation, Universidade de São Paulo), 1, 9-75. Marques, L. S., Ulbrich, M. N., Ruberti, E., & Tassinari, C. G. (1999). Petrology, geochemistry and Sr–Nd isotopes of the Trindade and Martin Vaz volcanic rocks (southern Atlantic Ocean). Journal of Volcanology and Geothermal Research, 93(3-4), 191-216. doi.org/10.1016/S0377-0273(99)00111-0 Mitchell-Thomé, R. C. (1970). Geology of the South Atlantic islands. Siebel, W., Becchio, R., Volker, F., Hansen, M. A. F., Viramonte, J., Trumbull, R. B., ... & Zimmer, M. (2000). Trindade and Martı́n Vaz Islands, South Atlantic: Isotopic (Sr, Nd, Pb) and trace element constraints on plume related magmatism. Journal of South American Earth Sciences, 13(1-2), 79-103. doi.org/10.1016/S0895-9811(00)00015-8
  • Pernambuco
    • Fernando de Noronha archipelago
[Foidite] de Almeida, F. F. M. (1958). Geologia e petrologia do Arquipélago de Fernando de Noronha. Serviço Gráfico do Instituto Brasileiro de Geografia e Estatística. Gerlach, D. C., Stormer Jr, J. C., & Mueller, P. A. (1987). Isotopic geochemistry of Fernando de Noronha. Earth and Planetary Science Letters, 85(1-3), 129-144. doi.org/10.1016/0012-821X(87)90027-6 Kogarko, L., Kurat, G., & Ntaflos, T. (2001). Carbonate metasomatism of the oceanic mantle beneath Fernando de Noronha Island, Brazil. Contributions to Mineralogy and Petrology, 140(5), 577-587. doi.org/10.1007/s004100000201 Lopes, R. P., & Ulbrich, M. N. C. (2015). Geochemistry of the alkaline volcanicsubvolcanic rocks of the Fernando de Noronha Archipelago, southern Atlantic Ocean. Brazilian Journal of Geology, 45(2), 307-333. doi.org/10.1590/23174889201500020009 Mitchell-Thomé, R. C. (1970). Geology of the South Atlantic islands. Perlingeiro, G., Vasconcelos, P. M., Knesel, K. M., Thiede, D. S., & Cordani, U. G. (2013). 40Ar/39Ar geochronology of the Fernando de Noronha Archipelago and implications for the origin of alkaline volcanism in the NE Brazil. Journal of Volcanology and Geothermal Research, 249, 140-154. doi.org/10.1016/j.jvolgeores.2012.08.017 Rivalenti, G., Mazzucchelli, M., Girardi, V. A., Vannucci, R., Barbieri, M. A., Zanetti, A., & Goldstein, S. L. (2000). Composition and processes of the mantle lithosphere in northeastern Brazil and Fernando de Noronha: evidence from mantle xenoliths. Contributions to Mineralogy and Petrology, 138(4), 308-325. doi.org/10.1007/s004100050565 Schultz, A., Rathert, M. C., Guerreiro, S. D. C., & Bloch, W. (1986). Paleomagnetism and rock magnetism of Fernando de Noronha, Brazil. Earth and planetary science letters, 79(1-2), 208-216. doi.org/10.1016/0012-821X(86)90054-3 Smith, W. C., & Burri, C. (1933). The igneous rocks of Fernando Noronha. Schweiz Mineral Petrogr Mitt, 13, 405-434. Weaver, B. L. (1990). Geochemistry of highly-undersaturated ocean island basalt suites from the South Atlantic Ocean: Fernando de Noronha and Trindade islands. Contributions to Mineralogy and Petrology, 105(5), 502-515. doi.org/10.1007/BF00302491
Cameroon
 
  • Southwest Region
    • Fako
      • Buea
[Nephelinite] Bindi, L., Bonazzi, P., & Fitton, J. G. (2001). Crystal chemistry of strontian soda melilite from nephelinite lava of Mt. Etinde, Cameroon. European Journal of Mineralogy, 13(1), 121-125. doi.org/10.1017/S0016756800064128 doi.org/10.1180/minmag.1981.044.335.03 doi.org/10.1093/petrology/36.2.373 Fitton, J. G. (1987). The Cameroon line, West Africa: a comparison between oceanic and continental alkaline volcanism. Geological Society, London, Special Publications, 30(1), 273-291. doi.org/10.1144/GSL.SP.1987.030.01.13 Fitton, J. G., & Dunlop, H. M. (1985). The Cameroon line, West Africa, and its bearing on the origin of oceanic and continental alkali basalt. Earth and Planetary Science Letters, 72(1), 23-38. doi.org/10.1016/0012-821X(85)90114-1 Gèze, B. (1943). Géographie physique et géologie du Cameroun occidental (Vol. 17). Éditions du Muséum, 1-271. Jérémine, E. (1943). Contribution à l'étude pétrographique du Cameroun Occidental. In: Memoires du Museum National d'Histoire Naturelle. Paris, NS, 17, 273-320. Lacroix, A. (1923). Mineralogie de Madagascar III. Lithologie, Appendice, Index Geographique, Société d′ Editions Géographiques, Maritimes et Coloniales. Smith, A. L. (1970). Sphene, perovskite and coexisting Fe-Ti oxide minerals. American Mineralogist: Journal of Earth and Planetary Materials, 55(1-2), 264-269.
Cape Verde
 
  • Barlavento Islands
[Nephelinite] Dyhr, C. T., & Holm, P. M. (2010). A volcanological and geochemical investigation of Boa Vista, Cape Verde Islands; 40Ar/39Ar geochronology and field constraints. Journal of Volcanology and Geothermal Research, 189(1-2), 19-32. doi.org/10.1016/j.jvolgeores.2009.10.010 Ancochea, E., Huertas, M. J., Hernán, F., & Brändle, J. L. (2014). A new felsic cone-sheet swarm in the Central Atlantic Islands: The cone-sheet swarm of Boa Vista (Cape Verde). Journal of volcanology and geothermal research, 274, 1-15. doi.org/10.1016/j.jvolgeores.2014.01.010 Figueiredo, M. O., Silva, L. C., & Williams, C. T. (1989). Notes on Cape Verde mineralogy. Loparite in syenitic rocks from Boa Vista island. Series: Geologia, Revista da Junta de Investigacoes do Ultramar, Lisboa, 12, 43-46. Ancochea, E., Hernán, F., Huertas, M. J., & Brändle, J. L. (2012). The basaltic dikes of Boa Vista (Cape Verde Islands). Their significance in the interpretation of the evolution of the island. Journal of Volcanology and Geothermal Research, 243, 24-37. doi.org/10.1016/j.jvolgeores.2012.06.029 Dyhr, C. T., & Holm, P. M. (2010). A volcanological and geochemical investigation of Boa Vista, Cape Verde Islands; 40Ar/39Ar geochronology and field constraints. Journal of Volcanology and Geothermal Research, 189(1-2), 19-32. doi.org/10.1016/j.jvolgeores.2009.10.010 Ancochea, E., Huertas, M. J., Hernán, F., & Brändle, J. L. (2014). A new felsic cone-sheet swarm in the Central Atlantic Islands: The cone-sheet swarm of Boa Vista (Cape Verde). Journal of volcanology and geothermal research, 274, 1-15. doi.org/10.1016/j.jvolgeores.2014.01.010 Figueiredo, M. O., Silva, L. C., & Williams, C. T. (1989). Notes on Cape Verde mineralogy. Loparite in syenitic rocks from Boa Vista island. Series: Geologia, Revista da Junta de Investigacoes do Ultramar, Lisboa, 12, 43-46. Ancochea, E., Hernán, F., Huertas, M. J., & Brändle, J. L. (2012). The basaltic dikes of Boa Vista (Cape Verde Islands). Their significance in the interpretation of the evolution of the island. Journal of Volcanology and Geothermal Research, 243, 24-37. doi.org/10.1016/j.jvolgeores.2012.06.029
[Foidite] Torres, P., Silva, L., Munhá, J., Caldeira, R., Mata, J., & Tassinari, C. C. (2010). Petrology and geochemistry of lavas from Sal Island: Implications for the variability of the Cape Verde magmatism. Comunicações Geológicas, 97, 35-62. Caldeira, R., & Silva, L. C. (2008). Intra-volcanic layered intrusions in Sal island (Cape Verde Archipelago): insights into an ocean island root zone. GeCAS, 72(12), A129. Shaw, C. S., Heidelbach, F., & Dingwell, D. B. (2006). The origin of reaction textures in mantle peridotite xenoliths from Sal Island, Cape Verde: the case for “metasomatism” by the host lava. Contributions to Mineralogy and Petrology, 151(6), 681-697. doi.org/10.1007/s00410-006-0087-2 Coltorti, M., Bonadiman, C., O'Reilly, S. Y., Griffin, W. L., & Pearson, N. J. (2010). Buoyant ancient continental mantle embedded in oceanic lithosphere (Sal Island, Cape Verde Archipelago). Lithos, 120(1-2), 223-233. doi.org/10.1016/j.lithos.2009.11.005 Torres, P., Silva, L., Munhá, J., Caldeira, R., Mata, J., & Tassinari, C. C. (2010). Petrology and geochemistry of lavas from Sal Island: Implications for the variability of the Cape Verde magmatism. Comunicações Geológicas, 97, 35-62. Caldeira, R., & Silva, L. C. (2008). Intra-volcanic layered intrusions in Sal island (Cape Verde Archipelago): insights into an ocean island root zone. GeCAS, 72(12), A129. Shaw, C. S., Heidelbach, F., & Dingwell, D. B. (2006). The origin of reaction textures in mantle peridotite xenoliths from Sal Island, Cape Verde: the case for “metasomatism” by the host lava. Contributions to Mineralogy and Petrology, 151(6), 681-697. doi.org/10.1007/s00410-006-0087-2 Coltorti, M., Bonadiman, C., O'Reilly, S. Y., Griffin, W. L., & Pearson, N. J. (2010). Buoyant ancient continental mantle embedded in oceanic lithosphere (Sal Island, Cape Verde Archipelago). Lithos, 120(1-2), 223-233. doi.org/10.1016/j.lithos.2009.11.005
[Nephelinite] Holm, P. M., Wilson, J. R., Christensen, B. P., Hansen, L., Hansen, S. L., Hein, K. M., ... & Runge, M. K. (2006). Sampling the Cape Verde mantle plume: evolution of melt compositions on Santo Antão, Cape Verde Islands. Journal of Petrology, 47(1), 145-189. doi.org/10.1093/petrology/egi071 Plesner, S., Holm, P. M., & Wilson, J. R. (2003). 40Ar–39Ar geochronology of Santo Antão, Cape Verde Islands. Journal of Volcanology and Geothermal Research, 120(1-2), 103-121. doi.org/10.1016/S0377-0273(02)00367-0 Mortensen, A. K., Wilson, J. R., & Holm, P. M. (2009). The Cão Grande phonolitic fall deposit on Santo Antão, Cape Verde Islands. Journal of Volcanology and Geothermal Research, 179(1-2), 120-132. doi.org/10.1016/j.jvolgeores.2008.10.014 Gerlach, D. C., Cliff, R. A., Davies, G. R., Norry, M., & Hodgson, N. (1988). Magma sources of the Cape Verdes archipelago: isotopic and trace element constraints. Geochimica et Cosmochimica Acta, 52(12), 2979-2992. doi.org/10.1016/0016-7037(88)90162-7
[Nephelinite] Duprat, H. I., Friis, J., Holm, P. M., Grandvuinet, T., & Sørensen, R. V. (2007). The volcanic and geochemical development of São Nicolau, Cape Verde Islands: constraints from field and 40Ar/39Ar evidence. Journal of Volcanology and Geothermal Research, 162(1-2), 1-19. doi.org/10.1016/j.jvolgeores.2007.01.001 Millet, M. A., Doucelance, R., Schiano, P., David, K., & Bosq, C. (2008). Mantle plume heterogeneity versus shallow-level interactions: a case study, the São Nicolau Island, Cape Verde archipelago. Journal of Volcanology and Geothermal Research, 176(2), 265-276. doi.org/10.1016/j.jvolgeores.2008.04.003 Doucelance, R., Escrig, S., Moreira, M., Gariépy, C., & Kurz, M. D. (2003). Pb-Sr-He isotope and trace element geochemistry of the Cape Verde Archipelago. Geochimica et Cosmochimica Acta, 67(19), 3717-3733. doi.org/10.1016/S0016-7037(03)00161-3 Kogarko, L. N. (1993). Geochemical characteristics of oceanic carbonatites from the Cape Verde Islands. South African journal of geology, 96(3), 119-125.
    • São Vicente Island
[Nephelinite] Ancochea, E., Huertas, M. J., Hernán, F., & Brändle, J. L. (2010). Volcanic evolution of São Vicente, Cape Verde Islands: The Praia Grande landslide. Journal of volcanology and geothermal research, 198(1-2), 143-157. doi.org/10.1016/j.jvolgeores.2010.08.016 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 of London, p. 485.
[Nephelinite] Barker, A. K., Troll, V. R., Ellam, R. M., Hansteen, T. H., Harris, C., Stillman, C. J., & Andersson, A. (2012). Magmatic evolution of the Cadamosto Seamount, Cape Verde: beyond the spatial extent of EM1. Contributions to Mineralogy and Petrology, 163(6), 949-965. doi.org/10.1007/s00410-011-0708-2
  • Sotavento Islands
[Foidite] Madeira, J., Mata, J., Mourão, C., da Silveira, A. B., Martins, S., Ramalho, R., & Hoffmann, D. L. (2010). Volcano-stratigraphic and structural evolution of Brava Island (Cape Verde) based on 40Ar/39Ar, U–Th and field constraints. Journal of Volcanology and Geothermal Research, 196(3-4), 219-235. doi.org/10.1016/j.jvolgeores.2010.07.010 Mourão, C., Mata, J., Doucelance, R., Madeira, J., Millet, M. A., & Moreira, M. (2012). Geochemical temporal evolution of Brava Island magmatism: constraints on the variability of Cape Verde mantle sources and on carbonatite–silicate magma link. Chemical Geology, 334, 44-61. doi.org/10.1016/j.chemgeo.2012.09.031 Mourão, C., Mata, J., Doucelance, R., Madeira, J., da Silveira, A. B., Silva, L. C., & Moreira, M. (2010). Quaternary extrusive calciocarbonatite volcanism on Brava Island (Cape Verde): A nephelinite-carbonatite immiscibility product. Journal of African Earth Sciences, 56(2-3), 59-74. doi.org/10.1016/j.jafrearsci.2009.06.003 Hoernle, K., Tilton, G., Le Bas, M. J., Duggen, S., & Garbe-Schönberg, D. (2002). Geochemistry of oceanic carbonatites compared with continental carbonatites: mantle recycling of oceanic crustal carbonate. Contributions to Mineralogy and Petrology, 142(5), 520-542. doi.org/10.1007/s004100100308 Doucelance, R., Hammouda, T., Moreira, M., & Martins, J. C. (2010). Geochemical constraints on depth of origin of oceanic carbonatites: the Cape Verde case. Geochimica et Cosmochimica Acta, 74(24), 7261-7282. doi.org/10.1016/j.gca.2010.09.024 Mata, J., Moreira, M., Doucelance, R., Ader, M., & Silva, L. C. (2010). Noble gas and carbon isotopic signatures of Cape Verde oceanic carbonatites: implications for carbon provenance. Earth and Planetary Science Letters, 291(1-4), 70-83. doi.org/10.1016/j.epsl.2009.12.052 Mourao, C., Moreira, M., Mata, J., Raquin, A., & Madeira, J. (2012). Primary and secondary processes constraining the noble gas isotopic signatures of carbonatites and silicate rocks from Brava Island: evidence for a lower mantle origin of the Cape Verde plume. Contributions to Mineralogy and Petrology, 163(6), 995-1009. doi.org/10.1007/s00410-011-0711-7 Mitchell-Thomé, R. C. (1976). Geology of the middle Atlantic islands (Vol. 382). Berlin: Borntraeger. Day, S. J., Da Silva, S. H., & Fonseca, J. F. B. D. (1999). A past giant lateral collapse and present-day flank instability of Fogo, Cape Verde Islands. Journal of Volcanology and Geothermal Research, 94(1-4), 191-218. doi.org/10.1016/S0377-0273(99)00103-1
[Nephelinite] Day, S. J., Da Silva, S. H., & Fonseca, J. F. B. D. (1999). A past giant lateral collapse and present-day flank instability of Fogo, Cape Verde Islands. Journal of Volcanology and Geothermal Research, 94(1-4), 191-218. doi.org/10.1016/S0377-0273(99)00103-1 Hildner, E., Klügel, A., & Hauff, F. (2011). Magma storage and ascent during the 1995 eruption of Fogo, Cape Verde Archipelago. Contributions to Mineralogy and Petrology, 162(4), 751-772. doi.org/10.1007/s00410-011-0623-6 Munhá, J., Mendes, M., Palácios, T., Silva, L. & Torres, P. 1997. Petrologia e Geoquímica da Erupção de 1995 e de outros lavas históricas na Ilha do Fogo, Cabo Verde. Escrig, S., Doucelance, R., Moreira, M., & Allègre, C. J. (2005). Os isotope systematics in Fogo Island: evidence for lower continental crust fragments under the Cape Verde Southern Islands. Chemical Geology, 219(1-4), 93-113. doi.org/10.1016/j.chemgeo.2005.02.011 Assunção, C. F. T., Machado, F., & Gomes, R. D. (1965). On the occurrence of carbonatites in the Cape Verde Islands. Boletim da Sociedade Geológica de Portugal, 16, 179-188. Kogarko, L. N. (1993). Geochemical characteristics of oceanic carbonatites from the Cape Verde Islands. South African journal of geology, 96(3), 119-125. Doucelance, R., Hammouda, T., Moreira, M., & Martins, J. C. (2010). Geochemical constraints on depth of origin of oceanic carbonatites: the Cape Verde case. Geochimica et Cosmochimica Acta, 74(24), 7261-7282. doi.org/10.1016/j.gca.2010.09.024 Mata, J., Moreira, M., Doucelance, R., Ader, M., & Silva, L. C. (2010). Noble gas and carbon isotopic signatures of Cape Verde oceanic carbonatites: implications for carbon provenance. Earth and Planetary Science Letters, 291(1-4), 70-83. doi.org/10.1016/j.epsl.2009.12.052 Foeken, J. P., Day, S., & Stuart, F. M. (2009). Cosmogenic 3He exposure dating of the Quaternary basalts from Fogo, Cape Verdes: implications for rift zone and magmatic reorganisation. Quaternary Geochronology, 4(1), 37-49. doi.org/10.1016/j.quageo.2008.07.002
[Nephelinite] Martins, S., Mata, J., Munhá, J., Mendes, M. H., Maerschalk, C., Caldeira, R., & Mattielli, N. (2010). Chemical and mineralogical evidence of the occurrence of mantle metasomatism by carbonate-rich melts in an oceanic environment (Santiago Island, Cape Verde). Mineralogy and Petrology, 99(1-2), 43-65. doi.org/10.1007/s00710-009-0078-x Barker, A. K., Holm, P. M., Peate, D. W., & Baker, J. A. (2009). Geochemical stratigraphy of submarine lavas (3–5 Ma) from the Flamengos Valley, Santiago, southern Cape Verde islands. Journal of Petrology, 50(1), 169-193. doi.org/10.1093/petrology/egn081 Barker, A. K., Holm, P. M., Peate, D. W., & Baker, J. A. (2010). A 5 million year record of compositional variations in mantle sources to magmatism on Santiago, southern Cape Verde archipelago. Contributions to Mineralogy and Petrology, 160(1), 133-154. doi.org/10.1007/s00410-009-0470-x Silva, L. C., & Ubaldo, M. L. (1985). Consideraçoes geológicas e petrogenéticas sobre os tufos carbonatíticos globulares da estrutura alcalino-carbonatítica do Norte de Santiago, arquipélago de Cabo Verde. Garcia de Orta. Série de geologia, 8(1-2), 1-6. Silva, L.C. 1976. Note on the occurrence of niobium-rich zirconolite in carbonatitic rocks of São Tiago island (Cape Verde Republic). Garcia de Orta, Serte de Geologia, Revista da Junta de Investigacoes do Ultramar, Lisboa, 4, 106. Hoernle, K., Tilton, G., Le Bas, M. J., Duggen, S., & Garbe-Schönberg, D. (2002). Geochemistry of oceanic carbonatites compared with continental carbonatites: mantle recycling of oceanic crustal carbonate. Contributions to Mineralogy and Petrology, 142(5), 520-542. doi.org/10.1007/s004100100308 Doucelance, R., Hammouda, T., Moreira, M., & Martins, J. C. (2010). Geochemical constraints on depth of origin of oceanic carbonatites: the Cape Verde case. Geochimica et Cosmochimica Acta, 74(24), 7261-7282. doi.org/10.1016/j.gca.2010.09.024 Kogarko, L. N. (1993). Geochemical characteristics of oceanic carbonatites from the Cape Verde Islands. South African journal of geology, 96(3), 119-125. Mata, J., Moreira, M., Doucelance, R., Ader, M., & Silva, L. C. (2010). Noble gas and carbon isotopic signatures of Cape Verde oceanic carbonatites: implications for carbon provenance. Earth and Planetary Science Letters, 291(1-4), 70-83. doi.org/10.1016/j.epsl.2009.12.052 Gerlach, D. C., Cliff, R. A., Davies, G. R., Norry, M., & Hodgson, N. (1988). Magma sources of the Cape Verdes archipelago: isotopic and trace element constraints. Geochimica et Cosmochimica Acta, 52(12), 2979-2992. doi.org/10.1016/0016-7037(88)90162-7 Martins, S., Mata, J., Munhá, J., Mendes, M. H., Maerschalk, C., Caldeira, R., & Mattielli, N. (2010). Chemical and mineralogical evidence of the occurrence of mantle metasomatism by carbonate-rich melts in an oceanic environment (Santiago Island, Cape Verde). Mineralogy and Petrology, 99(1-2), 43-65. doi.org/10.1007/s00710-009-0078-x Barker, A. K., Holm, P. M., Peate, D. W., & Baker, J. A. (2009). Geochemical stratigraphy of submarine lavas (3–5 Ma) from the Flamengos Valley, Santiago, southern Cape Verde islands. Journal of Petrology, 50(1), 169-193. doi.org/10.1093/petrology/egn081 Barker, A. K., Holm, P. M., Peate, D. W., & Baker, J. A. (2010). A 5 million year record of compositional variations in mantle sources to magmatism on Santiago, southern Cape Verde archipelago. Contributions to Mineralogy and Petrology, 160(1), 133-154. doi.org/10.1007/s00410-009-0470-x Silva, L. C., & Ubaldo, M. L. (1985). Consideraçoes geológicas e petrogenéticas sobre os tufos carbonatíticos globulares da estrutura alcalino-carbonatítica do Norte de Santiago, arquipélago de Cabo Verde. Garcia de Orta. Série de geologia, 8(1-2), 1-6. Silva, L.C. 1976. Note on the occurrence of niobium-rich zirconolite in carbonatitic rocks of São Tiago island (Cape Verde Republic). Garcia de Orta, Serte de Geologia, Revista da Junta de Investigacoes do Ultramar, Lisboa, 4, 106. Hoernle, K., Tilton, G., Le Bas, M. J., Duggen, S., & Garbe-Schönberg, D. (2002). Geochemistry of oceanic carbonatites compared with continental carbonatites: mantle recycling of oceanic crustal carbonate. Contributions to Mineralogy and Petrology, 142(5), 520-542. doi.org/10.1007/s004100100308 Doucelance, R., Hammouda, T., Moreira, M., & Martins, J. C. (2010). Geochemical constraints on depth of origin of oceanic carbonatites: the Cape Verde case. Geochimica et Cosmochimica Acta, 74(24), 7261-7282. doi.org/10.1016/j.gca.2010.09.024 Kogarko, L. N. (1993). Geochemical characteristics of oceanic carbonatites from the Cape Verde Islands. South African journal of geology, 96(3), 119-125. Mata, J., Moreira, M., Doucelance, R., Ader, M., & Silva, L. C. (2010). Noble gas and carbon isotopic signatures of Cape Verde oceanic carbonatites: implications for carbon provenance. Earth and Planetary Science Letters, 291(1-4), 70-83. doi.org/10.1016/j.epsl.2009.12.052 Gerlach, D. C., Cliff, R. A., Davies, G. R., Norry, M., & Hodgson, N. (1988). Magma sources of the Cape Verdes archipelago: isotopic and trace element constraints. Geochimica et Cosmochimica Acta, 52(12), 2979-2992. doi.org/10.1016/0016-7037(88)90162-7
China
 
  • Fujian
    • Sanming
      • Mingxi County
[Nephelinite] Daogong, C., Jianbo, Z. (1992) Nd, Sr, Pb Isotopes and K-Ar Age of Basaltic Rocks in Longhai and Mingxi, Fujian Province. Acta Petrologica Sinica, 4, 324-331. Fan, Q., Hooper, P.R. (1991) The Cenozoic Basaltic Rocks of Eastern China: Petrology and Chemical Composition. Journal of Petrology, 32(4), 765-810. Ho, K-S., Chen, J-C., Lo, C-H., Zhao, H-L. (2003) 40Ar–39Ar dating and geochemical characteristics of late Cenozoic basaltic rocks from the Zhejiang–Fujian region, SE China: eruption ages, magma evolution and petrogenesis. Chemical Geology, 197(1-4), 287-318.
  • Hainan
[Nephelinite] Tu, K., Flower, M. F., Carlson, R. W., Xie, G., Chen, C. Y., & Zhang, M. (1992). Magmatism in the South China Basin: 1. Isotopic and trace-element evidence for an endogenous Dupal mantle component. Chemical Geology, 97(1-2), 47-63.
  • Hebei
    • Chengde
      • Chengde County
[Foidite] Qicheng, F. (1984). PETROLOGICAL CHARACTERISTICS AND GENESIS OF ALKALI BASALTIC BRECCIA PIPES IN THE LUOTUOFENG AREA, PINQUAN OF HEBEI PROVINCE [J]. Seismology and Geology, 6, 55-69. FAN, Q., & HOOPER, P. R. (1991). The Cenozoic basaltic rocks of eastern China: petrology and chemical composition. Journal of petrology, 32(4), 765-810.
      • Weichang County
[Foidite] FAN, Q., & HOOPER, P. R. (1991). The Cenozoic basaltic rocks of eastern China: petrology and chemical composition. Journal of petrology, 32(4), 765-810.
  • Jiangsu
    • Wuxi
[Nephelinite] Qi, Q.U., Taylor, L.A., Zhou, X. (1995) Petrology and Geochemistry of Mantle Peridotite Xenoliths from SE China. Journal of Petrology, 36(1), 55-79.
  • Shandong
    • Binzhou
      • Wudi County
[Foidite] Zeng, G., Chen, L. H., Xu, X. S., Jiang, S. Y., & Hofmann, A. W. (2010). Carbonated mantle sources for Cenozoic intra-plate alkaline basalts in Shandong, North China. Chemical Geology, 273(1-2), 35-45. Chen, Y., Zhang, Y., Graham, D., Su, S., & Deng, J. (2007). Geochemistry of Cenozoic basalts and mantle xenoliths in Northeast China. Lithos, 96(1-2), 108-126. Liu, J., Rudnick, R. L., Walker, R. J., Xu, W. L., Gao, S., & Wu, F. Y. (2015). Big insights from tiny peridotites: Evidence for persistence of Precambrian lithosphere beneath the eastern North China Craton. Tectonophysics, 650, 104-112.
  • Sichuan
    • Liangshan Yi
      • Puge County
[Nephelinite] Zhang, Y., Luo, Y., & Yang, C. (Eds.). (1990). Panxi Rift and its geodynamics. Geological Publishing House.
  • Xinjiang
    • Kashi Prefecture (Kashgar Prefecture; Qeshqer Prefecture)
      • Bachu Co. (Maralbexi Co.; Maralbeshi Co.)
[Nephelinite] Bai, G. (1985). Carbonatites and related mineral resources. Bull. Inst. Miner. Deposits Chin. Acad. Geol. Sci., 13, 107-140. Cao, J., Wang, C. Y., Xing, C. M., & Xu, Y. G. (2014). Origin of the early Permian Wajilitag igneous complex and associated Fe–Ti oxide mineralization in the Tarim large igneous province, NW China. Journal of Asian Earth Sciences, 84, 51-68. Cheng, Z., Zhang, Z., Hou, T., Santosh, M., Zhang, D., & Ke, S. (2015). Petrogenesis of nephelinites from the Tarim Large Igneous Province, NW China: Implications for mantle source characteristics and plume–lithosphere interaction. Lithos, 220, 164-178. Li, C. N., Lu, F. X., & Chen, M. H. (2001). Research on petrology of the Wajilitag complex body in north edge in the Tarim Basin. Xinjiang Geology, 19(1), 38-43. Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575.
  • Zhejiang
    • Hangzhou
      • Chun'an County
[Nephelinite] Qi, Q. U., TAYLOR, L. A., & ZHOU, X. (1995). Petrology and geochemistry of mantle peridotite xenoliths from SE China. Journal of Petrology, 36(1), 55-79. Cao, R. L., & Zhu, S. H. (1987). Mantle xenoliths and alkali-rich host rocks in eastern China. Mantle xenoliths, 167-180. Cao, R., Zhu, S., Aoki, K., & Fujimaki, H. (1992). Sanidine-olivine-diopside association in a metasomatized garnet lherzolite xenolith from southeastern China. Chinese journal of geochemistry, 11(1), 55-69.
Comoros
 
  • Grand Comore
[Nephelinite] Strong, D. F. (1972). The petrology of the lavas of Grande Comore. Journal of Petrology, 13(2), 181-218. doi.org/10.1093/petrology/13.2.181 Coltorti, M., Bonadiman, C., Hinton, R. W., Siena, F., & Upton, B. G. J. (1999). Carbonatite metasomatism of the oceanic upper mantle: evidence from clinopyroxenes and glasses in ultramafic xenoliths of Grande Comore, Indian Ocean. Journal of Petrology, 40(1), 133-165. doi.org/10.1093/petroj/40.1.133
Cook Islands
 
[Nephelinite] Wood, B. L., & Hay, R. F. (1970). Geology of the Cook Islands, NZ Geol. Surv. Bull, 82, 1-103. Wood, C. P. (1978). Petrology of Aitutaki, Cook Islands (Note). New Zealand journal of geology and geophysics, 21(6), 761-765. doi.org/10.1080/00288306.1978.10425205 Palacz, Z. A., & Saunder, A. D. (1986). Coupled trace element and isotope enrichment in the Cook-Austral-Samoa islands, southwest Pacific. Earth and Planetary Science Letters, 79(3-4), 270-280. doi.org/10.1016/0012-821X(86)90185-8 Nakamura, Y., & Tatsumoto, M. (1988). Pb, Nd, and Sr isotopic evidence for a multicomponent source for rocks of Cook-Austral Islands and heterogeneities of mantle plumes. Geochimica et Cosmochimica Acta, 52(12), 2909-2924. doi.org/10.1016/0016-7037(88)90157-3 Schiano, P., Burton, K. W., Dupre, B., Birck, J. L., Guille, G., & Allegre, C. J. (2001). Correlated Os–Pb–Nd–Sr isotopes in the Austral–Cook chain basalts: the nature of mantle components in plume sources. Earth and Planetary Science Letters, 186(3-4), 527-537. doi.org/10.1016/S0012-821X(01)00265-5
[Olivine nephelinite] Wood, B. L., & Hay, R. F. (1970). Geology of the Cook Islands, NZ Geol. Surv. Bull, 82, 1-103. Palacz, Z. A., & Saunder, A. D. (1986). Coupled trace element and isotope enrichment in the Cook-Austral-Samoa islands, southwest Pacific. Earth and Planetary Science Letters, 79(3-4), 270-280. doi.org/10.1016/0012-821X(86)90185-8 Nakamura, Y., & Tatsumoto, M. (1988). Pb, Nd, and Sr isotopic evidence for a multicomponent source for rocks of Cook-Austral Islands and heterogeneities of mantle plumes. Geochimica et Cosmochimica Acta, 52(12), 2909-2924. doi.org/10.1016/0016-7037(88)90157-3 Wood, C. P. (1978). Petrology of Atiu and Mangaia, Cook Islands (Note). New Zealand journal of geology and geophysics, 21(6), 767-771. doi.org/10.1080/00288306.1978.10425206
[Foidite] Wood, B. L., & Hay, R. F. (1970). Geology of the Cook Islands, NZ Geol. Surv. Bull, 82, 1-103. Thompson, G. M., Malpas, J., & Smith, I. E. (1998). Volcanic geology of Rarotonga, southern Pacific Ocean. New Zealand Journal of Geology and Geophysics, 41(1), 95-104. doi.org/10.1080/00288306.1998.9514793 Thompson, G., Smith, I., & Malpas, J. (2001). Origin of oceanic phonolites by crystal fractionation and the problem of the Daly gap: an example from Rarotonga. Contributions to Mineralogy and Petrology, 142(3), 336-346. doi.org/10.1007/s004100100294 Palacz, Z. A., & Saunder, A. D. (1986). Coupled trace element and isotope enrichment in the Cook-Austral-Samoa islands, southwest Pacific. Earth and Planetary Science Letters, 79(3-4), 270-280. doi.org/10.1016/0012-821X(86)90185-8 Schiano, P., Burton, K. W., Dupre, B., Birck, J. L., Guille, G., & Allegre, C. J. (2001). Correlated Os–Pb–Nd–Sr isotopes in the Austral–Cook chain basalts: the nature of mantle components in plume sources. Earth and Planetary Science Letters, 186(3-4), 527-537. doi.org/10.1016/S0012-821X(01)00265-5 Nakamura, Y., & Tatsumoto, M. (1988). Pb, Nd, and Sr isotopic evidence for a multicomponent source for rocks of Cook-Austral Islands and heterogeneities of mantle plumes. Geochimica et Cosmochimica Acta, 52(12), 2909-2924. doi.org/10.1016/0016-7037(88)90157-3
Czech Republic
 
  • Central Bohemian Region
    • Kladno District
[Nephelinite] Novák, J. K., & Matějka, D. (1999). Apatite enrichment in nephelinite from Slánská hora Hill, Central Bohemia. Geolines, 9, 104-109.
[Nephelinite] Řanda, Z., Novák, J.K., Balogh, K., Frána, J., Kučera, J. & Ulrych, J. 2003. Vinařická Hora Hill Cenozoic composite volcano, central Bohemia: geochemical constraints, Geolines, 15, 126-132.
  • Karlovy Vary Region
    • Cheb District
[Nephelinite] Gottsmann, J. (1999). Tephra characteristics and eruption mechanism of the Komorní Hůrka Hill scoria cone, Cheb Basin, Czech Republic. Geolines, 9, 35-40. Shrbený, O. (1979). Geochemistry of the West Bohemian neovolcanites. Čas. Mineral. Geol, 24, 9-21. Ulrych, J., Lloyd, F. E., & Balogh, K. (2003). Age relations and geochemical constraints of Cenozoic alkaline volcanic series in W Bohemia: a review. Geolines, 15, 168-180. Wagner, G. A., Gögen, K., Jonckheere, R., Kämpf, H., Wagner, I., & Woda, C. (1998). The age of Quaternary volcanoes Železná Hůrka and Komorní Hůrka (Western Eger Rift), Czech Republic: alpha-recoil track, TL, ESR and fission track chronometry. Magma and Rift Basin Evolution—Excursion Guide, 95-96.
      • Mariánské Lázně
[Nephelinite] CAJZ, V. (1992). Vulkanologie Podhorniho vrchu (zapadni Cechy). Časopis pro mineralogii a geologii, 37(1), 63-64. Kaiser, G., & Pilot, J. (1986). Weitere K-Ar-Datierungen an jungen Vulkaniten. Zeitschrift für geologische Wissenschaften, 14(1), 121-124. Ulrych, J., Pivec, E., Lang, M., & Lloyd, F. E. (2000). Ijolitic segregations in melilite nephelinite of Podhorní vrch volcano, Western Bohemia. N. Jb. Mineral., Abh, 175, 217-348. Wilson, M., Rosenbaum, J. M., & Ulrych, J. (1994). Cenozoic magmatism of the Ohře Rift, Czech Republic: geochemical signatures and mantle dynamics. In Abstracts IAVCEI, Ankara.
    • Karlovy Vary District
[Nephelinite] Holub, F. V., Rapprich, V., Erban, V., Pecskay, Z., Mlcoch, B., & Mikova, J. (2010). Petrology and geochemistry of the Tertiary alkaline intrusive rocks at Doupov, Doupovské hory Volcanic Complex (NW Bohemian Massif). Journal of Geosciences, 55(3), 251-278. Kopecky, L. (1966). Tertiary volcanics. Regional Geology of Czechoslovakia. I. The Bohemian Massif. Czechoslovak Academy of Sciences (Praha), 554-581. Shrbeny, O. (1982). Chemistry of alkaline volcanic rocks of the Doupovské hory Mts., Bohemia. 27, 139-158. Shrbený, O. (1995). Chemical composition of young volcanites of the Czech Republic. Czech Geological Survey Special Paper, 4. Czech Geological Survey. Ulrych, J., Lloyd, F. E., & Balogh, K. (2003). Age relations and geochemical constraints of Cenozoic alkaline volcanic series in W Bohemia: a review. Geolines, 15, 168-180. Zuzana, S., Vladislav, R., & Bedřich, M. (2009). Effect of small potassium-rich dykes on regional gamma-spectrometry image of a potassium-poor volcanic complex: A case from the Doupovské hory Volcanic Complex, NW Czech Republic. Journal of volcanology and geothermal research, 187(1-2), 26-32.
      • Ostrov
[Nephelinite] Pfeiffer, L., Wenzel, T., & Eckstein, L. (1990). Neue Alterswerte vom Oberwiesenthaler Eruptivstock im Westerzgebirge und ihre geologischen Konsequenzen. Freib. Forsch-HC, 441, 115-119. Pivec, E., & Ulrych, J. (1982). Pseudoleucite from Loučná (Oberwiesenthal), Krušné Hory Mts.(Erzgebirge), Czechoslovakia. Neues Jahrbuch für Mineralogie Monatshefte, (5), 227-236. Schnabl, P., Novák, J. K., Cajz, V., Lang, M., Balogh, K., Pécskay, Z., ... & Ulrych, J. (2010). Magnetic properties of high-Ti basaltic rocks from the Krušné hory/Erzgebirge MTS.(Bohemia/Saxony), and their relation to mineral chemistry. Studia Geophysica et Geodaetica, 54(1), 77-94. Ulrych, J., Lloyd, F. E., Balogh, K., Hegner, E., Langrová, A., Lang, M., ... & Řanda, Z. (2005). Petrogenesis of alkali pyroxenite and ijolite xenoliths from the Tertiary Loučná–Oberwiesenthal Volcanic Centre, Bohemian Massif in the light of new mineralogical, geochemical, and isotopic data. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 182(1), 57-79.; Pfeiffer, L., Wenzel, T., & Eckstein, L. (1990). Neue Alterswerte vom Oberwiesenthaler Eruptivstock im Westerzgebirge und ihre geologischen Konsequenzen. Freib. Forsch-HC, 441, 115-119. Pivec, E., & Ulrych, J. (1982). Pseudoleucite from Loučná (Oberwiesenthal), Krušné Hory Mts.(Erzgebirge), Czechoslovakia. Neues Jahrbuch für Mineralogie Monatshefte, (5), 227-236. Schnabl, P., Novák, J. K., Cajz, V., Lang, M., Balogh, K., Pécskay, Z., ... & Ulrych, J. (2010). Magnetic properties of high-Ti basaltic rocks from the Krušné hory/Erzgebirge MTS.(Bohemia/Saxony), and their relation to mineral chemistry. Studia Geophysica et Geodaetica, 54(1), 77-94. Ulrych, J., Lloyd, F. E., Balogh, K., Hegner, E., Langrová, A., Lang, M., ... & Řanda, Z. (2005). Petrogenesis of alkali pyroxenite and ijolite xenoliths from the Tertiary Loučná–Oberwiesenthal Volcanic Centre, Bohemian Massif in the light of new mineralogical, geochemical, and isotopic data. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 182(1), 57-79.
  • Liberec Region
    • Liberec District
[Nephelinite] Pivec, E., Ulrych, J., & Rutsek, J. (1998). Melilitic rocks from northern Bohemia: geochemistry and mineralogy. Neues Jahrbuch für Mineralogie-Abhandlungen, 119-154. Ulrych, J., Povondra, P., Rutšek, J., & Pivec, E. (1988). Melilitic and melilite-bearing subvolcanic rocks from the Ploučnice river region, Czechoslovakia. Acta Univ. Carol., Geol, 2, 195-231. Ulrych, J., Pivec, E., Povondra, P., & RUTSEK, J. (1988). Perovskite from melilite rocks, Osecná complex, northern Bohemia, Czechoslovakia. Neues Jahrbuch für Mineralogie Monatshefte, (2), 81-95. Ulrych, J., Pivec, E. Rutšek, J. & Povondra, P. 1990. Olivines, monticelites and clinopyroxenes in melilitic rocks, Ploučnice River Region, Czechoslovakia. Acta Universitatis Carolinae Geologica, 141-164. Ulrych, J., Pivec, Povondra, P. & Rutšek 1990. Phlogopites from subvolcanic melilitic rocks, Ploučnice River Region, Czechoslovakia. Acta Universitatis Carolinae Geologica, 9-24. Ulrych, J., Pivec, E., Povondra, P., & Rutsek, J. (2000). Upper-mantle xenoliths in melilitic rocks of the Osecnà complex, North Bohemia. Journal of Geosciences, 45(1-2), 79-83. Ulrych, J., Povondra, P., Pivec, E., Rutsek, J., & Sitek, J. (1994). Compositional evolution of metasomatic garnet in melilitic rocks of the Osecná complex, Bohemia. The Canadian Mineralogist, 32(3), 637-647. Ulrych, J., Dostal, J., Hegner, E., Balogh, K., & Ackerman, L. (2008). Late Cretaceous to Paleocene melilitic rocks of the Ohře/Eger Rift in northern Bohemia, Czech Republic: Insights into the initial stages of continental rifting. Lithos, 101(1-2), 141-161. Ulrych, J., Adamovic, J., Krmicek, L., Ackerman, L., & Balogh, K. (2014). Revision of Scheumann’s classification of melilitic lamprophyres and related melilitic rocks in light of new analytical data. Journal of Geosciences, 59(1), 3-22.
  • Moravian-Silesian Region
    • Bruntál District
[Nephelinite] Ulrych, J., Ackerman, L., Balogh, K., Hegner, E., Jelínek, E., Pécskay, Z., ... & Foltýnová, R. (2013). Plio-Pleistocene basanitic and melilititic series of the Bohemian Massif: K-Ar ages, major/trace element and Sr–Nd isotopic data. Geochemistry, 73(4), 429-450.
  • Ústí nad Labem Region
[Nephelinite] Kopecky, L. (1966). Tertiary volcanics. Regional Geology of Czechoslovakia. I. The Bohemian Massif. Czechoslovak Academy of Sciences (Praha), 554-581. Kopecký, L., Píšová, J., & Pokorný, L. (1967). Pyrope-bearing diatremes of the České středohoří Mountains. Sborník geologických věd: Geologie, 12, 81-130. Allen, J. B., & Charsley, T. J. (1968). Nepheline-syenite and Phonolite. HMSO. London. Shrbený, O. (1995). Chemical composition of young volcanites of the Czech Republic. Czech Geological Survey Special Paper, 4. Czech Geological Survey. Cajz, V., Vokurka, K., Balogh, K., Lang, M., & Ulrych, J. (1999). The České středohoří Mts.: volcanostratigraphy and geochemistry. Geolines, 9, 21-28. Suhr, P. (1999). Phreatomagmatic structures in the northern environs of the Ohre Rift (Saxony). Geolines, 9, 119-122. Ulrych, J. 2000. Intrusive centres of Neodic volcanism in the Bohemian Massiff: petrological, geochemical and mineralogical characteristics (with emphasis on the Roztoky, Osečná and Dvůr Králové centres). Summary of the Dissertation in Geology for Scientific Degree Doctor of sciences, University of Prague. Ulrych, J. A. R. O. M. I. R., & Balogh, K. A. D. O. S. A. (2000). Roztoky Intrusive Centre in the Ceske stredohori Mts.: Differentiation, emplacement, distribution, orientation and age of dyke series. GEOLOGICA CARPATHICA-BRATISLAVA-, 51(6), 383-398. Ulrych, J., Svobodová, J., & Balogh, K. (2002). The source of Cenozoic volcanism in the České středohoří Mts., Bohemian Massif. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 177(2), 133-162. Cajz, V. (2003). Dyke swarm pattern and tectonics in the České Středohoří Mts. Volcanic centre, Ohře (Eger) Rift, Central Europe (Starting points for further research). Geolines, 15, 15-22. Kotková, J., O’Brien, P. J., & Ziemann, M. A. (2011). Diamonds in the Bohemian Massif—evidence for ultrahigh-pressure metamorphism. Geologické výzkumy na Morave a ve Slezsku 18, 1, 35-38. Ackerman, L., Medaris, G., Špaček, P., & Ulrych, J. (2015). Geochemical and petrological constraints on mantle composition of the Ohře (Eger) rift, Bohemian Massif: peridotite xenoliths from the České Středohoří Volcanic complex and northern Bohemia. International Journal of Earth Sciences, 104(8), 1957-1979. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.305
    • Litoměřice District
[Nephelinite] Ulrych, J., Pivec, E., Jelinek, E., Arva-Sos, E., & Bendl, J. (1998). Geochemically anomalous olivine-poor nephelinite of Rip hill, Czech Republic. Journal of GEOsciences, 43(4), 299-311.
DR Congo
 
  • North Kivu
    • Nyiragongo Territory
[Leucitite] Bell, K., & Powell, J. L. (1969). Strontium isotopic studies of alkalic rocks: the potassium-rich lavas of the Birunga and Toro—Ankole Regions, East and Central Equatorial Africa. Journal of Petrology, 10(3), 536-572. doi.org/10.1093/petrology/10.3.536 Guibert, P., Delaloye, M., & Hunziker, J. (1975). Contribution à l’étude géologique du volcan Mikeno, chaîne des Virunga (République du Zaïre). CR Scé. Soc. Phys. Hist. Nat., Genève, ns, 10(1), 57-66. Combe, A. D., & Simmons, W. C. (1933). The volcanic area of Bufumbira: The geology of the volcanic area of Bufumbira, south-west Uganda: Geol. Survey Uganda Mem. Ill, pt. I, 1-143. Denaeyer, M. E., Schellinck, F., & Coppez, A. (1965). Recueil d'analyses des laves du fossé tectonique de l'Afrique centrale. Annales. Musée Roy. Afrique Centrale. Belgique, Ann. Ser. 8, Sci. Geol., 49, 1-234. Holmes, A., & Harwood, H. F. (1937). The volcanic area of Bufumbira. Part 2. The petrology of the volcanic field of Bufumbria, south-west Uganda, and of other parts of the Birunga field. Geological Survey of Uganda, Memoir, 3 (Part 2).
[Nephelinite] Bell, K., & Powell, J. L. (1969). Strontium isotopic studies of alkalic rocks: the potassium-rich lavas of the Birunga and Toro—Ankole Regions, East and Central Equatorial Africa. Journal of Petrology, 10(3), 536-572. doi.org/10.1093/petrology/10.3.536 Demant, A., Lestrade, P., Lubala, R. T., Kampunzu, A. B., & Durieux, J. (1994). Volcanological and petrological evolution of Nyiragongo volcano, Virunga volcanic field, Zaire. Bulletin of Volcanology, 56(1), 47-61. doi.org/10.1007/BF00279728 Denaeyer, M. E. (1972). LES LAVES DU FOSSE TECTONIQUE DE L'AFRIQUE CENTRALE (KIVU, RWANDA, TORO-ANKOLE). I. SUPPLEMENT AU RECUEIL D'ANALYSES DE 1965. II. MAGMATOLOGIE. Annales, Musee Royal de l'Afrique Centrale, Tervuren, Belgique. Serie In 8º, Sciences Geologiques, 72. Denaeyer, M. E., Schellinck, F., & Coppez, A. (1965). Recueil d'analyses des laves du fossé tectonique de l'Afrique centrale. Annales. Musée Roy. Afrique Centrale. Belgique, Ann. Ser. 8, Sci. Geol., 49, 1-234. GEE, L. L., & Sack, R. O. (1988). Experimental petrology of melilite nephelinites. Journal of Petrology, 29(6), 1233-1255. doi.org/10.1093/petrology/29.6.1233 Hamaguchi, H. (1983). Volcanoes Nyiragongo and Nyamuragira: geophysical aspects. Tohoku Univ. Richard, J.J. & Padang, M.N. 1957. Active volcanoes of the world. Part 4 Africa and the Red Sea. International Volcanological Association, Napoli, Italy. Sahama, T. G. (1960). Kalsilite in the lavas of mt. Nyiragongo (Belgian Congo). Journal of Petrology, 1(2), 146-171. doi.org/10.1093/petrology/1.2.146 Sahama, T. G. (1973). Evolution of the Nyiragongo magma. Journal of Petrology, 14(1), 33-48. doi.org/10.1093/petrology/14.1.33 Sahama, T. G. (1978). The Nyiragongo main cone. Annales, Musee Royal de l'Afrique Centrale, Tervuren, Belgique. Serie In 8º, Sciences Geologiques 81. Sahama, G., & Meyer, A. (1958). Study of the volcano Niragongo. A progress Report, Exploration du parc National Albert, mission d’études volcanologiques, Fasc 2, 1-85. Tazieff, H. 1975. Nyiragongo: the forbidden volcano. Cassell, London. Tazieff, H. (1984). Mt. Niragongo: renewed activity of the lava lake. Journal of Volcanology and Geothermal Research, 20(3-4), 267-280. doi.org/10.1016/0377-0273(84)90043-X Thonnard, R. L. G., & Denaeyer, M. E. (1965). Carte volcanologique des Virunga, Feuille No. 1. 1:50000 and Introduction generale et Notice Explicative de la Feuille No. 1. Centre National de Volcanologie (Belgique), Bruxelles. Vollmer, R., & Norry, M. J. (1983). Possible origin of K-rich volcanic rocks from Virunga, East Africa, by metasomatism of continental crustal material: Pb, Nd and Sr isotopic evidence. Earth and Planetary Science Letters, 64(3), 374-386. doi.org/10.1016/0012-821X(83)90097-3
[Nephelinite] Sahama, T. G., & Meyr, A. (1958). Study of the Volcano Nyragongo: A Progress Report. Institut des Parcs Nationaux du Congo Belge.
  • South Kivu
    • Kabare Territory
[Ankaratrite] Auchapt, A., Dupuy, C., Dostal, J., & Kanika, M. (1987). Geochemistry and petrogenesis of rift-related volcanic rocks from South Kivu (Zaire). Journal of volcanology and geothermal research, 31(1-2), 33-46. doi.org/10.1016/0377-0273(87)90004-7 Kampunzu, A. B., Vellutini, P. J., Caron, J. P., Lubala, R. T., & Kanika, M. (1983). Le volcanisme et l'evolution structurale du Sud-Kivu (Zaire). Un modele d'interpretation geodynamique du volcanisme distensif intracontinental. Bulletin des centres de recherches exploration-Production Elf-Aquitaine, 7(1), 257-271. Kampunzu, A. B., Bonhomme, M. G., & Kanika, M. (1998). Geochronology of volcanic rocks and evolution of the Cenozoic Western Branch of the East African Rift System. Journal of African Earth Sciences, 26(3), 441-461. doi.org/10.1016/S0899-5362(98)00025-6 Kanika, M., Kampunzu, A. B., Caron, J. P. H., & Vellutini, P. J. (1981). Données nouvelles sur le volcanisme de la haute Ruzizi (Sud Kivu, Zaire). CR Acad. Sci. Paris, 292, 1277-1282.
Egypt
 
  • Suez Governorate
[Nephelinite] Meneisy, M. Y., & MY, M. (1974). POTASSIUM-ARGON AGES OF EGYPTIAN BASALTIC ROCKS. Geologisches Jahrbuch, Hannover, D9, 21-31. Meneisy, M. Y., MY, M., & MM, S. (1976). PETROLOGY OF THE VOLCANIC ROCKS OF WADI ARABA-ABU DARAG, EASTERN DESERT, EGYPT. Chemie der Erde, 35, 63-75.
Ethiopia
 
  • Oromia Region
    • Bale Zone
[Melanocratic nephelinite] Le Bas, M. J., & Mohr, P. A. (1968). Feldspathoidal rocks from the Cainozoic volcanic province of Ethiopia. Geologische Rundschau, 58(1), 273-280. doi.org/10.1007/BF01820608 Merla, G., Abbate, E., Azzaroli, A., Bruni, P., Canuti, P., Fazzuoli, M., ... & Tacconi, P. (1979). A geological map of Ethiopia and Somalia (1973) 1: 2.000. 000 and comment. University of Florence, Italy.
[Nephelinite] Mohr, P. A. (1962). The geology of Ethiopia: Univ. Coll. Le Bas, M. J., & Mohr, P. A. (1968). Feldspathoidal rocks from the Cainozoic volcanic province of Ethiopia. Geologische Rundschau, 58(1), 273-280. doi.org/10.1007/BF01820608
    • West Shewa Zone
[Melanocratic nephelinite] Le Bas, M. J., & Mohr, P. A. (1968). Feldspathoidal rocks from the Cainozoic volcanic province of Ethiopia. Geologische Rundschau, 58(1), 273-280. doi.org/10.1007/BF01820608
Federated States of Micronesia
 
[Nephelinite] Mattey, D. P. (1982). The minor and trace element geochemistry of volcanic rocks from Truk, Ponape and Kusaie, eastern Caroline Islands; the evolution of a young hot spot trace across old Pacific Ocean crust. Contributions to Mineralogy and Petrology, 80(1), 1-13. doi.org/10.1007/BF00376730 Jackson, M. G., Price, A. A., Blichert-Toft, J., Kurz, M. D., & Reinhard, A. A. (2017). Geochemistry of lavas from the Caroline hotspot, Micronesia: Evidence for primitive and recycled components in the mantle sources of lavas with moderately elevated 3He/4He. Chemical Geology, 455, 385-400. doi.org/10.1016/j.chemgeo.2016.10.038
[Nephelinite] Stark, J. T., & Hay, R. L. (1963). Geology and petrography of volcanic rocks of the Truk Islands, East Caroline Islands. US Government Printing Office, Professional Papers, 409. Mattey, D. P. (1982). The minor and trace element geochemistry of volcanic rocks from Truk, Ponape and Kusaie, eastern Caroline Islands; the evolution of a young hot spot trace across old Pacific Ocean crust. Contributions to Mineralogy and Petrology, 80(1), 1-13. doi.org/10.1007/BF00376730
France
 
  • Auvergne-Rhône-Alpes
    • Ardèche
      • Largentière
        • Berzème
[Ankaratrite] Bandet, Y., Donville, B., & Gourinard, Y. (1974). Premières datations potassium-argon du Coiron (Ardèche, France). CR Acad. Sci., 278, 2869-2872. Brousse, R. (1961). Minéralogie et pétrographie des roches volcaniques du massif du Mont-Dore (Auvergne) III. Les deux associations magmatiques. Bulletin de Minéralogie, 84(3), 245-259. Brousse, R. (1961). Recueil des analyses chimiques des roches volcaniques tertiaires et quaternaires de la France. Bull. Serv. Carte géol. France, 58(263), 1-140. Brousse, R. & Lefevre, C. 1990. Le volcanisme en France et en Europe Limitrophe. Guides Géologiques Régionaux. Masson, Paris. Goer de Herve, A., & Mergoil, J. (1971). Structure et dynamique des édifices volcaniques tertiaires et quaternaires. In Symposium sur la géologie, la morphologie, et la structure profonde du Massif Central français (pp. 345-376). Grangeon, P. (1960). Contribution à l'étude des terrains tertiaires, de la tectonique et du volcanisme du massif du Coiron. Trav. Lab. Géol. Fac. Grenoble, 36, 143-285.
    • Cantal
      • Aurillac
        • Vic-sur-Cère
          • Thiézac
[Nephelinite] Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.326. Brousse, R. (1961). Recueil des analyses chimiques des roches volcaniques tertiaires et quaternaires de la France. Bull. Serv. Carte géol. France, 58(263), 1-140. Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe Limitrophe. Guides Géologiques Régionaux. Masson, Paris. Brousse, R., & Rançon, J. P. (1984). Crystallization trends of pyroxenes from agpaitic phonolites (Cantal, France). Mineralogical Magazine, 48(346), 39-45. Caroff, M., Ambrics, C., Maury, R., & Cotten, J. (1997). From alkali basalt to phonolite in hand-size samples: vapor-differentiation effects in the Bouzentes lava flow (Cantal, France). Journal of Volcanology and Geothermal Research, 79(1-2), 47-61. Downes, H. (1984). Sr and Nd isotope geochemistry of coexisting alkaline magma series, Cantal, Massif Central, France. Earth and Planetary Science Letters, 69(2), 321-334. Downes, H. (1987). Tertiary and quaternary volcanism in the Massif Central, France. Geological Society, London, Special Publications, 30(1), 517-530. Downes, H. (1989). Magma mixing in undersaturated alkaline volcanics, Cantal, Massif Central, France. Mineralogical Magazine, 53(369), 43-53. Downes, H., & Leyreloup, A. (1986). Granulitic xenoliths from the French Massif Central—petrology, Sr and Nd isotope systematics and model age estimates. Geological Society, London, Special Publications, 24(1), 319-330. de Goer, A., & Mergoil, J. (1971). Structure et dynamique des édifices volcaniques tertiaires et quaternaires. In Symposium sur la géologie, la morphologie, et la structure profonde du Massif Central français (pp. 345-376). Nehlig, P., Leyrit, H., Dardon, A., Freour, G., de Goer de Herve, A., Huguet, D., & Thieblemont, D. (2001). Constructions et destructions du stratovolcan du Cantal. Bulletin de la Société Géologique de France, 172(3), 295-308. Pilet, S., Hernandez, J., & Villemant, B. (2002). Evidence for high silicic melt circulation and metasomatic events in the mantle beneath alkaline provinces: the Na–Fe-augitic green-core pyroxenes in the Tertiary alkali basalts of the Cantal massif (French Massif Central). Mineralogy and Petrology, 76(1-2), 39-62. Platevoet, R., SCHNEIDER, J. L., Lefevre, C., & Nehlig, P. (1999). Les formations pyroclastiques du strato-volcan du Cantal sont-elles liées à une vaste caldéra centrale? Apport des dynamismes volcaniques. Géologie de la France, (4), 77-91. Reubi, O., & Hernandez, J. (2000). Volcanic debris avalanche deposits of the upper Maronne valley (Cantal Volcano, France): evidence for contrasted formation and transport mechanisms. Journal of Volcanology and Geothermal Research, 102(3-4), 271-286. Schneider, J. L., & Fisher, R. V. (1998). Transport and emplacement mechanisms of large volcanic debris avalanches: evidence from the northwest sector of Cantal Volcano (France). Journal of Volcanology and Geothermal Research, 83(1-2), 141-165. Varet, J. (1969). Les phonolites agpaitiques et miaskitiques du Cantal septentrional (Auvergne, France). Bulletin Volcanologique, 33(2), 621-656. Wilson, M., Downes, H., & Cebria, J. M. (1995). Contrasting fractionation trends in coexisting continental alkaline magma series; Cantal, Massif Central, France. Journal of Petrology, 36(6), 1729-1753.
    • Loire
      • Montbrison
[Nephelinite] Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe Limitrophe. Guides Géologiques Régionaux. Masson, Paris. Lenoir, X., Garrido, C. J., Bodinier, J. L., & Dautria, J. M. (2000). Contrasting lithospheric mantle domains beneath the Massif Central (France) revealed by geochemistry of peridotite xenoliths. Earth and Planetary Science Letters, 181(3), 359-375. Lenoir, X., Dautria, J. M., Briqueu, L., Cantagrel, J. M., & Michard, A. (2000). Nouvelles données géochronologiques, géochimiques et isotopiques sur le volcanisme du Forez: relation avec l'évolution cénozoïque du manteau du Massif central. Comptes Rendus de l'Académie des Sciences-Series IIA-Earth and Planetary Science, 330(3), 201-207. Hernandez, J. (1973). Le volcanisme tertiaire des monts du Forez (Massif central français): basanites à analcime, à leucite et néphélinites à mélilite. Bulletin de Minéralogie, 96(4), 303-312. Lenoir, X., Dautria, J. M., & Bodinier, J. L. (1997). Les enclaves mantelliques protogranulaires du Forez: témoins de l'érosion lithosphérique en bordure du panache du Massif central. Comptes Rendus de l'Académie des Sciences-Series IIA-Earth and Planetary Science, 325(4), 235-241.
        • Marcoux
[Nephelinite] Hernandez, J. (1973). Le volcanisme tertiaire des monts du Forez (Massif central français): basanites à analcime, à leucite et néphélinites à mélilite. Bulletin de Minéralogie, 96(4), 303-312. Hernandez, J. (1976). Données nouvelles sur la composition minéralogique de la néphélinite de Marcoux (Forez). Bulletin de Minéralogie, 99(1), 61-66. Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe Limitrophe. Guides Géologiques Régionaux. Masson, Paris. Lenoir, X., Garrido, C. J., Bodinier, J. L., & Dautria, J. M. (2000). Contrasting lithospheric mantle domains beneath the Massif Central (France) revealed by geochemistry of peridotite xenoliths. Earth and Planetary Science Letters, 181(3), 359-375.
    • Puy-de-Dôme
[Ankaratrite] Brousse, R. (1961). Recueil des analyses chimiques des roches volcaniques tertiaires et quaternaires de la France. Bull. Serv. Carte géol. France, 58(263), 1-140. Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe limitrophe. «Guides géologiques régionaux». Masson, Paris. Cantagrel, J. M. (1976). AGE DU VOLCANISME DANS LE CEZALLIER (MASSIF CENTRAL FRANCAIS) ET MIGRATION DE L'ACTIVITE VOLCANIQUE EN AUVERGNE. Compte Rendu Hebdomadaire des Séances de l'Académie des Sciences, Paris, D282, 1837-1840. Vannucci, R., Ottolini, L., Bottazzi, P., Downes, H., & Dupuy, C. (1994). INAA, IDMS and SIMS comparative REE investigations of clinopyroxenes from mantle xenoliths with different textures. Chemical Geology, 118(1-4), 85-108.
[Nephelinite] Camus, G., Cantagrel, J. M., Taupinard, J. M., & Vialette, Y. (1969). Mesure par la méthode à l'argon, de l'âge de quelques rochesvolcaniques de Limagne (Massif central français). Comptes-rendus de l’Académie des Sciences de Paris, série D, 269, 2513-2516. Bailey, D.K. 2010. New forms of carbonate volcanism: what to look for and where. Paper presented at IMA 2010, 20th General Meeting of the International Mineralogical Association, 21-27 August 2010, Budapest, Hungary. Acta Mineralogica-petrographica, Abstract Series, 558. Bailey, D. K., & Kearns, S. (2012). New forms of abundant carbonatite–silicate volcanism: recognition criteria and further target locations. Mineralogical Magazine, 76(2), 271-284. Bailey, K., Kearns, S., Mergoil, J., Daniel, J. M., & Paterson, B. (2006). Extensive dolomitic volcanism through the Limagne Basin, central France: a new form of carbonatite activity. Mineralogical Magazine, 70(2), 231-236. Chazot, G., & Mergoil-Daniel, J. (2012). Co-eruption of carbonate and silicate magmas during volcanism in the Limagne graben (French Massif Central). Lithos, 154, 130-146. Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe limitrophe. «Guides géologiques régionaux». Masson, Paris. de Herve, A. G. (2000). Peperites from the Limagne trench (Auvergne, Franch Massif Central): a distinctive facies of phreatomagmatic pyroclastics. History of a semantic drift. In Volcanoclastic rocks: from magmas to sediments (pp. 91-110). Gordon and Breach Science Publishers Amsterdam. Michel, R. (1953). Contribution à l'étude pétrographique des pépérites et du volcanisme tertiaire de la Grande Limagne. Mémoires de la Société d'Histoire Naturelle d'Auvergne, 5, 1-140.
  • Bourgogne-Franche-Comté
    • Saône-et-Loire
      • Charolles
[Ankaratrite] Bellon, H., Gillot, P. Y., & Nativel, P. (1974). Eocene volcanic activity in Bourgogne, Charollais, Massif Central (France). Earth and Planetary Science Letters, 23(1), 53-58. Brousse, R., & Nativel, P. (1964). Le volcanisme recent de la Bourgogne et du Charollais. Bulletin de la Société Géologique de France, 7(5), 678-690.
  • French Polynesia
    • Austral Islands
[Foidite] Stoffers, P., Botz, R., Cheminée, J. L., Devey, C. W., Froger, V., Glasby, G. P., ... & Larque, P. (1989). Geology of MacDonald seamount region, Austral Islands: Recent hotspot volcanism in the South Pacific. Marine geophysical researches, 11(2), 101-112. doi.org/10.1007/BF00285661 Hekinian, R., Bideau, D., Stoffers, P., Cheminee, J. L., Muhe, R., Puteanus, D., & Binard, N. (1991). Submarine intraplate volcanism in the South Pacific: Geological setting and petrology of the Society and the Austral regions. Journal of Geophysical Research: Solid Earth, 96(B2), 2109-2138. doi.org/10.1029/90JB02139
[Foidite] Hekinian, R., Bideau, D., Stoffers, P., Cheminee, J. L., Muhe, R., Puteanus, D., & Binard, N. (1991). Submarine intraplate volcanism in the South Pacific: Geological setting and petrology of the Society and the Austral regions. Journal of Geophysical Research: Solid Earth, 96(B2), 2109-2138. doi.org/10.1029/90JB02139
[Foidite] Jeremine, E. (1959). Sur quelques laves de l’île Raivavae (archipel Tubuaï ou Austral). Bulletin Volcanologique, 21(1), 117-125. doi.org/10.1007/BF02596511 Dupuy, C., Barsczus, H. G., Liotard, J. M., & Dostal, J. (1988). Trace element evidence for the origin of ocean island basalts: an example from the Austral Islands (French Polynesia). Contributions to Mineralogy and Petrology, 98(3), 293-302. doi.org/10.1007/BF00375180
[Nephelinite] Caroff, M., Maury, R. C., Guille, G., & Cotten, J. (1997). Partial melting below Tubuai (Austral Islands, French Polynesia). Contributions to Mineralogy and Petrology, 127(4), 369-382. doi.org/10.1007/s004100050286 Maury, R. C., El Azzouzi, M., Bellon, H., Liotard, J. M., Guille, G., Barsczus, H. G., ... & Brousse, R. (1994). Géologie et pétrologie de l'île de Tubuai (Australes, Polynésie française). Compte-Rendu de l’Académie des Sciences, 318(2), 1341-1347. Brousse, R., & Maury, R. C. (1980). Volcanisme et pétrologie de l'île de Tubuai dans les Iles Australes (Pacifique Sud): Cahiers de l'Indo-Pacifique, v. 2. Chan, L. H., Lassiter, J. C., Hauri, E. H., Hart, S. R., & Blusztajn, J. (2009). Lithium isotope systematics of lavas from the Cook–Austral Islands: constraints on the origin of HIMU mantle. Earth and Planetary Science Letters, 277(3-4), 433-442. doi.org/10.1016/j.epsl.2008.11.009 Dupuy, C., Barsczus, H. G., Liotard, J. M., & Dostal, J. (1988). Trace element evidence for the origin of ocean island basalts: an example from the Austral Islands (French Polynesia). Contributions to Mineralogy and Petrology, 98(3), 293-302. doi.org/10.1007/BF00375180 Dupuy, C., Barsczus, H. G., Dostal, J., Vidal, P., & Liotard, J. M. (1989). Subducted and recycled lithosphere as the mantle source of ocean island basalts from southern Polynesia, central Pacific. Chemical Geology, 77(1), 1-18. doi.org/10.1016/0009-2541(89)90010-7 Schiano, P., Burton, K. W., Dupre, B., Birck, J. L., Guille, G., & Allegre, C. J. (2001). Correlated Os–Pb–Nd–Sr isotopes in the Austral–Cook chain basalts: the nature of mantle components in plume sources. Earth and Planetary Science Letters, 186(3-4), 527-537. doi.org/10.1016/S0012-821X(01)00265-5 LIOTARD, J. M., & Barsczus, H. G. (1989). Génèse des foïdites phonolitiques de Tubuai (archipel des Australes, océan Pacifique Sud): intervention d'un magma d'affinité carbonatitique. Comptes rendus de l'Académie des sciences. Série 2, Mécanique, Physique, Chimie, Sciences de l'univers, Sciences de la Terre, 308(14), 1261-1266. Chauvel, C., McDonough, W., Guille, G., Maury, R., & Duncan, R. (1997). Contrasting old and young volcanism in Rurutu Island, Austral chain. Chemical Geology, 139(1-4), 125-143.doi.org/10.1016/S0009-2541(97)00029-6
    • Marquesas Islands
[Foidite] Brousse, R., & MA, S. (1978). Pétrologie de l'île de Ua Huka dans le Pacifique Central. Cahiers du Pacifique, Volume Special 'Marquises'. Fondation Singer-Polignac, Paris. Dupuy, C., Vidal, P., Barsczus, H. G., & Chauvel, C. (1987). Origin of basalts from the Marquesas Archipelago (south central Pacific Ocean): isotope and trace element constraints. Earth and planetary science letters, 82(1-2), 145-152. doi.org/10.1016/0012-821X(87)90114-2 Woodhead, J. D. (1992). Temporal geochemical evolution in oceanic intra-plate volcanics: a case study from the Marquesas (French Polynesia) and comparison with other hotspots. Contributions to Mineralogy and Petrology, 111(4), 458-467. doi.org/10.1007/BF00320901 Duncan, R. A., & McDougall, I. (1974). Migration of volcanism with time in the Marquesas Islands, French Polynesia. Earth and Planetary Science Letters, 21(4), 414-420. doi.org/10.1016/0012-821X(74)90181-2
  • Grand Est
    • Vosges
[Nephelinite] Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Oberrheinische Geologische Abhandlungen, 25, 41-62. Brousse, R. (1961). Recueil des analyses chimiques des roches volcaniques tertiaires et quaternaires de la France. Bull. Serv. Carte géol. France, 58(263), 1-140. BROUSSE, R., & BELLON, H. (1983). Réflexions chronologiques et pétrologiques sur le volcanisme associé au développement des rifts de France. Bulletin des centres de recherches exploration-Production Elf-Aquitaine, 7(1), 409-424. Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe limitrophe. «Guides géologiques régionaux». Masson, Paris. Keller, J., Kraml, M., & Henjes-Kunst, F. (2002). 40Ar/39Ar single crystal laser dating of early volcanism in the Upper Rhine Graben and tectonic implications. Schweizerische Mineralogische und Petrographische Mitteilungen, 82, 121-130. Wimmenauer, W. (1952). Petrographische Untersuchungen an einigen basischen Eruptivgesteinen des Oberrheingebietes. Neues Jahrbuch für Mineralogie-Abhandlungen, 83, 375-432.
[Olivine nephelinite] Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Oberrheinische Geologische Abhandlungen, 25, 41-62.
[Olivine nephelinite] Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Oberrheinische Geologische Abhandlungen, 25, 41-62.
[Olivine nephelinite] Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Oberrheinische Geologische Abhandlungen, 25, 41-62.
[Olivine nephelinite] Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Oberrheinische Geologische Abhandlungen, 25, 41-62.
[Olivine nephelinite] Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Oberrheinische Geologische Abhandlungen, 25, 41-62.
[Olivine nephelinite] Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Oberrheinische Geologische Abhandlungen, 25, 41-62.
[Nephelinite] Nougier, J., Cantagrel, J. M., & Karche, J. P. (1986). The Comores archipelago in the western Indian Ocean: volcanology, geochronology and geodynamic setting. Journal of African Earth Sciences (1983), 5(2), 135-145. doi.org/10.1016/0899-5362(86)90003-5 Spāth, A., Roex, A. P. L., & Duncan, R. A. (1996). The Geochemistry of Lavas from the Gomores Archipelago, Western Indian Ocean: Petrogenesis and Mantle Source Region Characteristics. Journal of Petrology, 37(4), 961-991. doi.org/10.1093/petrology/37.4.961
Germany
[Nephelinite] https://en.wikipedia.org/wiki/Geology_of_Germany
  • Baden-Württemberg
    • Freiburg Region
      • Breisgau-Hochschwarzwald
        • Bötzingen
[Olivine nephelinite] Weisenberger, T.B., Spürgin, S., Lahaye, Y. (2014): Hydrothermal alteration and zeolitization of the Fohberg phonolite, Kaiserstuhl Volcanic Complex, Germany, International Journal of Earth Sciences, Vol. 103 (8). 2273-2300
[Olivine nephelinite] Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Obnerrheinische Geologische Abhandlungen, 25, 41-62. Dunworth, E. A., & Wilson, M. (1998). Olivine melilitites of the SW German Tertiary Volcanic Province: mineralogy and petrogenesis. Journal of Petrology, 39(10), 1805-1836. Keller, J., & Schleicher, H. (1990). Volcanism and petrology of the Kaiserstuhl. In International Volcanological Congress, Mainz (FRG), Post-Conference Excursion B (Vol. 2, pp. 32-60). Keller, J., Kraml, M., & Henjes-Kunst, F. (2002). 40Ar/39Ar single crystal laser dating of early volcanism in the Upper Rhine Graben and tectonic implications. Schweizerische Mineralogische und Petrographische Mitteilungen, 82, 121-130. Solovova, I. P., Girnis, A. V., Rass, I. T., Kononkova, N. N., & Keller, J. (2005). Composition and evolution of fluid-saturated calcium-rich melts: Inclusions in the minerals of olivine melilitite from Mahlberg, Rhine Graben. Geochemistry International, 43(9), 843-861. Wimmenauer, W. (1952). Petrographische Untersuchungen an einigen basischen Eruptivgesteinen des Oberrheingebietes. Neues Jahrbuch für Mineralogie-Abhandlungen, 83, 375-432.
    • Karlsruhe Region
      • Rhein-Neckar-Kreis
        • Eberbach
[Nephelinite] Stähle, V., Koch, M. (2003): Primary and secondary pseudobrookite minerals in volcanic rocks from the Katzenbuckel Alkaline Complex, southwestern Germany. Schweizerische Mineralogische und Petrographische Mitteilungen, 83, 145-158.; Lippolt, H. J., Horn, P., & Todt, W. (1976). Kalium-Argon-Alter von Mineralien und Einschlüssen der Basalt-Vorkommen Katzenbuckel und Roßberg. N Jb Miner Abh, 127(3), 242-260. Mann, U., Marks, M., & Markl, G. (2006). Influence of oxygen fugacity on mineral compositions in peralkaline melts: The Katzenbuckel volcano, Southwest Germany. Lithos, 91(1-4), 262-285. Schmitt, A. K., Marks, M. A., Nesbor, H. D., & Markl, G. (2007). The onset and origin of differentiated Rhine Graben volcanism based on U-Pb ages and oxygen isotopic composition of zircon. European Journal of Mineralogy, 19(6), 849-857. Stähle, V., Koch, M., McCammon, C. A., Mann, U., & Markl, G. (2002). Occurrence of Low-Ti and High-Ti freudenbergite in alkali syenite dikes from the Katzenbuckel volcano, Southwestern Germany. The Canadian Mineralogist, 40(6), 1609-1627. Wagner, C., Velde, D., & Mokhtari, A. (1987). Sector-zoned phlogopites in igneous rocks. Contributions to Mineralogy and Petrology, 96(2), 186-191.
    • Tübingen Region
      • Reutlingen
[Nephelinite] Cloos, H. (1941). Bau and Tätigkeit von Tuffschloten: Geol. Rundschau, 32, 704-800. Lippolt, H. J., Todt, W. & Baranyi, I. (1973). K-Ar ages of basaltic rocks from the Urach volcanic district, SW Germany. Fortschritte der Mineralogie, Stuttgart, 50, 101-102. Alibert, C., Michard, A., & Albarède, F. (1983). The transition from alkali basalts to kimberlites: isotope and trace element evidence from melilitites. Contributions to Mineralogy and Petrology, 82(2-3), 176-186. Keller, J., Brey, G., Lorenz, V., & Sachs, P. (1990). Volcanism and petrology of the upper Rhinegraben (Urach-Hegau-Kaiserstuhl). Fieldguide, IAVCEI 1990 preconference excursion, 2. Hegner, E., Walter, H. J., & Satir, M. (1995). Pb-Sr-Nd isotopic compositions and trace element geochemistry of megacrysts and melilitites from the Tertiary Urach volcanic field: source composition of small volume melts under SW Germany. Contributions to Mineralogy and Petrology, 122(3), 322-335. Wilson, M., Rosenbaum, J. M., & Dunworth, E. A. (1995). Melilitites: partial melts of the thermal boundary layer?. Contributions to Mineralogy and Petrology, 119(2-3), 181-196. Hegner, E., & Vennemann, T. W. (1997). Role of fluids in the origin of Tertiary European intraplate volcanism: evidence from O, H, and Sr isotopes in melilitites. Geology, 25(11), 1035-1038. Dunworth, E. A., & Wilson, M. (1998). Olivine melilitites of the SW German Tertiary Volcanic Province: mineralogy and petrogenesis. Journal of Petrology, 39(10), 1805-1836. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.346
  • Hesse
    • Kassel Region
[Nephelinite] Harmon, R. S., Hoefs, J., & Wedepohl, K. H. (1987). Stable isotope (O, H, S) relationships in Tertiary basalts and their mantle xenoliths from the Northern Hessian Depression, W.-Germany. Contributions to Mineralogy and Petrology, 95(3), 350-369. Hartmann, G., & Wedepohl, K. H. (1990). Metasomatically altered peridotite xenoliths from the Hessian Depression (Northwest Germany). Geochimica et Cosmochimica Acta, 54(1), 71-86. Kramm, U., & Wedepohl, K. H. (1990). Tertiary basalts and peridotite xenoliths from the Hessian Depression (NW Germany), reflecting mantle compositions low in radiogenic Nd and Sr. Contributions to Mineralogy and Petrology, 106(1), 1-8. Mengel, K., Kramm, U., Wedepohl, K. H., & Gohn, E. (1984). Sr isotopes in peridotite xenoliths and their basaltic host rocks from the northern Hessian Depression (NW Germany). Contributions to mineralogy and petrology, 87(4), 369-375. Oehm, J., Schneider, A., & Wedepohl, K. H. (1983). Upper mantle rocks from basalts of the northern Hessian depression (NW Germany). Tschermaks mineralogische und petrographische Mitteilungen, 32(1), 25-48. Wedepohl, K. H. (1983). Die chemische Zusammensetzung der basaltischen Gesteine der nördlichen Hessischen Senke und ihrer Umgebung. Geologisches Jahrbuch Hessen, 111, 261-302. Wedepohl, K. H. (1985). Origin of the Tertiary basaltic volcanism in the northern Hessian Depression. Contributions to Mineralogy and Petrology, 89(2-3), 122-143.; Harmon, R. S., Hoefs, J., & Wedepohl, K. H. (1987). Stable isotope (O, H, S) relationships in Tertiary basalts and their mantle xenoliths from the Northern Hessian Depression, W.-Germany. Contributions to Mineralogy and Petrology, 95(3), 350-369. Hartmann, G., & Wedepohl, K. H. (1990). Metasomatically altered peridotite xenoliths from the Hessian Depression (Northwest Germany). Geochimica et Cosmochimica Acta, 54(1), 71-86. Kramm, U., & Wedepohl, K. H. (1990). Tertiary basalts and peridotite xenoliths from the Hessian Depression (NW Germany), reflecting mantle compositions low in radiogenic Nd and Sr. Contributions to Mineralogy and Petrology, 106(1), 1-8. Mengel, K., Kramm, U., Wedepohl, K. H., & Gohn, E. (1984). Sr isotopes in peridotite xenoliths and their basaltic host rocks from the northern Hessian Depression (NW Germany). Contributions to mineralogy and petrology, 87(4), 369-375. Oehm, J., Schneider, A., & Wedepohl, K. H. (1983). Upper mantle rocks from basalts of the northern Hessian depression (NW Germany). Tschermaks mineralogische und petrographische Mitteilungen, 32(1), 25-48. Wedepohl, K. H. (1983). Die chemische Zusammensetzung der basaltischen Gesteine der nördlichen Hessischen Senke und ihrer Umgebung. Geologisches Jahrbuch Hessen, 111, 261-302. Wedepohl, K. H. (1985). Origin of the Tertiary basaltic volcanism in the northern Hessian Depression. Contributions to Mineralogy and Petrology, 89(2-3), 122-143.
  • Rhineland-Palatinate
    • Ahrweiler District
      • Brohltal
        • Spessart
          • Hannebach
[leucitophyre] Meyer, W. (1983) Geologischer Wanderführer: Eifel. Franckh'sche Verlangshandlung W. Keller & Co., Stuttgart.
    • Bernkastel-Wittlich District
[Leucite nephelinite] Meyer, W. (1983) Geologischer Wanderführer: Eifel. Franckh'sche Verlangshandlung W. Keller & Co., Stuttgart.
    • Mayen-Koblenz District
[Nephelinite] Fekiacova, Z., Mertz, D. F., & Renne, P. (2003, April). Geodynamic setting of the Hocheifel volcanism, western Germany. In EGS-AGU-EUG Joint Assembly. Geophysical Research Abstracts, 5, 10355. Huckenholz, H. G. (1973). The origin of fassaitic augite in the alkali basalt suite of the Hocheifel area, Western Germany. Contributions to Mineralogy and Petrology, 40(4), 315-326. Huckenholz, H. G. (1983). Tertiary volcanism of the Hocheifel area. In Plateau Uplift (pp. 121-128). Springer, Berlin, Heidelberg. Huckenholz, H. G., & Büchel, G. (1988). Exkursion C 1. Tertiärer Vulkanismus der Hocheifel. Fortschritte der Mineralogie. Beiheft, 66(2), 43-82. Jung, C., Jung, S., Hoffer, E., & Berndt, J. (2006). Petrogenesis of Tertiary mafic alkaline magmas in the Hocheifel, Germany. Journal of Petrology, 47(8), 1637-1671. Lippolt, H. J. (1982). K/Ar age determinations and the correlation of Tertiary volcanic activity in Central Europe. Geologisches Jahrbuch. Reihe D. Mineralogie, Petrographie, Geochemie, Lagerstättenkunde, 52D, 113-135.
      • Pellenz
        • Nickenich
[Leucite nephelinite] Meyer, W. (1983) Geologischer Wanderführer: Eifel. Franckh'sche Verlangshandlung W. Keller & Co., Stuttgart.
      • Vordereifel
[Foidite] Meyer, W. (1994) Geologie der Eifel, Schweitzerbart, Stuttgart
    • Vulkaneifel District
      • Gerolstein
        • Rockeskyll
[Leucite nephelinite] Mertes, H., & Schmincke, H. U. (1985). Mafic potassic lavas of the Quaternary West Eifel volcanic field. Contributions to Mineralogy and Petrology, 89(4), 330-345.
[Leucite nephelinite] Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.338-339 Riley, T. R., Bailey, D. K., & Lloyd, F. E. (1996). Extrusive carbonatite from the quaternary Rockeskyll complex, West Eifel, Germany. The Canadian Mineralogist, 34(2), 389-401.
[Nephelinite] Ehrenberg, K. H., Hickethier, H., Rosenberg, F., Strecker, G., & Susic, M. (1992). Neue Ergebnisse zum tertiären Vulkanismus der Rhön (Wasserkuppenrhön und Kuppenrhön). Berichte der Deutschen Mineralogischen Gesellschaft, 1992(2), 47-102. ENDERS, M., LAEMMLEN, M., & FÖRSTER, H. (1992). Polybaric differentiation of alkaline volcanic rocks in the Rhön Mountains, Hessia, Germany. evidence from trace-element-distribution. Chemie der Erde, 52(3), 189-203. Jung, S. (1995). Geochemistry and petrogenesis of rift-related Tertiary alkaline rocks from the Rhon area (central Germany). Neues Jahrbuch fur Mineralogie-Abhandlungen, 169(3), 193-226. Jung, S., & Hoernes, S. (2000). The major-and trace-element and isotope (Sr, Nd, O) geochemistry of Cenozoic alkaline rift-type volcanic rocks from the Rhön area (central Germany): petrology, mantle source characteristics and implications for asthenosphere–lithosphere interactions. Journal of Volcanology and Geothermal Research, 99(1-4), 27-53. Jung, S., Pfänder, J. A., Brügmann, G., & Stracke, A. (2005). Sources of primitive alkaline volcanic rocks from the Central European Volcanic Province (Rhön, Germany) inferred from Hf, Os and Pb isotopes. Contributions to Mineralogy and Petrology, 150(5), 546-559. Jung, S., Mezger, K., Hauff, F., Pack, A., & Hoernes, S. (2013). Petrogenesis of rift-related tephrites, phonolites and trachytes (Central European Volcanic Province, Rhön, FRG): Constraints from Sr, Nd, Pb and O isotopes. Chemical Geology, 354, 203-215. Lippolt, H. J. (1982). K/Ar age determinations and the correlation of Tertiary volcanic activity in Central Europe. Geologisches Jahrbuch. Reihe D. Mineralogie, Petrographie, Geochemie, Lagerstättenkunde, (52), 113-135. Lippolt, H. J. (1983). Distribution of volcanic activity in space and time. In Plateau uplift (pp. 112-120). Springer, Berlin, Heidelberg. Witt-Eickschen, G., & Kramm, U. (1997). Mantle upwelling and metasomatism beneath Central Europe: geochemical and isotopic constraints from mantle xenoliths from the Rhön (Germany). Journal of Petrology, 38(4), 479-493.
  • Saxony
    • Görlitz District
[Olivine nephelinite] Büchner, J., Tietz, O., Viereck, L., Suhr, P., & Abratis, M. (2015). Volcanology, geochemistry and age of the Lausitz Volcanic Field. International Journal of Earth Sciences, 104(8), 2057-2083.
  • Thuringia
    • Hildburghausen District
      • Heldburg
[Nephelinite] Abratis, M., Viereck, L., Pfänder, J. A., & Hentschel, R. (2015). Geochemical composition, petrography and 40 Ar/39 Ar age of the Heldburg phonolite: implications on magma mixing and mingling. International Journal of Earth Sciences, 104(8), 2033-2055. Grant, T. B., Milke, R., Pandey, S., & Jahnke, H. (2013). The Heldburg Phonolite, Central Germany: Reactions between phonolite and xenocrysts from the upper mantle and lower crust. Lithos, 182, 86-101. Huckenholz, H. G., & WERNER, C. D. (1990). Die tertiären Vulkanite der Heldburger Gangschar (Bayerisch-thüringisches Grabfeld). Berichte der Deutschen Mineralogischen Gesellschaft, 1990(2), 1-42. Lippolt, H. J. (1982). K/Ar age determinations and the correlation of Tertiary volcanic activity in Central Europe. Geologisches Jahrbuch. Reihe D. Mineralogie, Petrographie, Geochemie, Lagerstättenkunde, (52), 113-135.
Hungary
 
  • Veszprém County
    • Tapolca district
[Nephelinite] Szabó, C., Kovacs, I., Dégi, J., Kothay, K., Torok, K., Hidas, K. K., ... & Torok, K. (2010). From maars to lava lakes: Ultramafic and granulite xenoliths associated with the alkaline basaltic volcanism of the Pannonian Basin. Mineralogicapetrographica field guide series, 1-32. Embey-Isztin, A., Downes, H., James, D. E., Upton, B. G. J., Dobosi, G., Ingram, G. A., ... & Scharbert, H. G. (1993). The petrogenesis of Pliocene alkaline volcanic rocks from the Pannonian Basin, Eastern Central Europe. Journal of Petrology, 34(2), 317-343.
India
 
  • Gujarat
    • Chhota Udaipur District
[Nephelinite] Viladkar, S. G. (2015). Mineralogy and geochemistry of fenitized nephelinites of the Amba Dongar complex, Gujarat. Journal of the Geological Society of India, 85(1), 87-97.; Chandra, J., Paul, D., Viladkar, S. G., & Sensarma, S. (2018). Origin of the Amba Dongar carbonatite complex, India and its possible linkage with the Deccan Large Igneous Province. Geological Society, London, Special Publications, 463(1), 137-169.; Deans, T., Sukheswala, R. N., Sethna, S. F., & Viladkar, S. G. (1972). Metaso-matic feldspar rocks (potash fenites) associated with the fluorite deposits and earbonatites of Amba Dongar, Gujarat, India: Institution of Mining and Metallurgy Transactions, v. 81, p. Deans, T., Sukheswala, R. N., Sethna, S. F., & Viladkar, S. G. (1973). Discussion and contributions: Metasomatic feldspar rocks (potash fenites) associated with the fluorite deposits and carbonatites of Amba Dongar, Gujarat, India. Inst. Mining Metall. Trans, 82, 33-40. Notholt, A. J. G., Highley, D. E., & Deans, T. (1990). Economic minerals in carbonatites and associated alkaline igneous rocks. Institution of Mining and Metallurgy Transactions. Section B. Applied Earth Science, 99. Viladkar, S. G., & Wimmenauer, W. (1992). Geochemical and petrological studies on the Amba Dongar carbonatites (Gujarat, India). Chem. Erde, 52, 277-291. Srivastava, R. K. (1994). Petrology, petrochemistry and genesis of the alkaline rocks associated with the Ambadungar Carbonatite Complex, Baroda district, Gujarat, India. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 43, 23-23. Viladkar, S. G. (1981). The carbonatites of Amba Dongar, Gujarat, India. Bull. Geol. Soc. Finland, 53, 17-28. Viladkar, S. G. (1984). Alkaline rocks associated with the carbonatites of Amba Dongar, Chhota Udaipur, Gujarat, India. Indian Mineral, 130-135. Rock, N. M. S., Gwalani, L. G., & Griffin, B. J. (1994). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Alkaline Province, Gujarat, India. 2. Complexly zoned clinopyroxene phenocrysts. Mineralogy and Petrology, 51(2-4), 113-135.
    • Kutch District
      • Bhuj Taluka
[Nephelinite] Karkare, S.G., Kumar, S. & Srivastava, R.K. 1991. Evolution of the island chain of Kutch and role of rift magmatism and autonomous activization. Journal of Scientific Research, Banares Hindu University, 41B, 163-175.
      • Nakhatrana Taluka
[Nephelinite] Guha, D., Das, S., Srikarni, C., & Chakraborty, S. K. (2005). Alkali basalt of Kachchh: its implication in the tectonic framework of Mesozoic of western India. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 66(5), 599. Karmalkar, N. R., Rege, S., Griffin, W. L., & O'Reilly, S. Y. (2005). Alkaline magmatism from Kutch, NW India: implications for plume–lithosphere interaction. Lithos, 81(1-4), 101-119. Krishnamurthy, P., Pande, K., Gopalan, K., & Macdougall, J. D. (1988). Upper mantle xenoliths in alkali basalts related to Deccan Trap volcanism. Deccan Flood Basalts, 10, 53-67. Krishnamurthy, P., Pande, K., Gopalan, K., & Macdougall, J. D. (1999). Mineralogical and chemical studies on alkaline basaltic rocks of Kutch, Gujarat, India. Memoirs-Geological Society of India, (2), 757-784. Kshirsagar, P. V., Sheth, H. C., & Shaikh, B. (2011). Mafic alkalic magmatism in central Kachchh, India: a monogenetic volcanic field in the northwestern Deccan Traps. Bulletin of Volcanology, 73(5), 595-612. 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.
  • Maharashtra
    • Raigad District
[Nephelinite] Sethna, S. F., & D’Sa, C. P. (1991). Occurrence of ijolite with veinlets of carbonatite in the Deccan Trap at Murud-Janjira, Maharashtra, India. Journal of the Geological Society of India, 37, 257-263. Dessai, A. G., & Viegas, A. (2010). Petrogenesis of alkaline rocks from Murud-Janjira, in the Deccan Traps, western India. Mineralogy and Petrology, 98(1-4), 297-311. Melluso, L., Sethna, S. F., d’Antonio, M., Javeri, P., & Bennio, L. (2002). Geochemistry and petrogenesis of sodic and potassic mafic alkaline rocks in the Deccan Volcanic Province, Mumbai area (India). Mineralogy and Petrology, 74(2-4), 323-342. Dessai, A. G., Rock, N., Griffin, B. J., & Gupta, D. (1990). Mineralogy and petrology of some xenolith-bearing alkaline dykes associated with Deccan magmatism, south of Bombay, India. European Journal of Mineralogy, 667-686.; Sethna, S. F., & D’Sa, C. P. (1991). Occurrence of ijolite with veinlets of carbonatite in the Deccan Trap at Murud-Janjira, Maharashtra, India. Journal of the Geological Society of India, 37, 257-263. Dessai, A. G., & Viegas, A. (2010). Petrogenesis of alkaline rocks from Murud-Janjira, in the Deccan Traps, western India. Mineralogy and Petrology, 98(1-4), 297-311. Melluso, L., Sethna, S. F., d’Antonio, M., Javeri, P., & Bennio, L. (2002). Geochemistry and petrogenesis of sodic and potassic mafic alkaline rocks in the Deccan Volcanic Province, Mumbai area (India). Mineralogy and Petrology, 74(2-4), 323-342. Dessai, A. G., Rock, N., Griffin, B. J., & Gupta, D. (1990). Mineralogy and petrology of some xenolith-bearing alkaline dykes associated with Deccan magmatism, south of Bombay, India. European Journal of Mineralogy, 667-686.
Indonesia
 
  • West Nusa Tenggara Province
    • Sumbawa Island
[Leucitite] Foden, J. D., & Varne, R. (1980). The petrology and tectonic setting of Quaternary—recent volcanic centres of Lombok and Sumbawa, Sunda arc. Chemical Geology, 30(3), 201-226. Foden, J. D., & Varne, R. (1981). Petrogenetic and tectonic implications of near coeval calcalkaline to highly alkaline volcanism on Lombok and Sumbawa islands in the eastern Sunda Arc. In The Geology and Tectonics of Eastern Indonesia (Vol. 2, pp. 135-152). Geological Research and Development Centre. Varne, R., & Foden, J. D. (1986). Geochemical and isotopic systematics of eastern Sunda arc volcanics: implications for mantle sources and mantle mixing processes. In Developments in Geotectonics (Vol. 21, pp. 159-189). Elsevier.
[Leucitite] Foden, J. D., & Varne, R. (1980). The petrology and tectonic setting of Quaternary—recent volcanic centres of Lombok and Sumbawa, Sunda arc. Chemical Geology, 30(3), 201-226. Foden, J. D., & Varne, R. (1981). Petrogenetic and tectonic implications of near coeval calcalkaline to highly alkaline volcanism on Lombok and Sumbawa islands in the eastern Sunda Arc. In The Geology and Tectonics of Eastern Indonesia (Vol. 2, pp. 135-152). Geological Research and Development Centre.
Iran
 
  • East Azerbaijan Province
    • Ahar County
[Analcimite] 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.
  • Sistan and Baluchestan Province
    • Zahedan County
[Olivine nephelinite] Camp, V. E., & Griffis, R. J. (1982). Character, genesis and tectonic setting of igneous rocks in the Sistan suture zone, eastern Iran. Lithos, 15(3), 221-239.
  • West Azerbaijan Province
    • Mahabad County
[Nephelinite] Kheirkhah, M., Neill, I., Allen, M. B., & Ajdari, K. (2013). Small-volume melts of lithospheric mantle during continental collision: Late Cenozoic lavas of Mahabad, NW Iran. Journal of Asian Earth Sciences, 74, 37-49.
Israel
 
  • Northern District (HaZafon District)
[Nephelinite] Oppenheim, M. J. (1962). The geology of the south-eastern Galilee lava fields. Bulletin of the Research Council of Israel, 11, 58-84.
  • Southern District (HaDarom District)
    • Ramat Negev Regional Council
[Nephelinite] Bentor, Y. K. (1952). Magmatic Intrusions and Lava-sheets in the Raman area of the Nagev (Southern Israel). Geological Magazine, 89(2), 129-140. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.139 Bogoch, R., Weissbrod, T., & Bar-Matthews, M. (1992). Significance of REE-mineral inclusions in aegirine from an alkali syenite, Negev, Israel. European Journal of Mineralogy, 1337-1346. Eyal, M., Becker, A., & Samoylov, V. (1996). Mt. Arod–an Early Cretaceous basanitic volcano with a fossil lava lake. Isr. J. Earth Sci, 45, 31-38. Garfunkel, Z., & Katz, A. (1967). New magmatic features in Makhtesh Ramon, southern Israel. Geological Magazine, 104(6), 608-629. Lang, B., Hebeda, E. H., Priem, H. N. A., Verdurmen, E. A., & Steinitz, G. (1988). K-Ar and Rb-Sr ages of early Cretaceous magmatic rocks from Makhtesh Ramon, southern Israel. Israel Journal of Earth-Sciences, 37(2-3), 65-72. Samoilov, V. S., & Vapnik, Y. (2007). Fractional melting–the determining factor in the origin of the tephrite–basanite–nephelinite rock suite: evidence from western Makhtesh Ramon, Israel. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 184(2), 181-195. Starinsky, A., Bielski, M. & Bonen, D. (1980). Rb-Sr whole rock age of the syenitic intrusions (Shen Ramon and Gavnunim) in the Ramon area, southern Israel. Israel Journal of Earth Sciences, 29, 177-181. Vapnik, Y. (2005). Melt and fluid inclusions and mineral thermobarometry of mantle xenoliths in Makhtesh Ramon, Israel. Israel Journal of Earth Sciences, 54(1), 15-28. Vapnik, Y., Sharygin, V. V., Samoilov, V., & Yudalevich, Z. (2007). The petrogenesis of basic and ultrabasic alkaline rocks of western Makhtesh Ramon, Israel: geochemistry, melt and fluid inclusion study. International Journal of Earth Sciences, 96(4), 663-684.
Italy
 
  • Abruzzo
    • L'Aquila Province
      • Carsoli
        • Pietrasecca
[Foidite] Bertolani, M., Lugli, S., & Rossi, A. (1994). Studio petrografico delle grotte di attraversamento di Pietrasecca (L’Aquila). Memorie Istituto Italiano di Speleologia, 5, 71-83. Stoppa, F., Woolley, A.R., and Cundari, A. (2002) Extension of the melilite-carbonatite province in the Appennines of Italy: the kamafugite of Grotta del Cervo, Abruzzo. Mineralogical Magazine, 66, 4, 555-574.
[Foidite] Barbieri, M. A. R. I. O., Barbieri, M. A. U. R. I. Z. I. O., D’Orefice, M. A. U. R. I. Z. I. O., Graciotti, R. O. B. E. R. T. O., & Stoppa, F. R. A. N. C. E. S. C. O. (2001). Il vulcanismo monogenico medio-pleistocenico della conca di Carsoli (L’Aquila). Geologica Romana, 36, 13-31. Stoppa, F., Rosatelli, G., Wall, F., & Jeffries, T. (2005). Geochemistry of carbonatite–silicate pairs in nature: a case history from Central Italy. Lithos, 85(1-4), 26-47.
  • Basilicata
    • Potenza Province
      • Rionero in Vulture
[Nephelinite] Beccaluva, L., Coltorti, M., Di Girolamo, P., Melluso, L., Milani, L., Morra, V., & Siena, F. (2002). Petrogenesis and evolution of Mt. Vulture alkaline volcanism (Southern Italy). Mineralogy and Petrology, 74(2-4), 277-297. Bindi, L., Cellai, D., Melluso, L., Conticelli, S., Morra, V., & Menchetti, S. (1999). Crystal chemistry of clinopyroxene from alkaline undersaturated rocks of the Monte Vulture Volcano, Italy. Lithos, 46(2), 259-274. De Astis, G., Kempton, P. D., Peccerillo, A., & Wu, T. W. (2006). Trace element and isotopic variations from Mt. Vulture to Campanian volcanoes: constraints for slab detachment and mantle inflow beneath southern Italy. Contributions to Mineralogy and Petrology, 151(3), 331-351. D'orazio, M., Innocenti, F., Tonarini, S., & Doglioni, C. (2007). Carbonatites in a subduction system: the Pleistocene alvikites from Mt. Vulture (southern Italy). Lithos, 98(1-4), 313-334. Downes, H., Kostoula, T., Jones, A., Beard, A., Thirlwall, M., & Bodinier, J. L. (2002). Geochemistry and Sr–Nd isotopic compositions of mantle xenoliths from the Monte Vulture carbonatite–melilitite volcano, central southern Italy. Contributions to Mineralogy and Petrology, 144(1), 78-92. Jones, A. P., Kostoula, T., Stoppa, F., & Woolley, A. R. (2000). Petrography and mineral chemistry of mantle xenoliths in a carbonate-rich melilititic tuff from Mt. Vulture volcano, southern Italy. Mineralogical Magazine, 64(4), 593-613. La Volpe, L., Patella, D., Rapisardi, L., & Tramacere, A. (1984). The evolution of the Monte Vulture volcano (Southern Italy): inferences from volcanological, geological and deep dipole electrical soundings data. Journal of volcanology and geothermal research, 22(3-4), 147-162. Melluso, L., Morra, V., & Di Girolamo, P. (1996). The Mt. Vulture volcanic complex (Italy): evidence for distinct parental magmas and for residual melts with melilite. Mineralogy and Petrology, 56(3-4), 225-250. Rosatelli, G., Wall, F., & Stoppa, F. (2007). Calcio-carbonatite melts and metasomatism in the mantle beneath Mt. Vulture (Southern Italy). Lithos, 99(3-4), 229-248. Solovova, I. P., Girnis, A. V., Kogarko, L. N., Kononkova, N. N., Stoppa, F., & Rosatelli, G. (2005). Compositions of magmas and carbonate–silicate liquid immiscibility in the Vulture alkaline igneous complex, Italy. Lithos, 85(1-4), 113-128. Stoppa, F., & Principe, C. (1997). Eruption style and petrology of a new carbonatitic suite from the Mt. Vulture Southern Italy: The Monticchio Lakes Formation. Journal of volcanology and geothermal research, 78(3-4), 251-265. Stoppa, F., Jones, A.P. & Sharygin, V.V. 2009. Nyereite from carbonatite rocks at Vulture volcano; implications for mantle metasomatism and petrogenesis of alkali carbonate melts. Central European Journal of Geoscience, 1, 131-151. Villa, I. M., & Buettner, A. (2009). Chronostratigraphy of Monte Vulture volcano (southern Italy): secondary mineral microtextures and 39 Ar-40 Ar systematics. Bulletin of volcanology, 71(10), 1195.
  • Campania
    • Naples
[Leucitite] Peccerillo, A. (2005) Plio-Quaternary Volcanism in Italy. Petrology, Geochemistry, Geodynamics. Springer, Berlin - Heidelberg- New York, 365 pp.; Arnò, V. A. L. E. R. I. O., Principe, C. L. A. U. D. I. A., Rosi, M. A. U. R. O., Santacroce, R. O. B. E. R. T. O., Sbrana, A. L. E. S. S. A. N. D. R. O., & Sheridan, M. F. (1987). Eruptive history. Somma-Vesuvius, 114, 53-103. Ayuso, R. A., De Vivo, B., Rolandi, G., Seal II, R. R., & Paone, A. (1998). Geochemical and isotopic (Nd–Pb–Sr–O) variations bearing on the genesis of volcanic rocks from Vesuvius, Italy. Journal of volcanology and geothermal research, 82(1-4), 53-78. Brocchini, D., Principe, C., Castradori, D., Laurenzi, M. A., & Gorla, L. (2001). Quaternary evolution of the southern sector of the Campanian Plain and early Somma-Vesuvius activity: insights from the Trecase 1 well. Mineralogy and Petrology, 73(1-3), 67-91. Cioni, R., Civetta, L., Marianelli, P., Metrich, N., Santacroce, R., & Sbrana, A. (1995). Compositional layering and syn-eruptive mixing of a periodically refilled shallow magma chamber: the AD 79 Plinian eruption of Vesuvius. Journal of Petrology, 36(3), 739-776. Civetta, L., ORSI, G., & PATELLA, D. (2004). The Neapolitan Volcanoes: Vesuvius, Campi Flegrei and Ischia. Journal of volcanology and geothermal research, 133(1-394). Cole, P. D., & Scarpati, C. (2010). The 1944 eruption of Vesuvius, Italy: combining contemporary accounts and field studies for a new volcanological reconstruction. Geological Magazine, 147(3), 391-415. Cundari, A. (1982). Petrology of clinopyroxenite ejecta from Somma-Vesuvius and their genetic implications. Tschermaks mineralogische und petrographische Mitteilungen, 30(1), 17-35. De Vivo, B., & Rolandi, G. (2001). Preface–Special issue: Mt. Somma–Vesuvius and volcanism of the Campanian Plain. Mineralogy and Petrology, 73, 1-233. De Vivo, B., Scandone, R., & Trigila, R. (Eds.). (1993). Mount Vesuvius. Elsevier. Journal of Geology and Geothermal Research, 58, 1-381. Di Renzo, V., Di Vito, M. A., Arienzo, I., Carandente, A., Civetta, L., D'antonio, M., ... & Tonarini, S. (2007). Magmatic history of Somma–Vesuvius on the basis of new geochemical and isotopic data from a deep borehole (Camaldoli della Torre). Journal of Petrology, 48(4), 753-784. Graham, D. W., Allard, P., Kilburn, C. R. J., Spera, F. J., & Lupton, J. E. (1993). Helium isotopes in some historical lavas from Mount Vesuvius. Journal of volcanology and geothermal research, 58(1-4), 359-366. Hamilton, W. (1776). Campi Flegraei. Observations on the Volcanos of the Two Sicilies. L'Editeur le Sieur. Pierre Fabris, Naples. Joron, J. L., Metrich, N., Rosi, M., Santacroce, R., & Sbrana, A. (1987). Chemistry and petrography. Santacroce, R. (1987). Somma-Vesuvius. Progetto Finalizzato "Geodinamica" Monografie Finali, 114. Consiglio Nazionale delle Ricerche Quaderni de "La Ricerca Scientifica", Rome, 11-243. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lameyre, J. (2002). Igneous rocks. A classification and glossary of terms, 2. Paone, A. (2006). The geochemical evolution of the Mt. Somma-Vesuvius volcano. Mineralogy and Petrology, 87(1-2), 53-80. Paone, A. (2008). Fractional crystallization models and B–Be–Li systematics at Mt Somma-Vesuvius volcano (Southern Italy). International Journal of Earth Sciences, 97(3), 635-650. Peccerillo, A. (2005). Plio-quaternary volcanism in Italy (Vol. 365). New York: Springer-Verlag Berlin Heidelberg. Principe, C. L. A. U. D. I. A., Rosi, M. A. U. R. O., Santacroce, R., & Sbrana, A. (1987). Explanatory notes to the geological map. Somma-Vesuvius, Quaderni de “La Ricerca Scientifica”, CNR, 114, 11-52. Piochi, M., Ayuso, R. A., De Vivo, B., & Somma, R. (2006). Crustal contamination and crystal entrapment during polybaric magma evolution at Mt. Somma–Vesuvius volcano, Italy: Geochemical and Sr isotope evidence. Lithos, 86(3-4), 303-329. Principe, C., Tanguy, J. C., Arrighi, S., Paiotti, A., Le Goff, M., & Zoppi, U. (2004). Chronology of Vesuvius’ activity from AD 79 to 1631 based on archeomagnetism of lavas and historical sources. Bulletin of Volcanology, 66(8), 703-724. Rolandi, G., Petrosino, P., & Mc Geehin, J. (1998). The interplinian activity at Somma–Vesuvius in the last 3500 years. Journal of Volcanology and Geothermal Research, 82(1-4), 19-52. Santacroce, R., Cristofolini, R., La Volpe, L., Orsi, G., & Rosi, M. (2003). Italian active volcanoes. Episodes Journal of International Geoscience, 26(3), 227-234. Santacroce, R., Cioni, R., Marianelli, P., Sbrana, A., Sulpizio, R., Zanchetta, G., ... & Joron, J. L. (2008). Age and whole rock–glass compositions of proximal pyroclastics from the major explosive eruptions of Somma-Vesuvius: A review as a tool for distal tephrostratigraphy. Journal of Volcanology and Geothermal Research, 177(1), 1-18. Scarth, A. (2009). Vesuvius: A biography. Terra Publishing, Harpenden. Somma, R., Ayuso, R. A., De Vivo, B., & Rolandi, G. (2001). Major, trace element and isotope geochemistry (Sr-Nd-Pb) of interplinian magmas from Mt. Somma-Vesuvius (Southern Italy). Mineralogy and Petrology, 73(1-3), 121-143. Sigurdsson, H., Carey, S., Cornell, W. & Pescatore, T. (1985). The Eruption of Vesuvius in A.D. 79. National Geographic Research, 1(3), 332-387. Spera, F. J., De Vivo, B., Ayuso, R. A., & Belkin, H. E. (1998). Special issue: Vesuvius. J Volcanol Geotherm Res, 82, 1-247. Vogel, S., & Märker, M. (2013). Modeling the spatial distribution of AD 79 pumice fallout and pyroclastic density current and derived deposits of Somma-Vesuvius (Campania, Italy) integrating primary deposition and secondary redistribution. Bulletin of volcanology, 75(12), 778.
  • Lazio
    • Frosinone Province
[Foidite] Boari, E., Tommasini, S., Laurenzi, M. A., & Conticelli, S. (2009). Transition from ultrapotassic kamafugitic to sub-alkaline magmas: Sr, Nd, and Pb isotope, trace element and 40Ar–39Ar age data from the Middle Latin Valley Volcanic Field, Roman Magmatic Province, Central Italy. Journal of Petrology, 50(7), 1327-1357. Civetta, L., Innocenti, F., Manetti, P., Peccerillo, A., & Poli, G. (1981). Geochemical characteristics of potassic volcanics from Mts. Ernici (southern Latium, Italy). Contributions to Mineralogy and Petrology, 78(1), 37-47. Conticelli, S., D’antonio, M., Pinarelli, L., & Civetta, L. (2002). Source contamination and mantle heterogeneity in the genesis of Italian potassic and ultrapotassic volcanic rocks: Sr–Nd–Pb isotope data from Roman Province and Southern Tuscany. Mineralogy and Petrology, 74(2-4), 189-222. Frezzotti, M. L., De Astis, G., Dallai, L., & Ghezzo, C. (2007). Coexisting calc-alkaline and ultrapotassic magmatism at Monti Ernici, Mid Latina Valley (Latium, central Italy). European Journal of Mineralogy, 19(4), 479-497. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lameyre, J. (2002). Igneous rocks. A classification and glossary of terms, 2. Nikogosian, I. K., & van Bergen, M. J. (2010). Heterogeneous mantle sources of potassium-rich magmas in central-southern Italy: Melt inclusion evidence from Roccamonfina and Ernici (Mid Latina Valley). Journal of Volcanology and Geothermal Research, 197(1-4), 279-302. Peccerillo, A. (2005). Plio-quaternary volcanism in Italy (Vol. 365). New York: Springer-Verlag Berlin Heidelberg. Turi, B., Taylor Jr, H. P., & Ferrara, G. (1991). Comparisons of^(18) O/^(16) O and^(87) Sr/^(86) Sr in volcanic rocks from the Pontine Islands, M. Ernici, and Campania with other areas in Italy.
    • Metropolitan City of Rome Capital
      • Anguillara Sabazia
[Leucitite] Washington, H.S. (1897) Italian petrological sketches. III. The Bracciano, Cerveteri and Tolfa regions. The Journal of Geology, 5, 1, 34-49; Gatta, G.D., Rotiroti, N., Bellatreccia, F., and Della Ventura, G. (2007) Crystal-chemistry of leucite from the Roman Comagmatic Province (central Italy): a multi-methodological study. Mineralogical Magazine, 71(6), 593–604.
      • Monte Compatri
        • Laghetto (Laghetto di Montecompatri)
[Leucitite] Boari, E., Avanzinelli, R., Melluso, L., Giordano, G., Mattei, M., De Benedetti, A.A., Morra, V., and Conticelli, S. (2009) Isotope geochemistry (Sr–Nd–Pb) and petrogenesis of leucite-bearing volcanic rocks from “Colli Albani” volcano, Roman Magmatic Province, Central Italy: inferences on volcano evolution and magma genesis. Bulletin of Volcanology, 71, 9, 977-1005; Carlini, R., and Signoretti, E. (2018) Il Lazio classico: le cave di leucitite della provincia di Roma (Vallerano, Laghetto e Osa). Fossils & Minerals, 4, 24-53.
      • Rocca di Papa
[Leucitite] Viola, C. (1899) Mineralogische und petrographische Mittheilungen aus dem Hernikerlande in dem Provinz Rom (Italien). Neues Jahrbuch für Mineralogie, Geologie, und Palaeontologie, Band I, 93-137.
      • Rome
[Leucitite] Marra, F., Freda, C ., Scarlato, P., Taddeucci, J., Karner, D.B., Renne, P.R., Gaeta, M., Palladino, D.M., Trigila, M., and Cavarretta, G. (2003) Post-caldera activity in the Alban Hills volcanic district (Italy): 40Ar/39Ar geochronology and insights into magma evolution. Bulletin of Volcanology, 65, 227-247; Boari, E., Avanzinelli, R., Melluso, L., Giordano, G., Mattei, M., De Benedetti, A.A., Morra, V., and Conticelli, S. (2009) Isotope geochemistry (Sr–Nd–Pb) and petrogenesis of leucite-bearing volcanic rocks from “Colli Albani” volcano, Roman Magmatic Province, Central Italy: inferences on volcano evolution and magma genesis. Bulletin of Volcanology, 71, 9, 977-1005.
        • Le Capannelle
[Leucitite] De Michele, V. (1974 a) Guida mineralogica d'Italia. Istituto Geografico De Agostini, Novara, 2 vol., 408 pp.; De Michele, V. (1974 b) Località mineralogiche consigliate. Cava di Casal Rotondo (Roma). Notizie del Gruppo Mineralogico Lombardo, 5, 1 (marzo 1974), 12-13; Marra, F., Freda, C ., Scarlato, P., Taddeucci, J., Karner, D.B., Renne, P.R., Gaeta, M., Palladino, D.M., Trigila, M., and Cavarretta, G. (2003) Post-caldera activity in the Alban Hills volcanic district (Italy): 40Ar/39Ar geochronology and insights into magma evolution. Bulletin of Volcanology, 65, 227-247; Boari, E., Avanzinelli, R., Melluso, L., Giordano, G., Mattei, M., De Benedetti, A.A., Morra, V., and Conticelli, S. (2009) Isotope geochemistry (Sr–Nd–Pb) and petrogenesis of leucite-bearing volcanic rocks from “Colli Albani” volcano, Roman Magmatic Province, Central Italy: inferences on volcano evolution and magma genesis. Bulletin of Volcanology, 71, 9, 977-1005.
        • Osteria dell'Osa
[Nephelinite] Fornaseri, M., and Turi, B. (1969) Carbon and oxygen isotopic composition of carbonates in lavas and ejectites from the Alban Hills, Italy. Contributions to Mineralogy and Petrology, 23, 244-256.
        • Valleranello
[Leucitite] Zambonini, F. (1902) Kurzer Beitrag zur chemischen Kenntniss einiger Zeolithe der Umgegend Roms. Neues Jahrbuch für Mineralogie, Geologie und Palaeontologie, 2, 63-96; Fornaseri, M., and Turi, B. (1969) Carbon and oxygen isotopic composition of carbonates in lavas and ejectites from the Alban Hills, Italy. Contributions to Mineralogy and Petrology, 23, 244-256; De Michele, V. (1974) Guida mineralogica d'Italia. Istituto Geografico De Agostini, Novara, 2 vol., 408 pp.; De Rita, D., and Rosa, C. (1991) Definizione della stratigrafia e della geocronologia di alcune effusioni laviche nell’area dei Colli Albani (Lava dell’Acquacetosa e Lava di Vallerano, Roma). Rendiconti della Società Geologica Italiana, 13, 143-146; Carlini, R., and Signoretti, E. (2018) Il Lazio classico: le cave di leucitite della provincia di Roma (Vallerano, Laghetto e Osa). Fossils & Minerals, 4, 24-53.
    • Viterbo Province
[Leucitite] Maruffi, G. (1967) Studio geofisico della colata leucititica a Civita Castellana. Annals of Geophysics, 20, 2, 171-182.
[Leucitite] Maruffi, G. (1967) Studio geofisico della colata leucititica a Civita Castellana. Annals of Geophysics, 20, 2, 171-182.
  • Sicily
[Nephelinite] Beccaluva, L., Siena, F., Coltorti, M., Digrande, A., Lo Giudice, A., Macciotta, G., Tassinari, R., and Vaccaro, C. (1998) Nephelinitic to tholeiitic magma generation in a transtensional tectonic setting: An integrated model for the Iblean vulcanism, Sicily. Journal of Petrology, 39, 1547–1576.; Bianchini, G., Clocchiatti, R., Coltorti, M., Joron, J. L., & Vaccaro, C. (1998). Petrogenesis of mafic lavas from the northernmost sector of the Iblean district (Sicily). European Journal of Mineralogy-Ohne Beihefte, 10(2), 301-316. Bianchini, G., Bell, K., & Vaccaro, C. (1999). Mantle sources of the Cenozoic Iblean volcanism (SE Sicily, Italy): Sr-Nd-Pb isotopic constraints. Mineralogy and Petrology, 67(3-4), 213-221. Bianchini, G., Yoshikawa, M., & Sapienza, G. T. (2010). Comparative study of ultramafic xenoliths and associated lavas from South-Eastern Sicily: nature of the lithospheric mantle and insights on magma genesis. Mineralogy and Petrology, 98(1-4), 111-121. Correale, A., Martelli, M., Paonita, A., Rizzo, A., Brusca, L., & Scribano, V. (2012). New evidence of mantle heterogeneity beneath the Hyblean Plateau (southeast Sicily, Italy) as inferred from noble gases and geochemistry of ultramafic xenoliths. Lithos, 132, 70-81. Di Grande, A., Mazzoleni, P., Lo Giudice, A., Beccaluva, L., Macciotta, G., & Siena, F. (2002). Subaerial Plio-Pleistocene volcanism in the geo-petrographic and structural context of the north/central Iblean region (Sicily). Periodico di Mineralogia, 71, 159-189. Sapienza, G. T., Griffin, W. L., O’Reilly, S. Y., & Morten, L. (2009). Petrology and Sr–Nd–Hf isotope geochemistry of gabbro xenoliths from the Hyblean Plateau: a MARID reservoir beneath SE Sicily?. Contributions to Mineralogy and Petrology, 157(1), 1-22. Suiting, I., & Schmincke, H. U. (2012). Iblean diatremes 3: volcanic processes on a Miocene carbonate platform (Iblean Mountains, SE-Sicily): a comparison of deep vs. shallow marine eruptive processes. Bulletin of volcanology, 74(1), 207-230. Tonarini, S., D'Orazio, M., Armienti, P., Innocenti, F., & Scribano, V. (1996). Geochemical features of eastern Sicily lithosphere as probed by Hyblean xenoliths and lavas. European Journal of Mineralogy, 8(5), 1153-1173. Trua, T., Esperança, S., & Mazzuoli, R. (1998). The evolution of the lithospheric mantle along the N. African Plate: geochemical and isotopic evidence from the tholeiitic and alkaline volcanic rocks of the Hyblean plateau, Italy. Contributions to Mineralogy and Petrology, 131(4), 307-322.; Bianchini, G., Clocchiatti, R., Coltorti, M., Joron, J. L., & Vaccaro, C. (1998). Petrogenesis of mafic lavas from the northernmost sector of the Iblean district (Sicily). European Journal of Mineralogy-Ohne Beihefte, 10(2), 301-316. Bianchini, G., Bell, K., & Vaccaro, C. (1999). Mantle sources of the Cenozoic Iblean volcanism (SE Sicily, Italy): Sr-Nd-Pb isotopic constraints. Mineralogy and Petrology, 67(3-4), 213-221. Bianchini, G., Yoshikawa, M., & Sapienza, G. T. (2010). Comparative study of ultramafic xenoliths and associated lavas from South-Eastern Sicily: nature of the lithospheric mantle and insights on magma genesis. Mineralogy and Petrology, 98(1-4), 111-121. Correale, A., Martelli, M., Paonita, A., Rizzo, A., Brusca, L., & Scribano, V. (2012). New evidence of mantle heterogeneity beneath the Hyblean Plateau (southeast Sicily, Italy) as inferred from noble gases and geochemistry of ultramafic xenoliths. Lithos, 132, 70-81. Di Grande, A., Mazzoleni, P., Lo Giudice, A., Beccaluva, L., Macciotta, G., & Siena, F. (2002). Subaerial Plio-Pleistocene volcanism in the geo-petrographic and structural context of the north/central Iblean region (Sicily). Periodico di Mineralogia, 71, 159-189. Sapienza, G. T., Griffin, W. L., O’Reilly, S. Y., & Morten, L. (2009). Petrology and Sr–Nd–Hf isotope geochemistry of gabbro xenoliths from the Hyblean Plateau: a MARID reservoir beneath SE Sicily?. Contributions to Mineralogy and Petrology, 157(1), 1-22. Suiting, I., & Schmincke, H. U. (2012). Iblean diatremes 3: volcanic processes on a Miocene carbonate platform (Iblean Mountains, SE-Sicily): a comparison of deep vs. shallow marine eruptive processes. Bulletin of volcanology, 74(1), 207-230. Tonarini, S., D'Orazio, M., Armienti, P., Innocenti, F., & Scribano, V. (1996). Geochemical features of eastern Sicily lithosphere as probed by Hyblean xenoliths and lavas. European Journal of Mineralogy, 8(5), 1153-1173. Trua, T., Esperança, S., & Mazzuoli, R. (1998). The evolution of the lithospheric mantle along the N. African Plate: geochemical and isotopic evidence from the tholeiitic and alkaline volcanic rocks of the Hyblean plateau, Italy. Contributions to Mineralogy and Petrology, 131(4), 307-322.
    • Metropolitan City of Catania
      • Catania
[Nephelinite] Manuella, F.C., Carbone, S., Ottolini, L., and Gibilisco, S. (2012) Micro-Raman spectroscopy and SIMS characterization of oxykinoshitalite in an olivine nephelinite from the Hyblean Plateau (Sicily, Italy). European Journal of Mineralogy, 24, 527–533.
[Nephelinite] Behncke, B. (1999) Il vulcanesimo del Plateau Ibleo (Sicilia sudorientale) negli ultimi 230 Ma. Bollettino dell'Accademia Gioenia di Scienze Naturali in Catania, 31, 39-50.
  • Trentino-Alto Adige
    • South Tyrol
[Nephelinite] Bonadiman, C., Coltorti, M., Milani, L., Salvini, L., Siena, F., & Tassinari, R. (2001). Metasomatism in the lithospheric mantle and its relationships to magmatism in the Veneto Volcanic Province, Italy. Periodico di Mineralogia, 70(3), 333-357.
  • Veneto
[Nephelinite] Beccaluva, L., Bonadiman, C., Coltorti, M., Salvini, L., & Siena, F. (2001). Depletion events, nature of metasomatizing agent and timing of enrichment processes in lithospheric mantle xenoliths from the Veneto Volcanic Province. Journal of Petrology, 42(1), 173-188. Beccaluva, L., Bianchini, G., Bonadiman, C., Coltorti, M., Milani, L., Salvini, L., ... & Tassinari, R. (2007). Intraplate lithospheric and sublithospheric components in the Adriatic domain: Nephelinite to tholeiite magma generation in the Paleogene Veneto volcanic province, southern Alps. SPECIAL PAPERS-GEOLOGICAL SOCIETY OF AMERICA, 418, 131-152. Bonadiman, C., Coltorti, M., Milani, L., Salvini, L., Siena, F., & Tassinari, R. (2001). Metasomatism in the lithospheric mantle and its relationships to magmatism in the Veneto Volcanic Province, Italy. Periodico di Mineralogia, 70(3), 333-357.
Japan
 
  • Shimane Prefecture
    • Hamada City
[Nephelinite] HARUMoto, A. (1952). Melilite-nepheline basalt, its olivine-nodules, and other inclusions from Nagahama, Japan. Mem. College of Sci., Univ. of Kyoto, Ser. B, 20, 69-88. Tatsumi, Y., Arai, R., & Ishizaka, K. (1999). The petrology of a melilite–olivine nephelinite from Hamada, SW Japan. Journal of Petrology, 40(4), 497-509.
Kenya
 
  • Kajiado County
[Ankaratrite] Saggerson, E.P., Williams, L.A.J. (1964) Ngurumanite from Southern Kenya and its Bearing on the Origin of Rocks in the Northern Tanganyika Alkaline District. Journal of Petrology, Volume 5:1, 1 January 1964, Pages 40–81. https://doi.org/10.1093/petrology/5.1.40
  • Makueni County
[Nephelinite] Späth, A., Le Roex, A.P., Opiyo-Akech, N. (2001) Plume–lithosphere interaction and the origin of continental rift-related alkaline volcanism—the Chyulu Hills Volcanic Province, southern Kenya. Journal of Petrology, 42:4, 765-787.
  • Marsabit County
[Nephelinite] Baker, B. H. (1963). Geology of the Baragoi Area. Report, Geological Survey of Kenya, 53. Dodson, R. G. (1963). Geology of the South Horr area. Rep. Geol. Surv. Kenya, 60, 53. Joubert, P. (1966). Geology of the Loperot area: Degree sheet 18, SE quarter (No. 74). Ministry of Natural Resources, Geological Survey of Kenya. Dodson, R. G. (1971). Geology of the Area South of Lodwar: Degree Sheet 18, NE Quarter. Ministry of Natural Resources. Geological survey of Kenya. Ochieng, J. O., Wilkinson, A. F., Kagasi, J., & Kimomo, S. (1988). Geology of the Loiyangalani area. Report 107 (Reconnaissance). Wilkinson, A. F. (1988). Geology of the Allia Bay area. Report Mines Geol Dept Kenya, 109, 1-54. Woolley, A. R. (2001). Alkaline rocks and carbonatites of the world. Part 3: Africa. Geological Society. Natural History Museum, London, p. 105. Baker, B. H. (1963). Geology of the Baragoi Area. Report, Geological Survey of Kenya, 53. Dodson, R. G. (1963). Geology of the South Horr area. Rep. Geol. Surv. Kenya, 60, 53. Joubert, P. (1966). Geology of the Loperot area: Degree sheet 18, SE quarter (No. 74). Ministry of Natural Resources, Geological Survey of Kenya. Dodson, R. G. (1971). Geology of the Area South of Lodwar: Degree Sheet 18, NE Quarter. Ministry of Natural Resources. Geological survey of Kenya. Ochieng, J. O., Wilkinson, A. F., Kagasi, J., & Kimomo, S. (1988). Geology of the Loiyangalani area. Report 107 (Reconnaissance). Wilkinson, A. F. (1988). Geology of the Allia Bay area. Report Mines Geol Dept Kenya, 109, 1-54. Woolley, A. R. (2001). Alkaline rocks and carbonatites of the world. Part 3: Africa. Geological Society. Natural History Museum, London, p. 105.
[Nephelinite] Fitch, F. J., Watkins, R. T., & MILLER, J. A. (1975). Age of a new carbonatite locality in northern Kenya. Nature, 254(5501), 581-583. https://link.springer.com/content/pdf/10.1038/254581a0.pdf Key, R. M., & Watkins, R. T. (1988). Geology of the Sabarei area. Republic of Kenya Ministry of Environment and Natural Resources, Mines and Geological Department Report, 111. McDougall, I., & Watkins, R. T. (1988). Potassium–argon ages of volcanic rocks from northeast of Lake Turkana, northern Kenya. Geological Magazine, 125(1), 15-23. doi.org/10.1017/S001675680000933X Ministry of Energy and Regional Development 1987. Geological map of Kenya. 1:1000000. Ministry of Energy and Regional Development, Republic of Kenya. Wilkinson, A.F. 1988. Geology of the Allia Bay Area. Report, Geological Survey of Kenya, 109. Fitch, F. J., Watkins, R. T., & MILLER, J. A. (1975). Age of a new carbonatite locality in northern Kenya. Nature, 254(5501), 581-583. https://link.springer.com/content/pdf/10.1038/254581a0.pdf Key, R. M., & Watkins, R. T. (1988). Geology of the Sabarei area. Republic of Kenya Ministry of Environment and Natural Resources, Mines and Geological Department Report, 111. McDougall, I., & Watkins, R. T. (1988). Potassium–argon ages of volcanic rocks from northeast of Lake Turkana, northern Kenya. Geological Magazine, 125(1), 15-23. doi.org/10.1017/S001675680000933X Ministry of Energy and Regional Development 1987. Geological map of Kenya. 1:1000000. Ministry of Energy and Regional Development, Republic of Kenya. Wilkinson, A.F. 1988. Geology of the Allia Bay Area. Report, Geological Survey of Kenya, 109.
  • Trans-Nzoia County
    • Mount Elgon
[Foidite] Bowell, R. J., Warren, A., & Redmond, I. (1996). Formation of cave salts and utilization by elephants in the Mount Elgon region, Kenya. Geological Society, London, Special Publications, 113(1), 63-79.
  • Turkana County
[Nephelinite] Hatch, F. H., Wells, A. K., & Wells, M. K. (1972). Petrology ofthe Igneous Rocks (13th Edition). Thomas Murby, London. Smith, W. C. (1938). Petrographic description of volcanic rocks from Turkana, Kenya Colony, with notes on their field occurrence from the manuscript of Mr. AM Champion. Quarterly Journal of the Geological Society, 94(1-4), 507-554. doi.org/10.1144/GSL.JGS.1938.094.01-04.18 Walsh, J., & Dodson, R. G. (1969). Geology of northern Turkana. Republic of Kenya: Ministry of Natural Ressources, Geological Survey of Kenya, 82. Zanettin, B., Justin Visentin, E., Bellieni, G., Piccirillo, E. M., & Rita, F. (1983). Le volcanisme du Bassin du Nord-Turkana (Kenya): Age, succession et évolution structurale. Bulletin des centres de recherches exploration-Production Elf-Aquitaine, 7(1), 249-255.
Kiribati
 
[Nephelinite] Natland, J. H., & JH, N. (1976). PETROLOGY OF VOLCANIC ROCKS DREDGED FROM SEAMOUNTS IN THE LINE ISLANDS. Initial Reports of the Deep Sea Drilling Project, 33. US Government Printing Office, Washington, DC, 749-777. Schlanger, S. O., Garcia, M. O., Keating, B. H., Naughton, J. J., Sager, W. W., Haggerty, J. A., ... & Duncan, R. A. (1984). Geology and geochronology of the Line Islands. Journal of Geophysical Research: Solid Earth, 89(B13), 11261-11272. doi.org/10.1029/JB089iB13p11261
Madagascar
 
  • Itasy
    • Arivonimamo
      • Arivonimamo II
[Ankaratrite] Lacroix, A. (1922): Mineralogie de Madagascar, Tome I. Géologie-Minéralogie descriptive. A.Challamel (Éditeur), Paris. 624p (p.598)
Malaysia
 
  • Pahang
[Nephelinite] Chakraborty, K.R. (1977) Olivine nephelinite and limburgite from Kuantan, Pahang. Warta Geologi, Persatuan Geologi Malaysia (Newsletter of the Geological Society of Malaysia, 3(1), 1-5. Fitch, F.H. (1952) The geology and mineral resources of the neighbourhood of Kuantan, Pahang. Geological Survey Department, Federation of Malaya, Memoir No. 6, 144 pages.
Mauritius
[Nephelinite] Simpson, E.S.W. (1950) The geology and mineral resources of Mauritius. Colonial Geology and Mineral Resources: 1: 217-235. Walker, F., Nicolaysen, L.O. (1954) The petrology of Mauritius. Colonial Geology and Mineral Resources: 4: 3–43. McDougall, I., Chamalaun, F.H. (1969) Isotopic dating and geomagnetic polarity studies on volcanic rocks from Mauritius, Indian Ocean. Geological Society of America Bulletin: 80: 1419–1442. Baxter, A.N. (1972) Magmatic evolution of Mauritius, western Indian Ocean. Ph.D. thesis, University of Edinburgh, 177 pages. Baxter, A.N. (1975) Petrology of the Older Series lavas from Mauritius, Indian Ocean. Geological Society of America Bulletin: 86: 1449–1458. doi.org/10.1130/0016-7606(1975)86<1449:POTOSL>2.0.CO;2 Baxter, A. N. (1976). Geochemistry and petrogenesis of primitive alkali basalt from Mauritius, Indian Ocean. Geological Society of America Bulletin, 87(7), 1028-1034. doi.org/10.1130/0016-7606(1976)87<1028:GAPOPA>2.0.CO;2 Baxter, A.N. (1978) Ultramafic and mafic nodule suites in shield-forming lavas from Mauritius. Journal of the Geological Society: 135: 565–581. Upton, B. G. J. (1982). Oceanic islands. In The Ocean Basins and Margins (pp. 585-648). Springer, Boston, MA. In: Nairn, A.E. & Stehli, F.G. (eds) The ocean Basins and Margins.6. The Indian Ocean, Plenum, New York, 585 - 648. Sheth, H.C., Mahoney, J.J., Baxter, A.N. (2003) Geochemistry of lavas from Mauritius, Indian Ocean: mantle sources and petrogenesis. International Geology Review: 45: 780–797. doi.org/10.2747/0020-6814.45.9.780 Nohda, S., Kaneoka, I., Hanyu, T., Xu, S., Uto, K. (2005) Systematic variation of Sr-, Nd- and Pb-isotopes with time in lavas of Mauritius, Réunion hotspot. Journal of Petrology: 46: 505–522. doi.org/10.1093/petrology/egh085 Paul, D., White, W.M., Blichert-Toft, J. (2005) Geochemistry of Mauritius and the origin of rejuvenescent volcanism on ocean island volcanoes. Geochemistry, Geophysics, Geosystems: 6; doi:10.1029/2004GC000883. Paul, D., Kamenetsky, V.S., Hofmann, A.W., Stracke, A. (2007) Compositional diversity among primitive lavas of Mauritius, Indian Ocean: Implications for mantle sources. Journal of Volcanology and Geothermal Research: 164: 76–94. doi.org/10.1016/j.jvolgeores.2007.04.004 Moore, J., White, W.M., Paul, D., Duncan, R.A., Abouchami, W., Galer, S.G. (2011) Evolution of shield-building and rejuvenescent volcanism of Mauritius. Journal of Volcanology and Geothermal Research: 207(1-2): 47–66. doi.org/10.1016/j.jvolgeores.2011.07.005
Mongolia
 
  • Arkhangai Province
    • Hangai highland
      • Tariat Volcanic Province
[Foidite] Ionov, D. A. (1986). Spinel peridotite xenoliths from the Shavaryn-Tsaram volcano, northern Mongolia: petrography major element chemistry and mineralogy. Geologický zborník, 37(6), 681-692. Lesnov, F. P., Palesskii, S. V., Nikolaeva, I. V., Koz’menko, O. A., Kuchkin, A. M., & Korolyuk, V. N. (2009). Detailed mineralogical-geochemical study of a large spinel Lherzolite xenolith in alkali basalt of Shavaryn Tsaram paleovolcano, Mongolia. Geochemistry International, 47(1), 18-40. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lamere, J. (2002). Igneous rocks: A classification and glossary of terms; Recommendations of the International Union of Geological Sciences. In Subcommission on the Systematics of Igneous rocks. Cambridge University Press. Preβ, S., Wirr, G., Seck, H. A., Eonov, D., & Kovalenko, V. I. (1986). Spinel peridotite xenoliths from the Tariat Depression, Mongolia. I: Major element chemistry and mineralogy of a primitive mantle xenolith suite. Geochimica et Cosmochimica Acta, 50(12), 2587-2599. Kopylova, M. G., O'Reilly, S. Y., & Genshaft, Y. S. (1995). Thermal state of the lithosphere beneath Central Mongolia: evidence from deep-seated xenoliths from the Shavaryn-Saram volcanic centre in the Tariat depression, Hangai, Mongolia. Lithos, 36(3-4), 243-255. Stosch, H. G., Ionov, D. A., Puchtel, I. S., Galer, S. J. G., & Sharpouri, A. (1995). Lower crustal xenoliths from Mongolia and their bearing on the nature of the deep crust beneath central Asia. Lithos, 36(3-4), 227-242.
  • Bayan-Ölgii Province
[Baldite] Devyatkin, Y. V., & Smelov, S. B. (1980). Position of basalts in the Cenozoic sedimentary sequence of Mongolia. International Geology Review, 22(3), 307-317. Whitford-Stark, J. L. (1987). A survey of Cenozoic volcanism on mainland Asia (Vol. 213). Geological Society of America, Special Papers, 213. Kepezhinskas, V.V., Devyatkin, E.V. & Dashdava, Z. 1975. Cenozoic basaltoids of Taryatskaya Depression. Geologiya and Geofisika, 4, 3-14.
  • Sühbaatar Province
    • Dariganga District
[Foidite] Yarmolyuk, V.V. & Kovalenko, V.I. 2001. The Mesozoic-Cainozoic of Mongolia. Venzke, E. (ed) 2013. Global Volcanism Program, 2013. Volcanoes of the World, 4.5.6. Smithsonian Institution, Washington, DC. Whitford-Stark, J. L. (1987). A survey of Cenozoic volcanism on mainland Asia (Vol. 213). Geological Society of America, Special Papers, 213.
Montenegro
 
  • Mojkovac Municipality
[Pyroxene-olivine leucitite] Prelević, D., Foley, S. F., Romer, R. L., Cvetković, V., & Downes, H. (2005). Tertiary ultrapotassic volcanism in Serbia: constraints on petrogenesis and mantle source characteristics. Journal of Petrology, 46(7), 1443-1487. Cvetković, V., Prelević, D., Downes, H., Jovanović, M., Vaselli, O., & Pécskay, Z. (2004). Origin and geodynamic significance of Tertiary postcollisional basaltic magmatism in Serbia (central Balkan Peninsula). Lithos, 73(3-4), 161-186.
  • Podgorica Capital City Municipality
[Pyroxene-olivine leucitite] Prelević, D., Foley, S. F., Romer, R. L., Cvetković, V., & Downes, H. (2005). Tertiary ultrapotassic volcanism in Serbia: constraints on petrogenesis and mantle source characteristics. Journal of Petrology, 46(7), 1443-1487. Cvetković, V., Prelević, D., Downes, H., Jovanović, M., Vaselli, O., & Pécskay, Z. (2004). Origin and geodynamic significance of Tertiary postcollisional basaltic magmatism in Serbia (central Balkan Peninsula). Lithos, 73(3-4), 161-186.
New Zealand
 
  • Canterbury Region
    • Hurunui District
[Nephelinite] Sewell, R.J. & Weaver, S.D. 1989. South Island. Coote, A. (1987). Cenozoic Volcanism in the Waiau Area, North Canterbury: A Thesis Submitted in Partial Fulfilment of the Requirements for the Degree of Master of Science in Geology in the University of Canterbury (Doctoral dissertation, University of Canterbury). Smith, I.E.M. & Weaver, S.D. 1989. Xenoliths and megacrysts.
    • Selwyn District
[Nephelinite] McLennan, J. M., & Weaver, S. D. (1984). Olivine-nephelinite at Mounseys Creek, Oxford, Canterbury (Note). New Zealand Journal of Geology and Geophysics, 27(3), 389-390.
[Foidite] Gamble, J. A., & Morris, P. A. (1989). Sub-Antarctic and Chatham Islands. Intraplate volcanism in eastern Australia and New Zealand (ed. RJ Johnson), 169-171. Gamble, J. A., Morris, P. A., & Adams, C. J. (1986). The geology, petrology and geochemistry of Cenozoic volcanic rocks from the Campbell Plateau and Chatham Rise. Late Cenozoic Volcanism in New Zealand. Royal Society of New Zealand Bulletin, 23, 344-365. Grindley, G. W., Adams, C. J. D., Lumb, J. T., & Watters, W. A. (1977). Paleomagnetism, K-Ar dating and tectonic interpretation of Upper Cretaceous and Cenozoic volcanic rocks of the Chatham Islands, New Zealand. New Zealand journal of geology and geophysics, 20(3), 425-467. doi.org/10.1080/00288306.1977.10427596 Hay, R. F., Mutch, A. R., & Watters, W. A. (1970). Geology of the Chatham Islands (No. 83). Government Print. 1-86. Morris, P. A. (1985). The geochemistry of Eocene—Oligocene volcanics on the Chatham Islands, New Zealand. New Zealand Journal of Geology and Geophysics, 28(3), 459-469. doi.org/10.1080/00288306.1985.10421199
  • Northland Region
    • Far North District
[Nephelinite] Ashcroft, J. (1986). The Kerikeri Volcanics: a basalt-pantellerite association in Northland. Late Cenozoic Volcanism in New Zealand. Roy Soc New Zealand Bul, 23, 48-63. Black, P. M. (1967). Igneous geology of the Tokatoka district, Northland. New Zealand journal of geology and geophysics, 10(1), 1-30. Black, P. M. (1967). Petrochemistry of the Tokatoka igneous rock suite, Northland. New Zealand journal of geology and geophysics, 10(4), 903-922. Black, P. M., & Brothers, R. N. (1965). Olivine nodules in olivine nephelinite from Tokatoka, Northland. New Zealand journal of geology and geophysics, 8(1), 62-80. Johnson, R. W., Johnson, R. W., Knutson, J., & Taylor, S. R. (Eds.). (1989). Intraplate volcanism: in eastern Australia and New Zealand. Cambridge University Press, 157-162. Smith, I.E.M. & Black, P.M. 1993. Chemical Analyses of Late Cenozoic Basalts and Associated Volcanics from Northland. Department of Geology, University of Auckland, Report 5.
    • Kaipara District
[Nephelinite] Stipp, J. J., & Thompson, B. N. (1971). K/Ar ages from the volcanics of Northland, New Zealand. New Zealand journal of geology and geophysics, 14(2), 403-413.
  • Otago Region
    • Dunedin City
[Nephelinite] Benson, W. N. (1942). Basic Igneous Rocks of Eastern Otago. Part 3. TRSNZ, 72, 160-85. Németh, K., & White, J. D. (2003). Reconstructing eruption processes of a Miocene monogenetic volcanic field from vent remnants: Waipiata Volcanic Field, South Island, New Zealand. Journal of Volcanology and Geothermal Research, 124(1-2), 1-21.
North Korea
 
  • Kangwon Province
    • Kimhwa County
[Nephelinite] Paek, R.J., Gap, K.H., & Jon, G.P. (eds) 1996. Geology of Korea. Foreign languages books publishing house, Pyongyang.
[Nephelinite] Paek, R.J., Gap, K.H., & Jon, G.P. (eds) 1996. Geology of Korea. Foreign languages books publishing house, Pyongyang.
  • North Hamgyong Province
    • Myonggan County
[Nephelinite] Tomita, T. (1933). On the So-called Leucite-basalt from Ryûdô, Kankyô-Hokudô, Korea. Journal of the Shanghai Science Institute, II, 25-39. Tomita, T. (1967). Volcanic geology of the Cenozoic alkaline petrographic province of eastern Asia. In: Ogura, T. (ed) Geology and mineral resources of the Far East, 1, 139-202. Whitford-Stark, J. L. (1983). Cenozoic volcanic and petrochemical provinces of mainland Asia. Journal of volcanology and geothermal research, 19(3-4), 193-222. Fedorov, P. I., & Filatova, N. I. (2002). Cenozoic volcanism of Korea. Geochemistry International, 40(1), 1-25. Lee, D.S. (ed) 1988. Geology of Korea. Kyohak-sa Publishing (for the Geological Society of Korea), Seoul.
  • North Pyongan Province
    • Kusong City
[Nephelinite] Paek, R.J., Gap, K.H., & Jon, G.P. (eds) 1996. Geology of Korea. Foreign languages books publishing house, Pyongyang.
Norway
 
  • Møre og Romsdal
    • Kristiansund
[Nephelinite] Bugge, T., Prestvik, T., & Rokoengen, K. (1980). Lower tertiary volcanic rocks off Kristiansund—mid Norway. Marine Geology, 35(4), 277-286. Prestvik, T., Torske, T., Sundvoll, B., & Karlsson, H. (1999). Petrology of early Tertiary nephelinites off mid-Norway. Additional evidence for an enriched endmember of the ancestral Iceland plume. Lithos, 46(2), 317-330.
[Nephelinite] Andersen, T. (1984). Crystallization history of a Permian composite monzonite-alkali syenite pluton in the Sande cauldron, Oslo rift, southern Norway. Lithos, 17, 153-170. Anthony, E. Y., Segalstad, T. V., & Neumann, E. R. (1989). An unusual mantle source region for nephelinites from the Oslo Rift, Norway. Geochimica et Cosmochimica Acta, 53(5), 1067-1076. Corfu, F., & Dahlgren, S. (2008). Perovskite U–Pb ages and the Pb isotopic composition of alkaline volcanism initiating the Permo-Carboniferous Oslo Rift. Earth and Planetary Science Letters, 265(1-2), 256-269. Dons, J. A. (1952). Studies on the Igneous Rock Complex of the Oslo Region XI Compound Volcanic Neck. Igneous Dykes and Fault Zone in the Ullernâsen-Husebyâsen Area, Oslo. Vid. Akad. Skr. Klasse. 1952, 2, 1-96. Dons, J. A., & JA, D. (1978). TERMINOLOGY AND HISTORY OF INVESTIGATIONS. Dons, J. A. & Larsen, B.T. (Ed.). (1978). The Oslo paleorift: a review and guide to excursions; prepared for the NATO advanced study institute, held at Sundvollen near Oslo, July 27-August 5, 1977. Norges Geologiske Undersøkelse, 337. Heldal, T. & Neeb, P.R. 2000. Natural stone in Norway: production, deposits and developments. Norges Geologiske Undersøkelse Bulletin, 436, 15-26. Ihlen, P. M., & Vokes, F. M. (1978). Metallogeny associated with the Oslo rifting. The Oslo Paleorift. Norges geologiske undersøkelse, 337, 75-90. Kirstein, L. A., Davies, G. R., & Heeremans, M. (2006). The petrogenesis of Carboniferous–Permian dyke and sill intrusions across northern Europe. Contributions to Mineralogy and Petrology, 152(6), 721-742. Larsen, A. O. (1996). Rare earth minerals from the syenite pegmatites in the Olso Region, Norway. MINERALOGICAL SOCIETY SERIES, 7, 151-166. Larsen, A. O. (2010). The Langesundsfjord. History, Geology, Pegmatites, Minerals. Bode, Salzhemmendorf, Germany, 240. Larsen, A. O. (2010). The larvikite industry. Neumann, E. R. (1976). Compositional relations among pyroxenes, amphiboles and other mafic phases in the Oslo Region plutonic rocks: Publication no. 115 in the Norwegian Geotraverse project. Lithos, 9(2), 85-109. Neumann, E. R., & ER, N. (1978). PETROLOGY OF THE PLUTONIC ROCKS. ELSE-RAGNHILD, N. E. U. M. A. N. N. (1980). Petrogenesis of the Oslo Region larvikites and associated rocks. Journal of Petrology, 21(3), 499-531. Neumann, E.R. 1988. Isotopic and Petrological Relations of the Crust and Upper Mantle Under the Oslo Graben, southeast Norway. Norges Geologiske Undersøkelse, Special Publications, 3, 7-13. Neumann, E. R., Tilton, G. R., & Tuen, E. (1988). Sr, Nd and Pb isotope geochemistry of the Oslo rift igneous province, southeast Norway. Geochimica et Cosmochimica Acta, 52(8), 1997-2007. Oftedahl, C. (1952). Studies on the igneous rock complex of the Oslo region XIII. The lavas. Skr. Nor. Vidensk; Akad. Oslo, Mat. Naturv. KI, 3, 1-64. Oftedahl, C. (1953). The cauldrons, 13, Studies on the igneous rock complex of the Oslo Region. Skrifter Utgitt av det Norske Videnskaps-Akademi 1 Oslo. I Mat.-Naturv. Klasse. 1953. 3, 1-108. Oftedahl, C. (1960). Permian rocks and structures of the Oslo region. In Geology of Norway (Vol. 208, pp. 298-343). I Kommisjon hos H. Aschehoug & Co., Oslo. Oftedahl, C. (1960). Permian igneous rocks of the Oslo Graben, Norway: guide to excursions no. A 11 and no. C 7. Paper presented at the International Geological Congress, Norden, 1960. XXI Session, 1-23. Oftedahl, C., & Petersen, J. S. (1978). Southern part of the Oslo Rift. Norges geologiske undersøkelse Bulletin, 337, 163-199. Oftedal, I. W., Bergstøl, S., & Svinndal, S. (1960). The Larvik-Langesund and the Fen Areas: Larvikite and Nepheline Syenite Pegmatite Minerals, Per-alkaline Rocks, South Norway: Guide to Excursions No. A 12 and No. C8: International Geological Congress, XXI Session, Norden 1960. XXI Session, 1-17. Petersen, J. S. (1978). Structure of the larvikite-lardalite complex, Oslo-region, Norway, and its evolution. Geologische Rundschau, 67(1), 330-342. Piilonen, P. C., McDonald, A. M., Poirier, G., Rowe, R., & Larsen, A. O. (2012). The mineralogy and crystal chemistry of alkaline pegmatites in the Larvik Plutonic Complex, Oslo rift valley, Norway. Part 1. Magmatic and secondary zircon: implications for petrogenesis from trace-element geochemistry. Mineralogical Magazine, 76(3), 649-672. Piilonen, P. C., McDonald, A. M., Poirier, G., Rowe, R., & Larsen, A. O. (2013). Mafic minerals of the alkaline pegmatites in the Larvik Plutonic Complex, Oslo rift, Southern Norway. The Canadian Mineralogist, 51(5), 735-770. Raade, G. (1972). Mineralogy of the miarolitic cavities in the plutonic rocks of the Oslo Region, Norway. Mineral. Rec, 3, 7-11. Ramberg, I.B. 1976. Gravity Interpretation of the Oslo Graben and associated igneous rocks. Norges Geologiske Undersøkelse, 325, 1-194. Segalstad, T. V. (1979). Petrology of the Skien basaltic rocks, southwestern Oslo Region, Norway. Lithos, 12(3), 221-239. Sundvoll, B., & Larsen, B. T. (1993). Rb-Sr and Sm-Nd relationships in dyke and sill intrusions in the Oslo Rift and related areas. Norges Geologiske Undersøkelse, 425, 25-42. Tomkeieff, S. I. (1957). The Oslo Petrographical Province. Science Progress (1933-), 45(179), 429-446.
  • Vestfold og Telemark
    • Larvik
      • Brunlanes
[Nephelinite] Dahlgren, S. & Larsen, A.O. (2012): Minerals of the banalsite-stronalsite series in amygdules from the Brunlanes ultramafic series. Norsk Bergverksmuseum Skrifter: 49: 93-100.
Pacific Ocean
 
[Nephelinite] Clague, D. A., & Dalrymple, G. B. (1987). The Hawaiian-Emperor volcanic chain. part I. Geologic evolution. Volcanism in Hawaii, 1(1350), 5-54. Keller, R. A., Duncan, R. A., & Fisk, M. R. (1995). Geochemistry and 40Ar/39Ar geochronology of basalts from ODP Leg 145 (North Pacific Transect). In Proceedings of the Ocean Drilling Program. Scientific results (Vol. 145, pp. 333-344). Clague, D. A., & Dalrymple, G. B. (1989). Tectonics, geochronology, and origin of the Hawaiian-Emperor volcanic chain. The Geology of North America, 188-217. Lonsdale, P., Dieu, J., & Natland, J. (1993). Posterosional volcanism in the Cretaceous part of the Hawaiian hotspot trail. Journal of Geophysical Research: Solid Earth, 98(B3), 4081-4098. doi.org/10.1029/92JB02452 O'Connor, J. M., Steinberger, B., Regelous, M., Koppers, A. A., Wijbrans, J. R., Haase, K. M., ... & Garbe‐Schönberg, D. (2013). Constraints on past plate and mantle motion from new ages for the Hawaiian‐Emperor Seamount Chain. Geochemistry, Geophysics, Geosystems, 14(10), 4564-4584. doi.org/10.1002/ggge.20267 doi.org/10.1093/petrology/44.1.113
[Nephelinite] Clague, D. A., Holcomb, R. T., Sinton, J. M., Detrick, R. S., & Torresan, M. E. (1990). Pliocene and Pleistocene alkalic flood basalts on the seafloor north of the Hawaiian Islands. Earth and Planetary Science Letters, 98(2), 175-191. doi.org/10.1016/0012-821X(90)90058-6
Papua New Guinea
 
  • New Ireland Province
    • Feni Islands
[Nephelinite] Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.291 Johnson, R. W., Wallace, D. A., & Ellis, D. J. (1976). Feldspathoid-bearing potassic rocks and associated types from volcanic islands off the coast of New Ireland, Papua New Guinea: a preliminary account of geology and petrology. In Volcanism in Australasia (pp. 297-316). Elsevier Amsterdam. Lindley, I. D. (2015). Late Quaternary geology of Ambitle Volcano, Feni Island Group, Papua New Guinea. Australian Journal of Earth Sciences, 62(5), 529-545. Heming, R. F. (1979). Undersaturated lavas from Ambittle Island, Papua New Guinea. Lithos, 12(3), 173-186.
Paraguay
 
  • Central Department
    • Asuncion
[Nephelinite] Automatically generated from locality name
[Nephelinite] Automatically generated from locality name
[Nephelinite] Automatically generated from locality name
[Nephelinite] Automatically generated from locality name
[Nephelinite] Automatically generated from locality name
[Nephelinite] Automatically generated from locality name
    • Greater Asuncion
      • Lambaré
[Nephelinite] Automatically generated from locality name
      • Ñemby
[Nephelinite] Automatically generated from locality name
Poland
 
  • Lower Silesian Voivodeship
    • Dzierżoniów County
      • Gmina Niemcza
[Nephelinite] Blusztajn, J., & Hart, S. R. (1989). Sr, Nd, and Pb isotopic character of Tertiary basalts from southwest Poland. Geochimica et Cosmochimica Acta, 53(10), 2689-2696.
    • Lubań County
[Foidite] Białowolska, A. (1980). Geochemical features of some Lower Silesian basaltoids and their ultramafic inclusions. Polish, English summary). Archiwum Mineralogiczne, 36, 107-170. Blusztajn, J., & Hart, S. R. (1989). Sr, Nd, and Pb isotopic character of Tertiary basalts from southwest Poland. Geochimica et Cosmochimica Acta, 53(10), 2689-2696. Jerzmanski, J., & Maciejewski, S. (1968). Tertiary basalts in Lower Silesia. Biul. Inst. Geol, 227, 247-260. Kozłowska-Koch, M. (1981). Petrography of ultramafic nodules in the nephelinites from Księginki near Lubań (Lower Silesia). Archiwum Mineralogiczne, 37(1), 33-56. Puziewicz, J., Koepke, J., Grégoire, M., Ntaflos, T., & Matusiak-Małek, M. (2011). Lithospheric mantle modification during Cenozoic rifting in Central Europe: evidence from the Księginki nephelinite (SW Poland) xenolith suite. Journal of Petrology, 52(11), 2107-2145. SAWICKI, L. (1966). Geological Map of the Lower Silesian Region 1: 200 000. Inst. Geof war SZ3Wd. Wierzchołowski, B. 1993. Systematic position and genesis of the Sudetic volcanic rocks. Archiwum Mineralogiczne Warszawa, 49, 199-235.
[Nephelinite] Białowolska, A. (1980). Geochemical features of some Lower Silesian basaltoids and their ultramafic inclusions. Polish, English summary). Archiwum Mineralogiczne, 36, 107-170. Blusztajn, J., & Hart, S. R. (1989). Sr, Nd, and Pb isotopic character of Tertiary basalts from southwest Poland. Geochimica et Cosmochimica Acta, 53(10), 2689-2696. Jerzmanski, J., & Maciejewski, S. (1968). Tertiary basalts in Lower Silesia. Biul. Inst. Geol, 227, 247-260. Kozłowska-Koch, M. (1981). Petrography of ultramafic nodules in the nephelinites from Księginki near Lubań (Lower Silesia). Archiwum Mineralogiczne, 37(1), 33-56. Puziewicz, J., Koepke, J., Grégoire, M., Ntaflos, T., & Matusiak-Małek, M. (2011). Lithospheric mantle modification during Cenozoic rifting in Central Europe: evidence from the Księginki nephelinite (SW Poland) xenolith suite. Journal of Petrology, 52(11), 2107-2145. SAWICKI, L. (1966). Geological Map of the Lower Silesian Region 1: 200 000. Inst. Geof war SZ3Wd. Wierzchołowski, B. 1993. Systematic position and genesis of the Sudetic volcanic rocks. Archiwum Mineralogiczne Warszawa, 49, 199-235.
    • Zgorzelec County
[Nephelinite] Kopecký, L. (1978). Neoidic taphrogenic evolution and young alkaline volcanism of the Bohemian Massif. Sborník geologických věd. Geologie, (31), 91-107. Panasiuk, M. 1980. On tectonic setting of Tertiary volcanic rocks at south-western margin of the Żytawa basin. Kwartalnik Geologiczny Warszawa, 4, 827-840. Szymkowiak, A., & Panasiuk, M. (1985). Charakterystyka petrograficzna i geochemiczna law bazaltoidowych rejonu Bogatyni. Geological Quarterly, 29(3/4), 727-754. Alibert, C., Leterrier, J., Panasiuk, M., & Zimmermann, J. L. (1987). Trace and isotope geochemistry of the alkaline Tertiary volcanism in southwestern Poland. Lithos, 20(4), 311-321. Jęczmykowa, M. & Kanasiewicz, J. 1987. Young alkaline volcanism and related metasomatic processes in the vicinity of Bogatynia, Poland.
    • Złotoryja County
      • Gmina Złotoryja
        • Wilków
[Olivine nephelinite] Smulikowski, K., & Kozłowska-Koch, M. (1984). Basaltoids of Wilcza Góra near Złotoryja (Lower Silesia) and their enclosures. Archiwum Mineralogiczne, 40(1), 53-101. Kozłowska-Koch, M. (1981). Petrography of ultramafic nodules in the nephelinites from Księginki near Lubań (Lower Silesia). Archiwum Mineralogiczne, 37(1), 33-56. Matusiak-Małek, M., Puziewicz, J., Ntaflos, T., Grégoire, M., Kukuła, A., & Wojtulek, P. M. (2017). Origin and evolution of rare amphibole-bearing mantle peridotites from Wilcza Góra (SW Poland), Central Europe. Lithos, 286, 302-323.
  • Opole Voivodeship
    • Głubczyce County
      • Gmina Kietrz
[Nephelinite] Wróbel 2007, Geodiversity protection of worked-out quarries after basalt exploitation on the example on Nowa Cerekiew
    • Opole County
[Nephelinite] SAWICKI, L. (1966). Geological Map of the Lower Silesian Region 1: 200 000. Inst. Geof war SZ3Wd. Birkenmajer, K., & Pecskay, Z. (2002). Radiometric dating of the Tertiary volcanics in Lower Silesia, Poland. I. Alkali basaltic rocks of the Opole region. Bulletin of the Polish Academy of Sciences. Earth Sciences, 50(1), 31-50.
[Nephelinite] Jakubiak, A., Pietranik, A (2010) Olivine phenocrysts: a tool to reconstruct the crystallization history of basaltoids from the Niemodlin
[Nephelinite] Jakubiak, A., Pietranik, A (2010) Olivine phenocrysts: a tool to reconstruct the crystallization history of basaltoids from the Niemodlin
    • Strzelce County
      • Gmina Izbicko
[Nephelinite] Chodyniecka (1967) Bazalt z Góry Św. Anny
      • Gmina Leśnica
[Nephelinite] Chodyniecka (1967), Bazalt z Góry Św. Anny; Birkenmajer, K., & Pecskay, Z. (2002). Radiometric dating of the Tertiary volcanics in Lower Silesia, Poland. I. Alkali basaltic rocks of the Opole region. Bulletin of the Polish Academy of Sciences. Earth Sciences, 50(1), 31-50. Birkenmajer, K., Jeleńska, M., Kądziołko-Hofmokl, M., & Kruczyk, J. (1977). Age of deep-seated fracture zones in Lower Silesia (Poland), based on K-Ar and palaeomagnetic dating of Tertiary basalts. In Annales Societatis Geologorum Poloniae (Vol. 47, No. 4, pp. 545-552). Blusztajn, J., & Hart, S. R. (1989). Sr, Nd, and Pb isotopic character of Tertiary basalts from southwest Poland. Geochimica et Cosmochimica Acta, 53(10), 2689-2696. Kozłowska-Koch, M. (1987). Classification and nomenclature of the Tertiary volcanic rocks of the Low and Opole Silesia. Archiwum Mineralogiczne, 42, 43-95. Kruczyk, J., Kadziałko-Hofmokl, M., Jeleńska, M. & Birkenmajer, K. 1974. Paleomagnetic investigations of Tertiary basaltic rocks from Lower Silesia, Poland. Acta Geologica Academiae Scientiarum Hungaricae, 18, 481-487.
[Nephelinite] Chodyniecka (1967) Bazalt z Góry Św. Anny
  • Podlaskie Voivodeship
[Foidite] 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
 
  • Faro
[Foidite] Assunção, C.F.T. de. 1940. Sobre a petrologia das formações eruptivas do Algarve. Boletim do Museu e Laborató Mineralógico e Geológico da Universidade de Lisboa, 3, 47-81. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lameyre, J. (2002). Igneous rocks. A classification and glossary of terms, 2. Martins, L. T. (1999). Cretaceous Alkaline Magmatism in Algarve Littoral (South Portugal): a Basanite-Lamprophyre Rock Suite. GeoLines (Praha), 9, 84-91.
  • Lisbon
    • Lisbon
[Foidite] ALVES, C. A. M.; RODRIGUES, B.; SERRALHEIRO, A. & FARIA, A. F. (1980) - Complexo Basáltico de Lisboa. Com. Serv. Geol. de Portugal, 66, pp. 111-134. de Jesus, A. M., & Zbyszewski, G. (1952). Contribution à l'étude du" Complexe basaltique" de Lisbonne. Communicações dos Serviços Geológicos de Portugal, 33, 185-220. Miranda, R., Valadares, V., Terrinha, P., Mata, J., do Rosario Azevedo, M., Gaspar, M., ... & Ribeiro, C. (2009). Age constraints on the Late Cretaceous alkaline magmatism on the West Iberian Margin. Cretaceous Research, 30(3), 575-586.
  • Madeira
[Nephelinite] Honnorez, J. (1966). Contribution à l'étude géologique et pétrographique de l'Archipel des Selvagens. Bulletin Academie Royale des Sciences d'Outre-Mer des Sciences Techniques, 16-4, 1-41. Jérémine, E. (1950). Contribution à la connaissance lithologique de la Grande Salvagem. Revista da Faculdade de Ciencias, Serie 2A, Ciencias Naturais, Universidade de Lisboa, 1, 5-19. Mitchell-Thomé, R. C. (1976). Geology of the middle Atlantic islands. Gebrüder Borntraeger, Berlin.
[Nephelinite] 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 of London, p. 476.
  • Setúbal
    • Sesimbra
      • Castelo
[Foidite] Miranda, R., Valadares, V., Terrinha, P., Mata, J., do Rosario Azevedo, M., Gaspar, M., ... & Ribeiro, C. (2009). Age constraints on the Late Cretaceous alkaline magmatism on the West Iberian Margin. Cretaceous Research, 30(3), 575-586.
Romania
 
  • Hunedoara
[Nephelinite] Downes, H., Vaselli, O., Seghedi, I., Ingram, G., Rex, D., Coradossi, N., ... & Pinarelli, L. (1995). Geochemistry of late Cretaceous-early Tertiary magmatism in Poiana Rusca (Romania). Acta Vulcanologica, 7, 209-218. Kräutner, F. (1969). Magmatites finales alcalines quaternaires dans la partie NE du massif de Poiana Rusca. Rev. Roum. Géol. Géophys. Géogr., Sér. Géol, 13, 47-67. Tschegg, C., Ntaflos, T., Seghedi, I., Harangi, S., Kosler, J., & Coltorti, M. (2010). Paleogene alkaline magmatism in the South Carpathians (Poiana Ruscă, Romania): Asthenosperic melts with geodynamic and lithospheric information. Lithos, 120(3-4), 393-406.
Russia
 
  • Krasnoyarsk Krai
    • Maimecha and Kotui Rivers Basin
[Nephelinite] Gritsenko, Y.D.; Chukanov, N.V.; Aksenov, S.M.; Pekov, I.V.; Varlamov, D.A.; Pautov, L.A.; Vozchikova, S.A.; Ksenofontov, D.A.; Britvin, S.N. (2020) Odikhinchaite, Na9Sr3[(H2O)2Na]Ca6Mn3Zr3NbSi (Si24O72)O(OH)3(CO3)·H2O, a New Eudialyte-Group Mineral from the Odikhincha Intrusion, Taimyr Peninsula, Russia. Minerals 10, 1062.
Samoa
 
[Nephelinite] Kear, D., Wood, B.L. & Brothers, R.N. 1959. The geology. and hydrology of Western Samoa. New Zealand Geological Survey Bulletin, 63, 1-92. Hedge, C. E., Peterman, Z. F., & Dickinson, W. R. (1972). Petrogenesis of lavas from Western Samoa. Geological Society of America Bulletin, 83(9), 2709-2714. doi.org/10.1130/0016-7606(1972)83[2709:POLFWS]2.0.CO;2 Hawkins Jr, J. W., & Natland, J. H. (1975). Nephelinites and basanites of the Samoan linear volcanic chain: Their possible tectonic significance. Earth and Planetary Science Letters, 24(3), 427-439. doi.org/10.1016/0012-821X(75)90150-8 Wright, E., & White, W. M. (1987). The origin of Samoa: new evidence from Sr, Nd, and Pb isotopes. Earth and Planetary Science Letters, 81(2-3), 151-162. doi.org/10.1016/0012-821X(87)90152-X
[Nephelinite] Kear, D., Wood, B.L. & Brothers, R.N. 1959. The geology. and hydrology of Western Samoa. New Zealand Geological Survey Bulletin, 63, 1-92. Hedge, C. E., Peterman, Z. F., & Dickinson, W. R. (1972). Petrogenesis of lavas from Western Samoa. Geological Society of America Bulletin, 83(9), 2709-2714. doi.org/10.1130/0016-7606(1972)83[2709:POLFWS]2.0.CO;2 Hawkins Jr, J. W., & Natland, J. H. (1975). Nephelinites and basanites of the Samoan linear volcanic chain: Their possible tectonic significance. Earth and Planetary Science Letters, 24(3), 427-439. doi.org/10.1016/0012-821X(75)90150-8 Wright, E., & White, W. M. (1987). The origin of Samoa: new evidence from Sr, Nd, and Pb isotopes. Earth and Planetary Science Letters, 81(2-3), 151-162. doi.org/10.1016/0012-821X(87)90152-X McDOUGALL, I. A. N. (2010). Age of volcanism and its migration in the Samoa Islands. Geological Magazine, 147(5), 705-717. doi.org/10.1017/S0016756810000038 MacDonald, G. A. (1944). Petrography of the Samoan Islands. Bulletin of the Geological Society of America, 55(11), 1333-1362. doi.org/10.1130/GSAB-55-1333 Workman, R. K., Hart, S. R., Jackson, M., Regelous, M., Farley, K. A., Blusztajn, J., ... & Staudigel, H. (2004). Recycled metasomatized lithosphere as the origin of the Enriched Mantle II (EM2) end‐member: Evidence from the Samoan Volcanic Chain. Geochemistry, Geophysics, Geosystems, 5(4), 1-44.
Serbia
 
  • Central Serbia
    • Zlatibor District
      • Sjenica
[Analcimite] Prelević, D., Foley, S. F., Romer, R. L., Cvetković, V., & Downes, H. (2005). Tertiary ultrapotassic volcanism in Serbia: constraints on petrogenesis and mantle source characteristics. Journal of Petrology, 46(7), 1443-1487. Cvetković, V., Prelević, D., Downes, H., Jovanović, M., Vaselli, O., & Pécskay, Z. (2004). Origin and geodynamic significance of Tertiary postcollisional basaltic magmatism in Serbia (central Balkan Peninsula). Lithos, 73(3-4), 161-186.
Slovenia
 
  • Rogašovci
[Foidite] Kralj, P. (2011). Eruptive and sedimentary evolution of the Pliocene Grad Volcanic Field, North-east Slovenia. Journal of volcanology and geothermal research, 201(1-4), 272-284. Seghedi, I., Downes, H., Vaselli, O., Szakács, A., Balogh, K., & Pécskay, Z. (2004). Post-collisional Tertiary–Quaternary mafic alkalic magmatism in the Carpathian–Pannonian region: a review. Tectonophysics, 393(1-4), 43-62. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lameyre, J. (2002). Igneous rocks. A classification and glossary of terms, 2.
Solomon Islands
 
  • Malaita Province
[Ankaratrite] Allen, J. B., & Deans, T. (1965). Ultrabasic eruptives with alnöitic-kimberlitic affinities from Malaita, Solomon Islands. Mineralogical Magazine and Journal of the Mineralogical Society, 34(268), 16-34. doi.org/10.1180/minmag.1965.034.268.02 Neal, C. R., & Davidson, J. P. (1989). An unmetasomatized source for the Malaitan alnöite (Solomon Islands): petrogenesis involving zone refining, megacryst fractionation, and assimilation of oceanic lithosphere. Geochimica et Cosmochimica Acta, 53(8), 1975-1990. doi.org/10.1016/0016-7037(89)90318-9 Nixon, P. H. (1980). Kimberlites in the south-west Pacific. Nature, 287(5784), 718-720. doi.org/10.1038/287718a0 Tejada, M. L. G., Mahoney, J. J., Duncan, R. A., & Hawkins, M. P. (1996). Age and geochemistry of basement and alkalic rocks of Malaita and Santa Isabel, Solomon Islands, southern margin of Ontong Java Plateau. Journal of Petrology, 37(2), 361-394. doi.org/10.1093/petrology/37.2.361
South Africa
 
  • North West
    • Bojanala Platinum District Municipality
      • Pilanesberg Alkaline Ring Complex
[Nephelinite] Clarke, L. B. (1989). The Geology of the Kruidfontein Volcanic Complex Transvaal. S. Africa (Doctoral dissertation, University of Leicester).
Spain
 
  • Canary Islands
    • Las Palmas Province
[Foidite] Casillas, R., Demény, A., Nagy, G., Ahijado, A., & Fernández, C. (2011). Metacarbonatites in the Basal Complex of Fuerteventura (Canary Islands). The role of fluid/rock interactions during contact metamorphism and anatexis. Lithos, 125(1-2), 503-520. doi.org/10.1016/j.lithos.2011.03.007 Gutiérrez, M., Casillas, R., Fernández, C., Balogh, K., Ahijado, A., Castillo, C., ... & García-Navarro, E. (2006). The submarine volcanic succession of the basal complex of Fuerteventura, Canary Islands: a model of submarine growth and emergence of tectonic volcanic islands. Geological Society of America Bulletin, 118(7-8), 785-804. doi.org/10.1130/B25821.1 Le Bas, M. J., Rex, D. C., & Stillman, C. J. (1986). The early magmatic chronology of Fuerteventura, Canary Islands. Geol. mag, 123(3), 287-298. doi.org/10.1017/S0016756800034762 Lebas, M. J. (1981, January). The pyroxenite-ijolite-carbonatite intrusive igneous complexes of Fuerteventura, Canary Islands. In Journal of the Geological Society (Vol. 138, No. JUL, pp. 496-496). UNIT 7, BRASSMILL ENTERPRISE CENTRE, BRASSMILL LANE, BATH, AVON, ENGLAND BA1 3JN: GEOLOGICAL SOC PUBL HOUSE. doi.org/10.1144/gsjgs.138.4.0493 Balogh, K., Ahijado, A., Casillas, R., & Fernandez, C. (1999). Contributions to the chronology of the Basal Complex of Fuerteventura, Canary Islands. Journal of Volcanology and Geothermal Research, 90(1-2), 81-102. doi.org/10.1016/S0377-0273(99)00008-6 Barrera, J. L., Fernández Santın, S., Fuster, J. M., & Ibarrola, E. (1981). Ijolitas-sienitas-carbonatitas de los macizos del Norte de Fuerteventura. Bol Geol Min, 92, 309-321. Ancochea Soto, E., Brandle, J. L., Cubas, C. R., Hernán, F., & Huertas Coronel, M. J. (1996). Volcanic complexes in the eastern ridge of the Canary Islands: the Miocene activity of the island of Fuerteventura. Journal of Volcanology and Geothermal Research, 70(3-4), 183-204. doi.org/10.1016/0377-0273(95)00051-8 Cendrero, A. (1966). Los volcanes recientes de Fuerteventura (Islas Canarias). Estudios Geológicos, 22, 201-226. El-Rus, M. A., Neumann, E. R., & Peters, V. (2006). Serpentinization and dehydration in the upper mantle beneath Fuerteventura (eastern Canary Islands): Evidence from mantle xenoliths. Lithos, 89(1-2), 24-46. doi.org/10.1016/j.lithos.2005.09.005 Coello, J., Cantagrel, J.-M. et al. 1992. Evolution of the eastern volcanic ridge of the Canary Islands based on new K-Ar data. Journal of Volcanology and Geothermal Research, 53, 251-274. doi.org/10.1016/0377-0273(92)90085-R
[Nephelinite] Jutzeler, M., Schmincke, H. U., & Sumita, M. (2010). The incrementally zoned Miocene Ayagaures ignimbrite (Gran Canaria, Canary Islands). Journal of Volcanology and Geothermal Research, 196(1-2), 1-19. doi.org/10.1016/j.jvolgeores.2010.07.002 Guillou, H., Torrado, F. J. P., Machin, A. R. H., Carracedo, J. C., & Gimeno, D. (2004). The Plio–Quaternary volcanic evolution of Gran Canaria based on new K–Ar ages and magnetostratigraphy. Journal of Volcanology and Geothermal Research, 135(3), 221-246. doi.org/10.1016/j.jvolgeores.2004.03.003 Hoernle, K. A. J., & Schmincke, H. U. (1993). The petrology of the tholeiites through melilite nephelinites on Gran Canaria, Canary Islands: crystal fractionation, accumulation, and depths of melting. Journal of Petrology, 34(3), 573-597. doi.org/10.1093/petrology/34.3.573 van den Bogaard, P., & Schmincke, H. U. (1998). Chronostratigraphy of Gran Canaria. In Proceedings of the Ocean Drilling Program: Scientific Results (Vol. 157, No. Chapter 11, pp. 127-140). Donoghue, E., Troll, V. R., & Harris, C. (2010). Fluid–rock interaction in the Miocene, Post-Caldera, Tejeda intrusive complex, Gran Canaria (Canary Islands): insights from mineralogy, and O-and H-isotope geochemistry. Journal of Petrology, 51(10), 2149-2176. doi.org/10.1093/petrology/egq052 Crisp, J. A., & Spera, F. J. (1987). Pyroclastic flows and lavas of the Mogan and Fataga formations, Tejeda Volcano, Gran Canaria, Canary Islands: mineral chemistry, intensive parameters, and magma chamber evolution. Contributions to Mineralogy and Petrology, 96(4), 503-518. doi.org//10.1007/BF01166695 Anguita, F., Cacho, L. G., Colombo, F., Camacho, A. G., & Vieira, R. (1991). Roque Nublo caldera: a new stratocone caldera in Gran Canaria, Canary Islands. Journal of volcanology and geothermal research, 47(1-2), 45-63. doi.org/10.1016/0377-0273(91)90100-E Hoernle, K. A. J. (1998). Geochemistry of Jurassic oceanic crust beneath Gran Canaria (Canary Islands): implications for crustal recycling and assimilation. Journal of Petrology, 39(5), 859-880. doi.org/10.1093/petroj/39.5.859 Mangas, J., Pereztorrado, F., Massare, D., & Clocchiatti, R. (1993). Phonolitic origin of Roque-Nublo ignimbrites of Gran-Canaria (Canary-Islands, Spain) from clinopyroxene melt inclusion studies. European journal of mineralogy, 5, 97-106. doi.org/10.1127/ejm/5/1/0097 Troll, V. R., & Schmincke, H. U. (2002). Magma mixing and crustal recycling recorded in ternary feldspar from compositionally zoned peralkaline ignimbrite ‘A’, Gran Canaria, Canary Islands. Journal of Petrology, 43(2), 243-270. doi.org/10.1093/petrology/43.2.243 Cousens, B. L., Spera, F. J., & Dobson, P. F. (1993). Post-eruptive alteration of silicic ignimbrites and lavas, Gran Canaria, Canary Islands: Strontium, neodymium, lead, and oxygen isotopic evidence. Geochimica et Cosmochimica Acta, 57(3), 631-640. doi.org/10.1016/0016-7037(93)90374-6 Schirnick, C., van den Bogaard, P., & Schmincke, H. U. (1999). Cone sheet formation and intrusive growth of an oceanic island—The Miocene Tejeda complex on Gran Canaria (Canary Islands). Geology, 27(3), 207-210. doi.org/10.1130/0091-7613(1999)027<0207:CSFAIG>2.3.CO;2 Jutzeler, M., Schmincke, H. U., & Sumita, M. (2010). The incrementally zoned Miocene Ayagaures ignimbrite (Gran Canaria, Canary Islands). Journal of Volcanology and Geothermal Research, 196(1-2), 1-19. doi.org/10.1016/j.jvolgeores.2010.07.002 Guillou, H., Torrado, F. J. P., Machin, A. R. H., Carracedo, J. C., & Gimeno, D. (2004). The Plio–Quaternary volcanic evolution of Gran Canaria based on new K–Ar ages and magnetostratigraphy. Journal of Volcanology and Geothermal Research, 135(3), 221-246. doi.org/10.1016/j.jvolgeores.2004.03.003 Hoernle, K. A. J., & Schmincke, H. U. (1993). The petrology of the tholeiites through melilite nephelinites on Gran Canaria, Canary Islands: crystal fractionation, accumulation, and depths of melting. Journal of Petrology, 34(3), 573-597. doi.org/10.1093/petrology/34.3.573 van den Bogaard, P., & Schmincke, H. U. (1998). Chronostratigraphy of Gran Canaria. In Proceedings of the Ocean Drilling Program: Scientific Results (Vol. 157, No. Chapter 11, pp. 127-140). Donoghue, E., Troll, V. R., & Harris, C. (2010). Fluid–rock interaction in the Miocene, Post-Caldera, Tejeda intrusive complex, Gran Canaria (Canary Islands): insights from mineralogy, and O-and H-isotope geochemistry. Journal of Petrology, 51(10), 2149-2176. doi.org/10.1093/petrology/egq052 Crisp, J. A., & Spera, F. J. (1987). Pyroclastic flows and lavas of the Mogan and Fataga formations, Tejeda Volcano, Gran Canaria, Canary Islands: mineral chemistry, intensive parameters, and magma chamber evolution. Contributions to Mineralogy and Petrology, 96(4), 503-518. doi.org//10.1007/BF01166695 Anguita, F., Cacho, L. G., Colombo, F., Camacho, A. G., & Vieira, R. (1991). Roque Nublo caldera: a new stratocone caldera in Gran Canaria, Canary Islands. Journal of volcanology and geothermal research, 47(1-2), 45-63. doi.org/10.1016/0377-0273(91)90100-E Hoernle, K. A. J. (1998). Geochemistry of Jurassic oceanic crust beneath Gran Canaria (Canary Islands): implications for crustal recycling and assimilation. Journal of Petrology, 39(5), 859-880. doi.org/10.1093/petroj/39.5.859 Mangas, J., Pereztorrado, F., Massare, D., & Clocchiatti, R. (1993). Phonolitic origin of Roque-Nublo ignimbrites of Gran-Canaria (Canary-Islands, Spain) from clinopyroxene melt inclusion studies. European journal of mineralogy, 5, 97-106. doi.org/10.1127/ejm/5/1/0097 Troll, V. R., & Schmincke, H. U. (2002). Magma mixing and crustal recycling recorded in ternary feldspar from compositionally zoned peralkaline ignimbrite ‘A’, Gran Canaria, Canary Islands. Journal of Petrology, 43(2), 243-270. doi.org/10.1093/petrology/43.2.243 Cousens, B. L., Spera, F. J., & Dobson, P. F. (1993). Post-eruptive alteration of silicic ignimbrites and lavas, Gran Canaria, Canary Islands: Strontium, neodymium, lead, and oxygen isotopic evidence. Geochimica et Cosmochimica Acta, 57(3), 631-640. doi.org/10.1016/0016-7037(93)90374-6 Schirnick, C., van den Bogaard, P., & Schmincke, H. U. (1999). Cone sheet formation and intrusive growth of an oceanic island—The Miocene Tejeda complex on Gran Canaria (Canary Islands). Geology, 27(3), 207-210. doi.org/10.1130/0091-7613(1999)027<0207:CSFAIG>2.3.CO;2
    • Santa Cruz de Tenerife Province
[Nephelinite] Carracedo, J. C., Rodriguez-Badiola, E., Guillou, H., Nuez Pestana, J. D. L., & Pérez Torrado, F. J. (2001). Geology and volcanology of La Palma and El Hierro, Western Canaries. Estudios Geológicos, 57,175-273. doi.org/10.3989/egeol.01575-6134 Stroncik, N. A., Klügel, A., & Hansteen, T. H. (2009). The magmatic plumbing system beneath El Hierro (Canary Islands): constraints from phenocrysts and naturally quenched basaltic glasses in submarine rocks. Contributions to Mineralogy and Petrology, 157(5), 593-607.doi.org/10.1007/s00410-008-0354-5 Sigmarsson, O., Laporte, D., Carpentier, M., Devouard, B., Devidal, J. L., & Marti, J. (2013). Formation of U-depleted rhyolite from a basanite at El Hierro, Canary Islands. Contributions to Mineralogy and Petrology, 165(3), 601-622. doi.org/10.1007/s00410-012-0826-5 Neumann, E. R. (1991). Ultramafic and mafic xenoliths from Hierro, Canary Islands: evidence for melt infiltration in the upper mantle. Contributions to Mineralogy and Petrology, 106(2), 236-252. doi.org/10.1007/BF00306436 Whitehouse, M. J., & Neumann, E. R. (1995). Sr-Nd-Pb isotope data for ultramafic xenoliths from Hierro, Canary Islands: melt infiltration processes in the upper mantle. Contributions to Mineralogy and Petrology, 119(2-3), 239-246. doi.org/10.1007/BF00307284
[Nephelinite] Carracedo, J. C., Rodriguez-Badiola, E., Guillou, H., Nuez Pestana, J. D. L., & Pérez Torrado, F. J. (2001). Geology and volcanology of La Palma and El Hierro, Western Canaries. Estudios Geológicos, 57,175-273. doi.org/10.3989/egeol.01575-6134 Stroncik, N. A., Klügel, A., & Hansteen, T. H. (2009). The magmatic plumbing system beneath El Hierro (Canary Islands): constraints from phenocrysts and naturally quenched basaltic glasses in submarine rocks. Contributions to Mineralogy and Petrology, 157(5), 593-607.doi.org/10.1007/s00410-008-0354-5 Sigmarsson, O., Laporte, D., Carpentier, M., Devouard, B., Devidal, J. L., & Marti, J. (2013). Formation of U-depleted rhyolite from a basanite at El Hierro, Canary Islands. Contributions to Mineralogy and Petrology, 165(3), 601-622. doi.org/10.1007/s00410-012-0826-5 Neumann, E. R. (1991). Ultramafic and mafic xenoliths from Hierro, Canary Islands: evidence for melt infiltration in the upper mantle. Contributions to Mineralogy and Petrology, 106(2), 236-252. doi.org/10.1007/BF00306436
[Nephelinite] Neumann, E. R., Wulff-Pedersen, E., Simonsen, S. L., Pearson, N. J., Martí, J., & Mitjavila, J. (1999). Evidence for fractional crystallization of periodically refilled magma chambers in Tenerife, Canary Islands. Journal of Petrology, 40(7), 1089-1123. doi.org/10.1093/petroj/40.7.1089 Borley, G. D., Suddaby, P., & Scott, P. (1971). Some xenoliths from the alkalic rocks of Teneriffe, Canary Islands. Contributions to Mineralogy and Petrology, 31(2), 102-114. doi.org/10.1007/BF00373453 Ablay, G. J., Carroll, M. R., Palmer, M. R., Martí, J., & Sparks, R. S. J. (1998). Basanite–phonolite lineages of the Teide–Pico Viejo volcanic complex, Tenerife, Canary Islands. Journal of Petrology, 39(5), 905-936. doi.org/10.1093/petroj/39.5.905 Edgar, C. J., Wolff, J. A., Olin, P. H., Nichols, H. J., Pittari, A., Cas, R. A. F., ... & Martí, J. (2007). The late Quaternary Diego Hernandez Formation, Tenerife: Volcanology of a complex cycle of voluminous explosive phonolitic eruptions. Journal of Volcanology and Geothermal Research, 160(1-2), 59-85. doi.org/10.1016/j.jvolgeores.2006.06.001 Bryan, S. E. (2006). Petrology and geochemistry of the Quaternary caldera-forming, phonolitic Granadilla eruption, Tenerife (Canary Islands). Journal of Petrology, 47(8), 1557-1589. doi.org/10.1093/petrology/egl020 Deegan, F. M., Troll, V. R., Barker, A. K., Harris, C., Chadwick, J. P., Carracedo, J. C., & Delcamp, A. (2012). Crustal versus source processes recorded in dykes from the Northeast volcanic rift zone of Tenerife, Canary Islands. Chemical Geology, 334, 324-344. doi.org/10.1016/j.chemgeo.2012.10.013 Carracedo, J. C., Guillou, H., Nomade, S., Rodríguez-Badiola, E., Pérez-Torrado, F. J., Rodríguez-González, A., ... & Fernández-Turiel, J. L. (2011). Evolution of ocean-island rifts: The northeast rift zone of Tenerife, Canary Islands. Bulletin, 123(3-4), 562-584. doi.org/10.1130/B30119.1 Wiesmaier, S., Troll, V. R., Carracedo, J. C., Ellam, R. M., Bindeman, I., & Wolff, J. A. (2012). Bimodality of lavas in the Teide–Pico Viejo succession in Tenerife—the role of crustal melting in the origin of recent phonolites. Journal of Petrology, 53(12), 2465-2495. doi.org/10.1093/petrology/egs056 Wolff, J. A. (1987). Crystallisation of nepheline syenite in a subvolcanic magma system: Tenerife, Canary Islands. Lithos, 20(3), 207-223. doi.org/10.1016/0024-4937(87)90009-0 Troll, V. R., & Carracedo, J. C. (2016). The geology of the Canary Islands. Elsevier.
  • Castile-La Mancha
    • Ciudad Real
[Nephelinite] Hernández, A., Jébrak, M., Higueras, P., Oyarzun, R., Morata, D., and Munhá, J. (1999): The Almadén mercury mining district, Spain. Mineralium Deposita 34, 539-548.
  • Valencian Community
    • Valencia
      • Cofrentes
[Nephelinite] Ancochea, E., & Nixon, P. H. (1987). Xenoliths in the Iberian peninsula. Mantle xenoliths, 119-125. Ancochea, E., MŪNOZ, M., & Sagredo, J. (1984). Las manifestacíonas volcánicas de Cofrentes y Picasent, provincia de Valencia. In Congreso Espańol de Geología. 1 (pp. 1-13).
Sweden
 
  • Skåne County
    • Höör
[Nephelinite] Bergelin, I., Obst, K., Söderlund, U., Larsson, K., & Johansson, L. (2011). Mesozoic rift magmatism in the North Sea region: 40 Ar/39 Ar geochronology of Scanian basalts and geochemical constraints. International Journal of Earth Sciences, 100(4), 787-804. doi.org/10.1007/s00531-010-0516-3 Bylund, G., & Halvorsen, E. (1993). Palaeomagnetic study of Mesozoic basalts from Scania, southernmost Sweden. Geophysical Journal International, 114(1), 138-144. doi.org/10.1111/j.1365-246X.1993.tb01473.x Griffin, W. L., & Kresten, P. (1987). Scandinavia-the carbonatite connection. Unknown Journal, 101-106. Klingspor, I. (1976). Radiometric age-determination of basalts, dolerites and related syenite in Skåne, southern Sweden. Geologiska Föreningen i Stockholm Förhandlingar, 98(3), 195-216. doi.org/10.1080/11035897609454371 Olsson, H. B. (1983). Rhönite from Skåne (Scania), southern Sweden. Geologiska Föreningen i Stockholm Förhandlingar, 105(4), 281-286. doi.org/10.1080/11035898309454566 Printzlau, I., & Larsen, O. (1972). K/Ar age determinations on alkaline olivine basalts from Skåne, southern Sweden. Geologiska Foereningen i Stockholm Foerhandlingar, 94(2), 259-269.doi.org/10.1080/11035897209454201 Rehfeldt, T., Obst, K., & Johansson, L. (2007). Petrogenesis of ultramafic and mafic xenoliths from Mesozoic basanites in southern Sweden: constraints from mineral chemistry. International Journal of Earth Sciences, 96(3), 433-450. doi.org/10.1007/s00531-006-0116-4 Tappe, S. (2004). Mesozoic mafic alkaline magmatism of southern Scandinavia. Contributions to Mineralogy and Petrology, 148(3), 312-334. doi.org/10.1007/s00410-004-0606-y
  • Västernorrland County
    • Sundsvall
[Nephelinite] Andersson, M., Malehmir, A., Troll, V. R., Dehghannejad, M., Juhlin, C., & Ask, M. (2013). Carbonatite ring-complexes explained by caldera-style volcanism. Scientific reports, 3(1), 1-9. https://www.nature.com/articles/srep01677.pdf Barber, D. J., & Wenk, H. R. (1984). Microstructures in carbonates from the Alnø and Fen carbonatites. Contributions to Mineralogy and Petrology, 88(3), 233-245. doi.org/10.1007/BF00380168 Brueckner, H. K., & Rex, D. C. (1980). KA and Rb Sr geochronology and Sr isotopic study of the Alnö alkaline complex, northeastern Sweden. Lithos, 13(2), 111-119. doi.org/10.1016/0024-4937(80)90012-2 Von Eckermann, H. (1958). The alkaline and carbonatite dykes of the Alnö formation on the mainland north-west of Alnö Island Kungl. Svensk. Vetenskaps Handl. Fjärde Serien., 7, 1-61. Von Eckermann, H. (1966). Progress of research on the Alnö carbonatite. In Carbonatites. Intersci. Publishers New York. Eckermann, H. V. (1966). The pyroxenes of the Alnö carbonatites (sövite) and the surrounding fenites. Mineral. Soc. India, IMA Vol., 126-139. Eckermann, H. von. 1967. The strontium and barium contents of the Alnö sövites and the alkaline, carbonatitic and ultrabasic rocks. Arkiv för Mineralogi och Geologi, 4, 417-424. Ingrid, H. K. (1998). Rare earth elements in sövitic carbonatites and their mineral phases. Journal of Petrology, 39(11-12), 2105-2121.https://doi.org/10.1093/petroj/39.11-12.2105 Kresten, P. (1977). K, Rb and Cs in carbonatites and associated rocks from central Sweden. Geologiska Föreningen i Stockholm Förhandlingar, 99(4), 377-383.doi.org/10.1080/11035897709455040 Kresten, P. 1979. The Alnö complex: discussion of the main features, bibliography and excursion guide. Paper presented at the Nordic Carbonatite Symposium, Alnö, Sweden. Kresten, P. (1980). The Alnö complex: tectonics of dyke emplacement. Lithos, 13(2), 153-158. doi.org/10.1016/0024-4937(80)90016-X Kresten, P. (1986). Alkaline and carbonatitic Alnø dikes (Map). Sveriges Geologiske Undersøkning, Ser. Ba, (31). Kresten, P., Printzlau, I., Rex, D., Vartiainen, H., & Woolley, A. (1977). New ages of carbonatitic and alkaline ultramafic rocks from Sweden and Finland. Geologiska Föreningen i Stockholm Förhandlingar, 99(1), 62-65. doi.org/10.1080/11035897709454992 Meert, J. G., Walderhaug, H. J., Torsvik, T. H., & Hendriks, B. W. (2007). Age and paleomagnetic signature of the Alnø carbonatite complex (NE Sweden): Additional controversy for the Neoproterozoic paleoposition of Baltica. Precambrian Research, 154(3-4), 159-174. doi.org/10.1016/j.precamres.2006.12.008 Morogan, V. (1989). Mass transfer and REE mobility during fenitization at Alnö, Sweden. Contributions to Mineralogy and Petrology, 103(1), 25-34. doi.org/10.1007/BF00371362 Morogan, V., & Lindblom, S. (1995). Volatiles associated with the alkaline–carbonatite magmatism at Alnö, Sweden: a study of fluid and solid inclusions in minerals from the Laångarsholmen ring complex. Contributions to Mineralogy and Petrology, 122(3), 262-274. doi.org/10.1007/s004100050126 Morogan, V., & Woolley, A. R. (1988). Fenitization at the Alnö carbonatite complex, Sweden; distribution, mineralogy and genesis. Contributions to Mineralogy and Petrology, 100(2), 169-182. doi.org/10.1007/BF00373583 Vuorinen, J. H., & Hålenius, U. (2005). Nb-, Zr-and LREE-rich titanite from the Alnö alkaline complex: crystal chemistry and its importance as a petrogenetic indicator. Lithos, 83(1-2), 128-142. Vuorinen, J. H., & Skelton, A. D. (2004). Origin of silicate minerals in carbonatites from Alnö Island, Sweden: magmatic crystallization or wall rock assimilation?. Terra Nova, 16(4), 210-215. doi.org/10.1111/j.1365-3121.2004.00557.x
Switzerland
 
  • Schaffhausen
    • Ramsen
[Nephelinite] Heller, F., Borkovec, L., & Pavoni, N. (1985). Magnetism of the olivine-nephelinite dyke at Ramsen (Kanton Schaffhausen, Switzerland). Eclogae Geologicae Helvetiae, 48(3), 459-468. Hofmann, F. (1956). Die vulkanischen Erscheinungen auf schweizerischem Gebiet nördlich des Rheins in der Gegend von Ramsen (Kanton Schaffhausen). Eclogae Geologicae Helvetiae, 49, 85-96. Wagner, J. J., Delaloye, M.& Hedley, I. (1975). DONNEES GEOCHRONOMETRIQUES ET PALEOMAGNETIQUES SUR L'EXTENSION DU VOLCANISME DU HEGAU EN SUISSE (RAMSEN, SCHAFFHOUSE). Compte Rendu des Séances de la Société de Physique et d'Histoire Naturelle de Genève, N.S., 10, 46-57. Weiskirchner, W. (1975). Vulkanismus und Magmenentwicklung im Hegau. Jahresberichte und Mitteilungen des Oberrheinischen Geologischen Vereins, 117-134.
Syria
 
  • Deir ez-Zor Governorate
[Foidite] Lease, N. A., & Abdel-Rahman, A. F. M. (2008). The Euphrates volcanic field, northeastern Syria: petrogenesis of Cenozoic basanites and alkali basalts. Geological Magazine, 145(5), 685-701. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lamere, J. (2002). Igneous rocks: A classification and glossary of terms; Recommendations of the International Union of Geological Sciences. In Subcommission on the Systematics of Igneous rocks. Cambridge University Press.
Tanzania
 
  • Arusha region
    • Ngorongoro District
[Nephelinite] Dawson, J. B. (1998). Peralkaline nephelinite–natrocarbonatite relationships at Oldoinyo Lengai, Tanzania. Journal of Petrology, 39(11-12), 2077-2094.
[Nephelinite] Zaitsev, A. N., Marks, M. A. W., Wenzel, T., Spratt, J., Sharygin, V. V., Strekopytov, S., & Markl, G. (2012). Mineralogy, geochemistry and petrology of the phonolitic to nephelinitic Sadiman volcano, Crater Highlands, Tanzania. Lithos, 152, 66-83.
Thailand
 
[Nephelinite] Barr, S. M., & Charusiri, P. U. N. Y. A. (2011). Volcanic rocks. In: Ridd, M.F., Barber, A.J. & Crow, M.J. (eds) The Geology of Thailand. Geological Society, London, 415-439. Barr, S. M., & James, D. E. (1990). Trace element characteristics of Upper Cenozoic basaltic rocks of Thailand, Kampuchea and Vietnam. Journal of Southeast Asian Earth Sciences, 4(3), 233-242. Barr, S. M., & MacDonald, A. S. (1978). Geochemistry and petrogenesis of Late Cenozoic alkaline basalts of Thailand. Geological Society of Malaysia Bulletin, 10, 25-52. Barr, S. M., & MacDonald, A. S. (1981). Geochemistry and geochronology of late Cenozoic basalts of Southeast Asia: Summary. Geological Society of America Bulletin, 92, Part I, 508-512; Part II, 1069-1142. Sutthirat, C., Saminpanya, S., Droop, G. T. R., Henderson, C. M. B., & Manning, D. A. C. (2001). Clinopyroxene-corundum assemblages from alkali basalt and alluvium, eastern Thailand: constraints on the origin of Thai rubies. Mineralogical Magazine, 65, 277-295. Promprated, P., Taylor, L. A., & Neal, C. R. (2003). Petrochemistry of mafic granulite xenoliths from the Chantaburi basaltic field: implications for the nature of the lower crust beneath Thailand. International Geology Review, 45(5), 383-406.
Turkey
 
  • Afyon Province
[Foidite] Akal, C. (2003). Mineralogy and geochemistry of melilite leucitites, Balçıkhisar, Afyon (Turkey). Turkish Journal of Earth Sciences, 12(3), 215-239. Akal, C. (2008). K-richterite–olivine–phlogopite–diopside–sanidine lamproites from the Afyon volcanic province, Turkey. Geological Magazine, 145(4), 570-585. Aydar, E., Bayhan, H., & Gourgaud, A. (2003). The lamprophyres of Afyon stratovolcano, western Anatolia, Turkey: description and genesis. Comptes Rendus Geoscience, 335(3), 279-288. Besang, C., Eckhardt, F. J., Harre, W., Kreuzer, G., & Müller, P. (1977). Radiometrische Alterbestimmungen an neogenenen Eruptivgesteinen der Turkei: Geologisches Jahrbuch, B25, 3-36. Francalanci, L., Innocenti, F., Manetti, P., & Savasçin, M. Y. (2000). Neogene alkaline volcanism of the Afyon-Isparta area, Turkey: petrogenesis and geodynamic implications. Mineralogy and Petrology, 70(3-4), 285-312. Keller, J., & Villari, L. (1972). Rhyolitic ignimbrites in the region of Afyon (Central Anatolia). Bulletin Volcanologique, 36(2), 342-358. Lefevre, C., Bellon, H., & Poisson, A. (1983). Presence de leucitites dans le volcanisme Pliocene de la region d'Isparta (Taurides Occidentales, Turquie). Comptes-rendus des séances de l'Académie des sciences. Série 2, Mécanique-physique, chimie, sciences de l'univers, sciences de la terre, 297(4), 367-372.
  • Amasya Province
    • Amasya City
[Leucitite] Eyuboglu, Y., Chung, S. L., Santosh, M., Dudas, F. O., & Akaryalı, E. (2011). Transition from shoshonitic to adakitic magmatism in the Eastern Pontides, NE Turkey: implications for slab window melting. Gondwana Research, 19(2), 413-429. Gülmez, F., Genç, Ş. C., Prelević, D., Tüysüz, O., Karacik, Z., Roden, M. F., & Billor, Z. (2016). Ultrapotassic volcanism from the waning stage of the Neotethyan subduction: a key study from the Izmir–Ankara–Erzincan Suture Belt, Central Northern Turkey. Journal of Petrology, 57(3), 561-593.
  • Bayburt Province
    • Bayburt
[Leucitite] Altherr, R., Topuz, G., Siebel, W., Şen, C., Meyer, H. P., Satır, M., & Lahaye, Y. (2008). Geochemical and Sr–Nd–Pb isotopic characteristics of Paleocene plagioleucitites from the eastern Pontides (NE Turkey). Lithos, 105(1-2), 149-161. Eyuboglu, Y., Chung, S. L., Santosh, M., Dudas, F. O., & Akaryalı, E. (2011). Transition from shoshonitic to adakitic magmatism in the Eastern Pontides, NE Turkey: implications for slab window melting. Gondwana Research, 19(2), 413-429.
  • Burdur Province
    • Bucak District
[Leucitite] Çoban, H., & Flower, M. F. (2006). Mineral phase compositions in silica-undersaturated ‘leucite’lamproites from the Bucak area, Isparta, SW Turkey. Lithos, 89(3-4), 275-299. Çoban, H., & Flower, M. F. (2007). Late Pliocene lamproites from Bucak, Isparta (southwestern Turkey): implications for mantle ‘wedge’evolution during Africa-Anatolian plate convergence. Journal of Asian Earth Sciences, 29(1), 160-176. Fritschle, T., Prelević, D., Foley, S. F., & Jacob, D. E. (2013). Petrological characterization of the mantle source of Mediterranean lamproites: indications from major and trace elements of phlogopite. Chemical Geology, 353, 267-279. Prelević, D., Akal, C., Foley, S. F., Romer, R. L., Stracke, A., & Van Den Bogaard, P. (2012). Ultrapotassic mafic rocks as geochemical proxies for post-collisional dynamics of orogenic lithospheric mantle: the case of southwestern Anatolia, Turkey. Journal of Petrology, 53(5), 1019-1055. Lefevre, C., Bellon, H., & Poisson, A. (1983). Presence de leucitites dans le volcanisme Pliocene de la region d'Isparta (Taurides Occidentales, Turquie). Comptes-rendus des séances de l'Académie des sciences. Série 2, Mécanique-physique, chimie, sciences de l'univers, sciences de la terre, 297(4), 367-372.
UK
 
  • Scotland
    • Argyll and Bute
      • Isle of Mull
[Nephelinite] Upton, B. G. J., Aspen, P., Rex, D. C., Melcher, F., & Kinny, P. (1998). Lower crustal and possible shallow mantle samples from beneath the Hebrides: evidence from a xenolithic dyke at Gribun, western Mull. Journal of the Geological Society, 155(5), 813-828. doi.org/10.1144/gsjgs.155.5.0813
    • Outer Hebrides
[Nephelinite] Ferguson, A. K. (1978). The crystallization of pyroxenes and amphiboles in some alkaline rocks and the presence of a pyroxene compositional gap. Contributions to Mineralogy and Petrology, 67(1), 11-15. doi.org/10.1007/BF00371628 Hawkes, J. R., Merriman, R. J., Harding, R. R., & Darbyshire, D. P. F. (1975). Expeditions to Rockall 1971–1972. Institute of Geological Sciences, Report, 75/1, 11-49. Hitchen, K., Morton, A. C., Mearns, E. W., Whitehouse, M., & Stoker, M. S. (1997). Geological implications from geochemical and isotopic studies of Upper Cretaceous and Lower Tertiary igneous rocks around the northern Rockall Trough. Journal of the Geological Society, 154(3), 517-521. doi.org/10.1144/gsjgs.154.3.0517 Judd, J.W. 1897. On the petrology of Rockall. Transactions of the Royal Irish Academy, 31, 48-58. Miller, J. A., & Mohr, P. A. (1965). Potassium-argon age determinations on rocks from St Kilda and Rockall. Scottish Journal of Geology, 1(1), 93-99. doi.org/10.1144/sjg01010093 Waagstein, R., & Morton, A. C. (1989). Highly Alkaline Lapilli Tuffs from Rosemary Bank: Evidence for Continental Lithosphere Beneath the Northern Part of the Rockall Trough.Terra Abstracts, 1, 31-32. Young, B. R., Hawkes, J. R., Merriman, R. J., & Styles, M. T. (1978). Bazirite, BaZrSi 3 O 9, a new mineral from Rockall Island, Inverness-shire, Scotland. Mineralogical Magazine, 42(321), 35-40. doi.org/10.1180/minmag.1978.042.321.04
United States Minor Outlying Islands
 
[Nephelinite] Natland, J. H., & JH, N. (1976). PETROLOGY OF VOLCANIC ROCKS DREDGED FROM SEAMOUNTS IN THE LINE ISLANDS. Initial Reports of the Deep Sea Drilling Project, 33. US Government Printing Office, Washington, DC, 749-777. Schlanger, S. O., Garcia, M. O., Keating, B. H., Naughton, J. J., Sager, W. W., Haggerty, J. A., ... & Duncan, R. A. (1984). Geology and geochronology of the Line Islands. Journal of Geophysical Research: Solid Earth, 89(B13), 11261-11272. doi.org/10.1029/JB089iB13p11261
USA
 
  • Hawaii
    • Hawaii County
      • Kilauea Volcano
[Nephelinite] Sisson, T. W., Lipman, P. W., & Naka, J. (2002). Submarine alkalic through tholeiitic shield-stage development of Kīlauea volcano, Hawai'i. GMS, 128, 193-219. Coombs, M. L., Sisson, T. W., & Lipman, P. W. (2006). Growth history of Kilauea inferred from volatile concentrations in submarine-collected basalts. Journal of Volcanology and Geothermal Research, 151(1-3), 19-49. doi.org/10.1016/j.jvolgeores.2005.07.037 Kimura, J. I., Sisson, T. W., Nakano, N., Coombs, M. L., & Lipman, P. W. (2006). Isotope geochemistry of early Kilauea magmas from the submarine Hilina bench: The nature of the Hilina mantle component. Journal of Volcanology and Geothermal Research, 151(1-3), 51-72. doi.org/10.1016/j.jvolgeores.2005.07.024 Calvert, A. T., & Lanphere, M. A. (2006). Argon geochronology of Kilauea's early submarine history. Journal of Volcanology and Geothermal Research, 151(1-3), 1-18. doi.org/10.1016/j.jvolgeores.2005.07.023
    • Honolulu County
[Nephelinite] CLAGUE, D. A., & FREY, F. A. (1982). Petrology and trace element geochemistry of the Honolulu Volcanics, Oahu: implications for the oceanic mantle below Hawaii. Journal of Petrology, 23(3), 447-504. doi.org/10.1093/petrology/23.3.447 Winchell, H. (1947). Honolulu Series, Oahu, Hawaii. Geological Society of America Bulletin, 58(1), 1-48. doi.org/10.1130/0016-7606(1947)58[1:HSOH]2.0.CO;2 MacDonald, G. A., & Katsura, T. (1964). Chemical composition of Hawaiian lavas. Journal of petrology, 5(1), 82-133. doi.org/10.1093/petrology/5.1.82 JACKSON, E. D., & WRIGHT, T. L. (1970). Xenoliths in the Honolulu volcanic series, Hawaii. Journal of Petrology, 11(2), 405-433. doi.org/10.1093/petrology/11.2.405 Sen, G., & Leeman, W. P. (1991). Iron-rich lherzolitic xenoliths from Oahu: origin and implications for Hawaiian magma sources. Earth and Planetary Science Letters, 102(1), 45-57. doi.org/10.1016/0012-821X(91)90016-B Bailey, D.K. 2010. New forms of carbonate volcanism: what to look for and where. Paper presented at the 20th General Meeting of the International Mineralogical Association, 21-27 August, 2010, Budapest, Hungary. Acta Mineralogica-Petrographica, Abstract Series, 6, 558.
    • Kauai County
[Nephelinite] Garcia, M. O., Frey, F. A., & Grooms, D. G. (1986). Petrology of volcanic rocks from Kaula Island, Hawaii. Contributions to Mineralogy and Petrology, 94(4), 461-471. doi.org/10.1007/BF00376339 Garcia, M. O., & Presti, A. A. (1987). Glass in garnet pyroxenite xenoliths from Kaula Island, Hawaii: Product of infiltration of host nephelinite. Geology, 15(10), 904-906. doi.org/10.1130/0091-7613(1987)15<904:GIGPXF>2.0.CO;2 Garcia, M. O., Frey, F. A., & Grooms, D. G. (1986). Petrology of volcanic rocks from Kaula Island, Hawaii. Contributions to Mineralogy and Petrology, 94(4), 461-471. doi.org/10.1007/BF00376339 Garcia, M. O., & Presti, A. A. (1987). Glass in garnet pyroxenite xenoliths from Kaula Island, Hawaii: Product of infiltration of host nephelinite. Geology, 15(10), 904-906. doi.org/10.1130/0091-7613(1987)15<904:GIGPXF>2.0.CO;2
      • Niihau island
[Nephelinite] Macdonald, G. A. (1947). Petrography of Niihau. Hawaii Division of Hydrography Bulletin, 12, 39-51. Hinds, N. E. (1925). Melilite and nephelite basalt in Hawaii. The Journal of Geology, 33(5), 526-539. doi.org/10.1086/623217 Stearns, H. T. (1947). Geology and ground-water resources of the island of Niihau, Hawaii. Hawaii Division of Hydrography Bulletin, 12, 3-38. Dixon, J., Clague, D. A., Cousens, B., Monsalve, M. L., & Uhl, J. (2008). Carbonatite and silicate melt metasomatism of the mantle surrounding the Hawaiian plume: Evidence from volatiles, trace elements, and radiogenic isotopes in rejuvenated‐stage lavas from Niihau, Hawaii. Geochemistry, Geophysics, Geosystems, 9, Q09005 doi.org/10.1029/2008GC002076 Washington, H. S., & Keyes, M. G. (1926). Petrology of the Hawaiian Islands, V; The Leeward Islands. American Journal of Science, (70), 336-352. doi.org/10.2475/ajs.s5-12.70.336 Cousens, B. L., & Clague, D. A. (2015). Shield to rejuvenated stage volcanism on Kauai and Niihau, Hawaiian Islands. Journal of Petrology, 56(8), 1547-1584. doi.org/10.1093/petrology/egv045
    • Maui County
      • Maui Island
[Nephelinite] Macdonald, G. A. (1949). Hawaiian petrographic province. Geological Society of America Bulletin, 60(10), 1541-1596. doi.org/10.1130/0016-7606(1949)60[1541:HPP]2.0.CO;2 MacDonald, G. A., & Katsura, T. (1964). Chemical composition of Hawaiian lavas. Journal of petrology, 5(1), 82-133. doi.org/10.1093/petrology/5.1.82 Hinds, N. E. (1925). Melilite and nephelite basalt in Hawaii. The Journal of Geology, 33(5), 526-539. doi.org/10.1086/623217
Vietnam
 
  • Lai Châu Province
    • Tam Đường District
[leucitophyre] Polyakov, G.V., Nguyen, T.Y. et al. 1997. The new data from ultrapotassic basic rocks in northern Vietnam - cocite. Russian Geology and Geophysics, 38, 148-158. Lacroix, A. (1933). Contribution à la connaissance de la composition chimique et minéralogique des roches éruptives de l'Indochine. Service géologique de l'Indochine. Thi, T. N., Wada, H., Ishikawa, T., & Shimano, T. (2014). Geochemistry and petrogenesis of carbonatites from South Nam Xe, Lai Chau area, northwest Vietnam. Mineralogy and Petrology, 108(3), 371-390.
  • Yên Bái Province
    • Văn Chấn District
[Foidite] Tran, H. T., Polyakov, G. V., Tran, A. T., Borisenko, A. S., Izokh, A. E., Balykin, P. A., ... & Pham, D. T. (2016). Intraplate magmatism and metallogeny of North Vietnam. Springer International Publishing. Tran, T. H., Lan, C. Y., Usuki, T., Shellnutt, J. G., Pham, T. D., Tran, T. A., ... & Borisenko, A. S. (2015). Petrogenesis of Late Permian silicic rocks of Tu Le basin and Phan Si Pan uplift (NW Vietnam) and their association with the Emeishan large igneous province. Journal of Asian Earth Sciences, 109, 1-19. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.234. Usuki, T., Lan, C. Y., Tran, T. H., Pham, T. D., Wang, K. L., Shellnutt, G. J., & Chung, S. L. (2015). Zircon U–Pb ages and Hf isotopic compositions of alkaline silicic magmatic rocks in the Phan Si Pan-Tu Le region, northern Vietnam: identification of a displaced western extension of the Emeishan Large Igneous Province. Journal of Asian Earth Sciences, 97, 102-124.
 
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