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Sodalite

This page kindly sponsored by John Kashuba
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About SodaliteHide

Formula:
Na4(Si3Al3)O12Cl
Some K substitutes for Na in the grey-white Afghan sodalites. Hackmanite was originally defined as containing S. The brilliant yellow fluorescence arises from a disulfide ion with a negative charge replacing the Cl.
Colour:
All Colours
Lustre:
Vitreous, Greasy
Hardness:
5½ - 6
Specific Gravity:
2.27 - 2.33
Crystal System:
Isometric
Name:
The name reflects its sodium content.
Sodalite Group. Also classed as a feldspathoid.

Ideally sodalite has Na4Cl in the two cages in the unit cell. Unlike haüyne and nosean, sodalite is virtually CO2-free (Bellatreccia et al., 2009).

In some sodalites, the aluminosilicate cages appear to contain only Na and Cl according to EDS spectra.
Unlike haüyne and lazurite, Ca and K are seldom in the cages. The grey sodalites from Afghanistan contain minor K.
The white variety hackmanite is reported to contain S, but EDS studies show if it is there, it often occurs below detection limits (~1%) (R.W.M. Woodside, unpublished data).

The photoluminescence effect in sodalite may be connected with admixture of sulfur (presence of S enlarges the unit cell). Sodalite is also photochromic likely due to formation of F-centers (Zahoransky et al., 2016).

Visit gemdat.org for gemological information about Sodalite.


Classification of SodaliteHide

Approved, 'Grandfathered' (first described prior to 1959)
9.FB.10

9 : SILICATES (Germanates)
F : Tektosilicates without zeolitic H2O
B : Tektosilicates with additional anions
76.2.3.1

76 : TECTOSILICATES Al-Si Framework
2 : Al-Si Framework Feldspathoids and related species
17.3.3

17 : Silicates Containing other Anions
3 : Silicates with chloride (including aluminosilicates)

Physical Properties of SodaliteHide

Vitreous, Greasy
Transparency:
Transparent, Translucent
Colour:
All Colours
Comment:
Colourless, white, light yellow, green, light to very dark blue, gray, pink to violet
Streak:
White
Hardness:
5½ - 6 on Mohs scale
Tenacity:
Brittle
Cleavage:
Poor/Indistinct
Poor on {110}
Fracture:
Sub-Conchoidal
Density:
2.27 - 2.33 g/cm3 (Measured)    2.31 g/cm3 (Calculated)

Optical Data of SodaliteHide

Type:
Isotropic
RI values:
n = 1.483 - 1.487
Birefringence:
Isotropic minerals have no birefringence
Surface Relief:
Moderate
Pleochroism:
Non-pleochroic

Chemical Properties of SodaliteHide

Formula:
Na4(Si3Al3)O12Cl

Some K substitutes for Na in the grey-white Afghan sodalites. Hackmanite was originally defined as containing S. The brilliant yellow fluorescence arises from a disulfide ion with a negative charge replacing the Cl.
Common Impurities:
Fe,Mn,K,Ca,H2O,S,Br

Crystallography of SodaliteHide

Crystal System:
Isometric
Class (H-M):
4 3m - Hextetrahedral
Space Group:
P4 3n
Cell Parameters:
a = 8.876(6) Å
Unit Cell V:
699.28 ų (Calculated from Unit Cell)
Z:
1
Morphology:
Crystals rare, dodecahedron.
Twinning:
Common on {111} forming pseudohexagonal prisms. (This may not be twinning, but merely elongated growth in the (111) direction). Twinning can occur in these elongated crystals. These have re-entrants in the terminations and 6 terminal faces instead of 3 for an elongated dodecahedron.
Comment:
Range: 8.870 - 8.882 A.

Crystal StructureHide

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IDSpeciesReferenceLinkYearLocalityPressure (GPa)Temp (K)
0003407SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003408SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003409SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003410SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003411SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003412SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003413SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003414SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003415SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003416SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003417SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003418SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003419SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0003420SodaliteHassan I, Antao S M, Parise J B (2004) Sodalite: High-temperature structures obtained from synchrotron radiation and Rietveld refinements American Mineralogist 89 359-36420040293
0005193SodalitePeterson R C (1983) The structure of hackmanite, a variety of sodalite, from Mont St-Hilaire, Quebec The Canadian Mineralogist 21 549-5521983Mont St-Hilaire, Quebec, Canada0293
0006211SodaliteAntao S M, Hassan I, Wang J, Lee P L, Toby B H (2008) State-of-the-art high-resolution powder x-ray diffraction (HRPXRD) illustrated with Rietveld structure refinement of quartz, sodalite, tremolite, and meionite The Canadian Mineralogist 46 1501-15092008Bancroft, Ontario0293
0006394SodaliteHan S, Smith J V, Pluth J J, Richardson J W (1990) Crystal structure of MAPO-20 sodalite: theoretical analysis of three-color ordering of Mg, Al and P in a sodalite unit European Journal of Mineralogy 2 787-79819900293
0006395SodaliteHan S, Smith J V, Pluth J J, Richardson J W (1990) Crystal structure of MAPO-20 sodalite: theoretical analysis of three-color ordering of Mg, Al and P in a sodalite unit European Journal of Mineralogy 2 787-79819900293
0006396SodaliteHan S, Smith J V, Pluth J J, Richardson J W (1990) Crystal structure of MAPO-20 sodalite: theoretical analysis of three-color ordering of Mg, Al and P in a sodalite unit European Journal of Mineralogy 2 787-79819900295
0006397SodaliteHan S, Smith J V, Pluth J J, Richardson J W (1990) Crystal structure of MAPO-20 sodalite: theoretical analysis of three-color ordering of Mg, Al and P in a sodalite unit European Journal of Mineralogy 2 787-79819900200
0006398SodaliteHan S, Smith J V, Pluth J J, Richardson J W (1990) Crystal structure of MAPO-20 sodalite: theoretical analysis of three-color ordering of Mg, Al and P in a sodalite unit European Journal of Mineralogy 2 787-7981990020
0007133SodaliteBallirano P, Maras A (2005) Crystal chemical and structural characterization of an unusual CO3-bearing sodalite-group mineral European Journal of Mineralogy 17 805-8122005Mt. Vesuvio, Italy0293
0009790SodaliteHassan I, Grundy H (1984) The crystal structures of sodalite-group minerals _cod_database_code 1000028 Acta Crystallographica B40 6-1319840293
0018060SodalitePauling L (1930) The structure of sodalite and helvite _cod_database_code 1011185 Zeitschrift fur Kristallographie 74 213-22519300293
0018028SodaliteBarth T (1932) The structures of the minerals of the sodalite family _cod_database_code 1011139 Zeitschrift fur Kristallographie 83 405-41419320293
CIF Raw Data - click here to close

X-Ray Powder DiffractionHide

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Radiation - Copper Kα
Data Set:
Data courtesy of RRUFF project at University of Arizona, used with permission.

Geological EnvironmentHide

Geological Setting:
Sodalites occur:
- in alkaline intrusives (Princess Mine, Bancroft, Ontario, Canada);
- in alkaline pegmatites (Mont St Hilaire, Quebec, Canada);
- in carbonatites (Magnet Cove, Arkansas, USA);
- in marble skarns or metasomatized calcareous rocks (Ladjuar Medan, Sar-e-Sang, Afghanistan);
- in phonolites and volcanic ejecta (Mount Vesuvius, Italy).

Type Occurrence of SodaliteHide

Geological Setting of Type Material:
Nepheline Seyenite

Synonyms of SodaliteHide

Other Language Names for SodaliteHide

Varieties of SodaliteHide

Germanate-sodaliteAn artificial Sodalite with Ge in place of Si
MolybdosodaliteA variety of sodalite containing molybdenum oxide.

Relationship of Sodalite to other SpeciesHide

Other Members of this group:
Haüyne(Na,K)3(Ca,Na)(Al3Si3O12)(SO4,S,Cl)Iso. 4 3m : P4 3n
LazuriteNa6Ca2(Al6Si6O24)(SO4,S,S2,S3,Cl,OH)2Iso. 4 3m : P4 3n
NoseanNa8(Al6Si6O24)(SO4) · H2OIso. 4 3m : P4 3n
Tsaregorodtsevite(N(CH3)4)(AlSi5O12)Orth.
VladimirivanoviteNa6Ca2(Al6Si6O24)(SO4,S3,S2,Cl)2 · H2OOrth. mmm (2/m 2/m 2/m)

Common AssociatesHide

AegirineNaFe3+Si2O6
AlbiteNa(AlSi3O8)
AndraditeCa3Fe3+2(SiO4)3
AnkeriteCa(Fe2+,Mg)(CO3)2
BaryteBaSO4
CalciteCaCO3
Cancrinite(Na,Ca,◻)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
FluoriteCaF2
MicroclineK(AlSi3O8)
NephelineNa3K(Al4Si4O16)
SanidineK(AlSi3O8)
Associated Minerals Based on Photo Data:
50 photos of Sodalite associated with CalciteCaCO3
47 photos of Sodalite associated with Cancrinite(Na,Ca,◻)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
32 photos of Sodalite associated with NephelineNa3K(Al4Si4O16)
28 photos of Sodalite associated with PyriteFeS2
25 photos of Sodalite associated with AegirineNaFe3+Si2O6
22 photos of Sodalite associated with UssingiteNa2AlSi3O8OH
15 photos of Sodalite associated with PhlogopiteKMg3(AlSi3O10)(OH)2
15 photos of Sodalite associated with AnalcimeNa(AlSi2O6) · H2O
15 photos of Sodalite associated with AnniteKFe2+3(AlSi3O10)(OH)2
13 photos of Sodalite associated with Feldspar Group

Related Minerals - Nickel-Strunz GroupingHide

9.FB.05Afghanite(Na,K)22Ca10(Si24Al24O96)(SO4)6Cl6Trig. 3m : P3 1c
9.FB.05Bystrite(Na,K)7Ca(Al6Si6O24)(S5)ClHex.
9.FB.05Cancrinite(Na,Ca,◻)8(Al6Si6O24)(CO3,SO4)2 · 2H2OHex. 6 : P63
9.FB.05CancrisiliteNa7(Al5Si7O24)(CO3) · 3H2OHex.
9.FB.05Davyne(Na,K)6Ca2(Al6Si6O24)(Cl2,SO4)2Hex. 6/m : P63/m
9.FB.05Franzinite(Na,K)6Ca2(Al6Si6O24)(SO4)2 · 0.5H2OHex.
9.FB.05Giuseppettite(Na,K,Ca)7-8(Al6Si6O24)(SO4,Cl)1-2Trig. 3m : P3 1c
9.FB.05HydroxycancriniteNa8(Al6Si6O24)(OH)2 · 2H2OHex.
9.FB.05Liottite(Na,K)16Ca8(Al6Si6O24)3(SO4)5Cl4Hex. 6 : P6
9.FB.05MicrosommiteNa4K2Ca2(Al6Si6O24)(SO4)Cl2Hex.
9.FB.05PitiglianoiteNa6K2(Al6Si6O24)(SO4) · 2H2OHex.
9.FB.05Quadridavyne(Na,K)6Ca2(Al6Si6O24)Cl4Hex.
9.FB.05Sacrofanite(Na61K19Ca32)(Si84Al84O336)(SO4)26Cl2F6 · 2H2OHex.
9.FB.05Tounkite(Na,Ca,K)8(Al6Si6O24)(SO4)2Cl · H2OHex.
9.FB.05Vishnevite(Na,K)8(Al6Si6O24)(SO4,CO3) · 2H2OHex. 6 : P63
9.FB.05Marinellite(Na,K)42Ca6(Al6Si6O24)6(SO4)8Cl2 · 3H2OTrig. 3m : P3 1c
9.FB.05Farneseite(Na,Ca,K)56(Al6Si6O24)7(SO4)12 · 6H2OHex. 6/m : P63/m
9.FB.05Alloriite(Na,Ca,K)26Ca4(Al6Si6O24)4(SO4)6Cl6Trig. 3m : P3 1c
9.FB.05Biachellaite(Na,Ca,K)8(Al6Si6O24)(SO4)2(OH)0.5 · H2OTrig. 3 : P3
9.FB.05Fantappièite[Na82.5Ca33K16.5](Si99Al99O396)(SO4)33 · 4H2OTrig. 3 : R3
9.FB.05KyanoxaliteNa7(Al6-xSi6+xO24)(C2O4)0.5+x · 5H2O (0 < x < 0.5)Hex. 6 : P63
9.FB.05Balliranoite(Na,K)6Ca2(Si6Al6O24)Cl2(CO3)Hex. 6 : P63
9.FB.05CarbobystriteNa8(Al6Si6O24)(CO3) · 3.5H2OTrig. 3m : P3 1c
9.FB.05DepmeieriteNa8(Al6Si6O24)(PO4,CO3)1-x · 3H2O (xHex. 6 : P63
9.FB.05KircheriteNa5Ca2K(Al6Si6O24)(SO4)2 · 0.33H2OTrig. 3 2 : R3 2
9.FB.10BicchuliteCa2(Al2SiO6)(OH)2Iso. 4 3m : I4 3m
9.FB.10DanaliteBe3Fe2+4(SiO4)3SIso. 4 3m : P4 3n
9.FB.10GenthelviteBe3Zn4(SiO4)3SIso. 4 3m : P4 3n
9.FB.10Haüyne(Na,K)3(Ca,Na)(Al3Si3O12)(SO4,S,Cl)Iso. 4 3m : P4 3n
9.FB.10HelvineBe3Mn2+4(SiO4)3SIso. 4 3m : P4 3n
9.FB.10KamaishiliteCa2(Al2SiO6)(OH)2Tet.
9.FB.10LazuriteNa6Ca2(Al6Si6O24)(SO4,S,S2,S3,Cl,OH)2Iso. 4 3m : P4 3n
9.FB.10NoseanNa8(Al6Si6O24)(SO4) · H2OIso. 4 3m : P4 3n
9.FB.10Tsaregorodtsevite(N(CH3)4)(AlSi5O12)Orth.
9.FB.10TugtupiteNa4BeAlSi4O12ClTet. 4 : I4
9.FB.15MarialiteNa4Al3Si9O24ClTet. 4/m : I4/m
9.FB.15MeioniteCa4Al6Si6O24CO3Tet. 4/m : I4/m
9.FB.15Silvialite(Ca,Na)4(Al6Si6O24)(SO4,CO3)Tet. 4/m : I4/m

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

76.2.3.2NoseanNa8(Al6Si6O24)(SO4) · H2OIso. 4 3m : P4 3n
76.2.3.3Haüyne(Na,K)3(Ca,Na)(Al3Si3O12)(SO4,S,Cl)Iso. 4 3m : P4 3n
76.2.3.4LazuriteNa6Ca2(Al6Si6O24)(SO4,S,S2,S3,Cl,OH)2Iso. 4 3m : P4 3n
76.2.3.5BicchuliteCa2(Al2SiO6)(OH)2Iso. 4 3m : I4 3m
76.2.3.6KamaishiliteCa2(Al2SiO6)(OH)2Tet.
76.2.3.7TugtupiteNa4BeAlSi4O12ClTet. 4 : I4
76.2.3.8Tsaregorodtsevite(N(CH3)4)(AlSi5O12)Orth.

Related Minerals - Hey's Chemical Index of Minerals GroupingHide

17.3.1RustumiteCa10(Si2O7)2(SiO4)(OH)2Cl2Mon.
17.3.2ZunyiteAl13Si5O20(OH,F)18ClIso. 4 3m : F4 3m
17.3.4MarialiteNa4Al3Si9O24ClTet. 4/m : I4/m
17.3.5TugtupiteNa4BeAlSi4O12ClTet. 4 : I4
17.3.6Eudialyte(Na3Na3Na3Na3Na3)Ca6(IVFe2+3)Zr3[Si3O9]2[Si9O27SiO][Si9O27SiO]Cl(H2O)Trig. 3m (3 2/m) : R3m
17.3.7AlluaiviteNa19(Ca,Mn)6(Ti,Nb)3Si26O74Cl · 2H2OTrig. 3m (3 2/m) : R3m
17.3.8NasonitePb6Ca4(Si2O7)3Cl2Hex.
17.3.9AsisitePb7SiO9Cl2Tet. 4/mmm (4/m 2/m 2/m) : I4/mmm
17.3.10JagoitePb18Fe3+4[Si4(Si,Fe3+)6][Pb4Si16(Si,Fe)4]O82Cl6Hex.
17.3.11FriedeliteMn2+8Si6O15(OH,Cl)10Mon. 2/m : B2/m
17.3.12Pyrosmalite-(Fe)Fe2+8Si6O15(OH,Cl)10Trig. 3m (3 2/m) : P3m1
17.3.13Pyrosmalite
17.3.14Pyrosmalite-(Mn)Mn2+8Si6O15(OH,Cl)10Trig.
17.3.16Mcgillite(Mn,Fe)8Si6O15(OH)8Cl2Mon. 2/m : B2/m
17.3.17TraskiteBa21Ca(Fe2+,Mn,Ti)4(Ti,Fe,Mg)12(Si12O36)(Si2O7)6(O,OH)30Cl6 · 14H2O Hex.
17.3.18MuiriteBa10Ca2Mn2+Ti[HSi2O7]5(OH,Cl,F)5Tet. 4/mmm (4/m 2/m 2/m) : P4/mmm
17.3.19VerplanckiteBa2(Mn,Fe,Ti)Si2O6(O,OH,Cl,F)2 · 3H2O or nearHex.

Fluorescence of SodaliteHide

Bright red-orange under SW UV and blue, white, pink, red, yellow LW UV.
Cathodoluminescent (the effect is quenched by high concentrations of S, as shown by Zahoransky et al., 2016).
Yellowish phosphorescence may be photochromic in magentas.

Other InformationHide

Notes:
May give off odor of H2S on fracture.
Health Risks:
No information on health risks for this material has been entered into the database. You should always treat mineral specimens with care.

Sodalite in petrologyHide

References for SodaliteHide

Reference List:
Sort by Year (asc) | by Year (desc) | by Author (A-Z) | by Author (Z-A)
Thomson, T. (1811): A chemical analysis of Sodalite, a new mineral from Greenland. Journal of natural Philosophy, Chemistry and the Arts, 29, 285-292.
Thomson, T. (1811): Einige mineralogische Merkwürdigkeiten, 1) Drei grönländische Mineralien (Sodalith, Allanit, Chryolit), Annalen der Physik und Chemie, 39, 127.
Dunin Barkowski, St. (1819): Sodalith entdeckt am Vesuv (Fosso grande). Annalen der Physik und Chemie, 63, 382.
Van Peteghem, J.K. and Burley, B.J. (1963) Studies on solid solution between sodalite, nosean, and hauyne. Canadian Mineralogist: 7: 808-813.
Annersten, H. & Hassib, A. (1979): Blue sodalite. Canadian Mineralogist, 17, 39-46.
Acta Crystallographica (1984): B40: 6-13.
Zeitschrift für Kristallographie (1992): 199: 75.
Bellatreccia, F., Della Ventura, G., Piccinini, M. Cavallo, A. and Brilli, M. (2009): H2O and CO2 in minerals of the haüyne-sodalite group: an FTIR spectroscopy study. Mineralogical Magazine 73, 399-413.
Zahoransky, T., Friis, H., Marks, M.A.W. (2016): Luminescence and tenebrescence of natural sodalites: a chemical and structural study. Physics and Chemistry of Minerals: 43 (in press); http://forum.amiminerals.it/viewtopic.php?f=5&t=12694 (2016)

Internet Links for SodaliteHide

Localities for SodaliteHide

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

Locality ListHide

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

All localities listed without proper references should be considered as questionable.
Afghanistan
 
  • Badakhshan
    • Khash & Kuran Wa Munjan Districts
[www.thamesvalleyminerals.com]
Rob Lavinsky
        • Sar-e Sang (Sar Sang; Sary Sang)
Journal of Petrology 43(4):725-747 (2002); Mineralogical Record (2001) 32:253; Weiss, S. (2009): Lapis 34 (12): 6
TVM Specimen
RWMW Collection
RRUFF collection
RWMW Collection
Moore, T.P.,Woodside, R.M.W. (2014): The Sar-e-Sang Lapis Mines, Kuran Wa Munjan district, Badakhshan Province, Afghanistan. Mineralogical Record 45 (3), 280-336.
Rob Woodside collection
  • Wardak
    • Nirkh District
Orris, G.J., and Bliss, J.D. (2002): Mines and Mineral Occurrences of Afghanistan. United States Geological Survey Open-File Report 02-110
Angola
 
  • Huambo Province
    • Londuimbali
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
      • Queen Fabiola Mts (Yamato Mts)
Hiyagon, H. & Hashimoto, A. (1999). An Ion Microprobe Study of Oxygen Isotopes in Various Types of Inclusions in Y-82050 (CO3), ALH-77307 (CO3) and Y-86009 (CV3) Chondrites (abstract): 30th Annual Lunar and Planetary Science Conference, abstract no. 1319. (Mar 1999).
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.
    • Transantarctic Mountains
      • Buckley Island quadrangle
        • Lewis Cliff
Mishra, R.K. al. (2015) Na, K-Rich Rim Around a Chondrule in Unequilibrated Ordinary Chondrite LEW 86018 (L3.1): Lunar and Planetary Science Conference XLVI: 2994.pdf. (March 2015).
    • 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.
        • Cape Adare
Smith, W. C. (1959). The Volcanic Rocks of Cape Adare, South Victoria Land. order of the Trustees of the British Museum; sold by B. Quaritch [and others].
      • Allan Hills
Kimura, M. & Ikeda, Y. (1997) Chlorine-bearing Phases in Ordinary Chondrites: Meteoritics & Planetary Science 32 (4, Suppl.): page A72. (July 1997).
Kimura, M. & Ikeda, Y. (1997) Chlorine-bearing Phases in Ordinary Chondrites: Meteoritics & Planetary Science 32 (4, Supplement): page A72. (July 1997); Kimura, M. & Ikeda, Y. (1997) Chlorine-bearing Phases in Ordinary Chondrites: Meteoritics & Planetary Science 32 (4, Suppl.): p. A72. (July 1997).
Nardini, I., Armienti, P., Rocchi, S., & Burgess, R. (2003). ^ 4^ 0Ar-^ 3^ 9Ar Chronology and Petrology of the Miocene Rift-related Volcanism of Daniell Peninsula (Northern Victoria Land, Antarctica). Terra Antartica, 10, 39-62.
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
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
Kyle, P. R. (1981). Mineralogy and geochemistry of a basanite to phonolite sequence at Hut Point Peninsula, Antarctica, based on core from Dry Valley Drilling Project Drillholes 1, 2 and 3. Journal of Petrology, 22(4), 451-500.
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 18
  • Western Antarctica
    • Marie Byrd Land
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p. 6 LeMasurier, W. E., Thomson, J. W., Baker, P. E., Kyle, P. R., Rowley, P. D., Smellie, J. L., & Verwoerd, W. J. (1990). Volcanoes of the Antarctic Plate and Southern Ocean (Vol. 48). American Geophysical Union, 169-174 LeMasurier, W. E., Choi, S. H., Hart, S. R., Mukasa, S., & Rogers, N. (2016). Reconciling the shadow of a subduction signature with rift geochemistry and tectonic environment in Eastern Marie Byrd Land, Antarctica. Lithos, 260, 134-153.
Argentina
 
  • Mendoza Province
Pagano, D.S., Galliski, M.Á., Márquez-Zavalía, M.F., Colombo, F. (2016): Petrology and mineralogy of the La Peña igneous complex, Mendoza, Argentina: An alkaline occurrence in the Miocene magmatism of the Southern Central Andes. Journal of South American Earth Sciences: 67 (in press); http://forum.amiminerals.it/viewtopic.php?f=5&t=12553 (2016)
    • Las Heras department
      • Las Heras
Pagano Género, D. S., Galliski, M. A., Marquez Zavalia, M. F., Novák, M., & Skoda, R. (2016). Petrography, mineralogy, and origin of the syenite pegmatitic segregation veins from La Peña alkaline complex, Mendoza, Argentina.; Pagano Género, D. S., Galliski, M. A., Marquez Zavalia, M. F., & Colombo, F. (2016). Petrology and mineralogy of the La Peña igneous complex, Mendoza, Argentina: An alkaline occurrence in the Miocene magmatism of the Southern Central Andes.
Armenia
 
  • Syunik Province
Australia
 
Cundari, A. (1973). Petrology of the leucite‐bearing lavas in New South Wales. Journal of the Geological Society of Australia, 20(4), 465-492. Cundari, A., & Salviulo, G. (1989). Ti solubility in diopsidic pyroxene from a suite of New South Wales leucitites (Australia). Lithos, 22(3), 191-198. Cundari, A. (1989). East Australian leucitite suite. Intraplate Volcanism in Eastern Australia and New Zealand, 131-132. Ferguson, A. K., & Cundari, A. (1982). Feldspar crystallization trends in leucite-bearing and related assemblages. Contributions to Mineralogy and Petrology, 81(3), 212-218.
  • New South Wales
    • Auckland Co.
      • Egan Peaks Nature Reserve
Lewis, P. C., Glen, R. A., Pratt, G. W., & Clarke, I. (1994). Bega-Mallacoota 1: 250 000 Geological Sheet SJ/55-4. Explanatory notes. Geol Surv NSW, Sydney, 148. Eggleton, R. A.; Halford, G. E.; Beams, S. D. (1979): Hiortdahlite from Jingera, New South Wales. Journal of the Geological Society of Australia 26, 81-85.
    • Dampier Co.
      • Dromedary Complex
Brown, I.A. (1930) The Geology of the South Coast of New South Wales. Part III. The Monzonitic Complex of the Mount Dromedary District. In: The Proceedings of the Linnean Society of New South Wales, for the year 1930, Vol. LV. 637-698. Smith, I.E.M., White, A.J.R., Chappell, B.W., Eggleton, R.A. (1988) Fractionation in a zoned monzonite pluton: Mount Dromedary, southeastern Australia. Geological Magazine, 125(3), 273-284.
    • Evelyn Co.
      • Milparinka
        • Moorabie Bore
Russell, S.S., Huss, G.R., MacPherson, G.J. & Wasserburg, G.J. (1997) Early and late chondrule formation - New constraints for solar nebula chronology from Al-26/Al-27 in unequilibrated ordinary chondrites: 28th Annual Lunar and Planetary Science Conference: 209-210.
    • Gowen Co.
      • Warrumbungle National Park
Am Min 75:694-701
  • Queensland
    • Western Downs Region
      • Moonie
Ikeda, Y. & Prinz, M. (1996) Petrology of silicate inclusions in the Miles IIE iron: Antarctic Meteorite Research. Twentieth Symposium on Antarctic Meteorites, NIPR Symposium No. 9: Editor, Kojima, H. & others: 143-173.
  • South Australia
    • Olary Province
      • Mt Victor Plumbago Station
Rutherford, L., Burtt, A., Hand, M., & Foden, J. (2007). Billeroo North alkaline magmatic complex: geology and economic significance. MESA Journal 45:33-39; Bell, A. J., Croxford, N.J.W. & Hemming, G.R. (1979). Alkaline igneous rocks at North Billeroo, Olary Province, South Australia. Quarterly Geological Notes, Geological Survey of South Australia, 69, 4-9. Rutherford, L., Burtt, A., Hand, M., & Foden, J. (2007). Billeroo North alkaline magmatic complex: geology and economic significance. MESA Journal 45:33-39
  • Tasmania
    • Dorset municipality
      • Waterhouse district
Everard, J.L., Sutherland, F.L. and Zwingmann, H., 2004a. A Cretaceous phonolite dyke from the Tomahawk River, Northeast Tasmania. Papers and Proceedings of the Royal Society of Tasmania 138, 11-33.
    • Huon Valley municipality
      • Huon-Channel region
Bottrill, RS, 1997. The Minerals of the Cygnet District. The Mineralogical Society of Tasmania Newsletter, 25, p.12; Taheri, J., and Bottrill, R. S., 1998, Porphyry and Sedimentary-hosted Gold Deposits near Cygnet: New Styles of Gold Mineralisation in Tasmania: Unpub Rept, Mineral Resources Tasmania. 1999/01
    • Waratah-Wynyard municipality
      • Boat Harbour
Sutherland, F.L., D.F. Hendry, B.J. Barron, W.L. Matthews and J.D. Hollis, 1996. An unusual Cenozoic Tasmanian basalt sequence near Boat Harbour, northwest Tasmania. Records of the Australian Museum, 48, 131-161.
Austria
 
  • Burgenland
    • Oberpullendorf District
      • Kobersdorf
        • Pauliberg
U. Kolitsch, W. Postl, H.-P. Bojar and W. Trattner (2009): Die Mineralvorkommen im Basalt des Pauliberges. In: Autorenkollektiv (Red. M. A. Götzinger und P. Huber) (2009): Die Mineralien des Burgenlandes - Geologie, Mineralogie und mineralische Rohstoffe. – Wissenschaftliche Arbeiten aus dem Burgenland, Band 126, Amt der Burgenländischen Landesregierung, Abteilung 7 - Landesmuseum, Eisenstadt, 83-99.; Kolitsch, U., Postl, W., Bernhard, F., Bojar, H.-P., Trattner, W. (2019): 2152) Ägirin, Albit, Alunit, Baryt, Calcit, Chalkopyrit, Cordierit, Corkit, Cristobalit, Diopsid, Dolomit, Dravit, Fayalit, Fluorapatit, Gehlenit, Gips, Goethit, Hämatit, Hauyn, Jarosit, Kaolinit, Kupfer, Laihunit(?), Magnesit, Magnetit, Montmorillonit, Mullit, Natroalunit, Natrojarosit, Nephelin, Opal (Hyalit), Plumbojarosit, Phosphohedyphan, Pyrit, Pyromorphit, Pyrrhotin, Quintinit(?), Rhönit, Rutil, Sodalith, Todorokit, Topas, Tridymit und Uricit aus dem Steinbruch am Pauliberg bei Landsee, Burgenland. Pp. 310-319 in Walter, F. et al. (2019): Neue Mineralfunde aus Österreich LXVIII. Carinthia II, 209./129., 237-362.
  • Styria
    • Südoststeiermark District
      • Bad Gleichenberg
        • Wilhelmsdorf
R. Exel: Die Mineralien und Erzlagerstätten Österreichs (1993)
      • Feldbach
        • Mühldorf bei Feldbach
Postl, W., Taucher, J. & Moser, B. (1996): Neue Mineralfunde im oststeirischen Vulkangebiet. Mitt. Abt. Miner. Landesmuseum Joanneum, 60/61, 3-76.
      • Klöch
Postl, W., Taucher, J. & Moser, B. (1996): Neue Mineralfunde im oststeirischen Vulkangebiet. Mitt. Abt. Miner. Landesmuseum Joanneum, 60/61, 3-76.; "Aus der Tiefe der Vulkane", Fritz-Jandl-Postl (2011)
Azerbaijan
 
  • Yardymli District
Gupta, A K (2015) Origin of Potassium-rich Silica-deficient Igneous Rocks. Springer India
Belarus
 
  • Minsk Region
Aizberg, R. Y., Beskopylny, V. N., Starchik, T. A., & Tsekoyeva, T. K. (2001). Late Devonian magmatism in the Pripyat Palaeorift: a geodynamic model. Geological Quarterly, 45(4), 349-358. Mikhailov, N.D. & Laptsevich, A.G. 2009. Lamprophyric rocks of the Devonian alkali igneous complex of Belarus. Geochemistry of Magmatic Rocks, 26, International Conference. Russian Academy of Sciences, Vernadsky Institute of Geochemistry, Moscow, 104-106. Mikhailov, N.D., Laptsevich, A.G. & Vladykin, N.V. 2010. Alkali lamprophyres of the Paleozoic igneous complex of Belarus. Vladykin, N.V. (ed) Deep-Seated Magmatism, its Sources and Plumes. Russian Academy of Sciences, Vinogradov Institute of Geochemistry, Siberian Branch, Irkutsk, 185-197. Veretennikov, N.V. & Laptsevich, A.G. 2007. First carbonatite finding in the platform cover of Belarus. Doklady of the National Academy of Science of Belarus, 51, 84-88. Wilson, M. & Lyashkevich, Z.M. 1996. Magmatism and the geodynamics of rifting of the Pripyat-Dnieper-Donets rift. East European Platform. Tectonophysics, 268, 65-81.
Bolivia
 
  • Cochabamba
    • Ayopaya Province
Woolley, A.R. (1987) Alkaline rocks and carbonatites of the world. p 167.
Alfredo Petrov collection; Laszlo Horvath collection; Schultz, F., et al. (2004) Contrib. Mineral. Petrol., 148, 391-408
      • Independencia
Field collected by Alfredo Petrov
Alfredo Petrov and Jaroslav Hyrsl collections
Schultz (2004)
    • Capinota Province
Woolley, A.R. (1987) Alkaline rocks and carbonatites of the world. p 167.
Brazil
Mason, A. (1976) The world of Rocks and Minerals. New York, N.Y., Larousse & Co., 108 pages.
  • Bahia
    • Itaju do Colônia
Maria de Lourdes da Silva Rosa, Herbet Conceição, Moacir José Buenano Macambira, Marco Antonio Galarza, Mônica Pringsheim Cunha, Rita Cunha Leal Menezes, Moacyr Moura Marinho, Basílio Elesbão da Cruz Filho, Débora Correia Rios (2007) Neoproterozoic anorogenic magmatism in the Southern Bahia Alkaline Province of NE Brazil: U–Pb and Pb–Pb ages of the blue sodalite syenites, Lithos, vol. 97, 88-97.
    • 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
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.; Andrezza Azzi, Daniel Atencio, Marcelo Andrade, Reynaldo Contreira (2018) Crystal-chemistry of Y-poor hainite-(Y) from Poços de Caldas alkaline complex, Minas Gerais, Brazil. in abstracts of the 22nd IMA Meeting Melbourne p 226
      • Poços de Caldas
Nomura, S.F., Atencio, D., Chukanov, N.V., Rastsvetaeva, R.K., Cutinho, J.M.V. and Karipidis, T.K. (2010): Manganoeudialyte, a new mineral from Poços de Caldas, Minas Gerais, Brazil. Zapiski Vserossiiskogo Mineralogicheskogo Obshchestva, 139 (4), 35-47..
Horváth, Menezes, Toft ollections - confirmed by XRD & microprobe
  • Santa Catarina
Norberto Dani et al (2001) Nordstrandite in Bauxite Derived from Phonolite, Lages, Santa Catarina, Brazil Clays and Clay Minerals, 49:216-226; G Traversa et al (1994) Petrology and Mineral Chemistry of the Alkaline District of Lages, SC, Brazil. Geochem Brazil 8:179-214
  • São Paulo
http://www.igc.usp.br/geologiausp/iga/art.php?artigo=7
Cameroon
 
  • South Region
    • Océan
      • Kribi
Cesbron et al. (1988)
  • Southwest Region
    • Fako
      • Buea
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.
Canada
 
  • British Columbia
    • Cariboo Mining Division
Jennifer Pell (1994) Carbonatites, Nepheline Syenites, Kimberlites and Related Rocks in British Columbia. Brithish Columbia Ministry of Energy Bulletin 88.
    • Golden Mining Division
Rapson, June E. (1963) Sodalite crystals from the Ice River area, Yoho Park, B.C.. Canadian Mineralogist: 7: 674-675.; Grice, J.D. and Gault, R.A. (1981) Edingtonite and Natrolite from Ice River, British Columbia. Mineralogical Record: 12: 221-226; Pell, Jennifer (1994) Carbonatites, Nepheline Syenites, Kimberlites and Related Rocks in British Columbia. British Columbia Ministry of Energy, Bulletin 88.
Jones, W. C. (1955) Geology of the Garnet Mountain-Aguilla Ridge Area, Ice River, British Columbia. MSc thesis, University of British Columbia.
Thomas Mumford (2007) Dykes of the Moose Creek Valley, Ice River Alkaline Complex, southeastern BC. MSc thesis University of New Brunswick.
Horn, Z. D. and Hancock, K. D. (1997) A New Sodalite Occurrence: Mount Mather Creek, British Columbia (82N/10W) Geological Fieldwork 1996. Paper 1997-I.
Horn, Z. D. and Hancock, K. D. (1997) A New Sodalite Occurrence: Mount Mather Creek, British Columbia (82N/10W) Geological Fieldwork 1996. Paper 1997-I.; BC Minfile.
        • Zinc Mountain
MINFILE No 082N 028; Aris Reports 03433
    • Liard Mining Division
      • Galore Creek
BC Minfile 104G 091
Pell, J.Gr (1994) Carbonatites, Nepheline Syenites, Kimberlites and Related Rocks in British Columbia. Brithish Columbia Ministry of Energy Bulletin 88.
Jennifer Pell (1994) Carbonatites, Nepheline Syenites, Kimberlites and Related Rocks in British Columbia. British Columbia Ministry of Energy Bulletin 88.
    • Omineca Mining Division
      • Wicheeda Lake
Jennifer Pell (1994) Carbonatites, Nepheline Syenites, Kimberlites and Related Rocks in British Columbia. Brithish Columbia Ministry of Energy Bulletin 88.
  • Newfoundland and Labrador
    • Labrador
Tappe, S., (2005) Genesis of Ultramafic Lamprophyres and Carbonatites, Aillik Bay, Canada: Implications for Incipient Rifting in the Labrador Sea Area. Nature and Origin of Ultramafic Lamprophyres and Carbonatites from the Borders of the Labrador Sea: Insights from Petrology, Geochemistry, and Geochronology. PhD thesis Johannes Gutenberg-Universität Mainz
GSC locality database; Curtis, L.W. & Currie, K.L. (1977) Geology and petrology of the Red Wine complex, Central Labrador. GSC Bulletin 287, 61p. + maps
  • Northwest Territories
    • Blachford Lake alkaline complex
SHEARD, E.R., WILLIAMS-JONES, A.E., HEILIGMANN, M., PEDERSON, C. AND TRUEMAN, D.L. (2012) Controls on the concentration of zirconium, niobium, and the rare earth elements in the Thor Lake rare metal deposit, Northwest Territories, Canada. Economic Geology, 107(1), 81-104.
Sheard, E.R. (2010); Williams-Jones, A.E., Heiligmann, M., Sheard, E., Macwilliam, K., Pedersen, C.J., Mercer, W., and Trueman, D (2010) The Nechalacho Heavy Rare Earth And Rare Metal Deposit, Thor Lake, Northwest Territories, Canada. Geological Society of America Abstracts with Programs, Vol. 42, No. 5, p. 335; SHEARD, E.R., WILLIAMS-JONES, A.E., HEILIGMANN, M., PEDERSON, C. AND TRUEMAN, D.L. (2012) Controls on the concentration of zirconium, niobium, and the rare earth elements in the Thor Lake rare metal deposit, Northwest Territories, Canada. Economic Geology, 107(1), 81-104.
    • Mazenod Lake District
Orris, G. J., & Grauch, R. I. (2002). Rare earth element mines, deposits and occurrences (Open file report 2-189). US Department of the Interior, US Geological Survey.
  • Ontario
Lee, O.I. (1936) A new property of matter: Reversible photosensitivity in hackmanite from Bancroft, Ontario. American Mineralogist, 21(12), 764-776.; Mason, A. (1976) The world of Rocks and Minerals. New York, N.Y., Larousse & Co., 108 pages.; Grice, Joel D. (1989) Bancroft: the Mineral Capital of Canada. In: Famous mineral localities of Canada. Published by Fitzhenry & Whiteside Limited & the National Museum of Natural Sciences, 190 pages, 92-99; 162-165.
Mason, A. (1976) The world of Rocks and Minerals. New York, N.Y., Larousse & Co., 108 pages.
      • Glamorgan Township
Ref.: Geological Survey of Canada Miscellaneous Report 39
Ref.: Geological Survey of Canada Miscellaneous Report 39
    • Hastings County
      • Dungannon Township
[Bancroft & District Mineral Collecting Guidebook]; Joyce, D. K. (2006) Calcite Vein-Dikes of the Grenville Geological Province, Ontario, Canada. Rocks and Minerals 81:34-42
[Bancroft & District Mineral Collecting Guidebook]; Mineralogical Record (1990) 21:235-248; Joyce, D. K. (2006) Calcite Vein-Dikes of the Grenville Geological Province, Ontario, Canada. Rocks and Minerals 81:34-42
[Bancroft & District Mineral Collecting Guidebook]
Fouts, C. (1998) Bancroft & District Mineral Collecting Guidebook. Bancroft & District Chamber of Commerce, 50pp.
[Bancroft & District Mineral Collecting Guidebook]
[www.johnbetts-fineminerals.com] ; Steacy, H.R., Rose, E. R., Moyd, L. & Hogarth, D.D. (1982): Some classic Mineral Localities of Southeastern Ontario. Mineralogical Record 13: 197-203; Joyce, D. K. (2006) Calcite Vein-Dikes of the Grenville Geological Province, Ontario, Canada. Rocks and Minerals 81:34-42
Thomson J. E. (1943) Mineral Occurrences in the North Hastings Area, Ontario Department of Mines, Annual Report ARV52, Pt.3, p.65.
        • York River area
[Bancroft & District Mineral Collecting Guidebook]
[Bancroft & District Mineral Collecting Guidebook]
http://www.geologyontario.mndm.gov.on.ca/mndmfiles/MDI/data/records/MDI31F04SE00083.html
MSC Report 39
    • Kenora District
      • Squash Lake Area
Sage (1988) OGS Study 49
      • Squaw Lake Area
Sage (1988) OGS study 49.
Mason, A. (1976) The world of Rocks and Minerals. New York, N.Y., Larousse & Co., 108 pages.
      • Methuen Township
MDI Number: MDI31C12NW00006; MDI Number: MDI31C12NW00006
Paper 69-50, Geological Survey of Canada, (1970); Ann P.Sabina (1987), Rocks and Minerals for the Collector, Hull-Maniwaki, Quebec; Ottawa-Peterborough, Ontario. GSC Misc. Report 41
    • Renfrew County
      • Brudenell Township
Geological Survey of Canada Paper 70-50
      • Raglan Township
Storey C.C. and Vos M.A. (1981) Industrial minerals of the Pembroke-Renfrew area, Ontario Geological Survey, Mineral Deposit Circular 22, pt.2, p.32.
    • Sudbury District
      • Bigwood Township
RWMW collection and Dave Joyce personal communication; Dolan, M.L., Hains, D.H. and Ash, D.R. (1991) High Alumina Rocks in Ontario; Ontario Ministry of Northern Development and Mines, Industrial Minerals Background Paper 10, 130p
      • 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
    • Thunder Bay District
Currie (1980)
  • Québec
    • Abitibi-Témiscamingue
      • La Vallée-de-l'Or RCM
        • Réservoir-Dozois
Olivier Langelier Collection
    • Gaspésie-Îles-de-la-Madeleine
      • La Haute-Gaspésie RCM
Wallace et al. (1990) Canadian Mineralogist 28, 251; 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
Chen, W., Kamenetsky, V. S., & Simonetti, A. (2013). Evidence for the alkaline nature of parental carbonatite melts at Oka complex in Canada. Nature communications, 4, ncomms3687.
    • 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
GRICE, J.D. (1989) Mont Saint-Hilaire, Quebec: Canada's Most Diverse Mineral Locality. In: Famous mineral localities of Canada. Published by Fitzhenry & Whiteside Limited & the National Museum of Natural Sciences, 190 pages: 100-108; 166-175.; HORVÁTH, L., GAULT, R.A. (1990) The mineralogy of Mont Saint-Hilaire. Mineralogical Record, 21, 281-359.; HARING, M.M.M., MCDONALD, A.M. (2017) Nolzeite, Na(Mn,□)2[Si3(B,Si)O9(OH)2]•2H2O, a new pyroxenoid mineral from Mont Saint-Hilaire, Québec, Canada. Mineralogical Magazine, 81, 183-197.
      • Lajemmerais RCM
        • Varennes & St-Amable
HORVÁTH, L., PFENNINGER HORVÁTH, E., GAULT, R.A., and TARASSOFF, P. (1998) Mineralogy of the Saint Amable sill, Varennes and Saint Amable, Québec, Canada. Mineralogical Record, 29, 83 118.
Horváth, L., Pfenninger-Horváth, E., Gault, R. A., & Tarassoff, P. (1998): Mineralogy of the Saint-Amable Sill, Varennes and Saint-Amable, Québec. Mineralogical Record, 29: 83-118.
      • Rouville RCM
GANDHI, S.S. (1970) Petrology of the Monteregian intrusion of Mont Yamaska, Quebec. Canadian Mineralogist 10, 452-484.
    • Montréal
Mason, A. (1976) The world of Rocks and Minerals. New York, N.Y., Larousse & Co., 108 pages.
Bancroft & Howard (1923)
Dawsonite, hematite, natrolite, mica 1M, pyrite: Peter Tarassoff Collection. XRD identification by G.Y. Chao, Carleton University. Sodalite: Redpath Museum collection, McGill University
Harrington, B.J. (1876)
      • Montréal-Est
Horváth Collection - confirmed by XRD
    • 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.
    • Watson Lake mining district
Geol, Survey of Canada database
Cape Verde
 
  • Sotavento Islands
Weidendorfer, D., Schmidt, M. W., & Mattsson, H. B. (2016). Fractional crystallization of Si-undersaturated alkaline magmas leading to unmixing of carbonatites on Brava Island (Cape Verde) and a general model of carbonatite genesis in alkaline magma suites. Contributions to Mineralogy and Petrology, 171(5), 1-29.
Central African Republic
 
  • Lobaye Prefecture
    • Lobaye River (Bali River)
Hoinkes, G., and Kurat, G. (1979): Meteoritics 14, 423.
Chile
 
  • Coquimbo
    • Limarí Province
      • Ovalle
Michael O'Donoghue (2006) Gems: Their Sources, Descriptions and Identification. 6th ed. Elsevier
British Natural History Museum online catalogue 2007
China
 
  • Anhui
    • Ma'anshan
      • He County
Tao, K., Xie, J., Huang, G., Yin, J., Yang, Z., Wang, Q. & Yu, Y. 1996. Volcanic Geology and Mineral Resources in Jiangsu and Zhejiang Provinces. Field Trip Guide 4, 30th International Geological Congress, 4-14 August 1996, Beijing, China, Y324.1-34.
  • Guangdong
    • 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.
  • Heilongjiang
    • Daxing'anling
      • Songling District
Sun, Y., Ying, J., Zhou, X., Shao, J. A., Chu, Z., & Su, B. (2014). Geochemistry of ultrapotassic volcanic rocks in Xiaogulihe NE China: Implications for the role of ancient subducted sediments. Lithos, 208, 53-66. Sun, Y., Ying, J., Su, B., Zhou, X., & Shao, J. A. (2015). Contribution of crustal materials to the mantle sources of Xiaogulihe ultrapotassic volcanic rocks, Northeast China: New constraints from mineral chemistry and oxygen isotopes of olivine. Chemical Geology, 405, 10-18.
    • Heihe
      • Nenjiang County
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. Geology and Mineral Resources of the Far East. University of Tokyo Press, Tokyo, 2, 373-413. Zhang, Y. L., Liu, C. Z., Ge, W. C., Wu, F. Y., & Chu, Z. Y. (2011). Ancient sub-continental lithospheric mantle (SCLM) beneath the eastern part of the Central Asian Orogenic Belt (CAOB): Implications for crust–mantle decoupling. Lithos, 126(3-4), 233-247.
  • Jilin
    • Jilin
      • Chuanying District
Wankang Huang, Yingwen Xie, and Jingming Pan (1978): Geochimica 7(1), 25-34
  • Shaanxi
    • Hanzhong
      • Ningqiang County
Plagge, M., Ott, U., and Hoppe, P. (2006): Presented at the 37th Lunar and Planetary Science Meeting, March 13-17, 2006.
  • Shanxi
    • Lüliang
      • Xing County
Ying, J., Zhang, H., Sun, M., Tang, Y., Zhou, X., & Liu, X. (2007). Petrology and geochemistry of Zijinshan alkaline intrusive complex in Shanxi Province, western North China Craton: implication for magma mixing of different sources in an extensional regime. Lithos, 98(1-4), 45-66. Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575.
  • Sichuan
    • Panzhihua
      • Miyi County
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
    • Ngari
      • Gêrzê Co. (Gaize Co.)
Ding, L., Kapp, P., Zhong, D., & Deng, W. (2003). Cenozoic volcanism in Tibet: evidence for a transition from oceanic to continental subduction. Journal of Petrology, 44(10), 1833-1865. Guo, Z., Wilson, M., Liu, J., & Mao, Q. (2006). Post-collisional, potassic and ultrapotassic magmatism of the northern Tibetan Plateau: Constraints on characteristics of the mantle source, geodynamic setting and uplift mechanisms. Journal of Petrology, 47(6), 1177-1220.
  • 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.
Yanling Tang (2005): Non-metallic deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp.
Bai, G., Yuan Z. (1985). Carbonatites and related mineral resources. Bull. Inst. Miner. Deposits Chin. Acad. Geol. Sci., 13, 1-193.
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.
  • Yunnan
    • Honghe
      • Gejiu City
Baiyou Chen, Yuru Yu, and Hongfei Jiang (2002): Mineral Deposits 21(suppl.), 901-905
Czech Republic
 
  • Central Bohemian Region
    • Kladno District
Řanda, Z., Novák, J.K., Balogh, K., Frána, J., Kučera, J. & Ulrych, J. 2003. Vinařická Hora Hill Cenozoic composite volcano, central Bohemia: geochemical constraints, Geolines, 15, 126-132.
    • Mělník District
Ulrych, J., Pivec, E., Zak, K., Bendl, J., & Bosák, P. (1993). Alkaline and ultramafic carbonate lamprophyres in Central Bohemian Carboniferous basins, Czech Republic. Mineralogy and Petrology, 48(1), 65-81.
  • 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.; CAJZ, V. (1992). Vulkanologie Podhorniho vrchu (zapadni Cechy). Časopis pro mineralogii a geologii, 37(1), 63-64. Kaiser, G., & Pilot, J. (1986). Weitere K-Ar-Datierungen an jungen Vulkaniten. Zeitschrift für geologische Wissenschaften, 14(1), 121-124. Ulrych, J., Pivec, E., Lang, M., & Lloyd, F. E. (2000). Ijolitic segregations in melilite nephelinite of Podhorní vrch volcano, Western Bohemia. N. Jb. Mineral., Abh, 175, 217-348. Wilson, M., Rosenbaum, J. M., & Ulrych, J. (1994). Cenozoic magmatism of the Ohře Rift, Czech Republic: geochemical signatures and mantle dynamics. In Abstracts IAVCEI, Ankara.
      • Mýtina (Altalbenreuth)
Ulrych, J., Ackerman, L., Balogh, K., Hegner, E., Jelínek, E., Pécskay, Z., Přichystal, A., Upton, B.G.J., Zimák, J., Foltýnová, R.: Plio-Pleistocene basanitic and melilitic series of the Bohemian Massif: K-Ar ages, major/trace elements and Sr-Nd isotopic data. Chemie der Erde, 2013, 73, 429-450.
    • Karlovy Vary District
Holub, F. V., Rapprich, V., Erban, V., Pecskay, Z., Mlcoch, B., & Mikova, J. (2010). Petrology and geochemistry of the Tertiary alkaline intrusive rocks at Doupov, Doupovské hory Volcanic Complex (NW Bohemian Massif). Journal of Geosciences, 55(3), 251-278. Kopecky, L. (1966). Tertiary volcanics. Regional Geology of Czechoslovakia. I. The Bohemian Massif. Czechoslovak Academy of Sciences (Praha), 554-581. Shrbeny, O. (1982). Chemistry of alkaline volcanic rocks of the Doupovské hory Mts., Bohemia. 27, 139-158. Shrbený, O. (1995). Chemical composition of young volcanites of the Czech Republic. Czech Geological Survey Special Paper, 4. Czech Geological Survey. Ulrych, J., Lloyd, F. E., & Balogh, K. (2003). Age relations and geochemical constraints of Cenozoic alkaline volcanic series in W Bohemia: a review. Geolines, 15, 168-180. Zuzana, S., Vladislav, R., & Bedřich, M. (2009). Effect of small potassium-rich dykes on regional gamma-spectrometry image of a potassium-poor volcanic complex: A case from the Doupovské hory Volcanic Complex, NW Czech Republic. Journal of volcanology and geothermal research, 187(1-2), 26-32.
  • Liberec Region
    • Liberec District
Pivec, E., Ulrych, J., & Rutsek, J. (1998). Melilitic rocks from northern Bohemia: geochemistry and mineralogy. Neues Jahrbuch für Mineralogie-Abhandlungen, 119-154. Ulrych, J., Povondra, P., Rutšek, J., & Pivec, E. (1988). Melilitic and melilite-bearing subvolcanic rocks from the Ploučnice river region, Czechoslovakia. Acta Univ. Carol., Geol, 2, 195-231. Ulrych, J., Pivec, E., Povondra, P., & RUTSEK, J. (1988). Perovskite from melilite rocks, Osecná complex, northern Bohemia, Czechoslovakia. Neues Jahrbuch für Mineralogie Monatshefte, (2), 81-95. Ulrych, J., Pivec, E. Rutšek, J. & Povondra, P. 1990. Olivines, monticelites and clinopyroxenes in melilitic rocks, Ploučnice River Region, Czechoslovakia. Acta Universitatis Carolinae Geologica, 141-164. Ulrych, J., Pivec, Povondra, P. & Rutšek 1990. Phlogopites from subvolcanic melilitic rocks, Ploučnice River Region, Czechoslovakia. Acta Universitatis Carolinae Geologica, 9-24. Ulrych, J., Pivec, E., Povondra, P., & Rutsek, J. (2000). Upper-mantle xenoliths in melilitic rocks of the Osecnà complex, North Bohemia. Journal of Geosciences, 45(1-2), 79-83. Ulrych, J., Povondra, P., Pivec, E., Rutsek, J., & Sitek, J. (1994). Compositional evolution of metasomatic garnet in melilitic rocks of the Osecná complex, Bohemia. The Canadian Mineralogist, 32(3), 637-647. Ulrych, J., Dostal, J., Hegner, E., Balogh, K., & Ackerman, L. (2008). Late Cretaceous to Paleocene melilitic rocks of the Ohře/Eger Rift in northern Bohemia, Czech Republic: Insights into the initial stages of continental rifting. Lithos, 101(1-2), 141-161. Ulrych, J., Adamovic, J., Krmicek, L., Ackerman, L., & Balogh, K. (2014). Revision of Scheumann’s classification of melilitic lamprophyres and related melilitic rocks in light of new analytical data. Journal of Geosciences, 59(1), 3-22.
  • Moravian-Silesian Region
    • Bruntál District
Ulrych, J., Ackerman, L., Balogh, K., Hegner, E., Jelínek, E., Pécskay, Z., ... & Foltýnová, R. (2013). Plio-Pleistocene basanitic and melilititic series of the Bohemian Massif: K-Ar ages, major/trace element and Sr–Nd isotopic data. Geochemistry, 73(4), 429-450.
  • Ústí nad Labem Region
Kopecky, L. (1966). Tertiary volcanics. Regional Geology of Czechoslovakia. I. The Bohemian Massif. Czechoslovak Academy of Sciences (Praha), 554-581. Kopecký, L., Píšová, J., & Pokorný, L. (1967). Pyrope-bearing diatremes of the České středohoří Mountains. Sborník geologických věd: Geologie, 12, 81-130. Allen, J. B., & Charsley, T. J. (1968). Nepheline-syenite and Phonolite. HMSO. London. Shrbený, O. (1995). Chemical composition of young volcanites of the Czech Republic. Czech Geological Survey Special Paper, 4. Czech Geological Survey. Cajz, V., Vokurka, K., Balogh, K., Lang, M., & Ulrych, J. (1999). The České středohoří Mts.: volcanostratigraphy and geochemistry. Geolines, 9, 21-28. Suhr, P. (1999). Phreatomagmatic structures in the northern environs of the Ohre Rift (Saxony). Geolines, 9, 119-122. Ulrych, J. 2000. Intrusive centres of Neodic volcanism in the Bohemian Massiff: petrological, geochemical and mineralogical characteristics (with emphasis on the Roztoky, Osečná and Dvůr Králové centres). Summary of the Dissertation in Geology for Scientific Degree Doctor of sciences, University of Prague. Ulrych, J. A. R. O. M. I. R., & Balogh, K. A. D. O. S. A. (2000). Roztoky Intrusive Centre in the Ceske stredohori Mts.: Differentiation, emplacement, distribution, orientation and age of dyke series. GEOLOGICA CARPATHICA-BRATISLAVA-, 51(6), 383-398. Ulrych, J., Svobodová, J., & Balogh, K. (2002). The source of Cenozoic volcanism in the České středohoří Mts., Bohemian Massif. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 177(2), 133-162. Cajz, V. (2003). Dyke swarm pattern and tectonics in the České Středohoří Mts. Volcanic centre, Ohře (Eger) Rift, Central Europe (Starting points for further research). Geolines, 15, 15-22. Kotková, J., O’Brien, P. J., & Ziemann, M. A. (2011). Diamonds in the Bohemian Massif—evidence for ultrahigh-pressure metamorphism. Geologické výzkumy na Morave a ve Slezsku 18, 1, 35-38. Ackerman, L., Medaris, G., Špaček, P., & Ulrych, J. (2015). Geochemical and petrological constraints on mantle composition of the Ohře (Eger) rift, Bohemian Massif: peridotite xenoliths from the České Středohoří Volcanic complex and northern Bohemia. International Journal of Earth Sciences, 104(8), 1957-1979. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.305
    • Litoměřice District
      • Býčkovice
Ulrych, J., & NOVAK, P. (1989). Geochemistry of the Bykovice monzosyenitic body, Ceské stredohori Mts., Czechoslovakia. Acta Universitatis Carolinae. Geologica, (2), 139-163.
      • Martiněves
Ulrych, J., Pivec, E., Zak, K., Bendl, J., & Bosák, P. (1993). Alkaline and ultramafic carbonate lamprophyres in Central Bohemian Carboniferous basins, Czech Republic. Mineralogy and Petrology, 48(1), 65-81.
Ulrych, J., Pivec, E., Jelinek, E., Arva-Sos, E., & Bendl, J. (1998). Geochemically anomalous olivine-poor nephelinite of Rip hill, Czech Republic. Journal of GEOsciences, 43(4), 299-311.
      • Třebenice
Kopecký, L., Dobeš, M., Fiala, J., & Šťovíčková, N. (1970). Fenites of the Bohemian Massif and the relations between fenitization, alkaline volcanism and deep fault tectonics. Sbor geol Věd, Geol, 16, 51-112. Kopecky, L., Smejkal, V., & Hladíková, J. (1987). Isotopic composition and origin of carbonates in alkaline-metasomatic and cognate rocks of the Bohemian Massif, Czechoslovakia. In Seminar on carbonatites and alkaline rocks of the Bohemian Massif and ambient regions. 1 (pp. 177-196).
    • Most District
      • Želenice
Pazdernik, P.: Compositional variations in the sodalite-bearing nephelinite phonolite from Želenický vrch Hill, North Bohemia. Acta Universitatis Carolinae – Geologica, 1997, vol. 42, no. 2, pp. 65-79.
    • Teplice District
V.M.F. Hammer, Eur. J. Mineral. , 1996, 8, pp. 281-288.
    • Ústí nad Labem District
Van King
Ulrych, J. A. R. O. M. I. R., & Balogh, K. A. D. O. S. A. (2000). Roztoky Intrusive Centre in the Ceske stredohori Mts.: Differentiation, emplacement, distribution, orientation and age of dyke series. GEOLOGICA CARPATHICA-BRATISLAVA-, 51(6), 383-398. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.305 Cajz, V. (2003). Dyke swarm pattern and tectonics in the České Středohoří Mts. Volcanic centre, Ohře (Eger) Rift, Central Europe (Starting points for further research). Geolines, 15, 15-22. Jelínek, E. Souček, J.-Tvrdý, J.-Ulrych J.(1989): Geochemistry and petrology of alkaline dyke rocks of the Roztoky volcanic centre, České středohoří Mts., ČSSR. Chem. Erde, 49, 201-217. Kopecký Jr, L., Chlupáčová, M., Klomínský, J., & Sokol, A. (1997). The Čistá-Jesenice pluton in western Bohemia: Geochemistry, geology, petrophysics and ore potential. Sbor. geol. Věd, ložisk. Geol. Mineral, 31, 97-127. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lamere, J. (2002). Igneous rocks: A classification and glossary of terms; Recommendations of the International Union of Geological Sciences. In Subcommission on the Systematics of Igneous rocks. Cambridge University Press. Mrlina, J., & Cajz, V. (2006). Subsurface structure of the volcanic centre of the České Středohoří Mountains, North Bohemia, determined by geophysical surveys. Studia Geophysica et Geodaetica, 50(1), 75-88. Pivec, E. D. V. I. N., Ulrych, J. A. R. O. M. I. R., Srein, V. L. A. D. I. M. I. R., Bendl, J. I. R. I., Dobes, P. E. T. R., & Zak, K. A. R. E. L. (1998). Epithermal Tertiary Pb-Zn-Cu (Ag, Te) mineralization in the Roztoky Volcanic Centre, Ceske stredohori Mts., Czech Republic. GEOLOGICA CARPATHICA-BRATISLAVA-, 49, 139-146. Ulrych, J., Novák, J. K., Lang, M., Balogh, K., Hegner, E., & Řanda, Z. (2006). Petrology and geochemistry and K–Ar ages for Cenozoic tinguaites from the Ohře/Eger Rift (NW Bohemia). Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 183(1), 41-61. Skála, R., Ulrych, J., Ackerman, L., Jelínek, E., Dostál, J., Hegner, E., & Řanda, Z. (2014). Tertiary alkaline Roztoky Intrusive Complex, České středohoří Mts., Czech Republic: petrogenetic characteristics. International Journal of Earth Sciences, 103(5), 1233-1262. Ulrych, J., Pivec, E., Fiala, J., & Lang, M. (1983). Petrology of the alkaline subvolcanic rocks from the Roztoky area (České středohoří Mts.). Rozpravy Československé Akademie věd. Řada matematických a přírodních věd, 93(8), 1-82.
DR Congo
 
  • Ituri
El Goresy et al. (1984) A calcium-aluminum-rich inclusion from the Essebi (CM2) chondrite: Evidence for captured spinel-hibonite spherules and for an ultra-refractory rimming sequence. Geochimica et Cosmochimica Acta 48 (11): 2283–2298. (Nov 1984)
  • North Kivu
    • Nyiragongo Territory
Haapala, I. L. M. A. R. I. (2011). Th. G. Sahama’s (1910–1983) volcanological and mineralogical studies in Africa: Part I. Expeditions to the Virunga Volcanic Field and petrological-mineralogical studies on the Nyiragongo volcano. Bulletin of the Geological Society of Finland, 83, 41-55.; Sahama, T. G. (1960). Kalsilite in the lavas of mt. Nyiragongo (Belgian Congo). Journal of Petrology, 1(2), 146-171.; Andersen, T., Elburg, M. A., & Erambert, M. (2014). Extreme peralkalinity in delhayelite-and andremeyerite-bearing nephelinite from Nyiragongo volcano, East African Rift. Lithos, 206, 164-178.
Mineralogical Magazine (1958) 31 (2), 698-699.; Mineralogical Magazine 1957 31 : 698-699.
    • Rutshuru Territory
      • Bwito
Maravic, H. V., Morteani, G., & Roethe, G. (1989). The cancrinite-syenite/carbonatite complex of Lueshe, Kivu/NE-Zaire: petrographic and geochemical studies and its economic significance. Journal of African Earth Sciences (and the Middle East), 9(2), 341-355.
Egypt
 
  • Red Sea
    • Eastern Desert
Mogahed, M. M. (2016). Petrogenesis of cogenetic silica-oversaturated and-undersaturated syenites of Abu Khruq ring complex, South Eastern Desert, Egypt. Journal of African Earth Sciences, 124, 44-62.
Finland
 
  • Lapland
    • Ranua
Mutanen, T. 2011. Alkalikiviä ja appiniitteja. Raportti hankkeen " Magmatismi ja malminmuodostus II" toiminnasta 2002-2005.
  • North Ostrobothnia
    • Kuusamo
Lehijärvi, Mauno 1960. the alkali districk of Iivaara, Kuusamo, Finland. Bull. Comm. Géol. Finlande. N:otitanite 189, p.189-62, illus.; Kramm, U. (1994). Isotope evidence for ijolite formation by fenitization: Sr− Nd data of ijolites from the type locality Iivaara, Finland. Contributions to Mineralogy and Petrology, 115(3), 279-286. Kramm, U., Kogarko, L. N., Kononova, V. A., & Vartiainen, H. (1993). The Kola Alkaline Province of the CIS and Finland: Precise Rb Sr ages define 380–360 Ma age range for all magmatism. Lithos, 30(1), 33-44.
  • Southwest Finland
    • Turku
Wilke, H.-J. (1976): Mineral-Fundstellen Band 4: Skandinavien. Chr. Weise Verlag, München, 370 pp. (p.290-291)
France
 
  • Auvergne-Rhône-Alpes
    • Ardèche
      • Privas
        • Saint-Priest
Bull. Soc. Franç. Minéralo. Cristallo. , 1974, 97, pp. 450-464.
    • Cantal
      • Aurillac
        • Vic-sur-Cère
          • Thiézac
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.326. Brousse, R. (1961). Recueil des analyses chimiques des roches volcaniques tertiaires et quaternaires de la France. Bull. Serv. Carte géol. France, 58(263), 1-140. Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe Limitrophe. Guides Géologiques Régionaux. Masson, Paris. Brousse, R., & Rançon, J. P. (1984). Crystallization trends of pyroxenes from agpaitic phonolites (Cantal, France). Mineralogical Magazine, 48(346), 39-45. Caroff, M., Ambrics, C., Maury, R., & Cotten, J. (1997). From alkali basalt to phonolite in hand-size samples: vapor-differentiation effects in the Bouzentes lava flow (Cantal, France). Journal of Volcanology and Geothermal Research, 79(1-2), 47-61. Downes, H. (1984). Sr and Nd isotope geochemistry of coexisting alkaline magma series, Cantal, Massif Central, France. Earth and Planetary Science Letters, 69(2), 321-334. Downes, H. (1987). Tertiary and quaternary volcanism in the Massif Central, France. Geological Society, London, Special Publications, 30(1), 517-530. Downes, H. (1989). Magma mixing in undersaturated alkaline volcanics, Cantal, Massif Central, France. Mineralogical Magazine, 53(369), 43-53. Downes, H., & Leyreloup, A. (1986). Granulitic xenoliths from the French Massif Central—petrology, Sr and Nd isotope systematics and model age estimates. Geological Society, London, Special Publications, 24(1), 319-330. de Goer, A., & Mergoil, J. (1971). Structure et dynamique des édifices volcaniques tertiaires et quaternaires. In Symposium sur la géologie, la morphologie, et la structure profonde du Massif Central français (pp. 345-376). Nehlig, P., Leyrit, H., Dardon, A., Freour, G., de Goer de Herve, A., Huguet, D., & Thieblemont, D. (2001). Constructions et destructions du stratovolcan du Cantal. Bulletin de la Société Géologique de France, 172(3), 295-308. Pilet, S., Hernandez, J., & Villemant, B. (2002). Evidence for high silicic melt circulation and metasomatic events in the mantle beneath alkaline provinces: the Na–Fe-augitic green-core pyroxenes in the Tertiary alkali basalts of the Cantal massif (French Massif Central). Mineralogy and Petrology, 76(1-2), 39-62. Platevoet, R., SCHNEIDER, J. L., Lefevre, C., & Nehlig, P. (1999). Les formations pyroclastiques du strato-volcan du Cantal sont-elles liées à une vaste caldéra centrale? Apport des dynamismes volcaniques. Géologie de la France, (4), 77-91. Reubi, O., & Hernandez, J. (2000). Volcanic debris avalanche deposits of the upper Maronne valley (Cantal Volcano, France): evidence for contrasted formation and transport mechanisms. Journal of Volcanology and Geothermal Research, 102(3-4), 271-286. Schneider, J. L., & Fisher, R. V. (1998). Transport and emplacement mechanisms of large volcanic debris avalanches: evidence from the northwest sector of Cantal Volcano (France). Journal of Volcanology and Geothermal Research, 83(1-2), 141-165. Varet, J. (1969). Les phonolites agpaitiques et miaskitiques du Cantal septentrional (Auvergne, France). Bulletin Volcanologique, 33(2), 621-656. Wilson, M., Downes, H., & Cebria, J. M. (1995). Contrasting fractionation trends in coexisting continental alkaline magma series; Cantal, Massif Central, France. Journal of Petrology, 36(6), 1729-1753.
      • Mauriac
        • Menet
          • Brocq-en-Menet
R. Pierrot, P. Picot, J.J. Périchaud : "Inventaire Minéralogique du Cantal", BRGM and Editions G. de Bussac, 1971
    • Haute-Loire
      • Le Puy-en-Velay
de Goer, A., & Mergoil, J. (1971). Structure et dynamique des édifices volcaniques tertiaires et quaternaires. In Symposium sur la géologie, la morphologie, et la structure profonde du Massif Central français (pp. 345-376). Maury, R. C., & Varet, J. (1980). Le volcanisme tertiaire et quaternaire de France. Géologie de la France, Mémoires du Bureau de Recherches Géologiques et Miniéres, Paris, 107, 138-159. Liotard, J. M., Briot, D., & Boivin, P. (1988). Petrological and geochemical relationships between pyroxene megacrysts and associated alkali-basalts from Massif Central (France). Contributions to Mineralogy and Petrology, 98(1), 81-90. Brousse, R. & Lefevre, C. 1990. Le volcanisme en France et en Europe Limitrophe. Guides Géologiques Régionaux. Masson, Paris. Downes, H., Dupuy, C., & Leyreloup, A. F. (1990). Crustal evolution of the Hercynian belt of Western Europe: Evidence from lower-crustal granulitic xenoliths (French Massif Central). Chemical Geology, 83(3-4), 209-231. Mergoil, J., Boivin, P., Blès, J. L., Cantagrel, J. M., & Turland, M. (1993). Le Velay. Son volcanisme et les formations associées. Notice de la carte à 1/100 000. Géologie de la France, (3). Liotard, J. M., Dautria, J. M., & Cantagrel, J. M. (1995). Pétrogenèse des néphélinites de la région de Craponne-sur-Arzon (Nord-Velay): intervention possible d'un composant carbonatitique. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des planètes, 320(11), 1043-1050. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lamere, J. (2002). Igneous rocks: A classification and glossary of terms; Recommendations of the International Union of Geological Sciences. In Subcommission on the Systematics of Igneous rocks. Cambridge University Press. Chazot, G., Bertrand, H., Mergoil, J., & SHEPPARD, S. M. (2003). Mingling of immiscible dolomite carbonatite and trachyte in tuffs from the Massif Central, France. Journal of Petrology, 44(10), 1917-1936. Wittig, N., Baker, J. A., & Downes, H. (2007). U–Th–Pb and Lu–Hf isotopic constraints on the evolution of sub-continental lithospheric mantle, French Massif Central. Geochimica et Cosmochimica Acta, 71(5), 1290-1311. Woodland, A. B., & Jugo, P. J. (2007). A complex magmatic system beneath the Deves volcanic field, Massif Central, France: evidence from clinopyroxene megacrysts. Contributions to Mineralogy and Petrology, 153(6), 719-731. Touron, S., Renac, C., O'Reilly, S. Y., Cottin, J. Y., & Griffin, W. L. (2008). Characterization of the metasomatic agent in mantle xenoliths from Deves, Massif Central (France) using coupled in situ trace-element and O, Sr and Nd isotopic compositions. Geological Society, London, Special Publications, 293(1), 177-196. Paquette, J. L., & Mergoil-Daniel, J. (2009). Origin and U–Pb dating of zircon-bearing nepheline syenite xenoliths preserved in basaltic tephra (Massif Central, France). Contributions to Mineralogy and Petrology, 158(2), 245-262. Valentini, L., Moore, K. R., & Chazot, G. (2010). Unravelling carbonatite–silicate magma interaction dynamics: a case study from the Velay province (Massif Central, France). Lithos, 116(1-2), 53-64. Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.328
    • Puy-de-Dôme
Boivin, P., Besson, J. C., Briot, D., Camus, G., de Goër de Herve, A., Gougaud, A., ... & Miallier, D. (2009). Volcanologie de la Chaîne des Puys, Massif Central Français. 5th edn. Parc Naturel Régional des Volcans d'Auverge, Clermont-Ferrand. Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe limitrophe. «Guides géologiques régionaux». Masson, Paris. Brousse, R., Delibrias, G., Labeyrie, J., & Rudel, A. (1969). Eléments de chronologie des éruptions de la Chaîne des Puys. Bulletin de la Société géologique de France, 7(6), 770-793. Condomines, M., Morand, P., Camus, G., & Duthou, L. (1982). Chronological and geochemical study of lavas from the Chaine des Puys, Massif Central, France: evidence for crustal contamination. Contributions to Mineralogy and Petrology, 81(4), 296-303. Havette Ledebt, A., Brousse, R., & Maury, R. (1977). Identification de phases sodiques et potassiques dans la pâte d'un basalte alcalin de la Chaîne des Puys. Bulletin de Minéralogie, 100(6), 338-342. Martel, C., Champallier, R., Prouteau, G., Pichavant, M., Arbaret, L., Balcone-Boissard, H., ... & Scaillet, B. (2013). Trachyte phase relations and implication for magma storage conditions in the Chaîne des Puys (French Massif Central). Journal of Petrology, 54(6), 1071-1107. Maury, R., Brousse, R., Villemant, B., Joron, J. L., Jaffrezic, H., & Treuil, M. (1980). Cristallisation fractionnée d'un magma basaltique alcalin: la série de la Chaîne des Puys (Massif Central, France). I. Pétrologie. Bulletin de Minéralogie, 103(2), 250-266. Miallier, D., Michon, L., Évin, J., Pilleyre, T., Sanzelle, S., & Vernet, G. (2004). Volcans de la chaîne des Puys (Massif central, France): point sur la chronologie Vasset–Kilian–Pariou–Chopine. Comptes Rendus Geoscience, 336(15), 1345-1353. Miallier, D., Boivin, P., Deniel, C., Gourgaud, A., Lanos, P., Sforna, M., & Pilleyre, T. (2010). The ultimate summit eruption of Puy de Dôme volcano (Chaîne des Puys, French Massif Central) about 10,700 years ago. Comptes Rendus Geoscience, 342(11), 847-854. Michel, R. 1971. Les premieres recheres sur les volcans du Massif central (18e-19e siécles) et leur influence sur l'essor de la géologie. Géologie, géomorphologie et structure profonde du Massif Central français (J. Jung Symposium). Plein Air Service, Clermont-Ferrand, 331-344. Scarth, A., & Tanguy, J. C. (2001). Volcanoes of Europe. Terra Publishing, Harpenden. Villemant, B., Jaffrezic, H., Joron, J. L., & Treuil, M. (1981). Distribution coefficients of major and trace elements; fractional crystallization in the alkali basalt series of Chaine des Puys (Massif Central, France). Geochimica et Cosmochimica Acta, 45(11), 1997-2016.
      • Clermont-Ferrand
Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe limitrophe. «Guides géologiques régionaux». Masson, Paris.
Briot, D., Cantagrel, J. M., Dupuy, C., & Harmon, R. S. (1991). Geochemical evolution in crustal magma reservoirs: Trace-element and Sr Nd O isotopic variations in two continental intraplate series at Monts Dore, Massif Central, France. Chemical geology, 89(3-4), 281-303. Brousse, R. (1961). Minéralogie et pétrographie des roches volcaniques du Massif du Mont-Dore. Bull. Soc. Franc. Min4ral. Crist, 84, 245-259. Brousse, R. (1961). Recueil des analyses chimiques des roches volcaniques tertiaires et quaternaires de la France. Bull. Serv. Carte géol. France, 58(263), 1-140. Brousse, R. & Lefèvre, C. 1990. Le volcanisme en France et en Europe limitrophe. «Guides géologiques régionaux». Masson, Paris. Brousse, R., Rançon, J. P., Tempier, P., & Veyret, Y. (1989). Bourg-Lastic, Carte Géologique de la France à 1/50 000. Editions du BRGM-BP, 6009-45060. Cantagrel, J. M., & Baubron, J. C. (1983). Chronologie des éruptions dans le massif volcanique des Monts Dore (méthode potassium-argon). Bur. Rech. Géol. Min.(Fr.), Sect. Géol.(2), 1(1–2), 123-142. Sébastien, N., Jean-François, P., Nehlig, P., Hervé, G., Vincent, S., & Stéphane, S. Tephrochronology of the Mont-Dore volcanic Massif (Massif Central, France): new 40 Ar/39 Ar constraints on the Late Pliocene and Early Pleistocene activity. Bulletin of Volcanology, 76, 798. Sørensen, H., Bernth, U., & Brousse, R. (1999). Trachytes and phonolites from the Mont-Dore region, Auvergne, France. Geolines, (9), 114-118.
  • Bourgogne-Franche-Comté
    • Doubs
      • Besançon
        • Ornans
A. M. Davis (1985). Refractory Inclusions in the Ornans C3O Chondrite (Abstract). Lunar and Planetary Science XVI, pp. 165-166.
  • Centre-Val de Loire
    • Loir-et-Cher
      • Vendôme
        • Lancé
Brearley, A. J. & Jones, R. H. (1998): Chondritic Meteorites. In: Planetary Materials (Papike, J. J., Editor): Chapter 3, 398 pages. Mineralogical Society of America: Washington, DC, USA. (1998)
  • 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.
  • Ile-de-France
    • Paris
Marrocchi, Y., Gounelle, M., Blanchard, I., Caste, F. & Kearsley, A.T. (2014) The Paris CM chondrite: secondary minerals and asteroidal processing. Meteoritics & Planetary Science: 49 (7): 12321249. (July 2014).
  • Occitanie
    • Aude
      • Narbonne
        • Fitou
Azambre, B., Rossy, M., & Albarede, F. (1992). Petrology of the alkaline magmatism from the Cretaceous North-Pyrenean rift zone (France and Spain). European Journal of Mineralogy, 813-834.
Germany
 
  • Baden-Württemberg
    • Freiburg Region
      • Breisgau-Hochschwarzwald
        • Vogtsburg im Kaiserstuhl
          • Oberrotweil
Fricke, G., (1988): Der Kaiserstuhl und seine Minerale, Der Aufschluss, Vol. 39(2), 74-76; Spürgin, Simon & Weisenberger, Tobias & Marković, Marija. (2019) Zeolite-group minerals in phonolite-hosted deposits of the Kaiserstuhl Volcanic Complex, Germany. American Mineralogist. 104:659-670. 10.2138/am-2019-6831.
      • Konstanz
Alibert, C., Michard, A., & Albarède, F. (1983). The transition from alkali basalts to kimberlites: isotope and trace element evidence from melilitites. Contributions to Mineralogy and Petrology, 82(2-3), 176-186. Dunworth, E. A., & Wilson, M. (1998). Olivine melilitites of the SW German Tertiary Volcanic Province: mineralogy and petrogenesis. Journal of Petrology, 39(10), 1805-1836. Hegner, E., & Vennemann, T. W. (1997). Role of fluids in the origin of Tertiary European intraplate volcanism: evidence from O, H, and Sr isotopes in melilitites. Geology, 25(11), 1035-1038. Keller, J. (1989). Extrusive carbonatites and their significance. Carbonatites: genesis and evolution. Unwin Hyman, London, 70-88. Keller, J., Brey, G., Lorenz, V., & Sachs, P. (1990). Volcanism and petrology of the upper Rhinegraben (Urach-Hegau-Kaiserstuhl). Fieldguide, IAVCEI 1990 preconference excursion, 2. Wedepohl, K. H., Gohn, E., & Hartmann, G. (1994). Cenozoic alkali basaltic magmas of western Germany and their products of differentiation. Contributions to Mineralogy and Petrology, 115(3), 253-278. Wilson, M., Rosenbaum, J. M., & Dunworth, E. A. (1995). Melilitites: partial melts of the thermal boundary layer?. Contributions to Mineralogy and Petrology, 119(2-3), 181-196.
    • Karlsruhe Region
      • Rhein-Neckar-Kreis
        • Eberbach
Lippolt, H. J., Horn, P., & Todt, W. (1976). Kalium-Argon-Alter von Mineralien und Einschlüssen der Basalt-Vorkommen Katzenbuckel und Roßberg. N Jb Miner Abh, 127(3), 242-260. Mann, U., Marks, M., & Markl, G. (2006). Influence of oxygen fugacity on mineral compositions in peralkaline melts: The Katzenbuckel volcano, Southwest Germany. Lithos, 91(1-4), 262-285. Schmitt, A. K., Marks, M. A., Nesbor, H. D., & Markl, G. (2007). The onset and origin of differentiated Rhine Graben volcanism based on U-Pb ages and oxygen isotopic composition of zircon. European Journal of Mineralogy, 19(6), 849-857. Stähle, V., Koch, M., McCammon, C. A., Mann, U., & Markl, G. (2002). Occurrence of Low-Ti and High-Ti freudenbergite in alkali syenite dikes from the Katzenbuckel volcano, Southwestern Germany. The Canadian Mineralogist, 40(6), 1609-1627. Wagner, C., Velde, D., & Mokhtari, A. (1987). Sector-zoned phlogopites in igneous rocks. Contributions to Mineralogy and Petrology, 96(2), 186-191.
  • Hesse
    • Kassel Region
Harmon, R. S., Hoefs, J., & Wedepohl, K. H. (1987). Stable isotope (O, H, S) relationships in Tertiary basalts and their mantle xenoliths from the Northern Hessian Depression, W.-Germany. Contributions to Mineralogy and Petrology, 95(3), 350-369. Hartmann, G., & Wedepohl, K. H. (1990). Metasomatically altered peridotite xenoliths from the Hessian Depression (Northwest Germany). Geochimica et Cosmochimica Acta, 54(1), 71-86. Kramm, U., & Wedepohl, K. H. (1990). Tertiary basalts and peridotite xenoliths from the Hessian Depression (NW Germany), reflecting mantle compositions low in radiogenic Nd and Sr. Contributions to Mineralogy and Petrology, 106(1), 1-8. Mengel, K., Kramm, U., Wedepohl, K. H., & Gohn, E. (1984). Sr isotopes in peridotite xenoliths and their basaltic host rocks from the northern Hessian Depression (NW Germany). Contributions to mineralogy and petrology, 87(4), 369-375. Oehm, J., Schneider, A., & Wedepohl, K. H. (1983). Upper mantle rocks from basalts of the northern Hessian depression (NW Germany). Tschermaks mineralogische und petrographische Mitteilungen, 32(1), 25-48. Wedepohl, K. H. (1983). Die chemische Zusammensetzung der basaltischen Gesteine der nördlichen Hessischen Senke und ihrer Umgebung. Geologisches Jahrbuch Hessen, 111, 261-302. Wedepohl, K. H. (1985). Origin of the Tertiary basaltic volcanism in the northern Hessian Depression. Contributions to Mineralogy and Petrology, 89(2-3), 122-143.
  • Rhineland-Palatinate
    • Ahrweiler District
      • Brohltal
        • Wassenach
Hentschel, G., Die Mineralien der basaltischen Gesteine im Laacher Vulkangebiet, Der Aufschluß, Heft 2, 1975
    • Bernkastel-Wittlich District
      • Wittlich-Land
        • Bettenfeld
S. Weiß: "Mineralfundstellen, Deutschland West", Weise (Munich), 1990
    • Mayen-Koblenz District
      • Maifeld
        • Ochtendung
Lapis 1988(7+8), 70-72
      • Mendig
        • Bell
Hentschel, G., Die Mineralien der basaltischen Gesteine im Laacher Vulkangebiet, Der Aufschluß, Heft 2, 1975; Blaß, G. & Kruijen, F. (2013): Die Mineralogischen Neuigkeiten aus der Vulkaneifel. Mineralien-Welt 24 (3), 33-41.
      • Pellenz
        • Kruft
Hentschel, G., Die Mineralien der basaltischen Gesteine im Laacher Vulkangebiet, Der Aufschluß, Heft 2, 1975
Hentschel, G., Die Mineralien der Eifelvulkane, Weise Verlag München, 1983
        • Nickenich
Hentschel, G., Die Mineralien der basaltischen Gesteine im Laacher Vulkangebiet, Der Aufschluß, Heft 2, 1975
Hentschel, G., Die Mineralien der Eifelvulkane, Weise Verlag München, 1983
      • Vordereifel
        • Ettringen
Lapis, 15 (5), 9-36.
          • Hochstein (Hohestein; Forstberg)
Hentschel, G.: Frei gewachsene Perowskit-Kristalle in basaltischen Laven der Eifel, Der Aufschluss, 373-377, 1973
        • Sankt Johann
          • Hochsimmer volcano
Hentschel, G., Die Mineralien der basaltischen Gesteine im Laacher Vulkangebiet, Der Aufschluß, Heft 2, 1975
    • Vulkaneifel District
      • Daun
        • Daun
Hentschel, G., Die Mineralien der Eifelvulkane, Weise Verlag München, 1983
        • Dockweiler
Personally collected by Günter Frenz, analysed with Raman-Spectroscopy
        • Oberstadtfeld
Leu, K., Der Vulkanabbau "Auf´m Kopp" bei Oberstadtfeld in der Westeifel, Lapis 2/1995
        • Strohn
Blaß, G. and Kruijen, F. (2015) Neuigkeiten aus der Vulkaneifel (II/2015). Mineralien-Welt, 26(5), 80-90.
        • Üdersdorf
Schäfer, H., Die Mineralien der Einschlüsse und Auswürflinge in den Schlacken des Emmelberges bei Üdersdorf / Eifel, Der Aufschluss 30, 273-282, 1979
Guth, G., Interessante Neufunde für den Basaltbruch Liley (Löley) bei Üdersdorf in der Westeifel Mineralien-Welt 2/2000
      • Gerolstein
        • Gerolstein
          • Roth
Weiss: "Mineralfundstellen, Deutschland West", Weise (Munich), 1990; Blaß, G. & Schüller, W. (2012): Der Rother Kopf in der Vulkaneifel. Lapis, 37 (3), 20-29.
        • Hillesheim
Blass, G., Graf , HW., Neufunde von bekannten Fundorten (X), Mineralien-Welt 2/1994
        • Oberehe-Stroheich
Hentschel, G., Die Mineralien der Eifelvulkane, Weise Verlag München (2. Auflage), 1987
Weiss: "Mineralfundstellen, Deutschland West", Weise (Munich), 1990
        • Rockeskyll
          • Rockeskyll volcanic complex
Hentschel, G. (1987): Die Mineralien der Eifelvulkane, Weise Verlag München
Hentschel, G., (1987): Die Mineralien der Eifelvulkane, Weise Verlag München
Hentschel, G., Die Mineralien der Eifelvulkane, Weise Verlag München, 1983
Hentschel, G., (1987): Die Mineralien der Eifelvulkane, Weise Verlag München
        • Walsdorf
Hohn, G., Leu, K. (2015): Mineralien vom Goßberg bei Walsdorf, Eifel.- Lapis, 40 (Nr. 11), S. 30-36 + 54.
      • Kelberg
        • Drees
Schüller, W., Die Mineralien des Niveligsberges bei Drees in der Eifel, Der Aufschluß SB 33, 1990
Ehrenberg, K. H., Hickethier, H., Rosenberg, F., Strecker, G., & Susic, M. (1992). Neue Ergebnisse zum tertiären Vulkanismus der Rhön (Wasserkuppenrhön und Kuppenrhön). Berichte der Deutschen Mineralogischen Gesellschaft, 1992(2), 47-102. ENDERS, M., LAEMMLEN, M., & FÖRSTER, H. (1992). Polybaric differentiation of alkaline volcanic rocks in the Rhön Mountains, Hessia, Germany. evidence from trace-element-distribution. Chemie der Erde, 52(3), 189-203. Jung, S. (1995). Geochemistry and petrogenesis of rift-related Tertiary alkaline rocks from the Rhon area (central Germany). Neues Jahrbuch fur Mineralogie-Abhandlungen, 169(3), 193-226. Jung, S., & Hoernes, S. (2000). The major-and trace-element and isotope (Sr, Nd, O) geochemistry of Cenozoic alkaline rift-type volcanic rocks from the Rhön area (central Germany): petrology, mantle source characteristics and implications for asthenosphere–lithosphere interactions. Journal of Volcanology and Geothermal Research, 99(1-4), 27-53. Jung, S., Pfänder, J. A., Brügmann, G., & Stracke, A. (2005). Sources of primitive alkaline volcanic rocks from the Central European Volcanic Province (Rhön, Germany) inferred from Hf, Os and Pb isotopes. Contributions to Mineralogy and Petrology, 150(5), 546-559. Jung, S., Mezger, K., Hauff, F., Pack, A., & Hoernes, S. (2013). Petrogenesis of rift-related tephrites, phonolites and trachytes (Central European Volcanic Province, Rhön, FRG): Constraints from Sr, Nd, Pb and O isotopes. Chemical Geology, 354, 203-215. Lippolt, H. J. (1982). K/Ar age determinations and the correlation of Tertiary volcanic activity in Central Europe. Geologisches Jahrbuch. Reihe D. Mineralogie, Petrographie, Geochemie, Lagerstättenkunde, (52), 113-135. Lippolt, H. J. (1983). Distribution of volcanic activity in space and time. In Plateau uplift (pp. 112-120). Springer, Berlin, Heidelberg. Witt-Eickschen, G., & Kramm, U. (1997). Mantle upwelling and metasomatism beneath Central Europe: geochemical and isotopic constraints from mantle xenoliths from the Rhön (Germany). Journal of Petrology, 38(4), 479-493.
  • Saxony
    • Görlitz District
Büchner, J., Tietz, O., Viereck, L., Suhr, P., & Abratis, M. (2015). Volcanology, geochemistry and age of the Lausitz Volcanic Field. International Journal of Earth Sciences, 104(8), 2057-2083.
  • Thuringia
    • Hildburghausen District
      • Heldburg
Abratis, M., Viereck, L., Pfänder, J. A., & Hentschel, R. (2015). Geochemical composition, petrography and 40 Ar/39 Ar age of the Heldburg phonolite: implications on magma mixing and mingling. International Journal of Earth Sciences, 104(8), 2033-2055. Grant, T. B., Milke, R., Pandey, S., & Jahnke, H. (2013). The Heldburg Phonolite, Central Germany: Reactions between phonolite and xenocrysts from the upper mantle and lower crust. Lithos, 182, 86-101. Huckenholz, H. G., & WERNER, C. D. (1990). Die tertiären Vulkanite der Heldburger Gangschar (Bayerisch-thüringisches Grabfeld). Berichte der Deutschen Mineralogischen Gesellschaft, 1990(2), 1-42. Lippolt, H. J. (1982). K/Ar age determinations and the correlation of Tertiary volcanic activity in Central Europe. Geologisches Jahrbuch. Reihe D. Mineralogie, Petrographie, Geochemie, Lagerstättenkunde, (52), 113-135.
Lippolt, H. J. (1982). K/Ar age determinations and the correlation of Tertiary volcanic activity in Central Europe. Geologisches Jahrbuch. Reihe D. Mineralogie, Petrographie, Geochemie, Lagerstättenkunde, (52), 113-135. Grant, T. B., Milke, R., Pandey, S., & Jahnke, H. (2013). The Heldburg Phonolite, Central Germany: Reactions between phonolite and xenocrysts from the upper mantle and lower crust. Lithos, 182, 86-101. Abratis, M., Viereck, L., Pfänder, J. A., & Hentschel, R. (2015). Geochemical composition, petrography and 40 Ar/39 Ar age of the Heldburg phonolite: implications on magma mixing and mingling. International Journal of Earth Sciences, 104(8), 2033-2055. Huckenholz, H. G., & WERNER, C. D. (1990). Die tertiären Vulkanite der Heldburger Gangschar (Bayerisch-thüringisches Grabfeld). Berichte der Deutschen Mineralogischen Gesellschaft, 1990(2), 1-42.
Greece
 
  • East Macedonia and Thrace
    • Rhodope
      • Maroneia-Sapes
        • Maroneia
Mineral. Petrol. 95 (2009) 113-124.
Greenland
 
  • Kujalleq
    • Igaliku
      • Narsaarsuk Plateau
Knut Eldjarn Collection
      • Narsaarsuup Qaava
Koller, F. et al. (2012): Geochemistry of the Nanna Pegmatite, Narsaarsuup Quaava, South Greenland. Acta Mineralogica-Petrographica, Abstract Series, Szeged, Vol. 7, 2012, p. 71
    • Igaliku Complex
Adrian A. Finch (1990) Genthelvite and Willemite, Zinc Minerals Associated with Alkaline Magmatism from the Motzfeldt Centre, South Greenland. Mineralogical Magazine 54:407-412
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.; Coulson, I. M. (1997). Post-magmatic alteration in eudialyte from the North Qoroq centre, South Greenland. Mineralogical Magazine, 61(1), 99-109.
    • Narsaq
Boeggild, O.B. (1953): The Mineralogy of Greenland, Meddelelser om Grønland, Vol. 149/3, Reitzels Forlag Koebenhavn; Petersen, O.V. (2001): List of all minerals identified in the Ilímaussaq alkaline complex, South Greenland. Geology of Greenland Survey Bulletin. 190, 25-33; Andersen, T., & Friis, H. (2015). The transition from agpaitic to hyperagpaitic magmatic crystallization in the Ilímaussaq alkaline complex, South Greenland. Journal of Petrology, 56(7), 1343-1364.
Bøggild, O.B. (1953): The Mineralogy of Greenland. Meddelelser om Grønland, Bd. 149. Nr. 3. 445 pages. (p.69)
Bertil Otter photo ( id 796415 )
            • Lilleelv
Sørensen, H. (1962): On the occurrence of Steenstrupine in the Ilimaussaq massif, southwest Greenland. Meddelelser om Grønland. 167, Reitzels Forlag København, 251 p.
              • Pegmatite Valley
Pekov, I.V. et. al. (2004): Potassic-Arfvedsonite a K-dominant Amphibole of the Arfvedsonite-series from agpaitic pegmatites, Neues Jahrbuch Mineralogie, Monatshefte, Vol. 12, 555-574
Pekov, I.V. et al. (2002): Karupmollerite-Ca, (Na,Ca,K)2Ca(Nb,Ti)4(Si4O12)2(O,OH)4.7H2O, a new mineral of the labuntsovite group from the Ilimaussaq alkaline complex, South Greenland, Neues Jahrbuch für Mineralogie, Monatshefte, Vol. 10, 433-444
Petersen, O. V. (2001). List of minerals identified in the Ilimaussaq alkaline complex, South Greenland.Geology of Greenland Survey Bulletin 190: 25-33.
Bertil Otter collection & photo,photo-795849
Soerensen, H. (1962): On the occurrence of Steenstrupine in the Ilimaussaq massif, southwest Greenland, Meddelelser om Groenland, Reitzels Forlag Koebenhavn
Soerensen, H. (1962): On the occurrence of Steenstrupine in the Ilimaussaq massif, southwest Greenland, Meddelelser om Groenland, Reitzels Forlag Koebenhavn
Karup-Moeller, S., Makovicky, E. (1974): Skinnerite, a new Sulfosalt from the Ilimaussaq Alkaline Intrusion, South Greenland, American Mineralogist, Vol. 59, 889-895; Karup-Møller, S., Makovicky, E. (1974): Skinnerite, a new Sulfosalt from the Ilimaussaq Alkaline Intrusion, South Greenland. American Mineralogist. 59, 889-895
Régis GUILLOTTE photo and specimen, id: 825691
Friis, H. (2016). First occurrence of moskvinite-(Y) in the Ilímaussaq alkaline complex, South Greenland–implications for rare-earth element mobility. Mineralogical Magazine, 80(1), 31-41.
Khomyakov, A., Soerensen, H. (2001): Zoning in Steenstrupine-(Ce) from the Ilimaussaq alkaline complex, South Greenland, Geology of Greenland Survey Bulletin 190, 109-118
Pekov,I.V. & Ekimenkova, I.A. (2001): Two new rare-earth-rich mineral associations in the Ilímaussaq alkaline complex, South Greenland. Geology of Greenland Survey Bulletin 190, 143-144 ; Henning Sørensen and Lotte Melchior Larsen (2001) The hyper-agpaitic stage in the evolution of the Ilímaussaq alkaline complex, South Greenland. Geology of Greenland Survey Bulletin 190, 83–94
Semenov, E.I. et al. (1967): Rare Earths in minerals of the Joaquinite group. American Mineralogist. 52, 1762-1769
Petersen, O. V. & Johnsen, O. (2005): Mineral species first described from Greenland. Canadian Mineralogist, Special publication no. 8.
Semenov E I, Gerassimovsky V I, Maksimova N V, Andersen S, Petersen O V (1965) Sorensenite, new sodium-beryllium-tin-silicate from the Ilímaussaq intrusion, South Greenland. Meddelelser om Grønland 181, 1-19
Cole, M. (2003): Fluorescent Minerals of the Ilimaussaq Complex, Greenland, MinerShop 2003
Christopher Clemens photo- Photo ID: 857126
Sørensen, H. (1962): On the occurence of Steenstrupine in the Ilimaussaq massif, southwest Greenland. Meddelelser om Grønland. 167. Reitzels Forlag København. 251 p.; I. S. Oen, E. A. J. Burke and C. Kieft (1977) Westerveldite from Igdlúnguaq, Ilímaussaq Alkaline Massif, South Greenland. Mineralogical Magazine 41:77-83.
Danoe, M., Soerensen, H. (1959): An examination of the rare minerals from the Nepheline Syenites of south west Greenland, Meddelelser om Grønland, Vol. 162, Nr.5, Reitzels Forlag, København
Bøggild, O.B. (1953): The Mineralogy of Greenland. Meddelelser om Grønland, Reitzels Forlag København. Bd. 149. Nr. 3. 445 pages. (p. 220)
in the collection of Christof & H. Schäfer
Soerensen, H. (1962): On the occurrence of Steenstrupine in the Ilimaussaq massif, southwest Greenland, Meddelelser om Groenland, Reitzels Forlag Koebenhavn
Bøggild, O.B. (1953): The Mineralogy of Greenland. Meddelelser om Grønland, Bd. 149. Nr. 3. 445 pages. (p.256)
Robles, E., Fontan, F., Monchoux, P., Soerensen, H. (2001): Hiortdahlite II from the Ilimaussaq alkaline complex, South Greenland, South Greenland, Geology of Greenland Survey Bulletin, 190, 131-137
      • Quagdlimiut
http://www.koeln.netsurf.de/~w.steffens/green.htm
  • Sermersooq
    • Blosseville Coast
Brown, P.E., Brown, R.D., Chamber, A.D. & Soper, N.J. (1978): Fractionation and assimilation in the Borgtinderne syenite, East Greenland. Contributions to Mineralogy and Petrology. 67 (1) : 25-34
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.; Bedford, C.M., 1989. The mineralogy, geochemistry and petrogenesis of the Gronnedal-Ika complex, southwest Greenland. Unpublished PhD thesis, University of Durham
    • Kangerlussuaq Fjord
MinRec 16:485-494
    • Tasiilaq
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
Guinea
 
  • Conakry Region
Biagioni, C. (2007). I disilicati di Zr-Ti-Nb-REE delle sieniti a nefelina delle Iles de Los (Guinea). Tesi di laurea inedita, Università di Pisa.; Moreau, C., Ohnenstetter, D., Demaiffe, D., & Robineau, B. (1996). The Los Archipelago nepheline syenite ring-structure; a magmatic marker of the evolution of the Central and Equatorial Atlantic. The Canadian Mineralogist, 34(2), 281-299.
Lacroix, A. (1908) Sur l'existance du fluorure de sodium cristallisé comme èlèment des syènites nèphèliniques des îles de Los. Comptes Rendus Hebdomadaires des Séances de l'Académie des Sciences, 146 (5): 213-216; Moreau, C., Ohnenstetter, D., Demaiffe, D., & Robineau, B. (1996). The Los Archipelago nepheline syenite ring-structure; a magmatic marker of the evolution of the Central and Equatorial Atlantic. The Canadian Mineralogist, 34(2), 281-299.;
India
Mason, A. (1976) The world of Rocks and Minerals. New York, N.Y., Larousse & Co., 108 pages.
  • 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.
    • Prakasam District
Reddy, Y. J., & Leelanandam, C. (1986). OCCURRENCE OF NEPHELINE SYENITES WITHIN THE PASUPUGALLU GABBRO′ ANORTHOSITE PLUTON, PRAKASAM DISTRICT, ANDHRA PRADESH. Current Science, 55(23), 1190-1191.
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
    • 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
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.
Goldschmidt Conference Abstracts (2011) Mineralogical Magazine p1960
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.
    • Surendranagar District
Boynton, W.V., Hill, D.H., Wark, D.A. & Bischoff, A. (1983) Trace Elements in Ca, Al-Rich Chondrules in the Dhajala (H3) Chondrite: Meteoritics 18 (4): 270-271. (Dec 1983).
  • Karnataka
    • 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.
  • Madhya Pradesh
    • Chhindwara District (Chindawara District; Chindwara District)
Russell, S.S., Huss, G.R., MacPherson, G.J. & Wasserburg, G.J. (1997) Early and late chondrule formation - New constraints for solar nebula chronology from Al-26/Al-27 in unequilibrated ordinary chondrites: 28th Annual Lunar and Planetary Science Conference: 209-210.
  • Maharashtra
    • Nashik District
      • Igatpuri
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.93 Sukheswala, R. N., & Avasia, R. K. (1966). Nepheline syenite in the Deccan traps of Jawhar, Bombay. Geological Society of India, 7, 86-91. Czygan, W. 1985. Petrography and geochemistry of foid syenites and related rocks of the Deccan Trap area, India. Indian Mineralogist (Sukheswala Volume), 20-43.
  • 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.
  • Rajasthan
    • Ajmer District
Niyogi, D. (1966). Petrology of the alkalic rocks of Kishangarh, Rajasthan, India. Geological Society of America Bulletin, 77(1), 65-82. ; Niyogi, D. (1966). Petrology of the alkalic rocks of Kishangarh, Rajasthan, India. Geological Society of America Bulletin, 77(1), 65-82.
    • 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.
    • Krishnagiri District
Prinz, M., Weisberg, M. K., Nehru, C. E., MacPherson, G. J., Clayton, R. N. & Mayeda, T. K. (1989) Petrologic and Stable Isotope Study of the Kakangari (K-Group) Chondrite: Chondrules, Matrix, CAI's, Abstracts of the Lunar and Planetary Science Conference XX, page 870. (March 1989)
    • Ramanathapuram district
Krot, A.N. & 5 others (2006) Timescales and Settings for Chondritic Meteorites: IN: Meteorites and the Early Solar System II. Lauretta, D. S. & McSween Jr., H.Y., Editors: pp. 525-553. University of Arizona Press: Tucson, Arizona.
    • 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.
  • Uttar Pradesh
    • Mau District
Bridges, J. C., Alexander, C. M. O'D, Hutchison, R., Franchi, I. A. & Pillinger, C. T. (1997) Sodium-, chlorine-rich mesostases in chondrules in Chainpur (LL3) and Parnalle (LL3) chondrules: Meteoritics 32 (4): 555-566. (July 1997); Bridges, J. C. & Hutchison, R. (1995) Silica over- and undersaturated assemblages in chondrule mesostases (abstract): Meteoritics 30(5): 491-492. (Sept 1995)
  • West Bengal
    • Purulia District
Chakrabarty, A., Pruseth, K. L., & Sen, A. K. (2011). First report of eudialyte occurrence from the Sushina hill region, Purulia district, West Bengal. Journal of the Geological Society of India, 77(1), 12-16. Mitchell, R. H., & Chakrabarty, A. (2012). Paragenesis and decomposition assemblage of a Mn-rich eudialyte from the Sushina peralkaline nepheline syenite gneiss, Paschim Banga, India. Lithos, 152, 218-226.
Indonesia
 
  • East Java Province
    • Gresik Regency
Leterrier, J., Yuwono, Y. S., Soeria-Atmadja, R., & Maury, R. C. (1990). Potassic volcanism in central Java and south Sulawesi, Indonesia. Journal of Southeast Asian Earth Sciences, 4(3), 171-187. Soeria-Atmadja, R., Maury, R. C., Bellon, H., Yuwono, Y. S., & Cotten, J. (1988). Remarques sur la répartition du volcanisme potassique quaternaire de Java (Indonésie). Comptes rendus de l'Académie des sciences. Série 2, Mécanique, Physique, Chimie, Sciences de l'univers, Sciences de la Terre, 307(6), 635-641.
  • 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.
  • West Nusa Tenggara Province
Turner, S., Foden, J., George, R., Evans, P., Varne, R., Elburg, M., & Jenner, G. (2003). Rates and processes of potassic magma evolution beneath Sangeang Api volcano, East Sunda arc, Indonesia. Journal of Petrology, 44(3), 491-515. Foden, J. D., & Varne, R. (1980). The petrology and tectonic setting of Quaternary—recent volcanic centres of Lombok and Sumbawa, Sunda arc. Chemical Geology, 30(3), 201-226. Foden, J. D., & Varne, R. (1981). Petrogenetic and tectonic implications of near coeval calcalkaline to highly alkaline volcanism on Lombok and Sumbawa islands in the eastern Sunda Arc. In The Geology and Tectonics of Eastern Indonesia (Vol. 2, pp. 135-152). Geological Research and Development Centre.
    • Sumbawa Island
Foden, J. (1986). The petrology of Tambora volcano, Indonesia: a model for the 1815 eruption. Journal of Volcanology and Geothermal Research, 27(1-2), 1-41. Gertisser, R., Self, S., Thomas, L. E., Handley, H. K., Van Calsteren, P., & Wolff, J. A. (2011). Processes and timescales of magma genesis and differentiation leading to the great Tambora eruption in 1815. Journal of Petrology, 53(2), 271-297. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M., Bonin, B., Bateman, P., ... & Lameyre, J. 2002, Igneous Rocks: A Classification and Glossary of Terms: Recommendations of the International Union of Geological Sciences Subcommission on the Systematics of Igneous Rocks. 2nd edn. Cambridge University Press, Cambridge. Self, S., Rampino, M. R., Newton, M. S., & Wolff, J. A. (1984). Volcanological study of the great Tambora eruption of 1815. Geology, 12(11), 659-663.
Iran
 
  • East Azerbaijan Province
    • Kaleybar County
Hajialioghli, R., Moazzen, M., & Milke, R. (2011). Titanian garnet in nepheline syenite from the Kaleybar area, East Azerbaijan Province, NW Iran. Central European Geology, 54(3), 295-311.
  • 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.
Italy
 
  • Apulia
    • Foggia Province
      • Gargano Promontory
        • Lesina
Morici M. (1989) - I minerali di Punta delle Pietre nere - Riv. Miner. Ital., Milano, Fasc. 2, pp.115-117; Avanzinelli, R., Sapienza, G. T., & Conticelli, S. (2012). The Cretaceous to Paleogene within-plate magmatism of Pachino-Capo Passero (southeastern Sicily) and Adria (La Queglia and Pietre Nere, southern Italy): geochemical and isotopic evidence against a plume-related origin of circum-Mediterranean magmas. European Journal of Mineralogy, 24(1), 73-96. Bigazzi, G., Laurenzi, M. A., Principe, C., & Brocchini, D. (1996). New geochronological data on igneous rocks and evaporites of the Pietre Nere Point (Gargano Peninsula, southern Italy). Bollettino della Societa Geologica Italiana, 115(2), 439-448. De Astis, G., Kempton, P. D., Peccerillo, A., & Wu, T. W. (2006). Trace element and isotopic variations from Mt. Vulture to Campanian volcanoes: constraints for slab detachment and mantle inflow beneath southern Italy. Contributions to Mineralogy and Petrology, 151(3), 331-351. de Fino, M., La Volpe, L., & Piccarreta, G. (1981). Geochemistry and petrogenesis of the Paleocene platform magmatism at Punta delle Pietre Nere (Southeastern Italy). Neues Jahrbuch für Mineralogie. Abhandlungen, 142(2), 161-177. De Fino, M., La Volpe, L., & Piccarreta, G. (1982). Crystallization trends of pyroxenes from alkaline subvolcanites of Punta delle Pietre Nere (Gargano, Southern Italy). Tschermaks mineralogische und petrographische Mitteilungen, 29(3), 177-192. De Fino, M., La Volpe, L., & Piccarreta, G. (1983). Mafic minerals from Punta delle Pietre Nere subvolcanites (Gargano, Southern Italy): their petrological significance. Tschermaks mineralogische und petrographische Mitteilungen, 32(1), 69-78. Hawkesworth, C. J., & Vollmer, R. (1979). Crustal contamination versus enriched mantle: 143 Nd/144 Nd and 87 Sr/86 Sr evidence from the Italian volcanics. Contributions to Mineralogy and Petrology, 69(2), 151-165.
  • Campania
    • Caserta
Calderoni, G., Giannetti, B., & Masi, U. (1981). Distribution and behavior of lead in the K-alkaline rocks from the Roccamonfina Volcano (southern Italy). Chemical Geology, 34(3-4), 259-274. Cole, P. D., Guest, J. E., Duncan, A. M., Chester, D. K., & Bianchi, R. (1992). Post-collapse volcanic history of calderas on a composite volcano: an example from Roccamonfina, southern Italy. Bulletin of volcanology, 54(4), 253-266. Conticelli, S., D’antonio, M., Pinarelli, L., & Civetta, L. (2002). Source contamination and mantle heterogeneity in the genesis of Italian potassic and ultrapotassic volcanic rocks: Sr–Nd–Pb isotope data from Roman Province and Southern Tuscany. Mineralogy and Petrology, 74(2-4), 189-222. Ghiara, M. R., & Lirer, L. (1976). Mineralogy and geochemistry of the «Low potassium» series of the roccamonfina volcanic suite (Campania, South Italy). Bulletin Volcanologique, 40(1), 39-56. Conticelli, S., Marchionni, S., Rosa, D., Giordano, G., Boari, E., & Avanzinelli, R. (2009). Shoshonite and sub-alkaline magmas from an ultrapotassic volcano: Sr–Nd–Pb isotope data on the Roccamonfina volcanic rocks, Roman Magmatic Province, Southern Italy. Contributions to Mineralogy and Petrology, 157(1), 41-63. Giannetti, B. (1982). Cumulate inclusions from K-rich magmas, Roccamonfina volcano, Italy. Earth and Planetary Science Letters, 57(2), 313-335. Giannetti, B., & De Casa, G. (2000). Stratigraphy, chronology, and sedimentology of ignimbrites from the white trachytic tuff, Roccamonfina Volcano, Italy. Journal of Volcanology and Geothermal Research, 96(3-4), 243-295. Giannetti, B., & Ellam, R. (1994). The primitive lavas of Roccamonfina volcano, Roman region, Italy: new constraints on melting processes and source mineralogy. Contributions to Mineralogy and Petrology, 116(1-2), 21-31. Giannetti, B., & Luhr, J. F. (1983). The white trachytic tuff of Roccamonfina volcano (Roman region, Italy). Contributions to Mineralogy and Petrology, 84(2-3), 235-252. Giannetti, B., & Luhr, J. F. (1990). Phlogopite-clinopyroxenite nodules from high-K magmas, Roccamonfina Volcano, Italy: evidence for a low-pressure metasomatic origin. Earth and Planetary Science Letters, 101(2-4), 404-424. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lameyre, J. (2002). Igneous rocks. A classification and glossary of terms, 2. Nikogosian, I. K., & van Bergen, M. J. (2010). Heterogeneous mantle sources of potassium-rich magmas in central-southern Italy: Melt inclusion evidence from Roccamonfina and Ernici (Mid Latina Valley). Journal of Volcanology and Geothermal Research, 197(1-4), 279-302. Peccerillo, A. (2005). Plio-quaternary volcanism in Italy (Vol. 365). New York: Springer-Verlag Berlin Heidelberg. Rouchon, V., Gillot, P. Y., Quidelleur, X., Chiesa, S., & Floris, B. (2008). Temporal evolution of the Roccamonfina volcanic complex (Pleistocene), Central Italy. Journal of Volcanology and Geothermal Research, 177(2), 500-514. Taylor Jr, H. P., Giannetti, B., & Turi, B. (1979). Oxygen isotope geochemistry of the potassic igneous rocks from the Roccamonfina volcano, Roman comagmatic region, Italy. Earth and Planetary Science Letters, 46(1), 81-106. Vollmer, R., & Hawkesworth, C. J. (1980). Lead isotopic composition of the potassic rocks from Roccamonfina (South Italy). Earth and Planetary Science Letters, 47(1), 91-101.uri, B., Taylor Jr, H. P., & Ferrara, G. (1991). Comparisons of^(18) O/^(16) O and^(87) Sr/^(86) Sr in volcanic rocks from the Pontine Islands, M. Ernici, and Campania with other areas in Italy.
Giannetti, B. (): Cumulate inclusions from K-rich magmas, Roccamonfina volcano, Italy. Earth and Planetary Science Letters, 57, 313-335
-Della Ventura, G., Williams, T.C., Raudsepp, M., Bellatreccia, F., Caprilli, E., Giordano, G. (2001): Perrierite-(Ce) and zirconolite from a syenitic ejectum ofthe Roccamonfina volcano (Latium, Italy): implications for the mobility of Zr, Ti and Ree in volcanic environments, Neues Jahrbuch für Mineralogie, Monatshefte, 2001, 385-402.
    • Naples
      • Bacoli
Punzo I. (1996): La liottite di Torregaveta. Notizie del Gr. Miner. Geol. Napoletano, 1, 1, 3; Fedele L., Tarzia M., Belkin H.E., De Vivo B., Lima A., Lowenstern J.B. (2006): Magmatic–hydrothermal fluid interaction and mineralization in alkali-syenite nodules from the Breccia Museo pyroclastic deposit, Naples, Italy. In: De Vivo B. (ed.), Volcanism in the Campania Plain: Vesuvius, Campi Flegrei and Ignimbrites. Developments in Volcanology, vol. 9, Elsevier B.V., Amsterdam, pages 125-161.
Alberico, I., Lirer, L., Petrosino, P., & Scandone, R. (2008). Volcanic hazard and risk assessment from pyroclastic flows at Ischia island (southern Italy). Journal of volcanology and geothermal research, 171(1-2), 118-136. Brown, R. J., Orsi, G., & de Vita, S. (2008). New insights into Late Pleistocene explosive volcanic activity and caldera formation on Ischia (southern Italy). Bulletin of Volcanology, 70(5), 583-603. Chiesa, S., & Poli, S. (1988). Petrology. Island of Ischia. Quaderni della Ricerca Scientifica del CNR, 114, 72-93. Civetta, L., Gallo, G., & Orsi, G. (1991). Sr-and Nd-isotope and trace-element constraints on the chemical evolution of the magmatic system of Ischia (Italy) in the last 55 ka. Journal of Volcanology and Geothermal Research, 46(3-4), 213-230. D’Antonio, M., Tonarini, S., Arienzo, I., Civetta, L., Dallai, L., Moretti, R., ... & Trecalli, A. (2013). Mantle and crustal processes in the magmatism of the Campania region: inferences from mineralogy, geochemistry, and Sr–Nd–O isotopes of young hybrid volcanics of the Ischia island (South Italy). Contributions to Mineralogy and Petrology, 165(6), 1173-1194. Gillot, P.-Y. 1988. Geochronology - island of Ischia. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lameyre, J. (2002). Igneous rocks. A classification and glossary of terms, 2. Moretti, R., Arienzo, I., Orsi, G., Civetta, L., & D’Antonio, M. (2013). The deep plumbing system of Ischia: a physico-chemical window on the fluid-saturated and CO2-sustained Neapolitan volcanism (southern Italy). Journal of Petrology, 54(5), 951-984. Paoletti, V., Di Maio, R., Cella, F., Florio, G., Motschka, K., Roberti, N., ... & Rapolla, A. (2009). The Ischia volcanic island (Southern Italy): inferences from potential field data interpretation. Journal of Volcanology and Geothermal Research, 179(1-2), 69-86. Paoletti, V., D'Antonio, M., & Rapolla, A. (2013). The structural setting of the Ischia Island (Phlegrean Volcanic District, Southern Italy): inferences from geophysics and geochemistry. Journal of Volcanology and Geothermal Research, 249, 155-173. Poli, S., Chiesa, S., Gillot, P. Y., Gregnanin, A., & Guichard, F. (1987). Chemistry versus time in the volcanic complex of Ischia (Gulf of Naples, Italy): evidence of successive magmatic cycles. Contributions to Mineralogy and Petrology, 95(3), 322-335. Vezzoli, L. (1988). Island of Ischia. Consiglio Nazionale delle Ricerche. Quaderni della Ricerca Scientifica, 114, 133. Vezzoli, L. 1988. Stratigraphy. Vezzoli, L. (1988). Island of Ischia. Consiglio Nazionale delle Ricerche. Quaderni della Ricerca Scientifica, 13-23.; Alberico, I., Lirer, L., Petrosino, P., & Scandone, R. (2008). Volcanic hazard and risk assessment from pyroclastic flows at Ischia island (southern Italy). Journal of volcanology and geothermal research, 171(1-2), 118-136. Brown, R. J., Orsi, G., & de Vita, S. (2008). New insights into Late Pleistocene explosive volcanic activity and caldera formation on Ischia (southern Italy). Bulletin of Volcanology, 70(5), 583-603. Chiesa, S., & Poli, S. (1988). Petrology. Island of Ischia. Quaderni della Ricerca Scientifica del CNR, 114, 72-93. Civetta, L., Gallo, G., & Orsi, G. (1991). Sr-and Nd-isotope and trace-element constraints on the chemical evolution of the magmatic system of Ischia (Italy) in the last 55 ka. Journal of Volcanology and Geothermal Research, 46(3-4), 213-230. D’Antonio, M., Tonarini, S., Arienzo, I., Civetta, L., Dallai, L., Moretti, R., ... & Trecalli, A. (2013). Mantle and crustal processes in the magmatism of the Campania region: inferences from mineralogy, geochemistry, and Sr–Nd–O isotopes of young hybrid volcanics of the Ischia island (South Italy). Contributions to Mineralogy and Petrology, 165(6), 1173-1194. Gillot, P.-Y. 1988. Geochronology - island of Ischia. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lameyre, J. (2002). Igneous rocks. A classification and glossary of terms, 2. Moretti, R., Arienzo, I., Orsi, G., Civetta, L., & D’Antonio, M. (2013). The deep plumbing system of Ischia: a physico-chemical window on the fluid-saturated and CO2-sustained Neapolitan volcanism (southern Italy). Journal of Petrology, 54(5), 951-984. Paoletti, V., Di Maio, R., Cella, F., Florio, G., Motschka, K., Roberti, N., ... & Rapolla, A. (2009). The Ischia volcanic island (Southern Italy): inferences from potential field data interpretation. Journal of Volcanology and Geothermal Research, 179(1-2), 69-86. Paoletti, V., D'Antonio, M., & Rapolla, A. (2013). The structural setting of the Ischia Island (Phlegrean Volcanic District, Southern Italy): inferences from geophysics and geochemistry. Journal of Volcanology and Geothermal Research, 249, 155-173. Poli, S., Chiesa, S., Gillot, P. Y., Gregnanin, A., & Guichard, F. (1987). Chemistry versus time in the volcanic complex of Ischia (Gulf of Naples, Italy): evidence of successive magmatic cycles. Contributions to Mineralogy and Petrology, 95(3), 322-335. Vezzoli, L. (1988). Island of Ischia. Consiglio Nazionale delle Ricerche. Quaderni della Ricerca Scientifica, 114, 133. Vezzoli, L. 1988. Stratigraphy. Vezzoli, L. (1988). Island of Ischia. Consiglio Nazionale delle Ricerche. Quaderni della Ricerca Scientifica, 13-23.
Massim Russo collection
        • Lacco Ameno
Pichler, H., (1970): Italienische Vulkan-Gebiete II, Phlegräische Felder, Ischia,.... , Bornträger Berlin Stuttgart
D'Antonio, M., Civetta, L., Orsi, G., Pappalardo, L., Piochi, M., Carandente, A., ... & Isaia, R. (1999). The present state of the magmatic system of the Campi Flegrei caldera based on a reconstruction of its behavior in the past 12 ka. Journal of Volcanology and Geothermal Research, 91(2-4), 247-268. D'antonio, M., Civetta, L., & Di Girolamo, P. (1999). Mantle source heterogeneity in the Campanian Region (South Italy) as inferred from geochemical and isotopic features of mafic volcanic rocks with shoshonitic affinity. Mineralogy and Petrology, 67(3-4), 163-192. Deino, A. L., Orsi, G., de Vita, S., & Piochi, M. (2004). The age of the Neapolitan Yellow Tuff caldera-forming eruption (Campi Flegrei caldera–Italy) assessed by 40Ar/39Ar dating method. Journal of Volcanology and Geothermal Research, 133(1-4), 157-170. De Vivo, B., Rolandi, G., Gans, P. B., Calvert, A., Bohrson, W. A., Spera, F. J., & Belkin, H. E. (2001). New constraints on the pyroclastic eruptive history of the Campanian volcanic Plain (Italy). Mineralogy and Petrology, 73(1-3), 47-65. Di Vito, M., Lirer, L., Mastrolorenzo, G., & Rolandi, G. (1987). The 1538 Monte Nuovo eruption (Campi Flegrei, Italy). Bulletin of Volcanology, 49(4), 608-615. Di Renzo, V., Arienzo, I., Civetta, L., D'Antonio, M., Tonarini, S., Di Vito, M. A., & Orsi, G. (2011). The magmatic feeding system of the Campi Flegrei caldera: architecture and temporal evolution. Chemical Geology, 281(3-4), 227-241. Di Vito, M. A., Isaia, R., Orsi, G., Southon, J. D., De Vita, S., d'Antonio, M., ... & Piochi, M. (1999). Volcanism and deformation since 12,000 years at the Campi Flegrei caldera (Italy). Journal of Volcanology and Geothermal Research, 91(2-4), 221-246. Fowler, S. J., Spera, F. J., Bohrson, W. A., Belkin, H. E., & De Vivo, B. (2007). Phase equilibria constraints on the chemical and physical evolution of the Campanian Ignimbrite. Journal of Petrology, 48(3), 459-493. Fedele, L., Insinga, D. D., Calvert, A. T., Morra, V., Perrotta, A., & Scarpati, C. (2011). 40 Ar/39 Ar dating of tuff vents in the Campi Flegrei caldera (southern Italy): toward a new chronostratigraphic reconstruction of the Holocene volcanic activity. Bulletin of Volcanology, 73(9), 1323-1336. Guidoboni, E., & Ciuccarelli, C. (2011). The Campi Flegrei caldera: historical revision and new data on seismic crises, bradyseisms, the Monte Nuovo eruption and ensuing earthquakes (twelfth century 1582 AD). Bulletin of volcanology, 73(6), 655-677. Melluso, L., De'Gennaro, R., Fedele, L., Franciosi, L., & Morra, V. (2012). Evidence of crystallization in residual, Cl–F-rich, agpaitic, trachyphonolitic magmas and primitive Mg-rich basalt–trachyphonolite interaction in the lava domes of the Phlegrean Fields (Italy). Geological Magazine, 149(3), 532-550. Orsi, G., Civetta, L., D'Antonio, M., Di Girolamo, P., & Piochi, M. (1995). Step-filling and development of a three-layer magma chamber: the Neapolitan Yellow Tuff case history. Journal of Volcanology and Geothermal Research, 67(4), 291-312. Pappalardo, L., Civetta, L., d'Antonio, M., Deino, A., Di Vito, M., Orsi, G., ... & Piochi, M. (1999). Chemical and Sr-isotopical evolution of the Phlegraean magmatic system before the Campanian Ignimbrite and the Neapolitan Yellow Tuff eruptions. Journal of Volcanology and Geothermal Research, 91(2-4), 141-166. Pappalardo, L., Piochi, M., d’Antonio, M., Civetta, L., & Petrini, R. (2002). Evidence for multi-stage magmatic evolution during the past 60 kyr at Campi Flegrei (Italy) deduced from Sr, Nd and Pb isotope data. Journal of Petrology, 43(8), 1415-1434. Pappalardo, L., Ottolini, L., & Mastrolorenzo, G. (2008). The Campanian Ignimbrite (southern Italy) geochemical zoning: insight on the generation of a super-eruption from catastrophic differentiation and fast withdrawal. Contributions to Mineralogy and Petrology, 156(1), 1-26. Peccerillo, A. (2005). Plio-quaternary volcanism in Italy (Vol. 365). New York: Springer-Verlag Berlin Heidelberg. Ricci, T., Barberi, F., Davis, M. S., Isaia, R., & Nave, R. (2013). Volcanic risk perception in the Campi Flegrei area. Journal of Volcanology and Geothermal Research, 254, 118-130. Rosi, M., & Sbrana, A. (1987). Petrography. Quaderni de La Ricerca Scientifica, 9(114), 60-80. Scarpati, C., Perrotta, A., Lepore, S., & Calvert, A. (2013). Eruptive history of Neapolitan volcanoes: constraints from 40Ar–39Ar dating. Geological Magazine, 150(3), 412-425. Selva, J., Orsi, G., Di Vito, M. A., Marzocchi, W., & Sandri, L. (2012). Probability hazard map for future vent opening at the Campi Flegrei caldera, Italy. Bulletin of volcanology, 74(2), 497-510. Signorelli, S., Vaggelli, G., Francalanci, L., & Rosi, M. (1999). Origin of magmas feeding the Plinian phase of the Campanian Ignimbrite eruption, Phlegrean Fields (Italy): constraints based on matrix-glass and glass-inclusion compositions. Journal of Volcanology and Geothermal Research, 91(2-4), 199-220. Signorelli, S., Vaggelli, G., Romano, C., & Carroll, M. (2001). Volatile element zonation in Campanian Ignimbrite magmas (Phlegrean Fields, Italy): evidence from the study of glass inclusions and matrix glasses. Contributions to Mineralogy and Petrology, 140(5), 543-553.
      • Pozzuoli
vom Rath, G. (1866): Mineralogisch-geognostische Fragmente aus Italien. Zeitschrift der deutschen geologischen Gesellschaft, 18, 614ff
Pichler, H., (1970): Italienische Vulkangebiete II, Bornträger Berlin Stuttgart; Russo, M. (2010) I minerali dell'Isola di Procida. Poster. Publisher: Associazione Vivara Onlus.
      • Somma-Vesuvius Complex
        • Ercolano
Dunin Borkowski, S. (1816) Sur la sodalite de Vésuve. Annales des Mines, 1, 451-452; Dunin Borkowski, S. (1819) Sodalith entdeckt am Vesuv. Annalen der Physik und der Physikalischen Chemie, 63, 382-387.
        • Monte Somma
          • Ercolano
            • San Vito
Russo, M., Punzo, I. (2004): I minerali del Somma-Vesuvio, AMI
          • Massa di Somma
Imma Punzo find & collection
          • Pollena Trocchia
          • Somma Vesuviana
Scacchi, A., 1872: Durch Sublimation entstandene Mineralien, Zeitschrift der deutschen geologischen Gesellschaft, Vol. 24, 493-506
          • Terzigno
Simone Citon Collection
          • Torre del Greco
Carati, M. (1981) Mineralogia Vesuviana: Camaldoli della Torre (NA). Notiziario del Gruppo Mineralogico Geologico Napoletano, 2, 4, 15-16; Carati, M. (1982) Guida alla mineralogia vesuviana. Edizioni Calderini, Bologna, 121 pages; Russo, M., and Punzo, I. (2004) I Minerali del Somma-Vesuvio. AMI Associazione Micro-mineralogica Italiana, Tipografia Fantigrafica s.r.l., Cremona, 320 pages.
Del Caldo, A., Moro, C., Gramaccioli, C.M., Boscardin, M. (1973) Guida ai minerali. Fratelli Fabbri Editori, Milano, 208 pages; Russo, M. (1981) Mineralogia Campana: Le lave del 1631. Cava di Villa Inglese. Notiziario del Gruppo Mineralogico Geologico Napoletano, 2, 2, 7-12; Carati, M. (1982) Guida alla mineralogia vesuviana. Edizioni Calderini, Bologna, 121 pages; Russo, M. (2003) Mineralogia vesuviana: le cave di Villa Inglese (Torre del Greco, NA). Micro (località), 1-10; Russo, M., and Punzo, I. (2004) I Minerali del Somma-Vesuvio. AMI Associazione Micro-mineralogica Italiana, Tipografia Fantigrafica s.r.l., Cremona, 320 pages.
  • Emilia-Romagna
    • Ferrara Province
      • Vigarano Mainarda
        • Vigarano Pieve
Christophe-Michel-Levy, M., Caye, R., and Nelen, J. (1970) A new mineral in the Vigarano meteorite. Meteoritics, 5, 211; Sylvester, P.J., Simon, S.B., and Grossman, L. (1993) Refractory inclusions from the Leoville, Efremovka, and Vigarano C3V chondrites: Major element differences between Types A and B, and extraordinary refractory siderophile element compositions. Geochimica et Cosmochimica Acta, 57, 15, 3763-3784; Krot, A.N., Scott, E.R.D., and Zolensky, Z.M. (1995) Mineralogical and chemical modification of components in CV3 Chondrites: Nebular or asteroidal processing? Meteoritics & Planetary Science, 30, 6, 748-775.
  • Lazio
    • Frosinone Province
Mattias P.P. (1969): I minerali rinvenuti nelle cavità di una tefrite leucitica nella zona di Pofi (Frosinone). Per. Mineral., 38, 1, 87-108; Boscardin M. (1974): Informazioni di mineralogia italiana. 42) Minerali di Pofi (Frosinone). Notizie Gr. Mineral. Lombardo, 5, 2 (Giugno 1974), 30.
    • Metropolitan City of Rome Capital
De Michele, V. (1974). Guida mineralogica d'Italia. Istituto Geografico De Agostini, Novara, 2 vol
Mariani P., Scaini G.: "I minerali d'Italia" - Rizzoli, 1978 –
      • Campagnano di Roma
Stoppani, F.S. & Curti, E. (1982): I minerali del Lazio. Editoriale Olimpia, Firenze, 291 pp.
      • Castel Giuliano
Dario Di Domenico collection
      • Cesano geothermal field
Funiciello, R., Mariotti, G., Parotto, M. , Preite-Martinez, M., Tecce, F. , Toneatti, R., Turi, B. (1979): Geology, mineralogy and stable isotope geochemistry of the Cesano geothermal field (Sabatini Mts. volcanic system, northern Latium, Italy). Geothermics, 8, 1, 55 - 73.
      • Magliano Romano
Stoppani, F.S. & Curti, E. (1982): I minerali del Lazio. Editoriale Olimpia, Firenze, 291 pp.
      • Marino
Burli, M., and Di Domenico, D. (1988) Ritrovamento di minerali di torio, uranio e RE nelle sanidiniti del Vulcano Laziale. Documenta Albana, II Serie, 10, 7-8.
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.367 Buttinelli, M., De Rita, D., Cremisini, C., & Cimarelli, C. (2011). Deep explosive focal depths during maar forming magmatic-hydrothermal eruption: Baccano Crater, Central Italy. Bulletin of Volcanology, 73(7), 899-915. Cámara, F., Bellatreccia, F., Della Ventura, G., Mottana, A., Bindi, L., Gunter, M. E., & Sebastiani, M. (2010). Fantappièite, a new mineral of the cancrinite-sodalite group with a 33-layer stacking sequence: occurrence and crystal structure. American Mineralogist, 95(4), 472-480. Conticelli, S., Francalanci, L., Manetti, P., Cioni, R., & Sbrana, A. (1997). Petrology and geochemistry of the ultrapotassic rocks from the Sabatini Volcanic District, central Italy: the role of evolutionary processes in the genesis of variably enriched alkaline magmas. Journal of Volcanology and Geothermal Research, 75(1-2), 107-136. Cundari, A. (1979). Petrogenesis of leucite-bearing lavas in the Roman volcanic region, Italy. Contributions to Mineralogy and Petrology, 70(1), 9-21. Karner, D. B., Marra, F., & Renne, P. R. (2001). The history of the Monti Sabatini and Alban Hills volcanoes: groundwork for assessing volcanic-tectonic hazards for Rome. Journal of Volcanology and Geothermal Research, 107(1-3), 185-219. Le Maitre, R. W., Streckeisen, A., Zanettin, B., Le Bas, M. J., Bonin, B., Bateman, P., ... & Lameyre, J. (2002). Igneous rocks. A classification and glossary of terms, 2. Sottili, G., Palladino, D. M., & Zanon, V. (2004). Plinian activity during the early eruptive history of the Sabatini Volcanic District, Central Italy. Journal of Volcanology and Geothermal Research, 135(4), 361-379. Sottili, G., Palladino, D. M., Marra, F., Jicha, B., Karner, D. B., & Renne, P. (2010). Geochronology of the most recent activity in the Sabatini Volcanic District, Roman Province, central Italy. Journal of Volcanology and Geothermal Research, 196(1-2), 20-30. Sottili, G., Palladino, D. M., Gaeta, M., & Masotta, M. (2012). Origins and energetics of maar volcanoes: examples from the ultrapotassic Sabatini Volcanic District (Roman Province, Central Italy). Bulletin of Volcanology, 74(1), 163-186.
      • Sacrofano
Cámara, F., Bellatreccia, F., Ventura, G. D., Gunter, M. E., Sebastiani, M., & Cavallo, A. (2012). Kircherite, a new mineral of the cancrinite-sodalite group with a 36-layer stacking sequence: Occurrence and crystal structure. American Mineralogist, 97(8-9), 1494-1504.
    • Viterbo Province
Carloni, L., Signoretti, E., (2002): Le sanadiniti di Bassano Romano. Distretto Vulcanico Sabatino. Il Cercapietre. Not. del Gruppo Mineralogico Romano, 1-2: 28-36
      • Capranica
Antonio Borrelli Collection
"Giorgio Bortolozzi (visual identification)"
      • Farnese
American Mineralogist, Volume 92, pages 713-721, 2007
      • Gradoli
- Signoretti, E. & Bosco, P. (2001): Le cave di Gradoli e Onano. Il Cercapietre, 1/2-2001, 10-25
      • Ischia di Castro
https://www.mindat.org/locedit.php?loc=241132&m=1
Di Battistini, G., Montanini, A., Verniaa, L., Venturelli, G., and Tonarini, S. (2001) Petrology of melilite-bearing rocks from the Montefiascone Volcanic Complex (Roman Magmatic Province): New insights into the ultrapotassic volcanism of Central Italy. Lithos, 59, 1–24.
Di Battistini, G., Montanini, A., Vernia, L., Venturelli, G., & Tonarini, S. (2001). Petrology of melilite-bearing rocks from the Montefiascone Volcanic complex (Roman Magmatic Province): new insights into the ultrapotassic volcanism of Central Italy. Lithos, 59(1-2), 1-24.
      • Onano
Cresta, S., Duronio, F., Mancinella, D. (2002): Geositi e sistema delle arre protette del Lazio: idee per la geoconservazione. Il Cercapietre, 1-2/2002, 48-55
      • Vetralla
"Giorgio Bortolozzi (visual identification)"
"Giorgio Bortolozzi (visual identification)"
No reference listed
Carlini, R., Signoretti, E., 2003. Località minori del vulcano Vicano: Villa S.Giovanni in Tuscia e Mazzocchio. Il Cercapietre. Not. del Gruppo Mineralogico Romano, 1-2: 33-41
      • Viterbo
http://www.gminromano.it/Cercapietre/rivista04/testo/04A04.html; Cámara,F., Williams,C.T., Della Ventura,G., Oberto,R. & Caprilli,E. (2004): Non-metamict betafite from Le Carcarelle (Vico volcanic complex, Italy): occurrence and crystal structure, Mineralogical Magazine, 68, 939-950
  • Sicily
    • Metropolitan City of Catania
      • Etna Volcanic Complex
Armienti, P. I. E. T. R. O., Tonarini, S., D’Orazio, M. A. S. S. I. M. O., & Innocenti, F. A. B. R. I. Z. I. O. (2004). Genesis and evolution of Mt. Etna alkaline lavas: petrological and Sr-Nd-B isotope constraints. Periodico di Mineralogia, 73(Special issue 1), 29-52. Branca, S., Coltelli, M., De Beni, E., & Wijbrans, J. (2008). Geological evolution of Mount Etna volcano (Italy) from earliest products until the first central volcanism (between 500 and 100 ka ago) inferred from geochronological and stratigraphic data. International Journal of Earth Sciences, 97(1), 135-152. Chester, D. K., Duncan, A. M., Guest, J. E., & Kilburn, C. 1985. Mount Etna: the anatomy of a volcano. Chapman and Hall, London. Coltelli, M., Del Carlo, P., & Vezzoli, L. (2000). Stratigraphic constraints for explosive activity in the past 100 ka at Etna Volcano, Italy. International Journal of Earth Sciences, 89(3), 665-677. Corsaro, R. A., & Cristofolini, R. (1996). Origin and differentiation of recent basaltic magmas from Mount Etna. Mineralogy and Petrology, 57(1-2), 1-21. Corsaro, R. A., & Cristofolini, R. (1997). Geology, geochemistry and mineral chemistry of tholeiitic to transitional Etnean magmas. Acta Vulcanologica, 9, 55-66. Di Sabatino, B. 1977. Significato petrologico della presenza di leucite in lave basaltiche di stirpe atlantica: eruzione dell'Etna della primavera del 1971. Periodico di Mineralogia, 46, 45-57. Guest, J. E., Cole, P. D., Duncan, A. M., & Chester, D. K. (2003). Volcanoes of southern Italy (p. 284). London: Geological Society. Peccerillo, A. (2005). Plio-quaternary volcanism in Italy (Vol. 365). New York: Springer-Verlag Berlin Heidelberg. Tanguy, J. C., Condomines, M., & Kieffer, G. (1997). Evolution of the Mount Etna magma: constraints on the present feeding system and eruptive mechanism. Journal of Volcanology and Geothermal research, 75(3-4), 221-250.; Armienti, P. I. E. T. R. O., Tonarini, S., D’Orazio, M. A. S. S. I. M. O., & Innocenti, F. A. B. R. I. Z. I. O. (2004). Genesis and evolution of Mt. Etna alkaline lavas: petrological and Sr-Nd-B isotope constraints. Periodico di Mineralogia, 73(Special issue 1), 29-52. Branca, S., Coltelli, M., De Beni, E., & Wijbrans, J. (2008). Geological evolution of Mount Etna volcano (Italy) from earliest products until the first central volcanism (between 500 and 100 ka ago) inferred from geochronological and stratigraphic data. International Journal of Earth Sciences, 97(1), 135-152. Chester, D. K., Duncan, A. M., Guest, J. E., & Kilburn, C. 1985. Mount Etna: the anatomy of a volcano. Chapman and Hall, London. Coltelli, M., Del Carlo, P., & Vezzoli, L. (2000). Stratigraphic constraints for explosive activity in the past 100 ka at Etna Volcano, Italy. International Journal of Earth Sciences, 89(3), 665-677. Corsaro, R. A., & Cristofolini, R. (1996). Origin and differentiation of recent basaltic magmas from Mount Etna. Mineralogy and Petrology, 57(1-2), 1-21. Corsaro, R. A., & Cristofolini, R. (1997). Geology, geochemistry and mineral chemistry of tholeiitic to transitional Etnean magmas. Acta Vulcanologica, 9, 55-66. Di Sabatino, B. 1977. Significato petrologico della presenza di leucite in lave basaltiche di stirpe atlantica: eruzione dell'Etna della primavera del 1971. Periodico di Mineralogia, 46, 45-57. Guest, J. E., Cole, P. D., Duncan, A. M., & Chester, D. K. (2003). Volcanoes of southern Italy (p. 284). London: Geological Society. Peccerillo, A. (2005). Plio-quaternary volcanism in Italy (Vol. 365). New York: Springer-Verlag Berlin Heidelberg. Tanguy, J. C., Condomines, M., & Kieffer, G. (1997). Evolution of the Mount Etna magma: constraints on the present feeding system and eruptive mechanism. Journal of Volcanology and Geothermal research, 75(3-4), 221-250.
Kazakhstan
 
  • Akmola Region
    • Zerendy
  • Aktobe Region
    • Kargaly
    • Khromtau
Kogaro et al (1995) Alkaline Rocks and Carbonatites of the World Part 2: USSR
  • Jambyl Region
    • Sarysu
      • Berkuty stream
  • Pavlodar Region
    • Bayanaul
    • Pavlodar
Komatsu, M., Krot, A. N., Petaev, M. I., Ulyanov, A. A., Keil, K., & Miyamoto, M. (2001). Mineralogy and petrography of amoeboid olivine aggregates from the reduced CV3 chondrites Efremovka, Leoville and Vigarano: Products of nebular condensation, accretion and annealing. Meteoritics & Planetary Science, 36(5), 629-641.
Kenya
 
  • Kajiado County
Nash, W.P., Carmichael, I.S.E., Hohnson, R.W. (1969) The Mineralogy and Petrology of Mount Suswa, Kenya. Journal of Petrology, 10:3, 409-439.
  • Kwale County
Woolley, A. R. (1987). Alkaline rocks and carbonatites of the world: Africa. Geological Society of London.
  • 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.; Price, R.C., Johnson, R.W., Gray, C.M., and Frey, F.A. (1985) Geochemistry of phonolites and trachytes from the summit region of Mt. Kenya. Contributions to Mineralogy and Petrology, 89, 394–409.
Kyrgyzstan
 
  • Issyk-Kul Region
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.
  • Kufra District
Flinn et al (1992)
Flinn et al. (1992)
  • Wadi al Shatii District
Oun, K. M. (1991): On the poikilitic nature of Jabal Al Hasawinah eudialyte. Mineralogical Magazine 55, 543-547.
Malawi
 
  • Northern Region
    • Chitipa
      • Songwe Complex
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.
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.
  • Southern Region
    • Machinga
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.
Mali
 
  • Kidal Region
    • Tessalit Cercle
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.
Mauritania
 
  • Inchiri Region
    • Ahmeyim
Mauritanian Geological Survey (1995) database
  • Tiris Zemmour Region
    • Bir Moghrein
Mauritanian Geological Survey (1995) database
Mexico
 
  • Chihuahua
    • Pueblito de Allende
Ma, C., Beckett, J.R., and Rossman, G.R. (2009) Allendeite and Hexamolybdenum: Two New Ultra-Refractory Minerals in Allende and Two Missing Links, 40th Lunar and Planetary Science Conference, 2009. www.lpi.usra.edu/meetings/metsoc2002/pdf/5053.pdf.; Stuart A. Sweeney Smith (2010) Characterization of two atypical refractory inclusions from separate CV3 chondritic meteorites: Petrogenesis in the early Solar System . Senior Comprehensive Exercise Carleton College, Northfield, Minnesota.
Mongolia
 
  • Dornogovi Province
    • Khatanbulag District
Kynický, J. & Samec, P. (2005): Hydrothermally-metasomatic and exsolution-like mineralization of the carbonatites from selected localities at Gobi. Mongolian Geoscientist. sv. 9, č. 27, s. 52-55.
  • Khövsgöl Province
    • Alag-Erdene District
Pavlenko, A. S. (1974). The Mongol-Tuva province of alkaline rocks. In The alkaline rocks (pp. 271-293). Wiley & Sons New York.
  • Sühbaatar Province
    • Khalzan District
Gerel, O., Oyungerel, S., & Minjin, C., 2005. Intrusive Magmatism of South Mongolia. Seltmann, R., Gerel, O., & Kirwin, D. Geodynamics and Metallogeny of Mongolia with a special emphasis on copper and gold deposits. IAGOD guidebook series, 11. CERCAMS/Natural History Museum, London, 131-148.
Morocco
 
  • Béni Mellal-Khénifra Region
    • Khénifra Province
      • Tamazeght Mountain Range
Khadem Allah, B. (1993); Woolley, A. R. (2001). Alkaline Rocks and Carbonatites of the World: Africa. Geological Society of London.
  • Dakhla-Oued Ed-Dahab Region
Bea, F., Montero, P., Haissen, F., & El Archi, A. (2013). 2.46 Ga kalsilite and nepheline syenites from the Awsard pluton, Reguibat Rise of the West African Craton, Morocco. Generation of extremely K-rich magmas at the Archean–Proterozoic transition. Precambrian Research, 224, 242-254.
Myanmar
 
  • Mandalay Region
    • Pyin-Oo-Lwin District
http://www.ruby-sapphire.com/r-s-bk-burma2.htm
        • Kyatpyin North
Ted Themelis (2008) Gems & mines of Mogok
        • Marble Ark
Ted Themelis (2008) Gems & mines of Mogok
Harald Schillhammer collection
        • Mogok Valley
          • Dattaw-taung (Dattaw hill)
Ted Themelis (2008) Gems & mines of Mogok
Ted Themelis (2008) Gems & mines of Mogok
Ted Themelis (2008) Gems & mines of Mogok
Ted Themelis (2008) Gems and Mines of Mogok
Knut Eldjarn specimen
Ted Themelis (2008) Gems & mines of Mogok
Namibia
Mason, A. (1976) The world of Rocks and Minerals. New York, N.Y., Larousse & Co., 108 pages.
  • 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
[http://www.koeln.netsurf.de/~w.steffens/aris.htm]; 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. ; Koller F, Skoda R, Palfi A, Popp F, Jost B (2014) Paleogene phonolites of the Aris, Staalhart and Klinghardt groups, central and south Namibia, Africa. 21 st meeting of the International Mineralogical Association. p 194
Koller F, Skoda R, Palfi A, Popp F, Jost B (2014) Paleogene phonolites of the Aris, Staalhart and Klinghardt groups, central and south Namibia, Africa. 21 st meeting of the International Mineralogical Association. p 194
  • Kunene Region
    • Epupa
Drüppel, K., Wagner, T., Boyce, A.J. (2006) Evolution of sulfide mineralization in ferrocarbonatite, Swartbooissdrif, NW Namibia: constraints from mineral chemistry and sulfur isotopes. Can. Mineral., 44, 877-894.
von Seckendorff, V., Drüppel, K., Okrusch, M., Cook, N.J., and Littmann, S. (2000): Mineralium Deposita 35, 430-450.; Drüppel, K., Hoefs, J., & Okrusch, M. (2005). Fenitizing processes induced by ferrocarbonatite magmatism at Swartbooisdrif, NW Namibia. Journal of Petrology, 46(2), 377-406.; Thompson, R., Smith, P., Gibson, S. A., Mattey, D., & Dickin, A. (2002). Ankerite carbonatite from Swartbooisdrif, Namibia: the first evidence for magmatic ferrocarbonatite. Contributions to Mineralogy and Petrology, 143(3), 377-396.
        • Orotumba
von Seckendorff, V., Drüppel, K., Okrusch, M., Cook, N.J., and Littmann, S. (2000): Mineralium Deposita 35, 430-450; Bezing, L. von., Bode, R., and Jahn, S., (2008) Namibia Minerals and Localities. Edition Schloss Freudenstein, Bode Verlag GmbH, Haltern, (in English)
    • 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.
  • ǁKaras Region
    • ǃNamiǂNûs Constituency
Koller F, Skoda R, Palfi A, Popp F, Jost B (2014) Paleogene phonolites of the Aris, Staalhart and Klinghardt groups, central and south Namibia, Africa. 21 st meeting of the International Mineralogical Association. p 194
Nepal
 
  • Gandaki Pradesh
    • Gorkha District
Bordet, P., Colchen, M., Le Fort, P., & Pecher, A. (1981). The geodynamic evolution of the Himalaya. Ten years of research in Central Nepal Himalaya and some other regions. Gupta and Delany (Editors), Zagros-Hindu Kush-Himalaya Geodynamic Evolution. Am. Geophys. Union, Geodyn. Ser, 3, 149-168. Dhital, M. R. (1995). Mode of occurrence of nepheline syenites in the Gorkha-Ampipal area, central Nepal, Lesser Himalaya. Journal of the Nepal Geological Society, 11, 159-170. Lasserre, J. L., & JL, L. (1977). AMPHIBOLITES AND ALKALINE GNEISSES IN THE MIDLAND FORMATIONS OF NEPAL PETROGRAPHY GEOCHEMISTRY, GEODYNAMIC INVOLVEMENTS. Paper presented at the Colloques Internationaux du Centre National de la Recherche Scientifique, Paris, France, No. 268, Ecologie et Geologie de l'Himalaya, 213-236.
New Zealand
 
  • Canterbury Region
    • Hurunui District
      • Culverden
Mason, B. (1951). The syenite and associated rocks of the Mandamus-Pahau area, North Canterbury, New Zealand. In Transactions of the Royal Society of New Zealand (Vol. 79, pp. 261-275). Shelley, D., Smale, D., & Tulloch, A. J. (1977). Boehmite in syenite from New Zealand. Mineralogical Magazine, 41(319), 398-400. Tulloch, A. J. (1991). Alkaline plutonic and volcanic rocks of the Late Cretaceous Mandamus Igneous Complex, north Canterbury. Weaver, S. D., & Pankhurst, R. J. (1991). A precise Rb‐Sr age for the Mandamus Igneous Complex, North Canterbury, and regional tectonic implications. New Zealand journal of geology and geophysics, 34(3), 341-345.; Mason, B. (1951). The syenite and associated rocks of the Mandamus-Pahau area, North Canterbury, New Zealand. In Transactions of the Royal Society of New Zealand (Vol. 79, pp. 261-275). Shelley, D., Smale, D., & Tulloch, A. J. (1977). Boehmite in syenite from New Zealand. Mineralogical Magazine, 41(319), 398-400. Tulloch, A. J. (1991). Alkaline plutonic and volcanic rocks of the Late Cretaceous Mandamus Igneous Complex, north Canterbury. Weaver, S. D., & Pankhurst, R. J. (1991). A precise Rb‐Sr age for the Mandamus Igneous Complex, North Canterbury, and regional tectonic implications. New Zealand journal of geology and geophysics, 34(3), 341-345.
    • Kaikoura District
Baker, I. A., Gamble, J. A., & Graham, I. J. (1994). The age, geology, and geochemistry of the Tapuaenuku igneous complex, Marlborough, New Zealand. New Zealand journal of geology and geophysics, 37(3), 249-268. McCoy-West, A. J., Baker, J. A., Faure, K., & Wysoczanski, R. (2010). Petrogenesis and origins of mid-Cretaceous continental intraplate volcanism in Marlborough, New Zealand: implications for the long-lived HIMU magmatic mega-province of the SW Pacific. Journal of Petrology, 51(10), 2003-2045. Suggate, R. P., Stevens, G. R., & Te Punga, M. T. (1978). The Geology of New Zealand. Vol. II. Government printer.; Baker, I. A., Gamble, J. A., & Graham, I. J. (1994). The age, geology, and geochemistry of the Tapuaenuku igneous complex, Marlborough, New Zealand. New Zealand journal of geology and geophysics, 37(3), 249-268. McCoy-West, A. J., Baker, J. A., Faure, K., & Wysoczanski, R. (2010). Petrogenesis and origins of mid-Cretaceous continental intraplate volcanism in Marlborough, New Zealand: implications for the long-lived HIMU magmatic mega-province of the SW Pacific. Journal of Petrology, 51(10), 2003-2045. Suggate, R. P., Stevens, G. R., & Te Punga, M. T. (1978). The Geology of New Zealand. Vol. II. Government printer.
  • Otago Region
    • Dunedin City
      • East Otago Volcanic Province
Turner, F.J. & Verhoogen, J. 1960. Igneous and Metamorphic Petrology. McGraw-Hill, New York. Coombs, D. S., & Wilkinson, J. F. G. (1969). Lineages and fractionation trends in undersaturated volcanic rocks from the East Otago volcanic province (New Zealand) and related rocks. Journal of petrology, 10(3), 440-501. Price, R. C., & Chappell, B. W. (1975). Fractional crystallisation and the petrology of Dunedin Volcano. Contributions to mineralogy and petrology, 53(3), 157-182. Coombs, D. S., Adams, C. J., Roser, B. P., & Reay, A. (2008). Geochronology and geochemistry of the Dunedin Volcanic Group, eastern Otago, New Zealand. New Zealand Journal of Geology and Geophysics, 51(3), 195-218.
      • Otago Peninsula
Allen, J.M. (1974) Port Chalmers Breccia and adjacent early flows of the Dunedin volcanic complex at Port Chalmers. New Zealand Journal of Geology and Geophysics,17:1, 209-223.
  • Taranaki Region
Kimura, M. & Ikeda, Y. (1998). Hydrous and anhydrous alterations of chondrules in Kaba and Mokoia CV chondrites. Meteoritics & Planetary Science 33 (5): 955–1198. (Sept 1998).
  • West Coast Region
    • Grey District
Tulloch, A. J., Kimbrough, D. L., & Waight, T. E. (1994). The French Creek granite, north Westland, New Zealand-Late Cretaceous A-type plutonism on the Tasman passive margin. In Tasman Sea conference (pp. 65-66). Waight, T. E., Weaver, S. D., Ireland, T. R., Maas, R., Muir, R. J., & Shelley, D. (1997). Field characteristics, petrography, and geochronology of the Hohonu Batholith and the adjacent Granite Hill complex, North Westland, New Zealand. New Zealand Journal of Geology and Geophysics, 40(1), 1-17. Tulloch, A. J., & Nathan, S. (1990). Spinel harzburgite xenoliths in alkali basalt and camptonite from North Westland and southeast Nelson, New Zealand. New Zealand Journal of Geology and Geophysics, 33(4), 529-534.
    • Westland District
A. F Cooper (1971) Carbonatites and Fenitization Associated with a Lamprophyric Dike-Swarm Intrusive into Schists of the New Zealand Geosyncline. GSA Bulletin 82:1327-1340; Woolley, A. R. (2019, September). Alkaline Rocks and Carbonatites of the World, Part 4: Antarctica, Asia and Europe (excluding the former USSR), Australasia and Oceanic Islands. Geological Society of London, 283
North Korea
 
  • Kangwon Province
    • Kimhwa County
Paek, R.J., Gap, K.H., & Jon, G.P. (eds) 1996. Geology of Korea. Foreign languages books publishing house, Pyongyang.
Paek, R.J., Gap, K.H., & Jon, G.P. (eds) 1996. Geology of Korea. Foreign languages books publishing house, Pyongyang.
    • Pyonggang County
INOUE Tami (1950) Amphiboles and Biotites from the Fukushinzan Alkaline Complex, Korea. Journal of the Geological Society of Japan 56(653), 71-77, 1950-06-25
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.152 Inoue, T. & Miyashiro, A. 1951. Occurrence of vesuvianite in nepheline-syenitic rocks of the Fukushinzan District, Korea: with general consideration of the relation between the composition and occurrence of vesuvianite. Journal of the Geological Society of Japan, 57, 51-57. Miyashiro, A., & Miyashiro, T. (1956). Nepheline syenites and associated alkalic rocks of the Fukushin-zan district. Korea: Jour. Fac. Sci., Univ. Tokyo, Sec. II, 10, 1-64. Paek, R.J., Gap, K.H., & Jon, G.P. (eds) 1996. Geology of Korea. Foreign languages books publishing house, Pyongyang.
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.152 Paek, R.J., Gap, K.H., & Jon, G.P. (eds) 1996. Geology of Korea. Foreign languages books publishing house, Pyongyang.
      • So-myon
University of Tokyo collection, specimens No. IX-390—No. IX-393.
Northwest Africa Meteorites
 
Fintor, K., Park, C., Nagy, S., Pál-Molnár, E. & Krot, A. N (2014) Hydrothermal origin of hexagonal CaAl2Si2O8 (dmisteinbergite) in a type A CAI from the Northwest Africa 2086 CV3 Chondrite: Meteoritics & Planetary Science 49 (5): 812-823 (May 2014)
Norway
 
Furnes, H., Elvsborg, A., & Malm, O. A. (1982). Lower and Middle Jurassic alkaline magmatism in the Egersund sub-basin, North Sea. Marine Geology, 46(1-2), 53-69. Latin, D., & Waters, F. G. (1992). Basaltic magmatism in the North Sea and its relationship to lithospheric extension. Tectonophysics, 208(1-3), 77-90.
Andersen, T. (1984). Crystallization history of a Permian composite monzonite-alkali syenite pluton in the Sande cauldron, Oslo rift, southern Norway. Lithos, 17, 153-170. Anthony, E. Y., Segalstad, T. V., & Neumann, E. R. (1989). An unusual mantle source region for nephelinites from the Oslo Rift, Norway. Geochimica et Cosmochimica Acta, 53(5), 1067-1076. Corfu, F., & Dahlgren, S. (2008). Perovskite U–Pb ages and the Pb isotopic composition of alkaline volcanism initiating the Permo-Carboniferous Oslo Rift. Earth and Planetary Science Letters, 265(1-2), 256-269. Dons, J. A. (1952). Studies on the Igneous Rock Complex of the Oslo Region XI Compound Volcanic Neck. Igneous Dykes and Fault Zone in the Ullernâsen-Husebyâsen Area, Oslo. Vid. Akad. Skr. Klasse. 1952, 2, 1-96. Dons, J. A., & JA, D. (1978). TERMINOLOGY AND HISTORY OF INVESTIGATIONS. Dons, J. A. & Larsen, B.T. (Ed.). (1978). The Oslo paleorift: a review and guide to excursions; prepared for the NATO advanced study institute, held at Sundvollen near Oslo, July 27-August 5, 1977. Norges Geologiske Undersøkelse, 337. Heldal, T. & Neeb, P.R. 2000. Natural stone in Norway: production, deposits and developments. Norges Geologiske Undersøkelse Bulletin, 436, 15-26. Ihlen, P. M., & Vokes, F. M. (1978). Metallogeny associated with the Oslo rifting. The Oslo Paleorift. Norges geologiske undersøkelse, 337, 75-90. Kirstein, L. A., Davies, G. R., & Heeremans, M. (2006). The petrogenesis of Carboniferous–Permian dyke and sill intrusions across northern Europe. Contributions to Mineralogy and Petrology, 152(6), 721-742. Larsen, A. O. (1996). Rare earth minerals from the syenite pegmatites in the Olso Region, Norway. MINERALOGICAL SOCIETY SERIES, 7, 151-166. Larsen, A. O. (2010). The Langesundsfjord. History, Geology, Pegmatites, Minerals. Bode, Salzhemmendorf, Germany, 240. Larsen, A. O. (2010). The larvikite industry. Neumann, E. R. (1976). Compositional relations among pyroxenes, amphiboles and other mafic phases in the Oslo Region plutonic rocks: Publication no. 115 in the Norwegian Geotraverse project. Lithos, 9(2), 85-109. Neumann, E. R., & ER, N. (1978). PETROLOGY OF THE PLUTONIC ROCKS. ELSE-RAGNHILD, N. E. U. M. A. N. N. (1980). Petrogenesis of the Oslo Region larvikites and associated rocks. Journal of Petrology, 21(3), 499-531. Neumann, E.R. 1988. Isotopic and Petrological Relations of the Crust and Upper Mantle Under the Oslo Graben, southeast Norway. Norges Geologiske Undersøkelse, Special Publications, 3, 7-13. Neumann, E. R., Tilton, G. R., & Tuen, E. (1988). Sr, Nd and Pb isotope geochemistry of the Oslo rift igneous province, southeast Norway. Geochimica et Cosmochimica Acta, 52(8), 1997-2007. Oftedahl, C. (1952). Studies on the igneous rock complex of the Oslo region XIII. The lavas. Skr. Nor. Vidensk; Akad. Oslo, Mat. Naturv. KI, 3, 1-64. Oftedahl, C. (1953). The cauldrons, 13, Studies on the igneous rock complex of the Oslo Region. Skrifter Utgitt av det Norske Videnskaps-Akademi 1 Oslo. I Mat.-Naturv. Klasse. 1953. 3, 1-108. Oftedahl, C. (1960). Permian rocks and structures of the Oslo region. In Geology of Norway (Vol. 208, pp. 298-343). I Kommisjon hos H. Aschehoug & Co., Oslo. Oftedahl, C. (1960). Permian igneous rocks of the Oslo Graben, Norway: guide to excursions no. A 11 and no. C 7. Paper presented at the International Geological Congress, Norden, 1960. XXI Session, 1-23. Oftedahl, C., & Petersen, J. S. (1978). Southern part of the Oslo Rift. Norges geologiske undersøkelse Bulletin, 337, 163-199. Oftedal, I. W., Bergstøl, S., & Svinndal, S. (1960). The Larvik-Langesund and the Fen Areas: Larvikite and Nepheline Syenite Pegmatite Minerals, Per-alkaline Rocks, South Norway: Guide to Excursions No. A 12 and No. C8: International Geological Congress, XXI Session, Norden 1960. XXI Session, 1-17. Petersen, J. S. (1978). Structure of the larvikite-lardalite complex, Oslo-region, Norway, and its evolution. Geologische Rundschau, 67(1), 330-342. Piilonen, P. C., McDonald, A. M., Poirier, G., Rowe, R., & Larsen, A. O. (2012). The mineralogy and crystal chemistry of alkaline pegmatites in the Larvik Plutonic Complex, Oslo rift valley, Norway. Part 1. Magmatic and secondary zircon: implications for petrogenesis from trace-element geochemistry. Mineralogical Magazine, 76(3), 649-672. Piilonen, P. C., McDonald, A. M., Poirier, G., Rowe, R., & Larsen, A. O. (2013). Mafic minerals of the alkaline pegmatites in the Larvik Plutonic Complex, Oslo rift, Southern Norway. The Canadian Mineralogist, 51(5), 735-770. Raade, G. (1972). Mineralogy of the miarolitic cavities in the plutonic rocks of the Oslo Region, Norway. Mineral. Rec, 3, 7-11. Ramberg, I.B. 1976. Gravity Interpretation of the Oslo Graben and associated igneous rocks. Norges Geologiske Undersøkelse, 325, 1-194. Segalstad, T. V. (1979). Petrology of the Skien basaltic rocks, southwestern Oslo Region, Norway. Lithos, 12(3), 221-239. Sundvoll, B., & Larsen, B. T. (1993). Rb-Sr and Sm-Nd relationships in dyke and sill intrusions in the Oslo Rift and related areas. Norges Geologiske Undersøkelse, 425, 25-42. Tomkeieff, S. I. (1957). The Oslo Petrographical Province. Science Progress (1933-), 45(179), 429-446.
  • Telemark
Mason, A. (1976) The world of Rocks and Minerals. New York, N.Y., Larousse & Co., 108 pages.
    • Porsgrunn
      • Auenlandet
        • Sagåsen
Andersen, F.,Berge, S.A. & Burvald, I. (1996): Die Mineralien des Langesundsfjords und des umgebenden Larvikit-Gebietes, Oslo-Region, Norwegen. MineralienWelt 7(4):21-100
Larsen, A.O., Åsheim, A. and Gault, R. A. (2005): Minerals of the eudialyte group from the Sagåsen larvikite quarry, Porsgrunn, Norway. Norsk Bergverksmuseum Skrifter 30: 58-62; Friis, Henrik & Andersen, Tom. (2019) Pegmatites of the Larvik Plutonic Complex, Oslo Rift, Norway: field relations and characterisation. 99. 10.17850/njg99-1-05.
      • Bassebu
Andresen. P. & Friis, H. (2020) Mineraler fra Eikevegåsen larvikittbrudd, Bassebu, Porsgrunn, Telemark. Norsk Mineralsymposium 2020: 64-67
      • Langesundsfjorden
        • Finnsholmane
Svein A. Berge collection/observation 1994.
        • Risøya
Svein A.Berge observation 1992
        • Siktesøya
Larsen, A.O. & Raade, G. (1991): Gaidonnayite from the nepheline syenite pegmatite on Siktesøya in the southern part of the Oslo Region, norway. Norsk Geologisk Tidsskrift. 71: 303-306
Burvald, Ingulv (1993): To forekomster av nefelin-syenitt-pegmatitt i Telemark. STEIN 20 (3), 176-179
    • Siljan
Andersen, T. & Sørensen, H. (1993): Crystallization and metasomatism of nepheline syenite xenolites in quartz-bearing intrusive rocks in the permian Oslo rift, SE Norway. Norsk Geologisk Tidsskrift. 73, 250-266
    • Skien
Jamtveit B., Dahlgren S. and Austrheim H. (1997): High-grade contact metamorphism of calcareous rocks from the Oslo Rift, Southern Norway. American Mineralogist. 82 : 1241 - 1254
  • Troms og Finnmark
    • Alta
Barth, T. (1927): Die Pegmatitgänge der kaledonischen intrusivgesteine in Seiland-gebiete. Det Norske Videnskaps-Akademi Skrifter. 1. Mat.-Naturv. Klasse 1927. No.8. 123p.
Robins, B. 1996. The Seiland igneous province, north Norway. In: Field Trip Guidebook. International Geological Correlation Program (IGCP) Project 336. Layered Mafic Complexes and Related Ore Deposits of Northern Fennoscandia: Finland, Norway, Russia. University of Bergen, Norway. Roberts, D. (1974). Hammerfest: description to the 1: 250.000 bedrockgeological map. Norges geologiske undersøkelse, 301, 1-66. Robins, B. (1972). Syenite-carbonatite relationships in the Seiland gabbro province, Finnmark, northern Norway. Norges Geologiske Undersøkelse, 272, 43-58. Cadow, R. (1993). Sm-Nd and Rb-Sr ages of hornblende clinopyroxenite and metagabbro from the Lillebukt alkaline complex, Seiland igneous province. Norsk geologisk tidsskrift, 73(4), 243-249. Heier, K. S. (1966). Some crystallo-chemical relations of nephelines and feldspars on Stjernøy, north Norway. Journal of Petrology, 7(1), 95-113. Heier, K. S. (1961). Layered gabbro, hornblendite, carbonatite and nepheline syenite on Stjernøy, North Norway. Norsk Geologisk Tidsskrift, 41(2-4), 109-155. Robins, B. (1984). Petrography and petrogenesis of nephelinized metagabbros from Finnmark, Northern Norway. Contributions to Mineralogy and Petrology, 86(2), 170-177.
Augsten, R. & Weiss, S. (2011). Mineralientouren nach Skandinavien (IV)."Seiland-Diamanten". Abentauer 423 km nördlich des Polarkreises. Lapis 36 (11), 20-25
    • Hasvik
Appleyard, E. C. (1965). A preliminary description of the geology of the Dønnesfjord area, Sørøy. Norges Geologiske Undersøkelse, 231, 143-164. Appleyard, E. C. (1980). Mass balance computations in metasomatism: metagabbro/nepheline syenite pegmatite interaction in northern Norway. Contributions to Mineralogy and Petrology, 73(2), 131-144. Daly, J. S., Aitcheson, S. J., Cliff, R. A., Gayer, R. A., & Rice, A. H. N. (1991). Geochronological evidence from discordant plutons for a late Proterozoic orogen in the Caledonides of Finnmark, northern Norway. Journal of the Geological Society, 148(1), 29-40. Gresens, R. L. (1967). Composition-volume relationships of metasomatism. Chemical geology, 2, 47-65. Kirkland, C. L., Daly, J. S., & Whitehouse, M. J. (2005). Early Silurian magmatism and the Scandian evolution of the Kalak nappe complex, Finnmark, Arctic Norway. Journal of the Geological Society, 162(6), 985-1003. Speedyman, D. L. (1983). The Husfjord Plutonic Complex, Sørøy, Northern Norway. Norges geologiske undersøkelse, 378, 1-48. Roberts, R. J., Corfu, F., Torsvik, T. H., Hetherington, C. J., & Ashwal, L. D. (2010). Age of alkaline rocks in the Seiland igneous province, northern Norway. Journal of the Geological Society, 167(1), 71-81. Kirkland, C. L., Daly, J. S., & Whitehouse, M. J. (2006). Granitic magmatism of Grenvillian and late Neoproterozoic age in Finnmark, Arctic Norway—constraining pre-Scandian deformation in the Kalak Nappe Complex. Precambrian Research, 145(1-2), 24-52. Sturt, B. A. (1961). Preferred orientation of nepheline in deformed nepheline syenite gneisses from Soeroey, northern Norway. Geological Magazine, 98(6), 464-466. Sturt, B. A., & Ramsay, D. M. (1965). The alkaline complex of the Breivikbotn area, Sørøy, northern Norway (Vol. 231). Universitetsforlaget, pp. 1-142. Sturt, B. A., Miller, J. A., & Fitch, F. J. (1967). The age of alkaline rocks from west Finnmark, northern Norway, and their bearing on the dating of the Caledonian orogeny. Norsk Geologisk Tidsskrift, 47(3), 255-273. Sturt, B. A., Pringle, I. R., & Ramsay, D. M. (1978). The Finnmarkian phase of the Caledonian orogeny. Journal of the Geological Society, 135(6), 597-610.
Michalsen, A. (2010): Minerallokaliteter på Sørøya, Vest-Finnmark- den grønne øya i nord. Norsk Bergverksmuseum Skrift.43: 41-52; Sturt, B. A., Miller, J. A., & Fitch, F. J. (1967). The age of alkaline rocks from west Finnmark, northern Norway, and their bearing on the dating of the Caledonian orogeny. Norsk Geologisk Tidsskrift, 47(3), 255-273.
Sturt, B.A., Miller, J.A. & Fitch, F.J. (1967): The age of alkaline rocks from West Finnmark, Northern Norway, and their bearing on the dating of the Caledonian orogeny. Norsk Geologisk Tidsskrift. 47, 255-273.
Sturt, B. A. & Ramsay, D. M. (1965) The alkaline complex of the Breivikbotn area, Sørøy, Northern Norway. Norges Geologiske Undersøkelse, 231:1-164 (p.44, 45)
Michalsen, A. (2000): Forekomster av mineraler og naturstein på Sørøya. STEIN 27 (2), 4-11
Michalsen, A. (2010): Minerallokaliteter på Sørøya, Vest-Finnmark- den grønne øya i nord. Norsk Bergverksmuseum Skrift.43: 41-52
Michalsen, A. (2010): Minerallokaliteter på Sørøya, Vest-Finnmark- den grønne øya i nord. Norsk Bergverksmuseum Skrift.43: 41-52
    • Karlsøy
Bøe, P. (2000): En gang av alkaline bergarter i Mikkelvik, Ringvassøy i Troms. Norsk Bergverksmuseum Skrift. 17, 71-79; Zozulya, D., Kullerud, K., Ravna, E. K., Corfu, F., & Savchenko, Y. (2009). Geology, age and geochemical constraints on the origin of the Late Archaean Mikkelvik alkaline stock, West Troms Basement Complex in Northern Norway. Norwegian Journal of Geology, 89, 327-340. Bøe, P. (2000): En gang av alkaline bergarter i Mikkelvik, Ringvassøy i Troms. Norsk Bergverksmuseum Skrift. 17: 71-79
  • Vestfold
    • Larvik
      • Brunlanes
Svein A. Berge & Ragnar Hansen observation in 1974
Dahlgren, S. & Larsen, A.O. (2012): Minerals of the banalsite-stronalsite series in amygdules from the Brunlanes ultramafic series. Norsk Bergverksmuseum Skrifter, 49, 93-100
Field collected and identified by Knut Eldjarn
      • Hedrum
        • Lågendalen
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 pp.
Svein A.Berge collection (collected in 1988)
Andersen, F. (1993): Hedrum pukkverk i Lågendalen. STEIN 20 (4), 236-238
        • Lysebo
Svein A. Berge collection/observation 1992.ne
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 pp.
Knut Edvard Larsen collection
      • Langesundsfjorden
        • Arøyskjærene (Arøy skerries)
Andersen, T., Erambert, M., Larsen, A. O. and Selbekk, R. S. (2010): Petrology of nepheline syenite pegmatites in the Oslo Rift, Norway: Zirconium silicate mineral assemblages as indicators of alkalinity and volatile fugacity in mildly agpaitic magma. Journal of Petrology 51: 2303-2325.
        • Barkevik area
Scheerer, T. (1864): Über den Astrophyllit und sein Verhältnis zu Augit und Glimmer im Zirkonsyenit, nebst Bemerkungen über die plutonische Entstehung, Annalen der Physik und Chemie, Vol. 198 (2/122), 107-138
Brøgger, W.C. (1890): Die Mineralien der Syenitpegmatitgänge der südnorwegischen Augit-und Nephelinsyenite. Zeitschrift für Kristallographie und Mineral.16. 663 pp
Weibye, P.C. (1849): Die Mineralien der Lagerstätten bei Brevig, Neues Jahrbuch für Mineralogie, Geognosie, Geologie und Petrefaktenkunde, Schweitzerbart 1849
        • Vesle Arøya
Brøgger, W. C. (1890): Die Mineralien der Syenitpegmatitgänge der südnorwegischen Augit-und Nephelinsyenite. Zeitschrift für Kristallographie und Mineral. 16, 663 pp (p.461)
Engvoldsen, T., Andersen, F., Berge, S. A. & Burvald, I. (1991): Pegmatittmineraler fra Larvik ringkompleks. STEIN 18 (1), 15-71; Larsen, A.O., Kolitsch, U., Gault, R.A. & Giester, G. (2010): Eirikite a new mineral species of the leifite group from the Langesundsfjord district, Norway. European Journal of Mineralogy. 22, 875–880
      • Malerød
Collected by Peter Andresen, 2010.; Peter Andresen collection
Andresen, P. (2011): Mineralene fra Midtfjellet larvikittbrudd, Malerød, Larvik. Norsk Bergverksmuseum Skrift. 46: 41-47
      • Tjølling
        • Klåstad
Larsen, K.E. & Stensvold, B.K.(2015): Berylliummineraler og andre sjeldne mineraler i syenittpegmatitter i Skallist larvikittbrudd, Tjølling, Larvik, Vestfold. Norsk Mineralsymposium 2015, 47-56
      • Tvedalen
Nordrum, F. S. (2004): Nyfunn av mineraler i Norge 2003-2004. STEIN 31 (2), 36-44
Svein A. Berge observation 1990
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 pp.
Knut Edvard Larsen collection
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 pp.
Peter Andresen collection, 2016.
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 pp.
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 pp.
Andresen, P. (2013): Gedigent bly og andre spennende mineraler fra en unik pegmatitt i Tvedalen. Norsk Bergverksmuseum Skrifter. 50, 83-87
Oman
 
  • Al Wusta Governorate
    • Huqf Area
Worthing, M. A., & Nasir, S. (2008). Cambro-Ordovician potassic (alkaline) magmatism in Central Oman: Petrological and geochemical constraints on petrogenesis. Lithos, 106(1-2), 25-38.
    • Sayh al Uhaymir
Ivanova, M. A., Nazarov, M. A., Clayton, R. N., Mayeda, T. K., & Taylor, L. A. (2003, March). Sayh al Uhaymir 085, CV3 chondrite: mineralogical links with CK chondrites. In Lunar Planet. Sci. Conf (Vol. 24, p. 1226).
Pakistan
 
  • Khyber Pakhtunkhwa Province
Siddiqui, S. F. A., Chaudhry, M. N., & Shakoor, A. B. D. U. L. (1968). Geology and petrology of the feldspathoidal syenites and the associated rocks of the Koga area, Chamla valley, Swat, West Pakistan. Geol. Bull. Punjab Univ., 7, 1-30. Chaudhry, M. N., Ashraf, M., & Hussain, S. S. (1981). Petrology of Koga Nepheline syenites and pegmatites of Swat district. Geol. Bull. Punjab Univ, 16, 83-97. Le Bas, M. J., Mian, I., & Rex, D. C. (1987). Age and nature of carbonatite emplacement in North Pakistan. Geologische Rundschau, 76(2), 317-323.; Siddiqui, S. F. A., Chaudhry, M. N., & Shakoor, A. B. D. U. L. (1968). Geology and petrology of the feldspathoidal syenites and the associated rocks of the Koga area, Chamla valley, Swat, West Pakistan. Geol. Bull. Punjab Univ., 7, 1-30. Chaudhry, M. N., Ashraf, M., & Hussain, S. S. (1981). Petrology of Koga Nepheline syenites and pegmatites of Swat district. Geol. Bull. Punjab Univ, 16, 83-97. Le Bas, M. J., Mian, I., & Rex, D. C. (1987). Age and nature of carbonatite emplacement in North Pakistan. Geologische Rundschau, 76(2), 317-323.
KEMPE, D. C. (1983). Alkaline granites, syenites, and associated rocks of the Peshawar Plain alkaline igneous province, Northwest Pakistan. In Granites of Himalaya Karakorum and Hindu Kush (pp. 143-169).
Papua New Guinea
 
  • New Ireland Province
    • Feni Islands
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, p.291 Johnson, R. W., Wallace, D. A., & Ellis, D. J. (1976). Feldspathoid-bearing potassic rocks and associated types from volcanic islands off the coast of New Ireland, Papua New Guinea: a preliminary account of geology and petrology. In Volcanism in Australasia (pp. 297-316). Elsevier Amsterdam. Lindley, I. D. (2015). Late Quaternary geology of Ambitle Volcano, Feni Island Group, Papua New Guinea. Australian Journal of Earth Sciences, 62(5), 529-545. Heming, R. F. (1979). Undersaturated lavas from Ambittle Island, Papua New Guinea. Lithos, 12(3), 173-186.
    • Tabar Group
Johnson, R. W., Wallace, D. A., & Ellis, D. J. (1976). Feldspathoid-bearing potassic rocks and associated types from volcanic islands off the coast of New Ireland, Papua New Guinea: a preliminary account of geology and petrology. In Volcanism in Australasia (pp. 297-316). Elsevier Amsterdam. Rytuba, J. J., McKee, E. H., & Cox, D. (1993). Geochronology and geochemistry of the Ladolam gold deposit, Lihir Island, and gold deposits and volcanoes of Tabar and Tatau, Papua New Guinea. US Geological Survey Bulletin, 2039, 119-126. McInnes, B. I., & Cameron, E. M. (1994). Carbonated, alkaline hybridizing melts from a sub-arc environment: Mantle wedge samples from the Tabar-Lihir-Tanga-Feni arc, Papua New Guinea. Earth and Planetary Science Letters, 122(1-2), 125-141.
Paraguay
 
  • Alto Paraguay Department
Fernandez, V. V. (1996). Província Alcalina Alto Paraguai: Características Petrograficas, Geoquímicas E Geocronologicas (Doctoral dissertation, Universidade de São Paulo).; 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.
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
Poland
 
  • Podlaskie Voivodeship
Kubicki, S., & Ryka, W. (1984). Późnoprekambryjski magmatyzm platformowy i karbonatyty w polskiej części platformy wschodnioeuropejskiej. Przegląd Geologiczny, 32(5), 252-259. Krystkiewicz, E., & Krzemiński, L. (1992). Petrology of the alkaline ultrabasic Tajno complex. Prace Panstwowego Instytutu Geologicznego, 139, 19-35. Specjalne, P. T. M. P. (2005) Fluid Inclusions and Cathodoluminescence of Fluorite from Carbonatites of the Tajno Massif, NE Poland. Demaiffe, D., Wiszniewska, J., Krzemińska, E., Williams, I. S., Stein, H., Brassinnes, S., ... & Deloule, E. (2013). A hidden alkaline and carbonatite province of early carboniferous age in northeast Poland: Zircon U-Pb and pyrrhotite Re-Os geochronology. The Journal of Geology, 121(1), 91-104. PAŃCZYK, M., BAZARNIK, J., ZIELIŃSKI, G., GIRO, L., NAWROCKI, J., & KRZEMIŃSKI, L. (2015) REE bearing minerals in carbonatite veins from the Tajno massif (East European Platform, NE Poland). In XXIInd Meeting of the Petrology Group of the Mineralogical Society of Poland (p. 80). Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, 411. Demaiffe, D., Wiszniewska, J., & Brassinnes, S. (2005). A petrological-geochemical overview of the Tajno carbonatite complex (NE Poland): comparison with the Kola Carbonatite Province (Russia). Mineral. Soc. Poland, Spec Pap, 26, 29-35. Brassinnes, S., Wiszniewska, J., & Demaiffe, D. (2005). A LA-ICP-MS study of carbonates from late-stage carbonatite veins in the Tajno massif (Poland). Mineral. Soc. Poland, Spec Pap, 26, 25-28. Dziedzic, A., & Ryka, W. (1983). Carbonatites in the Tajno intrusion (NE Poland). Archiwum mineralogiczne, 38(2), 4-34. Kubicki, S. (1992). An outline of geological structure of the Tajno massif. Kubicki, S., & Ryka, W. (1987). Carbonatites of the alkaline-ultramafic intrusion of Tajno (Precambrian basement of Poland). In Seminar on carbonatites and alkaline rocks of the Bohemian Massif and ambient regions. 1 (pp. 11-21). MARCINKOWSKI, B. (1992). Ore mineralization of the Tajno massif. Ryka, W. (Ed.). (1992). Geology of the Tajno Massif. Państ. Instytut Geologiczny, 139, 1-90. RYKA, W. (1992). Geology of the Tajno massif carbonatites. Ryka, W., Armbrustmacher, T. J., & Modreski, P. J. (1992). Geochemistry and petrology of the alkaline intrusive rocks of the Tajno massif (preliminary report).
  • Warmian-Masurian Voivodeship
    • Ełk County
Armbrustmacher, T. J., & Modreski, P. J. (1994). Petrology and mineralogy of alkaline rocks from the Ełk complex. Geology of the Ełk syenite massif (northeastern Poland). Pr. Panstwowego Inst. Geol, 144, 49-70. Armbrustmacher, T. J., & Modreski, P. J. (1994). Petrology and mineralogy of alkaline rocks from the Elk massif, northeastern Poland. US Department of the Interior, US Geological Survey, Open-File Report 94-145. Demaiffe, D., Wiszniewska, J., & Brassinnes, S. (2005). A petrological-geochemical overview of the Tajno carbonatite complex (NE Poland): comparison with the Kola Carbonatite Province (Russia). Mineral. Soc. Poland, Spec Pap, 26, 29-35. Demaiffe, D., Wiszniewska, J., Krzemińska, E., Williams, I. S., Stein, H., Brassinnes, S., ... & Deloule, E. (2013). A hidden alkaline and carbonatite province of early Carboniferous age in northeast Poland: Zircon U-Pb and pyrrhotite Re-Os geochronology. The Journal of Geology, 121(1), 91-104. Krystkiewicz, E., & Ryka, W. (1994). Petrography of the Ełk syenite massif. Geology of the Ełk syenite massif (northeastern Poland). Pr. Panstwowego Inst. Geol, 144, 19-48. Ryka, W. (1994). Geology of the Ełk syenite massif, NE Poland. Pr. Państw. Inst. Geol, 144, 1-125. Ryka, W. (1994). Geology and evolution of the Ełk syenite massif. Geology of the Ełk syenite massif (northeastern Poland). Pr. Panstwowego Inst. Geol, 144, 85-120.; Armbrustmacher, T. J., & Modreski, P. J. (1994). Petrology and mineralogy of alkaline rocks from the Ełk complex. Geology of the Ełk syenite massif (northeastern Poland). Pr. Panstwowego Inst. Geol, 144, 49-70. Armbrustmacher, T. J., & Modreski, P. J. (1994). Petrology and mineralogy of alkaline rocks from the Elk massif, northeastern Poland. US Department of the Interior, US Geological Survey, Open-File Report 94-145. Demaiffe, D., Wiszniewska, J., & Brassinnes, S. (2005). A petrological-geochemical overview of the Tajno carbonatite complex (NE Poland): comparison with the Kola Carbonatite Province (Russia). Mineral. Soc. Poland, Spec Pap, 26, 29-35. Demaiffe, D., Wiszniewska, J., Krzemińska, E., Williams, I. S., Stein, H., Brassinnes, S., ... & Deloule, E. (2013). A hidden alkaline and carbonatite province of early Carboniferous age in northeast Poland: Zircon U-Pb and pyrrhotite Re-Os geochronology. The Journal of Geology, 121(1), 91-104. Krystkiewicz, E., & Ryka, W. (1994). Petrography of the Ełk syenite massif. Geology of the Ełk syenite massif (northeastern Poland). Pr. Panstwowego Inst. Geol, 144, 19-48. Ryka, W. (1994). Geology of the Ełk syenite massif, NE Poland. Pr. Państw. Inst. Geol, 144, 1-125. Ryka, W. (1994). Geology and evolution of the Ełk syenite massif. Geology of the Ełk syenite massif (northeastern Poland). Pr. Panstwowego Inst. Geol, 144, 85-120.
Portugal
 
  • Azores
Luigi Chiappino collection
    • São Miguel
Osann, A.: Über Sanidinite von Sao Miguel, Neues Jahrbuch für Mineralogie 1, 117-130, 1888
  • Faro
    • Monchique
      • Monchique
        • Nave
PIMENTEL, R. et al, (2006) - Natrolite et Analcime du massif alcalin de Monchique, Faro, Portugal. Le Règne Mineral nº 72, pp.39-45. Editions du Piat
Bernard-Griffiths, J., Gruau, G., Cornen, G., Azambre, B., & Macé, J. (1997). Continental lithospheric contribution to alkaline magmatism: isotopic (Nd, Sr, Pb) and geochemical (REE) evidence from Serra de Monchique and Mount Ormonde complexes. Journal of Petrology, 38(1), 115-132. Czygan, W. 1969. Petrographie und Alkali-Verteilung im Foyait der Serra de Monchique, Süd-Portugal. Neues Jahrbuch für Mineralogie. Stuttgart, Abhandlungeb, 111, 32-73. Gonçalves, F. (1967). Subsídios para o conhecimento geológico do maciço eruptivo de Monchique. Com. Serv. Geol. Portugal, 52, 169-184. Grange, M., Scharer, U., Merle, R., Girardeau, J., & Cornen, G. (2010). Plume–lithosphere interaction during migration of Cretaceous alkaline magmatism in SW Portugal: evidence from U–Pb ages and Pb–Sr–Hf isotopes. Journal of Petrology, 51(5), 1143-1170. Macintyre, R. M., & Berger, G. W. (1982). A note on the geochronology of the Iberian Alkaline Province. Lithos, 15(2), 133-136. Rock, N. M. S. (1976). Fenitisation around the Monchique alkaline complex, Portugal. Lithos, 9(4), 263-279. Rock, N. M. S. (1976). The comparative strontium isotopic composition of alkaline rocks: new data from Southern Portugal and East Africa. Contributions to Mineralogy and Petrology, 56(2), 205-228. Rock, N. M. S. (1978). Petrology and petrogenesis of the Monchique alkaline complex, southern Portugal. Journal of Petrology, 19(2), 171-214. Rock, N. M. (1982). Chemical mineralogy of the Monchique alkaline complex, southern Portugal. Contributions to Mineralogy and Petrology, 81(1), 64-78.
  • Portalegre
    • Campo Maior
Assunção, C.T. & Gonçalves, F. 1971. Contribuição para o conhecimento das rochas hiperalcalinas e alcalinas (gnaisses hastingsíticos) do Alto Alentejo (Portugal). Bolletim da Sociedade Geológica de Portuga, 17, 187-229. Teixeira, C., & de Assunção, C. T. (1958). Sur la géologie et la pétrographie des gneiss à riebeckite et aegyrine et des syénites à néphéline et sodalite de Cevadais, prés d'Ouguela (Campo Maior), Portugal. Cominicações dos Serviços Geológicos de Portugal, 42, 31-56.
    • Monforte
Woolley A.R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe, 416. Assunção, C.T. & Gonçalves, F. 1971. Contribuição para o conhecimento das rochas hiperalcalinas e alcalinas (gnaisses hastingsíticos) do Alto Alentejo (Portugal). Bolletim da Sociedade Geológica de Portuga, 17, 187-229. Teixeira, C., & de Assunção, C. T. (1958). Sur la géologie et la pétrographie des gneiss à riebeckite et aegyrine et des syénites à néphéline et sodalite de Cevadais, prés d'Ouguela (Campo Maior), Portugal. Cominicações dos Serviços Geológicos de Portugal, 42, 31-56. Priem, H. N. A., Boelrijk, N. A. I. M., Verschure, R. H., Hebeda, E. H., & Verdurmen, E. T. (1970). Dating events of acid plutonism through the Paleozoic of the Western Iberian Peninsula. Eclogae Geologicae Helvetiae, 63(1), 255-274. Teixeira, C., & de Assunção, C. T. (1957). Novos elementos para o conhecimento das rochas hiperalcalinas sódicas do Alto Alentejo. Revista da Faculdade de Ciências, Universidade de Lisboa, 2nd Series, 5C, 173-208.
Romania
 
  • Harghita
vom Rath, G. (1876): The syenite mountains of Ditro. Jahrb. f. Min., 772-773. ; 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
Szakáll, S. & Kristály, F. (Eds.) (2010): Mineralogy of Székelyland, Eastern Transylvania, Romania. Csík County Nature and Conservation Society, Sfantu Gheorghe, etc.
http://www.geol.vt.edu/research/gsrs/gsrs2005/Abstracts/afall%201115AM%20F.doc
Russia
 
  • 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.
  • Chechnya
    • Mekensk
  • Chelyabinsk Oblast
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
    • Kaslinsky District
Filina, M.I., Sorokina, E.S., Botcharnikov, R., Karampelas, S., Rassomakhin, M.A., Kononkova, N.N., Nikolaev, A.G., Berndt, J., Hofmeister, W. (2019) Corundum Anorthosites-Kyshtymites from the South Urals, Russia: A Combined Mineralogical, Geochemical, and U-Pb Zircon Geochronological Study. Minerals, 9(4), 234.
    • Vishnevye Mountains
http://webmineral.ru/deposits/item.php?id=841
  • Irkutsk Oblast
    • Lake Baikal area
      • Slyudyanka (Sludyanka)
        • Malaya Bystraya River Valley
Pavel M. Kartashov data
  • Kamchatka Krai
    • Koryak Upland (Koriak; Koriakskhiye)
      • Iomrautvaam Massif
        • Chetkinvaiam tectonic melange
          • Khatyrka river
            • Listvenitovyi stream
Bindi, L., Steinhardt, P.J., Yao, N., Lu, P.J. (2011) Icosahedrite, Al63Cu24Fe13, the first natural quasicrystal. American Mineralogist, 96, 928-931.
    • Tolbachik volcano
      • Great Fissure eruption (Main Fracture)
        • Northern Breakthrough (North Breach)
          • Second scoria cone
Shchipalkina, N. V., Pekov, I. V., Koshlyakova, N. N., Britvin, S. N., Zubkova, N. V., Varlamov, D. A., & Sidorov, E. G. (2020). Unusual silicate mineralization in fumarolic sublimates of the Tolbachik volcano, Kamchatka, Russia–Part 2: Tectosilicates. European Journal of Mineralogy, 32(1), 121-136.
  • Khabarovsk Krai
    • Ayan-Maya district
Lennikov, A. M., Zalishak, B. L., & Oktyabrsky, R. A. (2004). The Konder massif of ultramafic and alkaline rocks and related PGM mineralization. In Interim IAGOD Conf. Excursion Guidebook. Vladivostok: Dalnauka (p. 29).
  • Krasnoyarsk Krai
    • Maimecha and Kotui Rivers Basin
Henderson, C. M. B., Kogarko, L. N., & Plant, D. A. (1999). Extreme closed system fractionation of volatile-rich, ultrabasic peralkaline melt inclusions and the occurrence of djerfisherite in the Kugda alkaline complex, Siberia. Mineralogical Magazine, 63(3), 433-438.
  • Murmansk Oblast
Potter, N. J., Kamenetsky, V. S., Chakhmouradian, A. R., & Goemann, K. (2017) Inclusions in perovskite-magnetite-silicate rocks from Afrikanda, Russia: Clues to the early history of carbonatites?. 11th International Kimberlite Conference
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.
    • Khibiny Massif
[World of Stones 95:5-6, p64]
        • 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)
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).
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, Selivanova E A, Korchak J A, Nikolaev A P (2010) Strontiofluorite, SrF2, a new mineral species from the Khibiny Massif, Kola Peninsula, Russia. The Canadian Mineralogist 48, 1487-1492
      • Koashva 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).
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).
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).
[AmMin 85:1844]; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; 33 IGC excursion No 47, July 22 – August 2, 2008 Stop 2-2; American Mineralogist, Volume 94, pages 1450–1458, 2009; Khomyakov, A.P., Nechelyustov, G.N., Rastsvetaeva, R.K., Rozenberg, K.A. (2008): Andrianovite, Na12(K,Sr,Ce)3Ca6Mn3Zr3NbSi25O73(O,H2O,OH)5-a new potassium-rich mineral of the eudialyte group from Khibiny alkaline massif, Kola Peninsula, Russia. Zapiski RMO (Proceedings of the Russian Mineralogical Society), 137(2), 43-52. [English translation: Geology of Ore Deposits 50,705-712(2008)] ; Khomyakov, A. P., Nechelyustov, G. N., Sokolova, E., Bonaccorsi, E., Merlino, S., & Pasero, M. (2002). Megakalsilite, a new polymorph of KAlSiO4 from the Khibina alkaline massif, Kola peninsula, Russia: Mineral description and crystal structure. The Canadian Mineralogist, 40(3), 961-970.
      • Kukisvumchorr Mt
        • East slope
Excalibur Minerals
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
I. V. Pekov, N. V. Chukanov, V. T. Dubinchuk & A. E. Zadov (2006): Middendorfite, K3Na2Mn5Si12(O,OH)36• 2H2O, a new mineral from Khibiny Massif, Kola Peninsula. Proceedings of the Russian Mineralogical Society, 135(3), 42–52.
American Mineralogist, Volume 92, pages 1525-1530, 2007
        • Marchenko Peak
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).
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).
Shlyukova Z.V. (1986) Mineralogy of contact formations of Khibina massif, - Moscow, Nauka, p. 96 (in Rus.)
ZVMO 135(1),38-48(2006); 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).
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).
Shlyukova Z.V. (1986) Mineralogy of contact formations of Khibina massif, - Moscow, Nauka, p. 96 (in Russ.)
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
        • Rasvumchorr Mine
Pekov I.V., Zubkova N.V., Filinchuk Ya.E., Chukanov N.V., Zadov A.E., Pushcharovsky D.Yu., Gobechiya E.R. (2010): Shlykovite, KCa[Si4O9(OH)]·3H2O, and cryptophyllite, K2Ca[Si4O10]·5H2O, two new mineral species from the Khibiny alkaline complex, Kola Peninsula, Russia. Zapiski RMO, 139(1), 37-50.
Mikhailova, Y.A., Konopleva, N.G., Yakovenchuk, V.N., Ivanyuk, G.Y., Men’shikov, Y.P., and Pakhomovsky, Y.A. (2007): Geology of Ore Deposits 49(7), 590-598.; Yakovenchuk, V.N.; Pakhomovsky, Y.A.; Panikorovskii, T.L.; Zolotarev, A.A.; Mikhailova, J.A.; Bocharov, V.N.; Krivovichev, S.V.; Ivanyuk, G.Y. (2019) Chirvinskyite, (Na,Ca)13(Fe,Mn,□)2(Ti,Nb)2(Zr,Ti)3-(Si2O7)4(OH,O,F)12, a New Mineral with a Modular Wallpaper Structure, from the Khibiny Alkaline Massif (Kola Peninsula, Russia). Minerals 2019, 9, 219.
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).
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).
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).
      • The Carbonatite Stock in the vicinity of Tul'ilukht Bay
[Mandarino, 1997]; 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.
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.
Lapis 29(2), 41 (2004)
        • Hackman Valley
Neues Jahrbuch für Mineralogie, Monatshefte (2003): 10: 461-480.
Pavel M. Kartashov data
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.
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.
    • Lovozersky District
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Pekov, I. et al (2003): New Data on Minerals: 38: 20-33. ; Yakovenchik, V.N., Ivaniuk, G.Yu., Pakhomovsky, Ya.A., Selivanova, E.A., Men'shikov, Yu.P., Korchak, J.A., Krivovichev, S.V., Spiridonova, D.V., Zalkind, O.A. (2010): Punkaruaivite, Li{Ti2(OH)2[Si4O11(OH)]}•H2O, a new mineral species from hydrothermalites of Khibiny and Lovozero alkaline massifs (Kola Peninsula, Russia). Canadian Mineralogist, 48, 41-50.
Pavel M. Kartashov data
Khomyakov A P, Shumyatskaya N G, Polezhaeva L T (1992) Shomiokite-(Y), Na3Y(CO3)3·3H2O: a new mineral, Zapiski Vserossijskogo Mineralogicheskogo Obshchestva, 121, issue 6 129-132 ; Pekov, I.V. (2000): Lovozero Massif. Moscow, Ocean Pictures Ltd, 480 pp.
Pavel M. Kartashov data
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
Pekov I V, Chukanov N V, Turchkova A G, Grishin V G (2001) Ferronordorite-(La), Na3Sr(La,Ce)FeSi6O17, a new mineral of the nordite group from Lovozero Massif, Kola Peninsula, Zapiski Vserossijskogo Mineralogicheskogo Obshchestva 130, issue 2, 53-58
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
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).; Ivanyuk, G. Y., Pakhomovsky, Y. A., & Yakovenchuk, V. N. (2015). Eudialyte-group minerals in rocks of Lovozero layered complex at Mt. Karnasurt and Mt. Kedykvyrpakhk. Geology of Ore Deposits, 57(7), 600-613.; Pakhomovsky, Y. A., Ivanyuk, G. Y., & Yakovenchuk, V. N. (2014). Loparite-(Ce) in rocks of the Lovozero layered complex at Mt. Karnasurt and Mt. Kedykvyrpakhk. Geology of Ore Deposits, 56(8), 685-698.
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
Rastsvetaeva, R.K.; Chukanov, N.V.; Pekov, I.V.; Schäfer, C.; Van, K.V. (2020) New Data on the Isomorphism in Eudialyte-Group Minerals. 1. Crystal Chemistry of Eudialyte-Group Members with Na Incorporated into the Framework as a Marker of Hyperagpaitic Conditions. Minerals 10, 587.
Pekov, I. V. (2000) Lovozero Massif - History, Pegmatites, Minerals. Ocean Pictures LTD: Moscow 2000.
        • Second Eastern Stream (Kromka Stream)
Pekov, I. V. (2000) Lovozero Massif - History, Pegmatites, Minerals. Ocean Pictures LTD: Moscow 2000.
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Ivanyuk, G. Y., Pakhomovsky, Y. A., & Yakovenchuk, V. N. (2015). Eudialyte-group minerals in rocks of Lovozero layered complex at Mt. Karnasurt and Mt. Kedykvyrpakhk. Geology of Ore Deposits, 57(7), 600-613.
        • Karnasurt mine (Kedyk area)
I.V. Pekov et al.: Zap. Vses. Mineral. Obshch. 132(6):1-14 (2003)
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Yakovenchuk, V. N., Ivanyuk, G. Y., Krivovichev, S. V., Pakhomovsky, Y. A., Selivanova, E. A., Korchak, J. A., ... & Zalkind, O. A. (2011). Eliseevite, Na1. 5Li [Ti2Si4O12. 5 (OH) 1.5]∙ 2H2O, a new microporous titanosilicate from the Lovozero alkaline massif (Kola Peninsula, Russia). American Mineralogist, 96(10), 1624-1629.
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
      • Suoluaiv Mt
[MinRec 32:416]
Mikhail Uchitel' data
Pekov, I. V. (1998): Minerals first discovered on the territory of the former Soviet Union. Ocean Pictures Ltd., Moscow, 369 pp.; Pekov, I.V. (2000): Lovozero Massif. Moscow, Ocean Pictures Ltd, 480 pp
Bea, F., Arzamastsev, A., Montero, P., & Arzamastseva, L. (2001). Anomalous alkaline rocks of Soustov, Kola: evidence of mantle-derived metasomatic fluids affecting crustal materials. Contributions to Mineralogy and Petrology, 140(5), 554-566.
Leon H. Borgstrom (1903) Journal of the Chemical Society - Abstracts 84:302
    • Turii Cape
www.koeln.netsurf.de/~w.steffens/tury.htm; 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.
  • Republic of Karelia
    • Louhi District
https://www.researchgate.net/figure/Alkaline-complexes-and-carbonatites-in-Kola-peninsula-northern-Russian-Karelia-and_fig1_225412232; Kovalskaya, T. N., Kotelnikov, A. R., & Varlamov, D. A. (2017). Rock-forming Minerals of Tiksheozersky Massif (North Karelia, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 115-117).
[World of Stones 12:49]
    • Mirninsky District
      • Daldyn
Sharygin I.S., Golovin A.V. (2001) Origin of djerfisherite in mantle xenoliths and its relation to kimberlite magmatism. Abstracts of XXVII International conference School «Geochemistry of Alkaline rocks». – Moscow-Koktebel’. pp. 240 pp. ; Sharygin, I. S., Golovin, A. V., Korsakov, A. V., & Pokhilenko, N. P. (2013). Eitelite in sheared peridotite xenoliths from Udachnaya-East kimberlite pipe (Russia)–a new locality and host rock type. European Journal of Mineralogy, 25(5), 825-834.; Sharygin, V. V., Kamenetsky, V. S., & Kamenetsky, M. B. (2008). Potassium sulfides in kimberlite-hosted chloride–“nyerereite” and chloride clasts of Udachnaya-East pipe, Yakutia, Russia. The Canadian Mineralogist, 46(4), 1079-1095.; Mikhailenko, D.; Golovin, A.; Korsakov, A.; Aulbach, S.; Gerdes, A.; Ragozin, A. (2020) Metasomatic Evolution of Coesite-Bearing Diamondiferous Eclogite from the Udachnaya Kimberlite. Minerals 10, 383.
  • Tuva
Pavel M. Kartashov analythical data of 2015
Saint Helena
 
Alok Krishna Gupta (2015) Origin of Potassium-rich Silica-deficient Igneous Rocks. Springer India
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.
Saudi Arabia
 
  • 'Asir Region
Al-Koulak, M.Z.M.I. 1985. Geology and petrology of the Al Ajardah ring complex, and Bani Amr syenites of the southern Arabian Shield. PhD thesis, Faculty of Earth Sciences, King Abdulaziz University. Greenwood, W. R. (1979). Geologic map of the An Nimas quadrangle, sheet 19/42C, Kingdom of Saudi Arabia. Geologic Map GM-37 (with Explanation). Ministry of Petroleum and Mineral Resources, Directorate General of Mineral Resources of the Kingdom of Saudi Arabia, Jeddah.
  • Tabuk Region
Liddicoat, W. K., Ramsay, C. R., & Hedge, C. E. (1986). Cambrian nepheline syenite complex at Jabal Sawda, Midyan region, Kingdom of Saudi Arabia. Journal of African Earth Sciences (1983), 4, 139-150.
Slovakia
 
  • Banská Bystrica Region
    • Lučenec District
Farsang, Š., Szakáll, S., Ozdín, D., Zajzon, N., Gaál, Ľ. (2014) Minerals of volcanites of the Cerová Highlands, Slovakia. In: Fehér, B. (ed.): In the attraction of minerals. Studies in honour of the 60-year old Sándor Szakáll. Herman Ottó Múzeum & Magyar Minerofil Társaság, Miskolc, 27-43. (in Hungarian with English abstract)
South Africa
 
  • Free State
    • Thabo Mofutsanyane District
      • Clocolan
Kamenetsky, V. S., Belousova, E. A., Giuliani, A., Kamenetsky, M. B., Goemann, K., & Griffin, W. L. (2014). Chemical abrasion of zircon and ilmenite megacrysts in the Monastery kimberlite: Implications for the composition of kimberlite melts. Chemical Geology, 383, 76-85.
  • North West
    • Bojanala Platinum District
The Canadian Mineralogist, V 42, 2004, pp. 1169-1178.; 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.
South Korea
 
  • North Gyeongsang Province
    • Ulleung County
Atsuo Harumoto (1970) Volcanic Rocks and Associated Rocks of Utsuryoto Island, (Japan Sea). (39pp + geological map); Harumoto, A. (1970). Volcanic rocks and associated rocks of Utsuryoto Island (Japan Sea). 京都大学理学部地質学鉱物学教室春本篤夫教授退官記念事業, 39. Kim, Y. K. (1985). Petrology of Ulreung Island, Korea—Part 1. Geology. J. Japan. Assoe. Min. Petr. Econ. Geol., 80, 128-135. KIM, K. (1985). Petrology of Ulreung islands, Korea-Part 2, Petrography and bulk chemical composition. J. Min. Petr. Econ. Geol., 80, 292-303. Kim, Y.K. 1986. Magmatic differentiation in the volcanic rocks from Ulreung Island, Korea. Journal of the Japanese association of Mineralogists, Petrologists and Economic Geologists, Sendai, 81, 165-180. Kim, Y. K., & Fujimaki, H. (1987). Plutonic inclusions and olivines in high-K volcanics from Ulreung island, Korea. Mineralogy and Petrology, 37(2), 117-136. Kim, G. B., Cronin, S. J., Yoon, W. S., & Sohn, Y. K. (2014). Post 19 ka BP eruptive history of Ulleung Island, Korea, inferred from an intra-caldera pyroclastic sequence. Bulletin of Volcanology, 76(4), 802. Machida, H., & Arai, F. (1983). Extensive ash falls in and around the Sea of Japan from large late Quaternary eruptions. Journal of Volcanology and Geothermal Research, 18(1-4), 151-164.; Harumoto, A. (1970). Volcanic rocks and associated rocks of Utsuryoto Island (Japan Sea). 京都大学理学部地質学鉱物学教室春本篤夫教授退官記念事業, 39. Kim, Y. K. (1985). Petrology of Ulreung Island, Korea—Part 1. Geology. J. Japan. Assoe. Min. Petr. Econ. Geol., 80, 128-135. KIM, K. (1985). Petrology of Ulreung islands, Korea-Part 2, Petrography and bulk chemical composition. J. Min. Petr. Econ. Geol., 80, 292-303. Kim, Y.K. 1986. Magmatic differentiation in the volcanic rocks from Ulreung Island, Korea. Journal of the Japanese association of Mineralogists, Petrologists and Economic Geologists, Sendai, 81, 165-180. Kim, Y. K., & Fujimaki, H. (1987). Plutonic inclusions and olivines in high-K volcanics from Ulreung island, Korea. Mineralogy and Petrology, 37(2), 117-136. Kim, G. B., Cronin, S. J., Yoon, W. S., & Sohn, Y. K. (2014). Post 19 ka BP eruptive history of Ulleung Island, Korea, inferred from an intra-caldera pyroclastic sequence. Bulletin of Volcanology, 76(4), 802. Machida, H., & Arai, F. (1983). Extensive ash falls in and around the Sea of Japan from large late Quaternary eruptions. Journal of Volcanology and Geothermal Research, 18(1-4), 151-164.
Spain
 
  • Canary Islands
    • Las Palmas Province
      • Lanzarote
        • Yaiza
          • Playa Blanca
No reference listed
    • 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.
Sweden
 
  • Jämtland County
    • Härjedalen
  • 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
  • Uppsala County
    • Uppsala
      • Almunge
Quensel, P. (1912): Undersökningar öfver alkalisyeniten och nefelinsyenit-bergarterna i Almunge socken i Upland. GFF 34 (7), 695-700
Switzerland
 
  • Ticino
    • Locarno
      • Centovalli
Weiβ, S., Fehr, T., Ansermet, S., Meisser, N., Pakhomovsky, Ya.K. (2007): Zirkonführende Nephelin-Pegmatite im Centovalli, Süd-Schweiz: Struktur, Mineralogie und Kristallisationsfolge. Lapis, 32, 6, 24-30.
Tajikistan
 
  • Districts of Republican Subordination
I. Pekov data pers. comm. L. Horváth 2008
Tanzania
 
  • Arusha Region
    • Monduli District
Journal of Conference Abstracts , Volume 2 Number 1 , vsg - Minsoc '97, http://www.the-conference.com/JConfAbs/2/26.html
    • Ngorongoro District
www.koeln.netsurf.de/~w.steffens/other.htm; Henderson, C. M. B., Kogarko, L. N., & Plant, D. A. (1999). Extreme closed system fractionation of volatile-rich, ultrabasic peralkaline melt inclusions and the occurrence of djerfisherite in the Kugda alkaline complex, Siberia. Mineralogical Magazine, 63(3), 433-438.; Wiedenmann D, Zaitsev A N, Britvin S N, Krivovichev S V, Keller J (2009) Alumoåkermanite, (Ca,Na)2(Al,Mg,Fe2+)(Si2O7), a new mineral from the active carbonatite-nephelinite-phonolite volcano Oldoinyo Lengai, northern Tanzania. Mineralogical Magazine 73, 373-384; Dawson, J. B. (1998). Peralkaline nephelinite–natrocarbonatite relationships at Oldoinyo Lengai, Tanzania. Journal of Petrology, 39(11-12), 2077-2094.
Zaitseva, E.O. (2012): Mineralogy and geochemistry of the Sadiman volcano, Crater Highlands, northern Tanzania. Eifel-Symposium 2012, "Variability and complexity of minerals and their synthetic analogues of the Vulkaneifel and related provinces”, Christian Albrechts University, Kiel, 23.04. - 30.04.2012. ; Zaitsev A.N., Wenzel T., Markl G., Spratt J., Petrov S.V., Williams, C.T. (2010) Mineralogy and geochemistry of nephelinites and phonolites from the Sadiman volcano, northern Tanzania. Abstracts of XXVII International conference School «Geochemistry of Alkaline rocks». – Moscow-Koktebel’. pp. 240 pp.; Zaitsev, A. N., Marks, M. A. W., Wenzel, T., Spratt, J., Sharygin, V. V., Strekopytov, S., & Markl, G. (2012). Mineralogy, geochemistry and petrology of the phonolitic to nephelinitic Sadiman volcano, Crater Highlands, Tanzania. Lithos, 152, 66-83.
Turkey
 
  • Burdur Province
    • Bucak District
Çoban, H., & Flower, M. F. (2006). Mineral phase compositions in silica-undersaturated ‘leucite’lamproites from the Bucak area, Isparta, SW Turkey. Lithos, 89(3-4), 275-299. Çoban, H., & Flower, M. F. (2007). Late Pliocene lamproites from Bucak, Isparta (southwestern Turkey): implications for mantle ‘wedge’evolution during Africa-Anatolian plate convergence. Journal of Asian Earth Sciences, 29(1), 160-176. Fritschle, T., Prelević, D., Foley, S. F., & Jacob, D. E. (2013). Petrological characterization of the mantle source of Mediterranean lamproites: indications from major and trace elements of phlogopite. Chemical Geology, 353, 267-279. Prelević, D., Akal, C., Foley, S. F., Romer, R. L., Stracke, A., & Van Den Bogaard, P. (2012). Ultrapotassic mafic rocks as geochemical proxies for post-collisional dynamics of orogenic lithospheric mantle: the case of southwestern Anatolia, Turkey. Journal of Petrology, 53(5), 1019-1055. Lefevre, C., Bellon, H., & Poisson, A. (1983). Presence de leucitites dans le volcanisme Pliocene de la region d'Isparta (Taurides Occidentales, Turquie). Comptes-rendus des séances de l'Académie des sciences. Série 2, Mécanique-physique, chimie, sciences de l'univers, sciences de la terre, 297(4), 367-372.
  • Isparta Province
    • Gölcük District
Alıcı, P., Temel, A., Gourgaud, A., Kieffer, G., & Gündoğdu, M. N. (1998). Petrology and geochemistry of potassic rocks in the Gölcük area (Isparta, SW Turkey): genesis of enriched alkaline magmas. Journal of Volcanology and Geothermal Research, 85(1-4), 423-446. Kumral, M., Coban, H., Gedikoglu, A., & Kilinc, A. (2006). Petrology and geochemistry of augite trachytes and porphyritic trachytes from the Gölcük volcanic region, Isparta, SW Turkey: a case study. Journal of Asian Earth Sciences, 27(5), 707-716. Kumral, M., Çoban, H., & Caran, S. (2007). Th-, U-and LREE-bearing grossular, chromian ferriallanite-(Ce) and chromian cerite-(Ce) in skarn xenoliths ejected from the Golcuk maar crater, Isparta, Anatolia, Turkey. The Canadian Mineralogist, 45(5), 1115-1129. Lefevre, C., Bellon, H., & Poisson, A. (1983). Presence de leucitites dans le volcanisme Pliocene de la region d'Isparta (Taurides Occidentales, Turquie). Comptes-rendus des séances de l'Académie des sciences. Série 2, Mécanique-physique, chimie, sciences de l'univers, sciences de la terre, 297(4), 367-372.
  • Kayseri Province
    • Melikgazi District
Özkan, H.M. & Erkan, Y. unpublished. A Petrological Study of a Foid Syenite Intrusion in Central Anatolia (Kayseri, Turkey).
  • Malatya Province
    • Darende District
Leo, G. W., Marvin, R. F., & Mehnert, H. H. (1974). Geologic framework of the Kuluncak-Sofular area, east-central Turkey, and K-Ar ages of igneous rocks. Geological Society of America Bulletin, 85(11), 1785-1788. Ozgenc, I. (1999). Carbonatite-hosted fluorite and britholite mineralization at Sofular area, Malatya, Turkey. In Mineral deposits: processes to processing. Proceedings of the Fifth Biennial SGA Meeting and the Tenth Quadrennial IAGOD Symposium (pp. 663-666). Özgenç, İ., & İlbeyli, N. (2009). Geochemical constraints on petrogenesis of Late Cretaceous alkaline magmatism in east-central Anatolia (Hasançelebi-Başören, Malatya), Turkey. Mineralogy and Petrology, 95, 71-85.
  • Trabzon Province
Abdioglu, E. (2012). Mineralogy and chemistry of zeolites and associated minerals in Tertiary alkaline volcanics from the Eastern Pontides, NE Turkey. Neues Jahrbuch für Mineralogie-Abhandlungen: Journal of Mineralogy and Geochemistry, 189(1), 35-47. Arslan, M. E. H. M. E. T., Tüysüz, N., Korkmaz, S., & Kurt, H. (1997). Geochemistry and petrogenesis of the eastern Pontide volcanic rocks, Northeast Turkey. Chemie der Erde, 57, 157-188. Aydin, F., Karsli, O., & Chen, B. (2008). Petrogenesis of the Neogene alkaline volcanics with implications for post-collisional lithospheric thinning of the Eastern Pontides, NE Turkey. Lithos, 104(1-4), 249-266. Aydin, F., Thompson, R. M., Karsli, O., Uchida, H., Burt, J. B., & Downs, R. T. (2009). C2/c pyroxene phenocrysts from three potassic series in the Neogene alkaline volcanics, NE Turkey: their crystal chemistry with petrogenetic significance as an indicator of P–T conditions. Contributions to Mineralogy and Petrology, 158(1), 131-147.
UK
 
  • Scotland
    • East Lothian
      • Haddington
MacGregor, A.G. (1922) Geol. Mag. 59, 516.; Battey, M.H. and Moss, A.A. (1962) Powellite from Traprain Law, Haddingtonshire, Scotland. Mineralogical Magazine, vol. 33, n° 257, p. 158-161.; Livingstone, A. and Macpherson, H.G. (1983) Fifth supplementary list of British minerals (Scottish). Mineralogical Magazine, vol. 47, n° 342, p. 99-105.
Ukraine
 
  • Donetsk Oblast
    • Azov Sea Region
Magdalena Dumańska-Słowik, Bartosz Budzyń, Wiesław Heflik and Magdalena Sikorska (2012)Stability relationships of REE-bearing phosphates in an alkali-rich system (nepheline syenite from the Mariupol Massif, SE Ukraine). Acta Geologica Polonica, 62:247–265
Dmitry Tonkacheev
P.M. Kartashov data
Kryvdik S. G. · Sharygin V. V. · Gatsenko V. O. · Lunev E. S. (2016) Foid minerals from malignites of the Pokrovo-Kireevo massif (Azov Sea region, Ukraine)
USA
 
  • Arkansas
    • Garland Co.
    • Hot Spring Co.
Rocks and Minerals, (1976) 51:495-507; American Mineralogist, Volume 77, pages 685-703, 1992; Erickson, Ralph Leroy; Blade, Lawrence Vernon (1963) Geochemistry and petrology of the alkalic igneous complex at Magnet Cove, Arkansas. USGS Prof. Paper 425
Rocks & Min.:63:109.
Henry Barwood - unpublished (2010)
    • Pulaski Co.
      • Little Rock
Rocks and Minerals, (1988) 63:104-125; Rocks and Minerals, (1989) 64:314-322
Henry Barwood - unpublished (2010)
    • Saline Co.
      • Arkansas Bauxite District
        • Bauxite
Rocks & Min.:63:122; Stroud, et al(1969).
  • California
    • Humboldt Co.
      • Coastal Range
Czamanske, G.K., B.F. Leonard & J.R. Clark (1980), Erdite, a new hydrated sodium iron sulfide mineral: American Mineralogist: 65: 506-515; Pemberton, H. Earl (1983), Minerals of California; Van Nostrand Reinholt Press: 367; American Mineralogist: (1983) 68: 245-254; www.koeln.netsurf.de/~w.steffens/usa.htm.
    • San Bernardino Co.
      • San Gabriel Mountains
        • Stoddard Peak
Merriam, R. and Laudermilk, J. D. 1936. Two Diopsides from Southern California. The American Mineralogist. 21(11):715-718.
  • Colorado
    • Boulder Co.
      • Wallstreet
Minerals of Colorado (1997) E.B. Eckel
    • Clear Creek Co.
      • Upper Union Mining District (Empire Mining District)
Minerals of Colorado (1997) E.B. Eckel
    • Fremont Co.
      • Gem Park complex
USGS Prof Paper 649
Minerals of Colorado (1997) Eckel, E. B.
Minerals of Colorado (1997) E.B. Eckel
    • Teller Co.
Min Rec 36:2 pp143-185
  • Connecticut
    • Middlesex Co.
      • Haddam
        • Higganum
Schooner, Richard. (circa 1980s), Untitled manuscript on central Connecticut mineralogy.
  • Hawaii
    • Honolulu Co.
      • Oahu
        • Honolulu
Wilkinson & Stolz (1983) Contr. Min. Petr., 83, 363-374.
  • Kansas
    • Decatur Co.
Brearley, A. J. & Jones, R. H. (1998). Chondritic Meteorites. In: Planetary Materials (Papike, J. J., Editor): Chapter 3, 398 pages. Mineralogical Society of America: Washington, DC, USA. (1998)
  • Maine
Mason, A. (1976) The world of Rocks and Minerals. New York, N.Y., Larousse & Co., 108 pages.
      • Litchfield
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.
      • West Gardiner
No reference listed
    • York Co.
      • Newfield
        • Straw Hill
King, V. and Foord, E., 1994, 2000, Mineralogy of Maine, volume 1 and 2, with updates by Van King.
      • Parsonsfield
Gilman, R., 1978, Bedrock Gepology of the Newfield 15' Quadrangle, Maine, ME Geol Surv OF-78-10.
      • Shapleigh
No reference listed
  • Massachusetts
Mason, A. (1976) The world of Rocks and Minerals. New York, N.Y., Larousse & Co., 108 pages.
Sears, JH, 1905, Geology of Essex County, Mass.
Gleba, 1978. Massachusetts Mineral & Fossil Localities
      • Newbury
Gleba, 1978. Massachusetts Mineral & Fossil Localities
Emerson, B.K. Geology of Massachusetts and Rhode Island, 1917. (USGS Bulletin 597), p.197-198.
Gleba, 1978. Massachusetts Mineral & Fossil Localities
Clapp, C. H., 1921. Geology of the Igneous Rocks of Essex County, Massachusetts;USGS Bulleting 704
  • Michigan
    • Chippewa Co.
Laughlin, R., Carlson, S.M., Olds, T.A., Mills, O.P. (2018) A new find of fluorescent sodalite from Michigan's Upper Peninsula. Mineral News, 34, (5), May.
    • Houghton Co.
Alice Sikorski Collection
  • Montana
    • Chouteau Co.
      • Highwood Mountains
Gobla, M.J. (2012) Montana mineral locality index. Rocks & Minerals, 87, #3, 208-240.
    • Hill Co.
www.koeln.netsurf.de/~w.steffens
    • Meagher Co.
American Mineralogist 50:291-292
  • New Hampshire
    • Carroll Co.
      • Moultonborough
Meyers & Stewart (1956). The Geology of NH: Part III Minerals and Mines. p.43
P Cristofono collection
  • New Jersey
    • Sussex County
      • Hardyston Township
        • Rudeville
Rocks & Min.: 21:416, 576-577.
      • Wantage Township
        • Libertyville
Rutgers Univ. Bull. #5, Pt 1:53-54.
  • New Mexico
    • Colfax Co.
      • Springer
        • Point of Rocks Mesa (Pecks Mesa)
Rocks & Min.: 60:229.
    • Otero Co.
Minerals of New Mexico 3rd ed.
USGS Prof. Paper 318 (1959); USGS Open-File Report 02-189
    • Santa Fe Co.
Minerals of New Mexico 3rd ed.
  • South Dakota
    • Lawrence Co.
SDSMT Bull 18 Roberts and Rapp "Mineralogy of the Black Hills"
      • Spearfish
SDSMT Bull 18 Roberts and Rapp "Mineralogy of the Black Hills"
      • Spearfish Canyon
SDSMT Bull 18 Roberts and Rapp "Mineralogy of the Black Hills"
SDSMT Bull 18 Roberts and Rapp "Mineralogy of the Black Hills"
SDSMT Bull 18 Roberts and Rapp "Mineralogy of the Black Hills"
  • Texas
    • McLennan Co.
Yoneda, S., Simon, S. B. & Grossman, L. (1995). Lunar and Planetary Science Conference XXVI, Abstracts. page 1541. (March 1995)
  • Utah
    • Grand Co.
      • La Sal Mountains
        • North Mountain
www.koeln.netsurf.de/~w.steffens/usa.htm.
    • San Juan Co.
      • La Sal Mountains
UGMS Bull 117 Minerals and Mineral Localities of Utah
UGMS Bull 117 Minerals and Mineral Localities of Utah
  • Vermont
    • Rutland Co.
      • Shrewsbury
Woolley (1987), Alkaline Rocks and Carbonatites of the World.
          • Copperas Hill
Rocks & Min. Vol. 71, (1996); Eggleston, J. W., 1918, Eruptive rocks at Cuttingsville, Vermont: Am. Jour. Sci., v. 45 (4th series), p. 377-410.
Grant, 1968. Mineral Collecting in Vermont; Eggleston, J. W., 1918, Eruptive rocks at Cuttingsville, Vermont: Am. Jour. Sci., v. 45 (4th series), p. 377-410.
  • Wisconsin
    • Marathon Co.
      • Wausau Intrusive Complex
Wolley,A.R. (1987) Alkaline Rocks and Carbonatites of the World
Venezuela
 
  • Amazonas
Greta J. Orris and Richard I. Grauch (2002) Rare Earth Element Mines, Deposits, and Occurrences. USGS Open File Report 02-189; Woolley, A.R. (1987) Alkaline rocks and carbonatites of the world. p 213.
Vietnam
 
  • Bac Kan Province
    • Chợ Đồn District
Chi, N. T., & Flower, M. F. Geochemistry of Sodium Alkaline Igneous Formations in NE Vietnam: Evidence of Paleohotspot & Mesohotspot Traces. Poster presented at the Goldschmitt Conference.
  • Sơn La Province
    • Bac Yen District
Chi, N. T., & Flower, M. F. Geochemistry of Sodium Alkaline Igneous Formations in NE Vietnam: Evidence of Paleohotspot & Mesohotspot Traces. Poster presented at the Goldschmitt Conference.
Zimbabwe
 
  • Mashonaland West
Cairncross, B. (2004) Field Guide To Rocks & Minerals Of Southern Africa
Cairncross, B. (2004) Field Guide To Rocks & Minerals Of Southern Africa
 
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