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.

Thickness: 30 µm

Rotation:

Surface Relief:

Moderate

Dispersion:

relatively strong

Pleochroism:

Strong

Comments:

X = Colourless
Y = Light yellow
Z = Greenish or canary-yellow

Chemistry of JohanniteHide

Mindat Formula:

Cu(UO₂)₂(SO₄)₂(OH)₂ · 8H₂O

Element Weights:

Element	% weight
U	48.883 %
O	36.143 %
S	6.585 %
Cu	6.525 %
H	1.863 %

Calculated from ideal end-member formula.

Elements listed:

Cu, H, O, S, U - search for minerals with similar chemistry

Crystallography of JohanniteHide

Crystal System:

Triclinic

Class (H-M):

1 - Pinacoidal

Space Group:

Cell Parameters:

a = 16.54 Å, b = 18.02 Å, c = 6.84 Å
α = 90°, β = 90.63°, γ = 110.62°

Ratio:

a:b:c = 0.918 : 1 : 0.38

Unit Cell V:

1,907.93 Å³ (Calculated from Unit Cell)

Morphology:

Crystals prismatic [001] and thick tabular {100}. Subparallel or drusy aggregates; coatings; small spheroidal aggregates of lath-like fibers.

Twinning:

Twin axis [001], composition plane {010} or close to it. Both simple and lamellar, common.

Crystal StructureHide

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CIF File Best | x | y | z | a | b | c

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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)
0015685	Johannite	Mereiter K (1982) Die kristallstruktur des johannits, Cu(UO2)2(OH)2(SO4)28H2O* Tschermaks Mineralogische und Petrographische Mitteilungen 30 47-57		1982	Joachimsthal, Czech Republic	0	293

CIF Raw Data - click here to close

data_global
_chemical_name_mineral 'Johannite'
loop_
_publ_author_name
'Mereiter K'
_journal_name_full 'Tschermaks Mineralogische und Petrographische Mitteilungen'
_journal_volume 30 
_journal_year 1982
_journal_page_first 47
_journal_page_last 57
_publ_section_title
;
 Die kristallstruktur des johannits, Cu(UO2)2(OH)2(SO4)2*8H2O
;
_database_code_amcsd 0015685
_chemical_compound_source 'Joachimsthal, Czech Republic'
_chemical_formula_sum 'Cu U2 S2 O22 H18'
_cell_length_a 8.903
_cell_length_b 9.499
_cell_length_c 6.812
_cell_angle_alpha 109.87
_cell_angle_beta 112.01
_cell_angle_gamma 100.40
_cell_volume 469.944
_exptl_crystal_density_diffrn      3.441
_symmetry_space_group_name_H-M 'P -1'
loop_
_space_group_symop_operation_xyz
  'x,y,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
Cu   0.50000   0.50000   0.50000 ?
U  -0.00614   0.21322   0.11483 ?
S   0.04118   0.38746   0.71781 ?
O1  -0.23660   0.14020  -0.02860   0.03065
O2   0.22470   0.28620   0.25680   0.02571
O-H3   0.00320  -0.00740   0.19370   0.02229
O4  -0.01720   0.26610   0.47440   0.02546
O5  -0.03410   0.51010   0.70250   0.02976
O6  -0.03370   0.30570   0.82890   0.02520
O7   0.22980   0.45420   0.85130   0.03838
Wat8   0.55980   0.38020   0.25970   0.03027
Wat9   0.56200   0.37330   0.67460   0.03445
Wat10   0.56870   0.12010   0.34380   0.04711
Wat11   0.24750   0.09170   0.66610   0.03724
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
Cu 0.02160 0.02480 0.02360 0.00630 0.00950 0.00980
U 0.01580 0.00880 0.01240 0.00400 0.00740 0.00460
S 0.02440 0.01190 0.01740 0.00640 0.01070 0.00600

X-Ray Powder DiffractionHide

Powder Diffraction Data:

d-spacing	Intensity
7.73 Å	(10)
6.16 Å	(9)
4.38 Å	(6)
3.87 Å	(7)
3.41 Å	(8)
3.13 Å	(7)
3.04 Å	(7)

Geological EnvironmentHide

Paragenetic Mode(s):

Paragenetic Mode	Earliest Age (Ga)
Stage 7: Great Oxidation Event	<2.4
47a : [Near-surface hydration of prior minerals]
47b : [Sulfates and sulfites]
47f : [Uranyl (U⁶⁺) minerals]
Stage 10b: Anthropogenic minerals	<10 Ka
55 : Anthropogenic mine minerals

Type Occurrence of JohanniteHide

Type Locality:

ⓘ Eliáš Mine, Jáchymov, Karlovy Vary District, Karlovy Vary Region, Czech Republic

Place of Conservation of Type Material:

Natural History Museum, Vienna, Austria, A.a.186.

Reference:

Haidinger W (1830) On johannite, a new mineral species. The Edinburgh Journal of Science 3, 306-310

Other Language Names for JohanniteHide

Dutch:Johanniet

French:Sulfate vert d'urane

German:Johannit
Uranvitriol

Russian:Иоганнит

Spanish:Johannita

Varieties of JohanniteHide

Gilpinite

A ferrian variety of Johannite.

Common AssociatesHide

Associated Minerals Based on Photo Data:

28 photos of Johannite associated with Zippeite	K₃(UO₂)₄(SO₄)₂O₃(OH) · 3H₂O
24 photos of Johannite associated with Chalcanthite	CuSO₄ · 5H₂O
16 photos of Johannite associated with Gypsum	CaSO₄ · 2H₂O
8 photos of Johannite associated with Andersonite	Na₂Ca(UO₂)(CO₃)₃ · 6H₂O
8 photos of Johannite associated with Natrozippeite	Na₅(UO₂)₈(SO₄)₄O₅(OH)₃ · 12H₂O
6 photos of Johannite associated with Uraninite	UO₂
5 photos of Johannite associated with Uranopilite	(UO₂)₆(SO₄)O₂(OH)₆ · 14H₂O
5 photos of Johannite associated with Magnesiozippeite	Mg(UO₂)₂(SO₄)O₂ · 3.5H₂O
3 photos of Johannite associated with Devilline	CaCu₄(SO₄)₂(OH)₆ · 3H₂O
3 photos of Johannite associated with Malachite	Cu₂(CO₃)(OH)₂

Related Minerals - Strunz-mindat Grouping Hide

7.EB.	Bobcookite	NaAl(UO₂)₂(SO₄)₄ · 18H₂O	Tric. 1 : P1
7.EB.	Zincorietveldite	Zn(UO₂)(SO₄)₂(H₂O)₅	Orth. mm2 : Pmn2₁
7.EB.	Chenowethite	Mg(H₂O)₆[(UO₂)₂(SO₄)₂(OH)₂] · 5H₂O	Orth. mmm (2/m 2/m 2/m) : Cmcm
7.EB.I	Shinarumpite	[Co(H₂O)₆][(UO₂)(SO₄)₂(H₂O)] · 4H₂O	Mon. 2/m : P2₁/b
7.EB.	Alwilkinsite-(Y)	Y(UO₂)₃(SO₄)₂O(OH)₃(H₂O)₇ · 7H₂O	Orth. 2 2 2 : P2₁ 2₁ 2₁
7.EB.	Gurzhiite	Al(UO₂)(SO₄)₂F · 10H₂O	Tric. 1 : P1
7.EB.05	Meitnerite	(NH₄)(UO₂)(SO₄)(OH) · 2H₂O	Tric. 1 : P1
7.EB.10	Rietveldite	Fe(UO₂)(SO₄)₂(H₂O)₅	Orth. mm2 : Pmn2₁
7.EB.10	Deliensite	Fe[(UO₂)₂(SO₄)₂(OH)₂](H₂O)₇	Orth. mm2 : Pnn2
7.EB.15	Strassmannite	Al(UO₂)(SO₄)₂F · 16H₂O	Mon. 2/m : B2/b
7.EB.15	Leydetite	Fe(UO₂)(SO₄)₂ · 11H₂O	Mon. 2/m : P2₁/m
7.EB.15	Magnesioleydetite	Mg(UO₂)(SO₄)₂ · 11H₂O	Mon. 2/m : B2/b
7.EB.20	Greenlizardite	(NH₄)Na(UO₂)₂(SO₄)₂(OH)₂ · 4H₂O	Tric. 1 : P1
7.EB.25	Markcooperite	Pb₂(UO₂)(TeO₆)	Mon. 2/m : P2₁/b

RadioactivityHide

Radioactivity:

Element	% Content	Activity (Bq/kg)	Radiation Type
Uranium (U)	48.8834%	12,220,850	α, β, γ
Thorium (Th)	0.0000%	0	α, β, γ
Potassium (K)	0.0000%	0	β, γ

For comparison:

Banana: ~15 Bq per fruit
Granite: 1,000–3,000 Bq/kg
EU exemption limit: 10,000 Bq/kg

Note: Risk is shown relative to daily recommended maximum exposure to non-background radiation of 1000 µSv/year. Note that natural background radiation averages around 2400 µSv/year so in reality these risks are probably extremely overstated! With infrequent handling and safe storage natural radioactive minerals do not usually pose much risk.

Interactive Simulator:

Note: The mass selector refers to the mass of radioactive mineral present, not the full specimen, also be aware that the matrix may also be radioactive, possibly more radioactive than this mineral!

Mass of radioactive mineral:

Shielding material:

Activity: –

Distance	Dose rate	Risk
1 cm
10 cm
1 m

The external dose rate (D) from a radioactive mineral is estimated by summing the gamma radiation contributions from its Uranium, Thorium, and Potassium content, disregarding daughter-product which may have a significant effect in some cases (eg 'pitchblende'). This involves multiplying the activity (A, in Bq) of each element by its specific gamma ray constant (Γ), which accounts for its unique gamma emissions. The total unshielded dose at 1 cm is then scaled by the square of the distance (r, in cm) and multiplied by a shielding factor (μ_shield). This calculation provides a 'worst-case' or 'maximum risk' estimate because it assumes the sample is a point source and entirely neglects any self-shielding where radiation is absorbed within the mineral itself, meaning actual doses will typically be lower. The resulting dose rate (D) is expressed in microsieverts per hour (μSv/h).

D = ((A_U × Γ_U) + (A_Th × Γ_Th) + (A_K × Γ_K)) / r² × μ_shield

Other InformationHide

Notes:

Decomposed by water. Soluble in acids.
Radioactive

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 JohanniteHide

mindat.org URL:

https://www.mindat.org/min-2102.html
Please feel free to link to this page.

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External Links:

Look for Johannite on Webmineral

Look for Johannite on Wikipedia

Look for Johannite on Mineralien Atlas

Raman and XRD data at RRUFF project

References and PDF downloads at RRUFF project

American Mineralogist Crystal Structure Database

Handbook of Mineralogy page PDF

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References for JohanniteHide

Reference List:

John (1821) Chem. Unters.: 5: 254 (as Uranvitriol).

Haidinger, W. (1830) On johannite, a new mineral species. The Edinburgh Journal of Science 3, 306-310 (as Johannit).

Haidinger (1830) Abhl. Böhm. Ges. Prague (as Johannit).

Haidinger W (1830) On johannite, a new mineral species. The Edinburgh Journal of Science 3, 306-310

(1918) Atlas Der Krystallformen Vol. 4 - Text - Band IV - Fergusonit-Ixionolith. Carl Winters Universitätsbuchhandlung, Heidelberg.p.216

Larsen, E.S. and Berman (1926) American Mineralogist: 11: 1.

Doelter, C. (1927) Handbuch der Mineral-chemie (in 4 volumes divided into parts): 4 [2]: 648.

Nováček (1935) Soc. sc. Bohême, Mém., no. 7, Cl. 2.

Nováček R (1935) Study on some secondary uranium minerals (in English). Vestniku Královské Ceské Spolecnosti Nauk. 7, 1-36.

Peacock (1935) Zeitschrift für Kristallographie, Mineralogie und Petrographie, Leipzig: 90: 112.

Hurlbut (1950) American Mineralogist: 35: 531.

Palache, Charles, Berman, Harry, Frondel, Clifford (1951) The System of Mineralogy (7th ed.) Vol. 2 - Halides, Nitrates, Borates, Carbonates, Sulfates, Phosphates, Arsenates, Tungstates, Molybdates, Ect. John Wiley and Sons, New York.pp.606-607

Mereiter, K. (1982) Die Kristallstruktur des Johannites, Cu(UO2)2(OH)2(SO4)2·8H2O. Tschermaks Mineralogische und Petrographische Mitteilungen: 30: 47-57.

American Mineralogist (1983): 68: 851.

Čejka, J., Urbanec, Z., Čejka, J., Jr., and Mrázek, Z. (1988) Contribution to the thermal analysis and crystal chemistry of johannite Cu[(UO2)2(SO4)2(OH)2].8H2O. Neues Jahrbuch für Mineralogie, Abhandlungen: 159: 297-309.

Ondruš, P., Veselovský, F., Skála, R., Cisařová, I., Hloušek, J., Frýda, J., Vavřín, I., Čejka, J., Gabašová, A. (1997) New naturally occurring phases of secondary origin from Jáchymov (Joachimsthal) Journal of the Czech Geological Society, 42 (4) 77-108

Ondruš, P., Veselovský, F., Gabašová, A., Hloušek, J., Šrein, V. (2003) Supplement to secondary and rock-forming minerals of the Jáchymov ore district. Journal of the Czech Geological Society, 48 (3-4) 149-155

(2005) Johannite. Handbook of Mineralogy. Mineralogical Society of America

Burns, Peter C. (2005) U⁶⁺ minerals and inorganic compounds: insights into an expanded structural hierarchy of crystal structures. The Canadian Mineralogist, 43 (6) 1839-1894 doi:10.2113/gscanmin.43.6.1839

Frankland, Victoria L., Milodowski, Antoni E., Read, David (2022) Laser-Based Characterisation of the Copper Uranyl Sulphate, Johannite. Minerals, 12 (11) 1419 doi:10.3390/min12111419

Localities for JohanniteHide

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
Mendoza Province Malargüe Department Pampa Amarilla mining district ⓘ Huemul Mine	Brodtkorb et al. (3)
San Juan Province Ullúm Department ⓘ Gualilan-Gualcamayo District	De Brodtkorb (2009)

Australia
Northern Territory Coomalie Shire Rum Jungle ⓘ White's Mine	D.A.Berkman (1968)
West Arnhem Region Kakadu ⓘ Ranger Mine	Private Collection

Canada
Northwest Territories North Slave Region Great Bear Lake ⓘ Port Radium District	Traill (1983)

China
Xinjiang Ili Kazakh Autonomous Prefecture Zhaosu Co. ⓘ East Akesu River
Kezilesu Autonomous Prefecture (Kizilsu Autonomous Prefecture; Qizilsu Autonomous Prefecture) Wuqia Co. (Ulugqat Co.; Ulughchat Co.) ⓘ Malkantu deposit

Czech Republic
Central Bohemian Region Příbram District Příbram Březové Hory Březové Hory deposit ⓘ Jánská vein	Desor (09/2025)
Karlovy Vary Region Karlovy Vary District Jáchymov ⓘ Eliáš Mine (TL)	Lapis 2002 (7/8) +1 other reference
ⓘ Giftkies adit	Möhn et al. (12/2021)
Rovnost Mine ⓘ Geister vein	Plášil et al. (2012) +1 other reference
ⓘ Svornost Mine	Petr Fuchs
Plzeň Region Plzeň-South District Kasejovice ⓘ Újezd u Kasejovic	McCollam (2002)
South Bohemian Region Písek District Kovářov Předbořice ⓘ Předbořice deposit	Tschechien & Slowakei

France
Auvergne-Rhône-Alpes Loire Roanne Saint-Priest-la-Prugne Les Bois-Noirs Mining Claim ⓘ Le Limouzat Mine (incl. Le Limouzat Quarry; BN3; BN5; BN6)	J.-J. Périchaud: "Où trouver les minéraux d'Auvergne" et al. (Clermont-Ferrand) +1 other reference
Puy-de-Dôme Issoire Le Vernet-Chaméane ⓘ Chaméane Uranium Deposit	Chollet Pascal Collection
Brittany Morbihan Pontivy Guern ⓘ Quistiav (Quistiave)	- (1998)
Nouvelle-Aquitaine Corrèze Ussel Davignac ⓘ Le Boucheron	Deliens et al. (2004)
Occitanie Hérault Lodève Lodève ⓘ Mas d'Alary opencast mine	Henriot et al. (1998)

Gabon
Haut-Ogooué Province Léboumbi-Leyou Department Mounana ⓘ Mounana Mine	Korbel et al. (1999)

Germany
Baden-Württemberg Freiburg Region Waldshut St Blasien Menzenschwand ⓘ Krunkelbach Valley Uranium deposit	Walenta (1992)
Bavaria Upper Palatinate Schwandorf District Schwarzach bei Nabburg Wölsendorf ⓘ Johannesschacht Mine	Weiß (1990)
ⓘ Wölsendorf fluorite mining district	Dill et al. (2010)
Saxony Erzgebirgskreis Annaberg-Buchholz Frohnau Schreckenberg ⓘ Malwine Shaft (Shaft 29)	Witzke (2023)
Kleinrückerswalde ⓘ Uranus Mine	Desor (05/2020)
ⓘ Johanngeorgenstadt	Wittern (2001)
ⓘ Schneeberg
Schwarzenberg Pöhla ⓘ Pöhla-Tellerhäuser Mine	Wittern (2001)
Sächsische Schweiz-Osterzgebirge Glashütte Bärenhecke ⓘ Shaft 209	Witzke (2024)
Thuringia Greiz District ⓘ Paitzdorf	Witzke et al. (1998)

Greece
Attica East Attica Lavreotiki Agios Konstantinos (Kamariza) Kamariza Mines (Kamareza Mines) ⓘ Hilarion Mine ?	Wendel (2000)
Km 3 Km 3 mines ⓘ Km 3 open pit

Hungary
Baranya County Pécs District Kővágótöttös ⓘ Kővágószőlős Uranium Mine	Szakáll Sándor et al. (2016) +1 other reference

Italy
Trentino-Alto Adige/Südtirol Trento Province Borgo Chiese Condino ⓘ Rio Giulis uranium prospect	Campostrini et al. (2006)
Valdaone Daone Daone Valley Limes ⓘ Val Daone Mine	Campostrini et al. (2005)
Veneto Vicenza Province Valli del Pasubio ⓘ Contrada Cortiana	Domenico Saccardo et al. (2019) +1 other reference

Slovenia
Gorenja Vas–Poljane ⓘ Žirovski Vrh uranium mine	Dolenec et al. (1979) +1 other reference

Spain
Andalusia Córdoba Cardeña ⓘ Trapero Mine	www.foro-minerales.com (2020)
Catalonia Lleida Pallars Jussà La Vall Fosca La Torre de Cabdella Castell-estaó ⓘ Eureka mine	Castillo-Oliver et al. (2019)

Switzerland
Valais Saint-Maurice Salvan Les Marécottes La Creusaz ⓘ La Creusaz U prospect	Brugger et al. (2003)

Tajikistan
Sughd Ghafurov District Adrasmon (Adrasman) ⓘ Adrasman Mine	Chernikov et al. (1997)
Kandjol ore field ⓘ Taboshar Mine	Chernikov et al. (1997)

UK
England Cornwall Camborne ⓘ Dolcoath Mine	De Bondt (n.d.)
Carn Brea Carnkie Basset Mines Wheal Basset ⓘ North Wheal Basset
ⓘ South Wheal Basset ?	Collins (1871) +1 other reference
St Just Pendeen ⓘ Geevor Mine	Golley et al. (1995)

USA
Arizona Cochise County Bisbee ⓘ Cole Mine	Grant et al. (2005)
Mohave County Hack Canyon Mining District Hack Canyon Hack Canyon Mine ⓘ Hack's No. 2 claim	Van Gosen et al. (2025)
Yavapai County Eureka Mining District Bagdad Bozarth Mesa ⓘ Hillside Mine	Axelrod et al. (1951) +2 other references
California Riverside County Pinto Mountain ⓘ Ram deposit (Ram Mine; Ram group; Ram prospect)	Saul et al. (1970) +2 other references
Colorado ⓘ Gilpin County	Ford +2 other references
ⓘ Central City Mining District (Central Mining District)	Korbel et al. (1999)
ⓘ Quartz Hill	Eckel et al. (1997)
Eureka Mining District ⓘ Central City; Cherokee; Carroll; Woodmire; Rara Avis	Eckel et al. (1997)
Nevada Gulch ⓘ Belcher	Eckel et al. (1997)
Hinsdale County Uncompahgre Peak Area ⓘ Beth Group	Eckel et al. (1997)
Jefferson County Ralston Buttes Mining District ⓘ Schwartzwalder Mine (Ralston Creek Mine)	Eckel et al. (1997)
Saguache County Cochetopa Mining District (Cochetopa Creek Mining District) ⓘ Thornburg Mine (Los Ochos claims; Los Ochos Mine; Thornburg No. 1 Mine; T-1 Mine)	Eckel et al. (1997)
ⓘ Slick Rock Mining District	Eckel et al. (1997)
ⓘ Uravan Mining District	Eckel et al. (1997) +1 other reference
Connecticut Middlesex County Middletown ⓘ ~~White Rock Mining District~~	Schooner (1958)
ⓘ ~~White Rocks Quarry (Consolidated Quarry)~~	Schooner (1958)
New Mexico Cibola County Laguna subdistrict ⓘ Woodrow Mine (Woodrow breccia pipe)	NMBMMR Memoir 15 Geology and Technology ... +1 other reference
McKinley County ⓘ Ambrosia Lake Mining Sub-district	McCollam (2002)
Utah Emery County San Rafael Swell Mining District Green Vein Mesa ⓘ Consolidated Mine (Washington Uranium)	Bullock (1981)
ⓘ Pick's Delta Mine	Bullock (1981)
Garfield County ⓘ Henry Mountains	Bullock (1981)
Piute County Marysvale Mining District ⓘ Bullion Monarch Mine (Farmer John No. 3 Claim)	Bullock (1981)
Prospector Mine ⓘ Prospector No. 1	Bullock (1981)
San Juan County Deer Flat Mining District ⓘ Hideout Mine (Hideout No. 1 Mine)	Bullock (1981)
Fry Canyon Mining District ⓘ Bell No. 1 Mine	USGS: Geological Survey Circular 217
ⓘ Yellow John Mine	USGS: Geological Survey Circular 217
Red Canyon Mining District ⓘ Blue Lizard Mine	Collected by and in the collections of ... +2 other references
ⓘ Giveway-Simplot Mine	Collected and analyzed by Joy Desor.
ⓘ Green Lizard Mine	Hålenius et al. (2015) +2 other references
ⓘ Jerry group	USGS: Geological Survey Circular 217
ⓘ Markey Mine	Travis Olds collection +1 other reference
ⓘ Posey Mine	Bullock (1981)
ⓘ White Canyon Mining District	Bullock (1981)
ⓘ Ace of Hearts	USGS: Geological Survey Circular 217
Fry Mesa ⓘ East Saddle mine	Plášil et al. (2013)
ⓘ White Canyon No. 1 Mine	USGS: Geological Survey Circular 217
ⓘ Widowmaker Mine	Thorne (n.d.)
ⓘ Gonaway-North Point claim	USGS: Geological Survey Circular 217
ⓘ Happy Jack Mine (Blue Dike Mine)	USGS TEI #514 +4 other references
ⓘ Sunrise-Uracorp Mine	USGS: Geological Survey Circular 217
Uracop - Sunrise (Scenic Group; B and I) ⓘ Scenic No. 2	USGS: Geological Survey Circular 217
ⓘ Scenic No. 4	USGS: Geological Survey Circular 217
Wayne County Fremont Mining District ⓘ Oyler Mine	Bullock (1981)

Johannite

About JohanniteHide

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