Terrywallaceite (original) (raw)
A valid IMA mineral species
About TerrywallaceiteHide
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Specific Gravity:
6.005 (Calculated)
Crystal System:
Monoclinic
Name:
Named after Terry C. Wallace Jr., (b. June 30, 1956) a former professor of geosciences and mineral museum curator specializing in silver minerals at the University of Arizona for over 20 years. Wallace joined Los Alamos National Laboratory (LANL) in 2003 and now is the Principal Associate Director for science, technology, engineering, and educational activities at LANL.
This page provides mineralogical data about Terrywallaceite.
Unique IdentifiersHide
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Long-form identifier:
mindat:1:1:42804:4
c9fd2f3e-8de2-4e9d-b979-91e3e9d3a129
IMA Classification of TerrywallaceiteHide
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IMA Formula:
AgPb(Sb,Bi)3S6
Type description reference:
Yang, H., Downs, R. T., Evans, S. H., Pinch, W. W. (2013) Terrywallaceite, AgPb(Sb,Bi)3S6, isotypic with gustavite, a new mineral from Mina Herminia, Julcani Mining District, Huancavelica, Peru. American Mineralogist, 98 (7) 1310-1314 doi:10.2138/am.2013.4423
Classification of TerrywallaceiteHide
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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
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As of 2021 there are now IMA–CNMNC approved mineral symbols (abbreviations) for each mineral species, useful for tables and diagrams.
| Symbol | Source | Reference |
|---|---|---|
| Twl | 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 TerrywallaceiteHide
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Cleavage:
Distinct/Good
{010}
Density:
6.005 g/cm3 (Calculated)
Optical Data of TerrywallaceiteHide
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Anisotropism:
weak anisotropy (gray with bluish tint to bluish black in air)
Bireflectance:
weak bireflectance
Reflectivity:
| Wavelength | R1 | R2 |
|---|---|---|
| 400nm | 42.6% | 38.8% |
| 420nm | 42.2% | 38.3% |
| 440nm | 41.8% | 37.9% |
| 460nm | 41.4% | 37.5% |
| 470nm | 41.3% | 37.3% |
| 480nm | 41.2% | 37.1% |
| 500nm | 40.7% | 36.6% |
| 520nm | 40.3% | 36.2% |
| 540nm | 39.9% | 35.7% |
| 546nm | 39.7% | 35.5% |
| 560nm | 39.4% | 35.2% |
| 580nm | 39.0% | 34.8% |
| 589nm | 38.7% | 34.6% |
| 600nm | 38.4% | 34.3% |
| 620nm | 37.9% | 33.9% |
| 640nm | 37.4% | 33.4% |
| 650nm | 37.1% | 33.2% |
| 660nm | 36.8% | 33.0% |
| 680nm | 36.2% | 32.5% |
| 700nm | 35.7% | 32.0% |
Graph shows reflectance levels at different wavelengths (in nm). Top of box is 100%. Peak reflectance is 42.6%.
R1 shown in black, R2 shown in red
Colour in reflected light:
grayish white
Comments:
weak pleochroism (white to pale gray)
Chemistry of TerrywallaceiteHide
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Mindat Formula:
AgPb(Sb,Bi)3S6
Crystallography of TerrywallaceiteHide
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Crystal System:
Monoclinic
Class (H-M):
2/m - Prismatic
Cell Parameters:
a = 6.9764(4) Å, b = 19.3507(10) Å, c = 8.3870(4) Å
β = 107.519(2)°
Ratio:
a:b:c = 0.361 : 1 : 0.433
Unit Cell V:
1,079.71 ų (Calculated from Unit Cell)
Twinning:
pervasive on (100)
Crystal StructureHide
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| ID | Species | Reference | Link | Year | Locality | Pressure (GPa) | Temp (K) |
|---|---|---|---|---|---|---|---|
| 0019975 | Terrywallaceite | Yang H, Downs R T, Evans S H, Pinch W W (2013) Terrywallaceite, AgPb(Sb,Bi)3S6, isotypic with gustavite, a new mineral from Mina Herminia, Julcani Mining District, Huancavelica, Peru American Mineralogist 98 1310-131 | 2013 | Mina Herminia, Julcani Mining District, Huancavelica, Peru | 0 | 293 |
CIF Raw Data - click here to close
X-Ray Powder DiffractionHide
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Powder Diffraction Data:
| d-spacing | Intensity |
|---|---|
| 3.939 Å | (18) |
| 3.680 Å | (23) |
| 3.369 Å | (100) |
| 3.010 Å | (33) |
| 2.911 Å | (58) |
| 2.080 Å | (26) |
| 2.043 Å | (20) |
| 1.950 Å | (22) |
Geological EnvironmentHide
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Type Occurrence of TerrywallaceiteHide
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General Appearance of Type Material:
lath-shaped, black, with striations parallel to the elongated direction (the c axis) and up to 0.5 mm long
Place of Conservation of Type Material:
Mineral Museum of the University of Arizona, catalogue number 19304, and the RRUFF project, deposition number R100007.
Geological Setting of Type Material:
Hydrothermal alteration and mineralization are believed to have taken place concurrently with the intrusion of late-stage volcanic domes and dikes
Associated Minerals at Type Locality:
Reference:
Yang, H., Downs, R.T., Evans, S.H., Pinch, W.W. (2013) Terrywallaceite, AgPb(Sb,Bi)3S6, isotypic with gustavite, a new mineral from Mina Herminia, Julcani Mining District, Huancavelica, Peru. American Mineralogist: 98(7): 1310-1314.
Synonyms of TerrywallaceiteHide
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Relationship of Terrywallaceite to other SpeciesHide
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Other Members of this group:
Related Minerals - Strunz-mindat GroupingHide
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| 2.JB. | Senandorite | AgPbSb3S6 | Orth. m _m_2 : P m _n_21 |
|---|---|---|---|
| 2.JB. | Oscarkempffite | Ag10Pb4(Sb17Bi9)S48 | Orth. m _m_2 |
| 2.JB. | Chukotkaite | AgPb7Sb5S15 | Mon. 2/m : _P_21/b |
| 2.JB. | Arsenquatrandorite | Ag17.6Pb12.8Sb38.1As11.5S96 | Mon. 2/m : _P_21/b |
| 2.JB. | Clino-oscarkempffite | Ag15Pb6Sb21Bi18S72 | Mon. 2/m : _P_21/b |
| 2.JB. | Andreadiniite | CuHgAg7Pb7Sb24S48 | Mon. 2/m : _P_21/b |
| 2.JB. | Ginelfite | Ag2(Ag0.5Fe)TlPb23.5(Sb,As)33.5S76 | Tric. 1 : _P_1 |
| 2.JB. | Lazerckerite | Ag3.75Pb4.50(Sb7.75Bi4)S24 | Mon. 2/m : _P_21/b |
| 2.JB. | Lasmanisite | Ag12Pb13Mn11Sb44S96 | Orth. 222 : _P_212121 |
| 2.JB. | Montpelvouxite | AgPb16Sb27As18S84 | Tric. 1 : _P_1 |
| 2.JB. | Selenojunoite | Cu2Pb3Bi8Se16 | Mon. 2/m : _B_2/m |
| 2.JB.05 | Diaphorite | Ag3Pb2Sb3S8 | Mon. 2/m : _P_21/b |
| 2.JB.10 | Cosalite | Pb2Bi2S5 | Orth. m m m _(_2/_m_2/_m_2/m ) |
| 2.JB.15 | Freieslebenite | AgPbSbS3 | Mon. 2/m : _P_21/b |
| 2.JB.15 | Marrite | AgPbAsS3 | Mon. 2/m : _P_21/b |
| 2.JB.20 | Cannizzarite | Pb48Bi56S132 | Mon. 2/m : _P_21/m |
| 2.JB.20 | Wittite | Pb9Bi12(S,Se)27 | Mon. |
| 2.JB.25a | Junoite | Cu2Pb3Bi8(S,Se)16 | Mon. 2/m : _B_2/m |
| 2.JB.25i | Neyite | Ag2Cu6Pb25Bi26S68 | Mon. 2/m : _B_2/m |
| 2.JB.25c | Nordströmite | CuPb3Bi7(Se4S10) | Mon. 2/m : _P_21/m |
| 2.JB.25g | Nuffieldite | Cu1.4Pb2.4Bi2.4Sb0.2S7 | Orth. m m m _(_2/_m_2/_m_2/m ) |
| 2.JB.25d | Proudite | CuPb7.5Bi9.33(S,Se)22 | Mon. 2/m : _B_2/m |
| 2.JB.25h | Weibullite | Pb5Bi8Se7S11 | Orth. m m m _(_2/_m_2/_m_2/m ) : P n m a |
| 2.JB.25b | Felbertalite | Cu2Pb6Bi8S19 | Mon. 2/m : _B_2/m |
| 2.JB.25j | Rouxelite | Cu2HgPb23Sb27S65.5 | Mon. 2/m : _B_2/m |
| 2.JB.25f | Ángelaite | Cu2AgPbBiS4 | Orth. m m m _(_2/_m_2/_m_2/m ) : P n m a |
| 2.JB.25i | Cuproneyite | Cu7Pb27Bi25S68 | Mon. 2/m : _B_2/m |
| 2.JB.30a | Geocronite | Pb14Sb6S23 | Mon. 2/m : _P_21/m |
| 2.JB.30a | Jordanite | Pb14As6S23 | Mon. 2/m : _P_21/m |
| 2.JB.30b | Kirkiite | Pb10Bi3As3S19 | Mon. 2/m : _P_21/m |
| 2.JB.30c | Tsugaruite | Pb28As15S50Cl | Orth. m _m_2 : P n _n_2 |
| 2.JB.30a | Marcobaldiite | Pb12(Sb3As2Bi)Σ6S21 | Tric. 1 : _P_1 |
| 2.JB.30a | Arsenmarcobaldiite | Pb12(As3.2Sb2.8)Σ6S21 | Tric. 1 : _P_1 |
| 2.JB.35c | Pillaite | Pb9Sb10S23ClO0.5 | Mon. 2/m : _B_2/m |
| 2.JB.35a | Zinkenite | Pb9Sb22S42 | Hex. 6 : _P_63 |
| 2.JB.35b | Scainiite | Pb14Sb30S54O5 | Mon. 2/m : _B_2/m |
| 2.JB.35d | Pellouxite | (Cu,Ag)Pb10Sb12S27O(Cl,S)0.6 | Mon. 2/m : _B_2/m |
| 2.JB.35f | Tubulite | Ag2Pb22Sb20S53 | Mon. m : P b |
| 2.JB.35e | Chovanite | Pb15-2xSb14+2xS36Ox (x ~ 0.2) | Mon. 2/m : _B_2/m |
| 2.JB.40b | Aschamalmite | Pb6-3xBi2+xS9 | Mon. 2/m : _B_2/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. m m m _(_2/_m_2/_m_2/m ) |
| 2.JB.40a | Lillianite | Pb3-2xAgxBi2+xS6 | Orth. m m m _(_2/_m_2/_m_2/m ) |
| 2.JB.40c | Ourayite | Ag3Pb4Bi5S13 | Orth. |
| 2.JB.40a | Ramdohrite | Pb5.9Fe0.1Mn0.1In0.1Cd0.2Ag2.8Sb10.8S24 | Mon. 2/m |
| 2.JB.40a | Roshchinite | Ag19Pb10Sb51S96 | Orth. m m m _(_2/_m_2/_m_2/m ) : P n m a |
| 2.JB.40d | Schirmerite | PbAgBi3S6 - Pb3Ag1.5Bi3.5S9 | Orth. |
| 2.JB.40a | Treasurite | Ag7Pb6Bi15S32 | Mon. |
| 2.JB.40a | Uchucchacuaite | AgMnPb3Sb5S12 | Orth. m m m _(_2/_m_2/_m_2/m ) : P m m m |
| 2.JB.40e | Ustarasite | Pb(Bi,Sb)6S10 (?) | |
| 2.JB.40a | Vikingite | Ag5Pb8Bi13S30 | Mon. 2/m : _B_2/m |
| 2.JB.40a | Xilingolite | Pb3Bi2S6 | Mon. |
| 2.JB.40b | Heyrovskýite | Pb6Bi2S9 | Orth. m m m _(_2/_m_2/_m_2/m ) : C c c m |
| 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 | Quatrandorite | AgPbSb3S6 | Mon. 2/m : _P_21/b |
| 2.JB.40a | Menchettiite | AgPb2.40Mn1.60Sb3As2S12 | Mon. 2/m : _P_21/b |
| 2.JB.40a | Jasrouxite | Ag16Pb4(Sb24As16)S72 | Tric. 1 : _P_1 |
| 2.JB.40a | Erzwiesite | Ag8Pb12Bi16S40 | Orth. m m m _(_2/_m_2/_m_2/m ) : C m c m |
| 2.JB.40a | Staročeskéite | Ag0.70Pb1.60(Bi1.35Sb1.35)Σ2.70S6 | Orth. m m m _(_2/_m_2/_m_2/m ) : C m c m |
| 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.40a | Tarutinoite | Ag3Pb7Bi7S19 | Mon. 2/m : _B_2/m |
| 2.JB.55 | Gratonite | Pb9As4S15 | Trig. 3_m_ : R_3_m |
| 2.JB.60 | Marrucciite | Hg3Pb16Sb18S46 | Mon. 2/m : _B_2/m |
| 2.JB.65 | Vurroite | Pb20Sn2(Bi,As)22S54Cl6 | Mon. 2/m : _B_2/b |
| 2.JB.65 | Tazieffite | Pb20Cd2(As,Bi)22S50Cl10 | Mon. 2/m : _B_2/b |
| 2.JB.70 | Daliranite | PbHgAs2S5 | Mon. |
Other InformationHide
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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 TerrywallaceiteHide
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References for TerrywallaceiteHide
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Reference List:
Yang, H., Downs, R. T., Evans, S. H., Pinch, W. W. (2013) Terrywallaceite, AgPb(Sb,Bi)3S6, isotypic with gustavite, a new mineral from Mina Herminia, Julcani Mining District, Huancavelica, Peru. American Mineralogist, 98 (7) 1310-1314 doi:10.2138/am.2013.4423
Localities for TerrywallaceiteHide
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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
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- 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.
| Bolivia | |
|---|---|
| Oruro Cercado Province Oruro ⓘ San José Mine | Sidki Rius (2017) |
| Poopó Province ⓘ Poopó | Torres et al. (2019) |
| Potosí Sud Chichas Province Atocha Municipality ⓘ Chocaya-Animas mining district (Animas-Chocaya mining district) | Cazorla Martínez et al. (2019) |
| ⓘ Ánimas Mine | Torró et al. (2019) |
| China | |
| Guangxi Hechi Luocheng Mulao Autonomous County ⓘ Jialong Cu-Sn deposit | Liu et al. (2018) |
| Czech Republic | |
| Central Bohemian Region ⓘ Kutná Hora District | Pažout (2017) |
| Kutná Hora ⓘ Staročeské Lode | Pažout et al. (2017) +1 other reference |
| Peru (TL) | |
| Huancavelica Angaraes Province Julcani District Herminia Mine Vein 14 ⓘ Level 390 (TL) | Williams et al. (2011) +1 other reference |