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Exotic crystalline igneous rock

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About Exotic crystalline igneous rockHide

Igneous rocks that mostly do not fit into the standard QAPF, TAS and ultramafic diagrams. Commonly highly alkaline.


Classification of Exotic crystalline igneous rockHide

Sub-divisions of Exotic crystalline igneous rockHide

Internet Links for Exotic crystalline igneous rockHide

Localities for Exotic crystalline igneous rockHide

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.
Afghanistan
 
  • Ghazni
[Carbonatite] Vikhter, B. Y., Yeremenko, G. K., & Chmyrev, V. M. (1976). A young volcanogenic carbonatite complex in Afghanistan. International Geology Review, 18(11), 1305-1312.
  • Helmand
    • Dushan District
      • Khanneshin complex
[Søvite] Vikhter, B. Y., Yeremenko, G. K., & Chmyrev, V. M. (1976). A young volcanogenic carbonatite complex in Afghanistan. International Geology Review, 18(11), 1305-1312. Mars, J. C., & Rowan, L. C. (2011). ASTER spectral analysis and lithologic mapping of the Khanneshin carbonatite volcano, Afghanistan. Geosphere, 7(1), 276-289.
  • Nangarhar
    • Khogyani District
      • Spin Ghar range (Speen Ghar range)
[Søvite] Kempe, D. R. C., & Jan, M. Q. (1980). The Peshawar plain alkaline igneous province, NW Pakistan. University of Peshawar. Geological Bulletin, University of Peshawar, 13, 71-77
Algeria
 
  • Tindouf Province
[Minette] http://www.portergeo.com.au/database/mineinfo.asp?mineid=mn1027
Angola
 
  • Huambo Province
    • Bailundo City Council
[Carbonatite] Castellano Calvo A, Melgarejo Draper J C, Kamenetsky V, Kamenetsky M (2014) Natrocarbonatite composition of melt inclusions from Bailundo and Longonjo carbonatites (Angola). 21 st meeting of the International Mineralogical Association. p 249
    • Londuimbali City Council
[Calcite-carbonatite] Amores-Casals, S.; Gonçalves, A.O.; Melgarejo, J.-C.; Molist, J.M. (2020) Nb and REE Distribution in the Monte Verde Carbonatite–Alkaline–Agpaitic Complex (Angola). Minerals 10, 5.
    • Longonjo City Council
[Carbonatite] Castellano Calvo A, Melgarejo Draper J C, Kamenetsky V, Kamenetsky M (2014) Natrocarbonatite composition of melt inclusions from Bailundo and Longonjo carbonatites (Angola). 21 st meeting of the International Mineralogical Association. p 249
  • Huíla Province
    • Lubango City Council
[Turjaite] Amores-Casals, S., Melgarejo, J. C., Bambi, A., Gonçalves, A. O., Morais, E. A., Manuel, J., ... & Molist, J. M. (2019). Lamprophyre-Carbonatite Magma Mingling and Subsolidus Processes as Key Controls on Critical Element Concentration in Carbonatites—The Bonga Complex (Angola). Minerals, 9(10), 601.
  • Lunda Norte Province
[Kimberlite] From description
    • Chicapa River
[Kimberlite] http://www.portergeo.com.au/database/mineinfo.asp?mineid=mn948; Milesi, J. P., Toteu, S. F., Deschamps, Y., Feybesse, J. L., Lerouge, C., Cocherie, A., ... & Nicol, N. (2006). An overview of the geology and major ore deposits of Central Africa: Explanatory note for the 1: 4,000,000 map “Geology and major ore deposits of Central Africa”. Journal of African Earth Sciences, 44(4-5), 571-595.
  • Lunda Sul Province
[Kimberlite] Coakley, George J. "The mineral industry of Angola." Minerals Yearbook. Volume III. Area Reports: International (2000).
[Kimberlite] Nikitina, L. P., Marin, Y. B., Skublov, S. G., Korolev, N. M., Saltykova, A. K., Zinchenko, V. N., & Chissupa, H. M. (2012). U-Pb age and geochemistry of zircon from mantle xenoliths of the Katoka and Kat-115 kimberlitic pipes (Republic of Angola). In Doklady Earth Sciences (Vol. 445, No. 1, pp. 840-844). MAIK Nauka/Interperiodica.
Antarctica
 
  • Eastern Antarctica
    • Enderby Land
[Lamproite] Grew, E. S. (2000). Beryllium in Granulite-Facies Pegmatites in Archean Napier Complex, Antarctica.
    • Mac Robertson Land
[Lamprophyric-pyroxene-calcite-biotite olivine-melilitite] Walker, K. R., & Mond, A. (1971). Mica lamprophyre (alnöite) from Radok Lake, Prince Charles Mountains, Antarctica. Australia. Department of National Development. Bureau of Mineral Resources, Geology and Geophysics, Record No. 1971/108
    • Queen Elizabeth Land
      • Pensacola Mountains
[Lamprophyre] Leat, P. T., Riley, T. R., Storey, B. C., Kelley, S. P., & Millar, I. L. (2000). Middle Jurassic ultramafic lamprophyre dyke within the Ferrar magmatic province, Pensacola Mountains, Antarctica. Mineralogical Magazine, 64(1), 95-111.
    • Queen Maud Land
      • Princess Astrid Coast
[Lamprophyre] Hoch, M. (1999). Geochemistry and petrology of ultramafic lamprophyres from Schirmacher Oasis, East Antarctica. Mineralogy and Petrology, 65(1-2), 51-67.
[Ijolite] Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 11
    • Victoria Land
      • Pipecleaner Glacier Region
[Ijolite] Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 15
[Lamprophyre] Yoshida, Y., Kaminuma, K., & Shiraishi, K. (1992). Recent progress in Antarctic earth science. Tokyo: Terra Sci Pub Com, 257-264
  • 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.
Australia
 
  • New South Wales
    • 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.
[Lamprophyre] 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.
    • Darling Co.
      • Barraba
[Chromitite] Brown, R.E., Brownlow, J.W., Krynen, J.P. (1992) Metallogenic Study and Mineral Deposit Data Sheets, Manilla-Narrabri 1:250 000 Metallogenic Map SH/56-9, SH/55-12. Geological Survey of New South Wales, Sydney, 319 pages.
    • Inglis Co.
      • Attunga
[Lamprophyre] Vickery, N., Leigh, J., & Oates, M. (2010) Attunga skarn project: Latest exploration findings and interpretations. New England Orogen 2010, 351.
[Lamprophyre] Brown, R.E., Brownlow, J.W., Krynen, J.P. (1992) Metallogenic Study and Mineral Deposit Data Sheets, Manilla-Narrabri 1:250 000 Metallogenic Map SH/56-9, SH/55-12. Geological Survey of New South Wales, Sydney, 319 pages.
    • Murchison Co.
[Chromitite] English, P., Ashley, P. (2010) The Doonba dunite deposit, Barraba, NSW. New England Orogen 2010, NEO 2010 Conference Proceedings, University of New England, 388 pages, at 146-149.
    • Sandon Co.
[Minette] Ashley, P.M., Creagh, C.J., Ryan, C.G. (2000) Invisible gold in ore and mineral concentrates from the Hillgrove gold-antimony deposits, NSW, Australia. Mineralium Deposita, 35, 285-301.
[Lamprophyre] Gilligan, L.B., Brownlow, J.W., Cameron, R.G., Henley, H.F. (1992) Metallogenic Study and Mineral Deposit Data Sheets: Dorrigo-Coffs Harbour 1:250 000 Metallogenic Map SH/56-10, SH/56-11. Geological Survey of New South Wales, Sydney, 509 pages.
[Lamprophyre] Gilligan, L.B., Brownlow, J.W., Cameron, R.G., Henley, H.F. (1992) Metallogenic Study and Mineral Deposit Data Sheets: Dorrigo-Coffs Harbour 1:250 000 Metallogenic Map SH/56-10, SH/56-11. Geological Survey of New South Wales, Sydney, 509 pages.
    • Yanda Co.
      • Tindarey
[Leucitite] Brocx, M, 2017, Heritage matters. The Australian geologist, 182, p.13-14
  • Northern Territory
    • Barkly Region
      • Hatches Creek
[Lamprophyre] Ryan, G.R. (1961), The Geology and Mineral Resources of the Hatches Creek Wolfram Field. Northern Territory, Department of National Development/Bureau of Mineral Resources Geology and Geophysics, Commonwealth of Australia, Bulletin No. 6, 1961
      • Tennant Creek
[Lamprophyre] Fox, K (1991), The Big Ben-TC8 Prospect, Roebuck Resources NL/North Flinders Mines, 1991; Ryan, G.R. (1959), Preliminary Geological Report on the Wheal Doria Area, Peko Mines NL, 1959; Owen, H.B. (1940), Report on the Tennant Creek Goldfield, BMR, May 1940;
[Lamprophyre] Mouchet, P. (1999) Annual Report for MCCs 315, 348-351, 888-895, 904-906, 969-972, 981-982 and MLCs 20, 328-337, 693 for the Period 1/8/97 to 25/3/99. Tennant Creek District, Northern Territory, Camelot Central Joint Venture 2, Occidental Reporting Group, Map Sheet No SE53-14, Volume 1 of 1, Normandy Tennant Creek Pty Ltd.
[Lamprophyre] Wyatt, J.D. (1972) Report on Diamond Drilling at the Giant Moon (M.L.429E) Tennant Creek - Northern Territory, for Veritas Mining Corporation Pty. Ltd, Geotechnics (Aust.) Pty. Ltd.
[Lamprophyre] Crohn, P.W., Oldershaw, W. (1965) The Geology of the Tennant Creek One-Mile Sheet Area, N.T. Department of National Development, Bureau of Mineral Resources, Geology and Geophysics, Commonwealth of Australia, Report No. 83. Owen, H.B. (1940) Report on the Tennant Creek Goldfield, Bureau of Mineral Resources Geology and Geophysics, Commonwealth of Australia. Ryan, G.R. (1959) Preliminary Geological Report on the Wheal Doria Area Tennant Creek, Peko Mines N.L.
[Lamprophyre] Pearson, J. (1989) MCC's 622 to 624 "Hidden Mystery South". Summary Report on Exploration for the Period Ending 1st March 1989, Geological 1:250,000 Tennant Creek Sheet. Metana Minerals N.L. / Centralfield Minerals Joint Venture. Wright, P. (1989) MLC 508 "Hidden Mystery". Summary Report on Exploration for the Period Ending 8th March 1989, Geological 1:250,000 Tennant Cree Sheet. Metana Minerals N.L. / Top End Resources Joint Venture. Mackie, A. (1992) EL 5706 Mystery Final Report, Tennat Creek 1:250,000 Sheet Area. Roebuck Resources NL / Centralfield Minerals Pty Ltd Joint Venture Tennant Creek. Technical Report No. 267.
[Lamprophyre] Johnson, D. (1989) Asarco Australia Ltd, Tennant Creek Project, Mammoth Prospect, Mineral Claims C482-484, 514-518, Annual Report to the N.T. Department of Mines and Energy.
[Lamprophyre] Crohn, P.W., Oldershaw, W. (1965) The Geology of the Tennant Creek One-Mile Sheet Area, N.T. Department of National Development, Bureau of Mineral Resources, Geology and Geophysics, Commonwealth of Australia, Report No. 83. Owen, H.B. (1940) Report on the Tennant Creek Goldfield, Bureau of Mineral Resources Geology and Geophysics, Commonwealth of Australia. Ryan, G.R. (1959) Preliminary Geological Report on the Wheal Doria Area Tennant Creek, Peko Mines N.L.
[Lamprophyre] Barclay, J. (1964) Geology and Diamond Drilling at the Pinnacles Mine, Tennant Creek, Northern Territory, Department of National Development. Bureau of Mineral Resources Geology and Geophysics, Commonwealth of Australia, Record 1964/90.
[Lamprophyre] Haddock, D. (1974) Diamond Drilling Programme IV. TC8 Prospect, E.L. 357 "Eldorado", Warramunga Goldfield, N.T. Aquitaine Australia Minerals Pty. Ltd.
  • Queensland
    • Charters Towers Region
      • McBride Province
[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.
  • South Australia
    • Flinders Ranges
      • South Flinders Ranges
        • Carrieton
[Kimberlite] Automatically generated from locality name
        • Eurelia
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
    • Olary Province
      • Pandappa
[Kimberlite] Automatically generated from locality name
  • Tasmania
    • Central Highlands municipality
      • Derwent Bridge
[Olivine-melilitite] Bottrill, R. S. & Baker, W. E. (2008): A Catalogue of the Minerals of Tasmania. Geological Survey Bulletin 73, Mineral Resources Tasmania, 254 pp.
      • Interlaken
[Melilitite] Bottrill, R. S. & Baker, W. E. (2008): A Catalogue of the Minerals of Tasmania. Geological Survey Bulletin 73, Mineral Resources Tasmania, 254 pp.
[Melilitite] 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.
  • Western Australia
    • Carnarvon Shire
      • Wandagee Station
[Monchiquite] Department of Mines Western Australia (1990), Geology and Mineral Resources of Western Australia, Geological Survey of Western Australia, Department of Mines Western Australia, State Government of Western Australia, 1990
    • Derby-West Kimberley Shire
      • Calwynyardah Station
[Lamproite] Department of Mines Western Australia (1990), Geology and Mineral Resources of Western Australia, Geological Survey of Western Australia, Department of Mines Western Australia, State Government of Western Australia, 1990
      • Ellendale
[Lamproite] Trendall, A.F., et.al. (eds.) (1990) Geology and Mineral Resources of Western Australia. Western Australia Geological Survey, Memoir 3, 827 pages.
[Lamproite] Jaques, A.L., Lewis, J.D., Smith, C.B. (1986) The kimberlites and lamproites of Western Australia. Geological Survey of Western Australia, Bulletin No. 132, 268 pages.
[Lamproite] Jaques, A.L., Lewis, J.D., Smith, C.B. (1986) The kimberlites and lamproites of Western Australia. Geological Survey of Western Australia, Bulletin No. 132, 268 pages and maps.
[Lamproite] Jaques A.L., Lewis, J.D., Smith, C.B. (1986) The Kimberlites and Lamproites of Western Australia. Geological Survey of Western Australia, Bulletin 132, 268 pages plus maps.
[Lamproite] Jaques et al.(1986): The Kimberlites and Lamproites of Western Australia, Geological Survey of Western Australia (1986)
[Lamproite] Fetherston, J.M., Stocklmayer, S.M., Stocklmayer, V.C. (2013) Gemstones of Western Australia. Geological Survey of Western Australia, Mineral Resources Bulletin 25, 306 pages, at p.28.
[Lamproite] Fetherston, J.M., Stocklmayer, S., Stocklmayer V.C.(2013): Gemstones of Western Australia-mineral resources bulletin 25, Geological Survey of Western Australia (2013): 28
[Lamproite] Jaques, A.L., Lewis, J.D., Smith, C.B. (1986) The kimberlites and lamproites of Western Australia. Geological Survey of Western Australia, Bulletin No. 132, 268 pages.
[Lamproite] Department of Mines Western Australia (1990), Geology and Mineral Resources of Western Australia, Geological Survey of Western Australia, Department of Mines Western Australia, State Government of Western Australia, 1990
[Lamproite] Department of Mines Western Australia (1990), Geology and Mineral Resources of Western Australia, Geological Survey of Western Australia, Department of Mines Western Australia, State Government of Western Australia, 1990
[Diopside-leucite-phlogopite lamproite] Prider, r.(1982): A Glassy Lamproite from the West Kimberley Area Western Australia, Mineralogical Magazine(1982):45: 279-282; Prider, R.(1982): A Glassy Lamproite from the West Kimberley Area Western Australia, Mineralogical Magazine (1982):45: 279-282
      • Fitzroy Crossing
[Lamproite] Jaques et al.(1986): The Kimberlites and Lamproites of Western Australia, Geological Survey of Western Australia
[Lamproite] Jaques A.L., Lewis, J.D., Smith, C.B. (1986) The Kimberlites and Lamproites of Western Australia. Geological Survey of Western Australia, Bulletin 132, 268 pages plus maps.
[Lamproite] Jacques et al.(1986): The Kimberlites and Lamproites of Western Australia, Geological Survey of Western Australia (1986)
[Lamproite] Reference: The Kimberlites and Lamproites of Western Australia by Jaques et al, published by the GSWA 1986.
      • Noonkanbah Station
[Lamproite] Department of Mines Western Australia (1990), Geology and Mineral Resources of Western Australia, Memoir 3, Geological Survey of Western Australia, Department of Mines Western Australia, State Government of Western Australia, 1990 ; Automatically generated from locality name; Jaques, A. L. (2017) The Walgidee Hills zoned lamproite intrusion, West Kimberley Province, Western Australia. 11th International Kimberlite Conference Extended Abstract No. 11IKC-4489
[Lamproite] Jaques, A.L., Lewis. J.D., Smith, C.B. (1986) The kimberlites and lamproites of Western Australia. Geological Society of Western Australia, Bulletin No. 132, 268p and maps.
[Lamproite] Jaques, A.L., Lewis. J.D., Smith, C.B. (1986) The kimberlites and lamproites of Western Australia. Geological Society of Western Australia, Bulletin No. 132, 268p and maps.
[Lamproite] Jaques, A.L., Lewis. J.D., Smith, C.B. (1986) The Kimberlites and Lamproites of Western Australia. Geological Society of Western Australia, Bulletin No. 132, 268p and maps.
[Lamproite] Jaques et al. (1986): The Kimberlites and Lamproites of Western Australia, Geological Society of Western Australia (1986)
[Lamproite] Jaques, A.L., Lewis. J.D., Smith, C.B. (1986) The Kimberlites and Lamproites of Western Australia. Geological Society of Western Australia, Bulletin No. 132, 268p and maps.
[Lamproite] Jaques, A.L., Lewis. J.D., Smith, C.B. (1986) The Kimberlites and Lamproites of Western Australia. Geological Society of Western Australia, Bulletin No. 132, 268p and maps.
[Lamproite] Jaques, A.L., Lewis. J.D., Smith, C.B. (1986) The Kimberlites and Lamproites of Western Australia. Geological Society of Western Australia, Bulletin No. 132, 268p and maps.
[Lamproite] Jaques, A.L., Lewis. J.D., Smith, C.B. (1986) The Kimberlites and Lamproites of Western Australia. Geological Society of Western Australia, Bulletin No. 132, 268p and maps.
[Lamproite] Jaques, A.L., Lewis. J.D., Smith, C.B. (1986) The Kimberlites and Lamproites of Western Australia. Geological Society of Western Australia, Bulletin No. 132, 268p and maps.
    • East Pilbara Shire
      • Kiwirrkurra community
[Kimberlite] http://www.meteoric.com.au/; Brent McInnes, Prok Vasilyev, Tom Reddicliffe (2018) Diamonds and other kimberlitic minerals from the Webb Kimberlite Field, Western Australia. in abstracts of the 22nd IMA Meeting Melbourne p 136
      • Marble Bar
[Kimberlite] Fetherston, J.M., Stocklmayer, S., Stocklmayer, V.C.(2013): Gemstones of Western Australia- mineral resources bulletin 25, Geological Survey of Western Australia (2013): 32
    • Esperance Shire
      • Dundas Nature Reserve
[Lamprophyre] Department of mines; Department of Mines Western Australia (1990), Geology and Mineral Resources of Western Australia, Geological Survey of Western Australia, Department of Mines Western Australia, State Government of Western Australia, 1990
    • Halls Creek Shire
      • Lamboo Station
        • Mount Dockrell pegmatites (Mount Dockerell)
[Dolomite-carbonatite] Downes, P. J., Dunkley, D. J., Fletcher, I. R., McNaughton, N. J., Rasmussen, B., Jaques, A. L., ... & Sweetapple, M. T. (2016). Zirconolite, zircon and monazite-(Ce) U-Th-Pb age constraints on the emplacement, deformation and alteration history of the Cummins Range Carbonatite Complex, Halls Creek Orogen, Kimberley region, Western Australia. Mineralogy and Petrology, 110(2-3), 199-222.
    • Kalgoorlie-Boulder Shire
      • Kalgoorlie-Boulder
        • Golden Mile Mines
[Kersantite] Mueller, A. G., & Muhling, J. R. (2019). Early pyrite and late telluride mineralization in vanadium-rich gold ore from the Oroya Shoot, Paringa South mine, Golden Mile, Kalgoorlie: 3. Ore mineralogy, Pb-Te (Au-Ag) melt inclusions, and stable isotope constraints on fluid sources. Mineralium Deposita, 1-34.
    • Laverton Shire
      • Mount Weld Station
[Carbonatite] Fetherston, J.M. (2004), Tantalum in Western Australia, Mineral Resources Bulletin 22, GSWA, 02 April 2004
    • Wyndham-East Kimberley Shire
      • Carson River Station
[Kimberlite] Fetherston, J.M., Stocklmayer, S., Stocklmayer, V.C(2013): Gemstones of Western Australia-mineral resources bulletin 25, Geological Survey of Western Australia (2013): 26
      • Kachana Station
[Carbonatite] Alvin, M. P., Dunphy, J. M., & Groves, D. I. (2004) Nature and genesis of a carbonatite-associated fluorite deposit at Speewah, East Kimberley region, Western Australia. Mineralogy and Petrology, 80(3-4), 127-153.
[Kimberlite] Jaques A.L., Lewis, J.D., Smith, C.B. (1986) The Kimberlites and Lamproites of Western Australia, Geological Survey of Western Australia.
      • Lake Argyle area
[Lamproite] Grant Boxer, Geologist, Argyle Diamond Mine, from 1979 to 1989 ; Rayner, M. J., Moss, S. W., Lorenz, V., Jaques, A. L., Boxer, G. L., Smith, C. B., & Webb, K. (2018). New insights into volcanic processes from deep mining of the southern diatreme within the Argyle lamproite pipe, Western Australia. Mineralogy and Petrology, 1-13.
[Lamproite] Fetherston, J.M., Stocklmayer, S., Stocklmayer, V.C.(2013): Gemstones of Western Australia-mineral resources bulletin 25, Geological Survey of Western Australia (2013): 24
      • Mount Barnett Station
[Kimberlite] Fetherston, J.M., Stocklmayer, S, Stocklmayer, V.C.(2013): Gemstones of Western Australia- mineral resources bulletin 25, Geological Survey of Western Australia(2013): 24
Austria
 
  • Styria
    • Leoben District
      • Sankt Stefan ob Leoben
        • Mitterberg
[Chromitite] Malitch, K. N., & Knauf, V. V. (2002). Diversity of PGM assemblages at Kraubath: a case study of mantle-derived chromitites from the Eastern Alps, Austria. In 9th International Platinum Symposium (Abstracts).
Bailiwick of Guernsey
 
[Lamprophyre] Encyclopedia of European and Asian Regional Geology by Eldridge M. Moores, Rhodes Whitmore Fairbridge, Published 1997 by Springer pp 276–277.
Bolivia
 
  • Cochabamba
    • Ayopaya Province
[Ferrocarbonatite] Federico Ahlfeld
      • Independencia
[Ferrocarbonatite] Field observations by Dr Jaroslav Hyrsl and Alfredo Petrov.
[Kimberlite] Automatically generated from locality name
Botswana
 
  • Central District
    • Letlhakane
      • Orapa
[Kimberlite] Automatically generated from locality name; Anashkin, S. M., Bovkun, A. V., Litvin, Y. A., & Garanin, V. K. (2013, August). The Na-Mg-Fe-Ti oxide mineral in association with picroilmenite and freudenbergite from kimberlite of the AK8 pipe, Botswana (natural and experimental data). In Doklady Earth Sciences (Vol. 451, No. 2, pp. 849-854). Springer US.
[Kimberlite] http://www.portergeo.com.au/database/mineinfo.asp?mineid=mn933
[Kimberlite] O'Neil, P. (1983) Planet Earth - Gemstones. Time-Life Books, Arlington, Virginia, USA, 176 pages.
Brazil
 
  • Bahia
    • Campo Alegre de Lourdes
[Carbonatite] Automatically generated from locality name
[Chromitite] Garuti, G., Proenza, J. A., & Zaccarini, F. (2005). Platinum-group element distribution and mineralogy in altered chromitite of the Campo Formoso layered intrusion (Bahia state, Brazil). Geology & Petrology 82-85
    • Maracás
[Magnetitite] Sá, J. H. S., Barnes, S. J., Prichard, H. M., & Fisher, P. C. (2005). The distribution of base metals and platinum-group elements in magnetitite and its host rocks in the Rio Jacaré Intrusion, Northeastern Brazil. Economic Geology, 100(2), 333-348.
  • Goiás
[Carbonatite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name; Bilal, E., De Mello, F. M., Soubiès, F., & Bounakhla, M. (2012). REE minerals in Catalão II, Goias, Brazil. Romanian Journal of Mineral Deposits, 85(1), 14-18.
    • Niquelândia
[Chromitite] Garuti, G., Zaccarini, F., Proenza, J. A., Thalhammer, O. A., & Angeli, N. (2012). Platinum-group minerals in chromitites of the Niquelândia layered intrusion (Central Goias, Brazil): Their magmatic origin and low-temperature reworking during serpentinization and lateritic weathering. Minerals, 2(4), 365-384.
    • Santa Terezinha de Goiás district
      • Santa Terezinha de Goiás
[Chromitite] Automatically generated from locality name
  • Mato Grosso
[Kimberlite] Automatically generated from locality name
  • Minas Gerais
    • Araxá
      • Barreiro
[Lamprophyre] Gomide, C. S. (2015). Geoquímica e química mineral de carbonatitos e isótopos estáveis em carbonatitos da província ígnea do alto Paranaíba. PhD thesis University of Brasilia
    • Poços de Caldas alkaline complex
      • Caldas
        • Campo do Cercado
[Carbonatite] Waber, N., Schorscher, H. D., & Peters, T. (1992). Hydrothermal and supergene uranium mineralization at the Osamu Utsumi mine, Poços de Caldas, Minas Gerais, Brazil. Journal of Geochemical Exploration, 45(1-3), 53-112.
    • Serra do Salitre
[Carbonatite] Automatically generated from locality name
  • Pará
    • Carajás mineral province
      • Curionópolis
[Chromitite] Mansur, Eduardo & Ferreira Filho, Cesar. (2017). The Luanga deposit, Carajás Mineral Province, Brazil: the origin of different styles of PGE mineralization. 14th SGA Biennial Meeting, At Quebec City
  • Paraná
    • Cerro Azul
[Carbonatite] Automatically generated from locality name
  • Rio Grande do Sul
    • Lavras do Sul
[Carbonatite] https://mining-atlas.com/project/Tres-Estradas-Phosphate-Mine-Project.php
  • São Paulo
    • Cajati
[Carbonatite] Melcher, G. C. (1965). O carbonatito de Jacupiranga. Boletim da Faculdade de Filosofia Ciências e Letras, Universidade de São Paulo. Geologia, (21), 5-70.
    • Itapirapuã Paulista
[Carbonatite] Automatically generated from locality name
    • Registro
[Carbonatite] Automatically generated from locality name
  • Tocantins
    • São Salvador do Tocantins
[Spessartite] Queiroz, H. D. A. (2016) Sistema granítico: pegmatítico Mata Azul: caracterização e gênese. PhD Thesis. do Instituto de Geociências (IG) da Universidade de Brasília (UnB)
[Spessartite] Queiroz, H. D. A. (2016) Sistema granítico: pegmatítico Mata Azul: caracterização e gênese. PhD Thesis. do Instituto de Geociências (IG) da Universidade de Brasília (UnB)
Bulgaria
 
  • Kardzhali Province
    • Kirkovo
[Chromitite] González-Jiménez, J. M., Locmelis, M., Belousova, E., Griffin, W. L., Gervilla, F., Kerestedjian, T. N., ... & Sergeeva, I. (2015). Genesis and tectonic implications of podiform chromitites in the metamorphosed ultramafic massif of Dobromirtsi (Bulgaria). Gondwana Research, 27(2), 555-574.
Burundi
 
  • Kayanza Province
    • Matongo
[Calcite-carbonatite] http://www.portergeo.com.au/database/mineinfo.asp?mineid=mn1523
Cameroon
 
  • South-West Region
    • Buea
      • Cameroon Mt
[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.
Canada
 
  • Alberta
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
  • British Columbia
    • Atlin Mining Division
[Lamprophyre] Minfile Database (2017)
    • Fort Steele Mining Division
[Kimberlite] Automatically generated from locality name
    • Golden Mining Division
[Carbonatite] Dunning, G. E., Walstrom, R. E., & Lechner, W. (2018) Barium Silicate Mineralogy of the Western Margin, North American Continent, Part Geology, Origin, Paragenesis and Mineral Distribution from Baja California Norte, Mexico, Western Canada and Alaska, USA. Baymin Journal, Vol. 19, No. 5
[Carbonatite] Caudle, D. (2016). Mineralogy, geochemistry, and geochronology of the KIN property pegmatites in eastern British Columbia (Masters dissertation, University of British Columbia).
    • Kamloops Mining Division
      • Blue River carbonatites
[Carbonatite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name
    • Omenica Mining Division
      • Mansoon Lakes
[Søvite] BC Minfile
      • Wicheeda Lake
[Carbonatite] Automatically generated from locality name
  • Manitoba
[Chromitite] Hulbert, L. J., Duke, J. M., Eckstrand, O. R., Lydon, J. W., Scoates, R. F. J., Cabri, L. J., & Irvine, T. N. (1998) Geological Environments of Platinum Group elements. Geological Survey of Canada, Open File 1440. Natural Resources Canada.
[Chromitite] Mealin, C. A. (2005). Geological investigations of the Chrome property, Bird River Sill, southeastern Manitoba (NTS 52L5). Report of Activities, 146-149.
    • Thompson Nickel Belt
[Carbonatite] Chakhmouradian, A. R., Couëslan, C. G., & Reguir, E. P. (2009). Evidence for carbonatite magmatism at Paint Lake, Manitoba (parts of NTS 63O8, 63P5, 12). Report of Activities, 118-126.
  • Northwest Territories
    • Camsell Lake
[Kimberlite] https://www.mining-technology.com/projects/snap-lake/ (author, date - not given); M. C. Tappert, B. Rivard, A. Fulop, D. Rogge, J. Feng, R. Tappert, and R. Stalder (2015) Characterizing Kimberlite Dilution by Crustal Rocks at the Snap Lake Diamond Mine (Northwest Territories, Canada) using SWIR (1.90–2.36 μm) and LWIR (8.1–11.1 μm) Hyperspectral Imagery Collected from Drill Core. Economic Geology 110:1375-1387
    • Contwoyto Lake
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name; Northern Mineral Showings Database, NWT Geoscience Office.
    • Great Slave Lake
[Kimberlite] Automatically generated from locality name
[Kimberlite] Masun, K. M. (1999). The petrography and mineralogy of the Lac de Gras kimberlite field, Slave Province, Northwest Territories: A comparative study. Master of science, Department of Geology, Lakehead University.
      • Ekati Mine
[Kimberlite] Kamenetsky, V. S., Grütter, H., Kamenetsky, M. B., & Gömann, K. (2013). Parental carbonatitic melt of the Koala kimberlite (Canada): constraints from melt inclusions in olivine and Cr-spinel, and groundmass carbonate. Chemical Geology, 353, 96-111.
[Kimberlite] Webb, K. J., Hetman, C. M., Nowicki, T. E., Harrison, S., Carlson, J., Parson, S., & Paul, J. L. (2012, February). An updated geological model of the Misery kimberlite complex, EKATI mine, Northwest Territories, Canada. In International Kimberlite Conference: Extended Abstracts (Vol. 10).; Mustafa, J., Nowicki, T. E., Oshust, P., Dyck, D., Crawford, B., & Harrison, S. (2003, June). The geology of the Misery kimberlite, Ekati diamond mine, Canada. In International Kimberlite Conference: Extended Abstracts (Vol. 8).
[Kimberlite] Tappert, R., Stachel, T., Harris, J. W., & Shimizu, N. (2005). Mineral inclusions in diamonds from the Panda kimberlite, Slave Province, Canada. European Journal of Mineralogy, 17(3), 423-440.
      • Gahcho Kué mine
[Kimberlite] Caro, G., Kopylova, M. G., & Creaser, R. A. (2004). The hypabyssal 5034 kimberlite of the Gahcho Kue cluster, southeastern Slave craton, Northwest Territories, Canada: a granite-contaminated Group-I kimberlite. The Canadian Mineralogist, 42(1), 183-207.
    • Mazenod Lake District
[Carbonatite] Orris, G. J., & Grauch, R. I. (2002). Rare earth element mines, deposits and occurrences (Open file report 2-189). US Department of the Interior, US Geological Survey.
    • Yellowknife Pegmatite field
[Carbonatite] Northern Mineral Showings Database, NWT Geoscience Office.
  • Nunavut
    • Coppermine River area
[Chromitite] Hulbert, L. J., Duke, J. M., Eckstrand, O. R., Lydon, J. W., Scoates, R. F. J., Cabri, L. J., & Irvine, T. N. (1998) Geological Environments of Platinum Group elements. Geological Survey of Canada, Open File 1440. Natural Resources Canada.
    • Kitikmeot Region
      • Coronation Diamond District
[Kimberlite] Automatically generated from locality name; Johnson, C. N., Stachel, T., Muehlenbachs, K., Stern, R. A., & Armstrong, J. P. (2012). The micro-/macro-diamond relationship: A case study from the Artemisia kimberlite (Northern Slave Craton, Canada). Lithos, 148, 86-97.
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
[Kimberlite] Harris, G. A., Pearson, D. G., Liu, J., Hardman, M. F., Snyder, D. B., & Kelsch, D. (2018). Mantle composition, age and geotherm beneath the Darby kimberlite field, west central Rae Craton. Mineralogy and Petrology, 112(1), 57-70.
      • Pelly Bay
[Kimberlite] Ozyer, C. (2011) Ice-movement history and kimberlite indicator mineral dispersal study, Pelly Bay, lower Boothia Peninsula, and Wager Plateau areas, Nunavut, Canada. PhD thesis University of Western Ontario, London, Ontario, 226 pages.
[Kimberlite] Ozyer, C. (2011) Ice-movement history and kimberlite indicator mineral dispersal study, Pelly Bay, lower Boothia Peninsula, and Wager Plateau areas, Nunavut, Canada. PhD thesis University of Western Ontario, London, Ontario, 226 pages.
[Kimberlite] Ozyer, C. (2011) Ice-movement history and kimberlite indicator mineral dispersal study, Pelly Bay, lower Boothia Peninsula, and Wager Plateau areas, Nunavut, Canada. PhD thesis University of Western Ontario, London, Ontario, 226 pages.
    • Qikiqtaaluk Region
      • Somerset Island
[Kimberlite] Clarke, D. B., Chapman, C. A., MacKay, R. M., & Mitchell, R. H. (1994). Occurrence and origin of djerfisherite from the Elwin Bay kimberlite, Somerset Island, Northwest Territories. The Canadian Mineralogist, 32(4), 815-823.
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
  • Ontario
    • Algoma District
      • McMurray Township
[Carbonatite] Automatically generated from locality name
    • Cochrane District
      • Moosonee Town
[Carbonatite] Automatically generated from locality name
      • South of Ridge Lake Area
[Carbonatite] Automatically generated from locality name
    • Kenora District
      • Carb Lake Area
[Carbonatite] Automatically generated from locality name
[Lamprophyre] http://www.geologyontario.mndm.gov.on.ca/mndmfiles/afri/data/imaging/temp/2_57819/2_57819_10_DiamondDrillingReport_AkowLake2016.pdf
      • Victor mine
[Kimberlite] van Straaten, B. I., Kopylova, M. G., Russell, J. K., Webb, K. J., & Smith, B. H. S. (2008). Discrimination of diamond resource and non-resource domains in the Victor North pyroclastic kimberlite, Canada. Journal of Volcanology and Geothermal Research, 174(1), 128-138.
    • Nipissing District
      • Strathcona Township
[Carbonatite] Automatically generated from locality name
    • Sudbury District
      • Keith Township
[Kimberlite] Automatically generated from locality name
      • Lackner Township
[Carbonatite] Automatically generated from locality name
    • Thunder Bay District
      • Killala Lake Area
[Carbonatite] Automatically generated from locality name
      • O'Meara Township
[Carbonatite] Automatically generated from locality name
      • Obonga Lake Area
[Chromitite] Macdonald, A. J., & Cherry, M. E. (1988). The platinum group of elements in Ontario. Ministry of Northern Mines and Development, Mines and Minerals Division. Open File Report 5681
    • Timiskaming District
      • Bannockburn Township
[Lamprophyre] D. C. Harris, W. D. Sinclair, and R. I. Thorpe (1983) Telluride minerals from the Ashley Deposit, Bannockburn Township, Ontario. Can Mineral 21: 137-143
  • Québec
    • Abitibi-Témiscamingue
      • Témiscamingue RCM
        • Ville Marie
[Kimberlite] http://www.fieldexexploration.com/press-release/detail-49.html 2010
[Kimberlite] James St John, 2014, https://www.flickr.com/photos/jsjgeology/14637305027
    • Laurentides
      • Argenteuil RCM
[Carbonatite] Automatically generated from locality name
      • Deux-Montagnes RCM
        • Oka
[Okaite] Davidson, A. (1963) A study of okaite and associated rocks near Oka, Quebec. A thesis submitted in partial fulfilment of the requirements for the degree of master in science in the degree of geology. The university of British Columbia. 158 p.
    • Nord-du-Québec
      • Baie-James
        • Otish Mountains
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name
      • Nunavik
[Carbonatite] Automatically generated from locality name
    • Outaouais
      • Les Collines-de-l'Outaouais RCM
        • Chelsea
[Carbonatite] Hogarth, D. D. (2016). Chemical trends in the Meech Lake, Québec, carbonatites and fenites. The Canadian Mineralogist, 54(5), 1105-1128.
    • Saguenay-Lac-Saint-Jean
      • Le Fjord-du-Saguenay RCM
        • Saint-Honoré
[Carbonatite] Automatically generated from locality name
  • Saskatchewan
[Kimberlite] Masun, K. M. (1999). The petrography and mineralogy of the Lac de Gras kimberlite field, Slave Province, Northwest Territories: A comparative study. Master of science, Department of Geology, Lakehead University.
China
 
  • Fujian
    • Nanping
      • Pucheng County
[Carbonatite] Bai, G. & Yuan, Z. (1985). Carbonatites and related mineral resources. Bull. Inst. Miner. Deposits Chin. Acad. Geol. Sci., 13, 1-193. Su, Y. 1997. Geological characteristics and discussion of genesis of Yangdun P-Fe-Nb REE ore deposit, Fujian Province, China. Contributions to Geology and Mineral Resources Research, 12 (2), 1-20. Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575. Zhang, M., Suddaby, P., Thompson, R. N., Thirlwall, M. F., & Menzies, M. A. (1995). Potassic volcanic rocks in NE China: geochemical constraints on mantle source and magma genesis. Journal of Petrology, 36(5), 1275-1303.
    • 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.
  • Gansu
    • Longnan
      • Li County
[Kamafugite] Yu, X. H., Mo, X. X., Flower, M., Su, S. G., & Zhao, X. (2001). Cenozoic kamafugite volcanism and tectonic meaning in west Qinling area, Gansu province. Acta Petrologica Sinica, 17(3), 366-+. Xuehu, Y., ZlllDAN, Z. H. A. O., Xuanxue, M., Shangguo, S., DEQIN, Z., & Yonglei, W. (2003). The petrological and mineralogical characteristics of Cenozoic kamafugite and carbonatite association in West Qinling, Gansu province: China. Mineral, 72, 161-179. Zhao, Z., Zhang, H., Yu, X., Mo, X., & Depaolo, D. J. (2005). Cenozoic kamafugite in west Qinling, China: Age and geochemistry. Geochimica et Cosmochimica Acta Supplement, 69, A111.
  • Guangxi
    • Nanning
      • Heng County
[Carbonatite] Deng, X. & Cheng, Z. 2002. Discovery of metasomatic carbonatite and its significance in Mashan alkaline complex, Guangxi. Earth Science Frontiers, China University of Geosciences, Beijing, 9, 216.
  • Guizhou
    • Qiandongnan
      • Zhenyuan County
[Lamproite] HOUJUN, M., JIZU, T., XINGCHUN, Z., MINGKUN, W., & RUGANG, S. (1989). Ultrapotassic rocks in Qinghai-Xizang (Tibet) Plateau and adjacent areas and their tectonic circumstances. In Developments in geoscience. Chinese Academy of Sciences, contribution to international geological congress. 28 (pp. 119-128). Mei, H., Tang, C., Li, S., Li, Y., Zhang, X., Lu, D., & Zhang, L. (1998). Lamproites and kimberlites in China and the genesis of diamond deposit. Science in China Series D: Earth Sciences, 41(1), 83-92.
  • 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
    • Zhangjiakou
      • Yangyuan County
[Leucocratic nephelinolite] MOU, B., & YAN, G. (1992). Geological features of Triassic alkaline and subalkaline igneous complexes in the Yan-Liao area. ACTA GEOLOGICA SINICA-ENGLISH EDITION, 5(4), 339-355. Wu, L.R. (ed) The Studies of Alkaline Rocks from Several regions in China. Science Press, Beijing, 160. Feng-Jun, N., & Wu Cheng-Yu, W. (1998). Gold deposits related to alkaline igneous rocks in North China craton, People's Republic of China. Global Tectonics and Metallogeny, 159-172.
      • Zhuolu County
[Biotitite] Hou, T., Zhang, Z., Keiding, J. K., & Veksler, I. V. (2015). Petrogenesis of the ultrapotassic Fanshan intrusion in the North China Craton: implications for lithospheric mantle metasomatism and the origin of apatite ores. Journal of Petrology, 56(5), 893-918Jiang, N., Chu, X., Mizuta, T., Ishiyama, D., & Mi, J. (2004). A magnetite-apatite deposit in the Fanshan alkaline ultramafic complex, Northern China. Economic Geology, 99(2), 397-408. Mu, B., Jiang, P., Zeng, Y., & Yan, G. (1988). The Fanshan igneous complex and apatite–magnetite deposit in Hebei Province, China. Mu, B., Shao, J., Chu, Z., Yan, G., & Qiao, G. (2001). Sm–Nd age and Sr, Nd, and Pb isotopic compositions of the potassic–alkaline–ultramafic rock–syenite complex in Fanshan, Hebei Province. Acta Petrologica Sinica, 17, 358-365. Niu, X., Chen, B., Liu, A., Suzuki, K., & Ma, X. (2012). Petrological and Sr–Nd–Os isotopic constraints on the origin of the Fanshan ultrapotassic complex from the North China Craton. Lithos, 149, 146-158. Yan, G., Mu, B., Xu, B., He, G., Tan, L., Zhao, H., ... & Qiao, G. (1999). Triassic alkaline intrusives in the Yanliao-Yinshan area: their chronology, Sr, Nd and Pb isotopic characteristics and their implication. Science in China Series D: Earth Sciences, 42(6), 582-587.
  • Heilongjiang
    • Mudanjiang
      • Dongning County
[Lamprophyre] Cong, D., Pang, H., Wang, S., Tian, Y., Ying, H., & Huang, G. (2019). Zircon LA-ICP-MS U-Pb Ages and the Hf Isotopic Composition of the Ore-Bearing Porphyry from the Yanghuidongzi Copper Deposit, Heilongjiang, China, and Its Geological Significance. Minerals, 9(11), 676.
  • Hubei
    • Jingmen
      • Jingshan Co.
[Kimberlite] Automatically generated from locality name
    • Shiyan
      • Shennongjia Forest District
[Carbonatite] Automatically generated from locality name; Shi, L. (1991). GEOCHEMISTRY AND PETROGENESIS OF THE SHAXIONG-DONG CARBONATITE COMPLEX, HUBEI PROVINCE [J]. Geochimica, 3, 245-254. Xu, Y. G., Luo, Z. Y., Huang, X. L., He, B., Xiao, L., Xie, L. W., & Shi, Y. R. (2008). Zircon U–Pb and Hf isotope constraints on crustal melting associated with the Emeishan mantle plume. Geochimica et Cosmochimica Acta, 72(13), 3084-3104.
      • Zhushan Co.
[Carbonatite] Automatically generated from locality name; Li, S. (1982). Geochemical features and petrogenesis of Miaoya carbonatites, Hubei Province. Geochemistry, 1(4), 409-420. Xu, C., Kynicky, J., Chakhmouradian, A. R., Li, X., & Song, W. (2015). A case example of the importance of multi-analytical approach in deciphering carbonatite petrogenesis in South Qinling orogen: Miaoya rare-metal deposit, central China. Lithos, 227, 107-121. Xu, C., Kynicky, J., Chakhmouradian, A. R., Campbell, I. H., & Allen, C. M. (2010). Trace-element modeling of the magmatic evolution of rare-earth-rich carbonatite from the Miaoya deposit, Central China. Lithos, 118(1-2), 145-155. Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575.
  • Hunan
    • Changsha
      • Ningxiang City
[Lamproite] Mei, H., Tang, C., Li, S., Li, Y., Zhang, X., Lu, D., & Zhang, L. (1998). Lamproites and kimberlites in China and the genesis of diamond deposit. Science in China Series D: Earth Sciences, 41(1), 54-92.
    • Chenzhou
      • Linwu Co.
        • Xianghualing Sn-polymetallic ore field
[Lamprophyre] Liu, J., Rong, Y., Zhang, S., Liu, Z., & Chen, W. (2017). Indium Mineralization in the Xianghualing Sn-Polymetallic Orefield in Southern Hunan, Southern China. Minerals, 7(9), 173.
  • Inner Mongolia
    • Alxa League (Alashan Prefecture)
      • Alxa Right Banner (Alashan Youqi)
[Carbonatite] Zhang, M., Suddaby, P., Thompson, R. N., Thirlwall, M. F., & Menzies, M. A. (1995). Potassic volcanic rocks in NE China: geochemical constraints on mantle source and magma genesis. Journal of Petrology, 36(5), 1275-1303. Bai, G. & Yuan, Z. (1985). Carbonatites and related mineral resources. Bull. Inst. Miner. Deposits Chin. Acad. Geol. Sci., 13, 1-193.
    • Baotou City (Baotou Prefecture)
      • Bayan Obo mining district
        • Bayan Obo
[Carbonatite] Campbell, L. S., Compston, W., Sircombe, K. N., & Wilkinson, C. C. (2014). Zircon from the East Orebody of the Bayan Obo Fe–Nb–REE deposit, China, and SHRIMP ages for carbonatite-related magmatism and REE mineralization events. Contributions to Mineralogy and Petrology, 168(2), 1041-1063. Chao, E. C. T., Back, J. M., Minkin, J. A., Tatsumoto, M., Wen, W. J., Conrad, J. E., ... & Huang, S. G. (1997). US Geological Survey Bulletin 2143: The sedimentary carbonate-hosted giant Bayan Obo REE-Fe-Nb ore deposit of Inner Mongolia, China: A cornerstone example for giant polymetallic ore deposits of hydrothermal origin. United States Geological Survey, Bulletin, 2143. Drew, L. J., Qingrun, M., & Weijun, S. (1990). The Bayan Obo iron-rare-earth-niobium deposits, Inner Mongolia, China. Lithos, 26(1-2), 43-65. Fan, H. R., Hu, F. F., Yang, K. F., & Wang, K. Y. (2006). Fluid unmixing/immiscibility as an ore-forming process in the giant REE–Nb–Fe deposit, Inner Mongolian, China: evidence from fluid inclusions. Journal of Geochemical Exploration, 89(1-3), 104-107. Yang, K. F., Fan, H. R., Santosh, M., Hu, F. F., & Wang, K. Y. (2011). Mesoproterozoic carbonatitic magmatism in the Bayan Obo deposit, Inner Mongolia, North China: constraints for the mechanism of super accumulation of rare earth elements. Ore Geology Reviews, 40(1), 122-131.
    • Xilingol League (Xilinguole Prefecture)
      • West Ujimqin Banner (Xiwuzhumuqin Co.)
[Chromitite] Zhu, H., Jingsui, Y., Robinson, P. T., Yongwang, Z., Fahui, X., Zhao, L., ... & Wei, X. (2015). The discovery of diamonds in chromitites of the Hegenshan ophiolite, Inner Mongolia, China. Acta Geologica Sinica‐English Edition, 89(2), 341-350.
  • 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.
  • Jiangxi
    • Ganzhou
      • Huichang Co.
[Lamprophyre] Yang, D. S., Zhang, Y. T., Tu, X. L., Pang, B. C., & Chen, Y. F. (2017). A new genetic interpretation for the Caotaobei uranium deposit associated with the shoshonitic volcanic rocks in the Hecaokeng ore field, southern Jiangxi, China. Solid Earth Sciences, 2(1), 23-40.
[Lamprophyre] Yang, D. S., Zhang, Y. T., Tu, X. L., Pang, B. C., & Chen, Y. F. (2017). A new genetic interpretation for the Caotaobei uranium deposit associated with the shoshonitic volcanic rocks in the Hecaokeng ore field, southern Jiangxi, China. Solid Earth Sciences, 2(1), 23-40.
[Lamprophyre] Yang, D. S., Zhang, Y. T., Tu, X. L., Pang, B. C., & Chen, Y. F. (2017). A new genetic interpretation for the Caotaobei uranium deposit associated with the shoshonitic volcanic rocks in the Hecaokeng ore field, southern Jiangxi, China. Solid Earth Sciences, 2(1), 23-40.
  • Jilin
    • Siping
      • Lishu County
[Lamprophyre] Sun, X., Ren, Y., Cao, P., Hao, Y., & Gao, Y. (2019). Ore Genesis of Shanmen Ag Deposit in Siping Area of Southern Jilin Province, NE China: Constraints from Fluid Inclusions and HO, S, Pb Isotopes. Minerals, 9(10), 586.
  • Liaoning
    • Dalian
      • Wafangdian City
[Kimberlite] Automatically generated from locality name Leung, I.S., Guo, W., Freidman, I., and Gleanson, J. (1990) Natural occurrence of silicon carbide in a diamondiferous kimberlite from Fuxian. Nature: 346: 352–354.; Zhen, J. 1987. Genesis and significance of quartz-carbonatite in kimberlite field of Southern Liaoning Peninsula. Liaoning Geology, 3, 209-215. Li, Q. L., Wu, F. Y., Li, X. H., Qiu, Z. L., Liu, Y., Yang, Y. H., & Tang, G. Q. (2011). Precisely dating Paleozoic kimberlites in the North China Craton and Hf isotopic constraints on the evolution of the subcontinental lithospheric mantle. Lithos, 126(1-2), 127-134.
          • Laotiangou
[Kimberlite] Zhu, R. Z., Ni, P., Ding, J. Y., & Wang, G. G. (2019) Geochemistry of Magmatic and Xenocrystic Spinel in the No. 30 Kimberlite Pipe (Liaoning Province, North China Craton): Constraints on Diamond Potential. Minerals, 9(6), 382.
[Kimberlite] Michaud, M. (2005). An overview of diamond exploration in the North China Craton. In Mineral Deposit Research: Meeting the Global Challenge (pp. 1547-1549). Springer, Berlin, Heidelberg.
  • Qinghai
    • Gyêgu Autonomous Prefecture (Yushu Autonomous Prefecture)
      • Nangqên Co. (Nanqian Co.)
[Lamprophyre] Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M., Bonin, B., Bateman, P., ... & Lameyre, J. 2002, Igneous Rocks: A Classification and Glossary of Terms: Recommendations of the International Union of Geological Sciences Subcommission on the Systematics of Igneous Rocks. Hongjuan, S. U. N., Wanming, D. E. N. G., & Yuquan, Z. (2001). Petrogenesis of Cenozoic potassic volcanic rocks in the Nangqen basin. Acta Geologica Sinica‐English Edition, 75(1), 27-40.
  • Shaanxi
    • Shangluo
      • Luonan County
[Carbonatite] Guo, X. 1989. The geological features and the genesis of the Dashigou ultrabasic rock-carbonatite impurity rock bodies in Huxian County, Shaanxi. Geology of Shaanxi, 7, 42-51.
    • Weinan
      • Huayin City
[Carbonatite] Huang, D. H., Wang, Y. C., Nie, F. J., & Jiang, X. J. (1984). Isotopic composition of sulfur, carbon and oxygen and source material of the Huanglongpu carbonatite vein-type of molybdenum (lead) deposits. Acta Geologica Sinica, 58(3), 252-264. Huang, D. H., Wang, Y. C., Nie, F. J., & Jiang, X. J. (1985). A NEW TYPE OF MOLYBDENUM DEPOSIT-GEOLOGICAL CHARACTERISTICS AND METALLOGENIC MECHANISM OF THE HUANGLONGPU CARBONATITE VEIN-TYPE OF MOLYBDENUM (LEAD) DEPOSIT, SHAAXI. Acta geologica sinica, 59(3), 241-257.; Huang, D. H., Wang, Y. C., Nie, F. J., & Jiang, X. J. (1984). Isotopic composition of sulfur, carbon and oxygen and source material of the Huanglongpu carbonatite vein-type of molybdenum (lead) deposits. Acta Geologica Sinica, 58(3), 252-264. Huang, D. H., Wang, Y. C., Nie, F. J., & Jiang, X. J. (1985). A NEW TYPE OF MOLYBDENUM DEPOSIT-GEOLOGICAL CHARACTERISTICS AND METALLOGENIC MECHANISM OF THE HUANGLONGPU CARBONATITE VEIN-TYPE OF MOLYBDENUM (LEAD) DEPOSIT, SHAAXI. Acta geologica sinica, 59(3), 241-257.
[Lamprophyre] Yan, J., Pan, J. Y., & Kang, Q. Q. (2018). Geological and Geochemical Characteristics of the Huayangchuan U-Nb-Pb Deposit, Shan'Xi, China (No. IAEA-CN--261).
  • Shandong
    • Jining
      • Weishan County
[Lamprophyre] Jingxiang, T., Ritian, Z., Yuechun, F., Xiuzhang, L., Hongyan, X., & Bingying, W. (2002). Geological characteristics and relation with rare earth elements of alkalic complex in Chishan of Shandong Province. Land Resour Shandong Province, 18(1), 21-25.; Jia, Y.-H.; Liu, Y. (2020) REE Enrichment during Magmatic–Hydrothermal Processes in Carbonatite-Related REE Deposits: A Case Study of the Weishan REE Deposit, China. Minerals 10, 25.
    • Laiwu
      • Gangcheng District
[Carbonatite] Ying, J., Zhou, X., & Zhang, H. (2004). Geochemical and isotopic investigation of the Laiwu–Zibo carbonatites from western Shandong Province, China, and implications for their petrogenesis and enriched mantle source. Lithos, 75(3-4), 413-426.
[Carbonatite] Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.69; Goto, A., Fujimaki, H., Morikiyo, T., & LIU, J. (2004). Finding dolomitic melnoite diatreme at Badou in the Laiwu–Zibo area, Shandong province, China. Proceedings of the Japan Academy, Series B, 80(6), 269-275.
[Carbonatite] Automatically generated from locality name
    • Linyi
      • Mengyin County
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
    • Weihai
      • Rushan Co.
        • Muping-Rushan metallogenic belt
          • Rushan ore field
[Lamprophyre] Chen, B.; Deng, J.; Wei, H.; Ji, X. Trace Element Geochemistry in Quartz in the Jinqingding Gold Deposit, Jiaodong Peninsula, China: Implications for the Gold Precipitation Mechanism. Minerals 2019, 9, 326.
  • Shanxi
    • Datong
      • Pingcheng District
[Carbonatite] Shao, J. A., Zhang, Y. B., Zhang, L. Q., Mu, B. L., Wang, P. Y., & Guo, F. (2003). Early Mesozoic dike swarms of carbonatites and lamprophyres in Datong area. Acta Petrologica Sinica, 19(1), 93-104. Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575.
    • Lüliang
      • Xing County
[Lamprophyre] Ying, J., Zhang, H., Sun, M., Tang, Y., Zhou, X., & Liu, X. (2007). Petrology and geochemistry of Zijinshan alkaline intrusive complex in Shanxi Province, western North China Craton: implication for magma mixing of different sources in an extensional regime. Lithos, 98(1-4), 45-66. Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575.
  • Sichuan
    • Bazhong
      • Nanjiang Co.
[Ijolite] Bai, G. & Yuan, Z. (1985). Carbonatites and related mineral resources. Bull. Inst. Miner. Deposits Chin. Acad. Geol. Sci., 1-193. Lingdi, Z., & Guofu, Z. (1998). STUDY ON MINERALOGY AND GEOCHEMISTRY OF THE PINGHE ULTRABASIC ALKALINE ROCK BODY, NANJIANG, SICHUAN [J]. Journal of Chengdu University of Technology, 25, 246-256.
    • Guangyuan
      • Lizhou District
[Ijolite] Bai, G. & Yuan, Z. (1985). Carbonatites and related mineral resources. Bull. Inst. Miner. Deposits Chin. Acad. Geol. Sci., 13, 1-193.
      • Wangcang County
[Ijolite] Bai, G. & Yuan, Z. (1985). Carbonatites and related mineral resources. Bull. Inst. Miner. Deposits Chin. Acad. Geol. Sci., 1-193.
    • Liangshan
      • Dechang County
[Carbonatite] Liu, Y., Zhu, Z., Chen, C., Zhang, S., Sun, X., Yang, Z., & Liang, W. (2015). Geochemical and mineralogical characteristics of weathered ore in the Dalucao REE deposit, Mianning–Dechang REE Belt, western Sichuan Province, southwestern China. Ore Geology Reviews, 71, 437-456.
[Ijolite] Zhang, Y., Luo, Y., & Yang, C. (Eds.). (1990). Panxi Rift and its geodynamics. Geological Publishing House.
      • Puge County
[Ijolite] Zhang, Y., Luo, Y., & Yang, C. (Eds.). (1990). Panxi Rift and its geodynamics. Geological Publishing House.
      • Yanyuan County
[Minette] Guo, Z., Hertogen, J. A. N., Liu, J., Pasteels, P., Boven, A., Punzalan, L. E. A., ... & Zhang, W. (2005). Potassic magmatism in western Sichuan and Yunnan provinces, SE Tibet, China: petrological and geochemical constraints on petrogenesis. Journal of Petrology, 46, 33-78.
    • Panzhihua
      • Miyi County
[Ijolite] Zhang, Y., Luo, Y., & Yang, C. (Eds.). (1990). Panxi Rift and its geodynamics. Geological Publishing House.
      • Yanbian County
[Lamproite] HOUJUN, M., JIZU, T., XINGCHUN, Z., MINGKUN, W., & RUGANG, S. (1989). Ultrapotassic rocks in Qinghai-Xizang (Tibet) Plateau and adjacent areas and their tectonic circumstances. In Developments in geoscience. Chinese Academy of Sciences, contribution to international geological congress. 28 (pp. 119-128).
[Lamproite] HOUJUN, M., JIZU, T., XINGCHUN, Z., MINGKUN, W., & RUGANG, S. (1989). Ultrapotassic rocks in Qinghai-Xizang (Tibet) Plateau and adjacent areas and their tectonic circumstances. In Developments in geoscience. Chinese Academy of Sciences, contribution to international geological congress. 28 (pp. 119-128).
  • Tibet
    • Shannan Prefecture (Lhokha Prefecture; Lhoka Prefecture)
      • Qusum Co. (Qusong Co.)
        • Luobusha ophiolite ("Luobusa ophiolite")
          • Kangjinla Cr deposit
[Chromitite] Xiangzhen, X., Jingsui, Y., Songyong, C., Qingsong, F., Wenji, B., & Dengzhu, B. (2009). Unusual mantle mineral group from chromitite ore body Cr-11 in Luobusa ophiolite of Yarlung-Zangbo suture zone, Tibet. Journal of Earth Science, 20(2), 284-302.
  • Xinjiang
    • Akesu Prefecture (Aksu Prefecture; Aqsu Prefecture)
      • Baicheng Co. (Bay Co.)
[Carbonatite] Automatically generated from locality name
    • Bayin'gholin Autonomous Prefecture (Bayingolin Autonomous Prefecture; Bayinguoleng Autonomous Prefecture)
      • Lopnur Co. (Yuli Co.; Weili Co.)
[Carbonatite] Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575. Ye, H. M., Li, X. H., & Lan, Z. W. (2013). Geochemical and Sr–Nd–Hf–O–C isotopic constraints on the origin of the Neoproterozoic Qieganbulake ultramafic–carbonatite complex from the Tarim Block, Northwest China. Lithos, 182, 150-164. Zhang, C. L., Li, X. H., Li, Z. X., Lu, S. N., Ye, H. M., & Li, H. M. (2007). Neoproterozoic ultramafic–mafic-carbonatite complex and granitoids in Quruqtagh of northeastern Tarim Block, western China: geochronology, geochemistry and tectonic implications. Precambrian Research, 152(3-4), 149-169.
    • Kashi Prefecture (Kashgar Prefecture; Qeshqer Prefecture)
      • Bachu Co. (Maralbexi Co.; Maralbeshi Co.)
[Spessartite] 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.
      • Tashiku'ergan Co. (Taxkorgan Co.; Tashqurqan Co.)
[Lamproite] Chai, F., Zhang, Z., Mao, J., Parat, A., Wang, L., Dong, L., ... & Zheng, R. (2006). Lamprophyre or Lamproite Dyke in the SW Tarim block?—discussion on the petrogenesis of these rocks and their source region. Journal of China University of Geosciences, 17(1), 13-24. Guo, K. Y., Zhang, C. L., Zhao, Y., Dong, Y., & Wang, A. (2003). 40Ar-^ 39Ar dating of lamproite along south margin of the Tarim platform and its geologic significance. Chinese Journal of Geology, 38(4), 532-534. Lei, Z., Mingyue, H., Youzhi, L., & Jianzhe, L. (1998). Discovery of lamproite in south margin of Tarim platform, China. Geoscience, 12(4), 555-558.
[Lamprophyre] Pognante, U. (1991). Shoshonitic and ultrapotassic post-collisional dykes from northern Karakorum (Sinkiang, China). Lithos, 26(3-4), 305-316.
    • Yili Hasake Autonomous Prefecture (Ili Kazakh Autonomous Prefecture)
      • Tacheng Prefecture (Tarbaghatay Prefecture)
        • Tuoli Co. (Toli Co.)
          • Sartohay (Sartokay; Sartuohai; Saertuohai)
[Chromitite] Zhu, Q., & Zhu, Y. (2019). Platinum-group minerals and Fe–Ni minerals in the Sartohay podiform chromitite (west Junggar, China): implications for T–pH–fO2–fS2 conditions during hydrothermal alteration. Ore Geology Reviews, 103020.; Zhu, Y., Tan, J., & Qiu, T. (2016). Platinum group mineral (PGM) and Fe–Ni–As–S minerals in the Sartohay chromitite, Xinjiang (NW China): Implications for the mobility of Os, Ir, Sb, and As during hydrothermal processes. Ore Geology Reviews, 72, 299-312.
  • Yunnan
    • Chuxiong
      • Nanhua County
[Lamproite] HOUJUN, M., JIZU, T., XINGCHUN, Z., MINGKUN, W., & RUGANG, S. (1989). Ultrapotassic rocks in Qinghai-Xizang (Tibet) Plateau and adjacent areas and their tectonic circumstances. In Developments in geoscience. Chinese Academy of Sciences, contribution to international geological congress. 28 (pp. 119-128).
      • Yuanmou County
[Carbonatite] Bai, G., Yuan Z. (1985). Carbonatites and related mineral resources. Bull. Inst. Miner. Deposits Chin. Acad. Geol. Sci., 13, 1-193. Chengyan, Z. Y. W. H. X., & Qirong, W. (1996). DISCOVERY AND SIGNIFICANCE OF THE CARBONATITE OF KUNYANG GROUP IN THE CENTRAL OF YUNNAN [J]. GEOLOGICAL SCIENCE AND TECHNOLOGY INFORMATION, 15, 14-18. Yongbei, Z., Guilan, W., Jianfeng, N., Chongshun, Z., Chengyan, X., Jiaxiang, Q., & Hao, W. (2003). Isotopic ages of the carbonatitic volcanic rocks in the Kunyang rift zone in central Yunnan, China. Acta Geologica Sinica‐English Edition, 77(2), 204-211. Zhang, Y., Sun, S., Xu, C., Wang, H., Zhao, C., & Zhu, Z. (2003). Carbonatitic Volcanic Genesis of Hetaoqing Fe‐Cu Deposit in Central Yunnan, China. Resource Geology, 53, 1-13.
    • Dali
[Lamprophyre] Le Maitre, R. W., Streckeisen, A., Zanettin, B., LeBase, M. J., Bonin, B., Batemen, P., ... & Lameyre, J. 2002, Igneous rocks: A classification and glossary of Terms. Xu, X. W., Zhang, B. L., Qin, K. Z., Mao, Q., & Cai, X. P. (2007). Origin of lamprophyres by the mixing of basic and alkaline melts in magma chamber in Beiya area, western Yunnan, China. Lithos, 99(3-4), 339-362.
    • Honghe
      • Gejiu City
[Melanocratic nephelinolite] Huang, Z., Yan, Y., & Wu, J. (1996). Geochemistry of alkaline-ultrabasic rocks in the Jijie complex, Lufeng, Yunnan. Chinese Journal of Geochemistry, 15(1), 61-71.
      • Lüchun County (Lvchun Co.)
[Lamprophyre] ZHANG, L., WEN, H., QIN, C., ZHU, C., & DU, S. (2014). A Study on Bi-Sb Minerals in the Damajianshan Tungsten Polymetallic Deposit and Its Geological Significance, Yunnan Province, China. Acta Geologica Sinica (English Edition), 88(s2), 946-947.
    • Pu'er
      • Zhenyuan County
        • Laowangzhai orefield
          • Zhenyuan Mine
[Lamprophyre] Zhang, H., Chai, P., Zhang, H., Hou, Z., Chen, S., Sun, Y., & Peng, Q. (2019). Two‐Stage Sulfide Mineral Assemblages in the Mineralized Ultramafic Rocks of the Laowangzhai Gold Deposit (Yunnan, SW China): Implications for Metallogenic Evolution. Resource Geology.
  • 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.
Cuba
 
  • Holguín Province
    • Moa-Baracoa District
      • Barracanao (Baracoa)
[Chromitite] Aiglsperger, T., Oliete, M. P., Proenza, J. A., Sola, N. P., Linares, F. G., Jiménez, J. M. G., & Saunders, J. E. PGE distribution in Fe-Ni-Cu sulfides from the Potosí mine (Eastern Cuban Ophiolites). Mineral Resources to Discover - 14th SGA Biennial Meeting 2017, Volume 2 pp 411-414
[Chromitite] Gevilla, F., Proenza, J.A., Frei, R.,González-Jiménez, J.M., Garrido, C.J., Melgarejo, J.C., Meibom, A., Díaz-Martínez, R., Lavaut, W. (2005) Distribution of platinum-group elements and Os isotopes in chromite ores from Mayarí-Baracoa Ophiolitic Belt (eastern Cuba). Contributions to Mineralogy and Petrology, 150:6, 589-607.
Czech Republic
 
  • Central Bohemian Region
    • Příbram District
      • Dobříš
        • Nový Knín
[Lamprophyre] Zachariáš, J., Pudilová, M., Žák, K., Morávek, P., Litochleb, J., Váňa, T., Pertold, Z. (1997) P-T conditions, fluid inclusions and O, C, S isotope characteristics of gold-bearing mineralizations within the Central Bohemian Metallogenic Zone. - Acta Univ. Carolinae – Geologica, 41 (3-4), pp. 167–178.
  • Karlovy Vary Region
    • Cheb District
      • Mariánské Lázně
[Ijolite] - Ulrych, J., Pivec, E., Bouše, P. (1995) Minerální parageneze ijolitových vyloučenin v olivinickém nefelinitu Podhorního vrchu u Mariánských Lázní. Bulletin mineralogicko-petrografického oddělení Národního muzea v Praze, 1995, roč. 3, 51-56.
  • Plzeň Region
    • Plzeň-North District
[Lamprophyre] Ackerman, L., Veselovský, F., PAšava, J., Kadlec, T., & Malíková, R. (2019) Mineralogie antimonitového ložiska Chříč u Rakovníka (Česká republika). Bull Mineral Petrolog 27(1): 148-166
  • Ústí nad Labem Region
    • Děčín District
      • Jílové
[Lamprophyre] Zachariáš, J., Pudilová, M., Žák, K., Morávek, P., Litochleb, J., Váňa, T., Pertold, Z. (1997) P-T conditions, fluid inclusions and O, C, S isotope characteristics of gold-bearing mineralizations within the Central Bohemian Metallogenic Zone. - Acta Univ. Carolinae – Geologica, 41 (3-4), pp. 167–178.
[Biotitite] Stemprok, M., Dolejs, D., & Holub, F. V. (2014). Late Variscan calc-alkaline lamprophyres in the Krupka ore district, Eastern Krusne hory/Erzgebirge: their relationship to Sn-W mineralization. Journal of Geosciences, 59(1), 41-68.
Denmark
 
  • Greenland
    • Kujalleq
      • Narsaq
        • Ilímaussaq complex
          • Kangerluarsuk Fjord
            • Head of Kangerluarsuk
              • Lilleelv
                • Pegmatite Valley
[Naujaite] Pekov, I.V. et. al. (2004): Potassic-Arfvedsonite a K-dominant Amphibole of the Arfvedsonite-series from agpaitic pegmatites, Neues Jahrbuch Mineralogie, Monatshefte, 12: 555-574
[Naujaite] Petersen, O. V. & Johnsen, O. (2005): Mineral species first described from Greenland. Canadian Mineralogist, Special publication no. 8.
[Naujaite] Ussing, N.V. (1912): Geology of the country around Julianehaab, Greenland, Meddelelser om Grønland 38, 1–376 [p.35-36]
[Naujaite] Karup-Møller, S., Makovicky, E. (1974): Skinnerite, a new Sulfosalt from the Ilimaussaq Alkaline Intrusion, South Greenland. American Mineralogist. 59, 889-895
          • Kvanefjeld (Kuannersuit Plateau)
[Naujaite] Matsubara, S., Mandarino, J., Semenov, E. (2001): Redefinition of a mineral in the Joaquinite group: Orthojoaquinite-(La). Canadian Mineralogist. 39, 757-760
          • Tunulliarfik Fjord
[Naujaite] Bøggild, O.B. (1953): The Mineralogy of Greenland. Meddelelser om Grønland, Reitzels Forlag København. Bd. 149. Nr. 3. 445 pages. (p. 220)
    • Qeqqata
      • Akia Terrane
        • Fiskefjord
[Chromitite] Guotana, J., Morishita, T., Yamaguchi, R., Nishio, I., Tamura, A., Tani, K., ... & Pearson, D. (2018). Contrasting Textural and Chemical Signatures of Chromitites in the Mesoarchaean Ulamertoq Peridotite Body, Southern West Greenland. Geosciences, 8(9), 328.
      • Isortoq Fjord (Søndre Isortoq)
        • Sarfartoq region
[Kimberlite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name
      • Maniitsoq Island
        • Maniitsoq
          • Qaqqaarsuk (Qaqarssuk)
[Carbonatite] Automatically generated from locality name
    • Sermersooq
      • Kangerlussuaq Fjord
[Uncompahgrite] Johnsen, O. (1999): Gardiner komplekset i Østgrønland: en spænende mineralforekomst. Bergverksmuseets Skrift 15: 5-9 (in danish)
DR Congo
 
  • Haut-Katanga
    • Kundelungu Plateau
[Kimberlite] Batumike, J. M., O’Reilly, S. Y., Griffin, W. L., & Belousova, E. A. (2007). U–Pb and Hf-isotope analyses of zircon from the Kundelungu Kimberlites, DR Congo: Implications for crustal evolution. Precambrian Research, 156(3-4), 195-225.
[Kimberlite] Batumike, J. M., O’Reilly, S. Y., Griffin, W. L., & Belousova, E. A. (2007). U–Pb and Hf-isotope analyses of zircon from the Kundelungu Kimberlites, DR Congo: Implications for crustal evolution. Precambrian Research, 156(3-4), 195-225.
    • Lake Mweru
[Kimberlite] Automatically generated from locality name
  • North Kivu
    • Beni Territory
      • Bashu
[Carbonatite] Automatically generated from locality name; Berger, V.I., Singer, D.A., and Orris, G.J., 2009, Carbonatites of the world, explored deposits of Nb and REE— database and grade and tonnage models: U.S. Geological Survey Open-File Report 2009-1139, 17 p. and database [http://pubs.usgs.gov/of/2009/1139/].
    • Nyiragongo Territory
      • Nyiragongo Volcano
[Nephelinite] Sahama, T. G., & Meyr, A. (1958). Study of the Volcano Nyragongo: A Progress Report. Institut des Parcs Nationaux du Congo Belge.
    • Rutshuru Territiory
      • Bwito
[Calcite-carbonatite] Wall, F., Williams, C. T., Woolley, A. R., & Nasraoui, M. (1996). Pyrochlore from weathered carbonatite at Lueshe, Zaire. Mineralogical Magazine, 60(402), 731-750.
Egypt
 
  • Red Sea
    • Eastern Desert
      • Barramiya
[Chromitite] Automatically generated from locality name
      • Central Eastern Desert
[Lamprophyre] Hussein, H. A., & Bakhit, F. S. (1988). Uranium-Bearing Alkaline Volcanics of North Wadi Kariem and Surroundings, Central Eastern Desert, Egypt. Mining Geology, 38(207), 39-48.
[Chromitite] Abdel‐Karim, A. A. M., & El‐Shafei, S. A. (2018). Mineralogy and chemical aspects of some ophiolitic metaultramafics, central Eastern Desert, Egypt: Evidences from chromites, sulphides and gangues. Geological Journal, 53(2), 580-599.
      • Sikait-Zabara region
        • Emerald mines (incl. Gebel Zabara; Wadi Abu Rusheid; Wadi Gimal; Wadi Sikait; Wadi Umm Debaa; Wadi Umm Kabu)
[Lamprophyre] Ibrahim, M. E., Saleh, G. M., Dawood, N. A., & Aly, G. M. (2013). Ocellar lamprophyre dyke bearing mineralization, Wadi Nugrus, Eastern Desert, Egypt: Geology, mineralogy and geochemical implications. Journal of Geology and Mining Research, 2(4), 74-86.
Falkland Islands
[Lamprophyre] Aldiss, D.T., Edwards, E.J. (1999) The Geology of the Falkland Islands. British Geological Survey Technical Report WC/99/10.
  • West Falkland
[Lamprophyre] Thistlewood, L., Leat, P. T., Millar, I. L., Storey, B. C., & Vaughan, A. P. M. (1997). Basement geology and Palaeozoic–Mesozoic mafic dykes from the Cape Meredith Complex, Falkland Islands: a record of repeated intracontinental extension. Geological Magazine, 134(3), 355-367.
Finland
 
  • Kainuu
    • Kuhmo
[Kimberlite] Automatically generated from locality name
  • Lapland
[Chromitite] Geological Survey of Finland Guide 51a
    • Keminmaa
[Chromitite] Geological Survey of Finland Guide 51a
    • Savukoski
      • Tulppio
[Carbonatite] Automatically generated from locality name
  • North Ostrobothnia
    • Kuusamo
[Kimberlite] Hayden Dalton, Andrea Giuliani, David Phillips, Janet Hergt, Hugh O'Brien (2018) Mineral Chemistry and Petrography of Kuusamo Kimberlites and Related Rocks, Finland. in abstracts of the 22nd IMA Meeting Melbourne p 129
[Kimberlite] Hayden Dalton, Andrea Giuliani, David Phillips, Janet Hergt, Hugh O'Brien (2018) Mineral Chemistry and Petrography of Kuusamo Kimberlites and Related Rocks, Finland. in abstracts of the 22nd IMA Meeting Melbourne p 129
[Kimberlite] https://rockstone-research.com/images/pdfs/ADD_TechnicalReport2017.pdf
[Kimberlite] Hayden Dalton, Andrea Giuliani, David Phillips, Janet Hergt, Hugh O'Brien (2018) Mineral Chemistry and Petrography of Kuusamo Kimberlites and Related Rocks, Finland. in abstracts of the 22nd IMA Meeting Melbourne p 129
[Kimberlite] Hayden Dalton, Andrea Giuliani, David Phillips, Janet Hergt, Hugh O'Brien (2018) Mineral Chemistry and Petrography of Kuusamo Kimberlites and Related Rocks, Finland. in abstracts of the 22nd IMA Meeting Melbourne p 129
[Kimberlite] Hayden Dalton, Andrea Giuliani, David Phillips, Janet Hergt, Hugh O'Brien (2018) Mineral Chemistry and Petrography of Kuusamo Kimberlites and Related Rocks, Finland. in abstracts of the 22nd IMA Meeting Melbourne p 129
[Kimberlite] http://tupa.gtk.fi/raportti/valtaus/8017_2_1.pdf
  • Northern Savonia
    • Kaavi
      • Pipe 7
[Kimberlite] Automatically generated from locality name
France
 
  • Brittany
    • Finistère
      • Daoulas
[Kersantite] Barrois, Ch. (1887) Sur le Kerzanton de la Rade de Brest. Annales de la Société Géologique du Nord, 31.
      • Hanvec
[Kersantite] Barrois, Ch. (1887): Sur le Kerzanton de la Rade de Brest, Annales de la Société Géologique du Nord, p. 36.
      • Hôpital-Camfrout
[Kersantite] Barrois, Ch. (1887): Sur le Kerzanton de la Rade de Brest, Annales de la Société Géologique du Nord, p. 34.
[Kersantite] Chauris, L. (2014): Minéraux de Bretagne, Les Editions du Piat, 91.
[Kersantite] Barrois, Ch. (1887): Sur le Kerzanton de la Rade de Brest, Annales de la Société Géologique du Nord, p. 43.
[Lamprophyre] Yann Lukas (1978) Roches et minéraux de Bretagne.
[Kersantite] Barrois, Ch. (1887): Sur le Kerzanton de la Rade de Brest, Annales de la Société Géologique du Nord, p. 42-43.
[Kersantite] Barrois, Ch. (1887): Sur le Kerzanton de la Rade de Brest, Annales de la Société Géologique du Nord, p. 43.
[Kersantite] Barrois, Ch. (1887): Sur le Kerzanton de la Rade de Brest, Annales de la Société Géologique du Nord, p. 34.
[Kersantite] Barrois, Ch. (1887): Sur le Kerzanton de la Rade de Brest, Annales de la Société Géologique du Nord, p. 43.
[Kersantite] Barrois, Ch. (1887): Sur le Kerzanton de la Rade de Brest, Annales de la Société Géologique du Nord, p. 37.
      • Loperhet
[Kersantite] Barrois, Ch. (1887) Sur le Kerzanton de la Rade de Brest. Annales de la Société Géologique du Nord, 31-50.; Lukas, Yann (1978) Roches et minéraux de Bretagne. Editions Ouest-France, 33 pp.
      • Plogoff
[Lamprophyre] Barrière, M., Chauris, L., Fouquet, Y., Guilcher, A., Lefort, J.-P., Pelhate, A. (1985): Notice explicative de la feuille Pointe du Raz à 1/50000, B.R.G.M., Editions du Service géologique national, p. 10.
      • Plouguin
[Kersantite] Chauris, L. (2014): Minéraux de Bretagne, Les Editions du Piat, 252.
[Spessartite] Chauris, L. (2014): Minéraux de Bretagne, Les Editions du Piat, 207.
  • Centre-Val de Loire
    • Cher
      • Sancerre-Couy drilling
[Lamprophyre] Automatically generated from locality name
  • Corsica
    • Haute-Corse
      • Bastia
        • Cap Corse
[Minette] Velde, D. (1968) A new occurrence of priderite. Mineralogical Magazine: 36(282): 867-870.
  • New Caledonia
    • Southern Province
      • Pirogues River
[Chromitite] Auge, T., & Maurizot, P. (1995). Stratiform and alluvial platinum mineralization in New Caledonia ophiolite complex. The Canadian Mineralogist, 33(5), 1023-1045.
  • Occitanie
    • Gard
      • Saint-Julien-les-Rosiers (Saint-Julien-de-Valgalgues)
[Minette] Automatically generated from locality name
    • Pyrénées-Orientales
      • Prats-de-Mollo-la Preste (Prats de Molló-la Presta)
[Nelsonite] van Marcke de Lummen, G. (1985). An Fe-Ti oxides-apatite-biotite (nelsonite) deposit related to the Costabonne granite, eastern Pyrenees, France. Bulletin de minéralogie, 108(3), 353-365.
      • Saint-Laurent-de-Cerdans
[Camptonite] Guitard, G. (2010): Catalogue raisonné de la collection de minéralogie régionale, C.E.R.P. de Tautavel, 139.
Germany
[Nephelinite] https://en.wikipedia.org/wiki/Geology_of_Germany
  • Baden-Württemberg
    • Karlsruhe
      • 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.
  • Rhineland-Palatinate
    • Bernkastel-Wittlich
[Leucite nephelinite] Meyer, W. (1983) Geologischer Wanderführer: Eifel. Franckh'sche Verlangshandlung W. Keller & Co., Stuttgart.
    • Mayen-Koblenz
      • Mayen
        • Ettringen
[Sanidinite (igneous)] in the collection of Christof Schäfer
      • Nickenich
[Leucite nephelinite] Meyer, W. (1983) Geologischer Wanderführer: Eifel. Franckh'sche Verlangshandlung W. Keller & Co., Stuttgart.
  • Saxony
    • Nordsachsen
      • Storkwitz
[Carbonatite] Automatically generated from locality name
Greece
 
  • Central Greece
    • Phthiotis
      • Domokos
[Chromitite] Ifandi, E., Zaccarini, F., Tsikouras, B., Grammatikopoulos, T., Garuti, G., Karipi, S., & Hatzipanagiotou, K. (2018). First occurrences of Ni-V-Co phosphides in chromitite from the Agios Stefanos Mine, Othrys Ophiolite, Greece. Ofioliti, 43(2), 131-145.; Zaccarini, F., Bindi, L., Ifandi, E., Grammatikopoulos, T., Stanley, C., Garuti, G., Mauro, D. (2019): Tsikourasite, Mo3Ni2P1+x (x < 0.25), a New Phosphide from the Chromitite of the Othrys Ophiolite, Greece. Minerals: 9: 248; Kapsiotis, A., Ewing Rassios, A., Antonelou, A., & Tzamos, E. (2016). Genesis and multi-episodic alteration of zircon-bearing chromitites from the ayios stefanos mine, othris Massif, Greece: Assessment of an unconventional hypothesis on the origin of zircon in ophiolitic chromitites. Minerals, 6(4), 124.
  • Central Macedonia
    • Ianthia
[Chromitite] Tsoupas, G., & Economou-Eliopoulos, M. (2008). High PGE contents and extremely abundant PGE-minerals hosted in chromitites from the Veria ophiolite complex, northern Greece. Ore Geology Reviews, 33(1), 3-19.
  • Epirus
    • Pindus
      • Pindos ophiolite complex
[Chromitite] Kapsiotis, A. N. (2013). Genesis of chromitites from Korydallos, Pindos Ophiolite Complex, Greece, based on spinel chemistry and PGE-mineralogy. Journal of Geosciences, 58(1), 49-69.
  • West Macedonia
    • Kozani and Grevena border area
[Chromitite] Garuti, G. and Zaccarini, F. (1997) In situ alteration of platinum-group minerals at low temperature: evidence from serpentinized and weathered chromitite of the Vourinos complex, Greece. Canadian Mineralogist: 35: 611-626.
[Chromitite] Tzamos, E., Filippidis, A., Rassios, A., Grieco, G., Michailidis, K., Koroneos, A., ... & Gamaletsos, P. N. (2016). Major and minor element geochemistry of chromite from the Xerolivado–Skoumtsa mine, Southern Vourinos: Implications for chrome ore exploration. Journal of Geochemical Exploration, 165, 81-93.
India
 
  • Andhra Pradesh
    • Anantapur District
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name; AJIT KUMAR REDDY, T. (1987). Kimberlite and lamproite rocks of Vajrakarur area, Andhra Pradesh. Journal of the Geological Society of India, 30(1), 1-12. Scott-Smith, B. H. (1989). Lamproites and kimberlites in India. Neues Jarhbuch für Mineralogie Abhandlungen, 161, 193-225.
        • Chigicherla cluster
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
        • Kalyandurg cluster
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
        • Wajrakarur–Lattavaram cluster
[Kimberlite] Automatically generated from locality name
    • East Godavari
[Carbonatite] Rao, Y. J., & Murthy, I. S. N. (1973). On the occurrence of carbonatites in the Vinayakapuram-Kunavaram Nepheline syenite band, Khammam district, Andhra Pradesh. Geological Society of India, 14(4), 431-433.; Bose, M. K., Chakravarti, S., & Sarkar, A. (1971). Petrological observations on alkali syenites of Kunavaram, AP, India. Geological Magazine, 108(4), 273-280. Rao, Y. J., & Murthy, I. S. N. (1973). On the occurrence of carbonatites in the Vinayakapuram-Kunavaram Nepheline syenite band, Khammam district, Andhra Pradesh. Geological Society of India, 14(4), 431-433. Jayaram, M. S., Devendranath, T., & Sarma, S. R. (1972). The nepheline syenite belt of Khammam District, Andhra Pradesh. Geological Society of India, 13(4), 418-420. Subbarao, K. V. (1971). The Kunavaram Series—A Group of Alkaline Rocks, Khammam Distric, Andhra Pradesh, India. Journal of Petrology, 12(3), 621-641.
    • Guntur District
[Carbonatite] Bhaskar, D. V., & Thimmaiah, M. (1997). Occurrence of carbonatite at Chintalacheruvu, Guntur district, Andhra Pradesh. JOURNAL OF THE GEOLOGICAL SOCIETY OF INDIA, 50(5), 641-644.
    • Kadapa district
[Lamproite] Chalapathi Rao, N. V., Gibson, S. A., Pyle, D. M., & Dickin, A. P. (2004). Petrogenesis of Proterozoic lamproites and kimberlites from the Cuddapah Basin and Dharwar craton, southern India. Journal of Petrology, 45(5), 907-948.
    • Krishna District
[Lamproite] Automatically generated from locality name
[Lamproite] Automatically generated from locality name
    • Kurnool District
[Lamproite] Bergman, S. C. (1987). Lamproites and other potassium-rich igneous rocks: a review of their occurrence, mineralogy and geochemistry. Geological Society, London, Special Publications, 30(1), 103-190.
    • Nellore District
[Carbonatite] Vasudevan, D., Rao, T.M. & Reddy, C.K. 1977. A note on the occurrence of carbonatite in the Nellur schist belt, near Vinjamur, Udayagiri Taluk, A.P. Journal of the Geological Society of India, 18, 515-518. Kumar, A., Srinivasan, R., Gopalan, K., & Patil, D.J. 1992. Reply. Journal of the Geological Society of India, 42, 305-307. Subbarao, K. V., Bhaskar, R., & Le Bas, M. J. (1995). Are the Vinjamur rocks carbonatites or meta-limestones?. Journal of the Geological Society of India, 46(2), 125-137.
    • Prakasam District
[Carbonatite] Madhavan, V., & Leelanandam, C. (1988). Petrology of the Elchuru alkaline pluton, Prakasam District, Andhra Pradesh, India. Journal of the Geological Society of India, 31(6), 535-537. Czygan, W., & Goldenberg, G. (1989). Petrography and geochemistry of the alkaline complexes of Sivamalai, Elchuru and Uppalapadu. India. Mem. Geol. Soc. India, 15, 225-240. Madhavan, V., Mallikharjuna Rao, J., SUBRAHMANYAM K, K. S., & LEELANANDAM, C. (1989). Bedrock geology of the Elchuru alkaline pluton, Prakasam district, Andhra Pradesh. Geol. Soc. India Memoir, 15, 189-205. Madhavan, V., MALLIKHARJUNA, R., Balaram, V., & Kumar, R. (1992). Geochemistry and petrogenesis of lamprophyres and associated dykes from Elchuru, Andhra Pradesh, India. Journal of the Geological Society of India, 40(2), 135-149. Nag, S., Chakravorty, P. S., Smith, T. E., & Huang, C. H. (1984). The petrology and geochemistry of intrusive alkaline rocks of Elchuru, Prakasam District, Andhra Pradesh, India. Geological Journal, 19(1), 57-76. Subba Rao, T. V., Bhaskar Rao, Y. J., Sivaraman, T. V., & Gopalan, K. (1989). Rb-Sr age and petrology of the Elchuru Alkaline Complex: implications to alkaline magmatism in the Eastern Ghat Mobile Belt. Mem. Geol. Soc. India, 15, 207-223. Upadhyay, D., Raith, M. M., Mezger, K., & Hammerschmidt, K. (2006). Mesoproterozoic rift-related alkaline magmatism at Elchuru, Prakasam alkaline province, SE India. Lithos, 89(3-4), 447-477.
[Lamprophyre] Leelanandam, C. (1989). The Prakasam alkaline province in Andhra Pradesh, India. Jour. Geol. Soc. India, 34, 25-45. Leelanandam, C., & Ratnakar, J. (1980). Ocellar lamprophyres from the Purimetla alkaline pluton, Prakasam district, Andhra Pradesh. QJ Geol. Ming. Metall. Soc. India, 52(2), 77-79. Leelanandam, C., & Ratnakar, J. (1983). The Purimetla alkaline pluton. Prakasam District, Andhra Pradesh. Quart. Jour. Geol. Min. Met. Soc. India (presently Indian Jour. Geol.), 55, 14-30. Madhavan, V., & Leelanandam, C. (1981). The aenigmatite-bearing alkaline rocks from the Prakasam and Nellore districts of Andhra Pradesh. Current Science, 50(7), 320-321. Ratnakar, J., & Leelanandam, C. (1986). A PETROCHEMICAL STUDY OF THE PURIMETLA ALKALINE PLUTON, PRAKASAM DISTRICT, ANDHRA-PRADESH, INDIA. NEUES JAHRBUCH FUR MINERALOGIE-ABHANDLUNGEN, 156(1), 99-119.
[Camptonite] Leelanandam, C. (1989). The Prakasam alkaline province in Andhra Pradesh, India. Jour. Geol. Soc. India, 34, 25-45. Leelanandam, C., & Srinivasan, T. P. (1986). Occurrence of ocellar lamprophyres in the Settupalle alkaline pluton, Prakasam district, Andhra Pradesh. Current Science, 55(9), 474-476. Madhavan, V., & Leelanandam, C. (1981). The aenigmatite-bearing alkaline rocks from the Prakasam and Nellore districts of Andhra Pradesh. Current Science, 50(7), 320-321. Srinivasan, T. P., & Ratnakar, J. (1982). Occurrence of nepheline syenite within quartz syenite of Settupalle, Prakasam District, Andhra Pradesh. Current Science, 51(7), 354-355. Upadhyay, D., Raith, M. M., Mezger, K., & Hammerschmidt, K. (2006). Mesoproterozoic rift-related alkaline magmatism at Elchuru, Prakasam alkaline province, SE India. Lithos, 89(3-4), 447-477. Upadhyay, D., Raith, M. M., Mezger, K., Bhattacharya, A., & Kinny, P. D. (2006). Mesoproterozoic rifting and Pan-African continental collision in SE India: evidence from the Khariar alkaline complex. Contributions to Mineralogy and Petrology, 151(4), 434-456.
  • Assam
    • East Karbi Anglong District
      • Samchampi-Samteran alkaline igneous complex
[Melanocratic nephelinolite] Kumar, D., Mamallan, R., Saravanan, B., Jain, S. K., & Krishnamurthy, P. (1989). Petrology and geochemistry of the Samchampi alkaline carbonatite complex, Mikir Hills, Assam, India. Exploration and Research of Atomic Minerals, 2, 183-199. Nag, S., Sengupta, S. K., Gaur, R. K., & Absar, A. (1999). Alkaline rocks of Samchampi-Samteran, District Karbi-Anglong, Assam, India. Proceedings of the Indian Academy of Sciences-Earth and Planetary Sciences, 108(1), 33-48.
    • West Karbi Anglong District
[Ijolite] Heaman, L. M., Srivastava, R. K., & Sinha, A. K. (2002). A precise U–Pb zircon/baddeleyite age for the Jasra igneous complex, Karbi–Analong District, Assam, NE India. Current Science, 744-748. Kumar, D., Mamallan, R., & Dwivedy, K. K. (1996). Carbonatite magmatism in northeast India. Journal of Southeast Asian Earth Sciences, 13(2), 145-158. Melluso, L., Srivastava, R. K., Guarino, V., Zanetti, A., & Sinha, A. K. (2010). Mineral compositions and petrogenetic evolution of the ultramafic-alkaline–carbonatitic complex of Sung Valley, northeastern India. The Canadian Mineralogist, 48(1), 205-229. Srivastava, R. K., & Sinha, A. K. (2004). Geochemistry of Early Cretaceous alkaline ultramafic-mafic complex from Jasra, Karbi Anglong, Shillong plateau, northeastern India. Gondwana Research, 7(2), 549-561. Srivastava, R. K., & Sinha, A. K. (2007). Nd and Sr isotope systematics and geochemistry of a plume-related Early Cretaceous alkaline-mafic-ultramafic igneous complex from Jasra, Shillong Plateau, northeastern India. SPECIAL PAPERS-GEOLOGICAL SOCIETY OF AMERICA, 430, 815-830.
  • Chhattisgarh
    • Kondagaon District
[Lamproite] Yellappa, T., Rao, N. C., & Chetty, T. R. K. (2010). Occurrence of lamproitic dykes at the northern margin of the Indravati basin, Bastar craton, Central India. Journal of the Geological Society of India, 75(4), 632-643.
    • Raipur District
[Kimberlite] Automatically generated from locality name
[Kimberlite] Rao, N. C., Burgess, R., Anand, M., & Mainkar, D. (2007). ^ 4^ 0Ar-^ 3^ 9Ar Dating of the Kodomali Pipe, Bastar Craton, India: A Pan-African (491+/-11 Ma) Age of Diamondiferous Kimberlite Emplacement. Journal-Geological Society of India, 69(3), 539.
[Kimberlite] Rao, N. C., Burgess, R., Anand, M., & Mainkar, D. (2007). ^ 4^ 0Ar-^ 3^ 9Ar Dating of the Kodomali Pipe, Bastar Craton, India: A Pan-African (491+/-11 Ma) Age of Diamondiferous Kimberlite Emplacement. Journal-Geological Society of India, 69(3), 539.
[Kimberlite] Rao, N. C., Burgess, R., Anand, M., & Mainkar, D. (2007). ^ 4^ 0Ar-^ 3^ 9Ar Dating of the Kodomali Pipe, Bastar Craton, India: A Pan-African (491+/-11 Ma) Age of Diamondiferous Kimberlite Emplacement. Journal-Geological Society of India, 69(3), 539.
[Kimberlite] Rao, N. C., Burgess, R., Anand, M., & Mainkar, D. (2007). ^ 4^ 0Ar-^ 3^ 9Ar Dating of the Kodomali Pipe, Bastar Craton, India: A Pan-African (491+/-11 Ma) Age of Diamondiferous Kimberlite Emplacement. Journal-Geological Society of India, 69(3), 539.
[Kimberlite] Rao, N. C., Burgess, R., Anand, M., & Mainkar, D. (2007). ^ 4^ 0Ar-^ 3^ 9Ar Dating of the Kodomali Pipe, Bastar Craton, India: A Pan-African (491+/-11 Ma) Age of Diamondiferous Kimberlite Emplacement. Journal-Geological Society of India, 69(3), 539.
  • Gujarat
    • Chhota Udaipur District
[Carbonatite] 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.; Viladkar, S. G., & Wimmenauer, W. (1992). Geochemical and petrological studies on the Amba Dongar carbonatites (Gujarat, India). Chem. Erde, 52, 277-291.; 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.
[Carbonatite] Gwalani, L. G., Rock, N. M. S., Chang, W. J., Fernandez, S., Allegre, C. J., & Prinzhofer, A. (1993). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Igneous Province, Gujarat, India: 1. Geology, petrography and petrochemistry. Mineralogy and Petrology, 47(2-4), 219-253. Khandelwal, M. K., Maithani, P. B., Pant, P. C., Hansda, P. K., & Ramachandran, S. (1997). Geological and Geochemical Studies on Carbonatites and Rocks of Carbonatite (?) Affinity from Areas North of the Narmada Lineament in Madhya Pradesh and Gujarat. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 50, 307-314. 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. Sukheswala, R. N., & Avasia, R. K. (1971). Carbonatite-alkalic complex of Panwad-Kawant, Gujarat, and its bearing on the structural characteristics of the area. Bulletin Volcanologique, 35(3), 564-578. Viladkar, S. G., & Avasia, R. K. (1994). Analcime-phonolite and associated alkaline rocks of Panwad-Kawant Complex, Gujarat, India. Chem Erde, 54, 49-66.
[Carbonatite] Sethna, S. F., SF, S., & SM, B. (1981). Petrology of the carbonatites and associated alkaline rocks of Siriwasan, Chhota Udaipur. Journal of the Geological Society of India, 22, 417-425. Gwalani, L. G., Rock, N. M. S., Chang, W. J., Fernandez, S., Allegre, C. J., & Prinzhofer, A. (1993). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Igneous Province, Gujarat, India: 1. Geology, petrography and petrochemistry. Mineralogy and Petrology, 47(2-4), 219-253. Sukheswala, R. N., & Borges, S. M. (1975). The carbonatite-injected sandstones of Siriwasan, Chhota Udaipur, Gujarat. Indian Jour. Earth Sci, 2(1), 1-10.
    • Junagadh District (Girnar)
[Lamprophyre] Bose, M. K. (1971). Petrology of the nepheline syenite of Mount Girnar, India. Lithos, 4(4), 357-366. Bose, M. K. (1973). Petrology and geochemistry of the igneous complex of Mount Girnar, Gujarat, India. Contributions to Mineralogy and Petrology, 39(3), 247-266. Czygan, W. 1985. Petrography and geochemistry of foid syenites and related rocks of the Deccan Trap area, India. Indian Mineralogist (Sukheswala Volume), 20-43. Subba Rao, S. (1964). The geology of the igneous complex of the Girnar hills, Gujarat State, India. Int. Geol. Congr., 22nd, New Delhi, 1964, Rep: VII, Sect, 7, 42-60. Rao, S. S. (1968). The Petrology of the Lamprophyres of the Girnar Hills, Kathiawar, India. Geological Society of India, 9(1), 82-87. Paul, D. K., Potts, P. J., Rex, D. C., & Beckinsale, R. D. (1977). Geochemical and petrogenetic study of the Girnar igneous complex, Deccan volcanic province, India. Geological Society of America Bulletin, 88(2), 227-234.
    • 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.
[Lamprophyre] Paul, D. K., Ray, A., Das, B., Patil, S. K., & Biswas, S. K. (2008). Petrology, geochemistry and paleomagnetism of the earliest magmatic rocks of Deccan Volcanic Province, Kutch, Northwest India. Lithos, 102(1-2), 237-259.
      • 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.
  • Jharkhand
    • Dhanbad District
[Minette] Kent, R. W., Kelley, S. P., & Pringle, M. S. (1998). Mineralogy and 40Ar/39Ar geochronology of orangeites (Group II kimberlites) from the Damodar Valley, eastern India. Mineralogical Magazine, 62(3), 313-323. Rock, N. M. S., Griffin, B. J., Edgar, A. D., Paul, D. K., & Hergt, J. M. (1992). A spectrum of potentially diamondiferous lamproites and minettes from the Jharia coalfield, eastern India. Journal of Volcanology and Geothermal Research, 50(1-2), 55-83. Srivastava, R. K., Rao, N. C., & Sinha, A. K. (2009). Cretaceous potassic intrusives with affinities to aillikites from Jharia area: magmatic expression of metasomatically veined and thinned lithospheric mantle beneath Singhbhum Craton, Eastern India. Lithos, 112, 407-418. Mitchell, R. H. (2007). Potassic rocks from the Gondwana coalfields of India: Closing Pandora's box of petrological confusion?. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 69(3), 505.
    • Ramgarh District
[Minette] Basu, A., Bhattacharya, A. K., & Paul, P. K. (1997). Petrology and geochemistry of the lamprophyric rocks from the Bokaro Coalfield, Bihar and their economic potential. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 50, 255-266. Mitchell, R. H. (2007). Potassic rocks from the Gondwana coalfields of India: Closing Pandora's box of petrological confusion?. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 69(3), 505-512. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.98
  • Kerala
    • Idukki district
[Carbonatite] Nair, N. G. K., Santosh, M., & Thampi, P. K. (1984). Alkali granite-syenite-carbonatite association in Munnar Kerala, India; implications for rifting, alkaline magmatism and liquid immiscibility. Proceedings of the Indian Academy of Sciences-Earth and Planetary Sciences, 93(2), 149-158.
    • Kollam District
[Biotitite] Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50. Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236. Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974. Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18.
  • Madhya Pradesh
    • Alirajpur District
[Camptonite] Gwalani, L. G., Rock, N. M. S., Chang, W. J., Fernandez, S., Allegre, C. J., & Prinzhofer, A. (1993). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Igneous Province, Gujarat, India: 1. Geology, petrography and petrochemistry. Mineralogy and Petrology, 47(2-4), 219-253. Hari, K. R., Kumar, M. S., Santosh, M., & Rai, S. K. (1998). Petrology, geochemistry and stable isotope studies of carbonate-rich dyke-like bodies, Chhaktalao area, Madhya Pradesh. JOURNAL OF THE GEOLOGICAL SOCIETY OF INDIA, 52(5), 591-595. Le Maitre, R. W., Streckeisen, A., Zanettin, B., LeBase, M. J., Bonin, B., Batemen, P., ... & Lameyre, J. 2002, Igneous rocks: A classification and glossary of Terms.
    • Panna District
      • Panna
        • Panna Mines
[Lamproite] Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.94
[Lamproite] Scott Smith, B.H. 1989. Lamproites and kimberlites in India. Neues Jahrbuch für Mineralogie Abhandlungen, 161, 193-225. Chatterjee, A. K., & Rao, K. S. (1995). MAJHGAWAN DIAMONDIFEROUS PIPE, MADHYA-PRADESH, INDIA-A REVIEW. Journal of the Geological Society of India, 45(2), 175-189. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.94
  • Maharashtra
    • Raigad District
[Lamprophyre] 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.
  • Meghalaya
    • East Khasi Hills District
[Carbonatite] Melluso, L., Srivastava, R. K., Guarino, V., Zanetti, A., & Sinha, A. K. (2010). Mineral compositions and petrogenetic evolution of the ultramafic-alkaline–carbonatitic complex of Sung Valley, northeastern India. The Canadian Mineralogist, 48(1), 205-229.; Krishnamurthy, P. (1985). Petrology of the carbonatites and associated rocks of Sung Valley, Jaintia hills district, Meghalaya, India. Journal of The Geological Society of India, 26(6), 361-379. Sen, A. K. (1999). Origin of the Sung Valley carbonatite complex, Meghalaya, India: major element geochemistry constraints. Journal of the Geological Society of India, 53(3), 285-297.
    • West Khasi Hills District
[Lamprophyre] RAGHAVAN NAMBIAR, A. (1987). Alkaline magmatism in parts of West Khasi Hills and East Garo Hills district, Meghalaya. Records of the Geological Survey of India, 115(3-4), 25-44. Ray, J. S., Ramesh, R., & Pande, K. (1999). Carbon isotopes in Kerguelen plume-derived carbonatites: evidence for recycled inorganic carbon. Earth and Planetary Science Letters, 170(3), 205-214. Sarkar, A., Datta, A. K., Poddar, B. C., Bhattacharyya, B. K., Kollapuri, V. K., & Sanwal, R. (1996). Geochronological studies of Mesozoic igneous rocks from eastern India. Journal of Southeast Asian Earth Sciences, 13(2), 77-81.
  • Odisha
    • Keonjhar District
[Chromitite] Mondal, S. K., & Baidya, T. K. (1997). Platinum-group minerals from the Nuasahi ultramafic-mafic complex, Orissa, India. Mineralogical Magazine 61: 902-906.; Prichard, H. M., Mondal, S. K., Mukherjee, R., Fisher, P. C., & Giles, N. (2018). Geochemistry and mineralogy of Pd in the magnetitite layer within the upper gabbro of the Mesoarchean Nuasahi Massif (Orissa, India). Mineralium Deposita, 53(4), 547-564.
    • Nuapada District
[Ijolite] Upadhyay, D., Raith, M. M., Mezger, K., Bhattacharya, A., & Kinny, P. D. (2006). Mesoproterozoic rifting and Pan-African continental collision in SE India: evidence from the Khariar alkaline complex. Contributions to Mineralogy and Petrology, 151(4), 434-456. Madhavan, V., & Khurram, M. Z. A. K. (1989). The alkaline gneisses of Khariar, Kalahandi district, Orissa. Mem. Geol. Soc. India, 15, 265-289.
[Lamproite] Automatically generated from locality name
  • Rajasthan
    • Barmer District
[Carbonatite] Chandrasekaran, V., & Chawade, M. P. (1990). Carbonatites of Barmer district, Rajasthan. Indian Minerals, 44(4), 315-324.
[Alvikite] Bhushan, S. K. (2015). Geology of the Kamthai rare earth deposit. Journal of the Geological Society of India, 85(5), 537-546.
      • Malani Igneous Province
[Ijolite] Chandrasekaran, V., Srivastava, R. K., & Chawade, M. P. (1990). Geochemistry of the alkaline rocks of Sarnu-Dandali area, district Barmer, Rajasthan, India. Journal of the Geological Society of India, 36(4), 365-382. Chandrasekaran, V., & Chawade, M. P. (1990). Carbonatites of Barmer district, Rajasthan. Indian Minerals, 44(4), 315-324. Chandrasekaran, V., & Srivastava, R. K. (1992). Geochemistry of the Sarnu-Dandali carbonatites, District Barmer, Rajasthan, India. Journal of the Geological Society of India, 39(4), 321-328. Ray, J. S., & Ramesh, R. (1999). Evolution of carbonatite complexes of the Deccan flood basalt province: stable carbon and oxygen isotopic constraints. Journal of Geophysical Research: Solid Earth, 104(B12), 29471-29483. Srivastava, R. K. (1989). Alkaline and peralkaline rocks of Rajasthan. Mem. Geol. Soc. India, 15, 3-24.
    • Jaipur district
      • Sikar District
[Carbonatite] Basu, S. K., & Narsayya, B. L. (1982). Note on a zone of probable carbonatite-alkali metasomatic rock associotion in the eastern part of Khetri copper belt, Northeastern Rajasthan. Indian Minerals, 36(1), 29-31. Saxena, M. N., Gupta, L. N., & CHAUDHRI, N. (1984). Carbonatite dikes in Dhanota-Dhancholi hills, Narnaul, Haryana. Current science, 53(12), 651-652.
    • Jodhpur district
      • Sirohi district
[Melanocratic nephelinolite] Narayan Das, G.R., Sharma, C.V. & Navaneetham, K.V. 1982. Carbonate-alkaline Complex of Mundwara. Journal of the Geological Society of India, 23, 604-609. Subrahmanyam, N. P., & Leelanandam, C. (1991). Geochemistry and petrology of the cumulophyric layered suite of rocks from the Toa pluton of the Mundwara alkali igneous complex, Rajasthan. Journal of the Geological Society of India, 38(4), 397-411. Rathore, S. S., Venkatesan, T. R., & Srivastava, R. K. (1996). Mundwara alkali igneous complex, Rajasthan, India: Chronology and strontium isotope systematics. Journal of the Geological Society of India, 48, 515-528. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.87
[Melanocratic nephelinolite] Chakraborti, M. K. & Bose, M.K. (1978). Theralite-melteigite-carbonatite association in Mer ring of Mundwara suite, Sirohi district, Rajasthan. Journal of the Geological Society of India, 19, 454-463. Bose, M. K., & Gupta, D. D. (1973). Petrology of the alkali syenites of the Mundwara magmatic suite, Sirohi, Rajasthan, India. Geological Magazine, 110(5), 457-466.
[Melanocratic nephelinolite] Subrahmanyam, N. P., & Leelanandam, C. (1991). Geochemistry and petrology of the cumulophyric layered suite of rocks from the Toa pluton of the Mundwara alkali igneous complex, Rajasthan. Journal of the Geological Society of India, 38(4), 397-411.
    • Udaipur Division
      • Udaipur District
        • Udaipur
[Carbonatite] Viladkar, S. G., & Wimmenauer, W. (1986). Mineralogy and geochemistry of the Newania carbonatite-fenite complex, Rajasthan, India. Neues Jahrb. Mineral. Abh, 156, 1-21. Viladkar, S. G. (1980). The fenitized aureole of the Newania carbonatite, Rajasthan. Geological Magazine, 117(3), 285-292.
  • Tamil Nadu
    • Chennai district
      • Coimbatore District
[Carbonatite] Anantharamu, T. R., RAO, K., MANJUNATHA, AHMED, S., PRASAD, T., REDDY, T., ... & SUGAVANAM, E. (1995). CARBONATITE AROUND AJJIPURAM, KOLLEGAL TALUK, KARNATAKA. JOURNAL OF THE GEOLOGICAL SOCIETY OF INDIA, 46(6), 663-668.
    • Krishnagiri District
[Carbonatite] Natarajana, M., Rao, B. B., Parthasarathy, R., Kumar, A., & Gopalan, K. (1994). 2.0 ga old pyroxenite-carbonatite complex of Hogenakal, Tamil Nadu, south India. Precambrian Research, 65(1-4), 167-181. Srinivasan, V. (1977). The carbonatite of Hogenakal, Tamil Nadu, South India. Geological Society of India, 18(11), 598-604.
[Silicocarbonatite] Ackerman, L., Magna, T., Rapprich, V., Upadhyay, D., Krátký, O., Čejková, B., ... & Hrstka, T. (2017). Contrasting petrogenesis of spatially related carbonatites from Samalpatti and Sevattur, Tamil Nadu, India. Lithos, 284, 257-275.
[Søvite] Ackerman, L., Magna, T., Rapprich, V., Upadhyay, D., Krátký, O., Čejková, B., ... & Hrstka, T. (2017). Contrasting petrogenesis of spatially related carbonatites from Samalpatti and Sevattur, Tamil Nadu, India. Lithos, 284, 257-275.
    • Salem District
      • Sankari Taluka
[Carbonatite] Rao, C. S., Das, G. N., Setty, B. K., & Perumal, N. V. A. S. (1978). Radioactive Carbonatites of Pakkanadu and Mulakkadu, Salem District, Tamil Nadu. Geological Society of India, 19(2), 53-63.
    • Theni District
[Carbonatite] Balakrishnan, P., & BHATTACHARYA, S. (1985). Carbonatite body near Kambammettu, Tamil Nadu. Journal of the Geological Society of India, 26(6), 418-421.
[Carbonatite] Automatically generated from locality name
    • Tirunelveli District
[Carbonatite] Ramasamy, R. (1996). Carbonatite dykes from Kudangulam area, near Cape Comorin, Tamil Nadu. JOURNAL OF THE GEOLOGICAL SOCIETY OF INDIA, 48(2), 221-226.
    • Tiruppur District
[Melanocratic nephelinolite] Rao, B. B. (1982). Petrology of the alkaline rocks around Sivamalai, Coimbatore district, Tamilnadu, India. Geologische Rundschau, 71(1), 263-279. Bose, M. K. (1971). Petrology of the alkalic suite of Sivamalai, Coimbatore, Tamil Nadu. Geological Society of India, 12(3), 241-261. Bose, M. K., Roy, A. K. G., & Czygan, W. (1982). K-Rb relations in the alkaline suites of the Eastern Ghats precambrian belt, India. Lithos, 15(1), 77-84. Czygan, W., & Goldenberg, G. (1989). Petrography and geochemistry of the alkaline complexes of Sivamalai, Elchuru and Uppalapadu. India. Mem. Geol. Soc. India, 15, 225-240. Rao, T. S., Narayana, B. L., & Gopalan, K. (1994). Rb-Sr age of the Sivamalai alkaline complex, Tamil Nadu. Proceedings of the Indian Academy of Sciences-Earth and Planetary Sciences, 103(3), 425-437.
    • Vellore District
      • Tiruppattur
[Lamprophyre] Mukhopadhyay, S., Ray, J., Chattopadhyay, B., Sengupta, S., Ghosh, B., & Mukhopadhyay, S. (2011). Significance of mineral chemistry of syenites and associated rocks of Elagiri Complex, Southern Granulite Terrane of the Indian Shield. Journal of the Geological Society of India, 77(2), 113-129.
  • Telangana
    • Khammam District
[Lamprophyre] Adhikary, D., Sahoo, R. K., & Behara, K. K. (2017) New Finding Alkaline Lamprophyre Dykes Cluster in the Western Margin of the Proterozoic Pakhal Basin in and Around Khammam, Telangana, India: Evidence of Alkaline Magmatism. In Magmatism of the Earth and related strategic metal deposits (pp. 58-60).
    • Mahabubnagar district
[Kimberlite] Automatically generated from locality name
    • Nalgonda District
[Lamproite] Kaur, G., & Mitchell, R. H. (2017) Mineralogy of the baotite-bearing Gundrapalli lamproite, Nalgonda district, Telangana, India. 11th International Kimberlite Conference Extended Abstract No. 11IKC-4499, 2017
[Lamproite] Sridhar, M., & Rau, T. K. (2005). Discovery of a new lamproite field-Ramadugu Lamproite field (RLF), Nalgonda district, Andhra Pradesh. Proceedings of Group Discussion on Kimberlites and related rocks. Geol. Soc. India, Bangalore, 55-57.
[Lamproite] Talukdar, D., Pandey, A., Rao, N. C., Kumar, A., Pandit, D., Belyatsky, B., & Lehmann, B. (2018). Petrology and geochemistry of the Mesoproterozoic Vattikod lamproites, Eastern Dharwar Craton, southern India: evidence for multiple enrichment of sub-continental lithospheric mantle and links with amalgamation and break-up of the Columbia supercontinent. Contributions to Mineralogy and Petrology, 173(8), 67.
  • West Bengal
    • Paschim Bardhaman District
[Lamproite] Mitchell, R. H. & Fareeduddin (2009). Mineralogy of peralkaline lamproites from the Raniganj Coalfield, India. Mineralogical Magazine, 73, 457-477. Middlemost, E. A., Paul, D. K., & Fletcher, I. R. (1988). Geochemistry and mineralogy of the minette-lamproite association from the Indian Gondwanas. Lithos, 22(1), 31-42.
    • Purulia District
[Carbonatite] Automatically generated from locality name
[Carbonatite] Chakrabarty, A., & Sen, A. K. (2010). Enigmatic association of the carbonatite and alkali-pyroxenite along the Northern Shear Zone, Purulia, West Bengal: a saga of primary magmatic carbonatite. Journal of the Geological Society of India, 76(4), 403-413. Chakrabarty, A., Sen, A. K., & Ghosh, T. K. (2009). Amphibole—a key indicator mineral for petrogenesis of the Purulia carbonatite, West Bengal, India. Mineralogy and Petrology, 95(1-2), 105-112. Ghosh Roy, A. K., & Sengupta, P. R. (1993). Alkalic-carbonatitic magmatism and associated mineralisation along the Porapahar-Tamar lineament in the Proterozoic of Purulia District, West Bengal. Indian journal of earth sciences, 20(3-4), 193-200.
[Carbonatite] Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.99
Indonesia
 
  • Central Kalimantan Province
[Kajanite] Wagner, C. (1986). Mineralogy of the type kajanite from Kalimantan. Similarities and differences with typical lamproites. Bulletin de minéralogie, 109(5), 589-598.
  • 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.
[Diopside-madupitic lamproite] 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
    • Osku County
[Lamprophyre] Moine-Vaziri, H., Khalili-Marandi, S., & Brousse, R. (1991). Importance d'un volcanisme potassique, au Miocène supérieur, en Azerbaidjan (Iran). Comptes rendus de l'Académie des sciences. Série 2, Mécanique, Physique, Chimie, Sciences de l'univers, Sciences de la Terre, 313(13), 1603-1610. Le Maitre, R. W., Streckeisen, A., Zanettin, B., LeBase, M. J., Bonin, B., Batemen, P., ... & Lameyre, J. 2002, Igneous rocks: A classification and glossary of Terms. Moayyed, M., Moazzen, M., Calagari, A. A., Jahangiri, A., & Modjarrad, M. (2008). Geochemistry and petrogenesis of lamprophyric dykes and the associated rocks from Eslamy peninsula, NW Iran: Implications for deep-mantle metasomatism. Chemie der Erde-Geochemistry, 68(2), 141-154. Stocklin, J., & Nabavi, M. H. (1973). Tectonic map of Iran. Geological Survey of Iran, Tehran. Pang, K. N., Chung, S. L., Zarrinkoub, M. H., Lin, Y. C., Lee, H. Y., Lo, C. H., & Khatib, M. M. (2013). Iranian ultrapotassic volcanism at~ 11 Ma signifies the initiation of post‐collisional magmatism in the A rabia–E urasia collision zone. Terra Nova, 25(5), 405-413.
  • Fars Province
    • Neyriz County
[Chromitite] Taghipour, B., & Ahmadnejad, F. (2018). Platinum‐Group Elements Geochemistry and Chromian Spinel Composition in Podiform Chromitites and Associated Peridotites from the Cheshmeh‐Bid Deposit, Neyriz, Southern Iran: Implications for Geotectonic Setting. Acta Geologica Sinica‐English Edition, 92(1), 183-209.
[Chromitite] Taghipour, B., & Ahmadnejad, F. (2018). Platinum‐Group Elements Geochemistry and Chromian Spinel Composition in Podiform Chromitites and Associated Peridotites from the Cheshmeh‐Bid Deposit, Neyriz, Southern Iran: Implications for Geotectonic Setting. Acta Geologica Sinica‐English Edition, 92(1), 183-209.
  • 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.
Iraq
 
  • Sulaymaniyah Governorate
[Chromitite] Ismail, S. A., Mirza, T. M., & Carr, P. F. (2010). Platinum-group elements geochemistry in podiform chromitites and associated peridotites of the Mawat ophiolite, northeastern Iraq. Journal of Asian Earth Sciences, 37(1), 31-41.
Ireland
 
  • Leinster
    • Co. Meath
      • Navan (An Uaimh)
        • Navan Mine (Tara Mine)
[Calcite-carbonatite] Yesares, L.; Drummond, D.A.; Hollis, S.P.; Doran, A.L.; Menuge, J.F.; Boyce, A.J.; Blakeman, R.J.; Ashton, J.H. (2019) Coupling Mineralogy, Textures, Stable and Radiogenic Isotopes in Identifying Ore-Forming Processes in Irish-Type Carbonate-Hosted Zn–Pb Deposits. Minerals 9, 335.
Israel
 
  • Haifa District
    • Mount Carmel
[Kimberlite] Griffin, W. L., Gain, S. E. M., Adams, D. T., Huang, J. X., Saunders, M., Toledo, V., ... & O’Reilly, S. Y. (2016). First terrestrial occurrence of tistarite (Ti2O3): Ultra-low oxygen fugacity in the upper mantle beneath Mount Carmel, Israel. Geology, 44(10), 815-818.
[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.
  • 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.
Italy
 
  • Lazio
    • Metropolitan City of Rome Capital
      • 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
[Leucitite] 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.; 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.
        • 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.
  • 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.
    • 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.
  • Tuscany
    • Pisa Province
      • Lajatico
        • Orciatico
[Lamproite] Automatically generated from locality name
      • Montecatini Val di Cecina
[Lamproite] Automatically generated from locality name
  • Umbria
    • Perugia Province
      • Spoleto
[Carbonatite] Wheeler, S., Spigarelli, S., Stoppa, F., & Rinaldi, R. (1996). Secondary minerals from the igneous complex of Colle Fabbri, Spoleto (PG). Plinius, 16(2), 1.
Japan
 
  • Aomori Prefecture
    • Kamikita District
[Spessartite] INOUE, A., & UTADA, M. (1991). Hydrothermal Alteration in the Kamikita Kuroko Mineralization Area. Mining Geology, 41(228), 203-218.
  • Hokkaidō Prefecture
    • Tokachi Subprefecture
      • Nakagawa District
[Camptonite] Nemoto, T. (1934). Preliminary Note on Alkaline Rhyolites from Tokati, Hokkaido. Journal of the Faculty of Science, Hokkaido Imperial University. Ser. 4, Geology and mineralogy, 2(4), 299-321. OWADA, M., NANAYAMA, F., SHIMURA, T., & Osanai, Y. (1992). Lamprophyre from the Nakanogawa group in the central zone of Hokkaido, northern Japan. Journal of Mineralogy, Petrology and Economic Geology, 87(2), 62-67.
  • 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.
    • Ochi District
[Minette] Nagao, T., Matsumoto, Y., Matsuda, T., Iizumi, S., & Oda, M. (1986). Cenozoic minette from Kawamoto district, Shimane Prefecture, Southwest Japan. The Journal of the Japanese Association of Mineralogists, Petrologists and Economic Geologists, 81(10), 423-426. 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.
  • Shizuoka Prefecture
    • Shizuoka City
      • Aoi Ward
[Camptonite] Ohashi, F. (1980). An alkali olivine basalt and its related rocks from the Setogawa Group, Shizuoka Prefecture. Journal of the Geological Society of Japan, 86, 799-815. 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.
  • Tottori Prefecture
[Chromitite] Arai, S., & Yurimoto, H. (1994). Podiform chromitites of the Tari-Misaka ultramafic complex, southwestern Japan, as mantle-melt interaction products. Economic Geology, 89(6), 1279-1288.
Kazakhstan
 
  • Akmola Region
    • Zerendy
[Carbonatite] Kogaro et al (1995) Alkaline Rocks and Carbonatites of the World Part 2: USSR
  • Kostanay Region
    • Kamysty
[Lamprophyre] Seltmann, R., & Porter, T. M. (2005). The porphyry Cu–Au/Mo deposits of Central Eurasia: 1. Tectonic, geologic and metallogenic setting and significant deposits. Super porphyry copper and gold deposits: a global perspective, 2, 467-512.
Kenya
 
  • Homa Bay County
[Carbonatite] Onuonga, I.O., Bowden, P. (2000) Hot-spring and supergene lanthanide mineralization at the Buru carbonatite centre, Western Kenya. Mineralogical magazine, 64:4, 663-673. ; Woolley, A. R. (1987). Alkaline rocks and carbonatites of the world: Africa. Geological Society of London.
[Carbonatite] Automatically generated from locality name
[Carbonatite] Rosatelli, G., Wall, F., Le Bas, M.J. (2003) Potassic glass and calcite carbonatite in lapilli from extrusive carbonatites at Rangwa Caldera Complex, Kenya. Mineralogical Magazine, 67:5, 931-955.
  • Kajiado County
[Ijolite] 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
  • Kwale County
[Ijolite] Nyambok, I.O. (1980) Petrology and geochemistry of the alkaline intrusion, Jombo Hill, Kenya. Geological Magazine, 117:4, 327-338.; Woolley, A. R. (1987). Alkaline rocks and carbonatites of the world: Africa. Geological Society of London.
[Søvite] Coetzee, G.L., Edwards, C.B. (1959) The Mrima Hill Carbonatite, Coast Province, Kenya. South African Journal of Geology, 62:1, 373-397.
  • 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.
Kyrgyzstan
 
  • Issyk-Kul Region
[Camptonite] Soloviev, S. G. (2011). Geology, mineralization, and fluid Inclusion characteristics of the Kensu W-Mo skarn and Mo-W-Cu-Au alkalic porphyry deposit, Tien Shan, Kyrgyzstan. Economic Geology, 106(2), 193-222.
  • Osh Region
    • Zeravshan range
[Carbonatite] Vrublevskii, V. V., Morova, A. A., Bukharova, O. V., & Konovalenko, S. I. (2017). Mineralogy and Geochemistry of Triassic Carbonatites in the Matcha Alkaline Intrusive Complex (Turkestan-Alai Ridge, Kyrgyz Southern Tien Shan), SW Central Asian Orogenic Belt. Journal of Asian Earth Sciences.; Vrublevskii, V. V. (2017, December). Origin of carbonatites of the Matcha alkaline pluton from Turkestan-Alai ridge, Kyrgyz Southern Tien Shan. In IOP Conference Series: Earth and Environmental Science (Vol. 110, No. 1, p. 012023). IOP Publishing.; Vrublevskii, V. V., Morova, A. A., Bukharova, O. V., & Konovalenko, S. I. (2018). Mineralogy and geochemistry of triassic carbonatites in the Matcha alkaline intrusive complex (Turkestan-Alai Ridge, Kyrgyz Southern Tien Shan), SW Central Asian orogenic belt. Journal of Asian Earth Sciences, 153, 252-281.
Lesotho
 
  • Butha-Buthe District
[Kimberlite] American Mineralogist (1968): 53: 1833-1840.
Luxembourg
 
  • Luxembourg District
    • Esch-sur-Alzette
      • Differdange
[Minette] Heinen, Guy (1996) De mineralen van het Groothertogdom Luxemburg. Pages 50-52 in: Schatten der Aarde. Van mineraal tot juweel. Tentoonstelling in de abdij Saint-Gérard de Brogne van 27 april tot 27 oktober 1996. Catalogus opgemaakt onder de leiding van R. Warin, AGAB en P. Van hee, MKA (in Dutch).
Madagascar
 
  • Amoron'i Mania
    • Ambatofinandrahana
      • Itremo
[Biotitite] Rasoamalala, V., Salvi, S., Béziat, D., Ursule, J.-Ph., Cuney, M., Parseval, Ph. de, Guillaume, D., Moine, B. & Andriamampihantona, J. (2014): Geology of bastnaesite and monazite deposits in the Ambatofinandrahana area, central part of Madagascar: An overview. Journal of African Earth Sciences. 94, 128-140
  • Anosy
    • Betroka
      • Ianabinda
[Biotitite] Rakotondrazafy, A.F.M., Giuliani, G., Ohnenstetter, D., Fallick, A.E., Rakotosamizanany, S., Andriamamonjy, A., Ralantoarison, T., Razanatseheno, M., Offant, Y., Garnier, V., Maluski, H., Dunaigre, C., Schwarz, D., and Ratrimo, V. (2008): Gem corundum deposits of Madagascar: A review. Ore Geology Reviews 34, 134-154.
    • Taolañaro (Fort Dauphin)
      • Isaka-Ivondro
[Biotitite] Montel, J.-M., Razafimahatratra, D., de Parseval, P., Poitrasson, F., Moine, B., Seydoux-Guillaumede, A.-M., Pik, R., Arnaud, N and Giberth, F. (2018) The giant monazite crystals from Manangotry (Madagascar). Chemical Geology. 484: 36-50
  • Atsinanana
    • Toamasina II
      • Sahambala
[Chromitite] Grieco, G., Merlini, A., Cazzaniga, A., & Moroni, M. (2010). Platinum Group Minerals of Ranomena chromitite, Tamatave district, Madagascar. In General Meeting of the International Mineralogiacl Association: Bonds and bridges. Department of Mineralogy, Geochemistry and Petrology, University of Szeged (Hungary).
  • Diana
    • Ambanja
      • Anorotsangana
        • Bezavona Massif
[Monchiquite] Lacroix, A. (1922): Mineralogie de Madagascar, Tome I. Géologie-Minéralogie descriptive. A.Challamel (Éditeur), Paris, 624pp
  • Itasy
    • Arivonimamo
      • Arivonimamo II
[Ankaratrite] Lacroix, A. (1922): Mineralogie de Madagascar, Tome I. Géologie-Minéralogie descriptive. A.Challamel (Éditeur), Paris. 624p (p.598)
Malawi
 
  • Southern Region
    • Phalombe
[Calcite-carbonatite] http://www.mkango.ca/s/songwe.asp; Broom-Fendley S, Brady A, Horstwood M, Wall F, Gunn G, Dawes W, Andersen J (2014) The Songwe-Hill Carbonatite, Malawi: new mapping, geochemistry and U-Pb dating. 21 st meeting of the International Mineralogical Association. p 195
    • Zomba
[Carbonatite] Dowman, E., Wall, F., Treloar, P. J., Rankin, A. H., & Corkhill, C. (2017). Rare-earth mobility as a result of multiple phases of fluid activity in fenite around the Chilwa Island Carbonatite, Malawi. Mineralogical Magazine, 81(6), 1367-1395.
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.
Mauritania
 
  • Dakhlet Nouadhibou Region
    • Chami
[Spessartite] Mauritanian Geological Survey (1995) database
  • Tiris Zemmour Region
    • F'dérik
      • Tourassin
[Magnetitite] Mauritanian Geological Survey (1995) database
Mexico
 
  • Puebla
    • Tehuitzingo Municipality
[Chromitite] Proenza, J.; Ortega-Gutierrez, F.; Camprubí, A.; Tritlla, J.; Elias-Herrera, M. and Reyes-Salas, M. (2004) "The Paleozoic serpentinite-enclosed chromitites from Tehuitzingo (Acatlan Complex, SW Mexico): a petrological, mineralogical, and PGE-distribution study". Journal of South American Earth Sciences , 16,. 649-666.
Mongolia
 
  • Dornogovi Aimag
    • Khövsgöl
[Calcite-carbonatite] Kynicky, J., et al., (2018) The role of carbonate-fluoride melt immiscibility in shallow REE deposit evolution, Geoscience Frontiers.
  • Ömnögovi Aimag
    • Shara Hulasa Hiid
[Carbonatite] Automatically generated from locality name
Morocco
 
  • Oriental Region
    • Taourirt Province
      • Taourirt
[Lamprophyre] Automatically generated from locality name
Mozambique
 
  • Cabo Delgado Province
    • Xixano
[Lamproite] Oberti R, Boiocchi M, Hawthorne F. C., Robinson P (2010): Crystal structure and crystal chemistry of fluoro-potassic-magnesio-arfvedsonite from Monte Metocha, Xixano region, Mozambique, and discussion of the holotype from Quebec, Canada. Mineralogical Magazine. 74: 951-960
  • Nampula Province
[Calcite-carbonatite] Hurai, V., Paquette, J. L., Huraiová, M., Slobodník, M., Hvožďara, P., Siegfried, P., ... & Milovská, S. (2017). New insights into the origin of the Evate apatite-iron oxide-carbonate deposit, Northeastern Mozambique, constrained by mineralogy, textures, thermochronometry, and fluid inclusions. Ore Geology Reviews, 80, 1072-1091.
Myanmar
 
  • Chin State
    • Falam District
      • Tiddim township
[Chromitite] Heo, C. H. (2017). A preliminary result of prospecting on podiform chromitite in Bophivum area, Myanmar. In Magmatism of the Earth and related strategic metal deposits (pp. 79-80).
Namibia
 
  • Kunene Region
    • Epupa
      • Epembe
[Carbonatite] Zimmermann, R., Brandmeier, M., Andreani, L., Mhopjeni, K., Gloaguen, R. (2016) Remote Sensing Exploration of Nb-Ta-LREE-Enriched Carbonatite (Epembe/Namibia). Remote Sensing, 8, 620.
      • Swartbooisdrif
[Carbonatite] Automatically generated from locality name
  • Otjozondjupa Region
    • Otjiwarongo
[Carbonatite] Buhn, B., Rankin, A.H., Schneider, J. and Dulski, P. (2002). The nature of orthomagmatic carbonatitic fluids precipitating REE, Sr-rich fluorite: fluid-inclusion evidence from the Okorusu fluorite deposit, Namibia. Chemical Geology, 186, 75-98.
  • ǁKaras Region
    • ǃNamiǂNûs Constituency
[Alvikite] Reid, D. L., & Cooper, A. F. (1998, April). Carbonatite and silicate magmas at Dicker Willem, southern Namibia: their origin and source region characteristics. In International Kimberlite Conference: Extended Abstracts (Vol. 7, No. 1, pp. 727-729).
North Korea
 
  • Kangwon Province
    • Kimhwa County
[Ijolite] 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
[Lamprophyre] Kim, Y. U. (1994). Repeated mineralization ages and remobilization of elements in gold ore deposits from the Chonsan, Rumoh, and Chokei mines. Shigen-Chishitsu, 44(247), 339-352.
    • Kusong City
[Nephelinite] Paek, R.J., Gap, K.H., & Jon, G.P. (eds) 1996. Geology of Korea. Foreign languages books publishing house, Pyongyang.
North Macedonia
 
  • Radoviš Municipality
[Carbonatite] Dolenec, M., Serafimovski, T., Daneu, N., Dolenec, T., Rogan Šmuc, N., Vrhovnik, P., & Lojen, S. (2015). The case of the carbonatite-like dyke of the Madenska River complex at the Kriva Lakavica section in the Republic of Macedonia: oxygen and carbon isotopic constraints. Turkish Journal of Earth Sciences, 24, 627-639.
Norway
 
  • Akershus
[Camptonite] Kamphaug, E. (1986) Geologien i området Blystadlia-Rælingen. NAGS-nytt 13 (3): 4-13
      • Løvenstad
[Camptonite] Kamphaug, E. (1986) Geologien i området Blystadlia-Rælingen. NAGS-nytt 13 (3): 4-13.
  • Oppland
    • Gran
[Camptonite] Automatically generated from locality name
  • Svalbard
    • Bear Island
[Dolomite-carbonatite] Flood, B. (1967) Sulphide mineralization within the Hecla Hoek Complex in Westspitsbergen and Bjørnøya. Norsk Polarinstitutt. Årbok 1967: 109-129.
  • Telemark
    • Nome
[Søvite] Nilsen, B. (1963): [No title]. Geologisk Museum. Interne notater 1961-1990. Published by Geologisk Museums Venner, Oslo 1991, p. 11
[Damkjernite] Griffin, W.L. & Taylor, P.N. (1975): The Fen damkjernite: petrology of a "central-complex kimberlite". Physics and Chemistry of the Earth. 9, 163-177
[Damkjernite] Mitchell, R.H. (1980): Pyroxenes of the Fen alkaline complex, Norway. American Mineralogist. 65: 45-54
[Ferrocarbonatite] Andersen, T. (1986): Compositional variation of some rare earth minerals from the Fen complex (Telemark, SE Norway): implications for the mobility of rare earths in a carbonatite system. Mineralogical Magazine. 50: 503-509
[Leucocratic nephelinolite] Mitchell, R.H. (1980): Pyroxenes of the Fen alkaline complex, Norway. American Mineralogist. 65: 45-54
        • Søve Mines
[Søvite] Adamson, O. J. (1950) Report on the Columbium occurrence of the Fen region near Ulefoss i Southern Norway. Norges geologiske undersøkelse. Bergarkivet. BA 1343. 34p [p. 8-9]
[Søvite] Adamson, O. J. (1950) Report on the Columbium occurrence of the Fen region near Ulefoss i Southern Norway. Norges geologiske undersøkelse. Bergarkivet. BA 1343. 34p [p. 9-11]
        • Ulefoss
[Søvite] Sæther, E. (1957) The alkaline rock province of the Fen area in southern Norway. Det Konglige Norske Videnskabsselskaps Skrifter 1957, 1, 150p (p. 51) ; Mitchell, R.H. (1980): Pyroxenes of the Fen alkaline complex, Norway. American Mineralogist. 65: 45-54
  • Troms og Finnmark
    • Hasvik
      • Sørøya
[Carbonatite] Sturt, B. A. & Ramsay, D. M. (1965) The alkaline complex of the Breivikbotn area, Sørøy, Northern Norway. Norges Geologiske Undersøkelse, 231:1-164
[Carbonatite] Roberts, R.J., Corfu,F., Torsvik, T.H., Hetherington, T. J. and L.D. Ashwal (2010) Age of alkaline rocks in the Seiland Igneous Province, Northern Norway. Journal of the Geological Society: 167: 71-81
    • Tromsø
      • Kvaløya
[Lamproite] Zozulya, D.R., Savchenko, E. E., Kullerud, K.,Ravna, E. K. and L. M. Lyalina (2010) Unique accessory Ti-Ba-P mineralization in the Kvalöya ultrapotassic dike, Northern Norway. Geology of Ore Deposits 52, 843-851.
[Lamproite] Zozulya, D.R., Savchenko, E. E., Kullerud, K.,Ravna, E. K. and L. M. Lyalina (2010): Unique accessory Ti-Ba-P mineralization in the Kvalöya ultrapotassic dike, Northern Norway. Geology of Ore Deposits 52, 843-851
[Lamproite] Kullerud, K.,Zozulya, D.R., Bergh, S.G.,Hansen, H.and Ravna E, J.K. (2011): Geochemistry and tectonic setting of a lamproite dyke in Kvaløya, North Norway. Lithos. 126: 278-289.
  • Trøndelag
    • Heim
      • Halsa
[Chromitite] Moore, A.C. (1977): The petrography and possible regional significance of the Hjelmkona ultramafic body (Sagvandite), Nordmøre, Norway. Norsk Geologisk Tidsskrift. 57, 55-64.
[Chromitite] Moore, A.C. (1977): The petrography and possible regional significance of the Hjelmkona ultramafic body (Sagvandite), Nordmøre, Norway. Norsk Geologisk Tidsskrift. 57, 55-64.
  • Vestfold
    • Larvik
      • Brunlanes
[Melilitite] 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.
Pakistan
 
  • Khyber Pakhtunkhwa
    • Khyber Agency
[Carbonatite] Automatically generated from locality name
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
 
  • Lesser Poland Voivodeship
    • Kraków Co.
      • Gmina Krzeszowice
[Lamprophyre] Gołębiowska, B., Rzepa, G., Pieczka, A. (2016): Exceptional Tl-bearing manganese oxides from Zalas, Krakow area, southern Poland. Mineralogia; DOI: 10.1515/mipo-2016-0002
  • Lower Silesian Voivodeship
    • Złotoryja Co.
      • Gmina Złotoryja
[Ankaratrite] Birkenmajer, K., Pécskay, Z., Grabowski, J., Lorenc, M.W., Zagożdżon, P.P. (2004) Radiometric dating of the Tertiary volcanics in Lower Silesia, Poland. IV. Further K-Ar and palaeomagnetic data from Late Oligocene to Early Miocene basaltic rocks of the Fore-Sudetic Block. Annales Societatis Geologorum Poloniae 74:1, 1-19.
  • Opole Voivodeship
    • Głubczyce Co.
      • Gmina Kietrz
[Nephelinite] Wróbel 2007, Geodiversity protection of worked-out quarries after basalt exploitation on the example on Nowa Cerekiew
    • Opole Co.
      • Gmina Niemodlin
[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 Co.
      • Gmina Izbicko
[Nephelinite] Chodyniecka (1967) Bazalt z Góry Św. Anny
      • Gmina Leśnica
[Nephelinite] Chodyniecka (1967), Bazalt z Góry Św. Anny
[Nephelinite] Chodyniecka (1967) Bazalt z Góry Św. Anny
  • Podlaskie Voivodeship
[Ijolite] 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 ; 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
Romania
[Lamprophyre] Ilinca, G. (2012) Upper Cretaceous contact metamorphism and related mineralization in Romania. Acta Mineralogica-Petrographica, Abstract Series, Szeged, Vol. 7.
  • Caraş-Severin
    • Banat Mountains
[Spessartite] Hîrtopanu, P., Udubaşa, G. & Scott, P. (2003): Minerals of the Metamorphosed Mn-Fe Deposits in Romania: Old Deposits, New Species. Acta Mineralogica-Petrographica, Abstract Series 1, Szeged, 44.
  • Harghita
    • Ditrău (Ditró)
      • Jolotca (Orotva)
[Camptonite] Hirtopanu, P., Bermanec, V., Udubasa, G., & Melgarejo, J. C. (2000). Monazite and Allanite from the Ditrau Alkaline Massif, East Carpathians, Romania. Anuarul Institutului Geologic al Romaniei, 72, 41.
Russia
 
  • Amur Oblast
    • Magdagachi district
[Spessartite] Khomich V. G. and N. G. Vlasov (2001) The Pokrovka Epithermal Gold Deposit. pp72-86 in Khanchuk, A.I., Gonevchuk, G.A. & Seltmann, R. (Eds) Metallogeny of the Pacific Northwest (Russian Far East): Tectonics, Magmatism and Metallogeny of Active Continental Margins. IAGOD Guidebook series 11, Dalnauka Publishing House, Vladivostok 2004, 176 p
  • Arkhangelsk Oblast
    • Zimny Bereg District
[Kimberlite] Automatically generated from locality name
        • Kepina occurrence
[Kimberlite] Golubkova, A. B., Nosova, A. A., & Larionova, Y. O. (2013). Mg-ilmenite megacrysts from the Arkhangelsk kimberlites, Russia: genesis and interaction with kimberlite melt and postkimberlite fluid. Geochemistry International, 51(5), 353-381.
        • Zolotitsa occurrence
[Kimberlite] Sazonova, L. V., Nosova, A. A., Kargin, A. V., Borisovskiy, S. E., Tretyachenko, V. V., Abazova, Z. M., & Griban, Y. G. (2015). Olivine from the Pionerskaya and V. Grib kimberlite pipes, Arkhangelsk diamond province, Russia: types, composition, and origin. Petrology, 23(3), 227-258.
  • Bashkortostan
    • Nurali complex (Nurali massif)
[Chromitite] Saveliev, D. E., & Ankusheva, N. N. (2018). Nurali Ophiolite Massif (the Southern Urals): Geological, Structural, and Mineralogical Features. Вестник Пермского университета. Геология, 17(3), 228-244.
  • Buryatia
    • Eastern Sayan
[Biotitite] Gordienko, I. V., Roshchektaev, P. A., & Gorokhovsky, D. V. (2016). Oka ore district of the Eastern Sayan: Geology, structural–metallogenic zonation, genetic types of ore deposits, their geodynamic formation conditions, and outlook for development. Geology of Ore Deposits, 58(5), 361-382.
    • Mama River Basin
      • Maigunda River
[Carbonatite] Vladykin, N. V., & Sotnikova, I. A. (2017). Petrology, geochemistry and source characteristics of the Burpala alkaline massif, North Baikal. Geoscience Frontiers, 8(4), 711-719.
[Carbonatite] Савченко, А. А., & Рипп, Г. С. ЖАРЧИХИНСКОЕ МОЛИБДЕНОВОЕ МЕСТОРОЖДЕНИЕ КАК ПРИМЕР ПОЛИФОРМАЦИОННОГО МНОГОЭТАПНОГО ОБРАЗОВАНИЯ. Сопредседатели оргкомитета, 518. (Geochemical Characteristics of Mineral Parageneses of the Zharchikha Molybdenum Deposit (Republic of Buryatia))
  • Chelyabinsk Oblast
    • Miass
[Carbonatite] Jambor, J.L. and Roberts, A.C. (2002) New mineral names. American Mineralogist: 87: 765-768.
  • Irkutsk Oblast
[Carbonatite] L. Kogarko (1995) Alkaline Rocks and Carbonatites of the World: Part Two: Former USSR
[Carbonatite] Rasskazov, S. V., Il’yasova, A. M., Konev, A. A., Yasnygina, T. A., Maslovskaya, M. N., Fefelov, N. N., ... & Saranina, E. V. (2007). Geochemical evolution of the Zadoi Alkaline-Ultramafic Massif, Cis-Sayan area, southern Siberia. Geochemistry International, 45(1), 1-14.
  • Kamchatka Krai
    • Korf
[Chromitite] Kozlov, A. P., Chanturiya, V. A., Sidorov, E. G., Tolstykh, N. D., & Telegin, Y. M. (2011). Large-volume platinum ore deposits in zonal mafic-ultramafic complexes of the Ural-Alaskan type and the outlook for their development. Geology of ore deposits, 53(5), 374.
[Chromitite] Kutyrev, A. V., Sidorov, E. G., Antonov, A. V., & Chubarov, V. M. (2018). Platinum-group mineral assemblage of the Prizhimny Creek (Koryak Highland). Russian Geology and Geophysics, 59(8), 935-944.
  • Khabarovsk Krai
    • Ayan-Maya district
      • Aldan shield
[Spessartite] Lennikov, A. M., Zalishak, B. L., & Oktyabrsky, R. A. (2004). The Konder massif of ultramafic and alkaline rocks and related PGM mineralization. In Interim IAGOD Conf. Excursion Guidebook. Vladivostok: Dalnauka (p. 29).
    • Badzhalski ore District
[Biotitite] Alekseev, V. I., Marin, Y. B., & Gembitskaya, I. M. (2017). Gahnite in Rare-Metal Metasomatic Rocks of the Verkhneurmiysky Ore Cluster, Amur River Region. Geology of Ore Deposits, 59(8), 765-772.
  • Komi Republic
    • Timan Range
[Carbonatite] Ras, I. K. U., Nedosekova IL, Udoratina OV, Vladykin NV, Pribavkin SV. (2011) Geochemistry and petrochemistry of carbonatites and dyke ultrabasites of Chetlassky complex (Timan, Russia). Abstracts of International conference Ore potential of alkaline, kimberlite and carbonatite magmatism
  • Krasnoyarsk Krai
[Carbonatite] Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
    • Maimecha and Kotui Rivers Basin
[Carbonatite] Badanina, I. Y., & Malitch, K. N. (2011). Origin of platinum-group mineral (PGM) nuggets from the Bor-Uryakh massif (Maimecha-Kotui Province, Russia): evidence from mineral composition. Geophysical Research Abstracts Vol. 13, EGU2011-7934
[Dolomite-carbonatite] Kogarko, L. N., Sorokhtina, N. V., Kononkova, N. N., & Klimovich, I. V. (2013). Uranium and thorium in carbonatitic minerals from the Guli massif, Polar Siberia. Geochemistry International, 51(10), 767-776.
[Carbonatite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name
[Calcite-carbonatite] Zaitsev, V. A., Aksenov, S. M., Rastsvetaeva, R. K., & Chukanov, N. V. (2017). Sr-rich Eudialyte Group Mineral (Cl-deficient Analogues of Taseqite) from Odikhincha Massif, Polar Siberia, Russia. In Magmatism of the Earth and related strategic metal deposits (pp. 319-321).
  • Murmansk Oblast
[Melanocratic nephelinolite] Kukharenko et al, 1965
[Ijolite] Lykova, I. S., Pekov, I. V., Kononkova, N. N., & Shpachenko, A. K. Bafertisite and jinshajiangite from the Gremyakha-Vyrmes alkaline complex, Kola Peninsula.; Sorokhtina, N. V., Kogarko, L. N., Shpachenko, A. K., & Senin, V. G. (2016). Composition and conditions of crystallization of zircon from the rare-metal ores of the Gremyakha–Vyrmes Massif, Kola Peninsula. Geochemistry International, 54(12), 1035-1048.; Liferovich, R. P., Mitchell, R. H., Zozulya, D. R., & Shpachenko, A. K. (2006). Paragenesis and composition of banalsite, stronalsite, and their solid solution in nepheline syenite and ultramafic alkaline rocks. The Canadian Mineralogist, 44(4), 929-942.
[Melanocratic nephelinolite] Kogarko et al. (1995) Alkaline Rocks and Carbonatites of the World, Part 2 Former USSR
      • Koashva Mt
[Ijolite] Khomyakov, A. P., Nechelyustov, G. N., Sokolova, E., Bonaccorsi, E., Merlino, S., & Pasero, M. (2002). Megakalsilite, a new polymorph of KAlSiO4 from the Khibina alkaline massif, Kola peninsula, Russia: Mineral description and crystal structure. The Canadian Mineralogist, 40(3), 961-970.
[Carbonatite] Automatically generated from locality name
    • Kolsky District
[Ijolite] Kogarko, L.N. et al (1995) Alkaline Rocks and Carbonatites of the World Vol 2.
[Phoscorite] Sokolov, S. V. (2014). Portlandite in rocks of carbonatite massifs. Geochemistry International, 52(8), 698-701.
[Phoscorite] Yakovenchuk, V.N., Ivanyuk, G.Yu., Pakhomovsky, Ya.A., Panikorovskii, T.L., Britvin, S.N., Krivovichev, S.V., Shilovskikh, V.V., Bocharov, V.N. (2018): Kampelite, Ba3Mg1.5Sc4(PO4)6(OH)3·4H2O, a new very complex Ba-Sc phosphate mineral from the Kovdor phoscorite-carbonatite complex (Kola Peninsula, Russia. Mineralogy and Petrology: 112: 111–121
[Carbonatite] Mikhailova, J. A., Kalashnikov, A. O., Sokharev, V. A., Pakhomovsky, Y. A., Konopleva, N. G., Yakovenchuk, V. N., ... & Ivanyuk, G. Y. (2016). 3D mineralogical mapping of the Kovdor phoscorite–carbonatite complex (Russia). Mineralium Deposita, 51(1), 131-149.; Gregory Ivanyuk, Andrei Kalashnikov, Julia Mikhailova, Yakov Pakhomovsky, Nataly Konoplyova, Victor Yakovenchuk, Ayya Bazai (2018) 3D mineralogical mapping of the Kovdor phoscorite-carbonatite pipe. in abstracts of the 22nd IMA Meeting Melbourne p101
[Carbonatite] Chakhmouradian, A. R., & Mitchell, R. H. (1998). Lueshite, pyrochlore and monazite-(Ce) from apatite-dolomite carbonatite, Lesnaya Varaka complex, Kola Peninsula, Russia. Mineralogical Magazine, 62(6), 769-782.
    • Monche-Tundra
      • Monchegorsk
[Chromitite] Chistyakova S, Latypov R, Zaccarini F (2014) PGE geochemistry and mineralogy of chromitite dykes from the Sopcheozero deposit, Monchegorsk layered intrusion, Russia. 21 st meeting of the International Mineralogical Association. p 109
    • Northern Karelia
[Siderite carbonatite] Zaitsev, A. N., Sitnikova, M. A., Subbotin, V. V., Fernández-Suárez, J., Jeffries, T. E., & Wall, F. (2004). Sallanlatvi complex—a rare example of magnesite and siderite carbonatites. Phoscorites and carbonatites from mantle to mine: the key example of the Kola Alkaline Province. Mineralogical Society, London, 201-245.
[Carbonatite] Sokolov, S. V. (2014). Portlandite in rocks of carbonatite massifs. Geochemistry International, 52(8), 698-701.
[Calcite-carbonatite] Kalashnikov, A. O., Konopleva, N. G., Pakhomovsky, Y. A., & Ivanyuk, G. Y. (2016). Rare Earth Deposits of the Murmansk Region, Russia—A Review. Economic Geology, 111(7), 1529-1559.
[Calcite-carbonatite] Kozlov, E. N., Fomina, E. N., Mytsa, D. D., & Kirkin, V. V. (2017). Rare-earth carbonatites of the Vuori-Yarvi (Kola Region): First results of the study. In Magmatism of the Earth and related strategic metal deposits (pp. 117-120).
[Melanocratic nephelinolite] Kukharenko et aI., 1965; Kononova and Shanin, 1971; Orlova, 1959.
    • Serpentinite Belt
[Chromitite] Barkov, Andrei Y.; Nikiforov, Andrey A.; Tolstykh, Nadezhda D.; Shvedov, Gennadiy I.; Korolyuk, Vladimir N. (2017): Compounds of Ru-​Se-​S, alloys of Os-​Ir, framboidal Ru nanophases, and laurite-​clinochlore intergrowths in the Pados-​Tundra complex, Kola Peninsula, Russia. European Journal of Mineralogy, 29, 613-621.
    • Turii Cape
[Calcite-carbonatite] Liferovich, R. P., Mitchell, R. H., Zozulya, D. R., & Shpachenko, A. K. (2006). Paragenesis and composition of banalsite, stronalsite, and their solid solution in nepheline syenite and ultramafic alkaline rocks. The Canadian Mineralogist, 44(4), 929-942.
    • Voron'i Tundry
[Spessartite] Gavrilenko, B.V. (2001) Ore potential of acidic rocks of the Achean Kolmozero-Voronya zone, NE Baltic Shield. in: Piestrzynski, A. et al. (ed.) (2001) Mineral Deposits at the Beginning of the 21st Century. Proceedings of the joint sixth biennal sga-seg meeting, Kraków, Poland, 26-29 August 2001.
  • Republic of Karelia
    • Äänisenranta District
      • Zaonezhskoe kimberlite field
[Kimberlite] Putintseva, E. V., & Spiridonov, E. M. (2017). Allanite-(Ce): a Typical Mineral of Metakimberlite from the Lake Kimozero Area, Karelia. Geology of Ore Deposits, 59(8), 720-728.
    • Louhi District
[Ijolite] https://www.researchgate.net/figure/Alkaline-complexes-and-carbonatites-in-Kola-peninsula-northern-Russian-Karelia-and_fig1_225412232
  • Sakha Republic (Yakutia)
    • Aldan Shield
      • Eastern Aldan
[Ijolite] Shadenkov, Y. M. (1989). Metasomatic assemblages in wall rocks of the Ingili pluton, eastern Aldan. International Geology Review, 31(7), 697-706.
      • Tyry River
[Kersantite] Chernyshev, I. V., Bortnikov, N. S., Chugaev, A. V., Gamyanin, G. N., & Bakharev, A. G. (2011). Metal sources of the large Nezhdaninsky orogenic gold deposit, Yakutia, Russia: Results of high-precision MC-ICP-MS analysis of lead isotopic composition supplemented by data on strontium isotopes. Geology of Ore Deposits, 53(5), 353.
[Kimberlite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name; Nokleberg, W.J., Bundtzen, T.K., Dawson, K.M., Eremin R.A., Goryachev, N.A., Koch R.D., Ratkin, V.V., Rozenblum, I.S., Shpikerman, V.I., Frolov, Y.F., Gorodinsky, M.E., Melnikov, V.D., Diggles, M.F., Ognyanov, N.V., Petrachenko, E.D., Petrachenko, R.I., Pozdeev, A.I., Ross, K.V., Wood, D.H., Grybeck, Donald, Khanchuk, A.I., Kovbas, L.I., Nekrasov, I.Ya., and Sidorov, A.A., 1997, Significant metalliferous and selected non-metalliferous lode deposits and placer districts for the Russian Far East, Alaska, and the Canadian Cordillera: U.S. Geological Survey Open-File Report 96-513-B
[Kimberlite] Automatically generated from locality name
    • Kuoikskoe field
[Kimberlite] Sharygin, I. S., Golovin, A. V., & Pokhilenko, N. P. (2011, February). Djerfisherite in Kimberlites of the Kuoikskoe field as an indicator of enrichment of Kimberlite melts in chlorine. In Doklady Earth Sciences (Vol. 436, No. 2, pp. 301-307). MAIK Nauka/Interperiodica.
[Kimberlite] Sharygin, I. S., Golovin, A. V., & Pokhilenko, N. P. (2011, February). Djerfisherite in Kimberlites of the Kuoikskoe field as an indicator of enrichment of Kimberlite melts in chlorine. In Doklady Earth Sciences (Vol. 436, No. 2, pp. 301-307). MAIK Nauka/Interperiodica.
    • Mirninsky District
      • Alakit-Markha
[Kimberlite] Automatically generated from locality name
      • Daldyn
[Kimberlite] - Boyd, F.R., Pokhilenko, N.P., Pearson, D.G., Mertzman, S.A., Sobolev, N.V., and Finger, L.W. (1997): Composition of the Siberian cratonic mantle: evidence from Udachnaya peridotite xenoliths. Contributions to Mineralogy and Petrology 128, 228-246.; Sharygin, V. V., Kamenetsky, V. S., Kamenetskaya, M. B., Seretkin, Y. V., & Pokhilenko, N. P. (2007, August). Rasvumite from the Udachnaya-East Pipe: The first finding in kimberlites. In Doklady Earth Sciences (Vol. 415, No. 2, pp. 929-934). Nauka/Interperiodica.; Malkovets, V. G., Pokhilenko, L. N., & Pokhilenko, N. P. (2013). Geochemistry of megacrystalline pyrope peridotites from the Udachnaya pipe, Siberian craton. Crystallogenesis and Mineralogy, 245.; Skvortsova V, Samoylovich M, Belyanin A (2014) Iron containing surfaces of contact of diamond with kimberlite. 21 st meeting of the International Mineralogical Association.; Sharygin, V. V., Kamenetsky, V. S., & Kamenetsky, M. B. (2008). Potassium sulfides in kimberlite-hosted chloride–“nyerereite” and chloride clasts of Udachnaya-East pipe, Yakutia, Russia. The Canadian Mineralogist, 46(4), 1079-1095.; Mikhailenko, D.S., Korsakov, A.V., Rashchenko, S.V., Seryotkin, Y.V., Belakovskiy, D.I., Golovin, A.V. (2018): Kuliginite, a new hydroxychloride mineral from the Udachnaya kimberlite pipe, Yakutia: Implications for low-temperature hydrothermal alteration of the kimberlites. American Mineralogist, 103: 1435–1444; Романенко, А. В., Алифирова, Т. А., Михайленко, Д. С., Головин, А. В., Корсаков, А. В., & Охфуджи, Х. ПРОИСХОЖДЕНИЕ МУАССАНИТА В ГРАФИТСОДЕРЖАЩЕМ ОРТОПИРОКСЕНИТЕ ИЗ КИМБЕРЛИТОВОЙ ТРУБКИ УДАЧНАЯ. Сопредседатели оргкомитета, 497. (Origin of Moissanite in Graphite-bearing Orthopyroxenite from Udachnaya Kimberlite ); Gubanov, N.; Zedgenizov, D.; Sharygin, I.; Ragozin, A. (2019) Origin and Evolution of High-Mg Carbonatitic and Low-Mg Carbonatitic to Silicic High-Density Fluids in Coated Diamonds from Udachnaya Kimberlite Pipe. Minerals 9, 734.
[Kimberlite] Automatically generated from locality name
[Kimberlite] Rezvukhin, D. I., Malkovets, V. G., Sharygin, I. S., Tretiakova, I. G., Griffin, W. L., & O'Reilly, S. Y. (2018). Inclusions of crichtonite-group minerals in Cr-pyropes from the Internatsionalnaya kimberlite pipe, Siberian Craton: Crystal chemistry, parageneses and relationships to mantle metasomatism. Lithos, 308, 181-195.
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
    • Northern Yakutia
      • Olenyok (Olenek) river basin
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
  • Sayan Mountains
[Chromitite] Kiseleva, O. N., Zhmodik, S. M., Damdinov, B. B., Agafonov, L. V., & Belyanin, D. K. (2014). Composition and evolution of PGE mineralization in chromite ores from the Il’chir ophiolite complex (Ospa–Kitoi and Khara-Nur areas, East Sayan). Russian Geology and Geophysics, 55(2), 259-272.
[Chromitite] Grigor’eva, A. V., Damdinov, B. B., & Sluzhenikin, S. F. (2018). Ore Mineralization in Ultramafic and Metasomatic Rocks of the Ospin–Kitoi Massif, Eastern Sayan. Geology of Ore Deposits, 60(2), 121-141.
  • Sverdlovsk Oblast
    • Asbest
[Chromitite] Kissin, A.; Gottman, I.; Sustavov, S.; Murzin, V.; Kiseleva, D. (2020) The First Find of Cr2O3 Eskolaite Associated with Marble-Hosted Ruby in the Southern Urals and the Problem of Al and Cr Sources. Minerals 10, 101.
    • Karpinsk
[Carbonatite] Sharygin, V. V., & Ivanov, O. K. (2014) Cr-rich “tiooxyspinel” mineral from Kosva dunite massif, Middle Urals: possible link between spinel-and tiospinel-group minerals. 30th International Conference on “Ore Potential of Alkaline, Kimberlite and Carbonatite Magmatism”29 September – 02 October 2014 Antalya TURKEY
    • Malyshevo
[Biotitite] Popov, M. P., Sorokina, E. S., Kononkova, N. N., Nikolaev, A. G., & Karampelas, S. (2019, June). New Data on the Genetic Linkage of the Beryl and Chrysoberyl Chromophores of the Ural’s Emerald Mines with Chromium-Bearing Spinels of the Bazhenov Ophiolite Complex. In Doklady Earth Sciences (Vol. 486, No. 2, pp. 630-633). Pleiades Publishing.
    • Novolyalinsky District
      • Kytlym complex (Kytlym massif)
[Chromitite] Zaccarini, F., Garuti, G., & Pushkarev, E. V. (2010) Unusual PGE-Rich Chromitite in the “Butyrin-Veins” of the Kytlym Ural-Alaskan Complex (Northern Urals). 11th International Platinum Symposium. Ontario Geological Survey, Miscellaneous Release–Data 269
    • Yekaterinburg
[Chromitite] Zaccarini, F., Pushkarev, E., Garuti, G., Kazakov, I. (2016): Platinum-Group Minerals and Other Accessory Phases in Chromite Deposits of the Alapaevsk Ophiolite, Central Urals, Russia. Minerals: 6: 108;
[Chromitite] Zaccarini, F., Pushkarev, E., Garuti, G., Krause, J., Dvornik, G. P., Stanley, C., & Bindi, L. (2013). Platinum-group minerals (PGM) nuggets from alluvial-eluvial placer deposits in the concentrically zoned mafic-ultramafic Uktus complex (Central Urals, Russia). European Journal of Mineralogy, 25(4), 519-531.
  • Tuva
[Carbonatite] Sharygin, V. V. (2016) Secondary olivine-hosted inclusions in calcite-dolomite carbonatite of the Belaya Zima alkaline massif, Eastern Sayan, Russia: Evidence for Na-rich carbonatite composition. Asian Current Research On Fluid Inclusions (ACROFI-VI), Indian Institute of Technology Bombay; Andreeva, I. A., Kovalenko, V. I., Nikiforov, A. V., & Kononkova, N. N. (2007). Compositions of magmas, formation conditions, and genesis of carbonate-bearing ijolites and carbonatites of the Belaya Zima alkaline carbonatite complex, eastern Sayan. Petrology, 15(6), 551-574.
    • Kurtushibinsky Range
[Carbonatite] Automatically generated from locality name
  • Tyumen Oblast
[Chromitite] Shmelev V.R., Perevozchikov B.V., Moloshag V.P. (2014) The Rai-Iz ophiolite massif in the Polar Urals: geology and chromite deposits. Field trip guidebook. 12th International Platinum Symposium. Yekaterinburg: IGG UB RAS, 2014. 44 р.
[Spessartite] Brusnitsyn, A. I., Kuleshov, V. N., Perova, E. N., & Zaitsev, A. N. (2017). Ferromanganese carbonate metasediments of the Sob area, Polar Urals: Bedding conditions, composition, and genesis. Lithology and Mineral Resources, 52(3), 192-213.
  • Zabaykalsky Krai
    • Buriatia Republic (Buryatia)
[Chromitite] Kiseleva, O. N., Zhmodik, S. M., Damdinov, B. B., Agafonov, L. V., & Belyanin, D. K. (2014). Composition and evolution of PGE mineralization in chromite ores from the Il’chir ophiolite complex (Ospa–Kitoi and Khara-Nur areas, East Sayan). Russian Geology and Geophysics, 55(2), 259-272.
      • Okinsky District
        • Muya District
[Lamprophyre] Chugaev, A. V., Plotinskaya, O. Y., Chernyshev, I. V., Lebedev, V. A., Belogub, E. V., Goltsman, Y. V., ... & Oleinikova, T. I. (2017). Age and sources of matter for the Kedrovskoe gold deposit, Northern Transbaikal tegion, Republic of Buryatia: Geochronological and isotopic geochemical constraints. Geology of Ore Deposits, 59(4), 281-295.
[Chromitite] Kiseleva, O.N.; Airiyants, E.V.; Belyanin, D.K.; Zhmodik, S.M. (2020) Podiform Chromitites and PGE Mineralization in the Ulan-Sar’dag Ophiolite (East Sayan, Russia). Minerals 10, 141.
    • Chitinskaya Oblast
      • Vershino-Darasunskiy
[Lamprophyre] Prokofiev, V., Baksheev, I., Zorina, L., Belyatsky, B., Ustinov, V., & Krivitskaya, N. (2012). Tourmalinization at the Darasun goldfield, Eastern Transbaikalia: Compositional, fluid inclusion and isotopic constraints. Geoscience frontiers, 3(1), 59-71.
Sierra Leone
 
  • Eastern Province
    • Kono District
[Kimberlite] Haggerty, S. E., Hargraves, R. B., & Tompkins, L. A. (1990). Oxide mineralogy and magnetic properties of the Koidu kimberlite complex, Sierra Leone, west Africa. Geophysical Journal International, 100(2), 275-283.
Solomon Islands
 
  • Malaita Province
    • Malaita Island (Mala Island)
[Kimberlite] Automatically generated from locality name
[Lamprophyric-pyroxene-calcite-biotite olivine-melilitite] Allen, J.B., Deans, T. (1965) Ultrabasic eruptives with Alnöitic-Kimerlitic affinities form Malaita, Solomon Islands. Mineralogical Magazine 1965 Vol.34(268) 16-34.
South Africa
[Kimberlite] Clark, Andrew, Stokman, A.H.W. (1985) Mineralen. Alphen aan den Rijn: Atrium.
  • Eastern Cape
    • Alfred Nzo District
[Carbonatite] Automatically generated from locality name
  • Free State
    • Lejweleputswa District
      • Theunissen
[Kimberlite] Automatically generated from locality name
    • Thabo Mofutsanyane District
      • Clocolan
[Carbonatite] Kamenetsky, V. S., Belousova, E. A., Giuliani, A., Kamenetsky, M. B., Goemann, K., & Griffin, W. L. (2014). Chemical abrasion of zircon and ilmenite megacrysts in the Monastery kimberlite: Implications for the composition of kimberlite melts. Chemical Geology, 383, 76-85.
    • Xhariep District
      • Koffiefontein
[Kimberlite] mindat.org
  • Gauteng
    • Pretoria District (Tshwane District)
      • Cullinan
[Kimberlite] https://www.petradiamonds.com/our-operations/our-mines/cullinan/
  • Limpopo
    • Capricorn District
      • Swartwater
[Kimberlite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name
    • Sekhukhune District
[Chromitite] McCall, M. J. (2016). Mineralogical and geochemical variations in the UG2 reef at Booysendal and Zondereinde mines, with implications for beneficiation of PGM (Doctoral dissertation, Stellenbosch: Stellenbosch University).
    • Waterberg District
      • Mogalakwena
        • Mokopane (Potgietersrus)
[Chromitite] Mandende, H. (2014). Geochemical and petrographic characterization of platreef pyroxenite Package p1, p2, p3 and p4 units at the akanani prospect area, bushveld Complex, South Africa. Masters thesis University of the Western Cape
      • Thabazimbi
[Carbonatite] Automatically generated from locality name
[Chromitite] Hatton, C. J., & Von Gruenewaldt, G. (1985). Chromite from the Swartkop chrome mine; an estimate of the effects of subsolidus reequilibration. Economic Geology, 80(4), 911-924.
  • North West
    • Bojanala Platinum District
      • Pilanesberg Alkaline Ring Complex
[Nephelinite] Clarke, L. B. (1989). The Geology of the Kruidfontein Volcanic Complex Transvaal. S. Africa (Doctoral dissertation, University of Leicester).
      • Rustenburg (Rustenburg District)
[Carbonatite] Harmer, R. (2017) The Bulhoek Carbonatite Complex, South Africa: Evidence for magmatic crystallization of dolomite at low pressures and the petrogenetic implications. " Carbonatites-alkaline rocks and associated mineral deposits" Abstract, 5.
[Chromitite] Junge, M., Oberthür, T., & Melcher, F. (2014). Cryptic variation of chromite chemistry, platinum group element and platinum group mineral distribution in the UG-2 chromitite: an example from the Karee Mine, western Bushveld Complex, South Africa. Economic Geology, 109(3), 795-810.
    • Ngaka Modiri Molema District
[Carbonatite] Automatically generated from locality name
  • Northern Cape
    • Frances Baard
      • Dikgatlong
        • Windsorton
[Kimberlite] Clarke, D. B., Pe, G. G., MacKay, R. M., Gill, K. R., O'hara, M. J., & Gard, J. A. (1977). A new potassium-iron-nickel sulphide from a nodule in kimberlite. Earth and Planetary Science Letters, 35(3), 421-428.
      • Sol Plaatje
[Kimberlite] O'Neil, P. (1983) Planet Earth - Gemstones. Time-Life Books, Arlington, Virginia, USA, 176 pages.; Durnez, E. (2008) Antwerpen, zuivere diamant. Het dagelijkse leven in de "Diamond Square Mile". Book&Media Publishing, 156 pp. (in Dutch).
[Kimberlite] Montgarri Castillo-Oliver, Andrea Giuliani, William Griffin, Suzanne O'Reilly, Russell Drysdale, Xiaoxiao Ling, Xian-Hua Li (2018) The origin of carbonates in the Benfontein kimberlite sills: an in situ C-O-Sr approach. in abstracts of the 22nd IMA Meeting Melbourne p 127
[Kimberlite] Konzett, J., Wirth, R., Hauzenberger, C., & Whitehouse, M. (2013). Two episodes of fluid migration in the Kaapvaal Craton lithospheric mantle associated with Cretaceous kimberlite activity: evidence from a harzburgite containing a unique assemblage of metasomatic zirconium-phases. Lithos, 182, 165-184.
[Kimberlite] Soltys, A., Giuliani, A., & Phillips, D. (2018). Crystallisation sequence and magma evolution of the De Beers dyke (Kimberley, South Africa). Mineralogy and Petrology, 1-16.
[Kimberlite] https://www.petradiamonds.com/our-operations/our-mines/kem/
[Kimberlite] Giuliani, A., Kamenetsky, V. S., Phillips, D., Kendrick, M. A., Wyatt, B. A., & Goemann, K. (2012). Nature of alkali-carbonate fluids in the sub-continental lithospheric mantle. Geology, 40(11), 967-970.; Giuliani, A., Soltys, A., Phillips, D., Kamenetsky, V. S., Maas, R., Goemann, K., ... & Griffin, W. L. (2017). The final stages of kimberlite petrogenesis: petrography, mineral chemistry, melt inclusions and Sr-CO isotope geochemistry of the Bultfontein kimberlite (Kimberley, South Africa). Chemical Geology, 455, 342-356.
    • John Taolo Gaetsewe
      • Mackenzie's Post District
[Kimberlite] Automatically generated from locality name
    • Namakwa
      • Khâi-Ma
        • Pofadder
[Kimberlite] Wu, F. Y., Yang, Y. H., Mitchell, R. H., Li, Q. L., Yang, J. H., & Zhang, Y. B. (2010). In situ U–Pb age determination and Nd isotopic analysis of perovskites from kimberlites in southern Africa and Somerset Island, Canada. Lithos, 115(1-4), 205-222.
    • Pixley ka Seme
      • Siyathemba
        • Prieska
[Carbonatite] Automatically generated from locality name
    • ZF Mgcawu
      • Kgatelopele
        • Lime Acres
[Kimberlite] https://www.petradiamonds.com/our-operations/our-mines/finsch/; O'Neil, P. (1983) Planet Earth - Gemstones. Time-Life Books, Arlington, Virginia, USA, 176 pages.; Farr, Henrietta, Giuliani, Andrea, and Phillips, David (2018) Melt evolution of the Finsch orangeite, South Africa. Abstracts of the 22nd IMA Meeting Melbourne, p. 423.
Spain
 
  • Andalusia
    • Málaga
      • Ojén
        • Ojén lherzolite massif
[Chromitite] González-Jiménez, J. M., Marchesi, C., Griffin, W. L., Gervilla, F., Belousova, E. A., Garrido, C. J., ... & Barra, F. (2017). Zircon recycling and crystallization during formation of chromite-and Ni-arsenide ores in the subcontinental lithospheric mantle (Serranía de Ronda, Spain). Ore Geology Reviews, 90, 193-209.
      • Ronda Massif
[Chromitite] González-Jiménez, J. M., Marchesi, C., Griffin, W. L., Gervilla, F., Belousova, E. A., Garrido, C. J., ... & Barra, F. (2017). Zircon recycling and crystallization during formation of chromite-and Ni-arsenide ores in the subcontinental lithospheric mantle (Serranía de Ronda, Spain). Ore Geology Reviews, 90, 193-209.
[Chromitite] González-Jiménez, J. M., Marchesi, C., Griffin, W. L., Gervilla, F., Belousova, E. A., Garrido, C. J., ... & Barra, F. (2017). Zircon recycling and crystallization during formation of chromite-and Ni-arsenide ores in the subcontinental lithospheric mantle (Serranía de Ronda, Spain). Ore Geology Reviews, 90, 193-209.
[Chromitite] Gervilla, F., Gutiérrez-Narbona, R., & Fenoll-Hach-Alí, P. (2002). The origin of different types of magmatic mineralizations from small-volume melts in the lherzolite massifs of the Serranía de Ronda. Boletín de la Sociedad Espanola de Mineralogía, 25, 79-96.
      • Sierra Alpujata
[Chromitite] Automatically generated from locality name
  • Canary Islands
    • Las Palmas Province
[Carbonatite] Ковальчук, Н. С., & Шумилова, Т. Г. (2014). Редкоземельная и циРконий-ниобиевая минеРализация в алмазсодеРжащих каРбонатитах о. ФуэРтевентуРа (испания). Вестник института геологии Коми научного центра Уральского отделения РАН, (10 (238)).
        • Fuerteventura basal complex
[Carbonatite] Automatically generated from locality name
  • Castile-La Mancha
    • Albacete
      • Hellín
        • Cancarix
[Lamproite] Salvioli-Mariani, E., et al. (1996): European Journal of Mineralogy, 8, 1027-1039.
    • 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.
Sweden
 
  • Norrbotten County
    • Jokkmokk
[Spessartite] Roy, S. (1972). Metamorphism of sedimentary manganese deposits. Acta Mineralogica-Petrographica, 20(2), 325-336.
  • Örebro County
    • Lindesberg
[Spessartite] Roy, S. (1972). Metamorphism of sedimentary manganese deposits. Acta Mineralogica-Petrographica, 20(2), 325-336.
  • Östergötland County
    • Finspång
      • Doverstorp ore field
[Spessartite] Kompanchenko, A., Voloshin, A., & Balagansky, V. (2018). Vanadium mineralization in the Kola region, Fennoscandian Shield. Minerals, 8(11), 474.
  • Värmland County
    • Filipstad
[Biotitite] Liferovich, R. P., Mitchell, R. H., Zozulya, D. R., & Shpachenko, A. K. (2006). Paragenesis and composition of banalsite, stronalsite, and their solid solution in nepheline syenite and ultramafic alkaline rocks. The Canadian Mineralogist, 44(4), 929-942.
  • Västernorrland County
    • Sundsvall
      • Alnö
        • Båräng
[Borengite] Automatically generated from locality name
[Lamprophyric-pyroxene-calcite-biotite olivine-melilitite] Howie, R.A. (1963) Kaersutite from the Lugar sill, Ayrshire, and from alnöite breccia, Alnö Island, Sweden. Mineralogical Magazine, vol. 33, n° 263, 718-720.
Switzerland
 
  • Valais
    • Westlich Raron (West Raron)
[Lamprophyre] Hettmann, K., Siebel, W., Spiegel, C., and Reinecker, J. (2009) Granite genesis and migmatization in the western Aar Massif, Switzerland. Neues Jahrbuch für Mineralogie, Abhandlungen, 186, 3, 309-320.
Syria
 
  • Latakia Governorate
[Chromitite] Sharkov, E. V., Rukieh, M., Ash-Shara, M., Bilal, A., Grokhovskaya, T. L., & Novikov, V. M. (1997). Precious metals of the Bassit ophiolite complex (northwestern Syria): Contents and prospects. Geology of Ore Deposits C/c of Geologiia Rudnykh Mestorozhdenii, 39, 371-381.
Tajikistan
 
  • Gorno-Badakhshan
[Carbonatite] Solovova, I. P., Girnis, A. V., Ryabchikov, I. D., & Simakin, S. G. (2006, October). High-temperature carbonatite melt and its interrelations with alkaline magmas of the Dunkel’dyk complex, southeastern Pamirs. In Doklady earth sciences (Vol. 410, No. 1, pp. 1148-1151). MAIK Nauka/Interperiodica.
  • Sughd
[Lamprophyre] Soloviev, S. G., & Kryazhev, S. (2017). Geology, mineralization, and fluid inclusion characteristics of the Chorukh-Dairon W–Mo–Cu skarn deposit in the Middle Tien Shan, Northern Tajikistan. Ore Geology Reviews, 80, 79-102.
    • Gissar Range
[Lamprophyre] Soloviev, S. G., Kryazhev, S. G., & Dvurechenskaya, S. S. (2019). Genesis of the Maikhura tungsten-tin skarn deposit, Tajik Tien Shan: Insights from petrology, mineralogy, and fluid inclusion study. Ore Geology Reviews, 104, 561-588.
Tanzania
 
  • Arusha Region
    • Monduli District
[Afrikandite] Guzmics, T., Mitchell, R. H., Szabó, C., Berkesi, M., Milke, R., & Ratter, K. (2012). Liquid immiscibility between silicate, carbonate and sulfide melts in melt inclusions hosted in co-precipitated minerals from Kerimasi volcano (Tanzania): evolution of carbonated nephelinitic magma. Contributions to Mineralogy and Petrology, 164(1), 101-122.
    • Ngorongoro District
[Natrocarbonatite] Jago, B. C., & Gittins, J. (1999). Mn-and F-bearing rasvumite in natrocarbonatite at Oldoinyo Lengai volcano, Tanzania. Mineralogical Magazine, 63(1), 53-55.
[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.
  • Iringa Region
[Chromitite] Evans, D. M., Barrett, F. M., Prichard, H. M., & Fisher, P. C. (2012). Platinum–palladium–gold mineralization in the Nkenja mafic–ultramafic body, Ubendian metamorphic belt, Tanzania. Mineralium Deposita, 47(1-2), 175-196.
  • Kigoma Region
[Chromitite] Cabri, L. J., Wilhelmij, H. R., & Eksteen, J. J. (2017). Contrasting mineralogical and processing potential of two mineralization types in the platinum group element and Ni-bearing Kapalagulu Intrusion, western Tanzania. Ore Geology Reviews, 90, 772-789.
  • Mbeya Region
    • Mbeya
[Calcite-carbonatite] Mgonde, F. (1994). Mobilization and Redistribution of Phosphate and Rare Earth Elements in the Weathering Zone above Panda Hill Carbonatite, SW Tanzania (Doctoral dissertation, Carleton University Ottawa).
  • Shinyanga Region
    • Mwadui
[Kimberlite] https://www.petradiamonds.com/our-operations/our-mines/williamson/
Turkey
 
  • Hatay Province
[Chromitite] Kozlu, H., & Rudashevsky, N. V. (2010). Geochemistry of the platinum-group minerals (PGM) in the chromitites from Elbistan–Berit Mantle/Transition Zone and Kızıldağ (Hatay) Ophiolite, SE–S Turkey. In 11th International Platinum Symposium Ontario Geological Survey, Pdf Abstract Miscellaneous Release-Data (Vol. 269).
  • Kahramanmaraş Province
[Chromitite] Uysal, I. (2008) Platinum-Group Minerals (PGM) and other solid inclusions in the Elbistan-Kahramanmaraş mantle-hosted ophiolitic chromitites, South-eastern Turkey: their petrogenetic significance. Turkish Journal of Earth Sciences, 17(4), 729-740.
  • Kastamonu Province
[Chromitite] Günay, K., Dönmez, C., Uysal, İ., Yıldırım, N., Şahin, M. B., Yıldırım, E., ... & Lee, I. (2016). Chrome spinel geochemistry of ultramafic rocks from the Elekdağ metaophiolite (Northern Turkey): Implications for greenschist to mid-amphibolite facies metamorphism. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 193(3), 215-230.
  • Muğla Province
    • Muğla ophiolite
[Chromitite] Automatically generated from locality name
  • Sivas Province
[Chromitite] Koptagel, O., Ucurum, A., & Larson, L. T. (1997). Atypical, High-Fe2O3, Alpine-Type Chromite Mineralization at Guneyocak, Sivas Province, East-Central Turkey. International Geology Review, 39(8), 744-755.
UK
 
  • England
    • Cumbria
      • Allerdale
        • Wythop
[Minette] Automatically generated from locality name
  • Scotland
    • Highland
[Vogesite] https://www.sciencedirect.com/science/article/pii/S0169136816303559
    • Shetland
      • Unst
[Chromitite] Bish, D.L. and Livingstone, A. (1981) The Crystal Chemistry and Paragenesis of Honessite and Hydrohonessite: The Sulphate Analogues of Reevesite. Mineralogical Magazine, vol. 44, n° 335, p. 339-343. Livingstone, A. and Bish, D.L. (1982) On the New Mineral Theophrastite, a Nickel Hydroxide, from Unst, Shetland, Scotland. Mineralogical Magazine, vol. 46, n° 338, p. 1-5.; Livingstone, A. and Macpherson, H.G. (1983) Fifth supplementary list of British minerals (Scottish). Mineralogical Magazine, vol. 47, n° 342, p. 99-105.
[Chromitite] Badanina, Inna Yu. and Malitch, Kreshimir N. and Lord, Richard A. and Belousova, Elena A. and Meisel, Thomas C. (2015) Closed-system behaviour of the Re-Os isotope system recorded in primary and secondary platinum-group mineral assemblages : evidence from a mantle chromitite at Harold's Grave (Shetland ophiolite complex, Scotland). Ore Geology Reviews, 75. pp. 174-185
    • South Ayrshire
[Chromitite] Power, M. R., & Pirrie, D. (2004). Platinum-group minerals within the Ballantrae Complex, SW Scotland. Scottish Journal of Geology, 40(1), 1-5.
Ukraine
 
  • Cherkasy Oblast
    • Zvenyhorodka
[Chromitite] Gornostayev, S.S., Ohnenstetter, M., Neziraj, A., Ohnenstetter, D., Laajoki, K.V.O., Popovchenko, S.E., and Kornienko, P.K. (2001): New occurrences of Anduoite, (Ru,Os)As2, from chromite deposits of Ukraine and Albania. Canadian Mineralogist 39(2), 591-606.
  • Donetsk Oblast
    • Azov Sea Region
      • Oktyabr'skii Massif (Mariupol'skii)
[Carbonatite] Automatically generated from locality name
[Kimberlite] http://ukrmineral.org/sites/default/files/u5/vyshnev14.pdf
  • Zaporizhia Oblast
    • Priazovske
[Alvikite] Ryabchikov, I.D., Kogarko, L.N., Krivdik, S.G., and Ntaflos, T. (2008): Constraints of the Formation of Carbonatites in the Chernigovka Massif, Azov Region, Ukraine. Geology of Ore Deposits 50(6), 423-432.
United Arab Emirates
 
  • Emirate of Fujairah
[Carbonatite] Automatically generated from locality name
USA
 
  • Arizona
    • Apache County
      • Sanders-Defiance Plateau area (Sanders-Cheto District)
        • Defiance Plateau
          • Sawmill
[Kimberlite] Switzer, G. (1977), Composition of garnet xenocrysts from three kimberlite pipes in Arizona and New Mexico, in B. Mason (editor), Mineral Sciences Investigations, 1974-1975, Smithsonian Contributions to Earth Sciences: 19: 1-21; USGS (2005), Mineral Resources Data System (MRDS): U.S. Geological Survey, Reston, Virginia, loc. file ID #10060352 & 10234257.
[Kimberlite] Switzer, G. (1977), Composition of garnet xenocrysts from three kimberlite pipes in Arizona and New Mexico, in B. Mason (editor), Mineral Sciences Investigations, 1974-1975, Smithsonian Contributions to Earth Sciences: 19: 1-21; USGS (2005), Mineral Resources Data System (MRDS): U.S. Geological Survey, Reston, Virginia, loc. file ID #10060352 & 10234257.
    • Coconino County
      • Cameron Mining District
        • Cameron
[Monchiquite] Barrington, J. & P.F. Kerr (1962), Alteration effects at Tuba dike, Cameron, Arizona, Geological Society of America Bull.: 73: 101-112.
    • Mohave County
[Vogesite] Schrader, F.C. (1909), Mineral deposits of the Cerbat Range, Black Mountains, and Grand Wash Cliffs, Mohave County, Arizona, USGS Bulletin 397: 49-51.
        • Wallapai Mining District
[Minette] Schrader, F.C. (1909), Mineral deposits of the Cerbat Range, Black Mountains, and Grand Wash Cliffs, Mohave County, Arizona, USGS Bulletin 397: 91-92.
        • White Hills
          • Gold Basin Mining District
[Lamprophyre] Theodore, Ted G., Blair, Will N., and Nash, J. Thomas (1987), Geology and Gold Mineralization of the Gold Basin-Lost Basin Mining Districts, Mohave County, Arizona, USGS Professional Paper 1361: 164 (Table 11).
  • Arkansas
    • Hot Spring Co.
      • Magnet Cove
[Carbonatite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Pike Co.
      • Murfreesboro
[Lamproite] Howard, J. M. and Hanson, W. D. (2008): Geology of the Crater of Diamonds State Park and Vicinity, Pike County, Arkansas, Arkansas Geological Survey.
[Lamproite] Ref.: Rocks & Min.: 63:118; Mullen & Murphy (1985).
    • Scott Co.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • California
    • San Bernardino Co.
      • Clark Mts (Clark Mountain Range)
        • Mountain Pass District
          • Mountain Pass
[Carbonatite] Jones, A.P. and Wyllie, P.J. (1983) Low temperature glass quenched from a synthetic rare earth carbonatite: implications for the origin of the Mountain Pass deposit, California. Economic Geology: 78: 1721-1723.
      • Ord Mining District
        • Ord Mountains
          • Ord Mountain
[Lamprophyre] USGS (2005), Mineral Resources Data System (MRDS): U.S. Geological Survey, Reston, Virginia, loc. file ID #10034046.
  • Colorado
    • Boulder Co.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Fremont Co.
[Carbonatite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
      • Iron Mountain complex
        • McClure Mountain
[Carbonatite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Carbonatite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
      • McClure Mountain Complex
[Carbonatite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Carbonatite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Carbonatite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
      • Road Gulch
[Carbonatite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Grand Co.
      • Middle Park
        • Rabbit Ears Pass
[Lamproite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Gunnison Co.
      • White Earth Mining District (Powderhorn Mining District)
[Carbonatite] USGS (2005), Mineral Resources Data System (MRDS): U.S. Geological Survey, Reston, Virginia, deposit ID #10142743.
    • Larimer Co.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Prowers Co.
[Lamprophyre] From USGS MRDS database
  • Connecticut
    • Middlesex Co.
      • Middlefield
[Camptonite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Idaho
    • Blaine Co.
      • Mineral Hill Mining District
[Lamprophyre] From USGS MRDS database
    • Boise Co.
      • Boise Basin Mining District
        • Grimes Pass Mining District
[Lamprophyre] From USGS MRDS database
      • Quartzburg Mining District
[Lamprophyre] U.S. Geological Survey, 2005, Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Bonner Co.
      • Clark Fork Mining District
[Lamprophyre] From USGS MRDS database
[Lamprophyre] From USGS MRDS database
[Lamprophyre] From USGS MRDS database
    • Custer Co.
      • Seafoam Mining District
[Lamprophyre] From USGS MRDS database
    • Shoshone Co.
      • Pine Creek Mining District
        • Pine Creek Basin
[Camptonite] Jones, E. L. (1919). A reconnaissance of the Pine Creek district, Idaho. US Government Printing Office.
    • Valley Co.
      • Edwardsburg Mining District
[Lamprophyre] From USGS MRDS database
  • Iowa
    • Sioux Co.
[Chromitite] Windom, K. E., Seifert, K. E., & Anderson, R. R. (1991). Studies of the Precambrian geology of Iowa: Part 1. The Otter Creek layered igneous complex. Journal of the Iowa Academy of Science: JIAS, 98(4), 170-177.
  • Kansas
[Kimberlite] Berendsen, Pieter and Weis, Thomas ( 2001) New Kimberlite Discoveries in Kansas :Magnetic Expression and Structural Setting
    • Riley Co.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Kentucky
    • Crittenden Co.
[Lamprophyre] From USGS MRDS database
    • Elliott Co.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Maine
    • Franklin Co.
      • Alder Stream Township
[Camptonite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
      • Redington
[Camptonite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Michigan
    • Dickinson Co.
      • Felch
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
      • Foster City
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
      • Norway
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
      • Waucedah
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Iron Co.
      • Lake Ellen
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
      • Mansfield
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Menominee Co.
      • Hermansville
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Missouri
    • Wayne Co.
[Spessartite] U.S. Geological Survey,2005,Mineral Resources Data System :U.S. Geological Survey,Reston, Virginia
  • Montana
    • Jefferson Co.
      • Little Pipestone Mining District
[Lamprophyre] From USGS MRDS database
      • Whitehall Mining District (Cardwell Mining District)
[Lamprophyre] USGS (2005), Mineral Resources Data System (MRDS): U.S. Geological Survey, Reston, Virginia, loc. file ID #10148740.; Spry, P.G., Foster, F., Truckle, J.S., and Chadwick, T.H. (1997): The mineralogy of the Golden Sunlight gold-silver telluride deposit, Whitehall, Montana, USA. Mineralogy and Petrology 59, 143-164.
    • Judith Basin Co.
      • Little Belt Mountains
        • Yogo District
[Lamprophyre] O'Neil, P. (1983) Planet Earth - Gemstones. Time-Life Books, Arlington, Virginia, USA, 176 pages.
    • Prairie Co.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Sweet Grass Co.
[Chromitite] Andersen, A. K., Zientek, M. L. and Parks, H. L.(2018) Base-metal and PGE Distribution in the Iron Mountain Area of the Stillwater Complex, Montana. Geological Society of America Abstracts with Programs. Vol. 50, No. 6
  • Nebraska
    • Johnson Co.
      • Elk Creek
[Carbonatite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Nevada
    • Clark Co.
      • Gold Butte Mining District
[Lamprophyre] U.S. Geological Survey (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
      • Spring Mountains
        • Goodsprings Mining District
[Lamprophyre] U.S. Geological Survey (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Lamprophyre] U.S. Geological Survey, 2005, Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Esmeralda Co.
      • Lone Mountain Mining District
[Lamprophyre] U.S. Geological Survey (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Lamprophyre] U.S. Geological Survey (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Lincoln Co.
[Lamprophyre] Westgate, L. G., Knopf, Adolph (1932), Geology and ore deposits of the Pioche district, Nevada. USGS Professional Paper 171, 79 pp.
  • New Mexico
    • San Juan Co.
      • Navajo Nation Reservation
[Minette] Delaney, Paul T. and David D. Pollard (1981), Deformation of Host Rocks and Flow of Magma during Growth of Minette Dikes and Breccia-bearing Intrusions near Ship Rock, New Mexico.
      • Shiprock
[Minette] Delaney, Paul T. and David D. Pollard (1981), Deformation of Host Rocks and Flow of Magma during Growth of Minette Dikes and Breccia-bearing Intrusions near Ship Rock, New Mexico.
  • New York
    • Tompkins Co.
      • Ithaca
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Pennsylvania
    • Fayette Co.
      • Masontown
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Indiana Co.
      • Dixonville
        • Tanoma Coal Mine
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Tennessee
    • Union Co.
[Kimberlite] Paris, Travis A. (2008), Geology and Mineralogy of the Sharps Chapel Area: East Tennessee Geological Society 2008 Autumn Field Trip.
  • Utah
    • San Juan Co.
[Kimberlite] Basson, I. J. and Viola, G., 2004. Passive kimberlite intrusion into actively dilating dyke and fracture arrays: evidence from fibrous calcite veins and extensional fracture cleavage. Lithos 76 (1-4): 283-297.
    • Tooele Co.
      • Silver Island Mountains
        • Silver Island Mining District (Silver Islet Mining District)
[Lamprophyre] From USGS MRDS database
  • Virginia
    • Rockbridge Co.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Wisconsin
[Lamprophyre] Dott, R. F. & J. Attig (2004) Roadside geology of Wisconsin, Mountain Press. 346 p.
      • Kenosha
[Lamprophyre] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Marinette Co.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Wyoming
    • Albany Co.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
[Kimberlite] From USGS MRDS database
[Kimberlite] From USGS MRDS database
[Kimberlite] From USGS MRDS database
[Kimberlite] From USGS MRDS database
[Kimberlite] From USGS MRDS database
    • Crook Co.
[Carbonatite] Andersen, A. K., Clark, J. G., Larson, P. B., & Donovan, J. J. (2017). REE fractionation, mineral speciation, and supergene enrichment of the Bear Lodge carbonatites, Wyoming, USA. Ore Geology Reviews, 89, 780-807.
    • Laramie Co.
[Kimberlite] U.S. Geological Survey, (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
    • Sweetwater Co.
[Diopside-madupitic lamproite] Velde, D. (1968) A new occurrence of priderite. Mineralogical Magazine: 36(282): 867-870.
Uzbekistan
 
  • Navoiy
    • Central Kyzylkum Region
      • Zarafshan
        • Muruntau ore field
[Kersantite] Kempe, U., Graupner, T., Seltmann, R., de Boorder, H., Dolgopolova, A., & van Emmichoven, M. Z. (2016). The Muruntau gold deposit (Uzbekistan)–a unique ancient hydrothermal system in the southern Tien Shan. Geoscience Frontiers, 7(3), 495-528.
Venezuela
 
  • Bolívar
    • Guaniamo
      • Quebrada Grande River
[Kimberlite] Automatically generated from locality name
[Kimberlite] Automatically generated from locality name
[Kimberlite] Sharygin, V. V., Sobolev, N. V., & Channer, D. M. D. (2009). Oscillatory-zoned crystals of pyrochlore-group minerals from the Guaniamo kimberlites, Venezuela. Lithos, 112, 976-985.
[Kimberlite] Automatically generated from locality name
Vietnam
 
  • Lai Châu Province
    • Phong Tho District
[Carbonatite] Automatically generated from locality name
      • Mt Fansipan
        • Nâm Nâm Xe REE deposit
[Carbonatite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name
Zambia
 
  • Muchinga Province
    • Muchinga Mountains
      • Isoka District
        • Isoka
[Carbonatite] Automatically generated from locality name
  • Southern Province
    • Mazabuka District
      • Munali Intrusive Complex
[Phoscorite] Holwell, D. A., Mitchell, C. L., Howe, G. A., Evans, D. M., Ward, L. A., & Friedman, R. (2017). The Munali Ni sulfide deposit, southern Zambia: A multi-stage, mafic-ultramafic, magmatic sulfide-magnetite-apatite-carbonate megabreccia. Ore Geology Reviews, 90, 553-575.
Zimbabwe
 
  • Manicaland
    • Buhera District
[Carbonatite] Walsh, K.L. and Harmer, R.E. (1997) Excursion guide: Alkaline igneous rocks of southeastern Zimbabwe. Geological Society of Zimbabwe conference field trip No. 5; Swift, W. H. (1952). The Geology of Chishanya, Buhera District, Southern Rhodesia. Transactions of the Edinburgh Geological Society, 15(1), 346-359.
[Ijolite] Walsh, K.L. and Harmer, R.E. (1997) Excursion guide: Alkaline igneous rocks of southeastern Zimbabwe. Geological Society of Zimbabwe conference field trip No. 5
[Dolomite-carbonatite] Walsh, K.L. and Harmer, R.E. (1997) Excursion guide: Alkaline igneous rocks of southeastern Zimbabwe. Geological Society of Zimbabwe conference field trip No. 5
[Carbonatite] Meck, M. L., Atlhopheng, J., Masamba, W. R. L., Ringrose, S., & Diskin, S. (2011). Minerals that host metals at Dorowa rock phosphate mine, Zimbabwe. Open Mineralogy Journal, 5, 1-9.
  • Matabeleland North
    • Hwange District
      • Deka
[Carbonatite] Automatically generated from locality name
[Carbonatite] Automatically generated from locality name
  • Matabeleland South
    • Beitbridge District
[Kimberlite] Walsh, K.L. and Harmer, R.E. (1997) Excursion guide: Alkaline igneous rocks of southeastern Zimbabwe. Geological Society of Zimbabwe conference field trip No. 5
  • Midlands
    • Shurugwi District (Selukwe District)
[Chromitite] Chaumba, J. (2017). Hydrothermal Alteration in the Main Sulfide Zone at Unki Mine, Shurugwi Subchamber of the Great Dyke, Zimbabwe: Evidence from Petrography and Silicates Mineral Chemistry. Minerals, 7(7), 127.
 
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