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Melilite Group

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About Melilite GroupHide

Formula:
Ca2M(XSiO7)
M = Mg, Al, rarely Fe, B, Zn, Be, Si, etc.
X = Si, Al, rarely Be or B.
A group of tetragonal sorosilicates with a disilicate anion (Si2O7)6- or an Al or B-bearing derivative thereof and the general formula given above, where M denotes a small- to medium-sized divalent or trivalent cation (mostly Mg and Al, or rarely Fe, B, Zn, Be, Si, etc) and X is Si, Al or rarely Be or B. In general, Al or B replace one Si atom when M is a trivalent ion, but the charge can also be balanced by coupled substitution of Ca2+ with a monovalent ion, especially Na, and M3+ with M2+, such as in Alumoåkermanite, where Al3+ is still dominant on the M-site but the mineral is far from end-member composition.

In petrology "melilite" usually refers to minerals in the åkermanite-gehlenite series, by far the most abundant members of the group.

A large number of synthetic members are known.


Chemical Properties of Melilite GroupHide

Formula:
Ca2M(XSiO7)

M = Mg, Al, rarely Fe, B, Zn, Be, Si, etc.
X = Si, Al, rarely Be or B.

Crystal StructureHide

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IDSpeciesReferenceLinkYearLocalityPressure (GPa)Temp (K)
0005090GehleniteLouisnathan S J (1971) Refinement of the crystal structure of a natural gehlenite, Ca2Al(Al,Si)2O7 The Canadian Mineralogist 10 822-8371971Crestmore, California, USA0293
0007694GehleniteSwainson I P, Dove M T, Schmahl W W, Putnis A (1992) Neutron powder diffraction study of the akermanite-gehlenite solid solution series Physics and Chemistry of Minerals 19 185-19519920293
0007695GehleniteSwainson I P, Dove M T, Schmahl W W, Putnis A (1992) Neutron powder diffraction study of the akermanite-gehlenite solid solution series Physics and Chemistry of Minerals 19 185-19519920293
0017917GehleniteRaaz F (1930) Ueber den Feinbau des Gehlenit. Ein Beitrag zur Kenntnis der Melilithe _cod_database_code 1011002 Sitzungsberichte der Akademie der Wissenschaften in Wien 139 645-67219300293
0014911GugiaiteYang Z, Fleck M, Pertlik F, Tillmanns E, Tao K (2001) The crystal structure of natural gugiaite, Ca2BeSi2O7 Note, z coordinate of Ca is altered to reproduce reported Ca-O bond lengths Neues Jahrbuch fur Mineralogie, Monatshefte 2001 186-1922001skarn rocks in the Gugia alkaline complex, Liaoning Province, China0293
0002657HardystoniteBindi L, Bonazzi P, Rothlisberger F (2001) Hardystonite from Franklin Furnace: A natural modulated melilite American Mineralogist 86 747-75120010293
0018114HardystoniteWarren B, Trautz O (1930) The Structure of Hardystonite Ca2 Zn Si2 O7 _cod_database_code 1011252 Zeitschrift fur Kristallographie 75 525-52819300293
0010703HardystoniteLouisnathan S J (1969) Refinement of the crystal structure of hardystonite, Ca2ZnSi2O7 Zeitschrift fur Kristallographie 130 427-4371969Franklin, New Jersey, USA0293
0002589OkayamaliteGiuli G, Bindi L, Bonazzi P (2000) Rietveld refinement of okayamalite, Ca2SiB2O7: Structural evidence for the B/Si ordered distribution American Mineralogist 85 1512-151520000293
CIF Raw Data - click here to close

Synonyms of Melilite GroupHide

Other Language Names for Melilite GroupHide

Simplified Chinese:黄长石

Relationship of Melilite Group to other SpeciesHide

Group Members:
Åkermanite Ca2Mg(Si2O7)Tet. 4 2m : P4 21m
Alumoåkermanite (Ca,Na)2(Al,Mg,Fe2+)(Si2O7)Tet. 4 2m : P4 21m
Bennesherite Ba2Fe2+Si2O7Tet. 4 2m : P4 21m
Ferri-gehlenite Ca2Fe3+[AlSiO7]
Gehlenite Ca2Al(AlSiO7)Tet. 4 2m : P4 21m
Gugiaite Ca2Be(Si2O7)Tet.
Hardystonite Ca2Zn(Si2O7)Tet. 4 2m : P4 21m
Hydroxylgugiaite (Ca,◻)2(Be,Si)[(Si,Be)2O5(OH)2]Tet. 4 2m : P4 21m
Okayamalite Ca2B(BSiO7)Tet.

Other InformationHide

Health Risks:
No information on health risks for this material has been entered into the database. You should always treat mineral specimens with care.

Melilite Group in petrologyHide

An essential component of rock names highlighted in red, an accessory component in rock names highlighted in green.

References for Melilite GroupHide

Reference List:
Sort by Year (asc) | by Year (desc) | by Author (A-Z) | by Author (Z-A)
Joesten, R. (1974) Pseudomorphic replacement of melilite by idocrase in a zoned calc-silicate skarn. Christmas Mountains, Big Bend region, Texas. American Mineralogist, 5, 694-699.
Foil, F.F., Jr., Hooper, R.L. and Rosenberg, P.E. (1987) An unusual pyroxene, melilite, and iron oxide mineral assemblage in a coal-fire buchite from Buffalo, Wyoming. American Mineralogist 72, 137-147.
Smyth, J. R. & Bish, D. L. (1988): Crystal structures and cation sites of the rock-forming minerals. Allen and Unwin, Boston, 332 pp.
W. A. Deer, R. A. Howie & J. Zussman (1997) Rock forming minerals. Vol. 1B:
Disilicates and Ringsilicates. Corrected reprint of 2nd ed. (1986), Longman, 629 pp.

Internet Links for Melilite GroupHide

Localities for Melilite GroupHide

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
 
  • Helmand
    • Reg District (Khanashin District)
      • Khanneshin complex
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.
Algeria
 
  • Bordj Badji Mokhtar Province
    • Bordj Badji Mokhtar District
      • Bordj Badji Mokhtar
Weber D, Bischoff A (1994) Grossite (CaAl4O7) - a rare phase in terrestrial rocks and meteorites, European Journal of Mineralogy 6, 591-594 ; Weber, D., & Bischoff, A. (1992, March). Mineralogy and chemistry of refractory inclusions in CR-like chondrites from the Sahara desert. In Lunar and Planetary Institute Science Conference Abstracts (Vol. 23, p. 1505).
  • Illizi Province
    • Illizi District
      • Illizi
Bossiere, G., & Megartsi, M. (1971). Découverte d'un type de lave intermediare entre les rushayites et les Katungites dans le Sahara nord-oriental (Algérie). Comptes Rendus de l'Académie des Sciences (Series D), 273, 547-550. BOSSIERE, G., & MEGARTSI, M. (1982). PETROLOGY OF PYROXENITE INCLUSIONS FROM THE RUSHAYITE OF IN TERIA (NE OF ILLIZI), ALGERIA. BULLETIN DE MINERALOGIE, 105(1), 89-98. Dautria, J. M., Dupuy, C., Takherist, D., & Dostal, J. (1992). Carbonate metasomatism in the lithospheric mantle: peridotitic xenoliths from a melilititic district of the Sahara basin. Contributions to Mineralogy and Petrology, 111(1), 37-52. Bossiere, G., & Megartsi, M. (1971). Découverte d'un type de lave intermediare entre les rushayites et les Katungites dans le Sahara nord-oriental (Algérie). Comptes Rendus de l'Académie des Sciences (Series D), 273, 547-550. BOSSIERE, G., & MEGARTSI, M. (1982). PETROLOGY OF PYROXENITE INCLUSIONS FROM THE RUSHAYITE OF IN TERIA (NE OF ILLIZI), ALGERIA. BULLETIN DE MINERALOGIE, 105(1), 89-98. Dautria, J. M., Dupuy, C., Takherist, D., & Dostal, J. (1992). Carbonate metasomatism in the lithospheric mantle: peridotitic xenoliths from a melilititic district of the Sahara basin. Contributions to Mineralogy and Petrology, 111(1), 37-52.
  • In Salah Province
    • In Salah District
      • Foggaret Ezzaouia
Weber, D. (1995). Refractory Inclusions From the Carbonaceous Chondrite Acfer 094 (Abstract). Meteoritics 30 (5), 595-596. (Sept 1995).; Anorthite, Augite, Corundum, Diopside, Forsterite, Grossite, Hibonite, Melilite, Olivine, Perovskite, Pigeonite, Plagioclase, Pyroxene, Spinel ; Krot, A. N., Fagan, T. J., Keil, K., McKeegan, K. D., Sahijpal, S., Hutcheon, I. D., Petaev, M. I. & Yurimoto, H. (2004). Ca,Al-rich inclusions, amoeboid olivine aggregates, and Al-rich chondrules from the unique carbonaceous chondrite Acfer 094: I. mineralogy and petrology. Geochimica et Cosmochimica Acta 68 (9), 2167-2184. (May 2004).
Weber D, Bischoff A (1994) Grossite (CaAl4O7) - a rare phase in terrestrial rocks and meteorites, European Journal of Mineralogy 6, 591-594
Ma, C., Krot, A.N., Nagashima, K. (2017): Addibischoffite, Ca2Al6Al6O20, a new calcium aluminate mineral from the Acfer 214 CH carbonaceous chondrite: A new refractory phase from the solar nebula. American Mineralogist: 102: 1556-1560.
Angola
 
  • Huíla Province
    • Quilengues
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.
Antarctica
 
  • Eastern Antarctica
    • Mac Robertson Land
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
AV Andronikov (1992) The first study of upper mantle inclusions from the Prince Charles Mountains, East Antarctica in Recent Progress in Antarctic Earth Science Tokyo pp163-171
    • Queen Maud Land
      • Princess Astrid Coast
Hoch, M. (1999). Geochemistry and petrology of ultramafic lamprophyres from Schirmacher Oasis, East Antarctica. Mineralogy and Petrology, 65(1-2), 51-67.
      • Queen Fabiola Mts (Yamato Mts)
[Gehlenite] Yurimoto, H., Rubin, A. E., Itoh, S. & Wasson, J. T. (2001) Non-Stoichiometric Al-rich Spinel in an Ultra-Refractory Inclusion from CO Chondrite (abstract): Lunar and Planetary Science Conference XXXII, abstract #1557. (Mar 2001).
Kojima, T., Yada, S. & Tomeoka, K. (1995) Ca-Al-rich inclusions in three Antarctic CO3 chondrites, Yamato-81020 Yamato-82050 and Yamato-790992: Record of low temperature alteration. Proc. NIPR Symposium. Antarct. Meteorites 8: 79-96. (May 1995).; Hiyagon, H. & Hashimoto, A. (1999). An Ion Microprobe Study of Oxygen Isotopes in Various Types of Inclusions in Y-82050 (CO3), ALH-77307 (CO3) and Y-86009 (CV3) Chondrites (abstract): 30th Annual Lunar and Planetary Science Conference, abstract no. 1319. (Mar 1999).
    • Victoria Land
      • Allan Hills
[Gehlenite] Jeffrey N. Grossman, Alan E. Rubin & Glenn J. MacPherson (1988). Allan Hills 85085: an Out-of-the-Ordinary, Enstatite-rich Carbonaceous Chondrite. Abstracts of the Lunar and Planetary Science Conference, vol. 19, p. 433.
Russell, S. S., Greenwood, R. C., Fahey, A. J., Huss, G. R., & Wasserburg, G. J. (1994) An ion microprobe study of CAIs from CO3 meteorites: Meteoritics 29 (4): 525-526. (July 1994).
Han, J. & Brearley, A. J. (2011) Evidence for Formation of Al-Ti Pyroxene by Reaction Between Perovskite and Melilite in a CAI-Like Object from an AOA in the ALHA 77307 CO3.0 Chondrite. 74th Annual Meeting of the Meteoritical Society, held August 8-12, 2011 in London, UK. Published in Meteoritics and Planetary Science Supplement, id.5388. (Sept 2011)
Argentina
 
  • San Luis Province
    • Sierra de Comechingones
[Gehlenite] Frank K. Mazdab collection
Atlantic Ocean
 
  • Gorringe Ridge
Chernysheva, E. A., & Kharin, G. S. (2012). Melilitites in the alkaline volcanic succession of the Gorringe bank, Southwestern Portugal. Geochemistry International, 50(1), 54-62. doi.org/10.1134/S0016702912010028 Cornen, G. (1982). Petrology of the alkaline volcanism of Gorringe Bank (southwest Portugal). Marine Geology, 47(1-2), 101-130. doi.org/10.1016/0025-3227(82)90022-6 Féraud, G., York, D., Mével, C., Cornen, G., Hall, C. M., & Auzende, J. M. (1986). Additional 40Ar-39Ar dating of the basement and the alkaline volcanism of Gorringe Bank (Atlantic Ocean). Earth and Planetary Science Letters, 79(3-4), 255-269. doi.org/10.1016/0012-821X(86)90184-6 Bernard-Griffiths, J., Gruau, G., Cornen, G., Azambre, B., & Macé, J. (1997). Continental lithospheric contribution to alkaline magmatism: isotopic (Nd, Sr, Pb) and geochemical (REE) evidence from Serra de Monchique and Mount Ormonde complexes. Journal of Petrology, 38(1), 115-132. doi.org/10.1093/petroj/38.1.115
  • Mid-Atlantic Ridge complex
[Åkermanite] Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
[Åkermanite] Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Australia
 
  • New South Wales
    • Evelyn Co.
      • Milparinka
        • Moorabie Bore
Srinivasan, G., Russell, S. S., MacPherson, G. J., Huss, G. R., & Wasserburg, G. J. (1996) New Evidence for 26Al in CAI and Chondrules from Type 3 Ordinary Chondrites: Lunar and Planetary Science 27: 1257-1258.
    • Murchison Co.
Davies, R.M., Griffin, W.L., O'Reilly, S.Y., Andrew, A.S. (2003) Unusual mineral inclusions and carbon isotopes of alluvial diamonds from Bingara, eastern Australia. Lithos, 69(1-2), 51-66.
  • Queensland
    • Mareeba Shire
      • Chillagoe
Rubenach, M.J. and Cuff, C. (1985) Mineralogical Magazine 49, 71-75.
    • North Burnett Region
Johnson, R. W., Johnson, R. W., Knutson, J., & Taylor, S. R. (Eds.). (1989). Intraplate volcanism: in eastern Australia and New Zealand. Cambridge University Press, 106-107. Sutherland, F. L., Hollis, J. D., & Robertson, A. D. (1989). Monto.
  • South Australia
    • Flinders Ranges
      • North Flinders Ranges
        • Leigh Creek
[Gehlenite] Baker, G. (1953): Transactions of the Royal Society of South Australia, 76, 1-20.
    • Mt Lofty Ranges
      • South Mt Lofty Ranges (Adelaide Hills)
        • Adelaide
Hutcheon, I. D. & Steele, I. M. (1982) Refractory Inclusions in the Adelaide Carbonaceous Chondrite (Abstract): Lunar and Planetary Science XIII: 352-353. (March 1982)
  • Tasmania
    • Central Highlands municipality
      • Derwent Bridge
Bottrill, R. S. & Baker, W. E. (2008): A Catalogue of the Minerals of Tasmania. Geological Survey Bulletin 73, Mineral Resources Tasmania, 254 pp.
      • Interlaken
Bottrill, R. S. & Baker, W. E. (2008): A Catalogue of the Minerals of Tasmania. Geological Survey Bulletin 73, Mineral Resources Tasmania, 254 pp.
Bottrill, R. S. & Baker, W. E. (2008): A Catalogue of the Minerals of Tasmania. Geological Survey Bulletin 73, Mineral Resources Tasmania, 254 pp.
    • Waratah-Wynyard municipality
Bottrill, R. S. & Baker, W. E. (2008): A Catalogue of the Minerals of Tasmania. Geological Survey Bulletin 73, Mineral Resources Tasmania, 254 pp.
  • Victoria
    • City of Greater Shepparton
      • Murchison
Matzel, J. E. P.; Simon, J. I.; Hutcheon, I. D.; Jacobsen, B.; Simon, S. B.; Grossman, L. (2013). Oxygen Isotope Measurements of a Rare Murchison Type A CAI and its Rim. 44th Lunar and Planetary Science Conference, held March 18-22, 2013 in The Woodlands, Texas. LPI Contribution No. 1719, p.2632.
  • Western Australia
    • Mount Marshall Shire
      • Bencubbin
D. J. Barber & R. Hutchinson (1991). The Bencubbin stony-iron meteorite breccia - Electron petrography, shock-history and affinities of a 'carbonaceous chondrite' clast. Meteoritics 26, 83-95.
    • Wiluna Shire
      • Carnegie Station
Hamilton, R., & Rock, N. M. (1990). Geochemistry, mineralogy and petrology of a new find of ultramafic lamprophyres from Bulljah Pool, Nabberu Basin, Yilgarn Craton, Western Australia. Lithos, 24(4), 275-290.
Austria
 
  • Burgenland
    • Oberpullendorf District
      • Kobersdorf
        • Pauliberg
[Gehlenite] U. Kolitsch, W. Postl, H.-P. Bojar and W. Trattner (2009): Die Mineralvorkommen im Basalt des Pauliberges. In: Autorenkollektiv (Red. M. A. Götzinger und P. Huber) (2009): Die Mineralien des Burgenlandes - Geologie, Mineralogie und mineralische Rohstoffe. – Wissenschaftliche Arbeiten aus dem Burgenland, Band 126, Amt der Burgenländischen Landesregierung, Abteilung 7 - Landesmuseum, Eisenstadt, 83-99.; Kolitsch, U., Postl, W., Bernhard, F., Bojar, H.-P., Trattner, W. (2019): 2152) Ägirin, Albit, Alunit, Baryt, Calcit, Chalkopyrit, Cordierit, Corkit, Cristobalit, Diopsid, Dolomit, Dravit, Fayalit, Fluorapatit, Gehlenit, Gips, Goethit, Hämatit, Hauyn, Jarosit, Kaolinit, Kupfer, Laihunit(?), Magnesit, Magnetit, Montmorillonit, Mullit, Natroalunit, Natrojarosit, Nephelin, Opal (Hyalit), Plumbojarosit, Phosphohedyphan, Pyrit, Pyromorphit, Pyrrhotin, Quintinit(?), Rhönit, Rutil, Sodalith, Todorokit, Topas, Tridymit und Uricit aus dem Steinbruch am Pauliberg bei Landsee, Burgenland. Pp. 310-319 in Walter, F. et al. (2019): Neue Mineralfunde aus Österreich LXVIII. Carinthia II, 209./129., 237-362.
  • Styria
    • Südoststeiermark District
      • Bad Gleichenberg
        • Wilhelmsdorf
[Gehlenite] The analysises were made at Joanneum Graz, by Dr Postl.
      • Feldbach
        • Mühldorf bei Feldbach
R. Exel: Die Mineralien und Erzlagerstätten Österreichs (1993); Postl, W., Taucher, J. & Moser, B. (1996): Neue Mineralfunde im oststeirischen Vulkangebiet. Mitt. Abt. Miner. Landesmuseum Joanneum, 60/61, 3-76.
      • Klöch
[Gehlenite] R. Exel: Die Mineralien und Erzlagerstätten Österreichs (1993)
  • Tyrol
    • Kufstein District
      • Brixlegg
[Åkermanite] Kolitsch, U. (2013): 1799) Anglesit, Brochantit, Calcit, Callaghanit, Connellit, Cuprit, Diopsid, Elyit, Forsterit, Kupfer, Lithargit, Magnesiochromit, Malachit, Monohydrocalcit, Phoenicochroit, Rouait und Willemit in Schlacken der Montanwerke Brixlegg, Tirol. Pp. 111-114 in Niedermayr, G. et al. (2013): Neue Mineralfunde aus Österreich LXII. Carinthia II, 203./123., 91-146.
Belarus
 
  • Minsk Region
Aizberg, R. Y., Beskopylny, V. N., Starchik, T. A., & Tsekoyeva, T. K. (2001). Late Devonian magmatism in the Pripyat Palaeorift: a geodynamic model. Geological Quarterly, 45(4), 349-358. Mikhailov, N.D. & Laptsevich, A.G. 2009. Lamprophyric rocks of the Devonian alkali igneous complex of Belarus. Geochemistry of Magmatic Rocks, 26, International Conference. Russian Academy of Sciences, Vernadsky Institute of Geochemistry, Moscow, 104-106. Mikhailov, N.D., Laptsevich, A.G. & Vladykin, N.V. 2010. Alkali lamprophyres of the Paleozoic igneous complex of Belarus. Vladykin, N.V. (ed) Deep-Seated Magmatism, its Sources and Plumes. Russian Academy of Sciences, Vinogradov Institute of Geochemistry, Siberian Branch, Irkutsk, 185-197. Veretennikov, N.V. & Laptsevich, A.G. 2007. First carbonatite finding in the platform cover of Belarus. Doklady of the National Academy of Science of Belarus, 51, 84-88. Wilson, M. & Lyashkevich, Z.M. 1996. Magmatism and the geodynamics of rifting of the Pripyat-Dnieper-Donets rift. East European Platform. Tectonophysics, 268, 65-81.
Belgium
 
  • Wallonia
    • Hainaut
      • Châtelet
[Gehlenite] Giovanni Scapin collection
Bermuda
Aumento, F., & Ade-Hall, J. M. (1973). Deep Drill 1972: Petrology and geochemistry of the Bermuda Seamount: Am. Geophys. Union. Trans, 54, 485. Aumento, F. & Gunn, B.M. 2005. Geology of the Bermuda Seamount, www.geokem.com Rice, P. D., Hall, J. M., & Opdyke, N. D. (1980). Deep Drill 1972: a paleomagnetic study of the Bermuda Seamount. Canadian Journal of Earth Sciences, 17(2), 232-243. doi.org/10.1139/e80-018 Vogt, P. R., & Jung, W. Y. (2007). Origin of the Bermuda volcanoes and the Bermuda Rise: history, observations, models, and puzzles. SPECIAL PAPERS-GEOLOGICAL SOCIETY OF AMERICA, 430, 553-591.
Bolivia
 
  • Cochabamba
    • Ayopaya Province
Schultz (2004)
Brazil
 
  • Goiás
    • Amorinópolis
http://iavcei2004.free.cl/abstracts/Brod_ibxobhffgsxhpfgphnspm.doc.
  • Minas Gerais
    • Patos de Minas
      • Pântano
  • Pernambuco
    • Fernando de Noronha archipelago
de Almeida, F. F. M. (1958). Geologia e petrologia do Arquipélago de Fernando de Noronha. Serviço Gráfico do Instituto Brasileiro de Geografia e Estatística. Gerlach, D. C., Stormer Jr, J. C., & Mueller, P. A. (1987). Isotopic geochemistry of Fernando de Noronha. Earth and Planetary Science Letters, 85(1-3), 129-144. doi.org/10.1016/0012-821X(87)90027-6 Kogarko, L., Kurat, G., & Ntaflos, T. (2001). Carbonate metasomatism of the oceanic mantle beneath Fernando de Noronha Island, Brazil. Contributions to Mineralogy and Petrology, 140(5), 577-587. doi.org/10.1007/s004100000201 Lopes, R. P., & Ulbrich, M. N. C. (2015). Geochemistry of the alkaline volcanicsubvolcanic rocks of the Fernando de Noronha Archipelago, southern Atlantic Ocean. Brazilian Journal of Geology, 45(2), 307-333. doi.org/10.1590/23174889201500020009 Mitchell-Thomé, R. C. (1970). Geology of the South Atlantic islands. Perlingeiro, G., Vasconcelos, P. M., Knesel, K. M., Thiede, D. S., & Cordani, U. G. (2013). 40Ar/39Ar geochronology of the Fernando de Noronha Archipelago and implications for the origin of alkaline volcanism in the NE Brazil. Journal of Volcanology and Geothermal Research, 249, 140-154. doi.org/10.1016/j.jvolgeores.2012.08.017 Rivalenti, G., Mazzucchelli, M., Girardi, V. A., Vannucci, R., Barbieri, M. A., Zanetti, A., & Goldstein, S. L. (2000). Composition and processes of the mantle lithosphere in northeastern Brazil and Fernando de Noronha: evidence from mantle xenoliths. Contributions to Mineralogy and Petrology, 138(4), 308-325. doi.org/10.1007/s004100050565 Schultz, A., Rathert, M. C., Guerreiro, S. D. C., & Bloch, W. (1986). Paleomagnetism and rock magnetism of Fernando de Noronha, Brazil. Earth and planetary science letters, 79(1-2), 208-216. doi.org/10.1016/0012-821X(86)90054-3 Smith, W. C., & Burri, C. (1933). The igneous rocks of Fernando Noronha. Schweiz Mineral Petrogr Mitt, 13, 405-434. Weaver, B. L. (1990). Geochemistry of highly-undersaturated ocean island basalt suites from the South Atlantic Ocean: Fernando de Noronha and Trindade islands. Contributions to Mineralogy and Petrology, 105(5), 502-515. doi.org/10.1007/BF00302491
  • Santa Catarina
Comin-Chiaramonti, P., de Barros Gomes, C., Castorina, F., di Censi, P., Antonini, P., Furtado, S., ... & Scheibe, L. F. (2008). Geochemistry and geodynamic implications of the Anitápolis and Lages alkaline-carbonatite complexes, Santa Catarina State, Brazil. Brazilian Journal of Geology, 32(1), 43-58.; G Traversa et al (1994) Petrology and Mineral Chemistry of the Alkaline District of Lages, SC, Brazil. Geochem Brazil 8:179-214
  • São Paulo
    • Itapirapuã Paulista
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.
Bulgaria
 
  • Kardzhali Province
    • Momchilgrad
[Gehlenite] Yana Tzvetanova, Mihail Tarassov, Valentin Ganev, Iskra Piroeva (2018) Mineralogical control of REE and trace element distribution in the skarns from Zvezdel-Pcheloyad ore deposit, Eastern Rhodopes, Bulgaria. XXI International Congress of the CBGA, Salzburg, Austria, September 10–13, 2018, Abstracts. p182
Cameroon
 
  • Southwest Region
    • Fako
      • Buea
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
 
  • Newfoundland and Labrador
    • Labrador
[Åkermanite] OWENS, B.E. & KREMSER, P.T. (2010) Åkermanite breakdown to cuspidine-bearing sympectite in a calc-silicate xenolith, Kiglapait intrusion, Labrador, Canada. Canadian Mineralogist 48, 809-819.
[Åkermanite] Am Min 85:1595–1605, (2000)
  • Northwest Territories
    • Lac de Gras
      • Gahcho Kué mine
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.
  • Québec
    • Laurentides
      • Deux-Montagnes RCM
        • Oka
Gaston Pouliot (1970) Study of carbonatitic calcites from Oka, Quebec. Can Mineral 10:511-540
[Åkermanite] Sabina (1968)
[Åkermanite] Handbook of Mineralogy
GOLD, D.P. (1969) The Oka carbonatite and alkaline complex. Guidebook GAC/MAC Annual meeting 1969, 43-62.
        • Saint-Joseph-du-Lac
          • Oka complex
[Åkermanite] Sabina (1968)
    • Montérégie
      • Brome-Missisquoi RCM
PHILPOTTS, A.R., PATTISON, E.F. & FOX, J.S. (1967) Kalsilite, diopside and melilite in a sedimentary xenolith from Brome Mountain, Quebec. Nature 214, 1322-1323.
      • Vaudreuil-Soulanges RCM
        • Vaudreuil-Dorion
Bowen, 1922 Williams, Turner, Gilbert, 1954. ; Henderson, C. M. B., Kogarko, L. N., & Plant, D. A. (1999). Extreme closed system fractionation of volatile-rich, ultrabasic peralkaline melt inclusions and the occurrence of djerfisherite in the Kugda alkaline complex, Siberia. Mineralogical Magazine, 63(3), 433-438.
    • Montréal
      • Mont Royal
[Gehlenite] Dolan (1923)
Cape Verde
 
  • Barlavento Islands
Dyhr, C. T., & Holm, P. M. (2010). A volcanological and geochemical investigation of Boa Vista, Cape Verde Islands; 40Ar/39Ar geochronology and field constraints. Journal of Volcanology and Geothermal Research, 189(1-2), 19-32. doi.org/10.1016/j.jvolgeores.2009.10.010 Ancochea, E., Huertas, M. J., Hernán, F., & Brändle, J. L. (2014). A new felsic cone-sheet swarm in the Central Atlantic Islands: The cone-sheet swarm of Boa Vista (Cape Verde). Journal of volcanology and geothermal research, 274, 1-15. doi.org/10.1016/j.jvolgeores.2014.01.010 Figueiredo, M. O., Silva, L. C., & Williams, C. T. (1989). Notes on Cape Verde mineralogy. Loparite in syenitic rocks from Boa Vista island. Series: Geologia, Revista da Junta de Investigacoes do Ultramar, Lisboa, 12, 43-46. Ancochea, E., Hernán, F., Huertas, M. J., & Brändle, J. L. (2012). The basaltic dikes of Boa Vista (Cape Verde Islands). Their significance in the interpretation of the evolution of the island. Journal of Volcanology and Geothermal Research, 243, 24-37. doi.org/10.1016/j.jvolgeores.2012.06.029
Bebiano, J. B. (1932). A geologia do Arquipélago de Cabo Verde (Vol. 18). Serviços geológicos de Portugal.
Torres, P., Silva, L., Munhá, J., Caldeira, R., Mata, J., & Tassinari, C. C. (2010). Petrology and geochemistry of lavas from Sal Island: Implications for the variability of the Cape Verde magmatism. Comunicações Geológicas, 97, 35-62. Caldeira, R., & Silva, L. C. (2008). Intra-volcanic layered intrusions in Sal island (Cape Verde Archipelago): insights into an ocean island root zone. GeCAS, 72(12), A129. Shaw, C. S., Heidelbach, F., & Dingwell, D. B. (2006). The origin of reaction textures in mantle peridotite xenoliths from Sal Island, Cape Verde: the case for “metasomatism” by the host lava. Contributions to Mineralogy and Petrology, 151(6), 681-697. doi.org/10.1007/s00410-006-0087-2 Coltorti, M., Bonadiman, C., O'Reilly, S. Y., Griffin, W. L., & Pearson, N. J. (2010). Buoyant ancient continental mantle embedded in oceanic lithosphere (Sal Island, Cape Verde Archipelago). Lithos, 120(1-2), 223-233. doi.org/10.1016/j.lithos.2009.11.005
Holm, P. M., Wilson, J. R., Christensen, B. P., Hansen, L., Hansen, S. L., Hein, K. M., ... & Runge, M. K. (2006). Sampling the Cape Verde mantle plume: evolution of melt compositions on Santo Antão, Cape Verde Islands. Journal of Petrology, 47(1), 145-189. doi.org/10.1093/petrology/egi071 Plesner, S., Holm, P. M., & Wilson, J. R. (2003). 40Ar–39Ar geochronology of Santo Antão, Cape Verde Islands. Journal of Volcanology and Geothermal Research, 120(1-2), 103-121. doi.org/10.1016/S0377-0273(02)00367-0 Mortensen, A. K., Wilson, J. R., & Holm, P. M. (2009). The Cão Grande phonolitic fall deposit on Santo Antão, Cape Verde Islands. Journal of Volcanology and Geothermal Research, 179(1-2), 120-132. doi.org/10.1016/j.jvolgeores.2008.10.014 Gerlach, D. C., Cliff, R. A., Davies, G. R., Norry, M., & Hodgson, N. (1988). Magma sources of the Cape Verdes archipelago: isotopic and trace element constraints. Geochimica et Cosmochimica Acta, 52(12), 2979-2992. doi.org/10.1016/0016-7037(88)90162-7
    • São Vicente Island
Ancochea, E., Huertas, M. J., Hernán, F., & Brändle, J. L. (2010). Volcanic evolution of São Vicente, Cape Verde Islands: The Praia Grande landslide. Journal of volcanology and geothermal research, 198(1-2), 143-157. doi.org/10.1016/j.jvolgeores.2010.08.016 Woolley, A. R. (2019). Alkaline Rocks and Carbonatites of the World, Part 4: Antarctica, Asia and Europe (excluding the former USSR), Australasia and Oceanic Islands. Geological Society of London, p. 485.
Barker, A. K., Troll, V. R., Ellam, R. M., Hansteen, T. H., Harris, C., Stillman, C. J., & Andersson, A. (2012). Magmatic evolution of the Cadamosto Seamount, Cape Verde: beyond the spatial extent of EM1. Contributions to Mineralogy and Petrology, 163(6), 949-965. doi.org/10.1007/s00410-011-0708-2
  • Sotavento Islands
Day, S. J., Da Silva, S. H., & Fonseca, J. F. B. D. (1999). A past giant lateral collapse and present-day flank instability of Fogo, Cape Verde Islands. Journal of Volcanology and Geothermal Research, 94(1-4), 191-218. doi.org/10.1016/S0377-0273(99)00103-1 Hildner, E., Klügel, A., & Hauff, F. (2011). Magma storage and ascent during the 1995 eruption of Fogo, Cape Verde Archipelago. Contributions to Mineralogy and Petrology, 162(4), 751-772. doi.org/10.1007/s00410-011-0623-6 Munhá, J., Mendes, M., Palácios, T., Silva, L. & Torres, P. 1997. Petrologia e Geoquímica da Erupção de 1995 e de outros lavas históricas na Ilha do Fogo, Cabo Verde. Escrig, S., Doucelance, R., Moreira, M., & Allègre, C. J. (2005). Os isotope systematics in Fogo Island: evidence for lower continental crust fragments under the Cape Verde Southern Islands. Chemical Geology, 219(1-4), 93-113. doi.org/10.1016/j.chemgeo.2005.02.011 Assunção, C. F. T., Machado, F., & Gomes, R. D. (1965). On the occurrence of carbonatites in the Cape Verde Islands. Boletim da Sociedade Geológica de Portugal, 16, 179-188. Kogarko, L. N. (1993). Geochemical characteristics of oceanic carbonatites from the Cape Verde Islands. South African journal of geology, 96(3), 119-125. Doucelance, R., Hammouda, T., Moreira, M., & Martins, J. C. (2010). Geochemical constraints on depth of origin of oceanic carbonatites: the Cape Verde case. Geochimica et Cosmochimica Acta, 74(24), 7261-7282. doi.org/10.1016/j.gca.2010.09.024 Mata, J., Moreira, M., Doucelance, R., Ader, M., & Silva, L. C. (2010). Noble gas and carbon isotopic signatures of Cape Verde oceanic carbonatites: implications for carbon provenance. Earth and Planetary Science Letters, 291(1-4), 70-83. doi.org/10.1016/j.epsl.2009.12.052 Foeken, J. P., Day, S., & Stuart, F. M. (2009). Cosmogenic 3He exposure dating of the Quaternary basalts from Fogo, Cape Verdes: implications for rift zone and magmatic reorganisation. Quaternary Geochronology, 4(1), 37-49. doi.org/10.1016/j.quageo.2008.07.002
Stillman, C. J., Furnes, H., LeBas, M. J., Robertson, A. H. F., & Zielonka, J. (1982). The geological history of Maio, Cape Verde islands. Journal of the Geological Society, 139(3), 347-361. doi.org/10.1144/gsjgs.139.3.0347 Mitchell, J. G., Le Bas, M. J., Zielonka, J., & Furnes, H. (1983). On dating the magmatism of Maio, Cape Verde islands. Earth and Planetary Science Letters, 64(1), 61-76. doi.org/10.1016/0012-821X(83)90053-5 Furnes, H., & Stillman, C. J. (1987). The geochemistry and petrology of an alkaline lamprophyre sheet intrusion complex on Maio, Cape Verde Republic. Journal of the Geological Society, 144(2), 227-241. doi.org/10.1144/gsjgs.144.2.0227 Robertson, A. H. F. (1984). Mesozoic deep-water and Tertiary volcaniclastic deposition of Maio, Cape Verde Islands: Implications for Atlantic paleoenvironments and ocean island volcanism. Geological Society of America Bulletin, 95(4), 433-453. doi.org/10.1130/0016-7606(1984)95<433:MDATVD>2.0.CO;2 Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lameyre, J. (2002). Igneous rocks. A classification and glossary of terms, 2.
Martins, S., Mata, J., Munhá, J., Mendes, M. H., Maerschalk, C., Caldeira, R., & Mattielli, N. (2010). Chemical and mineralogical evidence of the occurrence of mantle metasomatism by carbonate-rich melts in an oceanic environment (Santiago Island, Cape Verde). Mineralogy and Petrology, 99(1-2), 43-65. doi.org/10.1007/s00710-009-0078-x Barker, A. K., Holm, P. M., Peate, D. W., & Baker, J. A. (2009). Geochemical stratigraphy of submarine lavas (3–5 Ma) from the Flamengos Valley, Santiago, southern Cape Verde islands. Journal of Petrology, 50(1), 169-193. doi.org/10.1093/petrology/egn081 Barker, A. K., Holm, P. M., Peate, D. W., & Baker, J. A. (2010). A 5 million year record of compositional variations in mantle sources to magmatism on Santiago, southern Cape Verde archipelago. Contributions to Mineralogy and Petrology, 160(1), 133-154. doi.org/10.1007/s00410-009-0470-x Silva, L. C., & Ubaldo, M. L. (1985). Consideraçoes geológicas e petrogenéticas sobre os tufos carbonatíticos globulares da estrutura alcalino-carbonatítica do Norte de Santiago, arquipélago de Cabo Verde. Garcia de Orta. Série de geologia, 8(1-2), 1-6. Silva, L.C. 1976. Note on the occurrence of niobium-rich zirconolite in carbonatitic rocks of São Tiago island (Cape Verde Republic). Garcia de Orta, Serte de Geologia, Revista da Junta de Investigacoes do Ultramar, Lisboa, 4, 106. Hoernle, K., Tilton, G., Le Bas, M. J., Duggen, S., & Garbe-Schönberg, D. (2002). Geochemistry of oceanic carbonatites compared with continental carbonatites: mantle recycling of oceanic crustal carbonate. Contributions to Mineralogy and Petrology, 142(5), 520-542. doi.org/10.1007/s004100100308 Doucelance, R., Hammouda, T., Moreira, M., & Martins, J. C. (2010). Geochemical constraints on depth of origin of oceanic carbonatites: the Cape Verde case. Geochimica et Cosmochimica Acta, 74(24), 7261-7282. doi.org/10.1016/j.gca.2010.09.024 Kogarko, L. N. (1993). Geochemical characteristics of oceanic carbonatites from the Cape Verde Islands. South African journal of geology, 96(3), 119-125. Mata, J., Moreira, M., Doucelance, R., Ader, M., & Silva, L. C. (2010). Noble gas and carbon isotopic signatures of Cape Verde oceanic carbonatites: implications for carbon provenance. Earth and Planetary Science Letters, 291(1-4), 70-83. doi.org/10.1016/j.epsl.2009.12.052 Gerlach, D. C., Cliff, R. A., Davies, G. R., Norry, M., & Hodgson, N. (1988). Magma sources of the Cape Verdes archipelago: isotopic and trace element constraints. Geochimica et Cosmochimica Acta, 52(12), 2979-2992. doi.org/10.1016/0016-7037(88)90162-7
Central African Republic
 
  • Nana-Mambéré
    • Lobaye River (Bali River)
Hoinkes, G., and Kurat, G. (1975): Meteoritics 10, 416.
Chile
 
  • Tarapacá
    • Iquique Province
Zori, C., & Tropper, P. (2013). Silver lining: evidence for Inka silver refining in northern Chile. Journal of Archaeological Science, 40(8), 3282-3292.
China
 
  • Anhui
    • Huaibei
      • Suixi Co.
        • Sanpu ore field
[Gehlenite] Yiming Zhao, Yinan Zhang, Chengsi Bi, Kaijian Tang, and Qingan Sun (1999): Mineral Deposits 18(1), 1-10
[Gehlenite] Yiming Zhao, Yinan Zhang, and Chengsi Bi (1999): Ore Geology Reviews 14, 227-249; Yiming Zhao, Yinan Zhang, Chengsi Bi, Kaijian Tang, and Qingan Sun (1999): Mineral Deposits 18(1), 1-10
[Gehlenite] Yiming Zhao and Daxin Li (2003): Mineral Deposits 22(4), 345-359
  • Gansu
    • Longnan
      • Li County
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.
  • Jiangsu
    • Suzhou
      • Zhangjiagang Co.
        • Tangqiao
[Gugiaite] Peng Chi-Jui, Tsao Rung-Lung, and Chou Zu-Rin (1962): Scientia Sinica 11 (7), 977-988.
  • Shaanxi
    • Hanzhong
      • Ningqiang County
[Åkermanite] Xiyue Wang, Huimin Zhang, Sichao Wang, and Yuezhen Wu (1987): Acta Petrologica et Mineralogica 6(4), 296-306
  • Sichuan
    • Garzê Autonomous Prefecture (Ganzi Autonomous Prefecture)
      • Baiyü County
Xiaoming Qu, Zengqian Hou, and Shugui Zhou (2001): Acta Geoscientia Sinica 23(1), 29-34; Zengqian Hou, Khin Zaw, Guitang Pan, Xuanxue Mo, Qiang Xu, Yunzhong Hu, and Xingzhen Li (2007): Ore Geology Reviews 31, 48-87
  • Tibet
    • Shannan Prefecture (Lhokha Prefecture; Lhoka Prefecture)
      • Qusum Co. (Qusong Co.)
[Gehlenite] Wenji Bai, Jingsui Yang, Qingsong Fang, Binggan Yan, and Zhongming Zhang (2001): Earth Science Frontiers 8(3), 111-121
Comoros
 
Strong, D. F. (1972). Petrology of the island of Moheli, western Indian Ocean. Geological Society of America Bulletin, 83(2), 389-406. doi.org/10.1130/0016-7606(1972)83[389:POTIOM]2.0.CO;2 Upton, B. G. J. (1982). Oceanic islands. In The Ocean Basins and Margins (pp. 585-648). Springer, Boston, MA. Spāth, A., Roex, A. P. L., & Duncan, R. A. (1996). The Geochemistry of Lavas from the Gomores Archipelago, Western Indian Ocean: Petrogenesis and Mantle Source Region Characteristics. Journal of Petrology, 37(4), 961-991. doi.org/10.1093/petrology/37.4.961 Emerick, C. M., & Duncan, R. A. (1982). Age progressive volcanism in the Comores Archipelago, western Indian Ocean and implications for Somali plate tectonics. Earth and Planetary Science Letters, 60(3), 415-428. doi.org/10.1016/0012-821X(82)90077-2 Nougier, J., Cantagrel, J. M., & Karche, J. P. (1986). The Comores archipelago in the western Indian Ocean: volcanology, geochronology and geodynamic setting. Journal of African Earth Sciences (1983), 5(2), 135-145. doi.org/10.1016/0899-5362(86)90003-5
Czech Republic
 
  • Central Bohemian Region
    • Kutná Hora District
      • Poličany
        • Vrchlice river valley
[Åkermanite] Pauliš P. Mineralogické lokality okolí Kutné Hory. Kuttna, Kutná Hora 1999. ISBN 80-902719-0-1.
  • Karlovy Vary Region
    • Cheb District
Gottsmann, J. (1999). Tephra characteristics and eruption mechanism of the Komorní Hůrka Hill scoria cone, Cheb Basin, Czech Republic. Geolines, 9, 35-40. Shrbený, O. (1979). Geochemistry of the West Bohemian neovolcanites. Čas. Mineral. Geol, 24, 9-21. Ulrych, J., Lloyd, F. E., & Balogh, K. (2003). Age relations and geochemical constraints of Cenozoic alkaline volcanic series in W Bohemia: a review. Geolines, 15, 168-180. Wagner, G. A., Gögen, K., Jonckheere, R., Kämpf, H., Wagner, I., & Woda, C. (1998). The age of Quaternary volcanoes Železná Hůrka and Komorní Hůrka (Western Eger Rift), Czech Republic: alpha-recoil track, TL, ESR and fission track chronometry. Magma and Rift Basin Evolution—Excursion Guide, 95-96.
      • Mariánské Lázně
Ulrych, J., Pivec, E., Bouše, P.: Minerální parageneze ijolitových vyloučenin v olivinickém nefelinitu Podhorního vrchu u Mariánských Lázní. Bulletin mineralogicko-petrografického oddělení Národního muzea v Praze, 1995, roč. 3, s. 51-56.; CAJZ, V. (1992). Vulkanologie Podhorniho vrchu (zapadni Cechy). Časopis pro mineralogii a geologii, 37(1), 63-64. Kaiser, G., & Pilot, J. (1986). Weitere K-Ar-Datierungen an jungen Vulkaniten. Zeitschrift für geologische Wissenschaften, 14(1), 121-124. Ulrych, J., Pivec, E., Lang, M., & Lloyd, F. E. (2000). Ijolitic segregations in melilite nephelinite of Podhorní vrch volcano, Western Bohemia. N. Jb. Mineral., Abh, 175, 217-348. Wilson, M., Rosenbaum, J. M., & Ulrych, J. (1994). Cenozoic magmatism of the Ohře Rift, Czech Republic: geochemical signatures and mantle dynamics. In Abstracts IAVCEI, Ankara.
      • Mýtina (Altalbenreuth)
Ulrych, J., Ackerman, L., Balogh, K., Hegner, E., Jelínek, E., Pécskay, Z., Přichystal, A., Upton, B.G.J., Zimák, J., Foltýnová, R.: Plio-Pleistocene basanitic and melilitic series of the Bohemian Massif: K-Ar ages, major/trace elements and Sr-Nd isotopic data. Chemie der Erde, 2013, 73, 429-450.
    • Karlovy Vary District
Holub, F. V., Rapprich, V., Erban, V., Pecskay, Z., Mlcoch, B., & Mikova, J. (2010). Petrology and geochemistry of the Tertiary alkaline intrusive rocks at Doupov, Doupovské hory Volcanic Complex (NW Bohemian Massif). Journal of Geosciences, 55(3), 251-278. Kopecky, L. (1966). Tertiary volcanics. Regional Geology of Czechoslovakia. I. The Bohemian Massif. Czechoslovak Academy of Sciences (Praha), 554-581. Shrbeny, O. (1982). Chemistry of alkaline volcanic rocks of the Doupovské hory Mts., Bohemia. 27, 139-158. Shrbený, O. (1995). Chemical composition of young volcanites of the Czech Republic. Czech Geological Survey Special Paper, 4. Czech Geological Survey. Ulrych, J., Lloyd, F. E., & Balogh, K. (2003). Age relations and geochemical constraints of Cenozoic alkaline volcanic series in W Bohemia: a review. Geolines, 15, 168-180. Zuzana, S., Vladislav, R., & Bedřich, M. (2009). Effect of small potassium-rich dykes on regional gamma-spectrometry image of a potassium-poor volcanic complex: A case from the Doupovské hory Volcanic Complex, NW Czech Republic. Journal of volcanology and geothermal research, 187(1-2), 26-32.
  • Liberec Region
    • Liberec District
Pivec, E., Ulrych, J., & Rutsek, J. (1998). Melilitic rocks from northern Bohemia: geochemistry and mineralogy. Neues Jahrbuch für Mineralogie-Abhandlungen, 119-154. Ulrych, J., Povondra, P., Rutšek, J., & Pivec, E. (1988). Melilitic and melilite-bearing subvolcanic rocks from the Ploučnice river region, Czechoslovakia. Acta Univ. Carol., Geol, 2, 195-231. Ulrych, J., Pivec, E., Povondra, P., & RUTSEK, J. (1988). Perovskite from melilite rocks, Osecná complex, northern Bohemia, Czechoslovakia. Neues Jahrbuch für Mineralogie Monatshefte, (2), 81-95. Ulrych, J., Pivec, E. Rutšek, J. & Povondra, P. 1990. Olivines, monticelites and clinopyroxenes in melilitic rocks, Ploučnice River Region, Czechoslovakia. Acta Universitatis Carolinae Geologica, 141-164. Ulrych, J., Pivec, Povondra, P. & Rutšek 1990. Phlogopites from subvolcanic melilitic rocks, Ploučnice River Region, Czechoslovakia. Acta Universitatis Carolinae Geologica, 9-24. Ulrych, J., Pivec, E., Povondra, P., & Rutsek, J. (2000). Upper-mantle xenoliths in melilitic rocks of the Osecnà complex, North Bohemia. Journal of Geosciences, 45(1-2), 79-83. Ulrych, J., Povondra, P., Pivec, E., Rutsek, J., & Sitek, J. (1994). Compositional evolution of metasomatic garnet in melilitic rocks of the Osecná complex, Bohemia. The Canadian Mineralogist, 32(3), 637-647. Ulrych, J., Dostal, J., Hegner, E., Balogh, K., & Ackerman, L. (2008). Late Cretaceous to Paleocene melilitic rocks of the Ohře/Eger Rift in northern Bohemia, Czech Republic: Insights into the initial stages of continental rifting. Lithos, 101(1-2), 141-161. Ulrych, J., Adamovic, J., Krmicek, L., Ackerman, L., & Balogh, K. (2014). Revision of Scheumann’s classification of melilitic lamprophyres and related melilitic rocks in light of new analytical data. Journal of Geosciences, 59(1), 3-22.
  • Moravian-Silesian Region
    • Bruntál District
Ulrych, J., Ackerman, L., Balogh, K., Hegner, E., Jelínek, E., Pécskay, Z., ... & Foltýnová, R. (2013). Plio-Pleistocene basanitic and melilititic series of the Bohemian Massif: K-Ar ages, major/trace element and Sr–Nd isotopic data. Geochemistry, 73(4), 429-450.
  • Ústí nad Labem Region
Kopecky, L. (1966). Tertiary volcanics. Regional Geology of Czechoslovakia. I. The Bohemian Massif. Czechoslovak Academy of Sciences (Praha), 554-581. Kopecký, L., Píšová, J., & Pokorný, L. (1967). Pyrope-bearing diatremes of the České středohoří Mountains. Sborník geologických věd: Geologie, 12, 81-130. Allen, J. B., & Charsley, T. J. (1968). Nepheline-syenite and Phonolite. HMSO. London. Shrbený, O. (1995). Chemical composition of young volcanites of the Czech Republic. Czech Geological Survey Special Paper, 4. Czech Geological Survey. Cajz, V., Vokurka, K., Balogh, K., Lang, M., & Ulrych, J. (1999). The České středohoří Mts.: volcanostratigraphy and geochemistry. Geolines, 9, 21-28. Suhr, P. (1999). Phreatomagmatic structures in the northern environs of the Ohre Rift (Saxony). Geolines, 9, 119-122. Ulrych, J. 2000. Intrusive centres of Neodic volcanism in the Bohemian Massiff: petrological, geochemical and mineralogical characteristics (with emphasis on the Roztoky, Osečná and Dvůr Králové centres). Summary of the Dissertation in Geology for Scientific Degree Doctor of sciences, University of Prague. Ulrych, J. A. R. O. M. I. R., & Balogh, K. A. D. O. S. A. (2000). Roztoky Intrusive Centre in the Ceske stredohori Mts.: Differentiation, emplacement, distribution, orientation and age of dyke series. GEOLOGICA CARPATHICA-BRATISLAVA-, 51(6), 383-398. Ulrych, J., Svobodová, J., & Balogh, K. (2002). The source of Cenozoic volcanism in the České středohoří Mts., Bohemian Massif. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 177(2), 133-162. Cajz, V. (2003). Dyke swarm pattern and tectonics in the České Středohoří Mts. Volcanic centre, Ohře (Eger) Rift, Central Europe (Starting points for further research). Geolines, 15, 15-22. Kotková, J., O’Brien, P. J., & Ziemann, M. A. (2011). Diamonds in the Bohemian Massif—evidence for ultrahigh-pressure metamorphism. Geologické výzkumy na Morave a ve Slezsku 18, 1, 35-38. Ackerman, L., Medaris, G., Špaček, P., & Ulrych, J. (2015). Geochemical and petrological constraints on mantle composition of the Ohře (Eger) rift, Bohemian Massif: peridotite xenoliths from the České Středohoří Volcanic complex and northern Bohemia. International Journal of Earth Sciences, 104(8), 1957-1979. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.305
    • Most District
Žáček V, Skála R., Dvořák Z.: Spinelidy v pyrometamorfovaných horninách Mostecké pánve. Minerál, 2010, 18, 1, 21-31.
    • Teplice District
      • Duchcov
[Åkermanite] Žáček V., Skála R., Chlupáčová M., Dvořák Z. 2005: Ca-Fe3+-rich, Si-undersaturated buchite from Želénky, North-Bohemian Brown Coal Basin, Czech Republic. Eur. J. Mineral., 17, 623-633
DR Congo
 
  • Ituri
El Goresy et al. (1984) A calcium-aluminum-rich inclusion from the Essebi (CM2) chondrite: Evidence for captured spinel-hibonite spherules and for an ultra-refractory rimming sequence. Geochimica et Cosmochimica Acta 48 (11): 2283–2298. (Nov 1984)
  • North Kivu
    • Nyiragongo Territory
[Åkermanite] Andersen, T., Elburg, M. A., & Erambert, M. (2014). Extreme peralkalinity in delhayelite-and andremeyerite-bearing nephelinite from Nyiragongo volcano, East African Rift. Lithos, 206, 164-178.
Sahama, T. G., & Meyr, A. (1958). Study of the Volcano Nyragongo: A Progress Report. Institut des Parcs Nationaux du Congo Belge.
Mineralogical Magazine (1958) 31 (2), 698-699.; Mineralogical Magazine 1957 31 : 698-699.
Egypt
 
  • New Valley Governorate
[Gehlenite] Methot, R. L. et al., (1975) Mineralogy, petrology and chemistry of the Isna (C3) meteorite. Meteoritics 10 (2): 121-131. (Jun 1975)
Federated States of Micronesia
 
Mattey, D. P. (1982). The minor and trace element geochemistry of volcanic rocks from Truk, Ponape and Kusaie, eastern Caroline Islands; the evolution of a young hot spot trace across old Pacific Ocean crust. Contributions to Mineralogy and Petrology, 80(1), 1-13. doi.org/10.1007/BF00376730 Yagi, K. E. N. Z. O. (1960). Petrochemistry of the alkalic rocks of the Ponape Island, western Pacific Ocean. In The 21st International Geological Congress, Norden, 13, 108-122. Dixon, T. H., Batiza, R., Futa, K., & Martin, D. (1984). Petrochemistry, age and isotopic composition of alkali basalts from Ponape Island, Western Pacific. Chemical Geology, 43(1-2), 1-28. doi.org/10.1016/0009-2541(84)90138-4 Jackson, M. G., Price, A. A., Blichert-Toft, J., Kurz, M. D., & Reinhard, A. A. (2017). Geochemistry of lavas from the Caroline hotspot, Micronesia: Evidence for primitive and recycled components in the mantle sources of lavas with moderately elevated 3He/4He. Chemical Geology, 455, 385-400. doi.org/10.1016/j.chemgeo.2016.10.038
Stark, J. T., & Hay, R. L. (1963). Geology and petrography of volcanic rocks of the Truk Islands, East Caroline Islands. US Government Printing Office, Professional Papers, 409. Mattey, D. P. (1982). The minor and trace element geochemistry of volcanic rocks from Truk, Ponape and Kusaie, eastern Caroline Islands; the evolution of a young hot spot trace across old Pacific Ocean crust. Contributions to Mineralogy and Petrology, 80(1), 1-13. doi.org/10.1007/BF00376730
France
 
  • Auvergne-Rhône-Alpes
    • Loire
      • Montbrison
Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe Limitrophe. Guides Géologiques Régionaux. Masson, Paris. Lenoir, X., Garrido, C. J., Bodinier, J. L., & Dautria, J. M. (2000). Contrasting lithospheric mantle domains beneath the Massif Central (France) revealed by geochemistry of peridotite xenoliths. Earth and Planetary Science Letters, 181(3), 359-375. Lenoir, X., Dautria, J. M., Briqueu, L., Cantagrel, J. M., & Michard, A. (2000). Nouvelles données géochronologiques, géochimiques et isotopiques sur le volcanisme du Forez: relation avec l'évolution cénozoïque du manteau du Massif central. Comptes Rendus de l'Académie des Sciences-Series IIA-Earth and Planetary Science, 330(3), 201-207. Hernandez, J. (1973). Le volcanisme tertiaire des monts du Forez (Massif central français): basanites à analcime, à leucite et néphélinites à mélilite. Bulletin de Minéralogie, 96(4), 303-312. Lenoir, X., Dautria, J. M., & Bodinier, J. L. (1997). Les enclaves mantelliques protogranulaires du Forez: témoins de l'érosion lithosphérique en bordure du panache du Massif central. Comptes Rendus de l'Académie des Sciences-Series IIA-Earth and Planetary Science, 325(4), 235-241.
        • Marcoux
Hernandez, J. (1973). Le volcanisme tertiaire des monts du Forez (Massif central français): basanites à analcime, à leucite et néphélinites à mélilite. Bulletin de Minéralogie, 96(4), 303-312. Hernandez, J. (1976). Données nouvelles sur la composition minéralogique de la néphélinite de Marcoux (Forez). Bulletin de Minéralogie, 99(1), 61-66. Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe Limitrophe. Guides Géologiques Régionaux. Masson, Paris. Lenoir, X., Garrido, C. J., Bodinier, J. L., & Dautria, J. M. (2000). Contrasting lithospheric mantle domains beneath the Massif Central (France) revealed by geochemistry of peridotite xenoliths. Earth and Planetary Science Letters, 181(3), 359-375.
BRGM (1980) - Notice de la carte géologique au 1/50 000ème (feuille Montbrison)
  • Bourgogne-Franche-Comté
    • Doubs
      • Besançon
        • Ornans
A. M. Davis (1985). Refractory Inclusions in the Ornans C3O Chondrite (Abstract). Lunar and Planetary Science XVI, pp. 165-166.
  • Centre-Val de Loire
    • Loir-et-Cher
      • Vendôme
        • Lancé
Brearley, A. J. & Jones, R. H. (1998): Chondritic Meteorites. In: Planetary Materials (Papike, J. J., Editor): Chapter 3, 398 pages. Mineralogical Society of America: Washington, DC, USA. (1998)
  • Grand Est
    • Vosges
Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Oberrheinische Geologische Abhandlungen, 25, 41-62. Brousse, R. (1961). Recueil des analyses chimiques des roches volcaniques tertiaires et quaternaires de la France. Bull. Serv. Carte géol. France, 58(263), 1-140. BROUSSE, R., & BELLON, H. (1983). Réflexions chronologiques et pétrologiques sur le volcanisme associé au développement des rifts de France. Bulletin des centres de recherches exploration-Production Elf-Aquitaine, 7(1), 409-424. Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe limitrophe. «Guides géologiques régionaux». Masson, Paris. Keller, J., Kraml, M., & Henjes-Kunst, F. (2002). 40Ar/39Ar single crystal laser dating of early volcanism in the Upper Rhine Graben and tectonic implications. Schweizerische Mineralogische und Petrographische Mitteilungen, 82, 121-130. Wimmenauer, W. (1952). Petrographische Untersuchungen an einigen basischen Eruptivgesteinen des Oberrheingebietes. Neues Jahrbuch für Mineralogie-Abhandlungen, 83, 375-432.
Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Oberrheinische Geologische Abhandlungen, 25, 41-62.
  • Ile-de-France
    • Paris
[Gehlenite] Marrocchi, Y., Gounelle, M., Blanchard, I., Caste, F. & Kearsley, A.T. (2014) The Paris CM chondrite: secondary minerals and asteroidal processing. Meteoritics & Planetary Science: 49 (7): 12321249. (July 2014).; Hewins, Roger H. & 16 others (2014) The Paris meteorite, the least altered CM chondrite so far. Geochimica et Cosmochimica Acta 124: 190-222. (1 January 2014)
  • Occitanie
    • Aveyron
      • Rodez
        • Sévérac-d'Aveyron
[Åkermanite] Kruszewski, Ł., Gatel, P., Thiéry, V., Moszumańska, I., and Kusy, D. (2018) Crystallochemical Behavior of Slag Minerals and the Occurrence of Potentially New Mineral Species from Lapanouse-de-Sévérac, France. In: Stracher, G.B. (Ed.) Coal and Peat Fires: A Global Perspective, Vol. 5: Case Studies - Advances in Field and Laboratory Research, xx-xx (in press; publication date: November 2018).
    • Hérault
      • Lodève
Ambert, P., Balestro, F., Laroche, M., Figueroa, V. and Rovira, S. (2014) Technological aspects of the earliest metallurgy in France: ‘furnaces’ and slags from La Capitelle du Broum (Péret, France). Historical Metallurgy 47(1), 60-74.
  • Provence-Alpes-Côte d'Azur
    • Alpes-de-Haute-Provence
      • Forcalquier
        • Saint-Maime
Favreau G., Meisser N., Chiappero P.J. (2004), Saint-Maime (Alpes-de-Haute-Provence): un exemple de pyrométamorphisme en région provençale, n°3, pp: 59-92
  • Réunion
    • Cilaos
      • Bras de Cilaos
[Gehlenite] Boisson, J.-M. & Leconte, J. (2014): Analyses 2012-2013 MNHN-MICROMONTEURS. La revue de Micromonteurs, 21.
Germany
 
  • Baden-Württemberg
    • Freiburg Region
      • Breisgau-Hochschwarzwald
Walenta, K. (1992) Die Mineralien des Schwarzwaldes und ihre Fundstellan. Christian Weise Verlag, München, 336 pages [in German].
Baranyi, I., Lippolt, H.J. & Todt, W. (1976). KALIUM-ARGON-ALTERSBESTIMMUNGEN AN TERTIAEREN VULKANITEN DES OBERRHEINGRABEN-GEBIETES: II DIE ALTERSTRAVERSE VON HEGAU NACH LOTHRINGEN. Obnerrheinische Geologische Abhandlungen, 25, 41-62. Dunworth, E. A., & Wilson, M. (1998). Olivine melilitites of the SW German Tertiary Volcanic Province: mineralogy and petrogenesis. Journal of Petrology, 39(10), 1805-1836. Keller, J., & Schleicher, H. (1990). Volcanism and petrology of the Kaiserstuhl. In International Volcanological Congress, Mainz (FRG), Post-Conference Excursion B (Vol. 2, pp. 32-60). Keller, J., Kraml, M., & Henjes-Kunst, F. (2002). 40Ar/39Ar single crystal laser dating of early volcanism in the Upper Rhine Graben and tectonic implications. Schweizerische Mineralogische und Petrographische Mitteilungen, 82, 121-130. Solovova, I. P., Girnis, A. V., Rass, I. T., Kononkova, N. N., & Keller, J. (2005). Composition and evolution of fluid-saturated calcium-rich melts: Inclusions in the minerals of olivine melilitite from Mahlberg, Rhine Graben. Geochemistry International, 43(9), 843-861. Wimmenauer, W. (1952). Petrographische Untersuchungen an einigen basischen Eruptivgesteinen des Oberrheingebietes. Neues Jahrbuch für Mineralogie-Abhandlungen, 83, 375-432.
        • Vogtsburg im Kaiserstuhl
          • Schelingen
No reference listed
[Åkermanite] Keller, J., Williams T. (1995): Niocalite and Wöhlerite from the alkaline and carbonatite rocks at Kaiserstuhl, Germany, Mineralogical Magazine, Vol.: 59, 561-566
      • Konstanz
        • Engen
Grubenmann, U. (1886): Die Basalte des Hegau´s, eine petrographische Studie, Dissertation Zürich, J. Hübner´s Buchdruckerei, Frauenfeld
Alibert, C., Michard, A., & Albarède, F. (1983). The transition from alkali basalts to kimberlites: isotope and trace element evidence from melilitites. Contributions to Mineralogy and Petrology, 82(2-3), 176-186. Dunworth, E. A., & Wilson, M. (1998). Olivine melilitites of the SW German Tertiary Volcanic Province: mineralogy and petrogenesis. Journal of Petrology, 39(10), 1805-1836. Hegner, E., & Vennemann, T. W. (1997). Role of fluids in the origin of Tertiary European intraplate volcanism: evidence from O, H, and Sr isotopes in melilitites. Geology, 25(11), 1035-1038. Keller, J. (1989). Extrusive carbonatites and their significance. Carbonatites: genesis and evolution. Unwin Hyman, London, 70-88. Keller, J., Brey, G., Lorenz, V., & Sachs, P. (1990). Volcanism and petrology of the upper Rhinegraben (Urach-Hegau-Kaiserstuhl). Fieldguide, IAVCEI 1990 preconference excursion, 2. Wedepohl, K. H., Gohn, E., & Hartmann, G. (1994). Cenozoic alkali basaltic magmas of western Germany and their products of differentiation. Contributions to Mineralogy and Petrology, 115(3), 253-278. Wilson, M., Rosenbaum, J. M., & Dunworth, E. A. (1995). Melilitites: partial melts of the thermal boundary layer?. Contributions to Mineralogy and Petrology, 119(2-3), 181-196.; Alibert, C., Michard, A., & Albarède, F. (1983). The transition from alkali basalts to kimberlites: isotope and trace element evidence from melilitites. Contributions to Mineralogy and Petrology, 82(2-3), 176-186. Dunworth, E. A., & Wilson, M. (1998). Olivine melilitites of the SW German Tertiary Volcanic Province: mineralogy and petrogenesis. Journal of Petrology, 39(10), 1805-1836. Hegner, E., & Vennemann, T. W. (1997). Role of fluids in the origin of Tertiary European intraplate volcanism: evidence from O, H, and Sr isotopes in melilitites. Geology, 25(11), 1035-1038. Keller, J. (1989). Extrusive carbonatites and their significance. Carbonatites: genesis and evolution. Unwin Hyman, London, 70-88. Keller, J., Brey, G., Lorenz, V., & Sachs, P. (1990). Volcanism and petrology of the upper Rhinegraben (Urach-Hegau-Kaiserstuhl). Fieldguide, IAVCEI 1990 preconference excursion, 2. Wedepohl, K. H., Gohn, E., & Hartmann, G. (1994). Cenozoic alkali basaltic magmas of western Germany and their products of differentiation. Contributions to Mineralogy and Petrology, 115(3), 253-278. Wilson, M., Rosenbaum, J. M., & Dunworth, E. A. (1995). Melilitites: partial melts of the thermal boundary layer?. Contributions to Mineralogy and Petrology, 119(2-3), 181-196.
      • Tuttlingen
        • Immendingen
S. Weiß: "Mineralfundstellen, Deutschland West", Weise (Munich), 1990; Tschernich, R. (1992), Zeolites of the World, p.42
    • Tübingen Region
      • Reutlingen
Cloos, H. (1941). Bau and Tätigkeit von Tuffschloten: Geol. Rundschau, 32, 704-800. Lippolt, H. J., Todt, W. & Baranyi, I. (1973). K-Ar ages of basaltic rocks from the Urach volcanic district, SW Germany. Fortschritte der Mineralogie, Stuttgart, 50, 101-102. Alibert, C., Michard, A., & Albarède, F. (1983). The transition from alkali basalts to kimberlites: isotope and trace element evidence from melilitites. Contributions to Mineralogy and Petrology, 82(2-3), 176-186. Keller, J., Brey, G., Lorenz, V., & Sachs, P. (1990). Volcanism and petrology of the upper Rhinegraben (Urach-Hegau-Kaiserstuhl). Fieldguide, IAVCEI 1990 preconference excursion, 2. Hegner, E., Walter, H. J., & Satir, M. (1995). Pb-Sr-Nd isotopic compositions and trace element geochemistry of megacrysts and melilitites from the Tertiary Urach volcanic field: source composition of small volume melts under SW Germany. Contributions to Mineralogy and Petrology, 122(3), 322-335. Wilson, M., Rosenbaum, J. M., & Dunworth, E. A. (1995). Melilitites: partial melts of the thermal boundary layer?. Contributions to Mineralogy and Petrology, 119(2-3), 181-196. Hegner, E., & Vennemann, T. W. (1997). Role of fluids in the origin of Tertiary European intraplate volcanism: evidence from O, H, and Sr isotopes in melilitites. Geology, 25(11), 1035-1038. Dunworth, E. A., & Wilson, M. (1998). Olivine melilitites of the SW German Tertiary Volcanic Province: mineralogy and petrogenesis. Journal of Petrology, 39(10), 1805-1836. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.346 ; Cloos, H. (1941). Bau and Tätigkeit von Tuffschloten: Geol. Rundschau, 32, 704-800. Lippolt, H. J., Todt, W. & Baranyi, I. (1973). K-Ar ages of basaltic rocks from the Urach volcanic district, SW Germany. Fortschritte der Mineralogie, Stuttgart, 50, 101-102. Alibert, C., Michard, A., & Albarède, F. (1983). The transition from alkali basalts to kimberlites: isotope and trace element evidence from melilitites. Contributions to Mineralogy and Petrology, 82(2-3), 176-186. Keller, J., Brey, G., Lorenz, V., & Sachs, P. (1990). Volcanism and petrology of the upper Rhinegraben (Urach-Hegau-Kaiserstuhl). Fieldguide, IAVCEI 1990 preconference excursion, 2. Hegner, E., Walter, H. J., & Satir, M. (1995). Pb-Sr-Nd isotopic compositions and trace element geochemistry of megacrysts and melilitites from the Tertiary Urach volcanic field: source composition of small volume melts under SW Germany. Contributions to Mineralogy and Petrology, 122(3), 322-335. Wilson, M., Rosenbaum, J. M., & Dunworth, E. A. (1995). Melilitites: partial melts of the thermal boundary layer?. Contributions to Mineralogy and Petrology, 119(2-3), 181-196. Hegner, E., & Vennemann, T. W. (1997). Role of fluids in the origin of Tertiary European intraplate volcanism: evidence from O, H, and Sr isotopes in melilitites. Geology, 25(11), 1035-1038. Dunworth, E. A., & Wilson, M. (1998). Olivine melilitites of the SW German Tertiary Volcanic Province: mineralogy and petrogenesis. Journal of Petrology, 39(10), 1805-1836. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.346
  • Hesse
    • Kassel Region
      • Hersfeld-Rotenburg
        • Nentershausen
          • Süß
            • Richelsdorf Smelter
S. Weiß: "Mineralfundstellen, Deutschland West", Weise (Munich), 1992
Harmon, R. S., Hoefs, J., & Wedepohl, K. H. (1987). Stable isotope (O, H, S) relationships in Tertiary basalts and their mantle xenoliths from the Northern Hessian Depression, W.-Germany. Contributions to Mineralogy and Petrology, 95(3), 350-369. Hartmann, G., & Wedepohl, K. H. (1990). Metasomatically altered peridotite xenoliths from the Hessian Depression (Northwest Germany). Geochimica et Cosmochimica Acta, 54(1), 71-86. Kramm, U., & Wedepohl, K. H. (1990). Tertiary basalts and peridotite xenoliths from the Hessian Depression (NW Germany), reflecting mantle compositions low in radiogenic Nd and Sr. Contributions to Mineralogy and Petrology, 106(1), 1-8. Mengel, K., Kramm, U., Wedepohl, K. H., & Gohn, E. (1984). Sr isotopes in peridotite xenoliths and their basaltic host rocks from the northern Hessian Depression (NW Germany). Contributions to mineralogy and petrology, 87(4), 369-375. Oehm, J., Schneider, A., & Wedepohl, K. H. (1983). Upper mantle rocks from basalts of the northern Hessian depression (NW Germany). Tschermaks mineralogische und petrographische Mitteilungen, 32(1), 25-48. Wedepohl, K. H. (1983). Die chemische Zusammensetzung der basaltischen Gesteine der nördlichen Hessischen Senke und ihrer Umgebung. Geologisches Jahrbuch Hessen, 111, 261-302. Wedepohl, K. H. (1985). Origin of the Tertiary basaltic volcanism in the northern Hessian Depression. Contributions to Mineralogy and Petrology, 89(2-3), 122-143.
      • Kassel
        • Hofgeismar
S. Weiß: "Mineralfundstellen, Deutschland West", Weise (Munich), 1990
  • Lower Saxony
    • Goslar District
      • Bad Harzburg
        • Radau valley
[Gehlenite] No reference listed
      • Langelsheim
        • Astfeld
[Åkermanite] No reference listed
  • North Rhine-Westphalia
    • Arnsberg
      • Märkischer Kreis
        • Iserlohn
          • Letmathe
[Åkermanite] Bender, D. and Krimmelbein, W. (1994) Aktuelle Übersicht: Mineralien der Zinkhütte Genna/Sauerland. Stand Juni 1994. Mineralien-Welt, 4/94, 10.; Blaß, G. & Graf, H.W. (1995) Neufunde von bekannten Fundstellen (13). Mineralien-Welt 6 (3), 47-51.
    • Cologne
      • Aachen
        • Stolberg
[Åkermanite] Blaß, G. & Graf, H. W. (1995): Neufunde von Schlackenhalden in der nördlichen Eifel (II). Mineralien-Welt, 6 (3), 28-31.
[Åkermanite] Rolf Luetcke specimen; Blaß, G. & Graf, H. W. (1995): Neufunde von Schlackenhalden in der nördlichen Eifel (II). Mineralien-Welt, 6 (3), 28-31.
      • Euskirchen
        • Mechernich
          • Kall
[Åkermanite] Peter Neschen Collection
  • Rhineland-Palatinate
    • Ahrweiler District
      • Bad Breisig
        • Brohl-Lützing
Brauns, R., Die Mineralien der Niederrheinischen Vulkangebiete, Schweizerbart, Stuttgart, 1922
      • Brohltal
        • Burgbrohl
Brauns, R., Die Mineralien der Niederrheinischen Vulkangebiete, Schweizerbart, Stuttgart, 1922
        • Spessart
          • Hannebach
Brauns, R., Die Mineralien der Niederrheinischen Vulkangebiete, Schweizerbart, Stuttgart, 1922
        • Wassenach
[Gehlenite] Hentschel, G., (1987): Die Mineralien der Eifelvulkane, Weise Verlag, München (second edition)
    • Mayen-Koblenz District
      • Maifeld
        • Ochtendung
[Gehlenite] Blass, G., Graf , HW., Die Wannenköpfe bei Ochtendung in der Vulkaneifel und ihre Mineralien, MW 6/1999
      • Mayen
Hentschel, G. (1973): Frei gewachsene Perowskit Kristalle in den basaltischen Laven der Eifel, Der Aufschluß, Vol. 24, 373 - 377
      • Mendig
        • Mendig
[Gehlenite] Hentschel, G., Die Mineralien der Eifelvulkane, Weise Verlag München, 1983
      • Vordereifel
        • Ettringen
[Åkermanite] [Blass, G., Graf, H.W., Neue Mineralienfunde aus der Eifel und dem Siegerland, Mineralien-Welt 10/3, 23, 1999] [A. Wittern: Mineralfundorte in Deutschland, Schweizerbart (Stuttgart), 2001]
[Gehlenite] in the collection of Christof Schäfer
[Gehlenite] Galuskin, E.V., Krüger, B., Krüger, H., Blass, G., Widmer, R., Galuskina, I.O. (2016): Wernerkrauseite, CaFe3+2Mn4+O6 - the first non-stoichiometric post-spinel mineral, from Bellerberg volcano, Eifel, Germany. European Journal of Mineralogy, 28, 485-493
[Gehlenite] Sharygin, V. V. (2012). Mineralogy of metacarbonate xenolith from alkali basalt, E. Eifel, Germany. In Ore Potential of Alkaline, Kimberlite and Carbonatite Magmatism. Book of Abstracts, XXIX International Conference. Training Program: Alkaline Magmatism of the Earth, Sudak-Moscow, ONTI GEOCHI RAS (pp. 156-158).
[Gehlenite] Hentschel, G. (1961): Seltene Mineralneubildungen in einem Kalksteineinschluß der Lava des Ettringer Bellerberges, Fortschritte Mineralogie, Vol. 39, 345
        • Mayen
[Åkermanite] Christof Schäfer
    • Rhein-Lahn District
      • Loreley
        • Braubach
Schnorrer-Köhler, G. & David, W. (1991): Die Blei- und Silberhütte Braubach und ihre Haldenminerale. Lapis, 16 (1), 38-49; 58 (in German).
    • Vulkaneifel District
      • Daun
        • Oberstadtfeld
Hentschel, G., Die Mineralien der Eifelvulkane, Weise Verlag München (2. Auflage), 1987
        • Schalkenmehren
[MinRec 32:499]
        • Üdersdorf
[Gehlenite] Schüller, W. and Betz, V. (1986) Die Mineralien vom Emmelberg. Lapis, 11(12), 11-25.; Blaß, G. and Kruijen, F. (2015) Neuigkeiten aus der Vulkaneifel (II/2015). Mineralien-Welt, 26(5), 80-90.
Brauns, R., Die Mineralien der Niederrheinischen Vulkangebiete, Schweizerbart, Stuttgart, 1922
      • Gerolstein
        • Birresborn
Hentschel, G., Die Mineralien der Eifelvulkane, Weise Verlag, München (2. Auflage), 1987
        • Gerolstein
          • Roth
[Åkermanite] Aksenov, S. M., Rastsvetaeva, R. K., & Chukanov, N. V. (2014). The crystal structure of emmerichite Ва 2Na 3Fe 3+ Ti 2 (Si 2O 7) 2O 2F 2, a new lamprophyllite-group mineral. Zeitschrift für Kristallographie–Crystalline Materials, 229(1), 1-7.
        • Hillesheim
Hentschel, G.(1987): Die Mineralien der Eifelvulkane, Weise Verlag München, 2. Auflage
[Åkermanite] in the collection of Christof Schäfer; Chukanov, N. V., Zubkova, N. V., Pekov, I. V., Belakovskiy, D. I., Schüller, W., Ternes, B., ... & Pushcharovsky, D. Y. (2013). Hillesheimite,(K, Ca,□) 2 (Mg, Fe, Ca,□) 2 [(Si, Al) 13O23 (OH) 6](OH)· 8H2O, a new phyllosilicate mineral of the Günterblassite group. Geology of Ore Deposits, 55(7), 549-557.
Hentschel, G.(1987): Die Mineralien der Eifelvulkane, Weise Verlag München, 2. Auflage
Hentschel, G.(1987): Die Mineralien der Eifelvulkane, Weise Verlag München, 2. Auflage
        • Hohenfels-Essingen
Hentschel, G., Die Mineralien der Eifelvulkane, Weise Verlag München, 1983
Aufschluss 82(6), 237-240
        • Oberbettingen
Hentschel, G., Die Mineralien der Eifelvulkane, Weise Verlag München, 1983
Hentschel, G.(1987): Die Mineralien der Eifelvulkane, Weise Verlag München, 2. Auflage
        • Oberehe-Stroheich
Weiss: "Mineralfundstellen, Deutschland West", Weise (Munich), 1990
        • Rockeskyll
          • Rockeskyll volcanic complex
Riley, T., Bailey, K., lloyd, F.,, Extrusive carbonatite from the quaternary Rockeskyll complex, West Eifel, Germany, Canadian Mineralogist, Vol 34, 389-401, 1996
Hentschel, G., (1987): Die Mineralien der Eifelvulkane, Weise Verlag München
Haardt, W., Die vulkanischen Auswürflinge und Basalte am Killer Kopf bei Rockeskyll in der Eifel, Jb. Preuß. Geolog. Landesanstalt, Berlin 35, 177-252
Hentschel, G., (1987): Die Mineralien der Eifelvulkane, Weise Verlag München
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.338-339 Riley, T. R., Bailey, D. K., & Lloyd, F. E. (1996). Extrusive carbonatite from the quaternary Rockeskyll complex, West Eifel, Germany. The Canadian Mineralogist, 34(2), 389-401.
  • Saxony-Anhalt
    • Mansfeld-Südharz
      • Hettstedt
[Hardystonite] Elmar Lackner collection
[Hardystonite]
[Hardystonite] Besteman, Andre, et al, Hettstedt-smelter slag-dumps, Mansfeld Basin, Sachsen-Anhalt, Germany, The Strahlen Foundation.
[Hardystonite] Peter Neschen Collection
    • Saalekreis
      • Landsberg
Krüger, J. C., Romer, R. L., & Kämpf, H. (2013). Late Cretaceous ultramafic lamprophyres and carbonatites from the Delitzsch Complex, Germany. Chemical Geology, 353, 140-150. Seifert, W., Kämpf, H., & Wasternack, J. (2000). Compositional variation in apatite, phlogopite and other accessory minerals of the ultramafic Delitzsch complex, Germany: implication for cooling history of carbonatites. Lithos, 53(2), 81-100. Rollig, G., Viehweg, M., & Reuter, N. (1990). THE ULTRAMAFIC LAMPROPHYRES AND CARBONATITES OF DELITZSCH, GDR. ZEITSCHRIFT FUR ANGEWANDTE GEOLOGIE, 36, 49-54. Wand, U., Stiehl, G., Rölling, G., Mühle, K., Haase, G., & Gerstenberger, H. (1989). C, O, N and Sr isotope characteristics of carbonatites from the Central German Crystalline Zone, GDR. In Proc 5 th Working Meeting Isotopes in Nature, Leipzig (pp. 421-436).
  • Saxony
    • Erzgebirgskreis
      • Drebach
U. Ludwig, Chemnitz
    • Görlitz District
Büchner, J., Tietz, O., Viereck, L., Suhr, P., & Abratis, M. (2015). Volcanology, geochemistry and age of the Lausitz Volcanic Field. International Journal of Earth Sciences, 104(8), 2057-2083.
      • Löbau
A. Frenzel (1874): Mineralogisches Lexicon für das Königreich Sachsen.- Leipzig
    • Sächsische Schweiz-Osterzgebirge
      • Altenberg
Wittern: "Mineralfundorte in Deutschland", 2001
      • Sebnitz
Pfeiffer, L. (1994). Der tertiäre Magmatismus im Erzgebirge und in den benachbarten Gebieten der Tschechischen Republik. Beih. Eur. J. Mineral, 6(23), 179-228. Seifert, W. (1994). Zur Mineralchemie des Polzenites vom Zeughausgangzug im Elbsandsteingebirge. Abhandlungen des staatlichen Museums für Mineralogie und Geologie, Dresden, 40, 99-106. Seifert, W., & Thomas, R. (1995). Silicate-carbonate immiscibility: a melt inclusion study of olivine melilitite and wehrlite xenoliths in tephrite from the Elbe Zone, Germany. Chemie der Erde, 55, 263-280.; Pfeiffer, L. (1994). Der tertiäre Magmatismus im Erzgebirge und in den benachbarten Gebieten der Tschechischen Republik. Beih. Eur. J. Mineral, 6(23), 179-228. Seifert, W. (1994). Zur Mineralchemie des Polzenites vom Zeughausgangzug im Elbsandsteingebirge. Abhandlungen des staatlichen Museums für Mineralogie und Geologie, Dresden, 40, 99-106. Seifert, W., & Thomas, R. (1995). Silicate-carbonate immiscibility: a melt inclusion study of olivine melilitite and wehrlite xenoliths in tephrite from the Elbe Zone, Germany. Chemie der Erde, 55, 263-280.
  • Thuringia
    • Hildburghausen District
      • Heldburg
Abratis, M., Viereck, L., Pfänder, J. A., & Hentschel, R. (2015). Geochemical composition, petrography and 40 Ar/39 Ar age of the Heldburg phonolite: implications on magma mixing and mingling. International Journal of Earth Sciences, 104(8), 2033-2055. Grant, T. B., Milke, R., Pandey, S., & Jahnke, H. (2013). The Heldburg Phonolite, Central Germany: Reactions between phonolite and xenocrysts from the upper mantle and lower crust. Lithos, 182, 86-101. Huckenholz, H. G., & WERNER, C. D. (1990). Die tertiären Vulkanite der Heldburger Gangschar (Bayerisch-thüringisches Grabfeld). Berichte der Deutschen Mineralogischen Gesellschaft, 1990(2), 1-42. Lippolt, H. J. (1982). K/Ar age determinations and the correlation of Tertiary volcanic activity in Central Europe. Geologisches Jahrbuch. Reihe D. Mineralogie, Petrographie, Geochemie, Lagerstättenkunde, (52), 113-135.
Greece
 
  • Attica
    • East Attica
      • Lavreotiki
[Gehlenite] Schnorrer-Köhler, G., Standfuss, L. & Standfuss, K. (1991): Neue Funde aus den antiken Schlacken von Lavrion, Griechenland. Lapis, 16 (6), 21-23; 58.
Greenland
 
  • Avannaata
    • Uummannaq Island
http://www.koeln.netsurf.de/~w.steffens/green.htm
  • Kujalleq
    • Ilímaussaq complex
[Hydroxylgugiaite] Grice, J. D., Kristiansen, R. Friis, H., Rowe, R. , Cooper, M. A. , Poirier, G. G. , Yang, P. & ,Weller, M.T. (2017) Hydroxylgugiaite: A new beryllium silicate mineral from the Larvik Plutonic Complex, southern Norway and the Ilímaussaq alkaline complex, South Greenland; the first member of the melilite group to incorporate a hydrogen atom. Canadian Mineralogist: 55: 219-232.
  • Sermersooq
    • Kangerlussuaq Fjord
MinRec 16:485-494
      • Prinsen af Wales Bjerge
http://www.koeln.netsurf.de/~w.steffens/green.htm
    • Paamiut (Frederikshåb)
http://www.koeln.netsurf.de/~w.steffens/green.htm
Hungary
 
  • Hajdú-Bihar County
    • Kaba
Nagashima, K., Krot, A. N., Huss, G. R. & Hua, X. (2007). Common Presence of 16O-rich Melilite in Calcium-Aluminum-rich Inclusions from the Least Metamorphosed CV Carbonaceous Chondrite Kaba. Lunar and Planetary Science XXXVIII: LPI Contribution No. 1338, p. 2059. (March 2007)
  • Pest County
    • Szentendre District
      • Pomáz
[Gehlenite] Fehér, B. (2000): Gehlenitic xenoliths from the Klanác Hill, Pomáz, Visegrád Mountains, Hungary. Acta Mineralogica-Petrographica (Szeged), XLI, Suppl., 39.
India
 
  • Andhra Pradesh
    • Rayalaseema Region
      • Anantapur District
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. Gupta, A. K., Yagi, K., Lovering, J., & Jaques, A. L. (1986, September). Geochemical and microprobe studies of diamond-bearing ultrmafic rocks from central and south India. In International Kimberlite Conference: Extended Abstracts (Vol. 4, pp. 27-29).
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.
  • Madhya Pradesh
    • Chhindwara District (Chindawara District; Chindwara District)
[Gehlenite] Brearley, A. J. & Jones, R. H. (1998). Chondritic Meteorites. In: Planetary Materials (Papike, J. J., Editor): Chapter 3, 398 pages. Mineralogical Society of America: Washington, DC, USA. (1998)
    • Panna District
      • Panna
        • Panna Mines
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
  • Meghalaya
    • East Khasi Hills District
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.
  • Tamil Nadu
    • Tirunelveli District
Ramasamy, R. (1996). Carbonatite dykes from Kudangulam area, near Cape Comorin, Tamil Nadu. JOURNAL OF THE GEOLOGICAL SOCIETY OF INDIA, 48(2), 221-226.
  • Uttar Pradesh
    • Bhadohi (Sant Ravidas Nagar) District
King, T.V.V. & King, E.A. (1981) Accretionary dark rims in unequilibrated chondrites: Icarus 48(3): 460-472. (Dec. 1981).
Indonesia
 
  • Papua Province
Mertig, H. J., Rubin, J. N., & Kyle, J. R. (1994). Skarn Cu Au orebodies of the Gunung Bijih (Ertsberg) district, Irian Jaya, Indonesia. Journal of Geochemical Exploration, 50(1), 179-202.
Mertig, H. J., Rubin, J. N., & Kyle, J. R. (1994). Skarn Cu Au orebodies of the Gunung Bijih (Ertsberg) district, Irian Jaya, Indonesia. Journal of Geochemical Exploration, 50(1-3), 179-202.
Iran
 
  • East Azerbaijan Province
    • Ahar County
      • Ahar
[Gehlenite] Mollai, H., Sharma, R., and Pe-Piper, G. (2009): Ore Geology Reviews 35, 401-414.
  • Sistan and Baluchestan Province
    • Zahedan County
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.
Iraq
 
  • Sulaymaniyah Governorate
    • Qala-Diz (Qala-Dizeh; Qala-Diza)
      • Hero
[Åkermanite]
Ireland
 
  • Leinster
    • Louth County
      • Carlingford
S. R. Nockolds and H. G. C. Vincent (1947) On Tilleyite and Its Associated Minerals from Carlingford, Ireland. Mineralogical Magazine 28:151-158.
Israel
 
  • Southern District (HaDarom District)
    • Ramat Negev Regional Council
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.
    • Tamar Regional Council
[Gehlenite] Galuskin, E.V., Gfeller, F., Galuskina, I.O., Pakhomova, A., Armbruster, T., Vapnik, Y., Włodyka, R., Dzierżanowski, P., Murashko, M. (2015): New minerals with a modular structure derived from hatrurite from the pyrometamorphic Hatrurim Complex. Part II. Zadovite, BaCa6[(SiO4)(PO4)](PO4)2F and aradite, BaCa6[(SiO4)(VO4)](VO4)2F, from paralavas of the Hatrurim Basin, Negev Desert, Israel. Mineralogical Magazine, 79, 1073-1087.
[Gehlenite] Sharygin, V.V., Sokol, E.V. & Vapnik, Ye. (2008): Minerals of the pseudobinary perovskite-brownmillerite series from combustion metamorphic larnite rocks of the Hatrurim Formation (Israel). Russian Geology and Geophysics 49, 709-726.
[Gehlenite] Galuskina, I.O., Galuskin, E.V., Vapnik, Y., Prusik, K., Stasiak, M., Dzierżanowski, P., Murashko, M. (2017): Gurimite, Ba3(VO4)2, and hexacelsian, BaAl2Si2O8 – two new minerals from schorlomite-rich paralava of the Hatrurim Complex, Negev Desert, Israel. Mineralogical Magazine, 81, 1009-1019.; Arkadiusz Krzątała, Evgeny V. Galuskin, Irina O. Galuskina, Yevgeny Vapnik (2018) “Uranian cuspidine” – a potentially new mineral from paralava of Eastern Gurim, Hatrurim Complex, Israel. in abstracts of the 22nd IMA Meeting Melbourne p 358
[Gehlenite] Britvin, S. N., Vapnik, Y., Polekhovsky, Y. S., Krivovichev, S. V., Krzhizhanovskaya, M. G., Gorelova, L. A., ... & Zaitsev, A. N. (2019). Murashkoite, FeP, a new terrestrial phosphide from pyrometamorphic rocks of the Hatrurim Formation, South Levant. Mineralogy and Petrology, 113(2), 237-248.; Krzątała, A.; Krüger, B.; Galuskina, I.; Vapnik, Y.; Galuskin, E. (2020) Walstromite, BaCa2(Si3O9), from Rankinite Paralava within Gehlenite Hornfels of the Hatrurim Basin, Negev Desert, Israel. Minerals 10, 407.
[Gehlenite] Tony Nickischer; Galuskin, E.V., Galuskina, I.O., Gfeller, F., Krüger, B., Kusz, J., Vapnik, Y., Dulski, M., Dzierżanowski, P. (2016): Silicocarnotite, Ca5[(SiO4)(PO4)](PO4), a new ‘old’ mineral from the Negev Desert, Israel, and the ternesite-silicocarnotite solid solution: indicators of high-temperature alteration of pyrometamorphic rocks of the Hatrurim Complex, Southern Levant. European Journal of Mineralogy: 28: 105-12.; Krzątała, Arkadiusz & Panikorovskii, Taras & Galuskina, Irina & Galuskin, Evgeny. (2018). Dynamic Disorder of Fe3+ Ions in the Crystal Structure of Natural Barioferrite. Minerals. 8. 340. 10.3390/min8080340.
[Gehlenite] Sharygin, Victor V.; Yakovlev, Grigory A.; Wirth, Richard; Seryotkin, Yurii V.; Sokol, Ellina V.; Nigmatulina, Elena N.; Karmanov, Nikolai S.; Pautov, Leonid A. (2019) Nataliakulikite, Ca4Ti2(Fe3+,Fe2+)(Si,Fe3+,Al)O11, a New Perovskite-Supergroup Mineral from Hatrurim Basin, Negev Desert, Israel. Minerals 9, no. 11: 700.
[Gehlenite] Sokol, E.V., Seryotkin, Y.V., Kokh, S.N., Vapnik, Ye., Nigmatulina, E.N., Goryainov, S.V., Belogub, E.V., Sharygin, V.V. (2015): Flamite, (Ca,Na,K)2(Si,P)O4, a new mineral from ultrahigh-temperature combustion metamorphic rocks, Hatrurim Basin, Negev Desert, Israel. Mineralogical Magazine, 79, 583-596.
[Gehlenite] Galuskin, E.; Galuskina, I.; Vapnik, Y.; Murashko, M. Molecular Hydrogen in Natural Mayenite. Minerals 2020, 10, 560.
[Gehlenite] Galuskin, E.V., Galuskina, I.O., Gfeller, F., Krüger, B., Kusz, J., Vapnik, Y., Dulski, M., Dzierżanowski, P. (2016): Silicocarnotite, Ca5[(SiO4)(PO4)](PO4), a new ‘old’ mineral from the Negev Desert, Israel, and the ternesite-silicocarnotite solid solution: indicators of high-temperature alteration of pyrometamorphic rocks of the Hatrurim Complex, Southern Levant. European Journal of Mineralogy: 28: 105-12.
  • Tel Aviv District
Shulamit Gross (1977) The mineralogy of the Hatrurim Formation, Israel. Geol. Surv. of Israel, Bull. No. 70.
Italy
 
  • Abruzzo
    • Pescara Province
      • Pescosansonesco
Barbieri, M., Ferrini, V. (1984): Il rapporto 87Sr/86Sr nella ipoabissalite di Pescosansonesco (PE). Rend. Soc. Ital. Mineral. Petrol., 39, 497-501; Durazzo, A., Taylor, L.A., Shervais, J.W. (1984): Ultramafic lamprophyre in a carbonate platform environment, Mt. Queglia, Abruzzo, Italy. N. Jahrb. Miner. Abh., 150, 199–217; Vichi, G., Stoppa, F., Wall, F. (2005): The carbonate fraction in carbonatitic Italian lamprophyres. Lithos, 85, 154-170.; Durazzo, A., Taylor, L.A., Shervais, J.W. (1984): Ultramafic lamprophyre in a carbonate platform environment, Mt. Queglia, Abruzzo, Italy. Neues Jahrbuch für Mineralogie - Abhandlungen, 150, 199–217. Vichi, G., Stoppa, F., Wall, F. (2005): The carbonate fraction in carbonatitic Italian lamprophyres. Lithos, 85, 154-170.
  • Basilicata
    • Potenza Province
      • Melfi
Stoppa, F., Jones, A.P., and Sharygin, V.V. (2009): Central European Journal of Geosciences 1(2), 131-151
      • Rionero in Vulture
Beccaluva, L., Coltorti, M., Di Girolamo, P., Melluso, L., Milani, L., Morra, V., & Siena, F. (2002). Petrogenesis and evolution of Mt. Vulture alkaline volcanism (Southern Italy). Mineralogy and Petrology, 74(2-4), 277-297. Bindi, L., Cellai, D., Melluso, L., Conticelli, S., Morra, V., & Menchetti, S. (1999). Crystal chemistry of clinopyroxene from alkaline undersaturated rocks of the Monte Vulture Volcano, Italy. Lithos, 46(2), 259-274. De Astis, G., Kempton, P. D., Peccerillo, A., & Wu, T. W. (2006). Trace element and isotopic variations from Mt. Vulture to Campanian volcanoes: constraints for slab detachment and mantle inflow beneath southern Italy. Contributions to Mineralogy and Petrology, 151(3), 331-351. D'orazio, M., Innocenti, F., Tonarini, S., & Doglioni, C. (2007). Carbonatites in a subduction system: the Pleistocene alvikites from Mt. Vulture (southern Italy). Lithos, 98(1-4), 313-334. Downes, H., Kostoula, T., Jones, A., Beard, A., Thirlwall, M., & Bodinier, J. L. (2002). Geochemistry and Sr–Nd isotopic compositions of mantle xenoliths from the Monte Vulture carbonatite–melilitite volcano, central southern Italy. Contributions to Mineralogy and Petrology, 144(1), 78-92. Jones, A. P., Kostoula, T., Stoppa, F., & Woolley, A. R. (2000). Petrography and mineral chemistry of mantle xenoliths in a carbonate-rich melilititic tuff from Mt. Vulture volcano, southern Italy. Mineralogical Magazine, 64(4), 593-613. La Volpe, L., Patella, D., Rapisardi, L., & Tramacere, A. (1984). The evolution of the Monte Vulture volcano (Southern Italy): inferences from volcanological, geological and deep dipole electrical soundings data. Journal of volcanology and geothermal research, 22(3-4), 147-162. Melluso, L., Morra, V., & Di Girolamo, P. (1996). The Mt. Vulture volcanic complex (Italy): evidence for distinct parental magmas and for residual melts with melilite. Mineralogy and Petrology, 56(3-4), 225-250. Rosatelli, G., Wall, F., & Stoppa, F. (2007). Calcio-carbonatite melts and metasomatism in the mantle beneath Mt. Vulture (Southern Italy). Lithos, 99(3-4), 229-248. Solovova, I. P., Girnis, A. V., Kogarko, L. N., Kononkova, N. N., Stoppa, F., & Rosatelli, G. (2005). Compositions of magmas and carbonate–silicate liquid immiscibility in the Vulture alkaline igneous complex, Italy. Lithos, 85(1-4), 113-128. Stoppa, F., & Principe, C. (1997). Eruption style and petrology of a new carbonatitic suite from the Mt. Vulture Southern Italy: The Monticchio Lakes Formation. Journal of volcanology and geothermal research, 78(3-4), 251-265. Stoppa, F., Jones, A.P. & Sharygin, V.V. 2009. Nyereite from carbonatite rocks at Vulture volcano; implications for mantle metasomatism and petrogenesis of alkali carbonate melts. Central European Journal of Geoscience, 1, 131-151. Villa, I. M., & Buettner, A. (2009). Chronostratigraphy of Monte Vulture volcano (southern Italy): secondary mineral microtextures and 39 Ar-40 Ar systematics. Bulletin of volcanology, 71(10), 1195.
  • Campania
    • Naples
Russo, M. (2010) I minerali dell'Isola di Procida. Poster. Publisher: Associazione Vivara Onlus.
      • Somma-Vesuvius Complex
[Åkermanite] [Lapis 1994:5 p.13-23,58]
          • Ercolano
Scacchi, A. (1882) Della lava vesuviana dell'anno 1631. Memorie Matematiche e Fisiche della Società Italiana di Scienze (detta dei XL), 4, 8, 34+XI pages.
          • Pollena Trocchia
[Gehlenite] Russo, M. & Punzo, I. (2004): I minerali del Somma-Vesuvio. AMI, Ed., Cremona, Italy, 320 pp.
          • Sant'Anastasia
M. Carati - Guida alla mineralogia vesuviana - Calderini, Bologna, 1982
Russo, M., Punzo, I. (2004): I minerali del Somma-Vesuvio, AMI
  • Emilia-Romagna
    • Ferrara Province
      • Cento
        • Renazzo
[Gehlenite] Weisberg, M. K., and Prinz, M. (1990) Refractory-rich inclusions in CR2 (Renazzo-type) chondrites. Abstracts of the Lunar and Planetary Science Conference, 21, 1315-1316.
      • Vigarano Mainarda
        • Vigarano Pieve
[Gehlenite] Christophe-Michel-Levy, M. (1968) Un chondre exceptionnel dans la meteorite de Vigarano. Bulletin de la Société française de minéralogie et de cristallographie, 91, 212-214; Christophe-Michel-Levy, M., Caye, R., and Nelen, J. (1970) A new mineral in the Vigarano meteorite. Meteoritics, 5, 211; Mason, B. (1971) The carbonaceous chondrites — a selective review. Meteoritics & Planetary Science, 6, 2, 59-70; Reid, A. M., Williams, R. J., Gibson Jr, E. K., and Fredriksson, K. (1974) A refractory glass chondrule in the Vigarano chondrite. Meteoritics & Planetary Science, 9, 1 (March 1974), 35–45; Maruyama, S., Tomioka, N. (2011) Ca-Al-Fe-rich inclusion in the Vigarano CV3 chondrite. Meteoritics & Planetary Science, 46, 5, 690–700.
  • Lazio
    • Frosinone Province
Boari, E., Tommasini, S., Laurenzi, M. A., & Conticelli, S. (2009). Transition from ultrapotassic kamafugitic to sub-alkaline magmas: Sr, Nd, and Pb isotope, trace element and 40Ar–39Ar age data from the Middle Latin Valley Volcanic Field, Roman Magmatic Province, Central Italy. Journal of Petrology, 50(7), 1327-1357. Civetta, L., Innocenti, F., Manetti, P., Peccerillo, A., & Poli, G. (1981). Geochemical characteristics of potassic volcanics from Mts. Ernici (southern Latium, Italy). Contributions to Mineralogy and Petrology, 78(1), 37-47. Conticelli, S., D’antonio, M., Pinarelli, L., & Civetta, L. (2002). Source contamination and mantle heterogeneity in the genesis of Italian potassic and ultrapotassic volcanic rocks: Sr–Nd–Pb isotope data from Roman Province and Southern Tuscany. Mineralogy and Petrology, 74(2-4), 189-222. Frezzotti, M. L., De Astis, G., Dallai, L., & Ghezzo, C. (2007). Coexisting calc-alkaline and ultrapotassic magmatism at Monti Ernici, Mid Latina Valley (Latium, central Italy). European Journal of Mineralogy, 19(4), 479-497. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lameyre, J. (2002). Igneous rocks. A classification and glossary of terms, 2. Nikogosian, I. K., & van Bergen, M. J. (2010). Heterogeneous mantle sources of potassium-rich magmas in central-southern Italy: Melt inclusion evidence from Roccamonfina and Ernici (Mid Latina Valley). Journal of Volcanology and Geothermal Research, 197(1-4), 279-302. Peccerillo, A. (2005). Plio-quaternary volcanism in Italy (Vol. 365). New York: Springer-Verlag Berlin Heidelberg. Turi, B., Taylor Jr, H. P., & Ferrara, G. (1991). Comparisons of^(18) O/^(16) O and^(87) Sr/^(86) Sr in volcanic rocks from the Pontine Islands, M. Ernici, and Campania with other areas in Italy.
    • Metropolitan City of Rome Capital
Federico, M., Peccerillo, A., (2002): Mineral chemistry and petrogenesis of granular ejecta from the Alban Hills volcano, Mineralogy and Petrology, Vol 74, 223-252
      • Albano Laziale
Tilley, C.E., and Henry, N.F.M. (1953) Latiumite (sulphatic potassium-calcium-aluminum silicate), a new mineral from Albano, Latium, Italy. Mineralogical Magazine, 30, 39-45;
[Gehlenite] Schingaro E., Scordari F., Capitanio F., Parodi G., Smith D.C., Mottana A. (2001): Crystal chemistry of kimzeyite from Anguillara, Mts. Sabatini, Italy, European Journal of Mineralogy, 13, 749-759.
De Michele, V. (1974). Guida mineralogica d'Italia. Istituto Geografico De Agostini, Novara, 2 vol
      • Campagnano di Roma
[Åkermanite]
      • Magliano Romano
[Gehlenite] Stoppani, F.S. & Curti, E. (1982): I minerali del Lazio. Editoriale Olimpia, Firenze, 291 pp.
      • Marino
AA. VV., 1996. Collezionare minerali. Hobby & Work.
      • Monte Compatri
        • Laghetto (Laghetto di Montecompatri)
Stoppani, F.S., and Curti, E. (1982) I minerali del Lazio. Editoriale Olimpia, Firenze, 291 pp.; Liotti, L. (1995) I minerali del complesso vulcanico dei Colli Albani. Seconda parte. Rivista Mineralogica Italiana, 18, 1 (1-1995), 55-70; 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.
      • Rome
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; 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; Conticelli S., Boari E., Avanzinelli R., De Benedetti A.A., Giordano G., Mattei M., Melluso L., Morra V. (2010) Geochemistry, isotopes and mineral chemistry of the Colli Albani volcanic rocks: constrains on magma genesis and evolution. In: Funiciello, R., and Giordano, G. (eds) The Colli Albani Volcano. Special Publication of IAVCEI, Volume 3. The Geological Society Publishing House, Bath, UK, 106-139.
Fleuriau de Bellevue, L.B. (1800) Mémoire sur les cristaux microscopiques, et en particulier sur la séméline, la mélilite, la pseudo-sommite et le selce-romano. Journal de Physique, de Chimie, d'Histoire Naturelle et des Arts, Paris, 51, 442-461; vom Rath, G. (1866) Mineralogisch-geognostische Fragmente aus Italien. Erster Theil. II. Das Albaner Gebirge. Zeitschrift der Deutschen Geologischen Gesellschaft, Bd. 18, 3, 510-561; Fornaseri, M., and Turi, B. (1969): Contributions to Mineralogy and Petrology 23, 244-256; Mottana, A., Bellatreccia, F., and Della Ventura, G. (2008) Mineralogia di Roma e della sua campagna. The minerals of Rome and of the surrounding areas. In: Funiciello, R., Praturlon, A., and Giordano G. (eds.), La geologia di Roma dal centro storico alla periferia. Memorie Descrittive della Carta Geologica d'Italia, 80, 247-271; 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.
Del Caldo, A. (1971) Località mineralogiche consigliate. Le vulcaniti laziali. 2) Minerali della pozzolana romana. Notizie del Guppo Mineralogico Lombardo, 2, 1 (marzo 1971), 9; Del Caldo, A., Moro, C., Gramaccioli, C.M., and Boscardin, M. (1973) Guida ai minerali. Fratelli Fabbri Editori, Milano, 208 pp.
        • Le Capannelle
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 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; 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
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; Del Caldo, A. (1971) Località mineralogiche consigliate. Le vulcaniti laziali. 1) Cava di selce dell'Osa. Notizie del Guppo Mineralogico Lombardo, 2, 1 (marzo 1971), 6-8; Del Caldo, A., Moro, C., Gramaccioli, C.M., and Boscardin, M. (1973) Guida ai minerali. Fratelli Fabbri Editori, Milano, 208 pp.; De Michele, V. (1974) Guida mineralogica d'Italia. Istituto Geografico De Agostini, Novara, 2 vol., 408 pp.; Stoppani, F.S., and Curti, E. (1982) I minerali del Lazio. Editoriale Olimpia, Firenze, 291 pages; Liotti, L. (1995) I minerali del complesso vulcanico dei Colli Albani. Seconda parte. Rivista Mineralogica Italiana, 18, 1 (1-1995), 55-70; 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.
[Gehlenite] Gresta, S., Duronio, F., Mancinella D. (2002): Geositi e Sistema delle Aree Protette del Lazio: idee per la geoconservazione. Il Cercapietre. Not. del Gruppo Mineralogico Romano, 1-2: 48-55
        • Valleranello
[Gehlenite] 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.
      • Sacrofano
[Åkermanite] Vik Vanrusselt Collection
    • Rieti Province
      • Rieti
        • Santa Rufina
F. Stoppa and Y. Liu, Eur. J. Mineral. , 1995, 7, pp. 391-402.; Conticelli, S., D’antonio, M., Pinarelli, L., & Civetta, L. (2002). Source contamination and mantle heterogeneity in the genesis of Italian potassic and ultrapotassic volcanic rocks: Sr–Nd–Pb isotope data from Roman Province and Southern Tuscany. Mineralogy and Petrology, 74(2-4), 189-222. Cundari, A., & Ferguson, A. K. (1991). Petrogenetic relationships between melilitite and lamproite. Contributions to Mineralogy and Petrology, 107(3), 343-357. Isakova, A. T., Panina, L. I., & Stoppa, F. (2017). Genesis of kalsilite melilitite at Cupaello, Central Italy: Evidence from melt inclusions. Petrology, 25(4), 433-447. Sabatini, V. (1903). La pirossenite melilitica di Coppaeli. Boll. R. Com. geol. Ital., 34, 376. Stoppa, F., & Cundari, A. (1995). A new Italian carbonatite occurrence at Cupaello (Rieti) and its genetic significance. Contributions to Mineralogy and Petrology, 122(3), 275-288. Villa, I., Serva, L., & Quercioli, C. (1991). Verso una datazione della lava di Cupaello (Rieti). Plinius, 4, 102-103.; Conticelli, S., D’antonio, M., Pinarelli, L., & Civetta, L. (2002). Source contamination and mantle heterogeneity in the genesis of Italian potassic and ultrapotassic volcanic rocks: Sr–Nd–Pb isotope data from Roman Province and Southern Tuscany. Mineralogy and Petrology, 74(2-4), 189-222. Cundari, A., & Ferguson, A. K. (1991). Petrogenetic relationships between melilitite and lamproite. Contributions to Mineralogy and Petrology, 107(3), 343-357. Isakova, A. T., Panina, L. I., & Stoppa, F. (2017). Genesis of kalsilite melilitite at Cupaello, Central Italy: Evidence from melt inclusions. Petrology, 25(4), 433-447. Sabatini, V. (1903). La pirossenite melilitica di Coppaeli. Boll. R. Com. geol. Ital., 34, 376. Stoppa, F., & Cundari, A. (1995). A new Italian carbonatite occurrence at Cupaello (Rieti) and its genetic significance. Contributions to Mineralogy and Petrology, 122(3), 275-288. Villa, I., Serva, L., & Quercioli, C. (1991). Verso una datazione della lava di Cupaello (Rieti). Plinius, 4, 102-103.
    • Viterbo Province
      • Caprarola
Stoppani, F.S., and Curti, E. (1982) I minerali del Lazio. Editoriale Olimpia, Firenze, 291 pp.
      • Gradoli
- Signoretti, E. & Bosco, P. (2001): Le cave di Gradoli e Onano. Il Cercapietre, 1/2-2001, 10-25
      • Montalto di Castro
        • Pietra Massa Locality
[Gehlenite] Passaglia, E. & Turconi, B. (1982): Silicati ed altri minerali di Montalto di Castro - VT. Rivista Mineralogica Italiana, 4/1982, 97-110.
Di Battistini, G., Montanini, A., Verniaa, L., Venturelli, G., and Tonarini, S. (2001) Petrology of melilite-bearing rocks from the Montefiascone Volcanic Complex (Roman Magmatic Province): New insights into the ultrapotassic volcanism of Central Italy. Lithos, 59, 1–24; Stoppa, F., Cundari, A., Rosatelli, G., and Woolley, A.R. (2003) Leucite melilitolites in Italy: genetic aspects and relationshipsnwith associated alkaline rocks and carbonatites. Periodico di Mineralogia, 72, Special issue (Eurocarb), 223-251.
Di Battistini, G., Montanini, A., Vernia, L., Bargossi, G. M., & Castorina, F. (1998). Petrology and geochemistry of ultrapotassic rocks from the Montefiascone Volcanic Complex (Central Italy): magmatic evolution and petrogenesis. Lithos, 43(3), 169-195. Di Battistini, G., Montanini, A., Vernia, L., Venturelli, G., & Tonarini, S. (2001). Petrology of melilite-bearing rocks from the Montefiascone Volcanic complex (Roman Magmatic Province): new insights into the ultrapotassic volcanism of Central Italy. Lithos, 59(1-2), 1-24.
      • Onano
Cresta, S., Duronio, F., Mancinella, D. (2002): Geositi e sistema delle arre protette del Lazio: idee per la geoconservazione. Il Cercapietre, 1-2/2002, 48-55
[Gehlenite] Lapis 28(12), 19-28 (2003)
  • Piedmont
    • Metropolitan City of Turin
      • Traversella
[Gehlenite] Piccoli, G.C., Maletto, G., Bosio, P., Lombardo, B. (2007). Minerali del Piemonte e della Valle d'Aosta. Associazione Amici del Museo "F. Eusebio" Alba, Ed., Alba (Cuneo) 607 pp.
    • Verbano-Cusio-Ossola Province
      • Baveno
        • Oltrefiume
          • Mount Camoscio
[Gugiaite] Grill, E. (1935): I minerali del granito di Baveno, la fayalite. Periodico di Mineralogia, 129-133. - Gallitelli, P. (1936): Le miche del granito di Baveno. . Periodico di Mineralogia, 61-76 - Pagliani, G. (1948): Le Zeoliti del granito di Baveno. Periodico di Mineralogia, 175-188. - Ravagnani, D. (1974): I giacimenti uraniferi italiani - Gruppo Mineralogico Lombardo - Museo Civico di Storia Naturale di Milano, Ed., Milano, 188 pp. - min. Rec. 14 (3), 157-168 - Am. Min. 83, 1330-1334 (1998) - Am. Min. 84, 782-789 (1999). - Guastoni, A. & Pezzotta, F. (2004): Kristiansenite a Baveno, second ritrovamento Mondiale della specie. Rivista Mineralogica Italiana, 4/2004, 247-251. - Guastoni, A., Demartin, F., Pezzotta, F. (2004): Sekaninaite delle pegmatiti granitiche di Feriolo e Baveno (VB). Atti della Società Italiana di Scienze Naturali e del Museo Civico di Storia Naturale di Milano, 145, 59-68. - Mineralogist americano (2005) 90, 1442-1452.
[Gugiaite] American Mineralogist, 84(5-6), 782-789
  • Sardinia
    • South Sardinia Province
      • Guspini
[Gehlenite] Preite, D., & Zuanel, A. (2007). Montevecchio: storia, miniere e minerali. Rivista Mineralogica Italiana, 31 (4), 230-246.
  • Trentino-Alto Adige
    • Trento Province (Trentino)
      • Moena
[Gehlenite] De Michele, V. (1974). Guida mineralogica d'Italia. Istituto Geografico De Agostini, Novara, 2 vol.
[Gehlenite] J. N. Fuchs (1815) J. Phys. Chem. (Schweigger), 15, 377
      • Predazzo
[Gehlenite] De Michele, V. (1974). Guida mineralogica d'Italia. Istituto Geografico De Agostini, Novara, 2 vol.
      • San Giovanni di Fassa
[Gehlenite] De Michele, V. (1974). Guida mineralogica d'Italia. Istituto Geografico De Agostini, Novara, 2 vol.
[Gehlenite] Exel, R. (1987): Guida mineralogica del Trentino e del Sudtirolo. Athesia, Bolzano, 204 pp.
[Gehlenite] De Michele, V. (1974). Guida mineralogica d'Italia. Istituto Geografico De Agostini, Novara, 2 vol.
  • Tuscany
    • Grosseto Province
      • Pitigliano
[Gehlenite] Liotti L., 1991. I minerali dei vulcani laziali a Pitigliano (Grosseto). Riv. Mineral. Ital., 15: 121-139.
  • Umbria
    • Perugia Province
      • Spoleto
[Åkermanite] Stoppa F., Sharygin V.V., 2009. Melilitolite intrusion and pelite digestion by high temperature kamafugitic magma at Colle Fabbri, Spoleto, Italy. Lithos, 112, 306-320.
    • Terni Province
      • San Venanzo
Stoppa, F., Cundari, A. (1998) Origin and multiple crystallization of the kamafugite-carbonatite association: The San Venanzo-Pian di Celle occurrence (Umbria, Italy). Mineralogical Magazine, 62(2), 273-289. Woolley, A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe (excluding the former USSR), Australasia and Oceanic Islands. Geological Society of London, 384 pages, at p.362.
[Åkermanite] Joel Dyer Collection
  • Veneto
    • Padova Province
      • Galzignano Terme
[Gehlenite] Cámara, F., Nestola, F., Bindi, L., Guastoni, A., Zorzi, F., Peruzzo, L., Pedron, D. (2012) Tazzoliite: a new mineral with a pyrochlore-related structure from the Euganei Hills, Padova, Italy. Mineralogical Magazine, 76, 4, 827-838; Fabris, L., Guastoni, A. (2014): Provincia di Padova. In: Zorzi, F., Boscardin, M., (eds.), Minerali del Veneto. Alla scoperta dei tesori della nostra regione. Museo di Storia Naturale e Archeologia di Montebelluna - Treviso, Cierre Edizioni, Sommacampagna, pages 121-141.
Japan
 
  • Ehime Prefecture
    • Inland Sea (Setonaikai)
[Gugiaite] Matsubara, S. (2002): The Mineral Species of Japan, p27
  • Fukushima Prefecture
[Gehlenite] Matsuyama, F. (2001)
[Gehlenite] Banno Y, Miyawaki R, Momma K, Bunno M (2014) CO3-bearing apatite-ellestadite series mineral from Japan. 21 st meeting of the International Mineralogical Association. p 213
  • Gifu Prefecture
    • Ena City
[Gehlenite] Forrest Cureton and Excalibur Mineral Co. specimens
    • Gifu City
Analyses by Dr Hideki Masago and Dr Chiaki Igarashi, JAMSTEC.
  • Hiroshima Prefecture
    • Shoubara City
[Gehlenite] Dr. Matsuo Nambu collection (curated at Geological Survey of Japan)
[Gehlenite] Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
  • Iwate Prefecture
    • Kamaishi City
[Gehlenite] Dr. Matsuo Nambu collection (curated at Geological Survey of Japan)
    • Oshu City
      • Esashi ward
[Gehlenite] Dr. Matsuo Nambu collection (curated at Geological Survey of Japan); Bunno, M., Shimazaki, H., & Sato, K. (1982). Occurrence and genesis of bicchulite and tilleyite skarns at the Sakae adit, the Akagane mine, Iwate Prefecture. Mining Geology, 32, 141-150
  • Okayama Prefecture
    • Takahashi City
      • Bicchu-cho (Bitchu-cho)
        • Fuka
[Gehlenite] Mineralogical Record: 27: 304.; Henmi, C., Kusachi, I., Henmi, K., Sabine, P.A., Young, B.R. (1973) A new mineral bicchulite, the natural analogue of gehlenite hydrate, from Fuka, Okayama Prefecture, Japan and Carneal, County Antrim, Northern Ireland. Mineralogical Journal: 7: 243-251.; Henmi, C., Kusachi, I., Kawahara, A., & Henmi, K. (1978) 7T wollastonite from Fuka, Okayama Prefecture. Mineralogical Journal, 9(3), 169-181.; Henmi, C., & Kusachi, I. (1992) Clinotobermorite, Ca5Si6 (O, OH) 18· 5H2O, a new mineral from Fuka, Okayama Prefecture, Japan. Mineralogical Magazine, 56(3), 353-358.; I. Kusachi, Y. Takechi, C. Henmi and S. Kobayashi (1998) Parasibirskite, a New Mineral from Fuka, Okayama Prefecture, Japan. Mineralogical Magazine 62:521-525.; Journal of Mineralogical and Petrological Sciences Vol. 99 (2004), No. 2 April 67-71; Ando, T., Kanayama, A., Kobayashi, S., Miyawaki, R., Kishi, S., Tanabe, M., & Kusachi, I. (2015) Roweite from the Fuka mine, Okayama Prefecture, Japan. Journal of Mineralogical and Petrological Sciences, 110(1), 29-34.;
  • Shimane Prefecture
    • Hamada City
[Åkermanite] The Mineral Species of Japan (5th ed) Matsubara
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.
Kazakhstan
 
  • Pavlodar Region
    • Pavlodar
[Gehlenite] Ivanova, M. A., Krot, A. N., Nagashima, K. & MacPherson, G. J. (2012). Meteoritics & Planetary Science 47 (12): 2107-2127. (Dec 2012)
Kenya
 
  • Homa Bay County
Nyamai, C.M., Haapala, I. (2000) A Comparison of the uncompahgrite and turjaite mineralogy (phlogopite, melilite, etc.) of the south Nyanza district, western Kenya, with similar rock complexes in Asia, Australia and America. China & East Asia 2000 Symposium.
  • Kwale County
Berger, V.I., Singer, D.A., 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 pages.
  • Trans-Nzoia County
    • Mount Elgon
Bowell, R. J., Warren, A., & Redmond, I. (1996). Formation of cave salts and utilization by elephants in the Mount Elgon region, Kenya. Geological Society, London, Special Publications, 113(1), 63-79.
Libya
 
  • Jufra District
    • Dar al Gani
Zhang, A.-C. & Yurimoto, H. (2013). Petrography and mineralogy of the ungrouped type 3 carbonaceous chondrite Dar al Gani 978. Meteoritics & Planetary Science 48 (9): 1651–1677. (Sept 2013)
Madagascar
 
  • Alaotra-Mangoro
    • Amparafaravola
      • Amparafaravola Commune
Behier, J. (1963): Carte mineralogique de Madagascar. Archive Service Geologique A. 1871
Malawi
 
  • Southern Region
    • Balaka
Berger, V.I., Singer, D.A., and Orris, G.J. (2009): USGS Open-File Report 09-1139
Mexico
 
  • Chihuahua
    • Chihuahua Municipality
      • Avalos
[Hardystonite] Espejel-Garcia, D., Wenglas-Lara, G., Villalobos-Aragon, A., & Espejel-Garcia, V. V. (2012, December). Geochemical characterization and leaching behavior of slags: by-product materials from an old lead smelter in Chihuahua, Mexico. In AGU Fall Meeting Abstracts.
    • Pueblito de Allende
Imai H. and Yurimoto H. (2000).; American Mineralogist, Volume 94, pages 1483–1486, 2009; Stuart A. Sweeney Smith (2010) Characterization of two atypical refractory inclusions from separate CV3 chondritic meteorites: Petrogenesis in the early Solar System . Senior Comprehensive Exercise Carleton College, Northfield, Minnesota.; Ma, C., Paque, J., & Tschauner, O. (2016, March). Discovery of Beckettite, Ca2V6Al6O20, a New Alteration Mineral in a V-Rich Ca-Al-Rich Inclusion from Allende. In Lunar and Planetary Science Conference (Vol. 47, p. 1704).
  • Coahuila
    • Sierra Mojada Municipality
      • Sierra Mojada
[Gehlenite] Mineralogical Magazine 1964 33 : 841-852
  • Durango
    • Cuencamé Municipality
      • Velardeña District
        • Velardeña
[Gehlenite] Wright F E (1908) On three contact minerals from Valardeña, Durango, Mexico. (Gehlenite, spurrite and hillebrandite). American Journal of Science 176, 545-554
[Gehlenite] Panczner (1987): 206.
Middle East
 
[Åkermanite] Gross, S. (1977): The Mineralogy of the Hatrurim Formation, Israel. Geological Survey of Israel, Bulletin no. 70, 80 pp.
Mongolia
 
  • Töv Province
    • Choir-Nyalga basin
[Gehlenite] Peretyazhko, I. S., Savina, E. A., Khromova, E. A., Karmanov, N. S., & Ivanov, A. V. (2018) Unique Clinkers and Paralavas from a New Nyalga Combustion Metamorphic Complex in Central Mongolia: Mineralogy, Geochemistry, and Genesis. Petrology, 26(2), 181-211.
Peretyazhko, I. S., Savina, E. A., Khromova, E. A., Karmanov, N. S., & Ivanov, A. V. (2018) Unique Clinkers and Paralavas from a New Nyalga Combustion Metamorphic Complex in Central Mongolia: Mineralogy, Geochemistry, and Genesis. Petrology, 26(2), 181-211.
Peretyazhko, I. S., Savina, E. A., Khromova, E. A., Karmanov, N. S., & Ivanov, A. V. (2018) Unique Clinkers and Paralavas from a New Nyalga Combustion Metamorphic Complex in Central Mongolia: Mineralogy, Geochemistry, and Genesis. Petrology, 26(2), 181-211.
Morocco
 
  • Drâa-Tafilalet Region
    • Errachidia Province
      • Errachidia Cercle
        • M'daghra Lkeng Cäidat
Ivanova, M. A. et al (2002): Meteorit.Planet. Sci. 37, 1337-1444.
    • Midelt Province
      • Midelt Cercle
        • Aït Oufella Caïdat
          • Amersid
Woolley, A. R. (2001). Alkaline Rocks and Carbonatites of the World: Africa. Geological Society of London.
    • Zagora Province
[Åkermanite] Berger, J., Ennih, N., Mercier, J. C., Liégeois, J. P., & Demaiffe, D. (2009). The role of fractional crystallization and late-stage peralkaline melt segregation in the mineralogical evolution of Cenozoic nephelinites/phonolites from Saghro (SE Morocco). Mineralogical magazine, 73(1), 59-82.
Namibia
 
  • Oshikoto Region
    • Tsumeb
[Åkermanite] Ettler, V., Johan, Z., Kříbek, B., Šebek, O. & Mihaljevič, M. (2009): Mineralogy and environmental stability of slags from the Tsumeb smelter, Namibia. Applied Geochemistry 24, 1-15.
New Zealand
 
  • Northland Region
    • Kaipara District
[Gehlenite] Mason, B. (1957): Larnite, scawtite, and hydrogrossular from Tokatoka, New Zealand. American Mineralogist 42, 379-392.
Nigeria
 
  • Yobe
    • Bogga Dingare
Weisberg, M. K.; Boesenberg, J. S.; Ebel, D. S. (2002). Gujba and Origin of the Bencubbin-like (CB) Chondrites. 33rd Annual Lunar and Planetary Science Conference, March 11-15, 2002, Houston, Texas, abstract no.1551. (March 2002).
Northwest Africa Meteorites
 
[Gehlenite] Caltech, photomicrograph by Chi Ma.
[Gehlenite] Fintor, K., Walter, H. & Nagy, Sz. (2013) Petrographic and Micro-Raman Analysis of Chondrules and (Ca, Al)-Rich Inclusions of NWA 2086 CV3 Type Carbonaceous Chondrite: Lunar and Planetary Science Conference XLIV. LPI Contribution No. 1719, p.1152. (March 2013)
Moggi-Cecchi, V., Pratesi, G., Salvadori, A., Franchi, I.A., and Greenwood, R.C. (2007) Textural and minerochemical features of NWA 1807 and 2180, two new CV3 chondrites from Northwest Africa. Lunar and Planetary Science XXXVIII pdf #2338.
Norway
 
  • Agder
    • Arendal
[Okayamalite] Olmi, F., Viti, C., Bindi, L., Bonazzi, P. & Menchetti, S. (2000): Second occurrence of okayamalite, Ca2SiB2O7: chemical and TEM characterization. American Mineralogist.
  • Møre og Romsdal
    • Kristiansund
Bugge, T., Prestvik, T., & Rokoengen, K. (1980). Lower tertiary volcanic rocks off Kristiansund—mid Norway. Marine Geology, 35(4), 277-286. Prestvik, T., Torske, T., Sundvoll, B., & Karlsson, H. (1999). Petrology of early Tertiary nephelinites off mid-Norway. Additional evidence for an enriched endmember of the ancestral Iceland plume. Lithos, 46(2), 317-330.
Andersen, T. (1984). Crystallization history of a Permian composite monzonite-alkali syenite pluton in the Sande cauldron, Oslo rift, southern Norway. Lithos, 17, 153-170. Anthony, E. Y., Segalstad, T. V., & Neumann, E. R. (1989). An unusual mantle source region for nephelinites from the Oslo Rift, Norway. Geochimica et Cosmochimica Acta, 53(5), 1067-1076. Corfu, F., & Dahlgren, S. (2008). Perovskite U–Pb ages and the Pb isotopic composition of alkaline volcanism initiating the Permo-Carboniferous Oslo Rift. Earth and Planetary Science Letters, 265(1-2), 256-269. Dons, J. A. (1952). Studies on the Igneous Rock Complex of the Oslo Region XI Compound Volcanic Neck. Igneous Dykes and Fault Zone in the Ullernâsen-Husebyâsen Area, Oslo. Vid. Akad. Skr. Klasse. 1952, 2, 1-96. Dons, J. A., & JA, D. (1978). TERMINOLOGY AND HISTORY OF INVESTIGATIONS. Dons, J. A. & Larsen, B.T. (Ed.). (1978). The Oslo paleorift: a review and guide to excursions; prepared for the NATO advanced study institute, held at Sundvollen near Oslo, July 27-August 5, 1977. Norges Geologiske Undersøkelse, 337. Heldal, T. & Neeb, P.R. 2000. Natural stone in Norway: production, deposits and developments. Norges Geologiske Undersøkelse Bulletin, 436, 15-26. Ihlen, P. M., & Vokes, F. M. (1978). Metallogeny associated with the Oslo rifting. The Oslo Paleorift. Norges geologiske undersøkelse, 337, 75-90. Kirstein, L. A., Davies, G. R., & Heeremans, M. (2006). The petrogenesis of Carboniferous–Permian dyke and sill intrusions across northern Europe. Contributions to Mineralogy and Petrology, 152(6), 721-742. Larsen, A. O. (1996). Rare earth minerals from the syenite pegmatites in the Olso Region, Norway. MINERALOGICAL SOCIETY SERIES, 7, 151-166. Larsen, A. O. (2010). The Langesundsfjord. History, Geology, Pegmatites, Minerals. Bode, Salzhemmendorf, Germany, 240. Larsen, A. O. (2010). The larvikite industry. Neumann, E. R. (1976). Compositional relations among pyroxenes, amphiboles and other mafic phases in the Oslo Region plutonic rocks: Publication no. 115 in the Norwegian Geotraverse project. Lithos, 9(2), 85-109. Neumann, E. R., & ER, N. (1978). PETROLOGY OF THE PLUTONIC ROCKS. ELSE-RAGNHILD, N. E. U. M. A. N. N. (1980). Petrogenesis of the Oslo Region larvikites and associated rocks. Journal of Petrology, 21(3), 499-531. Neumann, E.R. 1988. Isotopic and Petrological Relations of the Crust and Upper Mantle Under the Oslo Graben, southeast Norway. Norges Geologiske Undersøkelse, Special Publications, 3, 7-13. Neumann, E. R., Tilton, G. R., & Tuen, E. (1988). Sr, Nd and Pb isotope geochemistry of the Oslo rift igneous province, southeast Norway. Geochimica et Cosmochimica Acta, 52(8), 1997-2007. Oftedahl, C. (1952). Studies on the igneous rock complex of the Oslo region XIII. The lavas. Skr. Nor. Vidensk; Akad. Oslo, Mat. Naturv. KI, 3, 1-64. Oftedahl, C. (1953). The cauldrons, 13, Studies on the igneous rock complex of the Oslo Region. Skrifter Utgitt av det Norske Videnskaps-Akademi 1 Oslo. I Mat.-Naturv. Klasse. 1953. 3, 1-108. Oftedahl, C. (1960). Permian rocks and structures of the Oslo region. In Geology of Norway (Vol. 208, pp. 298-343). I Kommisjon hos H. Aschehoug & Co., Oslo. Oftedahl, C. (1960). Permian igneous rocks of the Oslo Graben, Norway: guide to excursions no. A 11 and no. C 7. Paper presented at the International Geological Congress, Norden, 1960. XXI Session, 1-23. Oftedahl, C., & Petersen, J. S. (1978). Southern part of the Oslo Rift. Norges geologiske undersøkelse Bulletin, 337, 163-199. Oftedal, I. W., Bergstøl, S., & Svinndal, S. (1960). The Larvik-Langesund and the Fen Areas: Larvikite and Nepheline Syenite Pegmatite Minerals, Per-alkaline Rocks, South Norway: Guide to Excursions No. A 12 and No. C8: International Geological Congress, XXI Session, Norden 1960. XXI Session, 1-17. Petersen, J. S. (1978). Structure of the larvikite-lardalite complex, Oslo-region, Norway, and its evolution. Geologische Rundschau, 67(1), 330-342. Piilonen, P. C., McDonald, A. M., Poirier, G., Rowe, R., & Larsen, A. O. (2012). The mineralogy and crystal chemistry of alkaline pegmatites in the Larvik Plutonic Complex, Oslo rift valley, Norway. Part 1. Magmatic and secondary zircon: implications for petrogenesis from trace-element geochemistry. Mineralogical Magazine, 76(3), 649-672. Piilonen, P. C., McDonald, A. M., Poirier, G., Rowe, R., & Larsen, A. O. (2013). Mafic minerals of the alkaline pegmatites in the Larvik Plutonic Complex, Oslo rift, Southern Norway. The Canadian Mineralogist, 51(5), 735-770. Raade, G. (1972). Mineralogy of the miarolitic cavities in the plutonic rocks of the Oslo Region, Norway. Mineral. Rec, 3, 7-11. Ramberg, I.B. 1976. Gravity Interpretation of the Oslo Graben and associated igneous rocks. Norges Geologiske Undersøkelse, 325, 1-194. Segalstad, T. V. (1979). Petrology of the Skien basaltic rocks, southwestern Oslo Region, Norway. Lithos, 12(3), 221-239. Sundvoll, B., & Larsen, B. T. (1993). Rb-Sr and Sm-Nd relationships in dyke and sill intrusions in the Oslo Rift and related areas. Norges Geologiske Undersøkelse, 425, 25-42. Tomkeieff, S. I. (1957). The Oslo Petrographical Province. Science Progress (1933-), 45(179), 429-446.
  • Vestfold
    • Larvik
      • Brunlanes
[Gugiaite] Identified on a personally collected specimen (Knut Eldjarn) in my collection by Henrik Friis at the Oslo University Mineralogical Museum des. 2013, see Knut Eldjarn photo, Photo id 58820
  • Vestfold og Telemark
    • Porsgrunn
      • Auenlandet
        • Sagåsen
[Hydroxylgugiaite] Grice, J., Kristiansen, R., Friis, H., Rowe, R., Cooper, M., Poirier, G. and Yang, P. (2016) Hydroxylgugiaite, IMA 2016-009. CNMNC Newsletter No. 31, June 2016, page 696; Mineralogical Magazine, 80, 691–697; Grice, J. D., Kristiansen, R. Friis, H., Rowe, R. , Cooper, M. A. , Poirier, G. G. , Yang, P. & ,Weller, M.T. (2017) Hydroxylgugiaite: A new beryllium silicate mineral from the Larvik Plutonic Complex, southern Norway and the Ilímaussaq alkaline complex, South Greenland; the first member of the melilite group to incorporate a hydrogen atom. Canadian Mineralogist: 55: 219-232
      • Langangen
        • Kokkersvold - Blåfjell E18 roadcuts
[Hydroxylgugiaite] Grice, J., Kristiansen, R., Friis, H., Rowe, R., Cooper, M., Poirier, G. and Yang, P. (2016) Hydroxylgugiaite, IMA 2016-009. CNMNC Newsletter No. 31, June 2016, page 696; Mineralogical Magazine, 80, 691–697; Grice, J. D., Kristiansen, R. Friis, H., Rowe, R. , Cooper, M. A. , Poirier, G. G. , Yang, P. & ,Weller, M.T. (2017) Hydroxylgugiaite: A new beryllium silicate mineral from the Larvik Plutonic Complex, southern Norway and the Ilímaussaq alkaline complex, South Greenland; the first member of the melilite group to incorporate a hydrogen atom. Canadian Mineralogist: 55: 219-232
    • Skien
[Åkermanite] Jamtveit B., Dahlgren S. and Austrheim H. (1997): High-grade contact metamorphism of calcareous rocks from the Oslo Rift, Southern Norway. American Mineralogist. 82 : 1241 - 1254
Oman
 
  • Al Wusta Governorate
    • Sayh al Uhaymir
Ivanova, M. A., Nazarov, M. A., Clayton, R. N., Mayeda, T. K., & Taylor, L. A. (2003, March). Sayh al Uhaymir 085, CV3 chondrite: mineralogical links with CK chondrites. In Lunar Planet. Sci. Conf (Vol. 24, p. 1226).
Zhang, A., & Hsu, W. (2009). Refractory inclusions and aluminum‐rich chondrules in Sayh al Uhaymir 290 CH chondrite: Petrography and mineralogy. Meteoritics & Planetary Science, 44(6), 787-804.
Pacific Ocean
 
Clague, D. A., & Dalrymple, G. B. (1987). The Hawaiian-Emperor volcanic chain. part I. Geologic evolution. Volcanism in Hawaii, 1(1350), 5-54. Keller, R. A., Duncan, R. A., & Fisk, M. R. (1995). Geochemistry and 40Ar/39Ar geochronology of basalts from ODP Leg 145 (North Pacific Transect). In Proceedings of the Ocean Drilling Program. Scientific results (Vol. 145, pp. 333-344). Clague, D. A., & Dalrymple, G. B. (1989). Tectonics, geochronology, and origin of the Hawaiian-Emperor volcanic chain. The Geology of North America, 188-217. Lonsdale, P., Dieu, J., & Natland, J. (1993). Posterosional volcanism in the Cretaceous part of the Hawaiian hotspot trail. Journal of Geophysical Research: Solid Earth, 98(B3), 4081-4098. doi.org/10.1029/92JB02452 O'Connor, J. M., Steinberger, B., Regelous, M., Koppers, A. A., Wijbrans, J. R., Haase, K. M., ... & Garbe‐Schönberg, D. (2013). Constraints on past plate and mantle motion from new ages for the Hawaiian‐Emperor Seamount Chain. Geochemistry, Geophysics, Geosystems, 14(10), 4564-4584. doi.org/10.1002/ggge.20267 doi.org/10.1093/petrology/44.1.113 Clague, D. A., & Dalrymple, G. B. (1987). The Hawaiian-Emperor volcanic chain. part I. Geologic evolution. Volcanism in Hawaii, 1(1350), 5-54. Keller, R. A., Duncan, R. A., & Fisk, M. R. (1995). Geochemistry and 40Ar/39Ar geochronology of basalts from ODP Leg 145 (North Pacific Transect). In Proceedings of the Ocean Drilling Program. Scientific results (Vol. 145, pp. 333-344). Clague, D. A., & Dalrymple, G. B. (1989). Tectonics, geochronology, and origin of the Hawaiian-Emperor volcanic chain. The Geology of North America, 188-217. Lonsdale, P., Dieu, J., & Natland, J. (1993). Posterosional volcanism in the Cretaceous part of the Hawaiian hotspot trail. Journal of Geophysical Research: Solid Earth, 98(B3), 4081-4098. doi.org/10.1029/92JB02452 O'Connor, J. M., Steinberger, B., Regelous, M., Koppers, A. A., Wijbrans, J. R., Haase, K. M., ... & Garbe‐Schönberg, D. (2013). Constraints on past plate and mantle motion from new ages for the Hawaiian‐Emperor Seamount Chain. Geochemistry, Geophysics, Geosystems, 14(10), 4564-4584. doi.org/10.1002/ggge.20267 doi.org/10.1093/petrology/44.1.113
Palestine
 
  • West Bank
    • Hebron Governorate
Shulamit Gross (1977) The mineralogy of the Hatrurim Formation, Israel. Geol. Surv. of Israel, Bull. no. 70.
    • Jericho Governorate
[Gehlenite] Seryotkin Y.V., Sokol E.V. & Kokh S.N. 2012: Natural pseudowollastonite: Crystal structure, associated minerals, and geological context. Lithos, vol. 134-135, pp. 75-90; Seryotkin, Yu.V., Sokol, E.V., Kokh, S.N. (2012): Natural pseudowollastonite: Crystal structure, associated minerals, and geological context. Lithos, 134–135, 75-90; Sokol, E.V., Gaskova, O.L., Kokh, S.N., Kozmenko, O.A., Seryotkin, Y.V., Vapnik, Y., Murashko, M.N. (2011): Chromatite and its Cr3+- and Cr6+-bearing precursor minerals from the Nabi Musa Mottled Zone complex, Judean Desert. American Mineralogist 96, 659-674.
    • Quds Governorate
[Gehlenite] Galuskina, I.O., Vapnik Ye., Lazic B., Armbruster T., Murashko M. and Galuskin E. Harmunite CaFe2O4: A new mineral from the Jabel Harmun, West Bank, Palestinian Autonomy, Israel. American Mineralogist, 99, 965–975. ; Galuskin, E. V., Galuskina, I. O., Widmer, R., & Armbruster, T. (2018). First natural hexaferrite with mixed β‴-ferrite (β-alumina) and magnetoplumbite structure from Jabel Harmun, Palestinian Autonomy. European Journal of Mineralogy, 30(3), 559-567.
[Gehlenite] Juroszek, R.; Krüger, B.; Galuskina, I.; Krüger, H.; Tribus, M.; Kürsten, C. (2020) Raman Spectroscopy and Single-Crystal High-Temperature Investigations of Bentorite, Ca6Cr2(SO4)3(OH)12·26H2O. Minerals 10, 38.
Poland
 
  • Lower Silesian Voivodeship
    • Kłodzko County
      • Gmina Nowa Ruda
        • Przygórze
          • Bolesław Mine
[Gehlenite] Kruszewski, Ł., Ciesielczuk, J., Misz-Kennan, M., 2014: Mineralogy of some metacarbonate rocks from burned coal-mining dump in Przygórze (Lower Silesian Coal Basin) and its analogy to "olive" rocks from the Hatrurim Formation. Proceedings of the International Symposium CEMC 2014, Skalský Dvůr, April 23-26th, 26-27
  • Silesian Voivodeship
    • Bytom City County
[Gehlenite] Kruszewski, Ł. (2018)(?): Geochemical Behavior of Trace Elements in Upper and Lower Silesian Basin Coal-Fire Gob Piles, Poland. Coal and Peat Fires, vol. 5, xx-xx (in review/correction); Ł. Kruszewski EPMA/PXRD data
Warchulski, R., Gawęda, A., Kądziołka-Gaweł, M., & Szopa, K. (2015) Composition and element mobilization in pyrometallurgical slags from the Orzeł Biały smelting plant in the Bytom–Piekary Śląskie area, Poland. Mineralogical Magazine, 79(2), 459-484.
    • Katowice City County
Warchulski, R., Gawęda, A., Janeczek, J., Kądziołka-Gaweł, M. (2016): Mineralogy and origin of coarse-grained segregations in the pyrometallurgical Zn-Pb slags from Katowice-Wełnowiec (Poland). Mineralogy and Petrology: 110, (in press); in: http://forum.amiminerals.it/viewtopic.php?f=5&t=12618 (2016)
    • Świętochłowice City County
[Hardystonite] Puziewicz, J., Zainoun, K. and Bril, H. (2007): Primary phases in pyrometallurgical slags from a zinc-smelting waste dump, Świętochłowice, Upper Silesia, Poland. Can. Mineral. 45, 1189-1200.; Tyszka, R., Pietranik, A., Kierczak, J., Zieliński, G., & Darling, J. (2018). Cadmium distribution in Pb-Zn slags from Upper Silesia, Poland: Implications for cadmium mobility from slag phases to the environment. Journal of Geochemical Exploration, 186, 215-224.
    • Wodzisław County
      • Rydułtowy
        • ROW Ruch Rydułtowy Mine
[Gehlenite] Ł. Kruszewski PXRD and EPMA data
Romania
 
  • Bihor
[Gehlenite] Marincea, Ş.; Dumitraş, D.-G.; Sava, C.; Hatert, F.; Dal Bo, F. (2020) Mineralogy of a High-Temperature Skarn, in High CO2 Activity Conditions: The Occurrence from Măgureaua Vaţei (Metaliferi Massif, Apuseni Mountains, Romania). Minerals 10, 677.
  • Brașov
    • Racoş
[Åkermanite] Szakáll, S., Kristály, F., 2010. Mineralogy of Székelyland, Eastern Transylvania, Romania. Sfântu Gheorghe-Miercurea Ciuc-Târgu Mureş. 2010.
  • Caraş-Severin
    • Oraviţa-Ciclova Cu-Mo-(W) ore field
[Gehlenite] Ştefan Marincea, Delia-Georgeta Dumitraş, Cristina Ghineţ, André-Mathieu Fransolet, Frédéric Hatert, and Mélanie Rondeaux (2011) GEHLENITE FROM THREE OCCURRENCES OF HIGH-TEMPERATURE SKARNS, ROMANIA: NEW MINERALOGICAL DATA. Canadian Mineralogist, 49:1001-1014.
[Gehlenite] Constantinescu, E., Ilinca, G. & Ilinca, A. (1988b) Dări de Seamă ale Institutului de Geologie şi Geofizică, 72–73(2): 27–45.; Katona, I., Pascal, M.-L., Fonteilles, M. & Verkaeren, J. (2003) Canadian Mineralogist, 41: 1255–1270.; Marincea, S., Dumitraş, D-G., Ghinet, C, Fransolet, A.-M., Hatert, F. & Rondeaux, M. (2011) Gehlenite from three occurrences of high-temperature skarns, Romania: new mineralogical data. Canadian Mineralogist. 49, 1001-1014.; Ilinca, G. (2012) Upper Cretaceous contact metamorphism and related mineralization in Romania. Acta Mineralogica-Petrographica, Abstract Series, Szeged, Vol. 7.
[Gehlenite] Marincea, S., Dumitras, D. G., Ghinet, C., & Bilal, E. (2014, September). Superposed parageneses in the gehlenite-bearing, high-temperature skarns from Oraviţa (Banat, Romania). In IMA2014.
  • Galați
Hirtopanu, P. (2006). One hundred minerals for one hundred years (dedicated to the Centennial of the Geological Institute of Romania). In 3rd Conference on Mineral Sciences in the Carpathians, Miskolc Hungary. Acta Mineralogica–Petrographica, Abstract series (Vol. 5, p. 86).
  • Harghita
    • Odorheiu Secuiesc (Székelyudvarhely; Oderhellen)
      • Racoş (Racoşu de Jos)
[Åkermanite] Szakáll, S. & Kristály, F., Eds. (2010): Mineralogy of Székelyland, Eastern Transylvania, Romania. Csík County Nature and Conservation Society, Miercurea-Ciuc, Romania, 321 pp.
  • Hunedoara
    • Brad
The Canadian Mineralogist Vol. 39, pp. 1405-1434 (2001)
    • Hunedoara
[Gehlenite] Canadian Mineralogist: 39: 1435-1453.; Marincea, Ş., Dumitraş, D. G., Călin, N., Anason, A. M., Fransolet, A. M., & Hatert, F. (2013). Spurrite, tilleyite and associated minerals in the exoskarn zone from Cornet Hill (Metaliferi Massif, Apuseni Mountains, Romania). The Canadian Mineralogist, 51(3), 359-375.
[Gehlenite] Marincea, Ş., Bilal, E., Verkaeren, J., Pascal M.-L. & Fonteilles, M. (2001) Canadian Mineralogist, 39: 1435–1453.; Pascal, M.-L., Fonteilles, M., Verkaeren, J., Piret, R. & Marincea, Ş. (2001) Canadian Mineralogist, 39: 1405–1434.; Marincea, S., Dumitraş. D-G., Ghinet, C, Fransolet, A.-M., Hatert, F. & Rondeaux, M. (2011) Gehlenite from three occurrences of high-temperature skarns, Romania: new mineralogical data. Canadian Mineralogist. 49, 1001-1014.; Ilinca, G. (2012) Upper Cretaceous contact metamorphism and related mineralization in Romania. Acta Mineralogica-Petrographica, Abstract Series, Szeged, Vol. 7.
Downes, H., Vaselli, O., Seghedi, I., Ingram, G., Rex, D., Coradossi, N., ... & Pinarelli, L. (1995). Geochemistry of late Cretaceous-early Tertiary magmatism in Poiana Rusca (Romania). Acta Vulcanologica, 7, 209-218. Kräutner, F. (1969). Magmatites finales alcalines quaternaires dans la partie NE du massif de Poiana Rusca. Rev. Roum. Géol. Géophys. Géogr., Sér. Géol, 13, 47-67. Tschegg, C., Ntaflos, T., Seghedi, I., Harangi, S., Kosler, J., & Coltorti, M. (2010). Paleogene alkaline magmatism in the South Carpathians (Poiana Ruscă, Romania): Asthenosperic melts with geodynamic and lithospheric information. Lithos, 120(3-4), 393-406.
[Gehlenite] Martins da Pedra collection
Russia
 
  • Bashkortostan
Krot, A. N., Ulyanov, A. A. & Ivanova, M. A. (2008) Refractory inclusions in the CH/CB-like carbonaceous chondrite Isheyevo: I. Mineralogy and petrography. Meteoritics & Planetary Science 43, #9, 1531-1550. (Sept 2008)
  • Chechnya
    • Mekensk
Brearley, A. J. & Jones, R. H. (1998). Chondritic Meteorites. In: Planetary Materials (Papike, J. J., Editor): Chapter 3, 398 pages. Mineralogical Society of America: Washington, DC, USA. (1998)
  • Irkutsk Oblast
    • Narin-Kunta
[Gehlenite] P.M. Kartashov data; Armbruster, T., Lazic, B., Gfeller, F., Galuskin, E.V., Galuskina, I.O., Savelyeva, V.B., Zadov, A.E., Pertsev, N.N., Dzierżanowski, P. (2011): Chlorine content and crystal chemistry of dellaite from the Birkhin gabbro massif, Eastern Siberia, Russia. Mineralogical Magazine, 75, 379-394.
  • Kemerovo Oblast
    • Synzas River
Pokrovskiy, B. G., & Andreyeva, Y. D. (1991). Petrography and isotope geochemistry of melilite rocks associated with the Patyn pluton. International Geology Review, 33(7), 689-703.
  • Khabarovsk Krai
    • Ayan-Maya district
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).
  • Krasnoyarsk Krai
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.
    • Evenkiysky District
      • Nizhnyaya Tunguska River Basin (Lower Tunguska River)
Reverdatto, V. V., Pertsev, N. N., & Korolyuk, V. N. (1979). P_ {CO_2}-T-Evolution and origin of zoning in melilite during the regressive stage of contact metamorphism in carbonate-bearing rocks. Contributions to Mineralogy and Petrology, 70(2), 203-208
    • Maimecha and Kotui Rivers Basin
Henderson, C. M. B., Kogarko, L. N., & Plant, D. A. (1999). Extreme closed system fractionation of volatile-rich, ultrabasic peralkaline melt inclusions and the occurrence of djerfisherite in the Kugda alkaline complex, Siberia. Mineralogical Magazine, 63(3), 433-438.
[Åkermanite] Pavel M. Kartashov data
  • Murmansk Oblast
Potter, N. J., Kamenetsky, V. S., Chakhmouradian, A. R., & Goemann, K. (2017) Inclusions in perovskite-magnetite-silicate rocks from Afrikanda, Russia: Clues to the early history of carbonatites?. 11th International Kimberlite Conference
[Åkermanite] www.koeln.netsurf.de/~w.steffens/khib.htm
[Åkermanite] Arzamastsev, A.A. [Арзамасцев, А.А.] (1990): Alkaline ultramafites in the Khibiny massif: new data and petrological implications [Щелочные ультрамафиты в Хибинском массиве: новые данные и петрологические следствия]. In: Alkaline magmatism of the north-eastern sector of the Baltic Shield [Щелочной магматизм северо-восточной части Балтийского щита]. Kola Scientific Centre, USSR Academy of Science Press [Издательство Кольского НЦ АН СССР], Apatity, pages 4-19 (in Russian); Arzamastsev, A.A., Arzamastseva, L.V., Glaznev, V.N., Raevskiy, A.B. [Арзамасцев, А.А., Арзамасцева, Л.В., Глазнев, В.Н., Раевский, А.Б.] (1998): Deep structure and composition of the bottom horizons of the Khibiny and Lovozero complexes, Kola Peninsula: petrological-geophysical model [Глубинное строение и состав нижних горизонтов Хибинского и Ловозерского комплексов, Кольский полуостров: петролого-геофизическая модель]. Petrology [Петрология], 6, 5, 478-496 (in Russian); Yakovenchuk, V.N., Ivanyuk, G.Yu., Pakhomovsky, Ya.A., Men'shikov, Yu.P. (2005): Khibiny. Laplandia Minerals Ltd. (in association with the Mineralogical Society of Great Britain and Ireland), Apatity, 468 pp.
[Åkermanite] Kalinkina, E. V., Kalinkin, A. M., Forsling, W., & Makarov, V. N. (2001). Sorption of atmospheric carbon dioxide and structural changes of Ca and Mg silicate minerals during grinding: II. Enstatite, åkermanite and wollastonite. International journal of mineral processing, 61(4), 289-299.
Vorontsova, V. P. (2011). Dykes of the Kuru Vaara deposit in the Kola alkaline province. Moscow University Geology Bulletin, 66(2), 146-149.
www.koeln.netsurf.de/~w.steffens/lovo.htm
    • Northern Karelia
www.koeln.netsurf.de/~w.steffens/vuori.htm
A. N. Korobeinikov, F. P. Mitrofanov, S. Gehör, K. Laajoki, V. P. Pavlov and V. P. Mamontov (1998) Geology and Copper Sulphide Mineralization of the Salmagorskii Ring Igneous Complex, Kola Peninsula, NW Russia. J. Petrology 39:2033-2041.
    • Turii Cape
www.koeln.netsurf.de/~w.steffens/tury.htm; Keith Bell, Elizabeth Ann Dunworth, Andrei G. Bulakh, and Valeriy V. Ivanikov (1996) Alkaline rocks of the Turiy Peninsula, Russia, including type-locality turjaite and turjite; a review. Can Mineral, v. 34, p. 265-280
  • Sakha Republic (Yakutia)
    • Mirninsky District
[Gehlenite] Gałuskina, I.O., Gałuskin, E.V., Lazic, B., Armbruster, T., Dzierżanowski, P., Prusik, K., Wrzalik, R. (2010): Eringaite, Ca3Sc2(SiO4)3, a new mineral of the garnet group. Mineralogical Magazine, 74, 365-373.
  • Tatarstan
    • Muslyumovsky District
Holmberg, B. B. & Hashimoto, A. (1990). Long-Sought Primordial Fine-Grained Inclusion Discovered. Press Abstracts for the Twenty-First Lunar and Planetary Science Conference. LPI Contribution 740, p. 18.
  • Tuva
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.
[Gugiaite] Tony Nikischer
  • Zabaykalsky Krai
    • Buriatia Republic (Buryatia)
      • Severo-Baykalsky District
        • Dovyren Highlands
Galuskin, Evgeny V. et al. (2007) Dovyrenite Ca6Zr[Si2O7]2(OH)4: Vol. 38(1) , 15-27.
Kislov, E.V.; Khudyakova, L.I. (2020) Yoko–Dovyren Layered Massif: Composition, Mineralization, Overburden and Dump Rock Utilization. Minerals 10, 682.
Kislov, E.V.; Khudyakova, L.I. (2020) Yoko–Dovyren Layered Massif: Composition, Mineralization, Overburden and Dump Rock Utilization. Minerals 10, 682.
Slovakia
 
  • Prešov Region
    • Prešov District
      • Tulčík
[Åkermanite] Martin Števko-unpublished, PXRD and EMPA-WDS confirmed
Solomon Islands
 
  • Malaita Province
Allen, J. B., & Deans, T. (1965). Ultrabasic eruptives with alnöitic-kimberlitic affinities from Malaita, Solomon Islands. Mineralogical Magazine and Journal of the Mineralogical Society, 34(268), 16-34. doi.org/10.1180/minmag.1965.034.268.02 Neal, C. R., & Davidson, J. P. (1989). An unmetasomatized source for the Malaitan alnöite (Solomon Islands): petrogenesis involving zone refining, megacryst fractionation, and assimilation of oceanic lithosphere. Geochimica et Cosmochimica Acta, 53(8), 1975-1990. doi.org/10.1016/0016-7037(89)90318-9 Nixon, P. H. (1980). Kimberlites in the south-west Pacific. Nature, 287(5784), 718-720. doi.org/10.1038/287718a0 Tejada, M. L. G., Mahoney, J. J., Duncan, R. A., & Hawkins, M. P. (1996). Age and geochemistry of basement and alkalic rocks of Malaita and Santa Isabel, Solomon Islands, southern margin of Ontong Java Plateau. Journal of Petrology, 37(2), 361-394. doi.org/10.1093/petrology/37.2.361
Mineralogical Magazine,1980, VOL. 43, PP. 587-96
South Africa
 
  • Limpopo
    • Sekhukhune District
      • Steelpoort
[Åkermanite] Cairncross, B., Dixon, R. (1995) Minerals of South Africa. Geological Society of South Africa, PO Box 44283, Linden 2104, South Africa pg 181
  • Northern Cape
    • Kalahari manganese field
      • Hotazel
[Åkermanite] Von Bezing, K. L. et al. (1991) The Kalahari manganese field: An Update, Mineralogical Record 22(4) 279-302;
South Ossetia
 
  • Greater Caucasus Mountain Range
    • Kel’ volcanic area
      • Shadil-Khokh volcano
[Gehlenite] Galuskina, I.O., Krüger, B., Galuskin, E.V. ,Armbruster, T., Gazeev, V.M., Włodyka, R., Dulski, M. & Dzierżanowski, P. (2015): Fluorchegemite, Ca7(SiO4)3F2, a new mineral from the edgrewitebearing endoskarn zone of an altered xenolith in ignimbrites from Upper Chegem Caldera, Northern Caucasus, Kabardina-balkaria, Russia; Occurrence, crystal structure, and new data on the mineral assemblages. Canadian Mineralogist. 53, 325-344.; Środek, D., Juroszek, R., Krüger, H., Krüger, B., Galuskina, I., & Gazeev, V. (2018). New Occurrence of Rusinovite, Ca10 (Si2O7) 3Cl2: Composition, Structure and Raman Data of Rusinovite from Shadil-Khokh Volcano, South Ossetia and Bellerberg Volcano, Germany. Minerals, 8(9), 399.
Spain
 
  • Canary Islands
    • Las Palmas Province
Jutzeler, M., Schmincke, H. U., & Sumita, M. (2010). The incrementally zoned Miocene Ayagaures ignimbrite (Gran Canaria, Canary Islands). Journal of Volcanology and Geothermal Research, 196(1-2), 1-19. doi.org/10.1016/j.jvolgeores.2010.07.002 Guillou, H., Torrado, F. J. P., Machin, A. R. H., Carracedo, J. C., & Gimeno, D. (2004). The Plio–Quaternary volcanic evolution of Gran Canaria based on new K–Ar ages and magnetostratigraphy. Journal of Volcanology and Geothermal Research, 135(3), 221-246. doi.org/10.1016/j.jvolgeores.2004.03.003 Hoernle, K. A. J., & Schmincke, H. U. (1993). The petrology of the tholeiites through melilite nephelinites on Gran Canaria, Canary Islands: crystal fractionation, accumulation, and depths of melting. Journal of Petrology, 34(3), 573-597. doi.org/10.1093/petrology/34.3.573 van den Bogaard, P., & Schmincke, H. U. (1998). Chronostratigraphy of Gran Canaria. In Proceedings of the Ocean Drilling Program: Scientific Results (Vol. 157, No. Chapter 11, pp. 127-140). Donoghue, E., Troll, V. R., & Harris, C. (2010). Fluid–rock interaction in the Miocene, Post-Caldera, Tejeda intrusive complex, Gran Canaria (Canary Islands): insights from mineralogy, and O-and H-isotope geochemistry. Journal of Petrology, 51(10), 2149-2176. doi.org/10.1093/petrology/egq052 Crisp, J. A., & Spera, F. J. (1987). Pyroclastic flows and lavas of the Mogan and Fataga formations, Tejeda Volcano, Gran Canaria, Canary Islands: mineral chemistry, intensive parameters, and magma chamber evolution. Contributions to Mineralogy and Petrology, 96(4), 503-518. doi.org//10.1007/BF01166695 Anguita, F., Cacho, L. G., Colombo, F., Camacho, A. G., & Vieira, R. (1991). Roque Nublo caldera: a new stratocone caldera in Gran Canaria, Canary Islands. Journal of volcanology and geothermal research, 47(1-2), 45-63. doi.org/10.1016/0377-0273(91)90100-E Hoernle, K. A. J. (1998). Geochemistry of Jurassic oceanic crust beneath Gran Canaria (Canary Islands): implications for crustal recycling and assimilation. Journal of Petrology, 39(5), 859-880. doi.org/10.1093/petroj/39.5.859 Mangas, J., Pereztorrado, F., Massare, D., & Clocchiatti, R. (1993). Phonolitic origin of Roque-Nublo ignimbrites of Gran-Canaria (Canary-Islands, Spain) from clinopyroxene melt inclusion studies. European journal of mineralogy, 5, 97-106. doi.org/10.1127/ejm/5/1/0097 Troll, V. R., & Schmincke, H. U. (2002). Magma mixing and crustal recycling recorded in ternary feldspar from compositionally zoned peralkaline ignimbrite ‘A’, Gran Canaria, Canary Islands. Journal of Petrology, 43(2), 243-270. doi.org/10.1093/petrology/43.2.243 Cousens, B. L., Spera, F. J., & Dobson, P. F. (1993). Post-eruptive alteration of silicic ignimbrites and lavas, Gran Canaria, Canary Islands: Strontium, neodymium, lead, and oxygen isotopic evidence. Geochimica et Cosmochimica Acta, 57(3), 631-640. doi.org/10.1016/0016-7037(93)90374-6 Schirnick, C., van den Bogaard, P., & Schmincke, H. U. (1999). Cone sheet formation and intrusive growth of an oceanic island—The Miocene Tejeda complex on Gran Canaria (Canary Islands). Geology, 27(3), 207-210. doi.org/10.1130/0091-7613(1999)027<0207:CSFAIG>2.3.CO;2
  • Castile-La Mancha
    • Ciudad Real
JRGL collection
        • Bolaños de Calatrava
Calvo, M., Viñals, J., Sanz, A. and Martí, J. (2013). Zeolites and asociated minerals in the vacuoles of some of the Campo de calatrava volcanoes - Ciudad Real, Spain. Mineral Up,3, 54-69
Calvo, M., Viñals, J., Sanz, A. and Martí, J. (2013). Zeolites and asociated minerals in the vacuoles of some of the Campo de calatrava volcanoes - Ciudad Real, Spain. Mineral Up,3, 54-69
Sweden
 
  • Västernorrland County
    • Sundsvall
Andersson, M., Malehmir, A., Troll, V. R., Dehghannejad, M., Juhlin, C., & Ask, M. (2013). Carbonatite ring-complexes explained by caldera-style volcanism. Scientific reports, 3(1), 1-9. https://www.nature.com/articles/srep01677.pdf Barber, D. J., & Wenk, H. R. (1984). Microstructures in carbonates from the Alnø and Fen carbonatites. Contributions to Mineralogy and Petrology, 88(3), 233-245. doi.org/10.1007/BF00380168 Brueckner, H. K., & Rex, D. C. (1980). KA and Rb Sr geochronology and Sr isotopic study of the Alnö alkaline complex, northeastern Sweden. Lithos, 13(2), 111-119. doi.org/10.1016/0024-4937(80)90012-2 Von Eckermann, H. (1958). The alkaline and carbonatite dykes of the Alnö formation on the mainland north-west of Alnö Island Kungl. Svensk. Vetenskaps Handl. Fjärde Serien., 7, 1-61. Von Eckermann, H. (1966). Progress of research on the Alnö carbonatite. In Carbonatites. Intersci. Publishers New York. Eckermann, H. V. (1966). The pyroxenes of the Alnö carbonatites (sövite) and the surrounding fenites. Mineral. Soc. India, IMA Vol., 126-139. Eckermann, H. von. 1967. The strontium and barium contents of the Alnö sövites and the alkaline, carbonatitic and ultrabasic rocks. Arkiv för Mineralogi och Geologi, 4, 417-424. Ingrid, H. K. (1998). Rare earth elements in sövitic carbonatites and their mineral phases. Journal of Petrology, 39(11-12), 2105-2121.https://doi.org/10.1093/petroj/39.11-12.2105 Kresten, P. (1977). K, Rb and Cs in carbonatites and associated rocks from central Sweden. Geologiska Föreningen i Stockholm Förhandlingar, 99(4), 377-383.doi.org/10.1080/11035897709455040 Kresten, P. 1979. The Alnö complex: discussion of the main features, bibliography and excursion guide. Paper presented at the Nordic Carbonatite Symposium, Alnö, Sweden. Kresten, P. (1980). The Alnö complex: tectonics of dyke emplacement. Lithos, 13(2), 153-158. doi.org/10.1016/0024-4937(80)90016-X Kresten, P. (1986). Alkaline and carbonatitic Alnø dikes (Map). Sveriges Geologiske Undersøkning, Ser. Ba, (31). Kresten, P., Printzlau, I., Rex, D., Vartiainen, H., & Woolley, A. (1977). New ages of carbonatitic and alkaline ultramafic rocks from Sweden and Finland. Geologiska Föreningen i Stockholm Förhandlingar, 99(1), 62-65. doi.org/10.1080/11035897709454992 Meert, J. G., Walderhaug, H. J., Torsvik, T. H., & Hendriks, B. W. (2007). Age and paleomagnetic signature of the Alnø carbonatite complex (NE Sweden): Additional controversy for the Neoproterozoic paleoposition of Baltica. Precambrian Research, 154(3-4), 159-174. doi.org/10.1016/j.precamres.2006.12.008 Morogan, V. (1989). Mass transfer and REE mobility during fenitization at Alnö, Sweden. Contributions to Mineralogy and Petrology, 103(1), 25-34. doi.org/10.1007/BF00371362 Morogan, V., & Lindblom, S. (1995). Volatiles associated with the alkaline–carbonatite magmatism at Alnö, Sweden: a study of fluid and solid inclusions in minerals from the Laångarsholmen ring complex. Contributions to Mineralogy and Petrology, 122(3), 262-274. doi.org/10.1007/s004100050126 Morogan, V., & Woolley, A. R. (1988). Fenitization at the Alnö carbonatite complex, Sweden; distribution, mineralogy and genesis. Contributions to Mineralogy and Petrology, 100(2), 169-182. doi.org/10.1007/BF00373583 Vuorinen, J. H., & Hålenius, U. (2005). Nb-, Zr-and LREE-rich titanite from the Alnö alkaline complex: crystal chemistry and its importance as a petrogenetic indicator. Lithos, 83(1-2), 128-142. Vuorinen, J. H., & Skelton, A. D. (2004). Origin of silicate minerals in carbonatites from Alnö Island, Sweden: magmatic crystallization or wall rock assimilation?. Terra Nova, 16(4), 210-215. doi.org/10.1111/j.1365-3121.2004.00557.x
    • Timrå
[Åkermanite] Sandström, F., Binett, T., Wiklund, C. & Vikström, J. (2010): Alnöområdets geologi och mineralogi. Litiofilen. 27 (2) :14-42
Switzerland
 
  • Schaffhausen
    • Ramsen
Stalder, H. A., Wagner, A., Graeser, S. and Stuker, P. (1998): "Mineralienlexikon der Schweiz", Wepf (Basel), p. 271.
Heller, F., Borkovec, L., & Pavoni, N. (1985). Magnetism of the olivine-nephelinite dyke at Ramsen (Kanton Schaffhausen, Switzerland). Eclogae Geologicae Helvetiae, 48(3), 459-468. Hofmann, F. (1956). Die vulkanischen Erscheinungen auf schweizerischem Gebiet nördlich des Rheins in der Gegend von Ramsen (Kanton Schaffhausen). Eclogae Geologicae Helvetiae, 49, 85-96. Wagner, J. J., Delaloye, M.& Hedley, I. (1975). DONNEES GEOCHRONOMETRIQUES ET PALEOMAGNETIQUES SUR L'EXTENSION DU VOLCANISME DU HEGAU EN SUISSE (RAMSEN, SCHAFFHOUSE). Compte Rendu des Séances de la Société de Physique et d'Histoire Naturelle de Genève, N.S., 10, 46-57. Weiskirchner, W. (1975). Vulkanismus und Magmenentwicklung im Hegau. Jahresberichte und Mitteilungen des Oberrheinischen Geologischen Vereins, 117-134.
Tanzania
 
  • Arusha Region
    • Monduli District
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
Wiedenmann D, Zaitsev A N, Britvin S N, Krivovichev S V, Keller J (2009) Alumoåkermanite, (Ca,Na)2(Al,Mg,Fe2+)(Si2O7), a new mineral from the active carbonatite-nephelinite-phonolite volcano Oldoinyo Lengai, northern Tanzania. Mineralogical Magazine 73, 373-384; Dawson, J. B. (1998). Peralkaline nephelinite–natrocarbonatite relationships at Oldoinyo Lengai, Tanzania. Journal of Petrology, 39(11-12), 2077-2094.
  • Kilimanjaro Region
C.T. Lee et al. , Contrib. Mineral. Petrol. , 2000, 139, pp. 470-484.
Lee, C.T., Rudnick, R.L., McDonough, W.F., Horn, I. (2000) Petrologic and geochemical investigation of carbonates in peridotite xenoliths from northeastern Tanzania. Contributions to Mineralogy and Petrology, 139, 470-484.
C.T. Lee et al. , Contrib. Mineral. Petrol. , 2000, 139, pp. 470-484.
  • Mbeya Region
Frank, D., Zolensky, M., Martinez, J., Mikouchi, T., Ohsumi, K., Hagiya, K., Satake, W., Le, L., Ross, D., Peslier, A. (2011) A CAI in the Ivuna CI1 Chondrite. 42nd Lunar and Planetary Science Conference. LPI Contribution #1608: 2785.
Turkey
 
  • Afyon Province
Akal, C. (2003). Mineralogy and geochemistry of melilite leucitites, Balçıkhisar, Afyon (Turkey). Turkish Journal of Earth Sciences, 12(3), 215-239. Akal, C. (2008). K-richterite–olivine–phlogopite–diopside–sanidine lamproites from the Afyon volcanic province, Turkey. Geological Magazine, 145(4), 570-585. Aydar, E., Bayhan, H., & Gourgaud, A. (2003). The lamprophyres of Afyon stratovolcano, western Anatolia, Turkey: description and genesis. Comptes Rendus Geoscience, 335(3), 279-288. Besang, C., Eckhardt, F. J., Harre, W., Kreuzer, G., & Müller, P. (1977). Radiometrische Alterbestimmungen an neogenenen Eruptivgesteinen der Turkei: Geologisches Jahrbuch, B25, 3-36. Francalanci, L., Innocenti, F., Manetti, P., & Savasçin, M. Y. (2000). Neogene alkaline volcanism of the Afyon-Isparta area, Turkey: petrogenesis and geodynamic implications. Mineralogy and Petrology, 70(3-4), 285-312. Keller, J., & Villari, L. (1972). Rhyolitic ignimbrites in the region of Afyon (Central Anatolia). Bulletin Volcanologique, 36(2), 342-358. Lefevre, C., Bellon, H., & Poisson, A. (1983). Presence de leucitites dans le volcanisme Pliocene de la region d'Isparta (Taurides Occidentales, Turquie). Comptes-rendus des séances de l'Académie des sciences. Série 2, Mécanique-physique, chimie, sciences de l'univers, sciences de la terre, 297(4), 367-372.; Akal, C. (2003). Mineralogy and geochemistry of melilite leucitites, Balçıkhisar, Afyon (Turkey). Turkish Journal of Earth Sciences, 12(3), 215-239. Akal, C. (2008). K-richterite–olivine–phlogopite–diopside–sanidine lamproites from the Afyon volcanic province, Turkey. Geological Magazine, 145(4), 570-585. Aydar, E., Bayhan, H., & Gourgaud, A. (2003). The lamprophyres of Afyon stratovolcano, western Anatolia, Turkey: description and genesis. Comptes Rendus Geoscience, 335(3), 279-288. Besang, C., Eckhardt, F. J., Harre, W., Kreuzer, G., & Müller, P. (1977). Radiometrische Alterbestimmungen an neogenenen Eruptivgesteinen der Turkei: Geologisches Jahrbuch, B25, 3-36. Francalanci, L., Innocenti, F., Manetti, P., & Savasçin, M. Y. (2000). Neogene alkaline volcanism of the Afyon-Isparta area, Turkey: petrogenesis and geodynamic implications. Mineralogy and Petrology, 70(3-4), 285-312. Keller, J., & Villari, L. (1972). Rhyolitic ignimbrites in the region of Afyon (Central Anatolia). Bulletin Volcanologique, 36(2), 342-358. Lefevre, C., Bellon, H., & Poisson, A. (1983). Presence de leucitites dans le volcanisme Pliocene de la region d'Isparta (Taurides Occidentales, Turquie). Comptes-rendus des séances de l'Académie des sciences. Série 2, Mécanique-physique, chimie, sciences de l'univers, sciences de la terre, 297(4), 367-372. 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. Prelević, D., Akal, C., Romer, R. L., Mertz-Kraus, R., & Helvacı, C. (2015). Magmatic response to slab tearing: constraints from the Afyon Alkaline Volcanic Complex, Western Turkey. Journal of Petrology, 56(3), 527-562. SAVAŞCIN, M. Y., & OYMAN, T. (1999). Tectono-magmatic evolution of alkaline volcanics at the Kırka-Afyon-Isparta structural trend, SW Turkey. Turkish Journal of Earth Sciences, 7(3), 201-214. Savasçin, M. Y., Francalanci, L., Innocenti, F., Manetti, P., Birsoy, R., & Dag, N. (1995). Miocene-Pliocene Potassic Ultrapotassic Volcanism of the Afyon-Isparta Region (Central-Western Anatolia, Turkey): Petrogenesis and Geodynamic Implications. Proceedings II, 9-14.
  • Rize Province
[Gehlenite] Taner, M. F., Martin, R. F., & Gault, R. A. (2013). The Mineralogy of Skarns of the Spurrite–Merwinite Subfacies, Sanidinite Facies, Güneyce–Ikizdere Area, Eastern Black Sea, Turkey. The Canadian Mineralogist, 51(6), 893-911.
Uganda
 
  • Western Region
    • Kabarole
[Gehlenite] Barker, D.S. and Nixon, P.H. (1989) High-Ca, low-alkali carbonatite volcanism at Fort Portal, Uganda. Contributions to Minralogy and Petrology.: 103: 166-177.
UK
 
  • England
    • Cornwall
      • Crantock
BMS Newsletter 79, March 2010 (http://britishmicromountsociety.homestead.com/Gannell-Smelter.html)
  • Northern Ireland
    • Co. Antrim
      • Glenoe
[Åkermanite] P. A. Sabine, M. T. Styles and B. R. Young (1985) The Nature and Paragenesis of Natural Bredigite and Associated Minerals from Carneal and Scawt Hill, Co. Antrim. Mineralogical Magazine 49:663-670.
      • Larne
[Åkermanite] Tilley, C.E., Harwood, H.F. (1931) The Dolerite-Chalk Contact of Scawt Hill, Co. Antrim. The Production of Basic Alkali-Rocks by the Assimilation of Limestone by Basaltic Magma. Mineralogical Magazine: 22(132): 439-468.
[Åkermanite] Tindle, A.G. (2008) Minerals of Britian and Ireland
    • Argyll and Bute
      • Isle of Mull
Cann, J.R. (1965) The metamorphism of amygdales at 'S Airde Beinn, Northern Mull. Mineralogical Magazine, vol. 34, n° 268, 92-106.; http://jncc.defra.gov.uk/pdf/gcrdb/GCRsiteaccount21.pdf
    • Highland
      • Caol and Mallaig
        • Isle of Muck
[Gehlenite] Tilley, C.E. (1947) The gabbro-limestone contact zone of Camas Mor, Muck, Inverness-shire. Comptes Rendus de la Société geologique de Finlande, No. 140, 97–105.
      • Fort William and Ardnamurchan
        • Ardnamurchan
[Gehlenite] American Mineralogist 35:1080
[Åkermanite] Anthony, Bideaux, Bladh, & Nichols, Handbook of Mineralogy.; Agrell, S.O. (1965) Polythermal metamorphism of limestones at Kilchoan, Ardnamurchan. Mineralogical Magazine, vol. 34, n° 268, p. 1-15.; Embrey, P.G. (1978) Fourth supplementary list of British Minerals. Mineralogical Magazine, vol. 42, n° 322, p. 169-177.
    • Orkney Islands
      • Orkney Island
Baxter, A. N., & Mitchell, J. G. (1984). Camptonite-Monchiquite dyke swarms of Northern Scotland; Age relationships and their implications. Scottish Journal of Geology, 20(3), 297-308. doi.org/10.1144/sjg20030297 Brown, J. F. (1975). Potassium-Argon evidence of a Permian age for the camptonite dykes: Orkney. Scottish Journal of Geology, 11(3), 259-262. doi.org/10.1144/sjg11030259 Flett, J. S. (1900). XXXIII.—The Trap Dykes of the Orkneys. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 39(4), 865-905. doi.org/10.1017/S0080456800034517 Halliday, A. N., McAlpine, A., & Mitchell, J. G. (1977). The age of the Hoy lavas, Orkney. Scottish Journal of Geology, 13(1), 43-52. doi.org/10.1144/sjg13010043 Kellock, E. (1969). Alkaline basic igneous rocks in the Orkneys. Scottish Journal of Geology, 5(2), 140-153. doi.org/10.1144/sjg05020140 Upton, B. G. J., Mitchell, R. H., Longs, A., & Aspen, P. (1992). Primitive olivine melanephelinite dykes from the Orkney Islands, Scotland. Geological Magazine, 129(3), 319-324. doi.org/10.1017/S0016756800019257 Baxter, A. N. (1987). Petrochemistry of late Palaeozoic alkali lamprophyre dykes from N Scotland. Earth and Environmental Science Transactions of The Royal Society of Edinburgh, 77(4), 267-277. doi.org/10.1017/S0263593300023166
USA
 
  • Alabama
    • Perry Co.
Greenwood, R. C., Hutchison, R., Huss, G. R. & Hutcheon, I. D. (1992). CAIs in CO3 Meteorites: Parent Body or Nebular Alteration? Meteoritics 27(3): p. 229. (July 1992)
  • Arizona
    • Apache County
      • Dinnehotso
Witkind, I.J. & R.E. Thaden (1963), Geology and uranium-vanadium deposits in the Monument Valley area, Apache & Navajo Cos., AZ, USGS Bull. 1103: 57.
www.koeln.netsurf.de/~w.steffens/usa.htm
      • Navajo volcanic field
Anthony, J.W., et al (1995), Mineralogy of Arizona, 3rd.ed.: 293; Laughlin, A.W., et al (1986), Hetromorphism and crystallization paths of katungites, Navajo volcanic field, AZ, USA, in J. Ross, et al (editor), Kimberlites and related rocks, vol. 1, Geol. Soc. Australia Spec. Pub. 14.
  • Arkansas
    • Hot Spring Co.
      • Magnet Cove
Rocks & Min.: 63: 109.
  • California
    • Humboldt Co.
      • Coastal Range
Pemberton, H. Earl (1983), Minerals of California; Van Nostrand Reinholt Press: 493; www.koeln.netsurf.de/~w.steffens/usa.htm.
    • Inyo Co.
      • Darwin Hills
        • Darwin Mining District
          • Darwin
[Gehlenite] Am Min (1962) 47:1003-1005
      • Panamint Mts (Panamint Range)
        • Cottonwood Mountains
          • Ubehebe Mining District
            • Lost Burro Spring
[Gehlenite] Murdoch, Joseph & Robert W. Webb (1966), Minerals of California, Centennial Volume (1866-1966): California Division Mines & Geology Bulletin 189: 259.
    • Riverside Co.
[Åkermanite] Handbook of Mineralogy
[micromounts@yahoogroups.com]
          • Sky Blue Hill
[Gehlenite] Larsen, Esper Signius & William F. Foshag (1921), Merwinite, a new calcium magnesium orthosilicate from Crestmore, California: American Mineralogist:6: 144; Woodford, A.O., Crippen, R.A., and Garner, K.B. (1941) Section Across Commercial Quarry, Crestmorre, California. American Mineralogist: 26: 352-381; Woodford, A.O. (1943), Crestmore minerals: California Division Mines Report 39: 358; Burnham, C. W. (1959), Contact metamorphism of magnesian limestones at Crestmore, California Geological Society of America Bulletin: 70: 880; Pemberton, H. Earl (1983), Minerals of California; Van Nostrand Reinholt Press: 494.
[Gehlenite] Woodford, A.O., Crippen, R.A., and Garner, K.B. (1941) Section Across Commercial Quarry, Crestmore, California. American Mineralogist: 26: 352-381.
[Gehlenite] Woodford, A.O., Crippen, R.A., and Garner, K.B. (1941) Section Across Commercial Quarry, Crestmorre, California. American Mineralogist: 26: 352-381.
    • San Bernardino Co.
      • San Bernardino Mountains
        • Bear Valley District
          • Fawnskin (Grout)
[Hardystonite] Verbeek, Earl R. and Van Fleet, James, 2014, Hardystonite from the Desert View Mine, California: The Picking Table, vol. 55, no. 1, p. 15-17.
[Gehlenite] Shannon, Earl Victor (1922), Velarsenite from a new locality in Tulare County, California: US National Museum Proceedings: 60, art. 22, 4 pp.:
  • Colorado
    • Gunnison Co.
      • White Earth Mining District (Powderhorn Mining District)
[Åkermanite] "Minerals of Colorado, updated & revised", p. 17, by Eckel, Edwin B., 1997
    • Teller Co.
Min Rec 36:2 pp143-185
  • Connecticut
    • Middlesex Co.
      • Portland
        • Collins Hill
          • Strickland pegmatite (Strickland-Cramer Quarry; Strickland-Cramer Mine; Strickland-Cramer Feldspar-Mica Quarries)
[Gehlenite] Schooner, Richard. (circa 1985), Untitled manuscript on central Connecticut mineralogy.
  • Hawaii
    • Honolulu County
CLAGUE, D. A., & FREY, F. A. (1982). Petrology and trace element geochemistry of the Honolulu Volcanics, Oahu: implications for the oceanic mantle below Hawaii. Journal of Petrology, 23(3), 447-504. doi.org/10.1093/petrology/23.3.447 Winchell, H. (1947). Honolulu Series, Oahu, Hawaii. Geological Society of America Bulletin, 58(1), 1-48. doi.org/10.1130/0016-7606(1947)58[1:HSOH]2.0.CO;2 MacDonald, G. A., & Katsura, T. (1964). Chemical composition of Hawaiian lavas. Journal of petrology, 5(1), 82-133. doi.org/10.1093/petrology/5.1.82 JACKSON, E. D., & WRIGHT, T. L. (1970). Xenoliths in the Honolulu volcanic series, Hawaii. Journal of Petrology, 11(2), 405-433. doi.org/10.1093/petrology/11.2.405 Sen, G., & Leeman, W. P. (1991). Iron-rich lherzolitic xenoliths from Oahu: origin and implications for Hawaiian magma sources. Earth and Planetary Science Letters, 102(1), 45-57. doi.org/10.1016/0012-821X(91)90016-B Bailey, D.K. 2010. New forms of carbonate volcanism: what to look for and where. Paper presented at the 20th General Meeting of the International Mineralogical Association, 21-27 August, 2010, Budapest, Hungary. Acta Mineralogica-Petrographica, Abstract Series, 6, 558.
        • Honolulu
Dunham, K.C. (1933): Crystal cavities in lavas from the hawaiian islands, The American Mineralogist, Vol. 18, 369-385.; Wilkinson & Stolz (1983) Contr. Min. Petr., 83, 363-374.
Geological Society of America, Bulletin, 58, 1-48 (1947)
    • Kauai County
      • Kauai Island
Macdonald, G. A., Davis, D. A., & Cox, D. C. (1960). Geology and ground-water resources of the island of Kauai, Hawaii (No. 13), 1-212.
      • Niihau island
Macdonald, G. A. (1947). Petrography of Niihau. Hawaii Division of Hydrography Bulletin, 12, 39-51. Hinds, N. E. (1925). Melilite and nephelite basalt in Hawaii. The Journal of Geology, 33(5), 526-539. doi.org/10.1086/623217 Stearns, H. T. (1947). Geology and ground-water resources of the island of Niihau, Hawaii. Hawaii Division of Hydrography Bulletin, 12, 3-38. Dixon, J., Clague, D. A., Cousens, B., Monsalve, M. L., & Uhl, J. (2008). Carbonatite and silicate melt metasomatism of the mantle surrounding the Hawaiian plume: Evidence from volatiles, trace elements, and radiogenic isotopes in rejuvenated‐stage lavas from Niihau, Hawaii. Geochemistry, Geophysics, Geosystems, 9, Q09005 doi.org/10.1029/2008GC002076 Washington, H. S., & Keyes, M. G. (1926). Petrology of the Hawaiian Islands, V; The Leeward Islands. American Journal of Science, (70), 336-352. doi.org/10.2475/ajs.s5-12.70.336 Cousens, B. L., & Clague, D. A. (2015). Shield to rejuvenated stage volcanism on Kauai and Niihau, Hawaiian Islands. Journal of Petrology, 56(8), 1547-1584. doi.org/10.1093/petrology/egv045
    • Maui County
      • Maui Island
Macdonald, G. A. (1949). Hawaiian petrographic province. Geological Society of America Bulletin, 60(10), 1541-1596. doi.org/10.1130/0016-7606(1949)60[1541:HPP]2.0.CO;2 MacDonald, G. A., & Katsura, T. (1964). Chemical composition of Hawaiian lavas. Journal of petrology, 5(1), 82-133. doi.org/10.1093/petrology/5.1.82 Hinds, N. E. (1925). Melilite and nephelite basalt in Hawaii. The Journal of Geology, 33(5), 526-539. doi.org/10.1086/623217
  • Illinois
    • Vermilion Co.
      • Danville
        • Hegeler
[Hardystonite] Piatak, N. M. & Seal, R. R., II (2010): Mineralogy and the release of trace elements from slag from the Hegeler Zinc smelter, Illinois (USA). Applied Geochemistry, 25, 302-320
  • Kansas
    • Decatur Co.
[Gehlenite] Keil, K., G. I. Huss & H. B. Wiik (1969). The Leoville, Kansas, Meteorite: A Polymict Breccia of Carbonaceous Chondrites and Achondrite. Meteorite Researchedited by Peter M. Millman. Astrophysics and Space Science Library: Astrophysics and Space Science Library, Volume 12, 1969, p 217.; Patzer, A., Hezel, D. C., Bendel, V. & Pack, A. (2012) Chondritic ingredients: I. Usual suspects and some oddballs in the Leoville CV3 meteorite. Meteoritics & Planetary Science 47 (1): 142-157. (Jan 2012)
    • Woodson Co.
Am Min 44:1082-1086
  • Kentucky
    • Elliott Co.
Williams, Turner, Gilbert, 1954.
  • Maine
    • Oxford County
      • Stoneham
[Gehlenite] Bastin, Edson Sunderland (1911) Geology of the pegmatites and associated rocks of Maine, including feldspar, quartz, mica, and gem deposits. USGS Bulletin 445.
  • Michigan
www.deq.state.mi.us/documents/deq-glm-rcim-geology-Minerals_Found_In_Michigan.Pdf.
  • Missouri
    • Cass Co.
Woolley, A.R (1987) Alkaline Rocks and Carbonatites of the World.
    • Ste. Genevieve Co.
Sherwood, M. D., & Williams, G. A. (1998). Missouri mineral locality index. Rocks & Minerals, 73(2), 98-117.
[Gehlenite] Taylor, J.H. (1935) Geol. Soc. Amer. Houston meeting., vol. 20, p. 120 (according to Harker (1965) Taylor described scawtite in Montana "with gehlenite, vesuvianite, calcite, and sometimes garnet".; Harker, R.I. (1965) Scawtite and its synthesis. Mineralogical Magazine, vol. 34, n° 268, 232-236 (referring to Taylor, 1935).
    • Petroleum Co.
Gobla, M.J. (2012) Montana mineral locality index. Rocks & Minerals, 87, #3, 208-240.
  • New Jersey
    • Sussex County
      • Frankford Township
        • Wykertown
Rutgers Univ. Bull. #5, Pt 1:56-57.
      • Franklin Mining District
        • Franklin
[Hardystonite] Palache(1935):94; Dunn(1995):Pt3:411-412.
[Hardystonite] Van King
[Hardystonite] Christopher O'Neill
[Hardystonite] Van King; Chester S. Lemanski, Jr.
[Hardystonite] Weissman purchased specimen
  • New Mexico
    • Luna Co.
      • Camel Mountain-Eagle Nest District
[Gehlenite] NMBGMR Open-file Report OF-459
      • Tres Hermanas Mountains
[Åkermanite] Handbook of Mineralogy
      • Victorio Mountains
[Gehlenite] Northrop, Minerals of New Mexico, 3rd rev. ed., 1996
  • New York
    • Essex Co.
[Åkermanite] Handbook of Mineralogy
      • Keene Township
        • Cascade Mountain
[Åkermanite] EOS: 60: 423.; Contrib. Mineral. Petrol. 74, 143-152 (1980)
    • Herkimer Co.
Jensen (1978) Minerals of New York State, p.120
    • Onondaga Co.
Jensen (1978) Minerals of New York State, p.120
    • Tompkins Co.
Jensen (1978) Minerals of New York State, p.120
  • Oklahoma
    • Washita Co.
[Gehlenite] Grady, M. M., Pratesi, G. & Moggi-Cecchi, V. (2015) Atlas of Meteorites. Cambridge University Press: Cambridge, United Kingdom. 373 pages.
  • Pennsylvania
    • Chester Co.
      • Warwick Township
        • Warwick (Saint Marys)
          • Hopewell Mines
Piatak, N. M., & Seal II, R. R. (2012). Mineralogy and environmental geochemistry of historical iron slag, Hopewell Furnace National Historic Site, Pennsylvania, USA. Applied geochemistry, 27(3), 623-643.
  • Texas
    • Brewster Co.
      • Christmas Mountains
Rocks & Minerals (1991): 66:3: 196-224.; American Mineralogist: 59: 694-699.
      • Study Butte
Wlotzka, F. & Fredriksson, K. (1988) Magnetite-Carbide and Al-Rich Inclusions in the Study Butte H3-Chondrite: Meteoritics 23(4): 311-312. (Dec 1988).
    • Culberson Co.
      • Apache Peak area
[Åkermanite] Rocks & Minerals: 66(3): 196-224.
    • McLennan Co.
Srinivasan, G., Huss, G. R. & Wasserburg, G. J. ( 2000). A petrographic, chemical, and isotopic study of calcium-aluminum-rich inclusions and aluminum-rich chondrules from the Axtell (CV3) chondrite. Meteoritics & Planetary Science 35 (6): 1333-1354. (Nov 2000)
    • Uvalde Co.
      • Knippa
R&M 66:3 pp 196-224
[Gehlenite]
  • Virginia
    • Henrico Co.
[Gehlenite] Bischoff, A. & Keil, K. (1984) Al-rich objects in ordinary chondrites: Related origin of carbonaceous and ordinary chondrites and their constituents. Geochimica et Cosmochimica Acta 48 (4): 693-709. ; Fredriksson, K. (1969) The Sharps Chondrite — New Evidence on the Origin of Chondrules and Chondrites: IN: Meteoritic Research: Peter M. Millman, Editor: pp. 155-165. D. Reidel Publishing Company: Dordrecht-Holland. 941 pages.
    • Highland Co.
[Gehlenite] Minerals of Virginia, 1990 by R. V. Dietrich
  • Washington
    • Whatcom Co.
      • Sisters Mining District
Derkey, R., Joseph, N., Lasmanis, R. (1990) Metal Mines of Washington-Preliminary Report. Washington Division of Geology and Earth Resources Open File Report 90-18, Washington State Department of Natural Resources, 277 pages.
  • Wyoming
    • Campbell Co.
      • Reno Junction
[Gehlenite] American Mineralogist, Volume 73, pages 1440-1448, 1988
    • Johnson Co.
      • Buffalo
AmMin 72:137
Yemen
 
  • Hadhramaut Governorate
Zolensky, M. & A.Ivanov, Chemie der Erde 63,185-246(2003)
Outer Space
 
[Gehlenite] Gornitz, V. (2007) Hot & cold origins: the mineralogy of a comet. Mineral News, 23, #1, 1-4.
[Åkermanite] Posch, Th., Baier, A., Mutschke, H., Henning, Th. (2007): Carbonates in Space: The Challenge of Low-Temperature Data. Astrophysical Journal: 668: 993-1000
The Moon
Frondel, J.W. (2009) Lunar Mineralogy, Wiley-Interscience, New York, 332 pages.
 
矿物 and/or 产地  
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