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Clino-suenoite

A valid IMA mineral species

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Photos of Clino-suenoite (30)

Clino-suenoite Gallery Search Photos of Clino-suenoite

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Clino-suenoite

Scerscen Valley, Lanzada, Sondrio Province, Lombardy, Italy

Clino-suenoite

Scerscen Valley, Lanzada, Sondrio Province, Lombardy, Italy

Clino-suenoite

Serrana Mine, El Molar, Priorat, Tarragona, Catalonia, Spain

Clino-suenoite

Scerscen Valley, Lanzada, Sondrio Province, Lombardy, Italy

Clino-suenoite

Scerscen Valley, Lanzada, Sondrio Province, Lombardy, Italy

Clino-suenoite

Serrana Mine, El Molar, Priorat, Tarragona, Catalonia, Spain

Clino-suenoite

Scerscen Valley, Lanzada, Sondrio Province, Lombardy, Italy

Clino-suenoite

Scerscen Valley, Lanzada, Sondrio Province, Lombardy, Italy

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About Clino-suenoiteHide

Formula:

◻{Mn²⁺₂}{Mg₅}(Si₈O₂₂)(OH)₂

Colour:

pale yellow, honey-yellow, yellow-brown to light brown, white (thin fibres)

Lustre:

Vitreous

Specific Gravity:

3.175 (Calculated)

Crystal System:

Monoclinic

Member of:

Suenoite Root Name Group > Magnesium-iron-manganese Amphibole Subgroup > w(OH, F, Cl)-dominant Amphibole Group > Amphibole Supergroup

Name:

For the rootname suenoite and its monoclinic crystallography.

Type Locality:

ⓘ Lower Scerscen Glacier, Scerscen Valley, Lanzada, Sondrio Province, Lombardy, Italy

The new rootname that replaces the discredited manganocummingtonite.

Unique IdentifiersHide

Mindat ID:

51589

Long-form identifier:

mindat:1:1:51589:0

GUID
(UUID V4):

47a26684-29c9-418c-9c65-bbe57903c2ae

IMA Classification of Clino-suenoiteHide

IMA status:

Approved

IMA Formula:

◻Mn₂Mg₅Si₈O₂₂(OH)₂

Approval year:

2016

First published:

2017

Type description reference:

Oberti, Roberta, Boiocchi, Massimo, Hawthorne, Frank C., Ciriotti, Marco E., Revheim, Olav, Bracco, Roberto (2018) Clino-suenoite, a newly approved magnesium-iron-manganese amphibole from Valmalenco, Sondrio, Italy. Mineralogical Magazine, 82 (1) 189-198 doi:10.1180/minmag.2017.081.034

Classification of Clino-suenoiteHide

Strunz-mindat (2024):

9.DE.

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

Mineral SymbolsHide

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

Symbol	Source	Reference
Csue	IMA–CNMNC	Warr, L.N. (2021). IMA–CNMNC approved mineral symbols. Mineralogical Magazine, 85(3), 291-320. doi:10.1180/mgm.2021.43

Physical Properties of Clino-suenoiteHide

Lustre:

Vitreous

Transparency:

Transparent

Colour:

pale yellow, honey-yellow, yellow-brown to light brown, white (thin fibres)

Comment:

Depends on grain size.

Density:

3.175 g/cm³ (Calculated)

Optical Data of Clino-suenoiteHide

Type:

Biaxial (+)

RI values:

n_α = 1.632(2) n_β = 1.644(2) n_γ = 1.664(2)

2V:

Measured: 78° (2), Calculated: 76.3°

Max Birefringence:

δ = 0.032

Image shows birefringence interference colour range (at 30µm thickness)
and does not take into account mineral colouration.

Surface Relief:

Moderate

Pleochroism:

Visible

Comments:

X= pale yellow,Y= yellow to pale orange,Z= orange-brown

Chemistry of Clino-suenoiteHide

Mindat Formula:

◻{Mn²⁺₂}{Mg₅}(Si₈O₂₂)(OH)₂

Elements listed:

H, Mg, Mn, O, Si - search for minerals with similar chemistry

Chemical AnalysisHide

Oxide wt%:

	1
SiO₂	55.18 %
Al₂O₃	0.30 %
FeO	4.05 %
MgO	18.71 %
MnO	16.38 %
CaO	0.48 %
Na₂O	2.74 %
K₂O	0.07 %
F	0.19 %
O=F	0.08 %
Total:	98.18 %

Empirical formulas:

Sample ID	Empirical Formula
1	^A(Na_0.29K_0.0,01)^B_0.30( (Na_0.48Ca_0.07Mn_1.45) ^C_2.00( (Mg_4.02Fe²⁺_0.21Mn²⁺_0.55Fe³⁺_0.22) _5.00 ^T( (Si_7.95Al_0.05) _8.00O^W₂₂( (OH) _1.91 F_0.09) _2.00

Sample references:

ID	Locality	Reference	Notes
1	Iimori mine, Afuzu-mura, Iwade city, Wakayama Prefecture, Japan	BANNO, Yasuyuki, MOMMA, Koichi, MIYAWAKI, Ritsuro, YAMADA, Shigeo (2019) New data on ferri–ghoseite in Sanbagawa quartz schist from the Iimori region, Wakayama Prefecture, Japan: solid solution between magnesio–riebeckite and clino–suenoite. Journal of Mineralogical and Petrological Sciences, 114 (1) 33-40 doi:10.2465/jmps.181109	Chemical analyses of the amphibole were performed on JEOL JXA–8800R and JEOL JXA–8900R electron microprobes at the GSJ Laboratory, AIST. Based on the relatively high oxygen fugacity indicated by the high Fe3+/(Fe2++Fe3+) ratios (0.99–1.0) of associated aegirine and garnet (Banno and Yamada, 2012), the Fe3+/Fe2+ ratios of the amphibole were estimated using the maximum ferric method of Leake et al. (1997). Total Mn was expressed as Mn2+, because, in this way, formulae calculated using the maximum ferric method satisfied the six criteria for calculation of amphibole formulae outlined by Leake et al. (1997). The amphibole is pale yellowish green and occurs as euhedral to subhedral crystals with lengths up to 500µm.

Crystallography of Clino-suenoiteHide

Crystal System:

Monoclinic

Class (H-M):

2/m - Prismatic

Space Group:

B2/m

Setting:

C2/m

Cell Parameters:

a = 9.6128(11) Å, b = 18.073(2) Å, c = 5.3073(6) Å
β = 102.825(2)°

Ratio:

a:b:c = 0.532 : 1 : 0.294

Unit Cell V:

899.1 Å³

X-Ray Powder DiffractionHide

Powder Diffraction Data:

d-spacing	Intensity
8.321 Å	(60)
3.421 Å	(53)
3.253 Å	(41)
3.079 Å	(62)
2.728 Å	(100)
2.603 Å	(42)
2.513 Å	(77)
2.175 Å	(41)

Comments:

From Type Description.

Geological EnvironmentHide

Paragenetic Mode(s):

Paragenetic Mode	Earliest Age (Ga)
High-𝑇 alteration and/or metamorphism
31 : Thermally altered carbonate, phosphate, and iron formations
32 : Ba/Mn/Pb/Zn deposits, including metamorphic deposits

Type Occurrence of Clino-suenoiteHide

Type Locality:

ⓘ Lower Scerscen Glacier, Scerscen Valley, Lanzada, Sondrio Province, Lombardy, Italy

General Appearance of Type Material:

acicular to lamellar crystals embedded in rhodonite

Place of Conservation of Type Material:

Type material is deposited in the collections of Museo di Mineralogia, Dipartimento di Scienze della Terra e dell’Ambiente, Università di Pavia, catalogue number 2016-01

Geological Setting of Type Material:

Mn-rich quartzite erratics.

Associated Minerals at Type Locality:

Spessartine

Rhodonite

Braunite

Reference:

Oberti, R., Boiocchi, M., Hawthorne, F.C., Ciriotti, M.E., Revheim, O., Bracco, R. (2017) Clino-suenoite, a newly approved magnesium-iron-manganese amphibole from Valmalenco, Sondrio, Italy. Mineralogical Magazine: 82, 189-198.

Synonyms of Clino-suenoiteHide

IMA2016-111

Manganocummingtonite

Other Language Names for Clino-suenoiteHide

German:Clino-suenoit
Klino-Suenoit

Relationship of Clino-suenoite to other SpeciesHide

Member of:

Suenoite Root Name Group > Magnesium-iron-manganese Amphibole Subgroup > w(OH, F, Cl)-dominant Amphibole Group > Amphibole Supergroup

Other Members of this group:

Clino-ferro-suenoite	◻{Mn²⁺₂}{Fe²⁺₅}(Si₈O₂₂)(OH)₂
Proto-ferro-suenoite	◻{Mn²⁺₂}{Fe²⁺₅}(Si₈O₂₂)(OH)₂	Orth. mmm (2/m 2/m 2/m)
Suenoite	◻Mn₂Mg₅Si₈O₂₂(OH)₂	Orth. mmm (2/m 2/m 2/m) : Pnma

Common AssociatesHide

Associated Minerals Based on Photo Data:

35 photos of Clino-suenoite associated with Tremolite	◻Ca₂Mg₅(Si₈O₂₂)(OH)₂
24 photos of Clino-suenoite associated with Rhodonite	CaMn₃Mn[Si₅O₁₅]
18 photos of Clino-suenoite associated with Talc	Mg₃Si₄O₁₀(OH)₂
14 photos of Clino-suenoite associated with Calcite	CaCO₃
12 photos of Clino-suenoite associated with Anthophyllite	◻{Mg₂}{Mg₅}(Si₈O₂₂)(OH)₂
7 photos of Clino-suenoite associated with Spessartine	Mn²⁺₃Al₂(SiO₄)₃
4 photos of Clino-suenoite associated with Willemite	Zn₂SiO₄
4 photos of Clino-suenoite associated with Nelenite	(Mn,Fe)₁₆(Si₁₂O₃₀)(OH)₁₄[As³⁺₃O₆(OH)₃]
3 photos of Clino-suenoite associated with Nambulite-Natronambulite Series
3 photos of Clino-suenoite associated with Pyroxmangite	Mn²⁺SiO₃

Related Minerals - Strunz-mindat Grouping Hide

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

Fluorescence of Clino-suenoiteHide

In UV light:

Apparently bright pink under short-wave UV light (https://www.mindat.org/photo-362441.html).

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.

Internet Links for Clino-suenoiteHide

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References for Clino-suenoiteHide

Reference List:

Chakraborty, K.L. (1963) Relationship of anthophyllite, cummingtonite and mangano-cummingtonite in the metamorphosed Wabush iron-formation, Labrador. The Canadian Mineralogist: 7: 738-750.

Dasgupta, Somnath, Bhattacharya, P. K., Chattopadhyay, G., Banerjee, H., Majumdar, N., Fukuoka, M., Roy, Supriya (1988) Petrology of Mg-Mn amphibole-bearing assemblages in manganese silicate rocks of the Sausar Group, India. Mineralogical Magazine, 52 (364) 105-111 doi:10.1180/minmag.1988.052.364.09

Leake, B. E., Woolley, A. R., Arps, C. E. S., Birch, W. D., Gilbert, M. C., Grice, J. D., Hawthorne, F. C., Kato, A., Kisch, H. J., Krivovichev, V. G., Linthout, K., Laird, J., Mandarino, J. A., Maresch, W. V., Nickel, E. H., Rock, N. M. S., Schumacher, J. C. S., Smith, D. C., Stephenson, N. C. N., Ungaretti, L., Whittaker, E. J. W., Youzhi, G. (1997) Nomenclature of amphiboles: Report of the Subcommittee on Amphiboles of the International Mineralogical Association, Commission on New Minerals and Mineral Names. American Mineralogist, 82. 1019-1037

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

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 Discreditation

Kanungo, D.R., Malpe, D.B., Leake, B.E. (2014) Manganocummingtonite from the Mesoproterozoic, Sausar fold belt, central India. Journal of the Geological Society of India: 83: 93-99.

Hålenius, U., Hatert, F., Pasero, M., Mills, S. J. (2017) New minerals and nomenclature modifications approved in 2017. CNMNC Newsletter No 36. Mineralogical Magazine, 81 (2) 403-409 doi:10.1180/minmag.2017.081.022

(2023) Clino-suenoite. Handbook of Mineralogy. Mineralogical Society of America

Localities for Clino-suenoiteHide

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 references and 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 (e.g. from pseudomorphs).

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


Australia
New South Wales Yancowinna Co. Broken Hill district ⓘ Broken Hill	Birch (1999)

Austria
Salzburg Tamsweg District Tweng ⓘ Fuchs Alp - Fuchs lake area	abstract in Mitt. Österr. Mineral. ... +2 other references
Zell am See District Kaprun ⓘ Krapfkühkarl (Krapfkühkar)	Kolitsch et al. (2020)
Styria Deutschlandsberg District Bad Schwanberg Glashütten ⓘ Reih Alp	quantitative SEM-EDS on polished section
Eibiswald Soboth Untersoboth ⓘ Pogatetz	Bernhard (2009)
Murau District Neumarkt in der Steiermark Dürnstein ⓘ Mn deposit	quantitative SEM-EDS on polished section
Voitsberg District Sankt Martin am Wöllmißberg Kleinwöllmiß ⓘ Magnetite prospect	Bernhard (2011)
Tyrol Innsbruck-Land District Obernberg am Brenner ⓘ Obernberger Tribulaun	Kolitsch et al. (2018)
Lienz District Prägraten am Großvenediger Timmelbach valley ⓘ Wunwand (Wunspitze)	Kolitsch et al. (2017) +1 other reference

Brazil
Minas Gerais Conselheiro Lafaiete ⓘ Morro da Mina mine	M. A. F. Candia (1979)

Bulgaria
Smolyan Province Madan Municipality Septemvri Mine (Deveti Septemvri Mine) ⓘ Mogilata deposit	Vassileva et al. (2001) +1 other reference

Canada
Newfoundland and Labrador Labrador Carol Lake ⓘ Smallwood Mine	Klein (1966)
Wabush Lake ⓘ Scully mine	Canadian Mineralogist 7

China
Hunan Yiyang Heshan District ⓘ Tangganshan Mine	Jiuling Zhang (1982)
Jiangxi Jingdezhen Leping Co. ⓘ Lehua Mn-Pb-Zn deposit	Jiuling Zhang (1982)
Liaoning Huludao Jianchang County Bajiazi Zn-Pb-Ag deposit ⓘ Binggou section	Zhao et al. (2003)
ⓘ Dongfeng section	Zhao et al. (2003)
ⓘ Hongqi section	Zhao et al. (2003)
ⓘ Lugou section	Zhao et al. (2003)
Shaanxi Ankang Ziyang County ⓘ Qujiashan Mine	Pingyi Wan (2002)
Hanzhong Xixiang County ⓘ Shuijingping Mn deposit	Pingyi Wan (2002)
Zhenba County ⓘ Liziya Mn deposit	Pingyi Wan (2002)
Sichuan Dazhou Wanyuan Co. ⓘ Dazhuhe Mn deposit	Pingyi Wan (2002)
ⓘ Haoziping Mn deposit	Pingyi Wan (2002)
Mianyang Pingwu Co. Mount Little Xuebaoding Huya township ⓘ Huya-Siwangpu Mn deposit	Jiuling Zhang (1982)
Youxian District ⓘ Shikan Mine	Jiuling Zhang (1982)
Yunnan Honghe Jianshui County ⓘ Baixian Mine	Jiuling Zhang (1982)

Finland
South Ostrobothnia Seinäjoki-Lapua ⓘ Vittinki Mn-Fe formation	Heikkilä +3 other references

India
Karnataka Kolar District Kolar Gold Fields ⓘ Sakarsanahalli	Anantha Iyer et al. (1975)
Madhya Pradesh Jabalpur Division Balaghat District Tirodi ⓘ South Tirodi Mine	Dunn & Roy (1938) +2 other references

Italy
Aosta Valley Valtournenche ⓘ Cignana Lake (Tsignanaz Lake)	Piccoli et al. (2007)
Liguria Genoa Genoa Varenna Valley ⓘ Case Scotti	Balestra C. (2014) +1 other reference
Lombardy Sondrio Province Lanzada ⓘ Scerscen Valley
ⓘ Lower Scerscen Glacier (TL)	Mineralogical Magazine +2 other references
ⓘ Malenco Valley	Lapis (10)
Piedmont Metropolitan City of Turin Monastero di Lanzo Chiaves ⓘ Croce di Chiaves ?	Ambrino et al. (2010)
Tuscany Lucca Province ⓘ Vagli Sotto ?	Orlandi et al. (2005)
Massa-Carrara Province Fivizzano ⓘ Scortico-Ravazzone mine	Mancini (2000)

Japan
Aichi Prefecture Kitashitara County Shitara ⓘ Taguchi mine	Yamada collection (Crystal World, Japan) +1 other reference
Ibaraki Prefecture Kasama City Iwama ⓘ Nagasawa deposit	Nishikubo collection
Iwate Prefecture Kunohe-gun Noda ⓘ Noda-Tamagawa mine	Dr. Matsuo Nambu collection (curated at Geological Survey of Japan)
Shimohei District Yamada-machi ⓘ Otaniyama mine	Nambu et al. (1980)
Miyazaki Prefecture Nishiusuki District Hinokage ⓘ Shimozuru mine	Fuzimoto (2006)
Wakayama Prefecture Iwade city Afuzu-mura ⓘ Iimori mine	BANNO et al. (2019)

Namibia
Otjozondjupa Region Omatako Constituency ⓘ Otjosondu	Lapis 33 (11)

Romania
Suceava County Ciocănești Ciocănești ⓘ Oița Mn deposit ?	Munteanu (1993) +1 other reference

Russia
Sverdlovsk Oblast Sysertsky District ⓘ Borodulinskoe deposit	Brusnitsyn (2000)
Sedel'nikovo ⓘ Malosedel'nikovskoe deposit	Brusnitsyn A.I. (2000)
Yekaterinburg Kurganovo ⓘ Kurganovskoe deposit	Brusnitsyn A.I. (2000)

Slovakia
Košice Region Gelnica District ⓘ Prakovce	Koděra (1986)
Rožňava District Betliar ⓘ Július manganese occurrence	Myšľan et al. (2023)

Spain
Catalonia Tarragona Priorat El Molar ⓘ Serrana Mine (Manganese Mine)	Mineralogistes de Catalunya

Sweden
Dalarna County Hedemora Garpenberg ⓘ Garpenberg Norra Mine	American Mineralogist +2 other references
Stockholm County Haninge Utö ⓘ Utö Mines	Len Pisciotta photo & specimen ( analysis by Attard XRD Services)
Uppsala County Östhammar Dannemora ⓘ Dannemora mine	Åberg (2015)

Switzerland
Grisons Viamala Region Rheinwald Splügen ⓘ Tanatz Alp	Roth et al. (2011)
Valais Leuk Turtmann-Unterems Turtmann Valley Pipjitälli ⓘ Pipji glacier	The Canadian Mineralogist Vol. 44 (2006) +1 other reference

United Arab Emirates
Emirate of Fujairah Semail Ophiolite Khawr Fakkan Massif (Khor Fakkan) Bani Hamid area ⓘ Bulaydah	Mn-Mg-silicates from a manganiferous ... +1 other reference

USA
California Kern County Government Peak ⓘ Big Indian Mine (Big Indian deposit)	Van Nostrand Reinholt Press: 395. +2 other references
Maine Waldo County ⓘ Searsmont	Anderson
Michigan Marquette County Champion ⓘ Champion Mine	Heinrich et al. (2004)
New Jersey Sussex County ⓘ Franklin	Pete J. Dunn (1995)
ⓘ Franklin Mine	Klein et al. (1968) +2 other references
ⓘ Buckwheat dump mineral collecting site	King
ⓘ Trotter Mine	www.franklinmineralmuseum.com
Ogdensburg ⓘ Sterling Hill	Pete J. Dunn (1995)
ⓘ Sterling Mine	Dunn (1995)
New York ⓘ St. Lawrence County	gsa.confex.com (2003)
Balmat-Edwards Zinc Mining District Balmat ⓘ Empire State No. 4 Mine	Peterson et al. (1984)
Talcville ⓘ International Talc Company Mine (Reynolds Mine)	analysis by Hawkins at the NY State ... +2 other references
North Carolina Alleghany County Sparta Bald Knob ⓘ Bald Knob deposit	Winter et al. (1981)

Clino-suenoite

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