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Quatrandorite

A valid IMA mineral species - grandfathered

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Photos of Quatrandorite (4)

Quatrandorite Gallery Search Photos of Quatrandorite

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Quatrandorite

San José Mine, Oruro, Cercado Province, Oruro, Bolivia

Quatrandorite, etc.

San José Mine, Oruro, Cercado Province, Oruro, Bolivia

Quatrandorite

San José Mine, Oruro, Cercado Province, Oruro, Bolivia

Quatrandorite

San José Mine, Oruro, Cercado Province, Oruro, Bolivia

Quatrandorite, etc.

San José Mine, Oruro, Cercado Province, Oruro, Bolivia

Quatrandorite

San José Mine, Oruro, Cercado Province, Oruro, Bolivia

Quatrandorite

San José Mine, Oruro, Cercado Province, Oruro, Bolivia

Quatrandorite, etc.

San José Mine, Oruro, Cercado Province, Oruro, Bolivia

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About QuatrandoriteHide

Andor Semsey

Formula:

AgPbSb₃S₆

Formerly assumed to be Pb₁₈Ag₁₅Sb₄₇S₉₆.

Colour:

grey

Lustre:

Metallic

Crystal System:

Monoclinic

Member of:

Lillianite Homologous Series Group

Name:

Donnay and Donnay (1954) summarize the complex early history of the andorite minerals. They introduced the name andorite IV to distinguish the species from (then) andorite VI (now called senandorite. The two species usually form together, forming polycrystals. The root name is in honor of Andor von Semsey (22 December 1833, Košice, Slovakia - 14 August 1923, Budapest, Hungary), mineral collector. The mineral semseyite was also named after him. The name quatrandorite was proposed by Moëlo et al. (1984), who gives additional analytic history. It derives from the Latin quater (= composed of 4 units) referring to the multiplicity of the basic subcell. The species was officially renamed to quatrandorite in 2022.

Type Locality:

ⓘ Les Cougnasses mine, Orpierre, Gap, Hautes-Alpes, Provence-Alpes-Côte d'Azur, France

Ramdohrite-Lillianite Group.
Previously called 'andorite IV'.

Compare also arsenquatrandorite.

Unique IdentifiersHide

Mindat ID:

11345

Long-form identifier:

mindat:1:1:11345:2

GUID
(UUID V4):

7b1ffb43-aae5-46ee-8315-fac6906a8f05

IMA Classification of QuatrandoriteHide

IMA status:

Approved, 'Grandfathered' (first described prior to 1959)

IMA status notes:

Renamed by the IMA

Classification of QuatrandoriteHide

Strunz-mindat (2024):

2.JB.40a

2 : SULFIDES and SULFOSALTS (sulfides, selenides, tellurides; arsenides, antimonides, bismuthides; sulfarsenites, sulfantimonites, sulfbismuthites, etc.)
J : Sulfosalts of PbS archetype
B : Galena derivatives, with Pb

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
Ado IV	IMA–CNMNC	Warr, L.N. (2021). IMA–CNMNC approved mineral symbols. Mineralogical Magazine, 85(3), 291-320. doi:10.1180/mgm.2021.43
Ado	The Canadian Mineralogist (2019)	The Canadian Mineralogist (2019) The Canadian Mineralogist list of symbols for rock- and ore-forming minerals (December 30, 2019). download

Physical Properties of QuatrandoriteHide

Lustre:

Metallic

Transparency:

Opaque

Colour:

grey

Streak:

black

Chemistry of QuatrandoriteHide

Mindat Formula:

AgPbSb₃S₆

Formerly assumed to be Pb₁₈Ag₁₅Sb₄₇S₉₆.

Elements listed:

Ag, Pb, S, Sb - search for minerals with similar chemistry

Common Impurities:

Bi,Cu

Crystallography of QuatrandoriteHide

Crystal System:

Monoclinic

Class (H-M):

2/m - Prismatic

Space Group:

P2₁/b

Setting:

P1 2₁/c 1

Cell Parameters:

a = 19.1686(19) Å, b = 17.160(3) Å, c = 13.042(2) Å
β = 90.008(12)°

Ratio:

a:b:c = 1.117 : 1 : 0.76

Unit Cell V:

4,289.95 Å³ (Calculated from Unit Cell)

Twinning:

Practically always twinned, polysynthetic (Moëlo et al. 1984).

Comment:

Cell from Nespolo et al. (2012). Strongly pseudo-orthorhombic (Cmcm aristotype). Previously assumed cell (non-centrosymmetric space group P2): a = 13.04, b = 17.07, c = 10.18 Å, β = 90°.

Crystal StructureHide

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Data courtesy of the American Mineralogist Crystal Structure Database. Click on an AMCSD ID to view structure

ID	Species	Reference	Link	Year	Locality	Pressure (GPa)	Temp (K)
0019736	Quatrandorite	Nespolo M, Ozawa T, Kawasaki Y, Sugiyama K (2012) Structural relations and pseudosymmetries in the andorite homologous series Journal of Mineralogical and Petrological Sciences 107 226-243		2012	Oura mine, San Jose, Bolivia	0	293

CIF Raw Data - click here to close

data_global
_chemical_name_mineral 'Andorite IV'
loop_
_publ_author_name
'Nespolo M'
'Ozawa T'
'Kawasaki Y'
'Sugiyama K'
_journal_name_full 'Journal of Mineralogical and Petrological Sciences'
_journal_volume 107 
_journal_year 2012
_journal_page_first 226
_journal_page_last 243
_publ_section_title
;
 Structural relations and pseudosymmetries in the andorite homologous series
;
_database_code_amcsd 0019736
_chemical_compound_source 'Oura mine, San Jose, Bolivia'
_chemical_formula_sum 'Ag Pb Sb3 S6'
_cell_length_a 19.1686
_cell_length_b 17.160
_cell_length_c 13.042
_cell_angle_alpha 90
_cell_angle_beta 90.008
_cell_angle_gamma 90
_cell_volume 4289.947
_exptl_crystal_density_diffrn      5.405
_symmetry_space_group_name_H-M 'P 1 21/c 1'
loop_
_space_group_symop_operation_xyz
  'x,y,z'
  'x,1/2-y,1/2+z'
  '-x,1/2+y,1/2-z'
  '-x,-y,-z'
loop_
_atom_site_label
_atom_site_fract_x
_atom_site_fract_y
_atom_site_fract_z
_atom_site_U_iso_or_equiv
Ag1   0.35709   0.81311   0.84948   0.03080
Ag2   0.14280   0.17732   0.33615   0.06180
Ag3   0.35640   0.05251   0.82640   0.05630
Ag4   0.13216   0.93297   0.33294   0.04840
Pb1   0.24276   0.82487   0.57335   0.02370
Pb2   0.25023   0.30831   0.60330   0.03200
Pb3   0.25544   0.06872   0.58827   0.02820
Pb4   0.24888   0.93783   0.08883   0.03240
Sb1   0.12058   0.68987   0.34641   0.01630
Sb2   0.95572   0.30075   0.38704   0.01680
Sb3   0.44664   0.81586   0.12447   0.01640
Sb4   0.44792   0.18462   0.62519   0.01680
Sb5   0.05798   0.32777   0.13344   0.01510
Sb6   0.36327   0.19028   0.37208   0.01750
Sb7   0.14971   0.06736   0.87612   0.01810
Sb8   0.06031   0.06498   0.12385   0.01610
Sb9   0.37354   0.93441   0.35266   0.01790
Sb10   0.44131   0.92230   0.63262   0.02050
Sb11   0.04508   0.56303   0.11976   0.01610
Sb12   0.54567   0.94662   0.88204   0.02210
S1   0.39950   0.70240   0.02440   0.02090
S2   0.01590   0.19990   0.29320   0.01730
S3   0.10610   0.16920   0.00710   0.01750
S4   0.15480   0.79290   0.21710   0.01780
S5   0.09400   0.64880   0.99120   0.01880
S6   0.49580   0.83600   0.76530   0.02280
S7   0.17130   0.31290   0.21920   0.02150
S8   0.23360   0.69010   0.43550   0.02250
S9   0.40830   0.28820   0.50530   0.02150
S10   0.34150   0.18530   0.72760   0.02160
S11   0.24410   0.19530   0.45070   0.02160
S12   0.34050   0.82250   0.23870   0.02120
S13   0.09730   0.96240   0.00330   0.01740
S14   0.00310   0.40870   0.27280   0.01850
S115   0.34400   0.04030   0.22720   0.02020
S116   0.09770   0.44190   0.02800   0.01750
S117   0.15270   0.57680   0.23300   0.01680
S118   0.48240   0.04210   0.78100   0.02570
S119   0.25820   0.94460   0.42780   0.01910
S120   0.40100   0.91140   0.00310   0.02310
S121   0.40330   0.08150   0.50840   0.02070
S122   0.16370   0.05360   0.22780   0.01860
S123   0.26790   0.06330   0.95770   0.02670
S124   0.32850   0.92970   0.71440   0.02130
loop_
_atom_site_aniso_label
_atom_site_aniso_U_11
_atom_site_aniso_U_22
_atom_site_aniso_U_33
_atom_site_aniso_U_12
_atom_site_aniso_U_13
_atom_site_aniso_U_23
Ag1 0.03220 0.02870 0.03130 -0.00720 0.00870 0.00000
Ag2 0.03780 0.06930 0.07820 0.01580 -0.03300 -0.03590
Ag3 0.04740 0.05660 0.06470 0.00840 0.03290 -0.00150
Ag4 0.05520 0.04980 0.04010 -0.02240 -0.00960 0.02130
Pb1 0.02870 0.01990 0.02250 -0.00090 0.00490 0.00080
Pb2 0.03010 0.03180 0.03410 -0.00720 -0.00080 -0.00100
Pb3 0.02900 0.02650 0.02910 -0.00090 0.00030 0.00240
Pb4 0.03590 0.02930 0.03190 -0.00910 -0.00430 0.00650
Sb1 0.01980 0.01590 0.01330 0.00060 0.00180 -0.00010
Sb2 0.01750 0.01520 0.01760 0.00110 0.00510 -0.00210
Sb3 0.01500 0.01510 0.01910 0.00150 0.00020 -0.00120
Sb4 0.01200 0.01840 0.02000 0.00030 0.00010 0.00090
Sb5 0.01430 0.01330 0.01770 0.00110 0.00380 -0.00140
Sb6 0.01760 0.01490 0.02000 0.00150 -0.00160 -0.00150
Sb7 0.02100 0.01360 0.01980 -0.00010 0.00440 -0.00050
Sb8 0.01440 0.01720 0.01680 0.00020 0.00250 -0.00230
Sb9 0.01660 0.02130 0.01570 0.00040 0.00210 -0.00120
Sb10 0.01580 0.02430 0.02130 0.00370 0.00320 0.00490
Sb11 0.01690 0.01480 0.01670 -0.00220 0.00210 0.00020
Sb12 0.02090 0.02220 0.02310 0.00600 0.00090 0.00310
S1 0.02300 0.01800 0.02200 -0.00410 0.00000 -0.00570
S2 0.01600 0.01500 0.02100 0.00010 0.00360 -0.00210
S3 0.02000 0.01310 0.02000 0.00220 0.00080 0.00140
S4 0.01400 0.01800 0.02200 -0.00220 0.00260 -0.00200
S5 0.01900 0.01600 0.02200 -0.00080 0.00250 0.00440
S6 0.02400 0.01200 0.03300 0.00180 -0.01100 -0.00200
S7 0.01300 0.02300 0.02800 0.00190 0.00240 0.00220
S8 0.02500 0.02300 0.02000 0.00100 -0.00340 -0.00470
S9 0.01900 0.01500 0.03000 -0.00070 -0.00100 0.00470
S10 0.01800 0.02400 0.02300 0.00130 0.00130 -0.00020
S11 0.01900 0.02100 0.02400 -0.00070 -0.00060 0.00210
S12 0.02300 0.02400 0.01700 -0.00500 0.00600 -0.00620
S13 0.01600 0.01460 0.02100 -0.00250 0.00170 -0.00400
S14 0.02100 0.01060 0.02400 -0.00110 0.00930 0.00030
S115 0.01900 0.02200 0.02000 -0.00010 -0.00130 0.00210
S116 0.02100 0.01340 0.01800 0.00150 0.00560 0.00070
S117 0.01700 0.02100 0.01200 -0.00220 -0.00120 -0.00180
S118 0.02100 0.01600 0.03900 0.00190 -0.00500 0.00500
S119 0.01700 0.02200 0.01900 0.00160 0.00570 0.00270
S120 0.02800 0.02000 0.02100 0.00230 0.00000 0.00360
S121 0.01900 0.01700 0.02600 0.00110 0.00000 -0.00420
S122 0.01500 0.02000 0.02100 0.00260 0.00030 0.00080
S123 0.02200 0.02000 0.03800 -0.00200 0.01000 -0.00100
S124 0.01700 0.02500 0.02300 0.00100 -0.00040 -0.00350

Geological EnvironmentHide

Paragenetic Mode(s):

Paragenetic Mode	Earliest Age (Ga)
High-𝑇 alteration and/or metamorphism
33 : Minerals deposited by hydrothermal metal-rich fluids (see also [#12])

Geological Setting:

subvolcanic hydrothermal Ag-Sn-bearing veins

Type Occurrence of QuatrandoriteHide

Type Locality:

ⓘ Les Cougnasses mine, Orpierre, Gap, Hautes-Alpes, Provence-Alpes-Côte d'Azur, France

Synonyms of QuatrandoriteHide

Andorite IV

Other Language Names for QuatrandoriteHide

German:Quatrandorit

Spanish:Quatrandorita

Relationship of Quatrandorite to other SpeciesHide

Member of:

Lillianite Homologous Series Group

Other Members of this group:

Andreadiniite	CuHgAg₇Pb₇Sb₂₄S₄₈	Mon. 2/m : P2₁/b
Arsenquatrandorite	Ag_17.6Pb_12.8Sb_38.1As_11.5S₉₆	Mon. 2/m : P2₁/b
Aschamalmite	Pb_6-3xBi_2+xS₉	Mon. 2/m : B2/m
Clino-oscarkempffite	Ag₁₅Pb₆Sb₂₁Bi₁₈S₇₂	Mon. 2/m : P2₁/b
Erzwiesite	Ag₈Pb₁₂Bi₁₆S₄₀	Orth. mmm (2/m 2/m 2/m) : Cmcm
Eskimoite	Ag₇Pb₁₀Bi₁₅S₃₆	Mon.
Fizélyite	Ag₅Pb₁₄Sb₂₁S₄₈	Mon. 2/m
Gustavite	AgPbBi₃S₆	Orth. mmm (2/m 2/m 2/m)
Heyrovskýite	Pb₆Bi₂S₉	Orth. mmm (2/m 2/m 2/m) : Cccm
Holubite	Ag₃Pb₆(Sb₈Bi₃)S₂₄	Mon. 2/m
Jasrouxite	Ag₁₆Pb₄(Sb₂₄As₁₆)S₇₂	Tric. 1 : P1
Lasmanisite	Ag₁₂Pb₁₃Mn₁₁Sb₄₄S₉₆	Orth. 2 2 2 : P2₁ 2₁ 2₁
Lillianite	Pb_3-2xAg_xBi_2+xS₆	Orth. mmm (2/m 2/m 2/m)
Menchettiite	AgPb_2.40Mn_1.60Sb₃As₂S₁₂	Mon. 2/m : P2₁/b
Oscarkempffite	Ag₁₀Pb₄(Sb₁₇Bi₉)S₄₈	Orth. mm2
Ourayite	Ag₃Pb₄Bi₅S₁₃	Orth.
Oyonite	Ag₃Mn₂Pb₄Sb₇As₄S₂₄	Mon. 2/m
Ramdohrite	Pb_5.9Fe_0.1Mn_0.1In_0.1Cd_0.2Ag_2.8Sb_10.8S₂₄	Mon. 2/m
Roshchinite	Ag₁₉Pb₁₀Sb₅₁S₉₆	Orth. mmm (2/m 2/m 2/m) : Pnma
Schirmerite	PbAgBi₃S₆ - Pb₃Ag_1.5Bi_3.5S₉	Orth.
Senandorite	AgPbSb₃S₆	Orth. mm2 : Pmn2₁
Staročeskéite	Ag_0.70Pb_1.60(Bi_1.35Sb_1.35)_Σ2.70S₆	Orth. mmm (2/m 2/m 2/m) : Cmcm
Terrywallaceite	AgPb(Sb,Bi)₃S₆	Mon. 2/m : P2₁/b
Treasurite	Ag₇Pb₆Bi₁₅S₃₂	Mon.
Uchucchacuaite	AgMnPb₃Sb₅S₁₂	Orth. mmm (2/m 2/m 2/m) : Pmmm
Ustarasite	Pb(Bi,Sb)₆S₁₀ (?)
Vikingite	Ag₅Pb₈Bi₁₃S₃₀	Mon. 2/m : B2/m
Xilingolite	Pb₃Bi₂S₆	Mon.

Common AssociatesHide

Associated Minerals Based on Photo Data:

6 photos of Quatrandorite associated with Rhodostannite	Cu¹⁺(Fe²⁺_0.5Sn⁴⁺_1.5)S₄
1 photo of Quatrandorite associated with Andorite	AgPbSb₃S₆
1 photo of Quatrandorite associated with Senandorite	AgPbSb₃S₆

Related Minerals - Strunz-mindat Grouping Hide

2.JB.	Senandorite	AgPbSb₃S₆	Orth. mm2 : Pmn2₁
2.JB.	Oscarkempffite	Ag₁₀Pb₄(Sb₁₇Bi₉)S₄₈	Orth. mm2
2.JB.	Chukotkaite	AgPb₇Sb₅S₁₅	Mon. 2/m : P2₁/b
2.JB.	Arsenquatrandorite	Ag_17.6Pb_12.8Sb_38.1As_11.5S₉₆	Mon. 2/m : P2₁/b
2.JB.	Clino-oscarkempffite	Ag₁₅Pb₆Sb₂₁Bi₁₈S₇₂	Mon. 2/m : P2₁/b
2.JB.	Andreadiniite	CuHgAg₇Pb₇Sb₂₄S₄₈	Mon. 2/m : P2₁/b
2.JB.	Ginelfite	Ag₂(Ag_0.5Fe)TlPb_23.5(Sb,As)_33.5S₇₆	Tric. 1 : P1
2.JB.	Lazerckerite	Ag_3.75Pb_4.50(Sb_7.75Bi₄)S₂₄	Mon. 2/m
2.JB.	Lasmanisite	Ag₁₂Pb₁₃Mn₁₁Sb₄₄S₉₆	Orth. 2 2 2 : P2₁ 2₁ 2₁
2.JB.	Montpelvouxite	AgPb₁₆Sb₂₇As₁₈S₈₄	Tric. 1 : P1
2.JB.	Selenojunoite	Cu₂Pb₃Bi₈Se₁₆	Mon. 2/m : B2/m
2.JB.05	Diaphorite	Ag₃Pb₂Sb₃S₈	Mon. 2/m : P2₁/b
2.JB.10	Cosalite	Pb₂Bi₂S₅	Orth. mmm (2/m 2/m 2/m)
2.JB.15	Freieslebenite	AgPbSbS₃	Mon. 2/m : P2₁/b
2.JB.15	Marrite	AgPbAsS₃	Mon. 2/m : P2₁/b
2.JB.20	Cannizzarite	Pb₄₈Bi₅₆S₁₃₂	Mon. 2/m : P2₁/m
2.JB.20	Wittite	Pb₉Bi₁₂(S,Se)₂₇	Mon.
2.JB.25a	Junoite	Cu₂Pb₃Bi₈(S,Se)₁₆	Mon. 2/m : B2/m
2.JB.25i	Neyite	Ag₂Cu₆Pb₂₅Bi₂₆S₆₈	Mon. 2/m : B2/m
2.JB.25c	Nordströmite	CuPb₃Bi₇(Se₄S₁₀)	Mon. 2/m : P2₁/m
2.JB.25g	Nuffieldite	Cu_1.4Pb_2.4Bi_2.4Sb_0.2S₇	Orth. mmm (2/m 2/m 2/m)
2.JB.25d	Proudite	CuPb_7.5Bi_9.33(S,Se)₂₂	Mon. 2/m : B2/m
2.JB.25h	Weibullite	Pb₅Bi₈Se₇S₁₁	Orth. mmm (2/m 2/m 2/m) : Pnma
2.JB.25b	Felbertalite	Cu₂Pb₆Bi₈S₁₉	Mon. 2/m : B2/m
2.JB.25j	Rouxelite	Cu₂HgPb₂₃Sb₂₇S_65.5	Mon. 2/m : B2/m
2.JB.25f	Ángelaite	Cu₂AgPbBiS₄	Orth. mmm (2/m 2/m 2/m) : Pnma
2.JB.25i	Cuproneyite	Cu₇Pb₂₇Bi₂₅S₆₈	Mon. 2/m : B2/m
2.JB.30a	Geocronite	Pb₁₄Sb₆S₂₃	Mon. 2/m : P2₁/m
2.JB.30a	Jordanite	Pb₁₄As₆S₂₃	Mon. 2/m : P2₁/m
2.JB.30b	Kirkiite	Pb₁₀Bi₃As₃S₁₉	Mon. 2/m : P2₁/m
2.JB.30c	Tsugaruite	Pb₂₈As₁₅S₅₀Cl	Orth. mm2 : Pnn2
2.JB.30a	Marcobaldiite	Pb₁₂(Sb₃As₂Bi)_Σ6S₂₁	Tric. 1 : P1
2.JB.30a	Arsenmarcobaldiite	Pb₁₂(As_3.2Sb_2.8)_Σ6S₂₁	Tric. 1 : P1
2.JB.35c	Pillaite	Pb₉Sb₁₀S₂₃ClO_0.5	Mon. 2/m : B2/m
2.JB.35a	Zinkenite	Pb₉Sb₂₂S₄₂	Hex. 6 : P6₃
2.JB.35b	Scainiite	Pb₁₄Sb₃₀S₅₄O₅	Mon. 2/m : B2/m
2.JB.35d	Pellouxite	(Cu,Ag)Pb₁₀Sb₁₂S₂₇O(Cl,S)_0.6	Mon. 2/m : B2/m
2.JB.35f	Tubulite	Ag₂Pb₂₂Sb₂₀S₅₃	Mon. m : Pb
2.JB.35e	Chovanite	Pb_15-2xSb_14+2xS₃₆O_x (x ~ 0.2)	Mon. 2/m : B2/m
2.JB.40b	Aschamalmite	Pb_6-3xBi_2+xS₉	Mon. 2/m : B2/m
2.JB.40a	Bursaite	Pb₅Bi₄S₁₁ (?)	Orth.
2.JB.40b	Eskimoite	Ag₇Pb₁₀Bi₁₅S₃₆	Mon.
2.JB.40a	Fizélyite	Ag₅Pb₁₄Sb₂₁S₄₈	Mon. 2/m
2.JB.40a	Gustavite	AgPbBi₃S₆	Orth. mmm (2/m 2/m 2/m)
2.JB.40a	Lillianite	Pb_3-2xAg_xBi_2+xS₆	Orth. mmm (2/m 2/m 2/m)
2.JB.40c	Ourayite	Ag₃Pb₄Bi₅S₁₃	Orth.
2.JB.40a	Ramdohrite	Pb_5.9Fe_0.1Mn_0.1In_0.1Cd_0.2Ag_2.8Sb_10.8S₂₄	Mon. 2/m
2.JB.40a	Roshchinite	Ag₁₉Pb₁₀Sb₅₁S₉₆	Orth. mmm (2/m 2/m 2/m) : Pnma
2.JB.40d	Schirmerite	PbAgBi₃S₆ - Pb₃Ag_1.5Bi_3.5S₉	Orth.
2.JB.40a	Treasurite	Ag₇Pb₆Bi₁₅S₃₂	Mon.
2.JB.40a	Uchucchacuaite	AgMnPb₃Sb₅S₁₂	Orth. mmm (2/m 2/m 2/m) : Pmmm
2.JB.40e	Ustarasite	Pb(Bi,Sb)₆S₁₀ (?)
2.JB.40a	Vikingite	Ag₅Pb₈Bi₁₃S₃₀	Mon. 2/m : B2/m
2.JB.40a	Xilingolite	Pb₃Bi₂S₆	Mon.
2.JB.40b	Heyrovskýite	Pb₆Bi₂S₉	Orth. mmm (2/m 2/m 2/m) : Cccm
2.JB.40	UM1988-05-S:AgBiCuHgPb	(Hg,Ag,Cu,Pb)₅Pb₅Bi₁₁S₂₇
2.JB.40	UM1988-06-S:AgBiCuHgPb	(Pb,Hg)₁₂(Cu,Ag)₃(Bi,Sb)₁₀(S,Te)₂₇
2.JB.40a	Menchettiite	AgPb_2.40Mn_1.60Sb₃As₂S₁₂	Mon. 2/m : P2₁/b
2.JB.40a	Terrywallaceite	AgPb(Sb,Bi)₃S₆	Mon. 2/m : P2₁/b
2.JB.40a	Jasrouxite	Ag₁₆Pb₄(Sb₂₄As₁₆)S₇₂	Tric. 1 : P1
2.JB.40a	Erzwiesite	Ag₈Pb₁₂Bi₁₆S₄₀	Orth. mmm (2/m 2/m 2/m) : Cmcm
2.JB.40a	Staročeskéite	Ag_0.70Pb_1.60(Bi_1.35Sb_1.35)_Σ2.70S₆	Orth. mmm (2/m 2/m 2/m) : Cmcm
2.JB.40a	Oyonite	Ag₃Mn₂Pb₄Sb₇As₄S₂₄	Mon. 2/m
2.JB.40a	Holubite	Ag₃Pb₆(Sb₈Bi₃)S₂₄	Mon. 2/m
2.JB.40b	Baiamareite	Ag₄Pb₁₂Fe₄Sb₂₀S₄₈	Mon. 2/m
2.JB.55	Gratonite	Pb₉As₄S₁₅	Trig. 3m : R3m
2.JB.60	Marrucciite	Hg₃Pb₁₆Sb₁₈S₄₆	Mon. 2/m : B2/m
2.JB.65	Vurroite	Pb₂₀Sn₂(Bi,As)₂₂S₅₄Cl₆	Mon. 2/m : B2/b
2.JB.65	Tazieffite	Pb₂₀Cd₂(As,Bi)₂₂S₅₀Cl₁₀	Mon. 2/m : B2/b
2.JB.70	Daliranite	PbHgAs₂S₅	Mon.

Fluorescence of QuatrandoriteHide

In UV light:

none

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.

Industrial Uses:

silver ore

Internet Links for QuatrandoriteHide

mindat.org URL:

https://www.mindat.org/min-11345.html
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Raman and XRD data at RRUFF project

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References for QuatrandoriteHide

Reference List:

Donnay, J.D.H., Donnay, G. (1954) Syntaxic intergrowths in the andorite series. American Mineralogist: 39: 161-171. [introduced the names andorite IV and andorite VI]

Moëlo, Y., Makovicky, E., Karup-Møller, S. (1984) New data on the minerals of the andorite series. Neues Jahrbuch für Mineralogie - Monatshefte, 1984. 175-182

Dunn, Pete J., Chao, George Y., Fleischer, Michael, Ferraiolo, James A., Langley, Richard H., Pabst, Adolf, Zilczer, Janet A. (1985) New mineral names. American Mineralogist, 70 (1-2) 214-221

Paar, W., Brodtkorb, M.K.de, Topa, D., Sureda, R.J., (1996) Caracterizacion mineralogica y quimica de algunas especies metaliferas del yacimiento Pirquitas, provincia de Jujuy, Republica Argentina. Part 1. 3rd Congreso Geologico Argentino & 3rd Congreso de Exploracion de Hidrocarburos: 3: 141-158.

Nespolo, M., Ozawa, T., Kawasaki, Y., Sugiyama, K. (2012) Structural relations and pseudosymmetries in the andorite homologous series. Journal of Mineralogical and Petrological Sciences: 107: 226-243.

Miyawaki, Ritsuro, Hatert, Frédéric, Pasero, Marco, Mills, Stuart J. (2022) IMA Commission on New Minerals, Nomenclature and Classification (CNMNC) – Newsletter 69. European Journal of Mineralogy, 34 (5) 463-468 doi:10.5194/ejm-34-463-2022

Localities for QuatrandoriteHide

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.


Argentina
Jujuy Province Rinconada Department Mina Pirquitas ⓘ Pirquitas Mine	DE BRODTKORB +1 other reference
San Miguel Open pit ⓘ Oploca Vein System	Paar et al. (2000) +1 other reference

Australia
Victoria East Gippsland Shire Omeo ⓘ Silver King Mine (Forsyths mine)	Birch (2021)

Bolivia
Oruro Cercado Province Oruro ⓘ San José Mine	American Mineralogist (1954) +1 other reference

France
Auvergne-Rhône-Alpes Haute-Loire Brioude Langeac Marsanges ⓘ Marsanges Mine	Pélisson (1989)
Pays de la Loire Vendée La Roche-sur-Yon ⓘ Bazoges-en-Paillers	Moëlo et al. (1989)
Provence-Alpes-Côte d'Azur Hautes-Alpes Gap La Chapelle-en-Valgaudemar ⓘ ~~Jas Roux~~	Y. Moëlo
Orpierre ⓘ Les Cougnasses mine (TL)	Moëlo +3 other references

Romania
Hunedoara County Certeju de Sus ⓘ Săcărâmb	Dincă et al. (2022)
Maramureș County Baia Mare ⓘ Herja Mine ?	Papp et al. (2007)

Slovakia
Banská Bystrica Region Žiar nad Hronom District Kremnica ⓘ Kremnica Au-Ag deposit	Števko M. et al. (2018)
Žilina Region Liptovský Mikuláš District Dúbrava Dúbrava Sb deposit Ľudovít adit ⓘ Dimitrij vein	Ozdín D. & Sejkora J. (2009)

Quatrandorite

About QuatrandoriteHide

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Type Occurrence of QuatrandoriteHide

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Relationship of Quatrandorite to other SpeciesHide

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Related Minerals - Strunz-mindat GroupingHide

Fluorescence of QuatrandoriteHide

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Localities for QuatrandoriteHide

Locality ListHide

Related Minerals - Strunz-mindat Grouping Hide