SUPPORT US. Covid-19 has significantly affected our fundraising. Please help!
登录注册
主页关于 MindatMindat手册Mindat的历史版权Who We Are联系我们于 Mindat.org刊登广告
捐赠给 MindatCorporate Sponsorship赞助板页已赞助的板页在 Mindat刊登 广告的广告商于 Mindat.org刊登广告
Learning CenterWhat is a mineral?The most common minerals on earthInformation for EducatorsMindat ArticlesThe Elements书籍及杂志
搜索矿物的性质搜索矿物的化学Advanced Locality Search随意显示任何一 种矿物Random Locality使用minID搜索邻近产地Search Articles搜索词汇表更多搜索选项
搜索:
矿物名称:
地区产地名称:
关键字:
 
Mindat手册添加新照片Rate Photos产区编辑报告Coordinate Completion Report添加词汇表项目
Mining Companies统计会员列表Mineral Museums矿物展及活动The Mindat目录表设备设置The Mineral Quiz
照片搜索Photo GalleriesSearch by Color今天最新的照片昨天最新的照片用户照片相集过去每日精选照片相集Mineral Photography

Eudialyte

This page is currently not sponsored. Click here to sponsor this page.
Hide all sections | Show all sections

About EudialyteHide

Formula:
Na15Ca6Fe3Zr3Si(Si25O73)(O,OH,H2O)3(Cl,OH)2
Alternatively:

(Na3Na3Na3Na3Na3)Ca6(IVFe2+3)Zr3[Si3O9]2[Si9O27SiO][Si9O27SiO]Cl(H2O)
This updated formulation attempts to better illustrate structural relationships to other members of the group (and is also charge-balanced).
Colour:
Variable: Carmine-red, orange-red, orange, pink, cherry-red, brownish-red, yellowish-brown, brown, yellow, violet, green.
Lustre:
Vitreous, Dull
Hardness:
5 - 6
Specific Gravity:
2.74 - 3.1
Crystal System:
Trigonal
Member of:
Name:
From the Greek for "readily decomposable," in allusion to its easy solubility in acids.
Principal member of the Eudialyte Group.

Note: most "eudialyte" photos on Mindat probably show unanalysed material and should be labeled "Eudialyte Group" since they might represent not eudialyte sensu stricto, but any of the various other members of the eudialyte group.

Visit gemdat.org for gemological information about Eudialyte.


Classification of EudialyteHide

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

9 : SILICATES (Germanates)
C : Cyclosilicates
O : [Si9O27]18- 9-membered rings
Dana 7th ed.:
64.1.1.1
64.1.1.1

64 : CYCLOSILICATES Rings with Other Anions and Insular Silicate Groups
1 : Rings with Other Anions and Insular Silicate Groups with mixed ring types
17.3.6

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

Pronounciation of EudialyteHide

Pronounciation:
PlayRecorded byCountry
Jolyon & Katya RalphUnited Kingdom

Physical Properties of EudialyteHide

Vitreous, Dull
Transparency:
Translucent
Colour:
Variable: Carmine-red, orange-red, orange, pink, cherry-red, brownish-red, yellowish-brown, brown, yellow, violet, green.
Streak:
White to pale pink
Hardness:
5 - 6 on Mohs scale
Tenacity:
Brittle
Cleavage:
Perfect
Distinct on {0001}, imperfect on {1010} and {1014} {1120}.
Fracture:
Irregular/Uneven
Density:
2.74 - 3.1 g/cm3 (Measured)    

Optical Data of EudialyteHide

Type:
Uniaxial (+/-)
RI values:
nω = 1.606 - 1.610 nε = 1.610 - 1.613
Max Birefringence:
δ = 0.004
Image shows birefringence interference colour range (at 30µm thickness)
and does not take into account mineral colouration.
Surface Relief:
Moderate
Pleochroism:
Weak
Comments:
O= colorless, pale yellow, pink
E= pink to colorless

Chemical Properties of EudialyteHide

Formula:
Na15Ca6Fe3Zr3Si(Si25O73)(O,OH,H2O)3(Cl,OH)2

Alternatively:

(Na3Na3Na3Na3Na3)Ca6(IVFe2+3)Zr3[Si3O9]2[Si9O27SiO][Si9O27SiO]Cl(H2O)
This updated formulation attempts to better illustrate structural relationships to other members of the group (and is also charge-balanced).
Common Impurities:
K,Mg,Sr,TR,Ti,Nb,Al,F,P,S

Crystallography of EudialyteHide

Crystal System:
Trigonal
Class (H-M):
3m (3 2/m) - Hexagonal Scalenohedral
Space Group:
R3m
Cell Parameters:
a = 14.31 Å, c = 30.15 Å
Ratio:
a:c = 1 : 2.107
Unit Cell V:
5,346.84 ų (Calculated from Unit Cell)
Z:
3
Morphology:
short rhombohedral to long prismatic

Crystallographic forms of EudialyteHide

Crystal Atlas:
Image Loading
Click on an icon to view
Eudialyte no.22 - Goldschmidt (1913-1926)
Eudialyte no.24 - Goldschmidt (1913-1926)
3d models and HTML5 code kindly provided by www.smorf.nl.

Toggle
Edge Lines | Miller Indices | Axes

Transparency
Opaque | Translucent | Transparent

View
Along a-axis | Along b-axis | Along c-axis | Start rotation | Stop rotation

Crystal StructureHide

Load
Unit Cell | Unit Cell Packed
2x2x2 | 3x3x3 | 4x4x4
Show
Big Balls | Small Balls | Just Balls | Spacefill
Polyhedra Off | Si Polyhedra | All Polyhedra
Remove metal-metal sticks
Display Options
Black Background | White Background
Perspective On | Perspective Off
2D | Stereo | Red-Blue | Red-Cyan
View
CIF File    Best | x | y | z | a | b | c
Rotation
Stop | Start
Labels
Console Off | On | Grey | Yellow
IDSpeciesReferenceLinkYearLocalityPressure (GPa)Temp (K)
0005607EudialyteJohnsen O, Grice J D (1999) The crystal chemistry of the eudialyte group The Canadian Mineralogist 37 865-8911999Mont Saint-Hilaire, Rouville County, Quebec, Canada0293
0005608EudialyteJohnsen O, Grice J D (1999) The crystal chemistry of the eudialyte group The Canadian Mineralogist 37 865-8911999Mont Saint-Hilaire, Rouville County, Quebec, Canada0293
0005613EudialyteJohnsen O, Grice J D (1999) The crystal chemistry of the eudialyte group The Canadian Mineralogist 37 865-8911999Kipawa alkaline complex, Villedieu township, Temiscaminque County, Quebec, Canada0293
0005614EudialyteJohnsen O, Grice J D (1999) The crystal chemistry of the eudialyte group The Canadian Mineralogist 37 865-8911999Kipawa alkaline complex, Villedieu township, Temiscaminque County, Quebec, Canada0293
0005615EudialyteJohnsen O, Grice J D (1999) The crystal chemistry of the eudialyte group The Canadian Mineralogist 37 865-8911999Saint-Amable sill, Varennes, Verchares County, Canada0293
0005616EudialyteJohnsen O, Grice J D (1999) The crystal chemistry of the eudialyte group The Canadian Mineralogist 37 865-8911999Gardiner complex, East Greenland0293
0005617EudialyteJohnsen O, Grice J D (1999) The crystal chemistry of the eudialyte group The Canadian Mineralogist 37 865-8911999Gardiner complex, East Greenland0293
0005618EudialyteJohnsen O, Grice J D (1999) The crystal chemistry of the eudialyte group The Canadian Mineralogist 37 865-8911999Gardiner complex, East Greenland0293
0005620EudialyteJohnsen O, Grice J D (1999) The crystal chemistry of the eudialyte group Loclaity: Narssarssuk pegmatite, South Greenland The Canadian Mineralogist 37 865-89119990293
0005621EudialyteJohnsen O, Grice J D (1999) The crystal chemistry of the eudialyte group The Canadian Mineralogist 37 865-8911999Illimaussaq complex, South Greenland0293
CIF Raw Data - click here to close

X-Ray Powder DiffractionHide

Image Loading

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

Geological EnvironmentHide

Geological Setting:
Nepheline syenites, alkalic granites.

Type Occurrence of EudialyteHide

Synonyms of EudialyteHide

Other Language Names for EudialyteHide

Relationship of Eudialyte to other SpeciesHide

Member of:
Other Members of this group:
AlluaiviteNa19(Ca,Mn)6(Ti,Nb)3Si26O74Cl · 2H2OTrig. 3m (3 2/m) : R3m
AndrianoviteNa12(K,Sr,Ce)3Ca6Mn3Zr3Nb(Si25O73)(O,H2O,OH)5Trig. 3m : R3m
Aqualite(H3O)8(Na,K,Sr)5Ca6Zr3Si26O66(OH)9ClTrig. 3 : R3
Carbokentbrooksite(Na3Na3Na3Na3Na3)Ca6(VMn2+3)Zr3[Si3O9]2[Si9O27SiO][Si9O27Nb(OH)3](CO3)(H2O)Trig. 3m : R3m
DavinciiteNa12K3Ca6Fe2+3Zr3(Si26O73OH)Cl2Trig. 3m : R3m
DualiteNa30(Ca,Na,Ce,Sr)12(Na,Mn,Fe,Ti)6Zr3Ti3Mn[Si51O144](OH,H2O,Cl)9Trig. 3m : R3m
FeklicheviteNa11Ca9(Fe3+,Fe2+)2Zr3Nb[Si25O73](OH,H2O,Cl,O)5Trig. 3m : R3m
FengchengiteNa123(Ca,Sr)6Fe3+3 Zr3Si(Si25O73)(H2O,OH)3(OH,Cl)2Trig. 3m (3 2/m) : R3m
FerrokentbrooksiteNa15Ca6(Fe,Mn)3Zr3NbSi25O73(O,OH,H2O)3Cl2Trig. 3m : R3m
GeorgbarsanoviteNa12(Mn,Sr,REE)3Ca6Fe2+3Zr3NbSi25O76Cl2 · H2OTrig. 3m : R3m
GolysheviteNa10Ca3Ca6Zr3Fe2SiNb(Si3O9)2(Si9O27)2CO3(OH)3 · H2OTrig. 3m : R3m
Hydrorastsvetaevite(Na11(H3O)11K6(H2O)1.5Sr)Ca12Fe3Na2MnZr6Si52O144(OH)4.5Cl3.5Trig. 3m : R3m
Ikranite(Na,H3O)15(Ca,Mn2+)6Fe3+2Zr3[H0-3Si3O9)2(Si9O27)2SiO]Cl · 2-3H2OTrig. 3m : R3m
Ilyukhinite(H3O,Na)14Ca6Mn2Zr3Si26O72(OH)2 · 3H2OTrig. 3m : R3m
Johnsenite-(Ce)Na12Ce3Ca6Mn3Zr3WSi25O73(CO3)(OH)2Trig. 3m : R3m
Kentbrooksite(Na,REE)15(Ca,REE)6(Mn2+,Fe2+)3Zr3Nb[Si25O74]F2 · 2H2OTrig. 3m : R3m
KhomyakoviteNa12Sr3Ca6Fe3Zr3W[Si25O73](O,OH,H2O)3(OH,Cl)2Trig. 3m : R3m
Labyrinthite(Na,K,Sr)35Ca12Fe3Zr6TiSi51O144(O,OH,H2O)9Cl3Trig. 3 : R3
ManganoeudialyteNa14Ca6Mn3Zr3[Si26O72(OH)2](H2O,Cl,O,OH)6Trig. 3m : R3m
ManganokhomyakoviteNa12Sr3Ca6Mn3Zr3W[Si25O73](O,OH,H2O)3(OH,Cl)2Trig. 3m : R3m
MogoviditeNa9(Ca,Na)12Fe2Zr3Si25O72(CO3) (OH)4Trig. 3m : R3m
OneilliteNa15Ca3Mn3Fe2+3Zr3Nb(Si25O73)(O,OH,H2O)3(OH,Cl)2Trig. 3 : R3
RaslakiteNa15Ca3Fe2+3(Na,Zr)3Zr3(Si,Nb)[(Si3O9)2(Si9O27)2SiO](OH,H2O)3(Cl,OH)Trig. 3
RastsvetaeviteNa27K8Ca12Fe3Zr6Si52O144(O,OH,H2O)6Cl2Trig. 3m : R3m
SergevaniteNa15(Ca3Mn3)(Na2Fe)Zr3Si26O72(OH)3 · H2OTrig. 3 : R3
SiudaiteNa8(Mn2+2Na)Ca6(Fe3+,Mn2+)3Zr3NbSi24(Si,◻,Ti)O74(OH)2Cl · 5H2OTrig. 3m : R3m
TaseqiteNa12Sr3Ca6Fe3Zr3Nb[(Si3O9)2(Si9O27)2SiO]Cl2(O,OH,H2O)3Trig. 3m : R3m
UM1971-22-SiO:CaClFeHMgMnNaNbZrNa12Ca5(Ce,La,Y,Ca)Zr3(Zr,Nb)(Fe,Mn)3[Si9O24-26(OH)1-3]2[Si3O9]2ClTrig. 3m : R3m
UM1990-78-SiO:CaClFeHKNaZr(H3O)7(Na,K)5(Ca,Sr,Mn)6Zr3[Si3O7(O,OH)2]2[Si9O23(O,OH)4]2[SiNaFe(Zr,Ti,Al,Nb)◻]Cl1.5(O,OH)Trig. 3m : R3m
UM1990-79-SiO:CaClFeHMnNaNbREEZrNa14Ca5(Mg,Ca,Mn)Zr3(Si3O9)2(Si9O27)2(Si,Nb,Al,Zr)2(Fe,Zr)3(Mn,Na,Ce,La,Y)(Na,H2O,K,Sr)(OH)4-5(OH,Cl)
UM1990-80-SiO:CaFeHMnNaNbREEZrNa14Ca4(Mn,Ca)2Zr3(Si3O9)2(Si9O27)2(Si,Nb,Al,Zr)2(Fe,Mn,Al,Ti)3(Na,Ce,La,Y,Mn)(Na,H2O,K,Sr)(OH)7-8
UM1998-21-SiO:CaCeClHMnNaZrNa16Ca6(Mn,Ce)3Zr3(Si3O9)2(Si9O27)2(OH,Cl)4 · nH2OTrig. 3m : R3m
UM1999-36-SiO:CaCeHMnNaNbSrZrNa17(Ca,Ce,Sr)2Mn3(Zr,Nb)4Si25O73(O,OH,F,Cl)5Trig. 3 : R3
UM2000-66-SiO:CaClFeHMnNaNbSrZrNa12(Ca,Mn)6(Sr,Na,K)3(Fe,Mn)3(Zr,Nb)4Si25O66(OH,Cl)11Trig. 3m : R3m
UM2000-67-SiO:CaClFeHMnNaNbZrZr4(Ca,Na,Mn,Fe)6(Fe,Mn,Ti)3Na17Si25O75(Al,Nb,Ti)Cl(OH)4.H2OTrig. 3m : R3m
UM2000-80- SiO:CaCeFFeHMnNaNbTiZrNa14(Na,Ca,Ce)(Mn,Ca,Ce)[Fe1.55(Zr,Na)(◻,Ti,Nb)]Zr3(Si,Al)(Si3O9)2(Si9O27)2(OH,O)4(F ,Cl) · H2O
UM2003-39-SiO:CaClFeHHfNaNbSrTaTiZrNa12(Na,K,Mn,Sr)2Ca5(Ca,Mn)(Zr,Hf)3(Fe,◻,Ta)3(Si,Nb,W)(Si,Al,Ti)Si24O72(OH,O)3.5Cl · 1.2H2OTrig. 3m : R3m
UM2004-51-SiO:CaClFFeHNaNbTiNa16Ca6(Fe,Mn)3Zr3(Ti,Nb)Si26O72FCl0.5 · nH2OTrig. 3m : R3m
UM2005-36-SiO:AlBaCaClFeHKMnNaREESrTiZr[(H3O)9.32Na5.86K0.53Ba0.36Sr0.15][Ca5.22Sr0.49Ce0.16Mn0.13][Zr2.42Ti0.54Hf0.02Nb0.02][Na1.48(Fe
UM2005-37-SiO:AlBaCaClFeHKMnNaREESrTiZr[(H3O)9.26Na2.12K1.20Ba0.46Sr0.48][Ca5.76Ce0.24][Zr2.92Ti0.08][Na0.62(Fe0.23Mn0.11(H2O)0.34)][Si
UM2005-38-SiO:AlBaCaClFeHKMnNaNbREESrTiYZr[(H3O)10.85Na3.3Sr0.48K0.21Ce0.2Y0.1Ba0.04][Ca2.10Na0.9][Ca2.4Na0.3Mn0.3][Zr2.97Hf0.03][Fe1.32
UM2005-39-SiO:AlBaCaClFeHKMnNaNbREESrTiYZr[(H3O)11.61Na3.0Sr0.63Ce0.22K0.2Y0.05Ba0.03][Ca2.25Na0.75][Ca2.4Mn0.6][Zr2.98Hf0.02][Fe3+0.66
UM2005-40-SiO:AlCaClFeHKMnNaNbREESrTiYZr[(H3O)5.58Na5.25Ce0.63K0.3Y0.19Sr0.05][Ca3][Ca1.71Mn1.29][Zr2.96Hf0.04][(Fe3+1.0Fe2+0.35)(Fe3+
UM2005-41-SiO:BaCaFeHKMgMnNaNbREESrTiYZr[(H3O)8.53Na3.51Sr0.55Ce0.45Y0.3Ba0.15K0.06][Ca2.25Sr0.45Na0.3][Ca2.4Mn0.6][Zr2.97Hf0.03][(Mn0.
UM2006-17-SiO:CaClFFeHMnNaZrNa15(Ca3Mn3)Zr3(Fe,Zr)3SiSi(Si3O9)2(Si9O27)2O2(OH,F,Cl)3 · 2H2O
UM2006-18-SiO:CaClFFeHMnNaZrNa15Ca3(Mn,Fe)3Zr3(Zr,Na)3(Si,Nb)(S,Ti,Si)(Si3O9)2(Si9O27)2(O,OH)5(Cl,F,H2O)Trig. 3 : R3
UM2006-28-SiO:CaHMnNaZrNa33Ca12Zr6Mn3(Mn,Nb,Ti)2Si50O132(O,OH)12(OH,H2O,Cl)10
UM2010-06-SiO:CaFeHMnNaNbREETiZr[Na,(H3O)]15(Ca3Mn3)Na3Zr3(Si,Ti)[Si25O72OH](OH)2 · 2H2O
Unnamed (Eudialyte 3248)Na29Ca12Zr6[Si48O132(O,OH)12]{[Na]4[Si]2}{[Mn]3[Mn,Nb,Ti]2}(OH,H2O,Cl)10Trig. 3m (3 2/m) : R3m
Unnamed (Hydrated Hydrous Na-Ca-Mn-Fe-Zr-Ti Silicate Chloride)Na37Ca10Mn2FeZr6Si50(Ti,Nb)2O144(OH)5Cl3 · H2OTrig. 3m : R3m
Unnamed (M4-vacant Sodium Calcium Manganese Zirconium Iron Silicon Hydroxyl Hydrated Eudialyte Group Species)Na13(Ca3Mn3)Zr3(Fe, Mn)3(◻)(Si)[Si3O9]2[Si9O27]2(O,OH,Cl)3 · 2H2O
VoronkoviteNa15(Na,Ca,Ce)3(Mn,Ca)3Fe3Zr3Si26O72(OH,O)4Cl · H2OTrig. 3 : R3
Zirsilite-(Ce)Na11-12(Ce,Na)3Ca6Mn3Zr3Nb(Si19O55)(Si3O9)2(CO3)(OH)3 · H2OTrig. 3m : R3m

Common AssociatesHide

Associated Minerals Based on Photo Data:
90 photos of Eudialyte associated with AegirineNaFe3+Si2O6
52 photos of Eudialyte associated with VlasoviteNa2ZrSi4O11
45 photos of Eudialyte associated with GittinsiteCaZrSi2O7
39 photos of Eudialyte associated with AgrelliteNaCa2Si4O10F
34 photos of Eudialyte associated with NephelineNa3K(Al4Si4O16)
34 photos of Eudialyte associated with AlbiteNa(AlSi3O8)
23 photos of Eudialyte associated with Katophorite{Na}{CaNa}{Mg4Al}[(AlSi7)O22](OH)2
20 photos of Eudialyte associated with MicroclineK(AlSi3O8)
17 photos of Eudialyte associated with AenigmatiteNa4[Fe2+10Ti2]O4[Si12O36]
16 photos of Eudialyte associated with Mosandrite-(Ce)(Ca3REE)[(H2O)2Ca0.50.5]Ti(Si2O7)2(OH)2(H2O)2

Related Minerals - Nickel-Strunz GroupingHide

9.CO.10AlluaiviteNa19(Ca,Mn)6(Ti,Nb)3Si26O74Cl · 2H2OTrig. 3m (3 2/m) : R3m
9.CO.10FerrokentbrooksiteNa15Ca6(Fe,Mn)3Zr3NbSi25O73(O,OH,H2O)3Cl2Trig. 3m : R3m
9.CO.10Kentbrooksite(Na,REE)15(Ca,REE)6(Mn2+,Fe2+)3Zr3Nb[Si25O74]F2 · 2H2OTrig. 3m : R3m
9.CO.10KhomyakoviteNa12Sr3Ca6Fe3Zr3W[Si25O73](O,OH,H2O)3(OH,Cl)2Trig. 3m : R3m
9.CO.10ManganokhomyakoviteNa12Sr3Ca6Mn3Zr3W[Si25O73](O,OH,H2O)3(OH,Cl)2Trig. 3m : R3m
9.CO.10OneilliteNa15Ca3Mn3Fe2+3Zr3Nb(Si25O73)(O,OH,H2O)3(OH,Cl)2Trig. 3 : R3
9.CO.10RaslakiteNa15Ca3Fe2+3(Na,Zr)3Zr3(Si,Nb)[(Si3O9)2(Si9O27)2SiO](OH,H2O)3(Cl,OH)Trig. 3
9.CO.10FeklicheviteNa11Ca9(Fe3+,Fe2+)2Zr3Nb[Si25O73](OH,H2O,Cl,O)5Trig. 3m : R3m
9.CO.10Carbokentbrooksite(Na3Na3Na3Na3Na3)Ca6(VMn2+3)Zr3[Si3O9]2[Si9O27SiO][Si9O27Nb(OH)3](CO3)(H2O)Trig. 3m : R3m
9.CO.10Zirsilite-(Ce)Na11-12(Ce,Na)3Ca6Mn3Zr3Nb(Si19O55)(Si3O9)2(CO3)(OH)3 · H2OTrig. 3m : R3m
9.CO.10Ikranite(Na,H3O)15(Ca,Mn2+)6Fe3+2Zr3[H0-3Si3O9)2(Si9O27)2SiO]Cl · 2-3H2OTrig. 3m : R3m
9.CO.10TaseqiteNa12Sr3Ca6Fe3Zr3Nb[(Si3O9)2(Si9O27)2SiO]Cl2(O,OH,H2O)3Trig. 3m : R3m
9.CO.10RastsvetaeviteNa27K8Ca12Fe3Zr6Si52O144(O,OH,H2O)6Cl2Trig. 3m : R3m
9.CO.10GolysheviteNa10Ca3Ca6Zr3Fe2SiNb(Si3O9)2(Si9O27)2CO3(OH)3 · H2OTrig. 3m : R3m
9.CO.10Labyrinthite(Na,K,Sr)35Ca12Fe3Zr6TiSi51O144(O,OH,H2O)9Cl3Trig. 3 : R3
9.CO.10Johnsenite-(Ce)Na12Ce3Ca6Mn3Zr3WSi25O73(CO3)(OH)2Trig. 3m : R3m
9.CO.10MogoviditeNa9(Ca,Na)12Fe2Zr3Si25O72(CO3) (OH)4Trig. 3m : R3m
9.CO.10GeorgbarsanoviteNa12(Mn,Sr,REE)3Ca6Fe2+3Zr3NbSi25O76Cl2 · H2OTrig. 3m : R3m
9.CO.10Aqualite(H3O)8(Na,K,Sr)5Ca6Zr3Si26O66(OH)9ClTrig. 3 : R3
9.CO.10DualiteNa30(Ca,Na,Ce,Sr)12(Na,Mn,Fe,Ti)6Zr3Ti3Mn[Si51O144](OH,H2O,Cl)9Trig. 3m : R3m
9.CO.10AndrianoviteNa12(K,Sr,Ce)3Ca6Mn3Zr3Nb(Si25O73)(O,H2O,OH)5Trig. 3m : R3m
9.CO.10VoronkoviteNa15(Na,Ca,Ce)3(Mn,Ca)3Fe3Zr3Si26O72(OH,O)4Cl · H2OTrig. 3 : R3
9.CO.10UM1999-36-SiO:CaCeHMnNaNbSrZrNa17(Ca,Ce,Sr)2Mn3(Zr,Nb)4Si25O73(O,OH,F,Cl)5Trig. 3 : R3
9.CO.10UM2000-66-SiO:CaClFeHMnNaNbSrZrNa12(Ca,Mn)6(Sr,Na,K)3(Fe,Mn)3(Zr,Nb)4Si25O66(OH,Cl)11Trig. 3m : R3m
9.CO.10ManganoeudialyteNa14Ca6Mn3Zr3[Si26O72(OH)2](H2O,Cl,O,OH)6Trig. 3m : R3m
9.CO.10UM1990-78-SiO:CaClFeHKNaZr(H3O)7(Na,K)5(Ca,Sr,Mn)6Zr3[Si3O7(O,OH)2]2[Si9O23(O,OH)4]2[SiNaFe(Zr,Ti,Al,Nb)◻]Cl1.5(O,OH)Trig. 3m : R3m
9.CO.10UM1990-79-SiO:CaClFeHMnNaNbREEZrNa14Ca5(Mg,Ca,Mn)Zr3(Si3O9)2(Si9O27)2(Si,Nb,Al,Zr)2(Fe,Zr)3(Mn,Na,Ce,La,Y)(Na,H2O,K,Sr)(OH)4-5(OH,Cl)
9.CO.10UM1971-22-SiO:CaClFeHMgMnNaNbZrNa12Ca5(Ce,La,Y,Ca)Zr3(Zr,Nb)(Fe,Mn)3[Si9O24-26(OH)1-3]2[Si3O9]2ClTrig. 3m : R3m
9.CO.10UM1998-21-SiO:CaCeClHMnNaZrNa16Ca6(Mn,Ce)3Zr3(Si3O9)2(Si9O27)2(OH,Cl)4 · nH2OTrig. 3m : R3m

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

64.1.1.2Ikranite(Na,H3O)15(Ca,Mn2+)6Fe3+2Zr3[H0-3Si3O9)2(Si9O27)2SiO]Cl · 2-3H2OTrig. 3m : R3m
64.1.1.3Aqualite(H3O)8(Na,K,Sr)5Ca6Zr3Si26O66(OH)9ClTrig. 3 : R3
64.1.1.4ManganoeudialyteNa14Ca6Mn3Zr3[Si26O72(OH)2](H2O,Cl,O,OH)6Trig. 3m : R3m
64.1.1.4UM1998-21-SiO:CaCeClHMnNaZrNa16Ca6(Mn,Ce)3Zr3(Si3O9)2(Si9O27)2(OH,Cl)4 · nH2OTrig. 3m : R3m

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
17.3.3SodaliteNa4(Si3Al3)O12ClIso. 4 3m : P4 3n
17.3.4MarialiteNa4Al3Si9O24ClTet. 4/m : I4/m
17.3.5TugtupiteNa4BeAlSi4O12ClTet. 4 : I4
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.

Other InformationHide

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

Eudialyte in petrologyHide

References for EudialyteHide

Reference List:
Sort by Year (asc) | by Year (desc) | by Author (A-Z) | by Author (Z-A)
Klaproth, M.H. (1810) Chemische Untersuchung des rothen Granats aus Grönland. Beiträge zur chemischen Kenntniss der Mineralkörper, Fünfter Band, Rottmann Berlin, 131-137.
Johnsen, O., Ferraris, G., Gault, R.A., Grice, J.D., Kampf, A.R., and Pekov, I.V. (2003) The nomenclature of eudialyte minerals. Canadian Mineralogist: 41: 785-794.
Johnsen, O. and Gault, R.A. (1997) Chemical variation in eudialyte. Neues Jahrbuch für Mineralogie, Abhandlungen, 171: 215-237.
Johnsen, O. and Grice, J.D. (1998) Crystal chemical characteristics of the eudialyte group. Program with Abstracts, International Mineralogical Association Meeting, Toronto, A108.
Johnsen, O. and Grice, J.D. (1999) The crystal chemistry of the eudialyte group. Canadian Mineralogist: 37: 865-895.
Johnsen, O., Grice, J.D., and Gault, R.A. (2001) The eudialyte group: a review. Geology of Greenland Survey Bulletin: 190: 65-72.
Johnsen, O., Petersen, O.V., and Gault, R.A. (1997) Optical data on minerals of the eudialyte-mesodialyte-eucolite terminology. Neues Jahrbuch für Mineralogie, Monatshefte, Jg. 1997, 371-383.
Khomyakov, A.P., Nechelyustov, G.N., and Rastsvetaeva, R.K. (2007) Aqualite, (H3O)8(Na,K,Sr)5Ca6Zr3Si26O66(OH)9Cl, a new eudialyte-group mineral from Inagli alkaline massif (Sakha-Yakutia, Russia), and the problem of oxonium in hydrated eudialytes. Proceedings of the Russian Mineralogical Society (Zapiski RMO): 136(2): 39-55.
Rastsvetaeva, R.K. (2007) Structural mineralogy of the eudialyte-group: a review. Crystallography Reports: 52(1): 47–64.
Rastsvetaeva, R.K. and Chukanov, N.V. (2012) Classification of eudialyte-group minerals. Geology of Ore Deposits: 54(7): 487–497.

Internet Links for EudialyteHide

Localities for EudialyteHide

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.
Angola
 
  • Huambo Province
    • Bailundo
Beleque, A. R. C. (2010). Minerais de ETR no complexo carbonatítico de Bailundo (Mungo, Angola): ocorrência, composição e significado económico.
    • 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
 
  • Eastern Antarctica
    • Queen Maud Land
Harris, C., & Rickard, R. S. (1987). Rare-earth-rich eudialyte and dalyite from a peralkaline granite dyke at Straumsvola, Dronning Maud Land, Antarctica. Canadian Mineralogist, 25, 755-762; 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.
Australia
 
  • New South Wales
    • Gordon Co.
Morris, C., Spandler, C. (2014) The Petrology, Geochemistry and Ore Genesis of the Alkaline REE Toongi Deposit, Dubbo NSW. in Geological Society of Australia, 2014 Australian Earth Sciences Convention (AESC), Sustainable Australia. Abstract No 110 of the 22nd Australian Geological Convention.
    • Gowen Co.
      • Warrumbungle National Park
Am Min 75:694-701
    • Lincoln Co.
      • Dubbo district
http://www.alkane.com.au/projects/nsw/dubbo/DZP%20Summary%20Jan08.pdf
  • Queensland
    • Somerset Region
Carr, Phillips & Williams - Mineralogical Magazine 1976 40,853-6
  • Tasmania
    • 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
Brazil
 
  • Amazonas
    • Apuí
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.
  • Minas Gerais
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.
      • Poços de Caldas
Min Rec 36:3 pp275-280
Horstpeter H. G. J. Ulbrich (1984) A Petrografia, a Estrutura e o Quimismo de Nefelina Sienitos do Maciço Alcalino de Poços de Caldas MG-SP
BAPTISTA, A. (1980) Estudio radiocristografico da Eudialita de Pedra Balao, Poços de Caldas, Estado de Minas Gerais. [Radiocrystallographic study of eudialyte from Pedra Balao, Poços de Caldas, Minas Gerais.] Annaes da Academia Brasileira de Ciêncas, 52, (2), 243-250. (in Portugese)
  • Santa Catarina
G Traversa et al (1994) Petrology and Mineral Chemistry of the Alkaline District of Lages, SC, Brazil. Geochem Brazil 8:179-214
Canada
 
  • British Columbia
    • Golden Mining Division
Locock, Andrew John. (1994) Aspects of the geochemistry and mineralogy of the Ice River alkaline intrusive complex, Yoho National Park, British Columbia. M.Sc. thesis, University of Alberta.
  • Newfoundland and Labrador
    • Labrador
      • North Red Wine Pluton
Mitchell, R.H., Welch, M.D., Kampf, A.R., Chakhmouradian, A.K., Spratt, J. (2015): Barrydawsonite-(Y), Na1.5CaY0.5Si3O9H: a new pyroxenoid of the pectolite–serandite group. Mineralogical Magazine, 79, 671-686.
A. Kerr (2010) Rare-earth-element (REE) mineralization in Labrador: A review of known environments and the geological context of current exploration activity. Newfoundland and Labrador Department of Natural Resources Current Research 2010 pp 109-143; L. W. Curtis And J. Gittins (1979) Aluminous and Titaniferous Clinopyroxenes from Regionally Metamorphosed Agpaitic Rocks in Central Labrador. J. Petrology 20:165-186.; Curtis, L.W. & Currie, K.L. (1977) Geology and petrology of the Red Wine complex, Central Labrador. GSC Bulletin 287, 61p. + maps
Gaines, RV et al (1979) Dana's New Mineralogy 8th ed. John Wiley and Sons 1819pp
\"Rare Earth Element Mines, Deposits, and Occurrences,\" G.J. Orris and R.I. Grauch, Open File Report 02-189, U.S. Department of the Interior, U.S. Geological Survey, 2002.; GSC database locality No. 4100
GSC database; GSC database locality No. 4101
  • 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); 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.
  • Ontario
    • Hastings County
      • Dungannon Township
        • York River area
Milton, C. (1965): Note on the occurrence of eudialyte in Canada. Can. Mineral. 8, 382-383.
  • Québec
    • Abitibi-Témiscamingue
      • Témiscamingue RCM
        • Les Lacs-du-Témiscamingue
Kenneth L. Currie and Otto van Breemen (1996)The origin of rare minerals in the Kipawa syenite complex, western Quebec. Can Mineral 34:435-451
    • 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.
    • Montérégie
      • 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.; JOHNSEN, O., GAULT, R.A. (1997) Chemical variation in eudialyte. Neues Jahrbuch für Mineralogie, Abhandlungen, 171, 215-237.
      • 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.
Miller (1996), Canadian Mineralogist: 34:349-371; Salvi & Williams-Jones (1995); Am.Min.: 80:1031-1040; Miller (1990), Newfoundland Dept. of Mines & Energy Geol. Sur. Report 90-1: 171-182.; BIRKETT, T.C., MILLER, R.R., ROBERTS, A.C., & MARIANO, A.N. (1992) Zirconium bearing minerals from the Strange Lake intrusive complex, Quebec Labrador. Canadian Mineralogist, 30, 191-205.
  • 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
 
  • Barlavento Islands
Silva, L. C., Figueiredo, M. O., & Williams, C. T. (1989). Notes on Cape Verde mineralogy. Zirconium silicates in syenitic rocks from Boa Vista island. Garcia de Orta (Portugal).
China
 
  • Hebei
    • Zhangjiakou
      • Yangyuan County
MOU, B., & YAN, G. (1992). Geological features of Triassic alkaline and subalkaline igneous complexes in the Yan-Liao area. ACTA GEOLOGICA SINICA-ENGLISH EDITION, 5(4), 339-355. Wu, L.R. (ed) The Studies of Alkaline Rocks from Several regions in China. Science Press, Beijing, 160. Feng-Jun, N., & Wu Cheng-Yu, W. (1998). Gold deposits related to alkaline igneous rocks in North China craton, People's Republic of China. Global Tectonics and Metallogeny, 159-172.
  • Liaoning
    • Dandong
      • Kuandian County
MOU, B., & YAN, G. (1992). Geological features of Triassic alkaline and subalkaline igneous complexes in the Yan-Liao area. ACTA GEOLOGICA SINICA-ENGLISH EDITION, 5(4), 339-355. Saima Deposit Research Group. (1978). Uranium deposit in the Saima alkaline massif, Northeast China. Sci. Sinica, 21, 365-389. Wu, F. Y., Yang, Y. H., Marks, M. A., Liu, Z. C., Zhou, Q., Ge, W. C., ... & Markl, G. (2010). In situ U–Pb, Sr, Nd and Hf isotopic analysis of eudialyte by LA-(MC)-ICP-MS. Chemical Geology, 273(1-2), 8-34. Wu, B., Wang, R. C., Yang, J. H., Wu, F. Y., Zhang, W. L., Gu, X. P., & Zhang, A. C. (2015). Wadeite (K2ZrSi3O9), an alkali-zirconosilicate from the Saima agpaitic rocks in northeastern China: Its origin and response to multi-stage activities of alkaline fluids. Lithos, 224, 126-142.; MOU, B., & YAN, G. (1992). Geological features of Triassic alkaline and subalkaline igneous complexes in the Yan-Liao area. ACTA GEOLOGICA SINICA-ENGLISH EDITION, 5(4), 339-355. Saima Deposit Research Group. (1978). Uranium deposit in the Saima alkaline massif, Northeast China. Sci. Sinica, 21, 365-389. Wu, F. Y., Yang, Y. H., Marks, M. A., Liu, Z. C., Zhou, Q., Ge, W. C., ... & Markl, G. (2010). In situ U–Pb, Sr, Nd and Hf isotopic analysis of eudialyte by LA-(MC)-ICP-MS. Chemical Geology, 273(1-2), 8-34. Wu, B., Wang, R. C., Yang, J. H., Wu, F. Y., Zhang, W. L., Gu, X. P., & Zhang, A. C. (2015). Wadeite (K2ZrSi3O9), an alkali-zirconosilicate from the Saima agpaitic rocks in northeastern China: Its origin and response to multi-stage activities of alkaline fluids. Lithos, 224, 126-142.
Saima Deposit Research Group, Beijing Institute of Uranium Geology (1978): Scientia Sinica 11(3), 365-389
Czech Republic
 
  • Central Bohemian Region
    • Rakovník District
      • Čistá ring
Bernard J. H. et al. (1981): Mineralogie Československa. Academia, Praha. (pages 90-91); Kopecky, L. (1987). The Čistrá ring structure, Czechoslovakia. In: Kopecky, L. (ed) Proceedings of the First Seminar on Carbonatites and Alkaline Rocks of the Bohemian Massif and Ambient Regions. Geological Survey, Prague, 23-58.
DR Congo
 
  • North Kivu
    • Beni Territory
      • Bashu
USGS Open-File Report 02–156–A
France
 
  • Auvergne-Rhône-Alpes
    • 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
  • 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.
Greenland
 
  • Kujalleq
    • Igaliku
      • Narsaarsuk Plateau
Bøgghild, O.B. (1953): The Mineralogy of Greenland. Meddelelser om Grønland, Bd. 149. Nr. 3., C.A. Reitzels Forlag, Copenhagen. 445 p. (p.245-247)
    • Igaliku Complex
Jones, A. P. & Larsen, L.M. (1985): Geochemistry and REE minerals of nepheline syenites from the Motzfeldt Centre, South Greenland. American Mineralogist. 70, 1087-1100.; Jones, A.P. (1980) The petrology and structure of the Motzfeldt centre, Igaliko, south Greenland. Doctoral thesis, Durham University.; Schönenberger, J., & Markl, G. (2008). The magmatic and fluid evolution of the Motzfeldt intrusion in South Greenland: insights into the formation of Agpaitic and Miaskitic rocks. Journal of Petrology, 49(9), 1549-1577.
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.; Coulson, I. M., & Chambers, A. D. (1996). Patterns of zonation in rare-earth-bearing minerals in nepheline syenites of the North Qôroq center, South Greenland. The Canadian Mineralogist, 34(6), 1163-1178.
    • Narsaq
Petersen, O.V. (2001): List of all minerals identified in the Ilímaussaq alkaline complex, South Greenland. Geology of Greenland Survey Bulletin. 190, 25-33; 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
Sørensen, H., Larsen, L.M. (2001): The hyper-agpaitic stage in the evolution of the Ilimaussaq alkaline complex, South Greenland. Geology of Greenland Survey Bulletin. 190, 83-94
            • 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
Borst, Anouk M. et al (2014) Eudialyte decomposition and fractionation of REE and HFSE in the kakortokites of the Ilímaussaq Complex, South Greenland. 31st Nordic Geological Meeting, Lund Sweden.
Collected specimens
OT. Ljostad collection and photo (photo-353016)
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
Petersen O. V., Johnsen O., Micheelsen, H. I. (1999): Turkestanite from the Ilimaussaq alkaline complex, south Greenland. Neues Jahrbuch für Mineralogie Monatshefte 9, pp. 424-432
        • Kvanefjeld (Kuannersuit Plateau)
          • Kvanefjeld Uranium deposit
- Petersen, O., Khomyakov, A., Soerensen, H. (2001): Natrophosphate from the Ilimaussaq alkaline complex South Greenland, South Greenland, Geology of Greenland Survey Bulletin, 190, 139-141
Petersen, O. V.; Rønsbo, J.G. & Leonardsen, E.S. (1989): Nacareniobsite-(Ce), a new mineral species from the Ilímaussaq alkaline complex, South Greenland, and its relation to mosandrite and the rinkite series. Neues Jahrbuch für Mineralogie, Monatshefte 2, 84-96
Petersen, O. V. & Johnsen, O. (2005): Mineral species first described from Greenland. Canadian Mineralogist, Special publication no. 8.
Knut Eldjarn photo- Photo ID: 53740
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.
Bøggild, O.B. (1953): The Mineralogy of Greenland. Meddelelser om Grønland, Reitzels Forlag København. Bd. 149. Nr. 3. 445 pages. (p.249)
Boeggild, O.B. (1953): The Mineralogy of Greenland, Meddelelser om Groenland, Vol. 149/3, Reitzels Forlag Koebenhavn
Bøggild, O.B. (1953): The Mineralogy of Greenland. Meddelelser om Grønland, Reitzels Forlag København. Bd. 149. Nr. 3. 445 pages. (p.250)
Pavel M. Kartashov specimen, photo-152472
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
Specimen from there in the Smithsonian Instutute, Museum of Natural History-Rock Currier
  • Sermersooq
    • Kangerlussuaq Fjord
      • Amdrup Firth
Perchiazzi, N. et al. ( 2000): The crystal structure of Normandite and its crystal-chemical relationship with Lavenite, Canadian Mineralogist, Vol. 38, 641 - 648
MinRec 16:485-494
    • Werner Bjerge Complex
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
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. Canadian Mineralogist, 34: 281-299. ; 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.
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.; Biagioni, C., Bonaccorsi, E., Merlino, S., Parodi, G. C., Perchiazzi, N., Chevrier, V., & Bersani, D. (2010). Roumaite,(Ca, Na,□) 3 (Ca, REE, Na) 4 (Nb, Ti)[Si2O7] 2 (OH) F3, from Rouma Island, Los Archipelago, Guinea: a new mineral species related to dovyrenite. The Canadian Mineralogist, 48(1), 17-28.
Hungary
 
  • Baranya County
Demény, A., & Harangi, S. (1996). Stable isotope studies and processes of carbonate formation in Hungarian alkali basalts and lamprophyres: evolution of magmatic fluids and magma-sediment interactions. Lithos, 37(4), 335-349. Demény, A., Harangi, S., Fórizs, I., & Nagy, G. (1997). Primary and secondary features of analcimes formed in carbonate-zeolite ocelli of alkaline basalts (Mecsek Mts., Hungary): textures, chemical and oxygen isotope compositions. Geochemical Journal, 31(1), 37-47. Harangi, S., & Árváné-Sós, E. (1993). A Mecsek hegység alsókréta vulkáni kőzetei I. Ásvány és kőzettan.(Early Cretaceous volcanic rocks of the Mecsek mountains, South Hungary I. Mineralogy and petrology). Földtani Közlöny, 123(2), 129-165. Harangi, S. (1994). Geochemistry and petrogenesis of the Early Cretaceous continental rift-type volcanic rocks of the Mecsek Mountains, South Hungary. Lithos, 33(4), 303-321. Huemer, H. (1997). Multistage evolution of a volcanic suite in the Eastern Mecsek Mountains, Southern Hungary. Mineralogy and Petrology, 59(1-2), 101-120.
    • Pécs District
      • Hosszúhetény
GEODA, 2003; http://www.minerofil.hu/uj1999a.php?nyelvezet=angol
India
 
  • West Bengal
    • Purulia District
Chakrabarty, A., Pruseth, K. L., & Sen, A. K. (2012). Compositions and petrogenetic significance of the eudialyte group minerals from Sushina, Purulia, West Bengal. Journal of the Geological Society of India, 79(5), 449-459.
Ireland
 
  • Leinster
    • Louth County
      • Carlingford
Nockolds, S. R. (1950): The occurrence of neptunite and eudialyte in quartz-bearing syenites from Barnavave, Carlingford, Ireland. Mineralogical Magazine 29, 27-33. ; Nockolds, S.R. and Vincent, H.G.C. (1947) On Tilleyite and Its Associated Minerals from Carlingford, Ireland. Mineralogical Magazine 28:151-158.
Kazakhstan
 
  • East Kazakhstan
    • Tarbagatai Range
      • Akzhaylyautas Mts (Akzhailyautas Mts; Akjaylautas Mts; Akzhalautas Mts)
STEPANOV, A.V., BEKENOVA, G.K., LEVIN, V.L., HAWTHORNE, F.C. & DOBROVOL’SKAYA, E.A. (2012): Tarbagataite,(K,□)2(Ca,Na)(Fe2+,Mn)7Ti2(Si4O12)2O2(OH)4(OH,F), a new astrophyllite-group mineral species from the Verkhnee Espe deposit, Akjailyautas Mountains, Kazakhstan: description and crystal structure Canadian Mineralogist 50,159-168.
Kenya
 
  • Homa Bay County
Berger, V.I., Singer, D.A., Orris, G.J. (2009) Carbonatites of the World, Explored Deposits of Nb and REE - Database and Grade and Tonnage Models. U.S. Geological Survey Open-File Report 2009-1139, 17 pages.
  • Kajiado County
Peterson, T.D. (1989) Peralkaline Nephelinites. I. Comparative petrology of Shombole and Oldoinyo L'engai, East Africa. Contributions to Mineralogy and Petrology Vol.101, 458-478.
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.
Madagascar
 
  • Diana
    • Ambanja
      • Anorotsangana
Behier, J. (1963): Carte mineralogique de Madagascar. Archive Service Géologique Madagascar. A 1871
Lacroix, A. (1922): Mineralogie de Madagascar, Tome I. Géologie-Minéralogie descriptive. A.Challamel (Éditeur), Paris. 624p (p.589)
      • Antsirabe
Lacroix, A. (1922): Mineralogie de Madagascar, Tome I. Géologie-Minéralogie descriptive. A.Challamel (Éditeur), Paris, p.589-90); Estrade, G., et al. (2014): REE and HFSE mineralization in peralkaline granites of the Ambohimirahavavy alkaline complex, Ampasindava peninsula, Madagascar. Journal of African Earth Sciences. 94: 141–155
    • Nosy Be
Behier, J. (1963): Carte mineralogique de Madagascar. Archive Service Géologique Madagascar. A 1871
Lacroix, A. (1922): Mineralogie de Madagascar, Tome I. Géologie-Minéralogie descriptive. A.Challamel (Éditeur), Paris. 624p (p.589)
Malawi
 
  • Northern Region
    • Chitipa
      • Songwe Complex
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.; Woolley, A. R., Platt, R. G., & Eby, N. (1992). Niobian titanite and eudialyte from the Ilomba nepheline syenite complex, north Malawi. Mineralogical Magazine, 56(3), 428-430.; 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.
    • Zomba
Cairncross, B., Messner, K & Farquharson, E. (1999): Die Pegmatite des Mount Malosa bei Zomba, Malawi. Lapis 24 (4), 22-32. (in German).
Mongolia
 
  • Khövsgöl Province
    • Renchinlkhümbe District
Pavlenko, A. S. (1974). The Mongol-Tuva province of alkaline rocks. In The alkaline rocks (pp. 271-293). Wiley & Sons New York.
    • Ulaan-Uul District
Pavlenko, A. S. (1974). The Mongol-Tuva province of alkaline rocks. In The alkaline rocks (pp. 271-293). Wiley & Sons New York. Mongolian Geological Survey database
Morocco
 
  • Drâa-Tafilalet Region
    • Midelt Province
      • Midelt Cercle
        • Aït Oufella Caïdat
          • Amersid
Economic Geology May 2000 v. 95 no. 3 p. 559-576 ; Woolley, A. R. (2001). Alkaline Rocks and Carbonatites of the World: Africa. Geological Society of London.; Salvi, S., Fontan, F., Monchoux, P., Williams-Jones, A. E., & Moine, B. (2000). Hydrothermal mobilization of high field strength elements in alkaline igneous systems: evidence from the Tamazeght Complex (Morocco). Economic Geology, 95(3), 559-576.
    • Zagora Province
Berger, J., Ennih, N., Mercier, J. C., Liégeois, J. P., & Demaiffe, D. (2009). The role of fractional crystallization and late-stage peralkaline melt segregation in the mineralogical evolution of Cenozoic nephelinites/phonolites from Saghro (SE Morocco). Mineralogical magazine, 73(1), 59-82.
Namibia
 
  • Erongo Region
    • Dâures Constituency
      • 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
von Knorring, O. and Franke, W. (1987): A preliminary note on the mineralogy and geochemistry of the Aris phonolite, SWA/Namibia. Communications of the Geological Survey of South West Africa / Namibia, 3, 65; Kolitsch, U., Blaß, G., Jahn, S., Cámara, F., von Bezing, L., Wartha, R. R., Tremmel, G., Sturla, M., Cerea, P., Skebo, M. and Ciriotti, M. E. (2016): Aris - mineralogy of the famous alkaline phonolite. AMI - Associazione Micromineralogica Italiana, Cremona, Italy, 95 pp.; 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
  • Otjozondjupa Region
    • Omatako
      • Kalkfeld
Orris, G.J., and Grauch, R.I. (2002): USGS Open-File Report 02-189.
Berger, V.I., Singer, D.A., and Orris, G.J. (2009): USGS Open-File Report 09-1139
  • 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
Norway
 
  • Vestfold
    • Larvik
      • Hedrum
        • Lågendalen
Raade, G.& Mladeck, Michel H.(1977): Parakeldyshite from Norway. Canadian Mineralogist 15,102-107
      • Langesundsfjorden
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 p.; 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. J. Petrology 51, 2303-2325.
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. J. Petrology 51, 2303-2325.
        • Barkevik area
Larsen, A.O., Åsheim, A. & Gault, R.A. (2005): Ferrokentbrooksite (Brøggers xanthopite) from Skutesundskjær in the Langesundsfjord district, Norway. Norsk Bergverksmuseum Skrift, 30: 63-67
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240p
Larsen, A.O. (2001): Chemical composition of catapleiites from the syenite pegmatites in the Larvik plutonic complex, Norway. Bergverksmuseets Skrift 18, 5-9
        • Stokkøya
Svein Arne Berge collection 7-10-1990
        • Vesle Arøya
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 p.; 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
    • Sandefjord
      • Tønsbergfjorden
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 p
  • Vestfold og Telemark
    • Porsgrunn
      • Auenlandet
        • Sagåsen
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 p.
Friis, Henrik & Andersen, Tom. (2019) Pegmatites of the Larvik Plutonic Complex, Oslo Rift, Norway: field relations and characterisation. 99. 10.17850/njg99-1-05.
      • Langesundsfjorden
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 p.
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 p.
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 p. (p.122); 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. J. Petrology 51, 2303-2325.
Larsen, A. O. (ed.) (2010): The Langesundsfjord. History, geology, pegmatites, minerals. Bode Verlag Gmbh, Salzhemmendorf, Germany, 240 p.
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. J. Petrology 51, 2303-2325.
Paraguay
 
  • Alto Paraguay Department
Comin-Chiaramonti, P., Renzulli, A., Ridolfi, F., Enrich, G. E., Gomes, C. B., De Min, A., ... & Ruberti, E. (2016). Late-stage magmatic to deuteric/metasomatic accessory minerals from the Cerro Boggiani agpaitic complex (Alto Paraguay Alkaline Province). Journal of South American Earth Sciences, 71, 248-261.
Poland
 
  • 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.
Portugal
 
  • Azores
    • São Miguel
Ridolfi, F. et al. (2003): Evolutionary stages of crystallisation..., Mineralogical Magazine 67(4), 749-767
Romania
 
  • Bihor
https://www.researchgate.net/profile/Gavril_Sbu/publication/265125228_poster/links/53ff6b1a0cf2194bc29a7b6d.pdf
  • Harghita
Hirtopanu, P. (2006). One hundred minerals for one hundred years (dedicated to the Centennial of the Geological Institute of Romania). In 3rd Conference on Mineral Sciences in the Carpathians, Miskolc Hungary. Acta Mineralogica–Petrographica, Abstract series (Vol. 5, p. 86).
      • Jolotca (Orotva)
Hirtopanu, P., Bermanec, V., Udubasa, G., & Melgarejo, J. C. (2000). Monazite and Allanite from the Ditrau Alkaline Massif, East Carpathians, Romania. Anuarul Institutului Geologic al Romaniei, 72, 41.
Russia
 
  • Aldan Shield
    • Chara and Tokko Rivers Confluence
[Lapis 1993:4 p.13-20]
        • Ditmar stream
Pavel M. Kartashov data; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
        • Sirenevyi Kamen' Deposit
Konev, A.A., Vorob'yev, E.I., and Lazebnik, K.A. (1996) The Mineralogy of the Murun Massif. Russian Academy of Science Press, Siberian Branch, Novosbirsk, Russia (in Rus.)
  • Buryatia
    • Mama River Basin
      • Maigunda River
[MinRec 32:42]; 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.
  • Khabarovsk Krai
    • Ayan-Maya district
www.koeln.netsurf.de/~w.steffens/aldan.htm.; 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
Zaitsev, V. A., Aksenov, S. M., Rastsvetaeva, R. K., & Chukanov, N. V. (2017). Sr-rich Eudialyte Group Mineral (Cl-deficient Analogues of Taseqite) from Odikhincha Massif, Polar Siberia, Russia. In Magmatism of the Earth and related strategic metal deposits (pp. 319-321).
  • Murmansk Oblast
    • Khibiny Massif
Men'shikov, Y.P., et al (2006), American Mineralogist: 91: 922-928.; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; 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.
        • Astrophyllite Stream
Pekov et al (2005) New Data on Minerals Vol 40 pp11-16; 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)
A.N. Labuntsov Mineralogical survey of central parts of Khibina massif (zircon, catapleiite and fersmanite localities), - Khibinskie apatity, 1933, N6, p. 202-209. ; 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).
Men'shikov Yu.P., Khomyakov A.P., Ferraris G. e.a. (2003) Eveslogite, (Ca,K,Na,Sr,Ba)48[(Ti,Nb,Mn,Fe")12(OH)12Si48O144](F,OH,Cl)14, a new mineral from the Khibiny alkaline massif, Kola peninsula, Russia, - Zapiski VMO, 132(1), pp. 59-67 (in Rus.).
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).
Pavel M. Kartashov data
Men'shikov, Y.P., Krivovichev, S.V., Pakhomovsky, Y.A., Yakovenchuk, V.N., Ivanyuk, G.Y., Mikhailova, J.A., Armbruster, T., and Selivanova, E.A. (2006): Chivruaiite, Ca4(Ti,Nb)5[(Si6O17)2|(OH,O)5]·13-–14H2O, a new mineral from hydrothermal veins of Khibiny and Lovozero alkaline massifs. American Mineralogist 91, 922-928.
P.M. Kartashov data; 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).
Azarova, Y. V., Shlyukova, Z. V., Zolotarev Jr, A. A., & Organova, N. I. (2009). Burovaite-Ca,(Na, K) 4Ca2 (Ti, Nb) 8 [Si4O12] 4 (OH, O) 8· 12H2O, a new labuntsovite-group mineral species and its place in low-temperature mineral formation in pegmatites of the Khibiny pluton, Kola Peninsula, Russia. Geology of Ore Deposits, 51(8), 774-783.
      • Kihlman Mountain
Pavel M. Kartashov data
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).
Pekov, I.V., Chukanov, N.V., Kononkova, N.N., Zubkova, N.V., Rabadanov, M.K., and Pushcharovsky, D.Y. (2008): Geology of Ore Deposits 50(8), 749-754.; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; 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)]
      • Kukisvumchorr Mt
        • East slope
          • Tuliok River head
Dmitry Tonkacheev specimen
[World of Stones 95:5-6, p64]
Pekov, I. et al (2003): New Data on Minerals: 38: 20-33.
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).
Pavel M. Kartashov data
Natural History Museum Vienna collection
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
http://maurice.strahlen.org/kola/khibiny.htm; 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).
Richard Dale collection; Samsonov, A.A. [Самсонов, А.А.] (2005): Geological peculiarities of the occurrences and thermobarogeochemical conditions for the formation of ornamental and collection minerals in pegmatites of the Khibiny alkaline massif (Kola Peninsula) [Геологические особенности проявлений и термобарогеохимические условия образования декоративных коллекционных минералов в пегматитах Хибинского щелочного массива (Кольский п-ов)]. Candidate of geological-mineralogical science (PhD) thesis, Lomonosov Moscow State University, Moscow, 135 pp. (in Russian); http://webmineral.ru/deposits/item.php?id=1268 (in Russian).
Am Min 79:1011; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
        • Rasvumchorr Mine
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
Excalibur Mineral Co. catalogue, 2009.; 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.
Хомяков А.П., Курова Т.Ф., Шумяцкая Р.Г. и др. (1981) О новом цирконосиликате Na5Zr2[Si6O18]Clx2H2O и его кристаллической структуре,- ДАН СССРб т.257, №3, с. 622-624.
      • Rypnetsk Mountain
Pavel M. Kartashov data
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).
      • Yukspor Mt
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
Neues Jahrbuch für Mineralogie, Monatshefte (2003): 10: 461-480.
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Khomyakov, A. P., Pushcharovskiy, D. Y., & Ronsbo, J. G. (1983). Clinophosinaite, Na3CaPSiO7, a new mineral. International Geology Review, 25(6), 731-734.
Pavel M. Kartashov data
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.
[World of Stones 95:5-6, p64]
    • Lovozersky District
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.
        • Umbozero mine (Umbozerskii mine; Umba Mine)
Lapis, 4/97, Ivanjuk et al.; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
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.
Pekov, I.V. (2000): Lovozero Massif. Moscow, Ocean Pictures Ltd, 480 pp.
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
Sorokhtina N.V., Voloshin A.V., Pakhomovskii Ya.A., Selivanova E.A. (2004) The first find of daqingshanite-(Ce) on Kola peninsula, - Trudy 1 Fersmanovskoi Nauchnoi Sessii Kolskogo Otdeleniya VMO, Apatity,pt.1, pp. 34-36 (in Russ.)
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
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
Y. P. Men'shikov et al.: Am. Min. 91:922-928 (2006)
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. 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; Pluth, J. J., Smith, J. V., Pushcharovsky, D. Y., Semenov, E. I., Bram, A., Riekel, C., ... & Broach, R. W. (1997). Third-generation synchrotron x-ray diffraction of 6-μm crystal of raite,≈ Na3Mn3Ti0. 25Si8O20 (OH) 2⋅ 10H2O, opens up new chemistry and physics of low-temperature minerals. Proceedings of the National Academy of Sciences, 94(23), 12263-12267.; Pekov, I.V. (2000): Lovozero Massif. Moscow, Ocean Pictures Ltd, 480 pp.
Zap. Vseross. Mineral. Obshch., 130(6), 63–67; 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)
American Mineralogist: 90: 1467-1468.
Ivanyuk, Gregory & Я.А, Пахомовский & В.Н, Яковенчук & Ю.П, Меньшиков & А.Н, Богданова & Ю.А, Михайлова. (2006). Редкометальные минералы микроклино-кварцевых жил в вулканогенно-осадочных породах г. Киткнюн (Ловозерский массив). 66-81.
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; 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
      • Seidozero Lake
Pekov, I. et al (2003): New Data on Minerals: 38: 20-33.
I.V. Pekov et al.: Zap. Vses. Mineral. Obshch. 133(1):49-59 (2004); Pekov et al (2005) New Data on Minerals Vol 40 pp11-16
Semenov E.I. (1972) Mineralogy of Lovozero alkaline massif, - Moscow, Nauka, p. 308 (in Rus.)
        • Muruai and Uel'kuai rivers
[AmMin 85:1562]; Pekov, I. et al (2003): New Data on Minerals: 38: 20-33.
Pavel M. Kartashov data
      • Suoluai River Valley
        • Kuamdespakhk Mt
Semenov E.I. (1972) Mineralogy of Lovozero alkaline massif, - Moscow, Nauka, p. 308 (in Rus.)
      • Suoluaiv Mt
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
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; American Mineralogist 37:802
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
    • Turii Cape
www.koeln.netsurf.de/~w.steffens/tury.htm
  • Sakha Republic (Yakutia)
    • Aldan
      • Inagli Massif
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
  • Tuva
Pavel M. Kartashov analythical data of 2015
    • Sangilen Upland
Kapustin, Y. L., & Bykova, A. V. (1965). First find of hiortdahlite in the USSR. Doklady Akad. Nauk SSSR, 161, 121-124. ; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
Saint Helena
 
  • Ascension Island
C. Harris, G. Cressey, J. D. Bell, F. B. Atkins and S. Beswetherick (1982) An Occurrence of Rare-Earth-Rich Eudialyte from Ascension Island, South Atlantic. Mineralogical Magazine 46:421-425.
South Africa
 
  • North West
    • Bojanala Platinum District Municipality
The Canadian Mineralogist, V 42, 2004, pp. 1169-1178.; MITCHELL, R.H. & LIFEROVICH, R.P. (2004) Ecandrewsite - zincian pyrophanite from lujavrite. Pilansber alkaline complex, South Africa. Canadian Mineralogist), 42, 1169-1178.; Mitchell, R. H., & Liferovich, R. P. (2006). Subsolidus deuteric/hydrothermal alteration of eudialyte in lujavrite from the Pilansberg alkaline complex, South Africa. Lithos, 91(1), 352-372.; 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.
http://geolitho.eu/forum/index.php?topic=2019.15
  • Northern Cape
    • Namakwa
      • Karoo Hoogland
        • Sutherland
Journal of African Earth Sciences Volume 21, Issue 1, July 1995, Pages 171-186
Spain
 
  • Canary Islands
    • Santa Cruz de Tenerife Province
      • Tenerife
"Christof Schäfer"
Sweden
 
  • Jönköping County
    • Jönköping
      • Gränna
Törnebohm, A. (1906): Katapleitsyenit, en nyupptäkt varietet af nefelinsyenit i Sverige. Sveriges Geologiska Undersökning, C 199: 1-54 ; Adamson, O.J. (1942) Eckermannite, a new alkali amphibole. Geologiska Föreningens i Stockholm Förhandlingar, 64, 329-334. Adamson, O.J. (1944) The Petrology of the Norra Kärr District. An occurrence of alkaline Rocks in Southern Sweden. Geologiska Föreningens i Stockholm Förhandlingar, 66, 112-255, doi:10.1080/11035894409451831 Atanasova, P., Marks, M.A.W., Heining, T., Krause, J., Gutzmer, J., and Markl, G. (2017) Distinguishing magmatic and metamorphic processes in peralkaline rocks of the Norra Kärr complex (Southern Sweden) using textural and compositional variations of clinopyroxene and eudialyte-group minerals. Journal of Petrology, 58, 361-384. Blaxland, A. B. (1977). Agpaitic magmatism at Norra Kärr? Rb Sr isotopic evidence. Lithos, 10(1), 1-8. doi.org/10.1016/0024-4937(77)90026-3 Fryer, B. J., & Edgar, A. D. (1977). Significance of rare earth distributions in coexisting minerals of peralkaline undersaturated rocks. Contributions to Mineralogy and Petrology, 61(1), 35-48. doi.org/10.1007/BF00375944 von Eckermann, H. (1968). New contributions to the interpretation of the genesis of the Norra K‰ rr alkaline body in Southern Sweden. Litho, 1(1), 76-88. doi:10.1016/S0024-4937(68)80037-4 Kramm, U. and Koark, H. (1988) Isotopic composition of Galena lead from the Norra Kärr peralkaline complex, Sweden. Geologiska Föreningens i Stockholm Förhandlingar, 110, 311-316. Oberti, R., Boiocchi, M., Hawthorne, F. C., Ball, N. A., & Harlow, G. E. (2015). Eckermannite revised: The new holotype from the Jade Mine Tract, Myanmar—crystal structure, mineral data, and hints on the reasons for the rarity of eckermannite. American Mineralogist, 100(4), 909-914. doi.org/10.2138/am-2015-5132 Oberti, R., Cámara, F., Hawthorne, F.C., and Ball, N.A. (2009) Fluoro-aluminoleakeite, NaNa2(Mg2Al2Li)Si8O22F2, a new mineral of the amphibole group from Norra Kärr, Sweden: description and crystal structure. Mineralogical Magazine, 73, 817-824. Sjöqvist, A. S., Cornell, D. H., Andersen, T., Christensson, U. I., & Berg, J. T. (2017). Magmatic age of rare-earth element and zirconium mineralisation at the Norra Kärr alkaline complex, southern Sweden, determined by U–Pb and Lu–Hf isotope analyses of metasomatic zircon and eudialyte. Lithos, 294, 73-86. doi.org/10.1016/j.lithos.2017.09.023
Sjöqvist, A.S.L., Cornell, D.H., Andersen, T., Erambert, M., Ek, M. and Leijd, M. (2013): Three compositional varieties of rare-earth element ore: eudialyte-group minerals from the Norra Kärr Alkaline Complex, Southern Sweden. Minerals 3, 94-120.
  • Östergötland County
    • Ödeshög
Tajikistan
 
  • Districts of Republican Subordination
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow.; Agakhanov, A.A., Pautov, L.A., Karpenko, V.Yu., Bekenova, G.K., Uvarova, Yu.A. (2011) Orlovite, KLi2 TiSi4 O11F, a new mineral of the mica group. New Data on Minerals: 46: 13-19.; Grew, E.S., Yates, M.G., Belakovskiy, D.I., Rouse, R.C., Su, S.C., Marquez, N. (1994) Hyalotekite from reedmergnerite-bearing peralkaline pegmatite, Dara-i-Pioz, Tajikistan and from Mn skarn, Langban, Varmland, Sweden: a new look at an old mineral. Mineralogical Magazine: 58(391): 285-298.
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
UK
 
  • Scotland
    • Outer Hebrides
      • Rockall Island
Young, B. R., Hawkes, J. R., Merriman, R. J., & Styles, M. T. (1978). Bazirite, BaZrSi 3 O 9, a new mineral from Rockall Island, Inverness-shire, Scotland. Mineral Mag, 42, 35-40.
Ukraine
 
  • Donetsk Oblast
    • Azov Sea Region
Sharygin, V.V. (2015): Zincian micas from peralkaline phonolites of the Oktyabrsky massif, Azov Sea region, Ukrainian Shield. European Journal of Mineralogy: 27(4): 521-533
USA
 
  • Alaska
    • Prince of Wales-Hyder Census Area
      • Ketchikan Mining District
        • Prince of Wales Island
          • Cholmondeley Sound
Min Mag (1993) VOL 57, PP. 743-746
U.S. Geological Survey, 2008, Alaska Resource Data File (ARDF): U.S. Geological Survey Open-File Report 2008-1225.; Barker, J.C., and Mardock, C.L., 1990, Rare-earth-element-and yttrium-bearing pegmatite dikes near Dora Bay, southern Prince of Wales Island: U.S. Bureau of Mines Open-File Report OFR 19-90, 41 p
    • Yukon-Koyukuk Census Area
U.S. Geological Survey, 2008, Alaska Resource Data File (ARDF): U.S. Geological Survey Open-File Report 2008-1225.
U.S. Geological Survey, 2008, Alaska Resource Data File (ARDF): U.S. Geological Survey Open-File Report 2008-1225.
  • Arkansas
    • Hot Spring Co.
Rocks and Minerals, (1999) 74:189; Rocks and Minerals, (2001) 76:257; Rocks and Minerals, (1976) 51:495-507
“Smith, A.E., Jr., 1996, Collecting Arkansas Minerals: A R“Smith, A.E., Jr., 1994, “Through the Scope: Collecting Microminerals at Cove Creek, Magnet Cove, Arkansas”: Rocks & Minerals, 69:180-185.eference and Guide.” and
Henry Barwood - unpublished (2010)
Erickson, Ralph Leroy; Blade, Lawrence Vernon (1963) Geochemistry and petrology of the alkalic igneous complex at Magnet Cove, Arkansas. USGS Prof. Paper 425
Berger, V.I., Singer, D.A., and Orris, G.J. (2009): USGS Open-File Report 09-1139
    • Pulaski Co.
      • Little Rock
Rocks and Minerals, (1988) 63:104-125; Rocks and Minerals, (1989) 64:314-322
Henry Barwood - unpublished (2010)
  • Montana
    • Hill Co.
www.koeln.netsurf.de/~w.steffens
    • Meagher Co.
www.cseg.ca/conferences/2000/376.PDF; Chakhmouradian A.R., Mitchell R.H. (2002): The mineralogy of Ba- and Zr-rich alkaline pegmatites from Gordon Butte, Crazy Mountains (Montana, USA): comparisons between potassic and sodic agpaitic pegmatites. Contrib. Mineral. Petrol., 143, 93-114.
  • New Mexico
    • Colfax Co.
      • Springer
        • Point of Rocks Mesa (Pecks Mesa)
Rocks & Min.:60:229.; 4th Annual New Mexico Mineral Symposium (1985) New Mexico Geology 7:18-19
    • Otero Co.
      • Cornudas Mountains
Canadian Mineralogist Vol. 34, pp.335-347 (1996); USGS Open-File Report 02-189; Horváth Collection 5 specimens analyzed (WDS)[all eudialyte sensu stricto]
Minerals of New Mexico 3rd ed.; U.S. Geological Survey (2005) Mineral Resources Data System: U.S. Geological Survey, Reston, Virginia.
  • Texas
    • Hudspeth Co.
      • Corudas Mountains
R&M 66:3 pp 196-224
R&M 66:3 pp 196-224
  • Wisconsin
    • Marathon Co.
      • Wausau Intrusive Complex
R&M 73:11-12 pp 378-399 Wisconsin Mineral Locality Index
Rocks & Min.: 62: 190-193.
 
矿物 and/or 产地  
Mindat Discussions Facebook Logo Instagram Logo Discord Logo
版权所有© mindat.org1993年至2020年,除了规定的地方。 Mindat.org全赖于全球数千个以上成员和支持者们的参与。
隐私政策 - 条款和条款细则 - 联络我们 Current server date and time: 2020.11.25 18:59:12 Page generated: 2020.11.21 16:07:44
Go to top of page