Ferro-Pargasite is defined as a pargasite group member with the following dominant elements:
A position: Na
C position: Fe as the dominant divalent cation and Al as the dominant trivalent cation.
W position: (OH) as the dominant anion

Colour:

Greenish-brown to dark green, black.

Lustre:

Vitreous

Hardness:

5 - 6

Crystal System:

Monoclinic

Member of:

Pargasite Root Name Group > Calcium Amphibole Subgroup > w(OH,F,Cl)-dominant Amphibole Group > Amphibole Supergroup

Name:

For its relationship to other pargasite root name group species.

Compositionally similar to (Na-free) ferro-tschermakite.

Unique IdentifiersHide

Mindat ID:

1524

Long-form identifier:

mindat:1:1:1524:6

IMA Classification of Ferro-pargasiteHide

IMA status:

Approved

IMA status notes:

Redefined by the IMA

Approval history:

Redefined IMA 2012 s.p.

Classification of Ferro-pargasiteHide

Strunz-mindat (2025):

9.DE.15

9 : SILICATES (Germanates)
D : Inosilicates
E : Inosilicates with 2-periodic double chains, Si₄O₁₁; Clinoamphiboles

Hey's CIM Ref.:

16.22.1

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

Mineral SymbolsHide

As of 2021 there are now IMA–CNMNC approved mineral symbols (abbreviations) for each mineral species, useful for tables and diagrams.

Please only use the official IMA–CNMNC symbol. Older variants are listed for historical use only.

Symbol	Source	Reference
Fprg	IMA–CNMNC	Warr, L.N. (2021). IMA–CNMNC approved mineral symbols. Mineralogical Magazine, 85(3), 291-320. doi:10.1180/mgm.2021.43
Fprg	Whitney & Evans (2010)	Whitney, D.L. and Evans, B.W. (2010) Abbreviations for names of rock-forming minerals. American Mineralogist, 95, 185–187 doi:10.2138/am.2010.3371

Physical Properties of Ferro-pargasiteHide

Lustre:

Vitreous

Colour:

Greenish-brown to dark green, black.

Streak:

Pale grey-green to brownish-green

Hardness:

5 - 6 on Mohs scale

Cleavage:

Perfect
on {110}

Optical Data of Ferro-pargasiteHide

Type:

Biaxial (-)

RI values:

n_α = 1.7 n_β = 1.713 n_γ = 1.718

Max. Birefringence:

δ = 0.018
Based on recorded range of RI values above.

Interference Colours:
The colours simulate birefringence patterns seen in thin section under crossed polars. They do not take into account mineral colouration or opacity.

Michel-Levy Bar The default colours simulate the birefringence range for a 30 µm thin-section thickness. Adjust the slider to simulate a different thickness.

Grain Simulation You can rotate the grain simulation to show how this range might look as you rotated a sample under crossed polars.

Surface Relief:

Moderate

Dispersion:

relatively strong

Chemistry of Ferro-pargasiteHide

Mindat Formula:

NaCa₂(Fe²⁺₄Al)(Si₆Al₂)O₂₂(OH)₂

Ferro-Pargasite is defined as a pargasite group member with the following dominant elements:
A position: Na
C position: Fe as the dominant divalent cation and Al as the dominant trivalent cation.
W position: (OH) as the dominant anion

Element Weights:

Element	% weight
O	39.916 %
Fe	23.221 %
Si	17.517 %
Al	8.414 %
Ca	8.332 %
Na	2.390 %
H	0.210 %

Calculated from ideal end-member formula.

Elements listed:

Al, Ca, Fe, H, Na, O, Si - search for minerals with similar chemistry

Common Impurities:

Mn,K,Mg,Ti,Cr

Chemical AnalysisHide

Oxide wt%:

	1	2	3	4	5	6	7	8
SiO₂	39.19 %	48.85 %	42.82 %	40.79 %	40.22 %	41.55 %	38.23 %	40.32 %
TiO₂	0.28 %	0.15 %	2.95 %	0.32 %	3.77 %	0.02 %	0.40 %
Al₂O₃	18.39 %	11.45 %	10.94 %	14.36 %	12.53 %	16 %	20.41 %	15.99 %
Cr₂O₃	0.06 %	0.05 %	0.03 %	0.09 %
FeO	17.05 %	12.95 %	18.98 %	17.75 %	18.03 %	18.78 %	18.11 %	23.92 %
MnO	0.12 %	0.11 %	0.47 %	0.31 %	0.29 %	0.27 %	0.15 %
MgO	8.09 %	11.46 %	6.66 %	7.28 %	8.36 %	7.99 %	6.60 %	4.80 %
CaO	11.23 %	8.33 %	9.78 %	9.9 %	10.02 %	10.33 %	10.41 %	8.71 %
Na₂O	3.26 %	3.87 %	3.77 %	4.37 %	2.88 %	3.03 %	3.73 %	4.39 %
K₂O	0.35 %	0.25 %	1.50 %	0.18 %	1.93 %	0.37 %	0.04 %
NiO	0.02 %
Fe₂O₃	0.0 %	0.67 %
ZrO₂	0.27 %
F
Total:	98.04 %	97.47 %	98.14 %	95.93 %	98.03 %	97.68 %	98.18 %	98.81 %

Empirical formulas:

Sample ID	Empirical Formula
7	(Na_0.77 K_0.07 )_Σ0.84 (Na_0.32Ca_1.68)_Σ2.00 ( Mg_1.48 Mn_0.04Fe²⁺_2.28Al_1.37)_Σ5.17(Al_2.25Si_5.75)_Σ8.00O₂₂OH₂
8	(Na_0.75 K_0.01 )_Σ0.76 (Na_0.56Ca_1.44)_Σ2.00 ( Mg_1.10 Mn_0.02Fe²⁺_3.09 Cr_0.01Ti_0.05Al_1.13)_Σ5.40(Al_1.78Si_6.22)_Σ8.00O₂₂OH₂

Sample references:

ID	Locality	Reference	Notes
1	Shuanghe, Qianshan City, Anqing, Anhui, China	Bοlin, Cong, Mingguo, Zhai, Carswell, Dennis A. Cars, Wilson, Robert N., Qingchen, Wang, Zhοngyan, Zhao, Windley, Brian F. (1995) Petrogenesis of ultrahigh-pressure rocks and their country rocks at Shuanghe in Dabieshan, Central China. European Journal of Mineralogy, 7 (1) 119-138 doi:10.1127/ejm/7/1/0119	The analysis is from a carbonate eclogite.
2	Akeyazhi River valley, Ili Kazakh Autonomous Prefecture, Xinjiang, China	Gao, J., Klemd, R., Zhang, L., Wang, Z., & Xiao, X. (1999). PT path of high-pressure/low-temperature rocks and tectonic implications in the western Tianshan Mountains, NW China. Journal of Metamorphic Geology, 17, 621-636.	Sample from eclogite
3	Motzfeldt Centre, Igaliku Complex, Kujalleq, Greenland	Bradshaw, C. (1988). A petrographic structural and geochemical study of the alkaline igneous rocks of the Motzfeldt Centre South Greenland. Doctoral dissertation, Durham University.	Sample form larvikite.
4	Sierra de las Minas, Motagua Valley, Guatemala	Harlow, G. E. (1994) Jadeitites, albitites and related rocks from the Motagua Fault Zone, Guatemala. Journal of Metamorphic Geology, 12 (1) 49-68 doi:10.1111/j.1525-1314.1994.tb00003.x	Sample from a retrograded jadeitite.
5	Elchuru Complex, Prakasam District, Andhra Pradesh, India	Upadhyay, D., Raith, M. M., Mezger, K., & Hammerschmidt, K. (2006). Mesoproterozoic rift-related alkaline magmatism at Elchuru, Prakasam alkaline province, SE India. Lithos, 89(3-4), 447-477.	Sample from shonkinite.
6	Changpu, Yuexi County, Anqing, Anhui, China	Proyer, A., Rolfo, F., Castelli, D., & Compagnoni, R. (2014). Diffusion-controlled metamorphic reaction textures in an ultrahigh-pressure impure calcite marble from Dabie Shan, China. European Journal of Mineralogy, 26(1), 25-40.	Sample from a corona around garnet from a retrograded eclogite. The composition normalizes close to the ferro-pargasite / ferro-sadanagaite join.
7	Eissee eclogite, Timmelbach valley, Prägraten am Großvenediger, Lienz District, Tyrol, Austria	Hoschek, Gert (2004) Comparison of calculated P-T pseudosections for a kyanite eclogite from the Tauern Window, Eastern Alps, Austria. European Journal of Mineralogy, 16 (1) 59-72 doi:10.1127/0935-1221/2004/0016-0059	EMPA analysis of an amphibole in contact with a garnet in a kyanite-eclogite. Hoscek (200) normalized the formula setting all Fe as Fe²⁺. This gives a slightly high content in the C position ( see empirical formula). The composition normalizes better by assuming some of the Fe to be Fe³⁺, giving a composition approaching the definition of ferro-sadanagaite.
8	" "	Hoschek, Gert (2004) Comparison of calculated P-T pseudosections for a kyanite eclogite from the Tauern Window, Eastern Alps, Austria. European Journal of Mineralogy, 16 (1) 59-72 doi:10.1127/0935-1221/2004/0016-0059	EMPA analysis of amphibole inclusion in garnet. Hoscek (2004) normalized the formula setting all Fe as Fe2+. This gives a slightly high content in the C position ( see empirical formula). The composition normalizes better by assuming some of the Fe to be Fe3+, giving a composition approaching the definition of ferro-sadanagaite.

Crystallography of Ferro-pargasiteHide

Crystal System:

Monoclinic

Class (H-M):

2/m - Prismatic

Space Group:

B2/m

Setting:

C2/m

Cell Parameters:

a = 9.95 Å, b = 18.14 Å, c = 5.35 Å
β = 105.05°

Ratio:

a:b:c = 0.549 : 1 : 0.295

Unit Cell V:

932.52 Å³ (Calculated from Unit Cell)

X-Ray Powder DiffractionHide

Loading XRD data...

Data courtesy of RRUFF project at University of Arizona, used with permission.

Geological EnvironmentHide

Paragenetic Mode(s):

Paragenetic Mode	Earliest Age (Ga)
Stage 3a: Earth’s earliest Hadean crust	>4.50
8 : Mafic igneous rocks
10 : Basalt-hosted zeolite minerals
Near-surface Processes
26 : Hadean detrital minerals
Stage 4b: Highly evolved igneous rocks	>3.0
35 : Ultra-alkali and agpaitic igneous rocks
Stage 5: Initiation of plate tectonics	<3.5-2.5
40 : Regional metamorphism (greenschist, amphibolite, granulite facies)

Synonyms of Ferro-pargasiteHide

Ferro-pargasitic-hornblende

Iron-bearing pargasite (in part)

Sodic amphibole (in part)

Other Language Names for Ferro-pargasiteHide

Dutch:Ferro-pargasiet

German:Ferro-Pargasit
Ferropargasit

Japanese:第一鉄パーガス閃石

Simplified Chinese:铁韭闪石

Spanish:Ferropargasita

Relationship of Ferro-pargasite to other SpeciesHide

Member of:

Pargasite Root Name Group > Calcium Amphibole Subgroup > w(OH,F,Cl)-dominant Amphibole Group > Amphibole Supergroup

Other Members of Pargasite Root Name Group:

Chromio-pargasite	NaCa₂(Mg₄Cr)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
Ferro-chloro-pargasite	NaCa₂(Fe²⁺₄Al)(Al₂Si₆O₂₂)Cl₂
Fluoro-pargasite	NaCa₂(Mg₄Al)(Si₆Al₂)O₂₂F₂	Mon. 2/m : B2/m
Mangani-pargasite	NaCa₂(Mg₄Mn³⁺)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
Pargasite	NaCa₂(Mg₄Al)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
Potassic-chloro-pargasite	KCa₂(Mg₄Al)(Si₆Al₂)O₂₂Cl₂	Mon. 2/m : B2/m
Potassic-ferro-pargasite	KCa₂(Fe²⁺₄Al)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
Potassic-fluoro-pargasite	KCa₂(Mg₄Al)(Si₆Al₂)O₂₂F₂	Mon. 2/m : B2/m
Potassic-pargasite	KCa₂(Mg₄Al)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
Vanadio-pargasite	NaCa₂(Mg³⁺₄V)(Al₂Si₆)O₂₂(OH)₂	Mon. 2/m : B2/m

Forms a series with:

Pargasite

Ferropargasite-Pargasite Series

Common AssociatesHide

Associated Minerals Based on Photo Data:

8 photos of Ferro-pargasite associated with Calcite	CaCO₃
6 photos of Ferro-pargasite associated with Grossular	Ca₃Al₂(SiO₄)₃
5 photos of Ferro-pargasite associated with Andradite	Ca₃Fe³⁺₂(SiO₄)₃
5 photos of Ferro-pargasite associated with Hornblende Root Name Group	◻Ca₂(Z²⁺₄Z³⁺)(AlSi₇O₂₂)(OH,F,Cl)₂
5 photos of Ferro-pargasite associated with Pyrite	FeS₂
4 photos of Ferro-pargasite associated with Epidote	(CaCa)(AlAlFe³⁺)O[Si₂O₇][SiO₄](OH)
3 photos of Ferro-pargasite associated with Diopside	CaMgSi₂O₆
2 photos of Ferro-pargasite associated with Magnetite	Fe²⁺Fe³⁺₂O₄
2 photos of Ferro-pargasite associated with Quartz	SiO₂
1 photo of Ferro-pargasite associated with Sanidine	K(AlSi₃O₈)

Related Minerals - Strunz-mindat Grouping Hide

9.DE.	Shojiite	Na(NaMg)Mg₅Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.	Clino-suenoite	◻{Mn²⁺₂}{Mg₅}(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.	Mangani-eckermannite	NaNa₂(Mg₄Mn³⁺)Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.05	Permanganogrunerite	◻{Mn²⁺₂}{Mn²⁺₅}(Si₈O₂₂)(OH)₂	Mon.
9.DE.05	Cummingtonite	◻{Mg₂}{Mg₅}(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.05	Ferri-fluoro-leakeite	{Na}{Na₂}{Mg₂Fe³⁺₂Li}(Si₈O₂₂)F₂	Mon. 2/m : B2/m
9.DE.05	Grunerite	◻{Fe²⁺₂}{Fe²⁺₅}(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.05	Clino-holmquistite Root Name Group	◻{Li₂}{Z²⁺₃Z³⁺₂}(Si₈O₂₂)(OH,F,Cl)₂	Mon.
9.DE.10	Actinolite	◻Ca₂(Mg_4.5-2.5Fe_0.5-2.5)Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.10	Fluoro-cannilloite	CaCa₂(Mg₄Al)(Si₅Al₃)O₂₂F₂	Mon. 2/m : B2/m
9.DE.10	Joesmithite	Pb²⁺Ca₂(Mg₃Fe³⁺₂)(Si₆Be₂)O₂₂(OH)₂	Mon. 2/m : P2/b
9.DE.10	Clino-ferro-suenoite	◻{Mn²⁺₂}{Fe²⁺₅}(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.10	Fluoro-tremolite	◻Ca₂Mg₅(Si₈O₂₂)F₂	Mon. 2/m : B2/m
9.DE.10	Parvo-manganotremolite	◻{CaMn²⁺}{Mg₅}(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.10	Magnesio-ferri-hornblende	◻Ca₂(Mg₄Fe³⁺)[(Si₇Al)O₂₂](OH)₂	Mon. 2/m : B2/m
9.DE.10	Ferro-ferri-hornblende	◻Ca₂(Fe²⁺₄Fe³⁺)(AlSi₇O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.10	Ferro-cannilloite	CaCa₂(Fe²⁺₄Al)(Si₅Al₃O₂₂)OH₂
9.DE.10	Ferro-ferri-cannilloite	CaCa₂(Fe²⁺₄Fe³⁺)(Si₅Al₃O₂₂)OH₂
9.DE.10	Ferro-fluoro-actinolite	◻{Ca₂}{Fe₅}(Si₈O₂₂)F₂
9.DE.10	Ferro-fluoro-hornblende	◻Ca₂(Fe²⁺₄Al)(AlSi₇O₂₂)F₂
9.DE.10	Magnesio-ferri-fluoro-hornblende	◻Ca₂(Mg₄Fe³⁺)(AlSi₇O₂₂)F₂	Mon. 2/m : B2/m
9.DE.10	Ferro-ferri-fluoro-hornblende	◻Ca₂(Fe²⁺₄Fe³⁺)(AlSi₇O₂₂)F₂
9.DE.10	Ferri-fluoro-tschermakite	◻{Ca₂}{Mg₃Fe³⁺₂}(Al₂Si₆O₂₂)F₂
9.DE.10	Ferro-ferri-fluoro-tschermakite	◻{Ca₂}{Fe²⁺₃Fe³⁺₂}(Al₂Si₆O₂₂)F₂
9.DE.10	Ferro-fluoro-tschermakite	◻{Ca₂}{Fe²⁺₃Al₂}(Al₂Si₆O₂₂)F₂
9.DE.10	Fluoro-tschermakite	◻{Ca₂}{Mg₃Al₂}(Al₂Si₆O₂₂)F₂
9.DE.10	Magnesio-fluoro-hornblende	◻Ca₂(Mg₄Al)(AlSi₇O₂₂)F₂
9.DE.10	Tremolite	◻Ca₂Mg₅(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.10	Ferro-ferri-tschermakite	◻{Ca₂}{Fe²⁺₃Fe³⁺₂}(Al₂Si₆O₂₂)(OH)₂	Mon.
9.DE.10	Cannilloite	CaCa₂(Mg₄Al)(Si₅Al₃O₂₂)OH₂	Mon.
9.DE.10	Tschermakite	◻(Ca₂)(Mg₃Al₂)(Al₂Si₆O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.10	Magnesio-hornblende	◻Ca₂(Mg₄Al)(Si₇Al)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.10	Ferri-tschermakite	◻{Ca₂}{Mg₃Fe³⁺₂}(Al₂Si₆O₂₂)(OH)₂	Mon.
9.DE.10	Ferro-actinolite	◻Ca₂Fe²⁺₅(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.10	Ferro-hornblende	◻Ca₂(Fe²⁺₄Al)(Si₇Al)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.10	Ferro-tschermakite	◻{Ca₂}{Fe²⁺₃Al₂}(Al₂Si₆O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.15	Potassic-chloro-pargasite	KCa₂(Mg₄Al)(Si₆Al₂)O₂₂Cl₂	Mon. 2/m : B2/m
9.DE.15	Ferro-fluoro-pargasite	(Na)(Ca₂)(Fe²⁺₄Al)(Al₂Si₆O₂₂)F₂
9.DE.15	Potassic-ferro-chloro-edenite	KCa₂Fe²⁺₅(AlSi₇O₂₂)Cl₂
9.DE.15	Ferro-ferri-sadanagaite	{Na}{Ca₂}{Fe²⁺₃Fe³⁺₂}(Al₃Si₅O₂₂)(OH)₂	Mon.
9.DE.15	Hastingsite	NaCa₂(Fe²⁺₄Fe³⁺)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.15	Fluoro-edenite	NaCa₂Mg₅(Si₇Al)O₂₂F₂	Mon. 2/m : P2/m
9.DE.15	Pargasite	NaCa₂(Mg₄Al)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.15	Magnesio-fluoro-hastingsite	NaCa₂(Mg₄Fe³⁺)(Si₆Al₂)O₂₂F₂	Mon. 2/m : B2/m
9.DE.15	Potassic-fluoro-hastingsite	KCa₂(Fe²⁺₄Fe³⁺)(Si₆Al₂)O₂₂F₂	Mon. 2/m : B2/m
9.DE.15	Potassic-chloro-hastingsite	KCa₂(Fe²⁺₄Fe³⁺)(Si₆Al₂)O₂₂Cl₂	Mon. 2/m : B2/m
9.DE.15	Unnamed (F-dominant analogue of Ferri-kaersutite)	(Na,K)Ca₂[Mg₃(Fe³⁺,Fe²⁺)Ti](Si₆Al₂O₂₂)(F,O)₂	Mon. 2/m : B2/m
9.DE.15	Edenite	NaCa₂Mg₅(Si₇Al)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.15	Potassic-sadanagaite	{K}{Ca₂}{Mg₃Al₂}(Al₃Si₅O₂₂)(OH)₂	Mon. 2
9.DE.15	Ferri-kaersutite	NaCa₂(Mg₃Fe³⁺Ti)(Si₆Al₂O₂₂)O₂	Mon. 2/m : B2/m
9.DE.15	Potassic-pargasite	KCa₂(Mg₄Al)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.15	Potassic-ferro-sadanagaite	{K}{Ca₂}{Fe²⁺₃Al₂}(Al₃Si₅O₂₂)(OH)₂	Mon.
9.DE.15	Kaersutite	NaCa₂(Mg₃AlTi⁴⁺)(Si₆Al₂)O₂₂O₂	Mon. 2/m : B2/m
9.DE.15	Ferro-chloro-pargasite	NaCa₂(Fe²⁺₄Al)(Al₂Si₆O₂₂)Cl₂
9.DE.15	Potassic-fluoro-pargasite	KCa₂(Mg₄Al)(Si₆Al₂)O₂₂F₂	Mon. 2/m : B2/m
9.DE.15	Potassic-ferro-ferri-sadanagaite	{K}{Ca₂}{Fe²⁺₃Fe³⁺₂}(Al₃Si₅O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.15	Fluoro-pargasite	NaCa₂(Mg₄Al)(Si₆Al₂)O₂₂F₂	Mon. 2/m : B2/m
9.DE.15	Parvo-mangano-edenite	{Na}{CaMn²⁺}{Mg₅}(AlSi₇O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.15	Ferro-fluoro-edenite	NaCa₂Fe²⁺₅(AlSi₇O₂₂)F₂	Mon. 2/m : B2/m
9.DE.15	Mangani-pargasite	NaCa₂(Mg₄Mn³⁺)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.15	Sadanagaite	{Na}{Ca₂}{Mg₃Al₂}(Si₅Al₃O₂₂)(OH)₂	Mon.
9.DE.15	Magnesio-hastingsite	NaCa₂(Mg₄Fe³⁺)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.15	Ferri-sadanagaite	{Na}{Ca₂}{Mg₃Fe³⁺₂}(Al₃Si₅O₂₂)(OH)₂
9.DE.15	Ferro-sadanagaite	{Na}{Ca₂}{Fe₃Al₂}(Al₃Si₅O₂₂)(OH)₂
9.DE.15	Ferri-fluoro-sadanagaite	{Na}{Ca₂}{Mg₃Fe³⁺₂}(Al₃Si₅O₂₂)F₂
9.DE.15	Ferro-ferri-fluoro-sadanagaite	{Na}{Ca₂}{Fe²⁺₃Fe³⁺₂}(Al₃Si₅O₂₂)F₂
9.DE.15	Ferro-fluoro-sadanagaite	{Na}{Ca₂}{Fe²⁺₃Al₂}(Al₃Si₅O₂₂)F₂
9.DE.15	Fluoro-sadanagaite	{Na}{Ca₂}{Mg₃Al₂}(Al₃Si₅O₂₂)F₂
9.DE.15	Potassic-chloro-sadanagaite	{K}{Ca₂}{Mg₃Al₂}(Al₃Si₅O₂₂)Cl₂
9.DE.15	Potassic-ferro-chloro-sadanagaite	{K}{Ca₂}{Fe²⁺₃Al₂}(Al₃Si₅O₂₂)Cl₂
9.DE.15	Ferro-edenite	NaCa₂Fe²⁺₅(Si₇Al)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.15	Oxo-magnesio-hastingsite	NaCa₂(Mg₃(Fe³⁺_2-x,Ti_x))₅(Si₆Al₂O₂₂)O₂	Mon. 2/m : B2/m
9.DE.15	Potassic-ferro-pargasite	KCa₂(Fe²⁺₄Al)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.15	Potassic-hastingsite	KCa₂(Fe²⁺₄Fe³⁺)(Al₂Si₆O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.15	Fluoro-hastingsite	NaCa₂(Fe²⁺₄Fe³⁺)(Al₂Si₆O₂₂)F₂
9.DE.15	Potassic-magnesio-hastingsite	KCa₂(Mg₄Fe³⁺)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.15	Vanadio-pargasite	NaCa₂(Mg³⁺₄V)(Al₂Si₆)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.15	Ferro-kaersutite	NaCa₂{Fe²⁺₃AlTi}(Si₆Al₂O₂₂)O₂	Mon.
9.DE.15	Chromio-pargasite	NaCa₂(Mg₄Cr)(Si₆Al₂)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.20	Ghoseite	◻[Mn²⁺Na][Mg₄Al]Si₈O₂₂(OH)₂
9.DE.20	Potassic-ferro-taramite	K{CaNa}{Fe²⁺₃Al₂}{Si₆Al₂}O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.20	Ferri-fluoro-katophorite	Na(CaNa)(Mg₄Fe³⁺)(AlSi₇O₂₂)F₂	Mon. 2/m : B2/m
9.DE.20	Barroisite	◻{CaNa}{Mg₃Al₂}(AlSi₇O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Fluoro-richterite	{Na}{CaNa}{Mg₅}(Si₈O₂₂)(F,OH)₂	Mon. 2/m : B2/m
9.DE.20	Potassic-ferro-ferri-taramite	K(CaNa)(Fe²⁺₃Fe³⁺₂)(Al₂Si₆O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Potassic-ferri-katophorite	K(CaNa)(Mg₄Fe³⁺)(AlSi₇O₂₂)(OH)₂
9.DE.20	Potassic-ferro-richterite	{K}{CaNa}{Fe²⁺₅}Si₈O₂₂(OH)₂
9.DE.20	Potassic-fluoro-richterite	{K}{CaNa}{Mg₅}(Si₈O₂₂)(F,OH)₂	Mon. 2/m : B2/m
9.DE.20	Potassic-richterite	{K}{CaNa}{Mg₅}Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.20	Ferri-ghoseite	◻[Mn²⁺Na][Mg₄Fe³⁺]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.20	Fluoro-taramite	{Na}{CaNa}{Mg₃Al₂}(Al₂Si₆O₂₂)F₂	Mon. 2/m : B2/m
9.DE.20	Ferro-ferri-fluoro-katophorite	Na(CaNa)(Fe²⁺₄Fe³⁺)(AlSi₇O₂₂)F₂	Mon.
9.DE.20	Richterite	Na(NaCa)Mg₅(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Ferri-winchite	◻(NaCa)(Mg₄Fe³⁺)Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.20	Fluoro-katophorite	Na(CaNa)(Mg₄Al)(AlSi₇O₂₂)F₂	Mon.
9.DE.20	Hjalmarite	{Na}(NaMn}{Mg₅}Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.20	Ferro-taramite	Na(CaNa)(Fe²⁺₃Al₂)(Al₂Si₆O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Clinoferroholmquistite	◻Li₂[Fe²⁺₃Al₂]Si₈O₂₂(OH,F)₂
9.DE.20	Ferro-katophorite	{Na}{CaNa}{Fe²⁺₄Al}[(AlSi₇)O₂₂](OH)₂	Mon. 2/m : B2/m
9.DE.20	Taramite	Na(CaNa)(Mg₃Al₂)(Al₂Si₆O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Potassic-fluoro-katophorite	K(CaNa)(Mg₄Al)(AlSi₇O₂₂)F₂
9.DE.20	Ferro-fluoro-katophorite	Na(CaNa)(Fe²⁺₄Al)(AlSi₇O₂₂)F₂
9.DE.20	Ferri-katophorite	Na(CaNa)(Mg₄Fe³⁺)(AlSi₇O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Ferro-ferri-barroisite	◻(CaNa)(Fe²⁺₃Fe³⁺₂)(AlSi₇O₂₂)(OH)₂
9.DE.20	Ferri-taramite	Na(CaNa)(Mg₃Fe³⁺₂)(Al₂Si₆O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Potassic-ferro-ferri-katophorite	{K}{CaNa}{Fe²⁺₄Fe³⁺}[(AlSi₇)O₂₂](OH)₂
9.DE.20	Ferro-ferri-winchite	◻[CaNa][Fe²⁺₄(Fe³⁺,Al)]Si₈O₂₂(OH)₂
9.DE.20	Winchite	◻{CaNa}{Mg₄Al}(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Ferro-fluoro-richterite	{Na}{CaNa}{Fe²⁺₅}(Si₈O₂₂)F₂
9.DE.20	Fluoro-winchite	◻{CaNa}{Mg₄Al}(Si₈O₂₂)F₂
9.DE.20	Ferro-fluoro-winchite	◻{CaNa}{Fe²⁺₄Al}(Si₈O₂₂)F₂
9.DE.20	Ferri-barroisite	◻(CaNa)(Mg₃Fe³⁺₂)(AlSi₇O₂₂)(OH)₂
9.DE.20	Ferro-ferri-taramite	Na(CaNa)(Fe²⁺₃Fe³⁺₂)(Al₂Si₆O₂₂)(OH)₂
9.DE.20	Ferri-fluoro-barroisite	◻{CaNa}{Mg₃Fe³⁺₂}(AlSi₇O₂₂)F₂
9.DE.20	Ferro-fluoro-barroisite	◻{CaNa}{Fe²⁺₃Al₂}(AlSi₇O₂₂)F₂
9.DE.20	Ferro-ferri-fluoro-barroisite	◻{CaNa}{Fe²⁺₃Fe³⁺₂}(AlSi₇O₂₂)F₂
9.DE.20	Fluoro-barroisite	◻{CaNa}{Mg₃Al₂}(AlSi₇O₂₂)F₂
9.DE.20	Ferro-ferri-katophorite	Na(NaCa)(Fe²⁺₄Fe³⁺)(Si₇Al)O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.20	Ferri-fluoro-taramite	Na(CaNa)(Mg₃Fe³⁺₂)(Al₂Si₆O₂₂)F₂
9.DE.20	Ferro-ferri-fluoro-taramite	Na(CaNa)(Fe²⁺₃Fe³⁺₂)(Al₂Si₆O₂₂)F₂
9.DE.20	Ferro-fluoro-taramite	Na(CaNa)(Fe²⁺₃Al₂)(Al₂Si₆O₂₂)F₂
9.DE.20	Potassic-ferri-taramite	K(CaNa)(Mg₃Fe³⁺₂)(Al₂Si₆O₂₂)(OH)₂
9.DE.20	Magnesiotaramite	{Na}{CaNa}{Mg₃AlFe³⁺}(Al₂Si₆O₂₂)(OH)₂	Mon.
9.DE.20	Ferro-barroisite	◻{CaNa}{Fe²⁺₃Al₂}(AlSi₇O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Scandio-winchite	◻(NaCa)(Mg₄Sc)(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Ferro-richterite	{Na}{CaNa}{Fe²⁺₅}(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.20	Katophorite	{Na}{CaNa}{Mg₄Al}[(AlSi₇)O₂₂](OH)₂	Mon. 2/m : B2/m
9.DE.20	Ferro-winchite	◻{CaNa}{Fe²⁺₄Al}(Si₈O₂₂)(OH)₂	Mon.
9.DE.25	Clino-sodic-fluoro-holmquistite	{Na}{Li₂}{Mg₄Al}(Si₈O₂₂)F₂
9.DE.25	Ferro-ferri-nybøite	NaNa₂[(Fe²⁺₃,Mg)Fe³⁺₂](AlSi₇O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.25	Clino-ferro-ferri-holmquistite	◻{Li₂}{Fe²⁺₃Fe³⁺₂}(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.25	Oxo-pargasite	NaCa₂(Mg₃(Al_2-xTi_x))₅(Si₆Al₂O₂₂)O₂
9.DE.25	Ferri-nybøite	NaNa₂(Mg₃Fe³⁺₂](AlSi₇O₂₂)(OH)₂	Mon.
9.DE.25	Ferro-ferri-leakeite	[Na][Na₂][Fe²⁺₂Fe³⁺₂Li]Si₈O₂₂(OH)₂	Mon.
9.DE.25	Ferro-ferri-fluoro-leakeite	Na(Na₂)(Fe²⁺₂Fe³⁺₂Li)(Si₈O₂₂)(F)₂	Mon. 2/m : B2/m
9.DE.25	Ferri-leakeite	[Na][Na₂][Mg₂Fe³⁺₂Li]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Fluoro-pedrizite	NaLi₂(Mg₂Al₂Li)(Si₈O₂₂)F₂	Mon. 2/m : B2/m
9.DE.25	Eckermannite	NaNa₂(Mg₄Al}Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Arfvedsonite	[Na][Na₂][Fe²⁺₄Fe³⁺]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Mangano-ferri-fluoro-leakeite	NaNa₂(Mn²⁺₂Fe³⁺₂Li)[Si₈O₂₂]F₂	Mon.
9.DE.25	Ferri-obertiite	NaNa₂(Mg₃Fe³⁺Ti)Si₈O₂₂O₂	Mon. 2/m : B2/m
9.DE.25	Riebeckite	◻[Na₂][Fe²⁺₃Fe³⁺₂]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Unnamed (Possible K-analogue of Ferri-obertiite)	KNa₂((Mg,Fe,Na)₃Fe³⁺(Ti,Fe))Si₈O₂₂(O,F)₂
9.DE.25	Magnesio-fluoro-arfvedsonite	[Na][Na₂][Mg₄Fe³⁺][Si₈O₂₂](F,OH)₂	Mon. 2/m : B2/m
9.DE.25	Ferro-fluoro-glaucophane	◻[Na₂][Fe²⁺₃Al₂]Si₈O₂₂F₂
9.DE.25	Oxo-mangani-leakeite	NaNa₂(Mn³⁺₄Li)Si₈O₂₂O₂	Mon. 2/m : B2/m
9.DE.25	Fluoro-leakeite	NaNa₂(Mg₂Al₂Li)(Si₈O₂₂)F₂	Mon. 2/m : B2/m
9.DE.25	Nybøite	NaNa₂(Mg₃Al₂)(AlSi₇O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.25	Sodic-ferri-clinoferroholmquistite	Na_0.5{Li₂}{Fe²⁺₃Fe³⁺₂}(Si₈O₂₂)(OH)₂	Mon.
9.DE.25	Potassic-arfvedsonite	[(K,Na)][Na₂][Fe²⁺₄Fe³⁺]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Potassic-mangano-mangani-ungarettiite	KNa₂(Mn²⁺₂Mn³⁺₃)Si₈O₂₂O₂
9.DE.25	Potassic-jeanlouisite	K(NaCa)(Mg₄Ti)Si₈O₂₂O₂	Mon. 2/m : B2/m
9.DE.25	Ferri-pedrizite	[Na][Li₂][Mg₂Fe³⁺₂Li]Si₈O₂₂(OH)₂	Mon.
9.DE.25	Glaucophane	◻[Na₂][Mg₃Al₂]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Ferro-fluoro-pedrizite	Na(Li₂)(Fe²⁺₂Al₂Li)[Si₈O₂₂]F₂	Mon. 2/m : B2/m
9.DE.25	Potassic-ferri-leakeite	[K][Na₂][Mg₂Fe³⁺₂Li]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Potassic-magnesio-fluoro-arfvedsonite	[(K,Na)][Na₂][Mg₄Fe³⁺][Si₈O₂₂][(F,OH)₂]	Mon. 2/m : B2/m
9.DE.25	Mangani-obertiite	NaNa₂(Mg₃Mn³⁺Ti⁴⁺)Si₈O₂₂O₂	Mon. 2/m : B2/m
9.DE.25	Scandio-fluoro-eckermannite	NaNa₂(Mg₄Sc)(Si₈O₂₂)F₂	Mon. 2/m : B2/m
9.DE.25	Ferro-eckermannite	NaNa₂(Fe²⁺₄Al)Si₈O₂₂(OH)₂	Mon.
9.DE.25	Ferro-ferri-pedrizite	[Na][Li₂][Fe²⁺₂Fe³⁺₂Li]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Pedrizite	NaLi₂(LiMg₂Al₂)(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.25	Ferro-pedrizite	NaLi₂(Fe²⁺₂Al₂Li)Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Potassic-mangani-leakeite	[(Na,K)][Na₂][Mg₂Mn³⁺₂Li]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Clino-fluoro-holmquistite	◻{Li₂}{Mg₃Al₂}(Si₈O₂₂)F₂
9.DE.25	Ferro-ferri-obertiite	NaNa₂(Fe²⁺₃Fe³⁺Ti)Si₈O₂₂O₂	Mon. 2/m : B2/m
9.DE.25	Magnesio-riebeckite	◻{Na₂}{Mg₃Fe³⁺₂}(Si₈O₂₂)(OH)₂	Mon.
9.DE.25	Potassic-magnesio-arfvedsonite	[K][Na₂][Mg₄Fe³⁺]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Fluoro-nybøite	NaNa₂(Mg₃Al₂)(AlSi₇O₂₂)(F,OH)₂	Mon. 2/m : B2/m
9.DE.25	Mangano-ferri-eckermannite	{Na}{Na₂}{Mn²⁺₄Fe³⁺}Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Fluoro-glaucophane	◻[Na₂][Mg₃Al₂]Si₈O₂₂F₂
9.DE.25	Fluoro-riebeckite	◻{Na₂}{Fe²⁺₃Fe³⁺₂}(Si₈O₂₂)F₂	Mon. 2/m : B2/m
9.DE.25	Magnesio-fluoro-riebeckite	◻{Na₂}{Mg₃Fe³⁺₂}(Si₈O₂₂)F₂
9.DE.25	Fluoro-eckermannite	NaNa₂(Mg₄Al}Si₈O₂₂F₂
9.DE.25	Ferro-fluoro-eckermannite	NaNa₂(Fe²⁺₄Al}Si₈O₂₂F₂
9.DE.25	Fluoro-arfvedsonite	[Na][Na₂][Fe²⁺₄Fe³⁺]Si₈O₂₂F₂
9.DE.25	Magnesio-arfvedsonite	{Na}{Na₂}{Mg₄Fe³⁺}(Si₈O₂₂)(OH)₂	Mon. 2/m : B2/m
9.DE.25	Ferri-fluoro-nybøite	NaNa₂(Mg₃Fe³⁺₂)(AlSi₇O₂₂)F₂
9.DE.25	Ferro-ferri-fluoro-nybøite	NaNa₂(Fe²⁺₃Fe³⁺₂)(AlSi₇O₂₂)F₂
9.DE.25	Ferro-glaucophane	◻[Na₂][Fe²⁺₃Al₂]Si₈O₂₂(OH)₂	Mon. 2/m : B2/m
9.DE.25	Ferro-fluoro-nybøite	NaNa₂(Fe²⁺₃Al₂)(AlSi₇O₂₂)F₂
9.DE.25	Mangani-dellaventuraite	NaNa₂(MgMn³⁺₂Ti⁴⁺Li)Si₈O₂₂O₂	Mon. 2/m : B2/m
9.DE.25	Ferro-leakeite	NaNa₂(Fe²⁺₂Al₂Li)(Si₈O₂₂)(OH)₂
9.DE.25	Leakeite	NaNa₂(Mg₂Al₂Li)(Si₈O₂₂)(OH)₂
9.DE.25	Potassic-leakeite	KNa₂(Mg₂Al₂Li)(Si₈O₂₂)(OH)₂
9.DE.25	Ferri-fluoro-pedrizite	NaLi₂(LiMg₂Fe³⁺₂)(Si₈O₂₂)F₂
9.DE.25	Ferro-ferri-fluoro-pedrizite	NaLi₂(LiFe²⁺₂Fe³⁺₂)(Si₈O₂₂)F₂
9.DE.25	Ferro-nybøite	NaNa₂(Fe²⁺₃Al₂)(AlSi₇)O₂₂(OH)₂	Mon.
9.DE.25	Clino-ferro-ferri-fluoro-holmquistite	◻{Li₂}{Fe²⁺₃Fe³⁺₂}(Si₈O₂₂)F₂
9.DE.25	Mangano-mangani-ungarettiite	NaNa₂(Mn²⁺₂Mn³⁺₃)(Si₈O₂₂)O₂	Mon. 2/m : B2/m
9.DE.25	Clino-ferri-fluoro-holmquistite	◻{Li₂}{Mg₃Fe³⁺₂}(Si₈O₂₂)F₂
9.DE.25	Clino-ferro-fluoro-holmquistite	◻{Li₂}{Fe²⁺₃Al₂}(Si₈O₂₂)F₂

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References for Ferro-pargasiteHide

Reference List:

Wilkinson, J. F. G. (1961) Some aspects of the calciferous amphiboles, oxyhornblende, kaersutite and barkevikite. American Mineralogist, 46 (3-4) 340-354

Mandarino, Joseph A. (1998) The Second List of Additions and Corrections to the Glossary of Mineral Species (1995) - The Amphibole Group. The Mineralogical Record, 29 (3) 169-174

(2001) Ferro-pargasite. Handbook of Mineralogy. Mineralogical Society of America

Hawthorne, F. C., Oberti, R. (2006) On the classification of amphiboles. The Canadian Mineralogist, 44 (1) 1-21 doi:10.2113/gscanmin.44.1.1

Hawthorne, F. C., Oberti, R., Harlow, G. E., Maresch, W. V., Martin, R. F., Schumacher, J. C., Welch, M. D. (2012) Nomenclature of the amphibole supergroup. American Mineralogist, 97 (11) 2031-2048 doi:10.2138/am.2012.4276

Localities for Ferro-pargasiteHide

This map shows a selection of localities that have latitude and longitude coordinates recorded. Click on the 👁 Image
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Locality ListHide

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- 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 (e.g. from pseudomorphs).

All localities listed without proper references should be considered as questionable.

Angola
Huíla Province Quilengues ⓘ Mount Tchivira	Eur. J. Mineral.
Argentina
Mendoza Province Las Heras Department Capdevilla District ⓘ Puesto la Peña alkaline complex	Pagano et al. (2016) +2 other references
Australia
New South Wales Bligh Co. ⓘ Tallawang magnetite deposit	Preliminary sulphur isotopes report. In ... +1 other reference
Yancowinna Co. Broken Hill district ⓘ Broken Hill	Birch (1999)
Queensland ⓘ North Burnett Region	Updated list originally distributed by ...
Mount Biggenden ⓘ Biggenden Mine
Tasmania Huon Valley municipality Huon-Channel region ⓘ Cygnet district	Taheri
Austria
Tyrol Lienz District Prägraten am Großvenediger Timmelbach valley ⓘ Eissee eclogite	Hoschek (2004)
Brazil
Espírito Santo Vitória Trindade and Martin Vaz archipelago ⓘ Trindade island	doi.org/10.1007/BF00302491 +6 other references
Paraíba Catingueira Itajubatiba ⓘ Itajubatiba skarn deposit	Souza Neto et al. (2008)
Rio de Janeiro Itatiaia ⓘ Itatiaia alkaline complex	Rosa et al. (2018)
Canada
Ontario Thunder Bay District ⓘ Coldwell complex	Mitchell (1991)
Québec Abitibi-Témiscamingue La Vallée-de-l'Or RCM Val d'Or ⓘ Sigma mine (Sigma No. 1 mine)
Montérégie La Vallée-du-Richelieu RCM Mont Saint-Hilaire ⓘ Poudrette quarry (De-Mix quarry; Demix quarry; Uni-Mix quarry; Carrière Mont Saint-Hilaire; MSH)	Can. Museum of Nature (unpublished microprobe )
Nord-du-Québec Jamésie Baie-James ⓘ Lac Doré Complex	Arguin et al. (2018)
Saskatchewan Seabee Gold Operation ⓘ Fisher prospect	Beaudin et al. (2024)
ⓘ Santoy 8 Mine	Beaudin et al. (2024)
China
Anhui Anqing Qianshan City ⓘ Shuanghe	Bοlin et al. (1995) +1 other reference
Taihu County Lake Hualiangting ⓘ Huangzhen-Zhujiachong area	Franz et al. (2001)
Yuexi County ⓘ Changpu	Proyer et al. (2014)
Hebei Zhangjiakou Chongli District ⓘ Shuiquangou Complex	Jiang (2005)
Hunan Chenzhou Beihu District Qitianling complex ⓘ Furong Sn-polymetallic ore field	Kuidong Zhao et al. (2005)
Yizhang Co. Dongpo ore field ⓘ Shizhuyuan Mine	Yiming Zhao and Daxin Li (2003)
Inner Mongolia Chifeng City (Ulanhad League; Chifeng Prefecture) Hexigten Banner (Keshiketeng Co.) ⓘ Danailingou As-Co deposit	Jingbin Wang et al. (1998)
Shanxi Taiyuan Loufan Co. ⓘ Jianshan Fe deposit	Yang Ding et al. (1998)
Xinjiang Ili Kazakh Autonomous Prefecture ⓘ Akeyazhi River valley	Gao et al. (1999)
Tekesi Co. (Tekes Co.) ⓘ Haladala complex	Qiuyue Huang and Yongfeng Zhu (2012)
Czech Republic
South Moravian Region Brno-Country District ⓘ Nedvědice	Houzar
Znojmo District Rešice ⓘ Rešice skarn	Filip et al. (2002)
Vysočina Region Havlíčkův Brod District Golčův Jeníkov ⓘ Jezuitský rybník	Dolníček Z et al. (2020)
Europe
The Alps ⓘ Karawanks (Karavankas; Karavanks)	Dobnikar et al. (2002)
Finland
North Savo Rautalampi ⓘ Kiviniemi	Kallio (2022)
France
Auvergne-Rhône-Alpes Haute-Loire Brioude Saint-Privat-du-Dragon ⓘ Peygerolles	PERINET F. (2009)
Brittany Finistère Brest Lesneven ⓘ Eclogite outcrop	Bull. Minéral.
Occitanie Pyrénées-Orientales Céret Collioure Pegmatite field ⓘ Le Ravaner	"'TRENCART' Collection
Germany
Rhineland-Palatinate Vulkaneifel Gerolstein Rockeskyll Rockeskyll volcanic complex ⓘ Auf Dickel (incl. Nonnental)	in the collection of Christof Schäfer
Saxony Erzgebirgskreis Breitenbrunn Breitenbrunn ⓘ St Christoph Mine	collection H.J. Haas +1 other reference
Greenland
Kujalleq Igaliku Complex ⓘ Motzfeldt Centre	Bradshaw (1988)
ⓘ Ilímaussaq complex	Petersen (2001)
Tuttutooq ⓘ Tugtutôq Older Giant Dyke Complex	Upton et al. (1985)
Guatemala
Motagua Valley ⓘ Sierra de las Minas	Harlow (1994) +1 other reference
India
Andhra Pradesh Prakasam District ⓘ Elchuru Complex	Madhavan et al. (1988) +6 other references
ⓘ Errakonda Pluton	Krishna Reddy et al. (1998)
Odisha Sundargarh District (Sundergarh District) ⓘ Sargipalli Mines	Chowdhury et al. (2011)
Rajasthan Jhunjhunu District ⓘ Jahaz prospect	Mineralogical Studies of Metasomatized ...
Italy
Campania Metropolitan City of Naples Ercolano ⓘ Le Novelle Quarry	Imma Punzo find & collection
San Vito ⓘ San Vito Quarry	M.E. Ciriotti 2007 collection (Steffen Moeckel EPMA probed)
Tuscany Livorno Province Capoliveri ⓘ Ginevro Mine	Barsotti et al. (2006)
ⓘ Sassi Neri Mine	Barsotti et al. (2006) +1 other reference
Japan
Ehime Prefecture Niihama City Besshi Sebadani ⓘ Eclogite occurrence	Naohito Kishira (2013)
Gifu Prefecture Motosu City Neo area ⓘ Nogohakusan (Nogo-Hakusan)	Sawaki (1989)
Kagawa Prefecture ⓘ Shodoshima (Shodo Island)	MURAKAMI Nobuhide ! MARUYAMA (1963)
Mongolia
Dornogovi Province Khatanbulag District ⓘ Lugeengol REE deposit	Kynický et al. (2005)
Namibia
Khomas Region Windhoek Rural Aris ⓘ Aris Quarries	Gerhard Möhn Collection. Identified by ... +1 other reference
Kunene Region Epupa Swartbooisdrif Dikes ⓘ Ruiter's House	von Seckendorff et al. (2000)
Norway
Nordland Brønnøy Tosenfjorden ⓘ Målvika Tungsten Skarn Deposit ?	James et al. (1993)
Flakstad Flakstadøya Nusfjord ⓘ Mørkdalen	Kullerud (1996)
Telemark Nome ⓘ Damtjern	Mitchell (1980)
ⓘ Fen Complex	Årtveit (2014)
ⓘ Vibeto Farm	Mitchell (1980)
Vestfold Larvik Commune Hedrum Lågendalen ⓘ Bratthagen 1 ?	Piilonen et al. (2012)
Pakistan
Gilgit-Baltistan Shigar District Shigar Valley ⓘ Alchuri	MIM Museum collection
Poland
Lesser Poland Voivodeship Kraków County Gmina Krzeszowice ⓘ Zalas quarry ?	Marszałek M. & Czerny J. 2009: ...
Lower Silesian Voivodeship Kłodzko County Gmina Stronie Śląskie Kletno ⓘ Żmijowiec	Gil et al. (2019)
Pomeranian Voivodeship Kościerzyna County Gmina Kościerzyna ⓘ Kościerzyna IG -1 borehole	Krzemińska E. & Bagiński B. 2003: THE KOŚCIERZYNA AND ŻARNOWIEC ENDERBITES ( N-POLAND)
Puck County Gmina Krokowa ⓘ Żarnowiec	Krzemińska E. & Bagiński B. 2003: THE KOŚCIERZYNA AND ŻARNOWIEC ENDERBITES ( N-POLAND)
Romania
Bihor County ⓘ Highiş Massif	Bonin et al. (2016)
Russia
Buryatia Okinsky District ⓘ Ulan-Sar’dag Ophiolite	Kiseleva et al. (2022)
Kemerovo Oblast ⓘ Koura River	Zhmodik et al. (2016)
Krasnoyarsk Krai Taymyrskiy Autonomous Okrug Taimyr Peninsula Norilsk-Talnakh Mining Region Noril'sk Cu-Ni deposit Noril'sk-1 Cu-Ni deposit ⓘ Medvezhyi Ruchei Mine	Chayka +9 other references
Murmansk Oblast Khibiny Massif The Carbonatite Stock in the vicinity of Tul'ilukht Bay ⓘ Olenii Ruchei (Olenii Creek; Oleny Ruchei)	Konopleva et al. (2008)
Pechengsky District ⓘ Kola Superdeep Borehole (SG-3; СГ-3)	Tatiana A. Gornostaeva analytical data
Republic of Karelia Loukhsky District Oulanka plutonic complex Olanga River (Oulanka River) Lukkulaisvaara ultrabasic Massif (Lukkulaisvaara pluton; Lukkulaisvaara layered intrusion) ⓘ Nadezhda PGM deposit	Barkov et al. (2004)
Saudi Arabia
Riyadh Region ⓘ Al Aybah Occurrence	Stoeser (1986) +2 other references
Slovakia
Banská Bystrica Region Rimavská Sobota District ⓘ Hnúšťa	Koděra (1986)
Košice Region Gelnica District Prakovce Zimná Voda valley ⓘ Trohanka (Trochánka)	Myšľan et al. (2021)
ⓘ Rakovec Group	Faryad S.W. and Bernhardt H. (1996)
South America Plate
Borborema Province Central Borborema Subprovince Alto Moxotó Domain ⓘ Açude do Caroá Pluton	Lima et al. (2024)
ⓘ Boqueirão Pluton	Lima et al. (2024)
ⓘ Bravo Pluton	Lima et al. (2024)
ⓘ Prata Complex	Lima et al. (2024)
ⓘ Queimadas Pluton	Lima et al. (2024)
Alto Pajeú Domain ⓘ Pilõezinhos Pluton	Lima et al. (2024)
Spain
Andalusia Huelva Cala Cala Mines ⓘ Manuel-Mercedes open pit	García et al. (2003)
Catalonia Girona Molló Espinavell (Espinabell) Roca del Toron ⓘ Toron Mines	Soledad Álvarez et al. (2021)
Tarragona Priorat Bellmunt del Priorat ⓘ Joaquina primera mine	Joan Abella i Creus (2008)
Switzerland
Valais Goms Binn ⓘ Geisspfad area	Stalder et al. (1998)
USA
Maine Somerset County Sapling Township ⓘ Gabbro Point - Indian Pond	King et al. (1994)
New Hampshire Carroll County Moultonborough ⓘ Red Hill	Henderson et al. (1989)
New Jersey Sussex County Ogdensburg ⓘ Sterling Hill	Frank Craig amd Olav Revheim
ⓘ Noble pit (Lot #10 - Ogden Divisions; Noble Mine)	Frank Craig
New York Essex County Keene Township Cascade Mountain ⓘ Unnamed Amphibole occurrence [1]	Robinson et al. (2007)
ⓘ North Carolina
Clay County ⓘ Lake Chatuga complex	Nathan Clay Collins (2011)
Haywood County ⓘ Dellwood Metabasite site	Anderson et al. (2009)
Pitt County Fountain ⓘ Fountain Quarry	Mauger
South Carolina ⓘ Fairfield County	Speer (1987)
ⓘ Kershaw County	Speer (1987)
ⓘ Lancaster County	Speer (1987)

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