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Aegirine-augite

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About Aegirine-augiteHide

Formula:
(NaaCabFe2+cMgd)(Fe3+eAlfFe2+gMgh)Si2O6
a+b+c+d = 1
e+f+g=h = 1
a = e+f
0.2 ≤ a ≤ 0.8
e > f
Hardness:
6
Crystal System:
Monoclinic
Name:
Named informally in 1892 by Karl Harry Ferdinand Rosenbusch for a mineral chemically between Aegirine and Augite.

Aegirine-augite was mostly treated as a variety until Joan R. Clark and James J. Papike (1968) redefined aegirine-augite from a neotype location, although the validation of aegirine-augite did not materially alter the original description except to restrict the crystal structure. It was formally redefined as part of the IMA's restructuring of the Pyroxene group by Morimoto et al (1988), see diagram below.


Classification of Aegirine-augiteHide

TRI__f6173ad03c274c3213e9c72cbd7dfcdc.png

Accepted names for Na pyroxenes (after Morimoto et al., 1988).

Approved
Notes:
Redefined by the IMA
Approval History:
Redefined by IMA: 1988 (special procedure).
9.DA.20

9 : SILICATES (Germanates)
D : Inosilicates
A : Inosilicates with 2-periodic single chains, Si2O6; pyroxene family
65.1.3b.2

65 : INOSILICATES Single-Width,Unbranched Chains,(W=1)
1 : Single-Width Unbranched Chains, W=1 with chains P=2
16.24.1

16 : Silicates Containing Aluminum and other Metals
24 : Aluminosilicates of Fe, Mg, Ca and alkalis

Physical Properties of Aegirine-augiteHide

Hardness:

Optical Data of Aegirine-augiteHide

Type:
Biaxial (-)
RI values:
nα = 1.700 - 1.760 nβ = 1.710 - 1.800 nγ = 1.730 - 1.813
2V:
Measured: 70° to 110°, Calculated: 58° to 72°
Max Birefringence:
δ = 0.030 - 0.053
Image shows birefringence interference colour range (at 30µm thickness)
and does not take into account mineral colouration.
Surface Relief:
High
Dispersion:
r > v moderate

Chemical Properties of Aegirine-augiteHide

Formula:
(NaaCabFe2+cMgd)(Fe3+eAlfFe2+gMgh)Si2O6

a+b+c+d = 1
e+f+g=h = 1
a = e+f
0.2 ≤ a ≤ 0.8
e > f
IMA Formula:
(Ca,Na)(Fe3+,Mg,Fe2+)Si2O6

Chemical AnalysisHide

Oxide wt%:
 1
SiO251,10 %
TiO20.28 %
ZrO21.30 %
SnO20.12 %
Al2O31.02 %
Fe2O315.77 %
FeO9.62 %
MnO1.13 %
MgO0.96 %
CaO9.72 %
Na2O7.66 %
Total:98.58 %
Sample references:
IDLocalityReference
1Skutesundskjær, Barkevik area, Langesundsfjorden, Larvik, Vestfold, NorwayLarsen, A. O & Raade, G. (1997) Pyroksener fra Oslofeltets syenittpegmatitter. Bergverksmuseets Skrift 12:16-17
2Yaojiazuang, Tianzhen County, Datong, Shanxi, ChinaYan, G., Mu, B., Xu, B., He, G., Tan, L., Zhao, H., ... & Qiao, G. (1999). Triassic alkaline intrusives in the Yanliao-Yinshan area: their chronology, Sr, Nd and Pb isotopic characteristics and their implication. Science in China Series D: Earth Sciences, 42(6), 582-587.

Crystallography of Aegirine-augiteHide

Crystal System:
Monoclinic
Class (H-M):
2/m - Prismatic
Space Group:
B2/b
Cell Parameters:
a = 9.663(3) Å, b = 8.813(3) Å, c = 5.2184(16) Å
β = 106.40(2)°
Ratio:
a:b:c = 1.096 : 1 : 0.592
Unit Cell V:
426.32 ų (Calculated from Unit Cell)
Z:
4
Comment:
Cell data from Mills & Groat (2008).

Occurrences of Aegirine-augiteHide

Paragenetic Mode(s):

Synonyms of Aegirine-augiteHide

Other Language Names for Aegirine-augiteHide

Varieties of Aegirine-augiteHide

BlanforditeMn-bearing variety of aegirine-augite.
GrünblendeA variety of Augite/Aegirin-Augite/Aegirine. Acicular crystals of these pyroxenes covering a quartz xenolith.
Literally "green blende".
PorricinA variety of Augite/Aegirin-Augite/Aegirine. Acicular crystals of these pyroxenes covering a quartz xenolith.
Originally reported from the Eifel, Germany.
See also Grünblende.
UrbaniteAn Fe-rich augite or aegirine-augite.

Relationship of Aegirine-augite to other SpeciesHide

Other Members of this group:
AegirineNaFe3+Si2O6Mon. 2/m : B2/b
Augite(CaxMgyFez)(Mgy1Fez1)Si2O6Mon. 2/m : B2/b
BurnettiteCaVAlSiO6Mon. 2/m : B2/b
ClinoenstatiteMgSiO3Mon. 2/m : P21/b
ClinoferrosiliteFe2+SiO3Mon. 2/m : P21/b
DavisiteCaScAlSiO6Mon. 2/m : B2/b
DiopsideCaMgSi2O6Mon. 2/m : B2/b
EsseneiteCaFe3+[AlSiO6]Mon. 2/m : B2/b
GrossmaniteCaTi3+ AlSiO6Mon. 2/m : B2/b
HedenbergiteCaFe2+Si2O6Mon. 2/m : B2/b
JadeiteNa(Al,Fe3+)Si2O6Mon.
JervisiteNaSc3+Si2O6Mon. 2/m : B2/b
JohannseniteCaMn2+Si2O6Mon. 2/m : B2/b
KanoiteMn2+(Mg,Mn2+)Si2O6Mon. 2/m : P21/b
KosmochlorNaCrSi2O6Mon.
KushiroiteCaAl[AlSiO6]Mon. 2/m : B2/b
NamansiliteNaMn3+Si2O6Mon.
NatalyiteNaV3+Si2O6Mon.
Omphacite(NaaCabFe2+cMgd)(AleFe3+fFe2+gMgh)Si2O6Mon. 2/m
PetedunniteCa(Zn,Mn2+,Mg,Fe2+)Si2O6Mon.
Pigeonite(CaxMgyFez)(Mgy1Fez1)Si2O6Mon. 2/m : P21/b
SpodumeneLiAlSi2O6Mon.
Tissintite(Ca,Na,□)AlSi2O6Mon. 2/m : B2/b

Common AssociatesHide

Associated Minerals Based on Photo Data:
12 photos of Aegirine-augite associated with QuartzSiO2
9 photos of Aegirine-augite associated with NephelineNa3K(Al4Si4O16)
7 photos of Aegirine-augite associated with CalciteCaCO3
6 photos of Aegirine-augite associated with MagnetiteFe2+Fe3+2O4
5 photos of Aegirine-augite associated with Pyrochlore
4 photos of Aegirine-augite associated with FluorapatiteCa5(PO4)3F
4 photos of Aegirine-augite associated with TitaniteCaTi(SiO4)O
3 photos of Aegirine-augite associated with TroiliteFeS
3 photos of Aegirine-augite associated with EudialyteNa15Ca6(Fe2+,Mn2+)3Zr3[Si25O73](O,OH,H2O)3(OH,Cl)2
2 photos of Aegirine-augite associated with LorenzeniteNa2Ti2(Si2O6)O3

Related Minerals - Nickel-Strunz GroupingHide

9.DA.ProtoenstatiteMg2Si2O6Orth. mmm (2/m 2/m 2/m) : Pbcn
9.DA.05Donpeacorite(Mn2+,Mg)Mg[SiO3]2Orth.
9.DA.05EnstatiteMg2Si2O6Orth. mmm (2/m 2/m 2/m) : Pbca
9.DA.05FerrosiliteFeSiO3Orth. mmm (2/m 2/m 2/m) : Pbca
9.DA.10ClinoenstatiteMgSiO3Mon. 2/m : P21/b
9.DA.10ClinoferrosiliteFe2+SiO3Mon. 2/m : P21/b
9.DA.10KanoiteMn2+(Mg,Mn2+)Si2O6Mon. 2/m : P21/b
9.DA.10Pigeonite(CaxMgyFez)(Mgy1Fez1)Si2O6Mon. 2/m : P21/b
9.DA.15Augite(CaxMgyFez)(Mgy1Fez1)Si2O6Mon. 2/m : B2/b
9.DA.15DiopsideCaMgSi2O6Mon. 2/m : B2/b
9.DA.15EsseneiteCaFe3+[AlSiO6]Mon. 2/m : B2/b
9.DA.15HedenbergiteCaFe2+Si2O6Mon. 2/m : B2/b
9.DA.15JohannseniteCaMn2+Si2O6Mon. 2/m : B2/b
9.DA.15PetedunniteCa(Zn,Mn2+,Mg,Fe2+)Si2O6Mon.
9.DA.15DavisiteCaScAlSiO6Mon. 2/m : B2/b
9.DA.15KushiroiteCaAl[AlSiO6]Mon. 2/m : B2/b
9.DA.15GrossmaniteCaTi3+ AlSiO6Mon. 2/m : B2/b
9.DA.20Omphacite(NaaCabFe2+cMgd)(AleFe3+fFe2+gMgh)Si2O6Mon. 2/m
9.DA.25AegirineNaFe3+Si2O6Mon. 2/m : B2/b
9.DA.25JadeiteNa(Al,Fe3+)Si2O6Mon.
9.DA.25JervisiteNaSc3+Si2O6Mon. 2/m : B2/b
9.DA.25KosmochlorNaCrSi2O6Mon.
9.DA.25NamansiliteNaMn3+Si2O6Mon.
9.DA.25NatalyiteNaV3+Si2O6Mon.
9.DA.30SpodumeneLiAlSi2O6Mon.

Related Minerals - Dana Grouping (8th Ed.)Hide

65.1.3b.1Omphacite(NaaCabFe2+cMgd)(AleFe3+fFe2+gMgh)Si2O6Mon. 2/m

Related Minerals - Hey's Chemical Index of Minerals GroupingHide

16.24.2Omphacite(NaaCabFe2+cMgd)(AleFe3+fFe2+gMgh)Si2O6Mon. 2/m
16.24.4Ferri-katophoriteNa(CaNa)(Mg4Fe3+)(AlSi7O22)(OH)2Mon.
16.24.5Ferro-ferri-katophoriteNa(NaCa)(Fe2+4Fe3+)(Si7Al)O22(OH)2Mon. 2/m : B2/m
16.24.6Barroisite☐{CaNa}{Mg3Al2}(AlSi7O22)(OH)2Mon.
16.24.7Ferri-barroisite☐(CaNa)(Mg3Fe3+2)(AlSi7O22)(OH)2
16.24.8Alumino-ferrobarroisite☐{CaNa}{Fe2+3Al2}(AlSi7O22)(OH)2
16.24.9Ferro-barroisite☐{CaNa}{Fe2+3Al2}(AlSi7O22)(OH)2Mon. 2/m : B2/m
16.24.10Ferro-ferri-barroisite☐(CaNa)(Fe2+3Fe3+2)(AlSi7O22)(OH)2
16.24.11Hastingsite{Na}{Ca2}{Fe2+4Fe3+}(Al2Si6O22)(OH)2Mon.
16.24.12Magnesio-hastingsite{Na}{Ca2}{Mg4Fe3+}(Al2Si6O22)(OH)2Mon.
16.24.13Taramite Root NameA(CaNa)(Z2+3Z3+2)(Al2Si6O22)(OH,F,Cl)2
16.24.14Ferri-taramiteNa(CaNa)(Mg3Fe3+2)(Al2Si6O22)(OH)2Mon.
16.24.15Magnesiotaramite{Na}{CaNa}{Mg3AlFe3+}(Al2Si6O22)(OH)2Mon.
16.24.16Osumilite-(Mg)KMg2Al3(Al2Si10)O30Hex. 6/mmm (6/m 2/m 2/m) : P6/mcc
16.24.16Osumilite(K,Na)(Fe2+,Mg)2(Al,Fe3+)3(Si,Al)12O30Hex.

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.

Aegirine-augite in petrologyHide

References for Aegirine-augiteHide

Reference List:
Sort by Year (asc) | by Year (desc) | by Author (A-Z) | by Author (Z-A)
Rosenbusch, K.H.F. (1892) Mineralien des monoklinen Krystallsystems. Gruppe der monoklinen Pyroxene. in Mikroskopische Physiographie der Petrographisch Wichtigen Mineralien, E.Schweizerbart'sche Verlagshandlung (E. Koch), Stuttgart: 510-539.
Rosenbusch, K.H.F. (1892) Mikroskopische Physiographie der petrographisch wichtigen Mineralien, Vol. 1, Schweitzerbart Stuttgart, 3. Auflage.
Clark, J.R., Papike, J.J. (1968) Crystal-Chemical Characterization of Omphacites. American Mineralogist: 53: 840-868.
Tröger, W.E. (1969) Optische Bestimmung der gesteinsbildenden Minerale, Vol. 2, Schweitzerbart Stuttgart, 2. Auflage.
Deer, W.A., Howie, R.A., Zussman, J. (1972) Rock-forming minerals, Vol. 2. Chain Silicates, Longman London, 6.th impression.
Morimoto, N., Fabries, J., Ferguson, A.K., Ginzburg, I.V., Ross, M., Seifert, F.A., Zussman, J., Aoki, K., Gottardi, G. (1988) Nomenclature of Pyroxenes. American Mineralogist: 73: 1123-1133.
Birch, W.D., Wood, A., White, A.J.R., Mills, S.J., Freeman, R. (2008) Aegirine–augite crystals in scoria from Mount Shadwell and Mount Anakie, Victoria, Australia. Australian Journal of Mineralogy: 14(1): 37–42.
Mills, S.J., Groat, L. A. (2008) The crystal structure of yellow aegirine–augite from Mount Anakie, Victoria. Australian Journal of Mineralogy: 14(1): 43–45.

Internet Links for Aegirine-augiteHide

Localities for Aegirine-augiteHide

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.
Algeria
 
  • Tamanghasset Province
    • Ahaggar Mtn (Hoggar Mtn)
      • Atakor volcanic massif
M. Girod, Bull. Soc. Franç. Minéral. Crist. , 1963, LXXXVI, pp. 121-125.
M. Girod, Bull. Soc. Franç. Minéral. Crist. , 1963, LXXXVI, pp. 121-125.
Angola
 
  • Cuanza Sul Province
    • Sumbe City Council
33rd International Geological Congress (2008) session MPI-07 Alkaline and carbonatite magmatism and related ore deposits: Extrusive calcite carbonatite from Catanda, Angola: Magmatic and hydrothermal history from studies of pyrochlore
  • Huambo Province
    • Londuimbali City Council
Amores-Casals, S.; Gonçalves, A.O.; Melgarejo, J.-C.; Molist, J.M. (2020) Nb and REE Distribution in the Monte Verde Carbonatite–Alkaline–Agpaitic Complex (Angola). Minerals 10, 5.
Antarctica
AmMin 36:361-367
  • Eastern Antarctica
    • Queen Maud Land
Harris, C., Grantham, G.H. (1993): Geology and petrogenesis of the Straumsvola nepheline syenite complex, Dronning Maud Land, Antarctica. Geological Magazine, 130, 4, 513-532.
    • Victoria Land
Smith, W. C. (1959). The Volcanic Rocks of Cape Adare, South Victoria Land. British Antarctic Expedition, 1910. National Antarctic Expedition, Natural History Reports, Geology, II, No 2. British Museum (Natural History), London, 109-150.
Hamilton, W. B. (1972). The Hallett Volcanic Province, Antarctica (No. 456-C), 1-62 Nardini, I., Armienti, P., Rocchi, S., Dallai, L., & Harrison, D. (2009). Sr–Nd–Pb–He–O isotope and geochemical constraints on the genesis of Cenozoic magmas from the West Antarctic Rift. Journal of Petrology, 50(7), 1359-1375.
Ricci, C. A. (1997). The Antarctic Region: Geological Evolution and Processes; Proceedings of the VII International Symposium on Antarctic Earth Sciences, Siena, 1995. Terra Antartica Publ., 511-521
Harrington, H. J., Wood, B. L., McKellar, I. C., & Lensen, G. J. (1967). Topography and geology of the Cape Hallett-Tucker Glacier district, Antarctica. Bull. NZ. Geo!. Surv, 80, 100. Hamilton, W. B. (1972). The Hallett Volcanic Province, Antarctica (No. 456-C), 1-62
Müller, P., Schmidt-Thomé, M., Kreuzer, H., Tessensohn, F., & Vetter, U. (1991). Cenozoic peralkaline magmatism at the western margin of the Ross Sea, Antarctica. Memorie della Societa Geologica Italiana, 46, 315-336.
Martin, A. P., Cooper, A. F., & Price, R. C. (2013). Petrogenesis of Cenozoic, alkalic volcanic lineages at Mount Morning, West Antarctica and their entrained lithospheric mantle xenoliths: Lithospheric versus asthenospheric mantle sources. Geochimica et Cosmochimica Acta, 122, 127-152.
Gair, H. S. (1967). The geology from the upper Rennick Glacier to the coast, northern Victoria Land, Antarctica. New Zealand journal of geology and geophysics, 10(2), 309-344. LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 65-68
Armienti, P., & Tripodo, A. (1991). Petrography and geochemistry of lavas and comagmatic xenoliths of Mt. Rittmann, a volcano discovered during the IV Italian Expedition in Northern Victoria Land (Antarctica). Memorie della Società Geologica Italiana, (46), 427-451.
      • Ross Archipelago
Cole, J. W., & Ewart, A. (1968). Contributions to the volcanic geology of the Black Island, Brown Peninsula, and Cape Bird areas, Mcmurdo sound, Antarctica. New Zealand Journal of Geology and Geophysics, 11(4), 793-828. Goldich, S. S., Treves, S. B., Suhr, N. H., & Stuckless, J. S. (1975). Geochemistry of the Cenozoic volcanic rocks of Ross Island and vicinity, Antarctica. The Journal of Geology, 83(4), 415-435.
Kyle, P. R., Adams, J., & Rankin, P. C. (1979). Geology and petrology of the McMurdo volcanic group at Rainbow Ridge, Brown Peninsula, Antarctica. Geological Society of America Bulletin, 90(7), 676-688. LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 99-102, 113-116 SMITH, W. (1954). The volcanic rocks of the Ross Archipelago. British Antarctic (“Terra Nova”) Expedition, 1910 Natural History Report. Geology, II, No 2. British Museum, London.
        • Ross Island
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 97-98 Goldich, S. S., Treves, S. B., Suhr, N. H., & Stuckless, J. S. (1975). Geochemistry of the Cenozoic volcanic rocks of Ross Island and vicinity, Antarctica. The Journal of Geology, 83(4), 415-435.
LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 99-102 Jones, L. M. (1972). GEOCHEMISTRY OF MCMURDO VOLCANICS, VICTORIA LAND. 1. STRONTIUM ISOTOPE COMPOSITION. Antarctic Journal of the United States, 7(5), 142-144.
      • Transantarctic Mts
Wörner G and Viereck L, 1989. The Mt.Melbourne Volcanic Field (Victoria Land, Antarctica). I. Field observations. Geologisches Jahrbuch, E38, 369-393 LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 72-78
Martin, A. P., Cooper, A. F., & Dunlap, W. J. (2010). Geochronology of Mount Morning, Antarctica: two-phase evolution of a long-lived trachyte-basanite-phonolite eruptive center. Bulletin of Volcanology, 72(3), 357-371.
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, 562 pages.
  • Western Antarctica
Goldring, D. C. (1962). The geology of the Loubet Coast, Graham Land (Vol. 36). British Antarctic Survey. 1-50
Australia
 
  • New South Wales
    • Gordon Co.
Morris, C., Spandler, C. (2014) The Petrology, Geochemistry and Ore Genesis of the Alkaline REE Toongi Deposit, Dubbo NSW. in Geological Society of Australia, 2014 Australian Earth Sciences Convention (AESC), Sustainable Australia. Abstract No 110 of the 22nd Australian Geological Convention.
  • Queensland
    • Somerset Region
Carr, Phillips & Williams - Mineralogical Magazine 1976 40,853-6
  • Victoria
    • City of Greater Geelong
      • Anakie
Birch, W. D., Wood, A., White, A. J. R., Mills, S. J. and Freeman, R. (2008): Aegirine-augite crystals in scoria from Mt Shadwell and Mt Anakie, Victoria, Australia. Australian Journal of Mineralogy 14, 37-45.
Birch et al. (2008) Australian Journal of Mineralogy, 14(1), 37-42.
Judy Rowe Collection
    • Moyne Shire
      • Mortlake
Birch, W. D., Wood, A., White, A. J. R., Mills, S. J. and Freeman, R. (2008): Aegirine-augite crystals in scoria from Mt Shadwell and Mt Anakie, Victoria, Australia. Australian Journal of Mineralogy 14, 37-45.
Austria
 
  • Lower Austria
    • Waidhofen an der Thaya District
R. Exel: Die Mineralien und Erzlagerstätten Österreichs (1993)
R. Exel: Die Mineralien und Erzlagerstätten Österreichs (1993)
  • Tyrol
    • Innsbruck-Land District
      • Obernberg am Brenner
Kolitsch, U., Schachinger, T. & Auer, C. (2018): 2076) Aegirin, Aegirin-Augit, Albit, Baddeleyit, Baryt, Brandtit(?), Braunit, Calcit, Canosioit, Clinosuenoit (ehemals „Manganocummingtonit“), Coelestin, Diaspor, Dolomit, Fluorapatit (As-haltig), Fluorcalcioroméit, Gamagarit, Hämatit, Hausmannit, Hjalmarit, Hollandit, Hydroxycalcioroméit, Klinochlor, Kutnohorit, Mischkristalle Manganiandrosit-(La) - Manganiakasakait-(La), Nambulit, Phlogopit, Piemontit, Pyrobelonit, Sb-haltiger Pyrophanit, Quarz, Ranciéit(?), Rhodochrosit, Rhodonit, Richterit, Rutil, Spessartin, Talk, Thorit, Tremolit, Tilasit, Titanit, Tokyoit, Wakefieldit-(Ce), Wakefieldit-(Y), Zirkon, das Sb-Analogon von Hydroxymanganopyrochlor und unbenanntes LaAsO4 vom Obernberger Tribulaun, Nordtirol - ein erster Bericht über mineralogisch komplexe, linsenförmige metamorphe Manganvererzungen. Pp. 206-213 in Walter, F. et al. (2018): Neue Mineralfunde aus Österreich LXVII. Carinthia II, 208./128., 185-254.
Azerbaijan
 
  • Lerik District
  • Yardymli District
Gupta, A K (2015) Origin of Potassium-rich Silica-deficient Igneous Rocks. Springer India
Bolivia
 
  • Cochabamba
    • Capinota Province
Woolley, A.R. (1987) Alkaline rocks and carbonatites of the world. p 167.
Brazil
 
  • Bahia
    • Itarantim
Conceicao, Herbet, Rosa, Maria de Lourdes da Silva, Moura, Candido A. V., Macambira, Moacir Jose Buenano, Galaraza, Marco Antonio, Correia Rios, Debora, Marinho, Moacyr Moura, Menezes, Rita Cunha Leal, Cunha, Monica Prisgsheim, 2009, Petrology of the Neoproterozoic Itarantim Nepheline Syenite Batholith, Sao Francisco Craton, Bahia, Brazil, Canadian Mineralogist, v 47, p. 1527-1550.
Conceicao, Herbet, Rosa, Maria de Lourdes da Silva, Moura, Candido A. V., Macambira, Moacir Jose Buenano, Galaraza, Marco Antonio, Correia Rios, Debora, Marinho, Moacyr Moura, Menezes, Rita Cunha Leal, Cunha, Monica Prisgsheim, 2009, Petrology of the Neoproterozoic Itarantim Nepheline Syenite Batholith, Sao Francisco Craton, Bahia, Brazil, Canadian Mineralogist, v 47, p. 1527-1550.
  • Ceará
www.agp.org.br/acervo/geociencias/Guimaraes-Ignez2.htm.; Sial, A. N. (1987). The Tertiary alkaline province of Fortaleza, State of Ceará, Brazil: oxygene isotopes and REE-geochemistry. Geoch. Brasil, 1, 41-51.
  • Minas Gerais
    • Araxá
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.; Berger, V.I., Singer, D.A., and Orris, G.J., 2009, Carbonatites of the world, explored deposits of Nb and REE; database and grade and tonnage models: U.S. Geological Survey Open-File Report 2009-1139, 17 p. and database.
Revista Brasileira de Geociências 23(4):388-399; Ulbrich, M. N. (1993). Mineralogy of nepheline syenites from the Poços de Baldas Alkaline massif, se Brazil: chemistry, x-ray data and microtextures of feldspars. Brazilian Journal of Geology, 23(4), 388-399.
    • Serra do Salitre
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.; Berger, V.I., Singer, D.A., and Orris, G.J., 2009, Carbonatites of the world, explored deposits of Nb and REE; database and grade and tonnage models: U.S. Geological Survey Open-File Report 2009-1139, 17 p. and database.
    • Ubá
Pinto, C. P. (1996). Petrologia de gnaisses alcalinos da Serra da Mantiqueira em Minas Gerais, Brasil. Boletim IG-USP. Publicação Especial, (18), 21-23.
  • São Paulo
http://www.igc.usp.br/geologiausp/iga/art.php?artigo=7
    • Registro
Cambodia
 
  • Rattanakiri Province
Lacombe, P. (1969). Le massif basaltique quaternaire à zircons-gemmes de Ratanakiri (Cambodge Nord-oriental). Bull. Bur. Rech. Géol. Min., 3(1969), 31-91. Barr, S. M., & MacDonald, A. S. (1981). Geochemistry and geochronology of late Cenozoic basalts of Southeast Asia. Geological Society of America Bulletin, 92(8_Part_II), 1069-1142. Carbonnel, J. P., Duplaix, S., & Selo, M. (1972). La méthode des traces de fission de l’U apliquée á la géochronologic. Datation du magmatisme récente de I’Asie du Sud-Est. Rev. Géogr. Phys. Geolo. Dyn, 14, 29-46.
Cameroon
 
  • North Region
Ngounouno, I., Moreau, Ch., Deruelle, B., Demaiffe, D., Montigny, R. (2001): Petrologie du complexe alcalin sous-sature de Kokoumi (Cameroun). Bulletin de la Societe Geologique de France. 172 (6), 675-686.
  • South-West Region
    • Buea
      • Cameroon Mt
Fitton, G.J., Hughes D.J. (1981): Strontian melilite in a nephelinite lava from Etinde, Cameroon, Mineralogical Magazine, Vol. 44, pp. 261-264; 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.
  • South Region
    • Kribi
Cesbron et al. (1988)
Canada
 
  • British Columbia
    • Kamloops Mining Division
Berger, V.I., Singer, D.A., and Orris, G.J. (2009): USGS Open-File Report 09-1139
    • Liard Mining Division
Yagi, K., Souther, J. G. (1974): Aenigmatite from Mt. Edziza, British Columbia, Canada. American Mineralogist 59, 820-829
Neill, I. & Russel, J.K. (1983) Mineralogy and chemistry of the Rugged Mountain pluton: a melanite-bearing alkaline intrusion. British Columbia Geological Survey Paper 1993-1, 149-157.
  • Manitoba
www.koeln.netsurf.de/~w.steffens/can.htm.; Kyla M. Arden and Norman M. Halden (1999) Crystallization and alteration history of britholite in rare-earth-element-enriched pegmatitic segregations associated with the Eden Lake Complex, Manitoba, Canada Can Mineral, 37:1239-1253; Chakhmouradian, A.R.a; Mumin, A.H., Elliott, B.1 Demény, A., Martin, R., Halden, N.M., Ballantine, N.G. and Yang, P. (2006) Off-Craton Carbonatites At Eden Lake, Northern Manitoba: A Preliminary Report. in Geological Association of Canada, Program with Abstracts Volume 31
  • Newfoundland and Labrador
    • Labrador
E. H. Nickel and E. Mark (1965): Arfvedsonite and aegirine-augite from Seal Lake, Labrador. Can Mineral 8, 185-197.; Nickel, E.H., J.F. Rowland, and D.J. Charette (1964) Niobophyllite - the niobium analogue of astrophyllite; a new mineral from Seal Lake, Labrador. Can. Mineral., 8, 40-52.
Cámara, F., Sokolova, E., Hawthorne, F. C., Rowe, R., Grice, J. D., & Tait, K. T. (2013). Veblenite, K2〈 2Na (Fe2+ 5Fe3+ 4Mn2+ 7〈) Nb3Ti (Si2O7) 2 (Si8O22) 2O6 (OH) 10 (H2O) 3, a new mineral from Seal Lake, Newfoundland and Labrador: mineral description, crystal structure, and a new veblenite Si8O22 ribbon. Mineralogical Magazine, 77(7), 2955-2974.
KLEIN, C. (1966): Mineralogy and petrology of the metamorphosed Wabush iron formation, southwest Labrador. Journal of Petrology 7, 246-305.
  • Northwest Territories
    • Great Slave Lake
Badham, J. P. N. and Muda, M. M. Z, 1980, Mineralogy and Paragenesis of Hydrothermal Mineralizations in the East Arm of Great Slave Lake, Economic Geology, 75:1220-1238.
  • Nunavut
    • Qikiqtaaluk Region
      • Baffin Island
Hogarth (1997) Canadian Mineralogist 35, 53-78.
  • Ontario
    • Algoma District
      • Finan Township
SAGE, R.P. (1993) Geology of the Herman Lake alkalic rock complex, District of Algoma. Ontario Geological Survey open File Report 5421, 80p.
      • McMurray Township
Sage (1988) Ont. Geol. Survey Study 47.
    • Kenora District
Sage, R.P. (1983) Geology of the Schryburt Lake Carbonatite Complex. Ontario Geological Survey Open File Report 5413, 114 p.
Sage (1988) Am. Min. 59, 820
    • Peterborough County
      • Methuen Township
McLEMORE, V. T. (2006). Nepheline Syenite. Industrial Mineral and Rocks, 7th Edition, Kogel, JE, Trivedi, NC, Barker, JM and Krukowsk, ST (Seniors Editors), Society of Mining, Metallurgy, and Exploration, Inc. Littleton, Colorado, 653-670.
    • Sudbury District
      • Lackner Township
R. P. Sage (1988) Geology of Carbonatite - Alkalic Rock Complexes in Ontario: Lackner Lake Alkalic Rock Complex District of Sudbury. Mines and Minerals Division Ontario Geological Survey Study 32
Berger, V.I., Singer, D.A., and Orris, G.J. (2009): USGS Open-File Report 09-1139
  • Québec
    • Gaspésie-Îles-de-la-Madeleine
      • La Haute-Gaspésie RCM
Wallace, G.M., Whalen, J.B. & Martin, R.F. (1990) Agpaitic and miaskitic nepheline syenites of the McGerrigle plutonic complex, Gaspé, Quebec. Canadian Mineralogist 28, 251-266.
    • Laurentides
      • Deux-Montagnes RCM
        • Oka
GOLD, D.P., EBY, G.N. & VALLEÉ, M. (1986) Carbonatites, diatremes and ultra-alkaline rocks in the Oka area. Fieldtrip guidebook 21, GAC/MAC Meeting, Ottawa, 51p.
GOLD, D.P. (1972): The Monteregian Hills: ultra-alkaline rocks and the Oka carbonatite complex. 24th International Geological Congress (Montreal), Guidebook B-11.
    • Montérégie
      • Brome-Missisquoi RCM
WOUSSEN,G. & VALIQUETTE, G. (1972) The geology of the Brome and Shefford igneous complexes. 24th International Geological Congress, Canada. Guide B-13: 1-15.
DRESSER, J.A. (1902) Report on the geology and petrography of Shefford Mountain. Geological Survey of Canada, Annual Report 13, L: 1-35.
      • La Vallée-du-Richelieu RCM
        • Mont Saint-Hilaire
PIILONEN, P.C., McDONALD, A.M., and LALONDE, A.E. (1998) The crystal chemistry of aegirine from Mont Saint-Hilaire, Quebec. Canadian Mineralogist, 36, 779-791.
    • Nord-du-Québec
Nadeau, O., Stevenson, R. and Jébrak, M. (2014) The geology, petrology and geochemistry of the Montviel alkaline-carbonatite hosted lanthanide-Nb ore deposit, Abitibi, Canada. Abstract with Program, GAC/MAC Annual meeting 2014. 1p.
  • Yukon
    • Dawson mining district
Olade, M.A., Goodfellow, W.D. (1979). Lithogeochemistry and hydrogeochemistry of uranium and associated elements in the Tombstone Batholith, Yukon, Canada. In Geochemical Exploration 1978, Proceedings of the Seventh International Geochemical Exploration Symposium, J.R. Watterson, P.K. Theobald (ed.), Association of Exploration Geochemists, p. 407-428.
Cape Verde
 
  • Barlavento Islands
De Ignacio, C., Muñoz, M., & Sagredo, J. (2012). Carbonatites and associated nephelinites from Sao Vicente, Cape Verde Islands. Mineralogical magazine, 76(2), 311-355.
Chile
 
  • Magallanes
    • Magallanes Province
Alan R. Woolley: Alkaline Rocks and Carbonatites of the World, part 1, 200 (BMNH, London, 1987)
Alan R. Woolley (1987) Alkaline Rocks and Carbonatites of the World, part 1, 200 (BMNH, London)
China
 
  • Anhui
    • Anqing
      • Qianshan City
Eur. J. Mineral. , 1995, 7, pp. 119-138.
    • Tongling
      • Zongyang County
        • Dalongshan-Zongyang massif
Wang, Q., Zhao, Z. H., Jian, P., Xiong, X. L., Bao, Z. W., Dai, T. M., ... & Ma, J. L. (2005). Geochronology of Cretaceous, A-type granitoids or alkaline intrusive rocks in the hinterland, South China: constraints for late-Mesozoic tectonic evolution. Acta Petrologica Sinica, 21(3), 795-808.
  • Fujian
    • Sanming
      • Mingxi County
Qiang Wang, Zhenhua Zhao, Ping Jian, Zhiwei Bao, Xiaolin Xiong and Jinlong Ma (2003): Chinese Science Bulletin 48(20), 2241-2247
  • Gansu
    • Wuwei
      • Tianzhu Co.
Zhi Ma, Yaoyu Chen, and Xin Zhong (2006): Gansu Science and Technology 22(12), 96-98
  • Guangdong
    • Foshan
      • Nanhai District
Zhou, H., Xiao, L., Dong, Y., Wang, C., Wang, F., & Ni, P. (2009). Geochemical and geochronological study of the Sanshui basin bimodal volcanic rock suite, China: implications for basin dynamics in southeastern China. Journal of Asian Earth Sciences, 34(2), 178-189.
    • Guangzhou
      • Conghua Co.
Changshi Liu, Xiaoming Chen, Rucheng Wang, Huan Hu, Wenlan Zhang, and Mingyuan Lai (2002): Acta Mineralogica Sinica 22(3), 261-269
    • Qingyuan
      • Fogang County
He, Z. Y., & Xu, X. S. (2012). Petrogenesis of the Late Yanshanian mantle-derived intrusions in southeastern China: response to the geodynamics of paleo-Pacific plate subduction. Chemical Geology, 328, 208-221. Liu, C., Chen, X., Wang, R., Hu, H. & Wang, D. 2003. Characteristics and origin of the Shilling sodalite syenite, Conghua City, Guangdong Province. Geological Review, 49, 28-39. Wang, Q., Zhao, Z. H., Jian, P., Xiong, X. L., Bao, Z. W., Dai, T. M., ... & Ma, J. L. (2005). Geochronology of Cretaceous, A-type granitoids or alkaline intrusive rocks in the hinterland, South China: constraints for late-Mesozoic tectonic evolution. Acta Petrologica Sinica, 21(3), 795-808.
  • Hebei
    • Chengde
      • Chengde County
        • Qiancengbei-Wulingshan Complex
Yang, J. H., Wu, F. Y., Wilde, S. A., Chen, F., Liu, X. M., & Xie, L. W. (2008). Petrogenesis of an alkali syenite–granite–rhyolite suite in the Yanshan Fold and Thrust Belt, Eastern North China Craton: geochronological, geochemical and Nd–Sr–Hf isotopic evidence for lithospheric thinning. Journal of Petrology, 49(2), 315-351.
    • Handan
      • Congtai District
Shixin Yao, Liangshi Wu, and Rongfu Pei (1993): Geology and Prospecting 29(5), 11-16
    • Qinhuangdao
      • Beidaihe District
Jinhui Yang, Fuyuan Wu, Wilde, S.A., Fukun Chen, Xiaoming Liu, and Liewen Xie (2008): Journal of Petrology 49(2), 315-351; Yang, J. H., Wu, F. Y., Wilde, S. A., Chen, F., Liu, X. M., & Xie, L. W. (2008). Petrogenesis of an alkali syenite–granite–rhyolite suite in the Yanshan Fold and Thrust Belt, Eastern North China Craton: geochronological, geochemical and Nd–Sr–Hf isotopic evidence for lithospheric thinning. Journal of Petrology, 49(2), 315-351.
      • Shanhaiguan District
Wei, C. S., Zhao, Z. F., & Spicuzza, M. J. (2008). Zircon oxygen isotopic constraint on the sources of late Mesozoic A-type granites in eastern China. Chemical Geology, 250(1-4), 1-15. Yang, J. H., Wu, F. Y., Wilde, S. A., Chen, F., Liu, X. M., & Xie, L. W. (2008). Petrogenesis of an alkali syenite–granite–rhyolite suite in the Yanshan Fold and Thrust Belt, Eastern North China Craton: geochronological, geochemical and Nd–Sr–Hf isotopic evidence for lithospheric thinning. Journal of Petrology, 49(2), 315-351.
    • Zhangjiakou
      • Chongli District
Jiang, N. (2005). Petrology and geochemistry of the Shuiquangou syenitic complex, northern margin of the North China Craton. Journal of the Geological Society, 162(1), 203-215.
      • Huai'an County
Feng-Jun, N., & Wu Cheng-Yu, W. (1998). Gold deposits related to alkaline igneous rocks in North China craton, People's Republic of China. Global Tectonics and Metallogeny, 159-172.
      • Yangyuan County
MOU, B., & YAN, G. (1992). Geological features of Triassic alkaline and subalkaline igneous complexes in the Yan-Liao area. ACTA GEOLOGICA SINICA-ENGLISH EDITION, 5(4), 339-355. Wu, L.R. (ed) The Studies of Alkaline Rocks from Several regions in China. Science Press, Beijing, 160. Feng-Jun, N., & Wu Cheng-Yu, W. (1998). Gold deposits related to alkaline igneous rocks in North China craton, People's Republic of China. Global Tectonics and Metallogeny, 159-172.
  • Heilongjiang
    • Harbin
      • Shangzhi City
Wu, F. Y., Sun, D. Y., Li, H., Jahn, B. M., & Wilde, S. (2002). A-type granites in northeastern China: age and geochemical constraints on their petrogenesis. Chemical Geology, 187(1-2), 143-173.
      • Tonghe County
Wu, F. Y., Sun, D. Y., Li, H., Jahn, B. M., & Wilde, S. (2002). A-type granites in northeastern China: age and geochemical constraints on their petrogenesis. Chemical Geology, 187(1-2), 143-173.
  • Henan
    • Luoyang
      • Luanchuan County
Bao, Z., Wang, Q., & Du, F. (2011). Geochemistry and geodynamic significance of the rare-earth mineralized Paleoproterozoic Longwangzhuang granite on the southern margin of the North China Craton. Chinese Journal of Geochemistry, 30(2), 270-279. Xinxiang, L. (1989). The geological characteristics of Longwangzhuuang A-type granite and its significance [J]. Acta Petrologica Sinica, 1, 67-77. Wang, X. L., Jiang, S. Y., Dai, B. Z., & Kern, J. (2013). Lithospheric thinning and reworking of Late Archean juvenile crust on the southern margin of the North China Craton: evidence from the Longwangzhuang Paleoproterozoic A‐type granites and their surrounding Cretaceous adakite‐like granites. Geological Journal, 48(5), 498-515.
    • Nanyang
      • Fangcheng County
Bao, Z., Wang, Q., Bai, G., Zhao, Z., Song, Y., & Liu, X. (2008). Geochronology and geochemistry of the Fangcheng Neoproterozoic alkali-syenites in East Qinling orogen and its geodynamic implications. Chinese Science Bulletin, 53(13), 2050-2061.
  • Inner Mongolia
    • Baotou City (Baotou Prefecture)
      • Bayan Obo mining district
        • Bayan Obo
Qingchang Meng (1981): Geology and Prospecting 17(3), 10-17
      • Binhe New District
        • Wulashan mining district
Nie, F. J. (1995). Gold deposits related to alkaline igneous rocks in the North China Craton, People's Republic of China. in Mineral Deposits: From Their Origin to Their Environmental Impacts. Proc. 3rd Biennial SGA Meet., Prague, 173-176.
    • Hohhot City (Huhehaote Prefecture)
      • Wuchuan County
Nie, F. J. (1995). Gold deposits related to alkaline igneous rocks in the North China Craton, People's Republic of China. in Mineral Deposits: From Their Origin to Their Environmental Impacts. Proc. 3rd Biennial SGA Meet., Prague, 173-176.
    • Ordos City (E'erduosi Prefecture)
      • Otog Banner
Niu, X., Yang, J., Liu, F., Zhang, H., & Yang, M. (2016). Origin of Baotoudong syenites in North China Craton: petrological, mineralogical and geochemical evidence. Science China Earth Sciences, 59(1), 95-110. Yan, G., Mu, B., Xu, B., He, G., Tan, L., Zhao, H., ... & Qiao, G. (1999). Triassic alkaline intrusives in the Yanliao-Yinshan area: their chronology, Sr, Nd and Pb isotopic characteristics and their implication. Science in China Series D: Earth Sciences, 42(6), 582-587.
    • Tongliao City (Tongliao Prefecture)
      • Horqin District (Ke'erqin District)
Ogura, T. (1969). Volcanoes in Manchuria. Geology and Mineralogy of the Far East. University of Tokio Press, Tokyo, 2, 373-413. Gupta, A.K. & Yagi, K. 1980. Petrology and Genesis of Leucite-Bearing Rocks, Springerm Berlin.
      • Jarud Banner (Zalute Co.)
        • Baerzhe complex
Wubin Yang, Qiang Shan, Zhenhua Zhao, Yong Luo, Xueyuan Yu, Ningbo Li, and Hecai Niu (2011): Journal of Jilin University (Earth Science Edition) 41(6), 1689-1704
    • Ulanqab City (Wulanchabu Prefecture)
      • Chahar Right Back Banner (Chaha'er Youyi Houqi)
Zhang, X., Zhang, H., Jiang, N., Zhai, M., & Zhang, Y. (2010). Early Devonian alkaline intrusive complex from the northern North China craton: a petrological monitor of post-collisional tectonics. Journal of the Geological Society, 167(4), 717-730.
      • Liangcheng County
Feng-Jun, N., & Wu Cheng-Yu, W. (1998). Gold deposits related to alkaline igneous rocks in North China craton, People's Republic of China. Global Tectonics and Metallogeny, 159-172. Yan, G., Mu, B., Xu, B., He, G., Tan, L., Zhao, H., ... & Qiao, G. (1999). Triassic alkaline intrusives in the Yanliao-Yinshan area: their chronology, Sr, Nd and Pb isotopic characteristics and their implication. Science in China Series D: Earth Sciences, 42(6), 582-587.
  • Jiangsu
    • Lianyungang
      • Donghai Co.
Hirajima, T., Zhang, R., Li, J., and Cong, B. (1992): Mineralogical Magazine 56(1), 37-46.
  • Liaoning
    • Chaoyang
      • Lingyuan City
Zhitong, L., Changtao, Y., Delin, C., Qingbang, P., & Shulan, T. (1986). Geological characteristics of the Hekanzi alkaline complex in Lingyuan County of LiaoningProvince [J]. Bull. Shenyang Inst. Geol. Min. Res., Chinese Acad. Geol. Sci, 14, 43-64. MOU, B., & YAN, G. (1992). Geological features of Triassic alkaline and subalkaline igneous complexes in the Yan-Liao area. ACTA GEOLOGICA SINICA-ENGLISH EDITION, 5(4), 339-355. Yang, J. H., Sun, J. F., Zhang, M., Wu, F. Y., & Wilde, S. A. (2012). Petrogenesis of silica-saturated and silica-undersaturated syenites in the northern North China Craton related to post-collisional and intraplate extension. Chemical Geology, 328, 149-167.
    • Dandong
      • Kuandian County
        • Saima complex
Saima Deposit Research Group, Beijing Institute of Uranium Geology (1978): Scientia Sinica 11(3), 365-389
  • Shaanxi
    • Weinan
      • Huayin City
National Geological Archives of China database, record no. X00049405; Yan, J., Pan, J. Y., & Kang, Q. Q. (2018). Geological and Geochemical Characteristics of the Huayangchuan U-Nb-Pb Deposit, Shan'Xi, China (No. IAEA-CN--261).
  • Shandong
    • Jining
      • Weishan County
Wu, C., Yuan, Z., and Bai, G. (1996): Rare earth deposits in China. In: Jones, A.P., Wall, F., and Williams, C.T. (Eds.): Rare Earth Minerals: Chemistry, origin and ore deposits. The Mineralogical Society Series, Vol. 7. Chapman & Hall (London).; Jingxiang, T., Ritian, Z., Yuechun, F., Xiuzhang, L., Hongyan, X., & Bingying, W. (2002). Geological characteristics and relation with rare earth elements of alkalic complex in Chishan of Shandong Province. Land Resour Shandong Province, 18(1), 21-25.
    • Laiwu
      • Gangcheng District
Ying, J., Zhou, X., & Zhang, H. (2004). Geochemical and isotopic investigation of the Laiwu–Zibo carbonatites from western Shandong Province, China, and implications for their petrogenesis and enriched mantle source. Lithos, 75(3-4), 413-426.
    • Linyi
      • Lanling County
Lan, T. G., Fan, H. R., Hu, F. F., Tomkins, A. G., Yang, K. F., & Liu, Y. (2011). Multiple crust–mantle interactions for the destruction of the North China Craton: geochemical and Sr–Nd–Pb–Hf isotopic evidence from the Longbaoshan alkaline complex. Lithos, 122(1-2), 87-106. Zhang, H. F., Sun, M., Zhou, X. H., & Ying, J. F. (2005). Geochemical constraints on the origin of Mesozoic alkaline intrusive complexes from the North China Craton and tectonic implications. Lithos, 81(1-4), 297-317.
  • Shanxi
    • Datong
      • Tianzhen County
Yan, G., Mu, B., Xu, B., He, G., Tan, L., Zhao, H., ... & Qiao, G. (1999). Triassic alkaline intrusives in the Yanliao-Yinshan area: their chronology, Sr, Nd and Pb isotopic characteristics and their implication. Science in China Series D: Earth Sciences, 42(6), 582-587.
    • Lüliang
      • Xing County
Ying, J., Zhang, H., Sun, M., Tang, Y., Zhou, X., & Liu, X. (2007). Petrology and geochemistry of Zijinshan alkaline intrusive complex in Shanxi Province, western North China Craton: implication for magma mixing of different sources in an extensional regime. Lithos, 98(1-4), 45-66. Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575.
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189, 174 pp.
  • Sichuan
    • Liangshan
      • Dechang County
Xiaoyu Li (2005): Mineral Deposits 24(2), 151-160; Zengqian Hou, Shihong Tian, Yuling Xie, Zhusen Yang, Zhongxin Yuan, Shuping Yin, Longsheng Yi, Hongcai Fei, Tianren Zou, Ge Bai, and Xiaoyu Li (2009): Ore Geology Reviews (in press)
      • Mianning County
Zengqian Hou, Shihong Tian, Yuling Xie, Zhusen Yang, Zhongxin Yuan, Shuping Yin, Longsheng Yi, Hongcai Fei, Tianren Zou, Ge Bai, and Xiaoyu Li (2009): Ore Geology Reviews (in press)
Congde Chen and Guangping Pu (1991): Geology and Prospecting 27(5), 18-23; Zhongxin Yuan and Ge Bai (1997): Geology and Prospecting 33(1), 42-48; Cheng Xu, Zhilong Huang, Liang Qi, Huayun Xiao, Wenbo Li, and Congqiang Liu (2001): Geology and Prospecting 37(5), 24-28
Zhang, M., Suddaby, P., Thompson, R. N., Thirlwall, M. F., & Menzies, M. A. (1995). Potassic volcanic rocks in NE China: geochemical constraints on mantle source and magma genesis. Journal of Petrology, 36(5), 1275-1303. Zhang, Y., Luo, Y., & Yang, C. (Eds.). (1990). Panxi Rift and its geodynamics. Geological Publishing House.
Shihong Tian, Guilan Zhang, Zengqian Hou, Tiping Ding, Yuling Xie, Zhongxin Yuan, Ge Bai, and Tianren Zou (2005): Mineral Deposits 24(6), 647-655; Shihong Tian, Zhongxin Yuan, Guilan Zhang, Zengqian Hou, Tiping Ding, Ge Bai, Tianren Zou, and Yuling Xie (2006): Acta Petrologica et Mineralogica 25(2), 110-118; Yuling Xie, Shihong Tian, Jiuhua Xu, Longsheng Yi, and Shuping Yin (2006): Mineral Deposits 25(suppl.), 197-200
      • Puge County
Zhang, Y., Luo, Y., & Yang, C. (Eds.). (1990). Panxi Rift and its geodynamics. Geological Publishing House.
      • Xichang County
Shellnutt, J. G., Jahn, B. M., & Dostal, J. (2010). Elemental and Sr–Nd isotope geochemistry of microgranular enclaves from peralkaline A-type granitic plutons of the Emeishan large igneous province, SW China. Lithos, 119(1-2), 34-46. Shellnutt, J. G., & Iizuka, Y. (2011). Mineralogy from three peralkaline granitic plutons of the Late Permian Emeishan large igneous province (SW China): evidence for contrasting magmatic conditions of A-type granitoids. European Journal of Mineralogy, 23(1), 45-61.
Rubo Zhang, Chongliang Du, and Zaoyun Long (2003): Journal of Mineralogy and Petrology 24(3), 5-8
    • Panzhihua
      • Dong District
Shellnutt, J. G., & Iizuka, Y. (2011). Mineralogy from three peralkaline granitic plutons of the Late Permian Emeishan large igneous province (SW China): evidence for contrasting magmatic conditions of A-type granitoids. European Journal of Mineralogy, 23(1), 45-61. Shellnutt, J. G., & Jahn, B. M. (2010). Formation of the Late Permian Panzhihua plutonic-hypabyssal-volcanic igneous complex: implications for the genesis of Fe–Ti oxide deposits and A-type granites of SW China. Earth and Planetary Science Letters, 289(3-4), 509-519. Shellnutt, J. G., & Zhou, M. F. (2007). Permian peralkaline, peraluminous and metaluminous A-type granites in the Panxi district, SW China: their relationship to the Emeishan mantle plume. Chemical Geology, 243(3-4), 286-316. Zhang, Y., Luo, Y., & Yang, C. (Eds.). (1990). Panxi Rift and its geodynamics. Geological Publishing House. Zhong, H., Zhu, W. G., Hu, R. Z., Xie, L. W., He, D. F., Liu, F., & Chu, Z. Y. (2009). Zircon U–Pb age and Sr–Nd–Hf isotope geochemistry of the Panzhihua A-type syenitic intrusion in the Emeishan large igneous province, southwest China and implications for growth of juvenile crust. Lithos, 110(1-4), 109-128. Zhong, H., Campbell, I. H., Zhu, W. G., Allen, C. M., Hu, R. Z., Xie, L. W., & He, D. F. (2011). Timing and source constraints on the relationship between mafic and felsic intrusions in the Emeishan large igneous province. Geochimica et Cosmochimica Acta, 75(5), 1374-1395. Zhou, M. F., Robinson, P. T., Lesher, C. M., Keays, R. R., Zhang, C. J., & Malpas, J. (2005). Geochemistry, petrogenesis and metallogenesis of the Panzhihua gabbroic layered intrusion and associated Fe–Ti–V oxide deposits, Sichuan Province, SW China. Journal of Petrology, 46(11), 2253-2280.; Shellnutt, J. G., & Iizuka, Y. (2011). Mineralogy from three peralkaline granitic plutons of the Late Permian Emeishan large igneous province (SW China): evidence for contrasting magmatic conditions of A-type granitoids. European Journal of Mineralogy, 23(1), 45-61. Shellnutt, J. G., & Jahn, B. M. (2010). Formation of the Late Permian Panzhihua plutonic-hypabyssal-volcanic igneous complex: implications for the genesis of Fe–Ti oxide deposits and A-type granites of SW China. Earth and Planetary Science Letters, 289(3-4), 509-519. Shellnutt, J. G., & Zhou, M. F. (2007). Permian peralkaline, peraluminous and metaluminous A-type granites in the Panxi district, SW China: their relationship to the Emeishan mantle plume. Chemical Geology, 243(3-4), 286-316. Zhang, Y., Luo, Y., & Yang, C. (Eds.). (1990). Panxi Rift and its geodynamics. Geological Publishing House. Zhong, H., Zhu, W. G., Hu, R. Z., Xie, L. W., He, D. F., Liu, F., & Chu, Z. Y. (2009). Zircon U–Pb age and Sr–Nd–Hf isotope geochemistry of the Panzhihua A-type syenitic intrusion in the Emeishan large igneous province, southwest China and implications for growth of juvenile crust. Lithos, 110(1-4), 109-128. Zhong, H., Campbell, I. H., Zhu, W. G., Allen, C. M., Hu, R. Z., Xie, L. W., & He, D. F. (2011). Timing and source constraints on the relationship between mafic and felsic intrusions in the Emeishan large igneous province. Geochimica et Cosmochimica Acta, 75(5), 1374-1395. Zhou, M. F., Robinson, P. T., Lesher, C. M., Keays, R. R., Zhang, C. J., & Malpas, J. (2005). Geochemistry, petrogenesis and metallogenesis of the Panzhihua gabbroic layered intrusion and associated Fe–Ti–V oxide deposits, Sichuan Province, SW China. Journal of Petrology, 46(11), 2253-2280.
      • Miyi County
Shellnutt, J. G., Zhou, M. F., & Zellmer, G. F. (2009). The role of Fe–Ti oxide crystallization in the formation of A-type granitoids with implications for the Daly gap: an example from the Permian Baima igneous complex, SW China. Chemical Geology, 259(3-4), 204-217. Shellnutt, J. G., Wang, C. Y., Zhou, M. F., & Yang, Y. (2009). Zircon Lu–Hf isotopic compositions of metaluminous and peralkaline A-type granitic plutons of the Emeishan large igneous province (SW China): constraints on the mantle source. Journal of Asian Earth Sciences, 35(1), 45-55. Zhong, H., Campbell, I. H., Zhu, W. G., Allen, C. M., Hu, R. Z., Xie, L. W., & He, D. F. (2011). Timing and source constraints on the relationship between mafic and felsic intrusions in the Emeishan large igneous province. Geochimica et Cosmochimica Acta, 75(5), 1374-1395. Zhong, H., Zhu, W. G., Chu, Z. Y., He, D. F., & Song, X. Y. (2007). SHRIMP U–Pb zircon geochronology, geochemistry, and Nd–Sr isotopic study of contrasting granites in the Emeishan large igneous province, SW China. Chemical Geology, 236(1-2), 112-133. Shellnutt, J. G., Jahn, B. M., & Dostal, J. (2010). Elemental and Sr–Nd isotope geochemistry of microgranular enclaves from peralkaline A-type granitic plutons of the Emeishan large igneous province, SW China. Lithos, 119(1-2), 34-46.
Zhang, Y., Luo, Y., & Yang, C. (Eds.). (1990). Panxi Rift and its geodynamics. Geological Publishing House.
  • Tibet
    • Nagchu Prefecture (Naqu Prefecture)
      • Nyima Co. (Nima Co.)
Siping Liao, Zhenhua Chen, Xiaochuan Luo, and Aijian Zhou (2002): Geological Bulletin of China 21(11), 735-738
  • Xinjiang
    • Akesu Prefecture (Aksu Prefecture; Aqsu Prefecture)
      • Baicheng Co. (Bay Co.)
Yanling Tang (2005): Non-metallic deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp.
    • Kashi Prefecture (Kashgar Prefecture; Qeshqer Prefecture)
      • Bachu Co. (Maralbexi Co.; Maralbeshi Co.)
Bai, G. (1985). Carbonatites and related mineral resources. Bull. Inst. Miner. Deposits Chin. Acad. Geol. Sci., 13, 107-140. Cao, J., Wang, C. Y., Xing, C. M., & Xu, Y. G. (2014). Origin of the early Permian Wajilitag igneous complex and associated Fe–Ti oxide mineralization in the Tarim large igneous province, NW China. Journal of Asian Earth Sciences, 84, 51-68. Cheng, Z., Zhang, Z., Hou, T., Santosh, M., Zhang, D., & Ke, S. (2015). Petrogenesis of nephelinites from the Tarim Large Igneous Province, NW China: Implications for mantle source characteristics and plume–lithosphere interaction. Lithos, 220, 164-178. Li, C. N., Lu, F. X., & Chen, M. H. (2001). Research on petrology of the Wajilitag complex body in north edge in the Tarim Basin. Xinjiang Geology, 19(1), 38-43. Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575.
Yanling Tang (2005): Non-metallic deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp.
      • Tashiku'ergan Co. (Taxkorgan Co.; Tashqurqan Co.)
Pognante, U. (1991). Shoshonitic and ultrapotassic post-collisional dykes from northern Karakorum (Sinkiang, China). Lithos, 26(3-4), 305-316.
    • Kezilesu Autonomous Prefecture (Kizilsu Autonomous Prefecture; Qizilsu Autonomous Prefecture)
Fuwen, C., Huaqin, L., & Yuanfa, L. (2002). Temporo‐spatial distribution of rare metal and REE deposits in Xinjiang, Northwest China. Acta Geologica Sinica‐English Edition, 76(4), 478-487.
    • Yili Hasake Autonomous Prefecture (Ili Kazakh Autonomous Prefecture)
      • Tacheng Prefecture (Tarbaghatay Prefecture)
Chen, J. F., Han, B. F., Ji, J. Q., Zhang, L., Xu, Z., He, G. Q., & Wang, T. (2010). Zircon U–Pb ages and tectonic implications of Paleozoic plutons in northern West Junggar, North Xinjiang, China. Lithos, 115(1-4), 137-152.
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.36
  • Yunnan
    • Chuxiong
      • Wuding County
        • Luoci Cu ore field
Yongbei Zhang, Shihua Sun, Chengyan Xu, Hao Wang, Chongsun Zhao, and Zhihua Zhu (2003): Resource Geology 53(4), 261-272.
    • Dali
Le Maitre, R. W., Streckeisen, A., Zanettin, B., LeBase, M. J., Bonin, B., Batemen, P., ... & Lameyre, J. 2002, Igneous rocks: A classification and glossary of Terms. Xu, X. W., Zhang, B. L., Qin, K. Z., Mao, Q., & Cai, X. P. (2007). Origin of lamprophyres by the mixing of basic and alkaline melts in magma chamber in Beiya area, western Yunnan, China. Lithos, 99(3-4), 339-362.
      • Heqing County
Xianfan Liu, Xiangfeng Song, Qiuxia Lu, Zhuan Tao, Xunrong Long, and Fufeng Zhao (2009): Acta Geologica Sinica, English Edition 83(2), 258–265
    • Honghe
      • Gejiu City
Baiyou Chen, Yuru Yu, and Hongfei Jiang (2002): Mineral Deposits 21(suppl.), 901-905
  • Zhejiang
    • Hangzhou
      • Chun'an County
Letian Du and Wenguang Wang (2012): Geological Review 58(6), 1017-1022; Letian Du and Wenguang Wang (2014): Earth Science Frontiers 21(1), 177-182
    • Jinhua
      • Dongyang City
Mao, J., Ye, H., Liu, K., Li, Z., Takahashi, Y., Zhao, X., & Kee, W. S. (2013). The Indosinian collision–extension event between the South China Block and the Palaeo-Pacific plate: evidence from Indosinian alkaline granitic rocks in Dashuang, eastern Zhejiang, South China. Lithos, 172, 81-97.
Czech Republic
 
  • Central Bohemian Region
    • Kutná Hora District
    • Rakovník District
      • Čistá
Bernard J. H. et al. (1981): Mineralogie Československa. Academia, Praha. (pages 90-91)
  • Karlovy Vary Region
    • Cheb District
      • 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.
  • Vysočina Region
    • Havlíčkův Brod District
      • Golčův Jeníkov
        • Borek
Denmark
 
  • Greenland
    • Kujalleq
      • Igaliku Complex
Coulson, I. M. (2003). Evolution of the North Qôroq centre nepheline syenites, South Greenland: alkali-mafic silicates and the role of metasomatism. Mineralogical Magazine, 67(5), 873-892.
      • Narsaq
Petersen, O.V. (2001): List of all minerals identified in the Ilímaussaq alkaline complex, South Greenland. Geology of Greenland Survey Bulletin. 190, 25-33
        • Nunarssuit Island
http://www.koeln.netsurf.de/~w.steffens/green.htm
Marks,M., Vennemann, T., Siebel, W. & Markl, G.(2003): Quantification of Magmatic and Hydrothermal Processes in a Peralkaline Syenite-Alkali Granite Complex Based on Textures, Phase Equilibria, and Stable and Radiogenic Isotopes. Journal of Petrology. 44:1247-1280
        • Quagdlimiut
http://www.koeln.netsurf.de/~w.steffens/green.htm
    • Sermersooq
      • Blosseville Coast
http://www.koeln.netsurf.de/~w.steffens/green.htm
Halama, R., Vennemanz, T. Siebel, W. & Markl, G. (2005): The Grønnedal-Ika Carbonatite–Syenite Complex, South Greenland: Carbonatite Formation by Liquid Immiscibility. Journal of Petrology. 46, 191–217; Marks, M., Halama, R., Wenzel, T., & Markl, G. (2004). Trace element variations in clinopyroxene and amphibole from alkaline to peralkaline syenites and granites: implications for mineral–melt trace-element partitioning. Chemical Geology, 211(3), 185-215.; Pearce, N. J. G., Leng, M. J., Emeleus, C. H., & Bedford, C. M. (1997). The origins of carbonatites and related rocks from the Gronnedal-Ika nepheline syenite complex, South Greenland; CO-Sr isotope evidence. Mineralogical Magazine, 61(4), 515-529.
http://www.koeln.netsurf.de/~w.steffens/green.htm
Woolley, A.R.: Alkaline Rocks and Carbonatites of the World. Part 1: North and South America. British Museum (Natural History), London, 1987 [cited in http://www.koeln.netsurf.de/~w.steffens/green.htm]
      • Kialineq Bay
http://www.koeln.netsurf.de/~w.steffens/green.htm
http://www.koeln.netsurf.de/~w.steffens/green.htm
Christiansen, C. C., Gault, R. A., Grice, J. D., Johnsen, O. (2003): Kochite, a new member of the rosenbuschite group from the Werner Bjerge alkaline complex, East Greenland. European Journal of Mineralogy. 15, 551-554
Ecuador
 
  • Napo Province
Bourdon, E., Eissen, J.P., Gutscher, M.A., Monzier, M., Hall, M.L., Cotten, J. (2003) Magmatic response to early aseismic ridge subduction: the Ecuadorian margin case (South America). Earth and Planetary Science Letters, 205:3-4, 123-138.
Egypt
 
  • New Valley
    • Lake Nasser
Hassan, K.M. (2018): Trace elements and REE enrichment at Seboah Hill, SW Egypt. Mineralogia 49, 47-65.
  • Red Sea
    • Eastern Desert
OBEID, M.A. & LALONDE, A.E. (2013) The geochemistry and petrogenesis of the late Cretaceous Abu Khurug Alkaline complex, Eastern Desert, Egypt. Canadian Mineralogist 51, 537-558.; Abouzeid, A. Z. M., & Negm, A. T. A. (2014). Characterization and Beneficiation of an Egyptian Nepheline Syenite Ore. International Journal of Mineralogy, 2014.
Europe
 
www.bgd.bg/summanual_2003_2.htm.
Finland
 
  • Lapland
    • Savukoski
      • Tulppio
Vartiainen, H.& Woolley, A. R. 1976. The petrography, mineralogy and chemistry of the fenites of the Sokli Carbonatite massif, northern Finland. Geological Survey of Finland, Bulletin 313, 62-80.
  • North Ostrobothnia
    • Kuusamo
France
 
  • Auvergne-Rhône-Alpes
    • Cantal
      • Menet
J. Aubouin, R. Brousse, J.P. Lehman : "Précis de Géologie", Dunod, 1967
Robin Fialip 2013
    • Haute-Loire
      • Le Puy-en-Velay
        • Espaly-Saint-Marcel
De Ascençaõ Guedes R, Médard E, Mergoil J (2005) Minéralogie des volcans du mont Denise, Espaly-Saint-Marcel, Haute Loire. Le Règne Minéral 62: 9-22.
  • French Polynesia
    • Marquesas Islands
Brousse R., Maury R.C. (1978): Minéralogie d'une phonolite à grenat de l'île de Ua Pou (Marquises, Pacifique central). Bulletin de Minéralogie, 101, 3–10; Legendre C., Maury R.C., Caroff M., Guillou H., Cotten J., Chauvel C., Bollinger C., Hémond C., Guille G., Blais S., Rossi P., Savanier D. (2005): Origin of exceptionally abundant phonolites on Ua Pou island (Marquesas, French Polynesia): Partial melting of basanites followed by crustal contamination. Journal of Petrology, 46, (9), 1925-1962.
Brousse R., Maury R.C. (1978): Minéralogie d'une phonolite à grenat de l'île de Ua Pou (Marquises, Pacifique central). Bulletin de Minéralogie, 101, 3–10.
Germany
 
  • Baden-Württemberg
    • Kaiserstuhl massif
      • Bötzingen
Fricke, G., (1988): Der Kaiserstuhl und seine Minerale, Der Aufschluss, Vol. 39(2), 74-76
  • Rhineland-Palatinate
    • Ahrweiler
      • Brohltal
        • Brenk
Brauns, R., Die Mineralien der Niederrheinischen Vulkangebiete, Schweizerbart, Stuttgart, 1922
        • Glees
Brauns, R., Die Mineralien der Niederrheinischen Vulkangebiete, Schweizerbart, Stuttgart, 1922
        • Wehr
Hopmann, M., Einige Bemerkungen über die Einschlüsse im Leucit-Tuff der Kappiger Lay, Mitteilungen aus dem Mineralogischen Institut der Universität Bonn, 9/1913
    • Mayen-Koblenz
      • Bell
Viereck, L., Geologische und petrologische Entwicklung des pleistozänen Vulkankomplexes Rieden, Ost-Eifel, Bochumer geol. Geotechn. Arbeiten 17, 1984
      • Kruft
Brauns, R., Die Mineralien der Niederrheinischen Vulkangebiete, Schweizerbart, Stuttgart, 1922
      • Mayen
        • Ettringen
Wolf, Th. (1868): Die Auswürflinge des Laacher-Sees, Zeitschrift der Deutschen geologischen Gesellschaft, Vol. XX, pp 1-78; Jasmund, K., and Hentschel, G. (1964): Contributions to Mineralogy and Petrology 10, 296-314.
Blass, G., Emmerich, F., Graf, HW., Schäfer, Ch., Tschörtner, J., (2006): Minerale der Eifelvulkane, Version 1.0, CD, published by authors
        • Hochsimmer volcano
Blass, G., Emmerich, F., Graf, HW., Schäfer, Ch., Tschörtner, J., (2006): Minerale der Eifelvulkane, Version 1.0,CD, published by authors
      • Mendig
Brauns, R. , Die Mineralien der Niederrheinischen Vulkangebiete, Schweizerbart, Stuttgart, 1922
Brauns, R., Die Mineralien der Niederrheinischen Vulkangebiete Schweizerbart, Stuttgart, 1922
        • Wingertsberg
Brauns, R., Die Mineralien der Niederrheinischen Vulkangebiete, Schweizerbart, Stuttgart, 1922
    • Vulkaneifel
      • Daun
        • Üdersdorf
Blass, G., Emmerich, F., Graf, HW., Schäfer, Ch., Tschörtner, J., (2006): Minerale der Eifelvulkane, Version 1.0, CD, published by authors
      • Gerolstein
        • Rockeskyll
          • Rockeskyll volcanic complex
El-Kaluoby, B., Mineralbestand und Gefüge vulkanischer Glimmerschiefer-Auswürflinge des Kyller Kopfes, Westeifel, Diss., Rhein. Fried.-Wilh.-Universität, Bonn, 1981
      • Hillesheim
Blass, G., Emmerich, F., Graf, HW., Schäfer, Ch., Tschörtner, J., (2006): Minerale der Eifelvulkane, Version 1.0, CD, published by authors
Greece
 
  • South Aegean
    • Milos
      • Sifnos
        • Sifnos Island
Eur. J. Mineral. , 1992, 4, pp. 619-634.
    • Syros
      • Syros Island
        • Gria Spilia
Frank Mazdab collection (hand sample + thin section); Altherr, R., Soder, C., Panienka, S., Peters, D., & Meyer, H. P. (2013). Pink manganian phengite in a high P/T meta-conglomerate from northern Syros (Cyclades, Greece). Contributions to Mineralogy and Petrology, 166(5), 1323-1334.
Guyana
 
  • Barima-Waini Region
Alan R. Woolley (1987) Alkaline Rocks and Carbonatites of the World. (British Museum, Natural History); USGS Bulletin 2062
Honduras
 
  • Santa Bárbara Department
www.koeln.netsurf.de/~w.steffens/latam.htm
Hungary
 
  • Baranya County
    • Szászvár
Mineral Species of Hungary, 2005
India
 
  • Andhra Pradesh
    • East Godavari
Bose, M. K., Chakravarti, S., & Sarkar, A. (1971). Petrological observations on alkali syenites of Kunavaram, AP, India. Geological Magazine, 108(4), 273-280. Rao, Y. J., & Murthy, I. S. N. (1973). On the occurrence of carbonatites in the Vinayakapuram-Kunavaram Nepheline syenite band, Khammam district, Andhra Pradesh. Geological Society of India, 14(4), 431-433. Jayaram, M. S., Devendranath, T., & Sarma, S. R. (1972). The nepheline syenite belt of Khammam District, Andhra Pradesh. Geological Society of India, 13(4), 418-420. Subbarao, K. V. (1971). The Kunavaram Series—A Group of Alkaline Rocks, Khammam Distric, Andhra Pradesh, India. Journal of Petrology, 12(3), 621-641.
    • Guntur District
Sadashivaiah, M. S., & Reddy, K. G. (1965, February). Aegirine-augite syenite from Gundlapalle, Guntur district, Andhra Pradesh. In Proceedings of the Indian Academy of Sciences-Section A (Vol. 61, No. 2, p. 92). Springer India. Madhavan, V., Mallikharjuna Rao, J., Srinivas, M., Natarajan, R., & Sayeed, A. U. S. A. F. (1994). Petrology and petrogenesis of syenites from the Cuddapah basin, Andhra Pradesh. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 43, 225-237.
    • Kadapa district
Suresh, G., Ananthanarayana, R., Hanumanthu, R. C., Ghosh, S., Kumar, A. A., & Reddy, K. V. S. (2010). Geology of Pulikonda and Dancherla Alkaline Complexes, Andhra Pradesh. Journal of the Geological Society of India, 75(4), 576-595.
    • Prakasam District
Madhavan, V., & Leelanandam, C. (1988). Petrology of the Elchuru alkaline pluton, Prakasam District, Andhra Pradesh, India. Journal of the Geological Society of India, 31(6), 535-537. Czygan, W., & Goldenberg, G. (1989). Petrography and geochemistry of the alkaline complexes of Sivamalai, Elchuru and Uppalapadu. India. Mem. Geol. Soc. India, 15, 225-240. Madhavan, V., Mallikharjuna Rao, J., SUBRAHMANYAM K, K. S., & LEELANANDAM, C. (1989). Bedrock geology of the Elchuru alkaline pluton, Prakasam district, Andhra Pradesh. Geol. Soc. India Memoir, 15, 189-205. Madhavan, V., MALLIKHARJUNA, R., Balaram, V., & Kumar, R. (1992). Geochemistry and petrogenesis of lamprophyres and associated dykes from Elchuru, Andhra Pradesh, India. Journal of the Geological Society of India, 40(2), 135-149. Nag, S., Chakravorty, P. S., Smith, T. E., & Huang, C. H. (1984). The petrology and geochemistry of intrusive alkaline rocks of Elchuru, Prakasam District, Andhra Pradesh, India. Geological Journal, 19(1), 57-76. Subba Rao, T. V., Bhaskar Rao, Y. J., Sivaraman, T. V., & Gopalan, K. (1989). Rb-Sr age and petrology of the Elchuru Alkaline Complex: implications to alkaline magmatism in the Eastern Ghat Mobile Belt. Mem. Geol. Soc. India, 15, 207-223. Upadhyay, D., Raith, M. M., Mezger, K., & Hammerschmidt, K. (2006). Mesoproterozoic rift-related alkaline magmatism at Elchuru, Prakasam alkaline province, SE India. Lithos, 89(3-4), 447-477.; Madhavan, V., & Leelanandam, C. (1988). Petrology of the Elchuru alkaline pluton, Prakasam District, Andhra Pradesh, India. Journal of the Geological Society of India, 31(6), 535-537. Czygan, W., & Goldenberg, G. (1989). Petrography and geochemistry of the alkaline complexes of Sivamalai, Elchuru and Uppalapadu. India. Mem. Geol. Soc. India, 15, 225-240. Madhavan, V., Mallikharjuna Rao, J., SUBRAHMANYAM K, K. S., & LEELANANDAM, C. (1989). Bedrock geology of the Elchuru alkaline pluton, Prakasam district, Andhra Pradesh. Geol. Soc. India Memoir, 15, 189-205. Madhavan, V., MALLIKHARJUNA, R., Balaram, V., & Kumar, R. (1992). Geochemistry and petrogenesis of lamprophyres and associated dykes from Elchuru, Andhra Pradesh, India. Journal of the Geological Society of India, 40(2), 135-149. Nag, S., Chakravorty, P. S., Smith, T. E., & Huang, C. H. (1984). The petrology and geochemistry of intrusive alkaline rocks of Elchuru, Prakasam District, Andhra Pradesh, India. Geological Journal, 19(1), 57-76. Subba Rao, T. V., Bhaskar Rao, Y. J., Sivaraman, T. V., & Gopalan, K. (1989). Rb-Sr age and petrology of the Elchuru Alkaline Complex: implications to alkaline magmatism in the Eastern Ghat Mobile Belt. Mem. Geol. Soc. India, 15, 207-223. Upadhyay, D., Raith, M. M., Mezger, K., & Hammerschmidt, K. (2006). Mesoproterozoic rift-related alkaline magmatism at Elchuru, Prakasam alkaline province, SE India. Lithos, 89(3-4), 447-477.
Madhavan, V., & Sugrive Reddy, A. G. (1990). The Podili Syenites―A suite of alkaline and subalkaline rocks from Andhra Pradesh. Journal of the Geological Society of India, 35(4), 341-356. Murty, M. S. (1977). Sodalite-Cancrinite-Fluorite Syenite from the Granitic Terrain of Podili, Prakasam District, Andhra Pradesh. Geological Society of India, 18(6), 297-298.
  • Assam
    • East Karbi Anglong District
Kumar, D., Mamallan, R., Dwivedy, K.K. (1996) Carbonatite magmatism in northeast India. Journal of Southeast Asian Earth Sciences, 13(2), 145-158.
S. Nag, S. K. Sengupta, R. K. Gaur and A. Absar (1999) Alkaline rocks of Samchampi-Samteran, District Karbi Anglong, Assam, India. Proceedings of the Indian Academy of Sciences, Earth and Planetary Sciences, 108, 33-48.
Kumar, D., Mamallan, R., Saravanan, B., Jain, S. K., & Krishnamurthy, P. (1989). Petrology and geochemistry of the Samchampi alkaline carbonatite complex, Mikir Hills, Assam, India. Exploration and Research of Atomic Minerals, 2, 183-199. Nag, S., Sengupta, S. K., Gaur, R. K., & Absar, A. (1999). Alkaline rocks of Samchampi-Samteran, District Karbi-Anglong, Assam, India. Proceedings of the Indian Academy of Sciences-Earth and Planetary Sciences, 108(1), 33-48.
    • West Karbi Anglong District
Heaman, L. M., Srivastava, R. K., & Sinha, A. K. (2002). A precise U–Pb zircon/baddeleyite age for the Jasra igneous complex, Karbi–Analong District, Assam, NE India. Current Science, 744-748. Kumar, D., Mamallan, R., & Dwivedy, K. K. (1996). Carbonatite magmatism in northeast India. Journal of Southeast Asian Earth Sciences, 13(2), 145-158. Melluso, L., Srivastava, R. K., Guarino, V., Zanetti, A., & Sinha, A. K. (2010). Mineral compositions and petrogenetic evolution of the ultramafic-alkaline–carbonatitic complex of Sung Valley, northeastern India. The Canadian Mineralogist, 48(1), 205-229. Srivastava, R. K., & Sinha, A. K. (2004). Geochemistry of Early Cretaceous alkaline ultramafic-mafic complex from Jasra, Karbi Anglong, Shillong plateau, northeastern India. Gondwana Research, 7(2), 549-561. Srivastava, R. K., & Sinha, A. K. (2007). Nd and Sr isotope systematics and geochemistry of a plume-related Early Cretaceous alkaline-mafic-ultramafic igneous complex from Jasra, Shillong Plateau, northeastern India. SPECIAL PAPERS-GEOLOGICAL SOCIETY OF AMERICA, 430, 815-830.
  • Gujarat
    • Chhota Udaipur District
Deans, T., Sukheswala, R. N., Sethna, S. F., & Viladkar, S. G. (1972). Metaso-matic feldspar rocks (potash fenites) associated with the fluorite deposits and earbonatites of Amba Dongar, Gujarat, India: Institution of Mining and Metallurgy Transactions, v. 81, p. Deans, T., Sukheswala, R. N., Sethna, S. F., & Viladkar, S. G. (1973). Discussion and contributions: Metasomatic feldspar rocks (potash fenites) associated with the fluorite deposits and carbonatites of Amba Dongar, Gujarat, India. Inst. Mining Metall. Trans, 82, 33-40. Notholt, A. J. G., Highley, D. E., & Deans, T. (1990). Economic minerals in carbonatites and associated alkaline igneous rocks. Institution of Mining and Metallurgy Transactions. Section B. Applied Earth Science, 99. Viladkar, S. G., & Wimmenauer, W. (1992). Geochemical and petrological studies on the Amba Dongar carbonatites (Gujarat, India). Chem. Erde, 52, 277-291. Srivastava, R. K. (1994). Petrology, petrochemistry and genesis of the alkaline rocks associated with the Ambadungar Carbonatite Complex, Baroda district, Gujarat, India. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 43, 23-23. Viladkar, S. G. (1981). The carbonatites of Amba Dongar, Gujarat, India. Bull. Geol. Soc. Finland, 53, 17-28. Viladkar, S. G. (1984). Alkaline rocks associated with the carbonatites of Amba Dongar, Chhota Udaipur, Gujarat, India. Indian Mineral, 130-135. Rock, N. M. S., Gwalani, L. G., & Griffin, B. J. (1994). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Alkaline Province, Gujarat, India. 2. Complexly zoned clinopyroxene phenocrysts. Mineralogy and Petrology, 51(2-4), 113-135.
Gwalani, L. G., Rock, N. M. S., Chang, W. J., Fernandez, S., Allegre, C. J., & Prinzhofer, A. (1993). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Igneous Province, Gujarat, India: 1. Geology, petrography and petrochemistry. Mineralogy and Petrology, 47(2-4), 219-253. Khandelwal, M. K., Maithani, P. B., Pant, P. C., Hansda, P. K., & Ramachandran, S. (1997). Geological and Geochemical Studies on Carbonatites and Rocks of Carbonatite (?) Affinity from Areas North of the Narmada Lineament in Madhya Pradesh and Gujarat. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 50, 307-314. Rock, N. M. S., Gwalani, L. G., & Griffin, B. J. (1994). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Alkaline Province, Gujarat, India. 2. Complexly zoned clinopyroxene phenocrysts. Mineralogy and Petrology, 51(2-4), 113-135. Sukheswala, R. N., & Avasia, R. K. (1971). Carbonatite-alkalic complex of Panwad-Kawant, Gujarat, and its bearing on the structural characteristics of the area. Bulletin Volcanologique, 35(3), 564-578. Viladkar, S. G., & Avasia, R. K. (1994). Analcime-phonolite and associated alkaline rocks of Panwad-Kawant Complex, Gujarat, India. Chem Erde, 54, 49-66.
AVASIA, R. (1968). INTERPENETRANT AND GROOVED TRAPEZOHEDRA OF PSEUDOLEUCITE, GHORI, CHHOTA UDAIPUR, GUJARAT. The Indian Mineralogist: Journal of the Mineralogical Society of India, 9, 76-78. Czygan, W. 1985. Petrography and geochemistry of foid syenites and related rocks of the Deccan Trap area, India. Indian Mineralogist (Sukheswala Volume), 20-43. Gwalani, L. G., Fernandez, S., Karanth, R. V., Demeny, A., Chang, W. J., & Avasia, R. K. (1994). Alkaline and tholeiitic dyke swarm associated with Amba Dongar and Phenai Mata complexes, Chhota Udaipur alkaline sub-province, Western India. MEMOIRS-GEOLOGICAL SOCIETY OF INDIA, 391-424. Sukheswala, R. N., & Sethna, S. F. (1973). Oversaturated and undersaturated differentiates in the tholeiitic igneous complex of Phenai Mata, Baroda District, Gujarat State, India. Neues Jahrbuch für Mineralogie, Abhandlungen, 118, 159-176.
Sethna, S. F., SF, S., & SM, B. (1981). Petrology of the carbonatites and associated alkaline rocks of Siriwasan, Chhota Udaipur. Journal of the Geological Society of India, 22, 417-425. Gwalani, L. G., Rock, N. M. S., Chang, W. J., Fernandez, S., Allegre, C. J., & Prinzhofer, A. (1993). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Igneous Province, Gujarat, India: 1. Geology, petrography and petrochemistry. Mineralogy and Petrology, 47(2-4), 219-253. Sukheswala, R. N., & Borges, S. M. (1975). The carbonatite-injected sandstones of Siriwasan, Chhota Udaipur, Gujarat. Indian Jour. Earth Sci, 2(1), 1-10.
    • Junagadh District (Girnar)
Bose, M. K. (1971). Petrology of the nepheline syenite of Mount Girnar, India. Lithos, 4(4), 357-366. Bose, M. K. (1973). Petrology and geochemistry of the igneous complex of Mount Girnar, Gujarat, India. Contributions to Mineralogy and Petrology, 39(3), 247-266. Czygan, W. 1985. Petrography and geochemistry of foid syenites and related rocks of the Deccan Trap area, India. Indian Mineralogist (Sukheswala Volume), 20-43. Subba Rao, S. (1964). The geology of the igneous complex of the Girnar hills, Gujarat State, India. Int. Geol. Congr., 22nd, New Delhi, 1964, Rep: VII, Sect, 7, 42-60. Rao, S. S. (1968). The Petrology of the Lamprophyres of the Girnar Hills, Kathiawar, India. Geological Society of India, 9(1), 82-87. Paul, D. K., Potts, P. J., Rex, D. C., & Beckinsale, R. D. (1977). Geochemical and petrogenetic study of the Girnar igneous complex, Deccan volcanic province, India. Geological Society of America Bulletin, 88(2), 227-234.
    • Kutch District
      • Bhuj Taluka
Karkare, S.G., Kumar, S. & Srivastava, R.K. 1991. Evolution of the island chain of Kutch and role of rift magmatism and autonomous activization. Journal of Scientific Research, Banares Hindu University, 41B, 163-175.
Paul, D. K., Ray, A., Das, B., Patil, S. K., & Biswas, S. K. (2008). Petrology, geochemistry and paleomagnetism of the earliest magmatic rocks of Deccan Volcanic Province, Kutch, Northwest India. Lithos, 102(1-2), 237-259.
    • Panch Mahal District
V. K. Nayak(1961 ): A Note on Manganophyllite from Goldongri, India. Mineralogical Magazine Vol 32 pp 908-909
  • Karnataka
    • Chamarajanagar District
MAKKONEN, H., LAAJOKI, K., & DEVARAJU, T. 1993. MINERAL CHEMISTRY OF CLINOPYROXENE AND FELDSPARS IN THE NEOPROTEROZOIC ALKALINE DYKES OF THE BANGALORE DISTRICT, KARNATAKA, INDIA. Bulletin of the Geological Society of Finland, 65, 77-88.
    • Dakshina Kannada District
Ravindra, B. M., & AS, J. (1981). Preliminary report on aegerine augite bearing syenite near Sullia Town, Dakshina Kannada district, Karnataka. Journal of the Geological Society of India, 22, 399-402.
    • Ramanagara District
Devaraju, T.C., Laajoki, K., Makkonen, H., Khandali, S.D., Ugarkar, A.G. & Jamakhandi, M.S.R. 1995. Neo-Proterozoic dyke swarms of southern Karnataka: Part I: Field characters, petrography and mineralogy. Memoir, Geological Society of India, 33, 209-265. Devaraju, T.C., Laajoki, K., Zozulya, D., Khanadali, S.D., & Ugarkar, A.G. 1995. Neo-Proterozoic dyke swarm of southern Karnataka: Part II: Geochemistry, oxygen isotope composition, Rb-Sr age and petrogenesis. Memoir, Geological Society of India, 33, 267-306. Ikramuddin, M., & Stueber, A. M. (1976). Rb-Sr ages of Precambrian dolerite and alkaline dikes, southeast Mysore state, India. Lithos, 9(3), 235-241.
  • Kerala
    • Idukki district
Nair, N. G. K., Santosh, M., & Thampi, P. K. (1984). Alkali granite-syenite-carbonatite association in Munnar Kerala, India; implications for rifting, alkaline magmatism and liquid immiscibility. Proceedings of the Indian Academy of Sciences-Earth and Planetary Sciences, 93(2), 149-158.
    • Kannur district
Nair, N. G. K., & Santosh, M. (1984). Petrochemistry and tectonic significance of the Peralimala alkali granite, Cannanore District, Kerala. Journal of the Geological Society of India, 25(1), 35-44. Santosh, M., & Kumar, K. V. (1986). Radioelement geochemistry of alkali granites of the Kerala region, south-west India. Proceedings of the Indian Academy of Sciences-Earth and Planetary Sciences, 95(1), 103-115. Santosh, M., Iyer, S. S., Vasconcellos, M. B. A., & Enzweiler, J. (1989). Late Precambrian alkaline plutons in southwest India: geochronologic and rare-earth element constraints on Pan-African magmatism. Lithos, 24(1), 65-79. Sukumaran, P. V., & PV, S. (1983). AEGIRINE AUGITE SYENITE AT PERALIMALA, CANNANORE DISTRICT KERALA. Journal of the Geological Society of India, 24, 54-56.; Nair, N. G. K., & Santosh, M. (1984). Petrochemistry and tectonic significance of the Peralimala alkali granite, Cannanore District, Kerala. Journal of the Geological Society of India, 25(1), 35-44. Santosh, M., & Kumar, K. V. (1986). Radioelement geochemistry of alkali granites of the Kerala region, south-west India. Proceedings of the Indian Academy of Sciences-Earth and Planetary Sciences, 95(1), 103-115. Santosh, M., Iyer, S. S., Vasconcellos, M. B. A., & Enzweiler, J. (1989). Late Precambrian alkaline plutons in southwest India: geochronologic and rare-earth element constraints on Pan-African magmatism. Lithos, 24(1), 65-79. Sukumaran, P. V., & PV, S. (1983). AEGIRINE AUGITE SYENITE AT PERALIMALA, CANNANORE DISTRICT KERALA. Journal of the Geological Society of India, 24, 54-56.
  • Madhya Pradesh
    • Chhindwara District (Chindawara District; Chindwara District)
Roy, S., and Purkait, P.K. (1968): Contributions to Mineralogy and Petrology 20, 86-114.
    • Jabalpur division
      • Balaghat District
Kilpady, S.R. (1964): Winchite from Ponia, Balaghat District, Madhya Pradesh. J. Univ. Geol. Soc. Nagpur 1, 7.
        • Tirodi
Kilpady, S. R. (1960). An X-ray study and re-examination of blanfordite. In Proc. Nat. Inst. Sci., India (Vol. 26, pp. 250-259).
    • Jhabua District
Nayak, V. K. (1966): Mineralogy and genesis of the manganese ores of Kajlidongri mine, district Jhabua, Madhya Pradesh, India. Economic Geology 61, 1280-1282.; Kilpady, S. R. (1960). An X-ray study and re-examination of blanfordite. In Proc. Nat. Inst. Sci., India (Vol. 26, pp. 250-259).
  • Maharashtra
    • Bhandara District
Bilgrami, S. A. (1955). Manganese amphiboles from Chikla, Bhandara district, India. Min. Mag, 30, 633-644.
    • Raigad District
Sethna, S. F., & D’Sa, C. P. (1991). Occurrence of ijolite with veinlets of carbonatite in the Deccan Trap at Murud-Janjira, Maharashtra, India. Journal of the Geological Society of India, 37, 257-263. Dessai, A. G., & Viegas, A. (2010). Petrogenesis of alkaline rocks from Murud-Janjira, in the Deccan Traps, western India. Mineralogy and Petrology, 98(1-4), 297-311. Melluso, L., Sethna, S. F., d’Antonio, M., Javeri, P., & Bennio, L. (2002). Geochemistry and petrogenesis of sodic and potassic mafic alkaline rocks in the Deccan Volcanic Province, Mumbai area (India). Mineralogy and Petrology, 74(2-4), 323-342. Dessai, A. G., Rock, N., Griffin, B. J., & Gupta, D. (1990). Mineralogy and petrology of some xenolith-bearing alkaline dykes associated with Deccan magmatism, south of Bombay, India. European Journal of Mineralogy, 667-686.
A.G. Dessai et al. , Eur. J. Mineral. , 1990, 2, pp. 667-685.
A.G. Dessai et al. , Eur. J. Mineral. , 1990, 2, pp. 667-685.
  • Meghalaya
    • East Garo Hills District
KUMAR, S., DHANA RAJU, R., Varma, H. M., & Dougall, N. K. (1984). Cancrinite-tinguaite and K-rich tachyte in the Nongcharam-Darugiri area of east Garo Hills district, Meghalaya: a preliminary study. Journal of the Geological Society of India, 25(8), 528-532.
    • 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.
    • West Khasi Hills District
RAGHAVAN NAMBIAR, A. (1987). Alkaline magmatism in parts of West Khasi Hills and East Garo Hills district, Meghalaya. Records of the Geological Survey of India, 115(3-4), 25-44. Ray, J. S., Ramesh, R., & Pande, K. (1999). Carbon isotopes in Kerguelen plume-derived carbonatites: evidence for recycled inorganic carbon. Earth and Planetary Science Letters, 170(3), 205-214. Sarkar, A., Datta, A. K., Poddar, B. C., Bhattacharyya, B. K., Kollapuri, V. K., & Sanwal, R. (1996). Geochronological studies of Mesozoic igneous rocks from eastern India. Journal of Southeast Asian Earth Sciences, 13(2), 77-81.
  • Odisha
    • Koraput District
Bose, M. K. (1970). PETROLOGY OF INTRUSIVE ALKALIC SUITE OF KORAPUT, ORISSA. Journal of the Geological Society of India, 11(2), 99-126. Gupta, S., Nanda, J., Mukherjee, S. K., & Santra, M. (2005). Alkaline magmatism versus collision tectonics in the Eastern Ghats Belt, India: constraints from structural studies in the Koraput complex. Gondwana Research, 8(3), 403-419. Nanda, J., Gupta, S., & Dobmeier, C. J. (2008). Metamorphism of the Koraput Alkaline Complex, Eastern Ghats Province, India—evidence for reworking of a granulite terrane. Precambrian Research, 165(3-4), 153-168. Nanda, J., Gupta, S., & Mamtani, M. A. (2009). Analysis of deformation fabric in an Alkaline Complex (Koraput): implications for time relationship between emplacement, fabric development and regional tectonics. Journal of the Geological Society of India, 74(1), 78-94. Sarkar, A., Paul, D. K., Bishui, P. K., Gupta, S. N., & Nanda, J. K. (1989). Late Proterozoic alkaline magmatism in the Eastern Ghats Belt: Rb-Sr isotopic study on the Koraput complex, Orissa. Indian Minerals, 43(3-4), 265-272.
  • Rajasthan
    • Barmer District
Bhushan, S.K. 2000 Neoproterozoic magmatism of the Malani Igneous Suite western Rajasthan, Indian. Geological Survey of India, Special Publications, 55, 319-332. Bhushan, S. K., & Chittora, V. K. (1999). Late Proterozoic bimodal volcanic assemblage of Siwana subsidence structure, Western Rajasthan, India. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 53, 433-452. Dhar, S., Frei, R., Kramers, J. D., Nagler, T. F., & Kochhar, N. (1996). Sr, Pb and Nd isotope studies and their bearing on the petrogenesis of the Jalor and Siwana complexes, Rajasthan, India. Journal of the Geological Society of India, 48(2), 151-160. Eby, G. N., & Kochhar, N. (1990). Geochemistry and petrogenesis of the Malani igneous suite, North Peninsular India. J. Geol. Soc. India, 36(2), 109-130. Maheshwari, A., Coltorti, M., Rajput, S. K., & Verma, M. (2009). Geochemical characteristics, discrimination and petrogenesis of Neoproterozoic peralkaline granites, Barmer District, SW Rajasthan, India. International Geology Review, 51(12), 1103-1120. Singh, A. K., & Vallinayagam, G. (2009). Radioactive element distribution and rare-metal mineralization in anorogenic acid volcano-plutonic rocks of the Neoproterozoic Malani Felsic Province, Western Peninsular India. Journal of the Geological Society of India, 73(6), 837-853. Singh, A. K., Singh, R. B., & Vallinayagam, G. (2006). Anorogenic Acid Volcanic rocks in the Kundal area of the Malani Igneous Suite, Northwestern India: geochemical and petrogenetic studies. Journal of Asian Earth Sciences, 27(4), 544-557.
Chandrasekaran, V., Srivastava, R. K., & Chawade, M. P. (1990). Geochemistry of the alkaline rocks of Sarnu-Dandali area, district Barmer, Rajasthan, India. Journal of the Geological Society of India, 36(4), 365-382. Chandrasekaran, V., & Chawade, M. P. (1990). Carbonatites of Barmer district, Rajasthan. Indian Minerals, 44(4), 315-324. Chandrasekaran, V., & Srivastava, R. K. (1992). Geochemistry of the Sarnu-Dandali carbonatites, District Barmer, Rajasthan, India. Journal of the Geological Society of India, 39(4), 321-328. Ray, J. S., & Ramesh, R. (1999). Evolution of carbonatite complexes of the Deccan flood basalt province: stable carbon and oxygen isotopic constraints. Journal of Geophysical Research: Solid Earth, 104(B12), 29471-29483. Srivastava, R. K. (1989). Alkaline and peralkaline rocks of Rajasthan. Mem. Geol. Soc. India, 15, 3-24.
    • Jaipur district
      • Sikar District
Basu, S. K., & Narsayya, B. L. (1982). Note on a zone of probable carbonatite-alkali metasomatic rock associotion in the eastern part of Khetri copper belt, Northeastern Rajasthan. Indian Minerals, 36(1), 29-31. Saxena, M. N., Gupta, L. N., & CHAUDHRI, N. (1984). Carbonatite dikes in Dhanota-Dhancholi hills, Narnaul, Haryana. Current science, 53(12), 651-652.
    • Jodhpur district
      • Sirohi district
Subrahmanyam, N. P., & Rao, G. V. D. (1977). Petrography, geochemistry and origin of the carbonatite veins of Mer pluton, Mundwara igneous complex, Rajasthan. Geological Society of India, 18(7), 306-322. LE-BAS, M. J., & Srivastava, R. K. (1989). The mineralogy and geochemistry of the Mundwara carbonatite dykes, Sirohi District, Rajasthan, India. Neues Jahrbuch für Mineralogie. Abhandlungen, (2), 207-227. Subrahmanyam, N. P., & Leelanandam, C. (1991). Geochemistry and petrology of the cumulophyric layered suite of rocks from the Toa pluton of the Mundwara alkali igneous complex, Rajasthan. Journal of the Geological Society of India, 38(4), 397-411. Narayan Das, G.R., Sharma, C.V. & Navaneetham, K.V. 1982. Carbonate-alkaline Complex of Mundwara. Journal of the Geological Society of India, 23, 604-609.
Chakraborti, M. K. & Bose, M.K. (1978). Theralite-melteigite-carbonatite association in Mer ring of Mundwara suite, Sirohi district, Rajasthan. Journal of the Geological Society of India, 19, 454-463. Bose, M. K., & Gupta, D. D. (1973). Petrology of the alkali syenites of the Mundwara magmatic suite, Sirohi, Rajasthan, India. Geological Magazine, 110(5), 457-466.
Subrahmanyam, N. P., & Leelanandam, C. (1991). Geochemistry and petrology of the cumulophyric layered suite of rocks from the Toa pluton of the Mundwara alkali igneous complex, Rajasthan. Journal of the Geological Society of India, 38(4), 397-411.
  • Tamil Nadu
    • Dharmapuri district
Ramanathan, S. & Navaneethakrishnan, C. (1982). Theralites around Pikkili, Dharmapuri district, Tamil Nadu. Journal of the Geological Survey of India, 23, 199-200.
    • Kanyakumari District
Sreejith, C., & Kumar, G. R. (2009). Petrological and geochemical characteristics of Marunthurkota syenites from the Kerala Khondalite Belt, southern India. Journal of the Geological Society of India, 73(3), 386.
    • Krishnagiri District
Natarajana, M., Rao, B. B., Parthasarathy, R., Kumar, A., & Gopalan, K. (1994). 2.0 ga old pyroxenite-carbonatite complex of Hogenakal, Tamil Nadu, south India. Precambrian Research, 65(1-4), 167-181. Srinivasan, V. (1977). The carbonatite of Hogenakal, Tamil Nadu, South India. Geological Society of India, 18(11), 598-604.
    • Tiruppur District
Rao, B. B. (1982). Petrology of the alkaline rocks around Sivamalai, Coimbatore district, Tamilnadu, India. Geologische Rundschau, 71(1), 263-279. Bose, M. K. (1971). Petrology of the alkalic suite of Sivamalai, Coimbatore, Tamil Nadu. Geological Society of India, 12(3), 241-261. Bose, M. K., Roy, A. K. G., & Czygan, W. (1982). K-Rb relations in the alkaline suites of the Eastern Ghats precambrian belt, India. Lithos, 15(1), 77-84. Czygan, W., & Goldenberg, G. (1989). Petrography and geochemistry of the alkaline complexes of Sivamalai, Elchuru and Uppalapadu. India. Mem. Geol. Soc. India, 15, 225-240. Rao, T. S., Narayana, B. L., & Gopalan, K. (1994). Rb-Sr age of the Sivamalai alkaline complex, Tamil Nadu. Proceedings of the Indian Academy of Sciences-Earth and Planetary Sciences, 103(3), 425-437.
  • West Bengal
    • Purulia District
      • Purulia carbonatite
Chakrabarty, A., & Sen, A. K. (2010). Enigmatic association of the carbonatite and alkali-pyroxenite along the Northern Shear Zone, Purulia, West Bengal: a saga of primary magmatic carbonatite. Journal of the Geological Society of India, 76(4), 403-413. Chakrabarty, A., Sen, A. K., & Ghosh, T. K. (2009). Amphibole—a key indicator mineral for petrogenesis of the Purulia carbonatite, West Bengal, India. Mineralogy and Petrology, 95(1-2), 105-112. Ghosh Roy, A. K., & Sengupta, P. R. (1993). Alkalic-carbonatitic magmatism and associated mineralisation along the Porapahar-Tamar lineament in the Proterozoic of Purulia District, West Bengal. Indian journal of earth sciences, 20(3-4), 193-200.
Indonesia
 
  • South Sulawesi Province
Iddings, J. P., & Morley, E. W. (1915). Contributions to the petrography of Java and Celebes. The Journal of Geology, 23(3), 231-245.
Iran
 
  • Kerman Province
    • Kerman County
Milton, D. J. (1977). Qal’eh hasan ali maars, central Iran. Bulletin Volcanologique, 40(3), 201-208.
  • 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.
Ireland
 
  • Leinster
    • Co. Louth
      • Carlingford
Nockolds, S. R. (1950): The occurrence of neptunite and eudialyte in quartz-bearing syenites from Barnavave, Carlingford, Ireland. Mineralogical Magazine 29, 27-33.
Israel
 
  • Negev
Gross, S. (1977): The Mineralogy of the Hatrurim Formation, Israel. Geological Survey of Israel, Bulletin no. 70, 80 pp.
Italy
 
  • Aosta Valley
    • Saint-Marcel
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.
    • Valtournenche
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.
  • Lazio
    • Metropolitan City of Rome Capital
      • Sacrofano Caldera
        • Campagnano di Roma
Eur. J. Mineral. , 1993, 5, pp. 53-58.
    • Viterbo Province
No reference listed
  • Liguria
    • Genoa
      • Genoa
        • Voltri
          • Vara Valley
  • Lombardy
    • Sondrio Province
      • Valtellina
        • Malenco Valley
          • Lanterna Valley
            • Lanzada
              • Scerscen Valley
Bedognè, F., Montrasio, A., Sciesa, E. (1993) I minerali della provincia di Sondrio: Valmalenco. Bettini, Sondrio, 275 pp.; Oberti R, Boiocchi M, Hawthorne F C, Ciriotti M E, Revheim O, Bracco R (2018) Clino-suenoite, a newly approved magnesium-iron-manganese amphibole from Valmalenco, Sondrio, Italy. Mineralogical Magazine 82, 189-198
  • Piedmont
    • Cuneo Province
Eur. J. Mineral. , 1993, 5, pp. 943-955.
      • Sampeyre
Castelli, D., Rostagno, C., Lombardo, B. (2002): Jd-Qtz-bearing metaplagiogranite from the Monviso meta-ophiolite (Western Alps). Ofioliti, 27, 81-90; Castelli, D., Lombardo, B. (2007): The plagiogranite - FeTi-oxide gabbro association of Verné (Monviso metamorphic ophiolite, Western Alps). Ofioliti, 32, 1-14.
    • Metropolitan City of Turin
      • Brosso
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.
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.
  • Sicily
    • Metropolitan City of Catania
      • Etna Volcanic Complex
        • Biancavilla
Sicurella, G., Ciriotti, M.E., Gianfagna, A., Mazziotti-Tagliani, S., Blass, G. (2010): Minerali di Monte Calvario, Biancavilla (Catania, Sicilia). Micro (località), 2/2010, 329-368.
Japan
 
  • Ehime
M. Nakagawa, M. Santosh, S. Maruyama (2009) Distribution and mineral assemblages of bedded manganese deposits in Shikoku, Southwest Japan: Implications for accretion tectonics. Gondwana Research 16, 609–621.
    • Niihama City
      • Besshi
Introduction to Japanese Minerals (Geological Survey of Japan, 1970)
  • Gifu
    • Hida City
Okamoto collection (curated at the Geological Survey museum, Japan)
  • Iwate
    • Kunohe-gun
      • Noda-mura
Dr. Matsuo Nambu collection (curated at Geological Survey of Japan)
    • Shimohei District
      • Iwaizumi-cho
Dr. Matsuo Nambu ore collection (curated at Geological Survey of Japan)
Kazakhstan
 
  • Karaganda Region
    • Shet
      • Mointy (Moyynty)
        • Mointy Railway Station
          • Shunak Mts
Yegorov, B. L., Dora, A. D., & Senderova, V. M. (1970). Melkovite, a new phosphomolybdate from the oxidized zone. International Geology Review, 12(12), 1411-1415.
  • North Kazakhstan Region
    • Timiryazev
Kenya
 
  • Homa Bay County
    • Ruri complex
Sutherland, D.S. (1969): Contributions to Mineralogy and Petrology 24, 114-135.
  • Kwale County
Woolley, A. R. (1987). Alkaline rocks and carbonatites of the world: Africa. Geological Society of London.
Coetzee, G.L., Edwards, C.B. (1959) The Mrima Hill Carbonatite, Coast Province, Kenya. South African Journal of Geology, 62:1, 373-397.
  • Meru County
Baker, B.H. (1967) Geology of the Mount Kenya area. Ministry of Environment and Natural Resources, Mines and Geological Department, Report No. 79, 78 pp.
Kyrgyzstan
 
  • Batken Region
Pautov, L. A., Karpenko, V. Y., & Agakhanov, A. A. (2013) Baratovite-katayamalite Minerals from the Hodzha-achkan Alcaline Massif (Kirgizia). New Data on Minerals. 48:12-36
Lesotho
 
  • Mokhotlong District
Clarke, D. B., & MacKay, R. M. (1990). An ilmenite-garnet-clinopyroxene nodule from Matsoku: evidence for oxide—rich liquid immiscibility in kimberlites. Canadian Mineralogist, 28, 229-239.
Libya
 
  • Jabal al Gharbi District
    • Gharyan (Gharian)
Lustrino, M., Cucciniello, C., Melluso, L., Tassinari, C. C., dè Gennaro, R., & Serracino, M. (2012). Petrogenesis of Cenozoic volcanic rocks in the NW sector of the Gharyan volcanic field, Libya. Lithos, 155, 218-235.
Madagascar
 
  • Amoron'i Mania
    • Ambatofinandrahana
      • Itremo
Rasoamalala, V., Salvi, S., Béziat, D., Ursule, J.-Ph., Cuney, M., Parseval, Ph. de, Guillaume, D., Moine, B. & Andriamampihantona, J. (2014): Geology of bastnaesite and monazite deposits in the Ambatofinandrahana area, central part of Madagascar: An overview. Journal of African Earth Sciences. 94, 128-140
Malawi
 
  • Central Region
    • Kasungu
      • North Nyasa Alkaline Province
Eby, G. N., Woolley, A. R., Din, V., & Platt, G. (1998). Geochemistry and petrogenesis of nepheline syenites: Kasungu–Chipala, Ilomba, and Ulindi nepheline syenite intrusions, North Nyasa alkaline province, Malawi. Journal of Petrology, 39(8), 1405-1424.
Mali
 
  • Kidal Region
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.
Morocco
 
  • Béni Mellal-Khénifra Region
    • Khénifra Province
      • Tamazeght Mountain Range
KHADEM ALLAH, B., FONTAN, F., KADAR, M., MONCHOUX, P. & SØRENSEN, H. (1998): Reactions between agpaitic nepheline syenitic melts and sedimentary carbonate rocks, exemplified by the Tamazeght complex, Morocco. Geokhimiya 7, 643-655.
Myanmar
 
  • Mandalay Region
    • Pyin-Oo-Lwin District
      • Madaya Township
Ma Kyu Kyu Aung (2004): Petrology and mineralogy of the Yetkansin area, Madaya Township. M.S. thesis, Yangon University, Department of Geology.
Namibia
 
  • Erongo Region
    • Dâures
      • Brandberg Area
        • Messum Igneous Complex
Wooley, A.R. (2001): Alkaline rocks and carbonatites of the world, Part 3: Africa. Geological Society, London. 210-211.
  • Khomas Region
    • Windhoek Rural
      • Aris
Yakovenchuk, V.N., Ivanyuk, G.Yu., Pakhomovsky, Y.A., Selivanova, E.A., Mikhailova, J.A., Krivovichev, S.V., Zolotarev, A.A. and Zalkind, O.A. (2011): Ellingsenite, Na5Ca6Si18O38(OH)13·6H2O, a new martinite-related mineral from phonolite of the Aris alkaline complex (Namibia). Canadian Mineralogist, 49, 1165-1173.
  • Kunene Region
    • Khorixas
Bodeving, S. (2015): Petrogenesis of the Lofdal Intrusive Suite: Implications for rare earth elements mineralization. Unpublished M.Sc. thesis, McGill University, Montreal, Quebec, Canada. 202 p.
  • Otjozondjupa Region
    • Omatako
Bezing, L. von, Bode, R. & Jahn, S. (2007): Namibia. Minerals and Localities. Edition Schloss Freudenstein, Bode Verlag, Haltern, 368 pp. (in English)
    • Otjiwarongo
Journal of Microtextural Mineralogy, 52 (4), 2000, pp. 17-20.
  • ǁKaras Region
    • Karasburg West
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.
North Korea
 
  • South Pyongan Province
University of Tokyo museum, Wakabayashi collection, Specimen No. IX-222.
North Macedonia
 
  • Veles
    • Nežilovo
      • Jakupica Mts
        • Babuna Valley
Ermolaeva, V. N., Chukanov, N. V., Jančev, S., & Van, K. V. (2017). Parageneses of Oxygen-bearing Minerals with Chalcophile Elements in Metasomatites of the Pelagonian Massif, Macedonia. In Magmatism of the Earth and related strategic metal deposits (pp. 62-66).; Jančev, S., Karamachoska, B., & Boev, B. (2017). Phase relations between Baryte–BaSO4, cymrite–BaAl2Si2O8· H2O and Hyalophane–(K, Ba) Al Si3 O8 from the ore occurrence no. 2 at Kalugjeri micro-locality near Nezhilovo village, Macedonia. Journal of Natural Sciences and Mathematics of UT, 2(3), 100-106.
Chukanov, Nikita V., Jančev, Simeon., Pekov, Igor V. (2015): The association of Oxygen-bearing minerals of the chalcophile elements in the orogenetic zone related to the “mixed series” complex near Nežilovo, Republic of Macedonia. Macedonian Journal of Chemistry and Chemical Engineering, Vol. 34, No. 1, pp. 115–124
Norway
 
  • Finnmark
    • Hammerfest
      • Seiland Island
Robins, B. (1971): Syenitic-Carbonatite Relationships in the Seiland Gabbro Province, Finnmark, Northern Norway. Norges Geologiske Undersøkelse. 272, 43-58
    • Hasvik
      • Sørøya
Sturt, B. A. & Ramsay, D. M. (1965) The alkaline complex of the Breivikbotn area, Sørøy, Northern Norway. Norges Geologiske Undersøkelse, 231:1-164
Michalsen, A. (2010): Minerallokaliteter på Sørøya, Vest-Finnmark- den grønne øya i nord. Norsk Bergverksmuseum Skrift.43, 41-52
Sturt, B.A. & Ramsay, D.M. (1965): The alkaline complex of the Breivikbotn area, Sørøy, northern Norway. Norges Geologiske Undersøkelse. 231, 1-164
  • Jan Mayen Island
www.albany.edu/geosciences/cwhitems.html.
  • Oppland
    • Gran
Werner, R. (1993): Om synchysitt i Norge. STEIN 20 (4),221-226, (p. 225)
  • Sogn og Fjordane
    • Selje
      • Liset
Smith, D.C., Kechid, S-A. and Rossi, G. (1986): Occurrence and properties of lisetite, CaNa2Al4Si4O16, a new tectosilicate in the system Ca-Na-Al-Si-O. American Mineralogist. 71: 1372-1377
  • Telemark
    • Kragerø
Green, J.C. (1956): Geology of the Storkollen-Blankenberg area, Kragerø, Norway. Norsk Geologisk Tidsskrift 36, 89-140
    • Nome
Årtveit, J. T. (2014): Fensfeltet. Fensfeltet Geologiforening, Ulefoss 2014, 192p.
[In fenite] Kresten, P. & Morgan, V. (1986): Fenization at the Fen complex, southern Norway. Lithos: 29:27-42
    • Porsgrunn
      • Bjørkedalen
Larsen, A. O & Raade, G.(1997): Pyroksener fra Oslofeltets syenittpegmatitter. Bergverksmuseets Skrift 12,16-17
    • Skien
      • Luksefjell
        • Luksefjell Chapel (Bø Chapel)
Dietrich, R.V., Heier, K.S. & Taylor, S.R. (1965): Studies on the igneous rock complex of the Oslo region. XX. Petrology and geochemistry of ekerite. Skrifter Norske videnskaps-akademi i Oslo. Matematisk-naturvidenskapelig klasse, Ny serie. 19, 28 pp.
  • Troms
    • Karlsøy
Bøe, P. (2000): En gang av alkaline bergarter i Mikkelvik, Ringvassøy i Troms. Norsk Bergverksmuseum Skrift. 17, 71-79
  • Vestfold
    • Larvik
      • Hedrum
        • Lysebo
Larsen, A. O & Raade, G.(1997): Pyroksener fra Oslofeltets syenittpegmatitter. Bergverksmuseets Skrift 12,16-17
Ihlen, P. M. (1983) Geologiske og petrokjemiske resultater fra diamantboring på Sæteråsen niob-forekomst. NGU-rapport 1800/76B.
      • Langesundsfjorden
        • Barkevik area
Larsen, A. O & Raade, G.(1997): Pyroksener fra Oslofeltets syenittpegmatitter. Bergverksmuseets Skrift 12,16-17
Raade, G. (1996): Minerals originally described from Norway. Bergverksmuseet Skrift 11, p.18 ; Larsen, A. O & Raade, G.(1997): Pyroksener fra Oslofeltets syenittpegmatitter. Bergverksmuseets Skrift 12, 16-17
      • Tvedalen
Larsen, A. O & Raade, G.(1997): Pyroksener fra Oslofeltets syenittpegmatitter. Bergverksmuseets Skrift 12,16-17
    • Sandefjord
      • Østerøya
        • Yxney
Svein A. Berge collection/observation 2015.
Paraguay
 
  • Alto Paraguay Department
Comin-Chiaramonti, P., Renzulli, A., Ridolfi, F., Enrich, G. E., Gomes, C. B., De Min, A., ... & Ruberti, E. (2016). Late-stage magmatic to deuteric/metasomatic accessory minerals from the Cerro Boggiani agpaitic complex (Alto Paraguay Alkaline Province). Journal of South American Earth Sciences, 71, 248-261.
  • Amambay Department
  • Concepción Department
Eckel, E. B.; Milton, Charles; Sulsona, P. T. (1959) Geology and mineral resources of Paraguay--a reconnaissance, with sections on Igneous and metamorphic rocks and soils. USGS Professional Paper: 327
  • Guairá Department
Geological Survey Professional Paper 327 (U.S. Department of the Interior, 1959)
  • Paraguarí Department
Alan R. Woolley: Alkaline Rocks and Carbonatites of the World, part 1, 207-208 (BMNH, London, 1987)
Peru
 
  • Puno
    • Carabaya Province
Laubacher, G. (1978) estudio geologico de la region norte del Lago Titicaca. Boletin Instituto de Geologia y Mineria, 5, series D, 1-122
  • Ucayali
    • Coronel Portillo Province
Stewart, J.W. (1971) Neogene peralkaline igneous activity in eastern Peru. Bulletin of the Geological Society of America, 82, 2307-2312.
Poland
 
  • Lesser Poland Voivodeship
    • Myślenice Co.
      • Gmina Myślenice
Pelczar A. 1973: Minetta i wogezyt w otworze Borzęta IG 1. [Streszcz. ref.]. Kwart. Geol. T. 17, nr 4
Portugal
 
  • Azores
    • São Miguel Island
Ridolfi, F., Renzulli, A., Santi, P., Upton, B.G.J., Evolutionary stages of crystallisation of weakly peralkine syenites: evidence from ejecta in the plinian deposits of Agua de Pau volcano (Sao Miguel, Azores Islands), Mineralogical Magazine, 67(4), 749-767, 2003
    • Terceira Island
      • Angra do Heroísmo
http://www.minersoc.org/files/Applied_Mineralogist_AMG_bulletin_Volume1_Number3.pdf
  • Faro
    • Monchique
      • Monchique
        • Nave
Pedro Alves analytical data.
Romania
 
  • Harghita
Hirtopanu Paulina, Andersen C. Jens, Fairhurst J. Robert and Jakab Gyula (2013) Allanite-(Ce) and its associations, from the Ditrau alkaline intrusive massif. Proc. Rom. Acad., Series B, 2013, 15(1), p. 59–74
Russia
 
  • Bashkortostan
    • Sibay
Brusnitsyn, A.I., and Zhukov, I.G. (2005): Lithology and Mineral Resources 40(1), 30-47.
  • Buryatia
    • Mama River Basin
      • Maigunda River
Vladykin, N. V., & Sotnikova, I. A. (2017). Petrology, geochemistry and source characteristics of the Burpala alkaline massif, North Baikal. Geoscience Frontiers, 8(4), 711-719.
  • Chelyabinsk Oblast
    • Vishnevye Mountains
http://webmineral.ru/deposits/item.php?id=841
  • Irkutsk Oblast
Savel’eva, V.B., and Karmanov, N.S. (2008): Geology of Ore Deposits 50(8), 681-696.
L. Kogarko (1995) Alkaline Rocks and Carbonatites of the World: Part Two: Former USSR
Rasskazov, S. V., Il’yasova, A. M., Konev, A. A., Yasnygina, T. A., Maslovskaya, M. N., Fefelov, N. N., ... & Saranina, E. V. (2007). Geochemical evolution of the Zadoi Alkaline-Ultramafic Massif, Cis-Sayan area, southern Siberia. Geochemistry International, 45(1), 1-14.
  • Khabarovsk Krai
    • Ayan-Maya district
      • Aldan shield
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).
  • Murmansk Oblast
[World of Stones 95:5-6, p64]; Arzamastsev, A. A., Bea, F., Arzamastseva, L. V., & Montero, P. (2006). Proterozoic Gremyakha-Vyrmes Polyphase Massif, Kola Peninsula: An example of mixing basic and alkaline mantle melts. Petrology, 14(4), 361-389.; Liferovich, R. P., Mitchell, R. H., Zozulya, D. R., & Shpachenko, A. K. (2006). Paragenesis and composition of banalsite, stronalsite, and their solid solution in nepheline syenite and ultramafic alkaline rocks. The Canadian Mineralogist, 44(4), 929-942.
    • Khibiny Massif
Yakovenchuk, V.N., Ivanyuk, G.Y., Pakhomovsky, Y.A., Men’shikov, Y.P., Konopleva, N.G., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 732-745.
        • Astrophyllite Stream
Arzamastsev, A., Yakovenchuk, V., Pakhomovsky, Y., & Ivanyuk, G. (2008). The Khibina and Lovozero alkaline massifs: Geology and unique mineralization. In Guidbook for 33rd International Geological Congress Excursion (No. 47, p. 58)
Yakovenchuk, V.N., Ivanyuk, G.Y., Pakhomovsky, Y.A., Men’shikov, Y.P., Konopleva, N.G., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 732-745.
Konopleva, N.G., Ivanyuk, G.Y., Pakhomovsky, Y.A., Yakovenchuk, V.N., Men’shikov, Y.P., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 720-731.
      • Koashva Mt
Konopleva, N.G., Ivanyuk, G.Y., Pakhomovsky, Y.A., Yakovenchuk, V.N., Men’shikov, Y.P., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 720-731.
      • Kukisvumchorr Mt
Yakovenchuk, V.N., Ivanyuk, G.Y., Pakhomovsky, Y.A., Men’shikov, Y.P., Konopleva, N.G., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 732-745.
Yakovenchuk, V.N., Ivanyuk, G.Y., Pakhomovsky, Y.A., Men’shikov, Y.P., Konopleva, N.G., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 732-745.
Yakovenchuk, V.N., Ivanyuk, G.Y., Pakhomovsky, Y.A., Men’shikov, Y.P., Konopleva, N.G., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 732-745.
Yakovenchuk, V.N., Ivanyuk, G.Y., Pakhomovsky, Y.A., Men’shikov, Y.P., Konopleva, N.G., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 732-745.
Konopleva, N.G., Ivanyuk, G.Y., Pakhomovsky, Y.A., Yakovenchuk, V.N., Men’shikov, Y.P., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 720-731.
Konopleva, N.G., Ivanyuk, G.Y., Pakhomovsky, Y.A., Yakovenchuk, V.N., Men’shikov, Y.P., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 720-731.; Belakovskiy D, Smith D G W, Welch M (2013) New mineral names. American Mineralogist 98, 811-815
      • Takhtarvumchorr Mt
Arzamastsev, A., Yakovenchuk, V., Pakhomovsky, Y., & Ivanyuk, G. (2008). The Khibina and Lovozero alkaline massifs: Geology and unique mineralization. In Guidbook for 33rd International Geological Congress Excursion (No. 47, p. 58).
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.
Konopleva, N.G., Ivanyuk, G.Y., Pakhomovsky, Y.A., Yakovenchuk, V.N., Men’shikov, Y.P., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 720-731.
Yakovenchuk, V.N., Ivanyuk, G.Y., Pakhomovsky, Y.A., Men’shikov, Y.P., Konopleva, N.G., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 732-745.
      • Yukspor Mt
Pavel M. Kartashov data; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
Konopleva, N.G., Ivanyuk, G.Y., Pakhomovsky, Y.A., Yakovenchuk, V.N., Men’shikov, Y.P., and Korchak, Y.A. (2008): Geology of Ore Deposits 50(8), 720-731.
    • Kolsky District
Kogarko, L.N. et al (1995) Alkaline Rocks and Carbonatites of the World Vol 2.
Mikhailova, J. A., Kalashnikov, A. O., Sokharev, V. A., Pakhomovsky, Y. A., Konopleva, N. G., Yakovenchuk, V. N., ... & Ivanyuk, G. Y. (2016). 3D mineralogical mapping of the Kovdor phoscorite–carbonatite complex (Russia). Mineralium Deposita, 51(1), 131-149.
I. V. Pekov, N. V. Chukanov, I. M. Kulikova & D. L. Belakovsky (2006), Proceedings of the Russian Mineralogical Society 135(3), 52–60
Arzamastseva, L.V., Pakhomovsky, Ya.A. [Арзамасцева, Л.В., Пахомовский Я.А.] (1999): Mineral associations in rocks of Niva agpaitic intrusion (Kola Peninsula) as indicators of its forming conditions [Минеральные ассоциации пород агпаитовой интрузии Нива (Кольский Полуостров) как индикаторы условий ее образования]. Zap. VMO [Зап. ВМО], 128, 6, 1-16 (in Russian); Arzamastsev, A.A., Belyatsky, B.V., Arzamastseva, L.V. (2000): Agpaitic magmatism in the northeastern Baltic Shield: a study of the Niva intrusion, Kola Peninsula, Russia. Lithos, 51, 1, 27-46.
    • Northern Karelia
Zaitsev, A. N., Sitnikova, M. A., Subbotin, V. V., Fernández-Suárez, J., Jeffries, T. E., & Wall, F. (2004). Sallanlatvi complex—a rare example of magnesite and siderite carbonatites. Phoscorites and carbonatites from mantle to mine: the key example of the Kola Alkaline Province. Mineralogical Society, London, 201-245.
Lyalina, L.M., Savchenko Ye. E., Selivanova E. A., Zozulya D. R. (2009): Behoite and mimetite from Sakhariok alkaline massif (Kola Peninsula). Zapiski RMO (Proceedings of the Russian Mineralogical Society), 138 (3): 118-126 (in russian); Lyalina, L., Zolotarev Jr, A., Selivanova, E., Savchenko, Y., Zozulya, D., Krivovichev, S., & Mikhailova, Y. (2015). Structural characterization and composition of Y-rich hainite from Sakharjok nepheline syenite pegmatite (Kola Peninsula, Russia). Mineralogy and Petrology, 1-9.; Liferovich, R. P., Mitchell, R. H., Zozulya, D. R., & Shpachenko, A. K. (2006). Paragenesis and composition of banalsite, stronalsite, and their solid solution in nepheline syenite and ultramafic alkaline rocks. The Canadian Mineralogist, 44(4), 929-942.; Lyalina, L., Selivanova, E., Zozulya, D., & Ivanyuk, G. (2019). Beryllium Mineralogy of the Kola Peninsula, Russia—A Review. Minerals, 9(1), 12.
    • Turii Cape
www.koeln.netsurf.de/~w.steffens/tury.htm
  • Sakha Republic (Yakutia)
      • Aldan
Petrography, geochemistry, and isotopic dating of eruptive breccias of the Ryabinovoe Au–Cu porphyry deposit (South Yakutiya). in Abdurrahman, A., J. C. Ø. Andersen, and B. J. Williamson. "Meeting of the Geological Society’s Mineral Deposits Studies Group was held on the 2nd–4th January 2013 at the University of Leicester, UK." Applied Earth Science (Trans. Inst. Min. Metall. B) 121.4 (2012): 202.
    • Mirninsky District
      • Daldyn
http://web.utk.edu/~lataylor/pub-list/FLA_0084.pdf , M. Anand et al. , 8th International Kimberlite Conference Long Abstract
  • Sakhalin Oblast
    • Kuril Islands (Kurile Islands)
      • Iturup Island
Yudovskaya, M. A., Distler, V. V., Chaplygin, I. V., Mokhov, A. V., Trubkin, N. V., & Gorbacheva, S. A. (2006). Gaseous transport and deposition of gold in magmatic fluid: evidence from the active Kudryavy volcano, Kurile Islands. Mineralium Deposita, 40(8), 828.
    • Sakhalin Island
      • Morotu (Morotsu; Morutu)
Yagi, K. (1953) Bull. Geol. Soc. Am., 64, 769-810.
  • 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.
  • Zabaykalsky Krai
    • Yeniseisk Autonomous Oblast
Andrey Vishnevskiy/Novosibirsk State University
Saint Helena
 
  • Tristan da Cunha Island
Le Roex, A. P. (1985) Geochemistry, mineralogy and magmatic evolution of the basaltic and trachytic lavas from Gough Island, South Atlantic. Journal of Petrology, 26, 149–186.
Slovakia
 
  • Banská Bystrica Region
    • Lučenec Co.
Koděra, M. et al., 1986 a 1990 : Topografická mineralógia Slovenska, diel 1- 3, Veda – Vydavateľstvo SAV, Bratislava, 1990, 1 – 1590k
    • Rimavská Sobota Co.
Koděra, M. et al., 1986 a 1990 : Topografická mineralógia Slovenska, diel 1- 3, Veda – Vydavateľstvo SAV, Bratislava, 1990, 1 – 1590k
South Africa
 
  • Northern Cape
Gutzmer, J. (1996). Genesis and alteration of the Kalahari and Postmasburg manganese deposits, Griqualand West, South Africa (Doctoral dissertation, Rand Afrikaans University).
    • Namakwa
      • Kamiesberg
Berger, V.I., Singer, D.A., and Orris, G.J. (2009): USGS Open-File Report 09-1139
South Korea
 
  • North Gyeongsang Province
    • Ulleung-gun
Atsuo Harumoto (1970) Volcanic Rocks and Associated Rocks of Utsuryoto Island, (Japan Sea). (39pp + geological map)
Spain
 
  • Andalusia
    • Huelva
Eur. J. Mineral. , 1993, 5, pp. 961-970.
  • Canary Islands
    • Las Palmas Province
      • Fuerteventura
        • Fuerteventura Basal Complex
J. Mangas & F. J. Pérez Torrado, R. M. Reguilón, A. Martín-Izard (1997): Rare earth minerals in carbonatites of Basal Complex of Fuerteventura (Canary Islands, Spain). In: Papunen, H. (Ed.), Mineral Deposits: Research and exploration - where do they meet? Balkema, Rotterdam, pp. 475-478. [http://acceda.ulpgc.es/bitstream/10553/1784/1/4459.pdf]
Groznova M.V., Kogarko L.N.. Senin V.G. (2001) Mineral composition of silicocarbonatites from Fuertaventura Island. in Abstracts – GEODE field workshop 8-12th July 2001 on ilmenite deposits in the Rogaland anorthosite province, S. Norway.
J. Mangas & F. J. Pérez Torrado, R. M. Reguilón, A. Martín-Izard (1997): Rare earth minerals in carbonatites of Basal Complex of Fuerteventura (Canary Islands, Spain). In: Papunen, H. (Ed.), Mineral Deposits: Research and exploration - where do they meet? Balkema, Rotterdam, pp. 475-478. [http://acceda.ulpgc.es/bitstream/10553/1784/1/4459.pdf]
      • Gran Canaria
        • Arucas
Hernandez-Pacheco, A., (1969): The Tahitites of Gran Canaria and their haüynitization, Bulletin volcanologique, Vol. 33, 701-728
Hernandez-Pacheco, A., (1969): The Tahitites of Gran Canaria and their haüynitization, Bulletin volcanologique, Vol. 33, 701-728
V.R. Troll et al. , Contrib. Mineral. Petrol. , 2003, 145, PP. 730-741.
    • Santa Cruz de Tenerife Province
      • Tenerife
Ferguson, A.K. (1978): The occurence of Ramseyite, Titan-Lavenite and a fluorine-rich Eucolite in a nepheline-syenite inclusion from Tenerife, Canary Islands, Contrib Mineral Petrol 66, 15-20.
  • Community of Madrid
    • Manzanares el Real
Caballero, Jose M.; Monge, Angeles; La Iglesia, Angel; Tornos, Fernando (1998) Ferri-clinoholmquistite, Li2(Fe2+,Mg)3Fe(3+)2Si8O22(OH)2, a new B Li clinoamphibole from the Pedriza Massif, Sierra de Guadarrama, Spanish Central System. American Mineralogist: 83: 167-171.
Sweden
 
  • Dalarna County
    • Älvdalen
      • Särna
No reference listed
  • Jönköping County
    • Jönköping
      • Gränna
Adamson, O. J. (1944): The Petrology of the Norra Kärr District. An occurrence of alkaline Rocks in Southern Sweden. Geologiska Föreningen i Stockholm Förhandlingar, 66: 112-255; Thulin, H. (1996): Norra Kärr. Litiofilen 13: 17-51
  • Örebro County
    • Lindesberg
Roy, S. (1972). Metamorphism of sedimentary manganese deposits. Acta Mineralogica-Petrographica, 20(2), 325-336.
Natural History Museum, Stockholm collection # 19331358
Koark, H. (1970): Zur Geologie des Neuentdeckten Jakobsit-Braunit-Hämatit-Mangansilikatlagers Slöjdartorp im Nybergetfelde in Zentralschweden. Geologiska Föreningen i Stockholm Förhandlingar (GFF). 92, 388-401
  • Värmland County
    • Filipstad
Sjögren, H. (1894): Contributions to Swedish mineralogy. Bull. Geol. Inst. Univ. Upsala. 2 (3), 39-74.
      • Nordmark district
        • Jakobsberg ore field
Holtstam, D. & Norrestam, R. (1993): Lindqvistite Pb2MeFe16O27,a novel hexagonal ferrite mineral from Jakobsberg, Filipstad, Sweden. American Mineralogist. 78, 1304-1312
      • Persberg ore district
        • Pajsberg
Nysten, P. (2004): Harstigen ett mineralogisk eldorado i Bergslagen. Norsk Bergverksmuseum Skrift 28: 5-13
  • Västernorrland County
    • Sundsvall
      • Alnö
Sandström, F., Binett, T., Wiklund, C. & Vikström, J. (2010): Alnöområdets geologi och mineralogi. Litiofilen. 27 (2) :14-42
  • Västmanland County
    • Norberg
Ounchanum, P. & Morad, S. (1987): Paragenesis of akatoreite and ganophyllite in the manganiferous rocks of the Häste Field, Norberg ore district, central Sweden. Neues Jahrbuch für Mineralogie, Abhandlungen 157, 225-244.
Switzerland
 
  • Grisons
    • Engadin
      • Piz Corvatsch
Stalder, H. A., Wagner, A., Graeser, S. and Stuker, P. (1998): "Mineralienlexikon der Schweiz", Verlag Wepf & Co. (Basel), p. 23
Tajikistan
 
  • Districts of Republican Subordination
http://www.koeln.netsurf.de/~w.steffens/dara.htm
Tanzania
 
  • Arusha region
    • 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
  • Mbeya Region
Mineralogical Magazine 1964 33 : 1057-1065.
Uganda
 
  • Eastern Region
    • Mbale District
Sutherland, D.S. (1969). Contributions to Mineralogy and Petrology 24, 114-135.
    • Tororo District
Sutherland, D.S. (1969). Contributions to Mineralogy and Petrology 24, 114-135.
UK
 
  • Scotland
    • Argyll and Bute
      • Isle of Mull
http://jncc.defra.gov.uk/pdf/gcrdb/GCRsiteaccount21.pdf
Ukraine
 
  • Zhytomyr Oblast
USA
 
  • California
    • San Bernardino Co.
      • Clark Mts (Clark Mountain Range)
        • Mountain Pass District
          • Mountain Pass
USGS Bulletin 2160
  • Colorado
    • Fremont Co.
USGS Prof Paper 649
Wolley, A. R. (1987), Alkaline Rocks and Carbonatites of the World, Part I, North and South America. London: British Museum of Natural History; University of Texas Press.
    • New London Co.
      • Waterford
Dale, T. Nelson and Gregory Herbert E. (1911): The Granites of Connecticut (USGS Bulletin 484).; Macrostrat.org rock unit description.
  • Illinois
    • Hardin Co.
      • Hicks
Alkaline Rocks and Carboratites of the World Part I, North & South America, 1987, Wolley, A, R,
  • Maine
    • Kennebec Co.
      • Litchfield
King, V. and Foord, E., 1994, Mineralogy of Maine, volume 1.; West, D. P., Bradley, D., & Coish, R. (2016). The Litchfield pluton in south-central Maine: Carboniferous alkalic magmatism in northern New England, USA. Atlantic Geology, 52, 169-187.
    • York Co.
      • Newfield
        • Straw Hill
Gilman, R., 1978, Bedrock Gepology of the Newfield 15' Quadrangle, Maine, ME Geol Surv OF-78-10.
      • Parsonsfield
Gilman, R., 1978, Bedrock Gepology of the Newfield 15' Quadrangle, Maine, ME Geol Surv OF-78-10.
      • Shapleigh
Gilman, R., 1978, Bedrock Gepology of the Newfield 15' Quadrangle, Maine, ME Geol Surv OF-78-10.
      • York
King, V. and Foord, E., 1994, Mineralogy of Maine, Descriptive Mineralogy, volume 1, Maine Geological Survey, pp. 418 + 88 plates.
Gilman, R., 1978, Bedrock Gepology of the Newfield 15' Quadrangle, Maine, ME Geol Surv OF-78-10.
  • Massachusetts
    • Essex Co.
Washington H., 1898. The Journal of Geology, v. VI
  • Montana
    • Lincoln Co.
      • Libby Mining District (Snowshoe Mining District)
        • Libby
Larsen, E. S. & Hunt, W.F. (1913) Two vanadiferous aegirites from Libby, Montana American Journal of Science. 36: 290- 296; cfr Deer, W. A., Howie, R.A. & Zussman, J. (1997) Rock-Forming Minerals: Single-chain Silicates, Volume 2A. Geological Society of London, 1997. 668p. (p.495)
    • Meagher Co.
American Mineralogist 50:291-292
www.cseg.ca/conferences/2000/376.PDF; Chakhmouradian A.R., Mitchell R.H. (2002): The mineralogy of Ba- and Zr-rich alkaline pegmatites from Gordon Butte, Crazy Mountains (Montana, USA): comparisons between potassic and sodic agpaitic pegmatites. Contrib. Mineral. Petrol., 143, 93-114.
  • New Hampshire
    • Carroll Co.
      • Moultonborough
Alkaline Rocks and Carboratites of the World, Part1,North &South America,1987, Wolley,A,R,
    • Grafton Co.
Williams, Turner, Gilbert, 1954. Petrography
  • New Jersey
    • Sussex Co.
      • Franklin Mining District
        • Franklin
Dunn (1995), Frondel and Ito (1966)
Van King
      • Wantage Township
        • Libertyville
Eby, G. N. (2004) Petrology, geochronology, mineralogy, and geochemistry of the Beemerville alkaline complex, northern New Jersey. In Puffer, J. H. and Volkert, R. A. (eds.) Neoproterozoic, Paleozoic, and Mesozoic Intrusive Rocks of Northern New Jersey and Southeastern New York. Twenty-First Annual Meeting Geological Association of New Jersey, Mahwah, NJ, pp. 52-68.
  • North Carolina
    • Haywood Co.
Anderson,Eric Douglas and Moecher,David P, (2009) Formation Of High-Pressure Metabasites In The Southern Appalachian Blue Ridge via Taconic Continental Subduction Beneath The Laurentian Margin: Tectonic Vol 28 (5) October
  • Oregon
    • Lincoln Co.
McLEMORE, V. T. (2006). Nepheline Syenite. Industrial Mineral and Rocks, 7th Edition, Kogel, JE, Trivedi, NC, Barker, JM and Krukowsk, ST (Seniors Editors), Society of Mining, Metallurgy, and Exploration, Inc. Littleton, Colorado, 653-670.
  • Utah
    • Grand Co.
      • La Sal Mts
        • North Mountain
www.koeln.netsurf.de/~w.steffens/usa.htm.
  • Vermont
    • Rutland Co.
      • Shrewsbury
Eggleston, J. W., 1918, Eruptive rocks at Cuttingsville, Vermont: Am. Jour. Sci., v. 45 (4th series), p. 377-410.
Zimbabwe
 
  • Midlands
    • Zvishavane District
      • Zvishavane (Shabani; Shabanie; Shavani)
www.venuewest.com/8IKC/s1post.htm.
 
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