Mineral Evolution Database

Created and maintained by the Mineral Evolution Project in partnership with RRUFF and mindat.

Mineral locality data provided by mindat.org

The Mineral Evolution database is currently under development.

The goal of this page is to present localities at which the mineral is found, and estimates of the oldest possible geologic age of the minerals at these localities.

Locality Name:
Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico

Oldest recorded age at locality: 53.8
Youngest recorded age at locality: 1.85

mindat Locality ID: 17023
mindat URL: http://www.mindat.org/loc-17023.html

Tectonic Settings:

Total number of sublocalities beneath "Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico": 15
Total number of bottom-level sublocalities: 15

Number of Child Localities: 15
Child Localities:
Boquillas
Cueva Amarilla
Domatila
Laguna Del Diablo
Margaritas No. 1 Mine
Margaritas No. 2 Mine
Nopal Mine
Nopal No. 1 Mine
Nopal No. 2 Mine
Nopal No. 3 Mine
Peña Blanca Mine
Pena Blanca No. 17
Puerto No. 3 Mine
Tascates No. 1
Tascates No. 2

Latitude: 29°7'9"N
Longitude: 106°2'57"W
Decimal Degree (lat, lon): 29.119166666667,-106.04916666667

A	This mineral is Anthropogenic.
G	This mineral is directly dated.
B	This mineral is reported as having this age.
Y	This mineral is using an age reported as an element mineralization period.
O	This mineral is using an age calculated from all data at the locality.
R	The age displayed for this mineral originates from a different, non-child locality.
P	The age displayed for this mineral is the range of ages for this mineral at all of this locality's children.
	This mineral's age has not yet been recorded.

Alunite	Amorphous	Brannerite	Calcite	Clay	Corundum	Diaspore	Fluorite	Kaolinite	Molybdenite
None	Phosphuranylite	Pyrite	Quartz	Rutile	Scheelite	Schoepite	Sengierite	Smectite-vermiculite	Spinel
Titanite

Alunite ()*	Becquerelite ()*	Boltwoodite ()*	Calcite ()*	Carnotite ()*
Goethite ()*	Haiweeite ()*	Hematite ()*	Ianthinite ()*	Ilmenite ()*
Jarosite ()*	Kaolinite ()*	Kasolite ()*	Magnetite ()*	Margaritasite ()*
Metaschoepite ()*	Molybdenite ()*	Montmorillonite ()*	Opal ()*	Orthobrannerite ()*
Uranophane-β ()*	Phosphuranylite ()*	Powellite ()*	Pyrite ()*	Quartz ()*
Rutile ()*	Schoepite ()*	Soddyite ()*	Titanite ()*	Tyuyamunite ()*
Uraninite ()*	Uranophane-α ()*	Vorlanite ()*	Weeksite ()*

This Mineral list contains entries from this locality, including sub-localities. Minerals in bold are reported by mindat.org as occurring directly at this locality, and do not occur at any children (sublocalities) of this locality.

Elements at this locality, including sub-localities: Al C Ca Cs Fe H K Mg Mo Na O P Pb S Si Ti U V

Elements from minerals reported directly at this locality:

Structural Groups for minerals in this locality:
Alunite Amorphous Brannerite Calcite Clay Corundum Diaspore Fluorite Kaolinite Molybdenite
None Phosphuranylite Pyrite Quartz Rutile Scheelite Schoepite Sengierite Smectite-vermiculite Spinel
Titanite

34 IMA Minerals at location:

Mineral name	Structural Groups	IMA Formula	Max Age (Ma)	Min Age (Ma)	# of Sublocalities containing mineral	LOCALITY IDs, not mindat ids	# of localities containing mineral
Alunite ()*	None	KAl₃(SO₄)₂(OH)₆	44.95	1.85	2	81648,81651	966
Becquerelite ()*	None	Ca(UO₂)₆O₄(OH)₆·8H₂O	13.1	2.7	1	81651	92
Boltwoodite ()*	None	(K,Na)(UO₂)(SiO₃OH)·1.5H₂O	13.1	2.7	1	81651	67
Calcite ()*	Calcite	Ca(CO₃)	44.7	1.85	1	81651	27770
Carnotite ()*	None	K₂(UO₂)₂(VO₄)₂·3H₂O	44.95	2.7	5	81648,81649,81651,81652,81653	1184
Goethite ()*	Diaspore	FeO(OH)	44.7	1.85	1	81651	7437
Haiweeite ()*	None	Ca(UO₂)₂(Si₅O₁₂)(OH)₂·6H₂O	44.95	38.3	2	81648,81650	15
Hematite ()*	Corundum	Fe₂O₃	44.7	1.85	1	81651	14640
Ianthinite ()*	None	U⁴⁺₂(UO₂)₄O₆(OH)₄·9H₂O	44.95	2.7	2	81650,81651	31
Ilmenite ()*	Corundum	Fe²⁺Ti⁴⁺O₃	44.7	1.85	1	81651	5433
Jarosite ()*	Alunite	KFe³⁺₃(SO₄)₂(OH)₆	44.95	1.85	2	81648,81651	2228
Kaolinite ()*	Clay Kaolinite	Al₂Si₂O₅(OH)₄	44.95	1.85	3	81648,81651,81656	5591
Kasolite ()*	None	Pb(UO₂)(SiO₄)·H₂O	44.95	38.3	1	81654	198
Magnetite ()*	Spinel	Fe²⁺Fe³⁺₂O₄	44.7	1.85	1	81651	14899
Margaritasite ()*	Sengierite	Cs₂(UO₂)₂(VO₄)₂·H₂O	44.95	38.3	2	81648,81649	2
Metaschoepite ()*	Schoepite	(UO₂)₈O₂(OH)₁₂·10H₂O	13.1	2.7	1	81651	17
Molybdenite ()*	Molybdenite	MoS₂	44.95	38.3	1	81648	5800
Montmorillonite ()*	Clay Smectite-vermiculite	(Na,Ca)_0.3(Al,Mg)₂Si₄O₁₀(OH)₂·nH₂O	44.7	1.85	2	81651,81656	1508
Opal ()*	Amorphous	SiO₂·nH₂O	44.95	1.85	2	81648,81651	2994
Orthobrannerite ()*	Brannerite	U⁴⁺U⁶⁺Ti₄O₁₂(OH)₂	13.1	2.7	1	81651	5
Uranophane-β ()*	None	Ca(UO₂)₂(SiO₃OH)₂·5H₂O	44.95	2.7	3	81648,81651,81653	144
Phosphuranylite ()*	Phosphuranylite	KCa(H₃O)₃(UO₂)₇(PO₄)₄O₄·8H₂O	44.95	38.3	1	81648	182
Powellite ()*	Scheelite	Ca(MoO₄)	44.95	1.85	2	81648,81651	494
Pyrite ()*	Pyrite	FeS₂	44.95	1.85	2	81648,81651	39462
Quartz ()*	Quartz	SiO₂	44.95	1.85	3	81648,81651,81656	61156
Rutile ()*	Rutile	TiO₂	44.7	1.85	1	81651	5614
Schoepite ()*	Schoepite	(UO₂)₄O(OH)₆(H₂O)₆	44.95	2.7	2	81650,81651	94
Soddyite ()*	None	(UO₂)₂(SiO₄)(H₂O)₂	44.95	2.7	2	81650,81651	44
Titanite ()*	Titanite	CaTi(SiO₄)O	44.7	1.85	1	81651	4899
Tyuyamunite ()*	None	Ca(UO₂)₂(VO₄)₂·5-8H₂O	44.95	38.3	1	81648	628
Uraninite ()*	Fluorite	UO₂	44.95	2.7	4	81648,81649,81650,81651	2718
Uranophane-α ()*	None	Ca(UO₂)₂(SiO₃OH)₂·5H₂O	44.95	2.7	5	81648,81650,81651,81653,81656	890
Vorlanite ()*	Fluorite	CaUO₄	13.1	2.7	1	81651	5
Weeksite ()*	None	(K)₂(UO₂)₂(Si₅O₁₃)·4H₂O	44.95	2.7	5	81648,81649,81651,81652,81653	42

Locality Notes from all Ages at Locality:

Age ID	Locality Notes
Giersdorf_00000810	The Nopal I deposit is part of a Basin and Range horst composed of Tertiary rhyolitic tufts underlain by carbonate sedimentary rocks as is Yucca Mountain (Mesozoic carbonates at Nopal, Paleozoic carbonates at Yucca Mountain). Further, both the proposed Yucca Mountain repository horizon and the Nopal I deposit are located in the oxidizing, hydrologically unsaturated zone 100 m or more above the water table. The locality is similar chemically to the Yucca Mountain locality and is studied due to the chemical environment being ideal to store nuclear waste.
Giersdorf_00000811	The Nopal I deposit is part of a Basin and Range horst composed of Tertiary rhyolitic tufts underlain by carbonate sedimentary rocks as is Yucca Mountain (Mesozoic carbonates at Nopal, Paleozoic carbonates at Yucca Mountain). Further, both the proposed Yucca Mountain repository horizon and the Nopal I deposit are located in the oxidizing, hydrologically unsaturated zone 100 m or more above the water table. The locality is similar chemically to the Yucca Mountain locality and is studied due to the chemical environment being ideal to store nuclear waste.
Giersdorf_00000812	The Nopal I deposit is part of a Basin and Range horst composed of Tertiary rhyolitic tufts underlain by carbonate sedimentary rocks as is Yucca Mountain (Mesozoic carbonates at Nopal, Paleozoic carbonates at Yucca Mountain). Further, both the proposed Yucca Mountain repository horizon and the Nopal I deposit are located in the oxidizing, hydrologically unsaturated zone 100 m or more above the water table. The locality is similar chemically to the Yucca Mountain locality and is studied due to the chemical environment being ideal to store nuclear waste.
Giersdorf_00000813	The Nopal I deposit is part of a Basin and Range horst composed of Tertiary rhyolitic tufts underlain by carbonate sedimentary rocks as is Yucca Mountain (Mesozoic carbonates at Nopal, Paleozoic carbonates at Yucca Mountain). Further, both the proposed Yucca Mountain repository horizon and the Nopal I deposit are located in the oxidizing, hydrologically unsaturated zone 100 m or more above the water table. The locality is similar chemically to the Yucca Mountain locality and is studied due to the chemical environment being ideal to store nuclear waste.
Giersdorf_00000814	The Nopal I deposit is part of a Basin and Range horst composed of Tertiary rhyolitic tufts underlain by carbonate sedimentary rocks as is Yucca Mountain (Mesozoic carbonates at Nopal, Paleozoic carbonates at Yucca Mountain). Further, both the proposed Yucca Mountain repository horizon and the Nopal I deposit are located in the oxidizing, hydrologically unsaturated zone 100 m or more above the water table. The locality is similar chemically to the Yucca Mountain locality and is studied due to the chemical environment being ideal to store nuclear waste.
Giersdorf_00000815	The Nopal I deposit is part of a Basin and Range horst composed of Tertiary rhyolitic tufts underlain by carbonate sedimentary rocks as is Yucca Mountain (Mesozoic carbonates at Nopal, Paleozoic carbonates at Yucca Mountain). Further, both the proposed Yucca Mountain repository horizon and the Nopal I deposit are located in the oxidizing, hydrologically unsaturated zone 100 m or more above the water table. The locality is similar chemically to the Yucca Mountain locality and is studied due to the chemical environment being ideal to store nuclear waste.
Giersdorf_00000816	The Nopal I deposit is part of a Basin and Range horst composed of Tertiary rhyolitic tufts underlain by carbonate sedimentary rocks as is Yucca Mountain (Mesozoic carbonates at Nopal, Paleozoic carbonates at Yucca Mountain). Further, both the proposed Yucca Mountain repository horizon and the Nopal I deposit are located in the oxidizing, hydrologically unsaturated zone 100 m or more above the water table. The locality is similar chemically to the Yucca Mountain locality and is studied due to the chemical environment being ideal to store nuclear waste.
Giersdorf_00000817	The Nopal I deposit is part of a Basin and Range horst composed of Tertiary rhyolitic tufts underlain by carbonate sedimentary rocks as is Yucca Mountain (Mesozoic carbonates at Nopal, Paleozoic carbonates at Yucca Mountain). Further, both the proposed Yucca Mountain repository horizon and the Nopal I deposit are located in the oxidizing, hydrologically unsaturated zone 100 m or more above the water table. The locality is similar chemically to the Yucca Mountain locality and is studied due to the chemical environment being ideal to store nuclear waste.
Giersdorf_00000818	The Nopal I deposit is part of a Basin and Range horst composed of Tertiary rhyolitic tufts underlain by carbonate sedimentary rocks as is Yucca Mountain (Mesozoic carbonates at Nopal, Paleozoic carbonates at Yucca Mountain). Further, both the proposed Yucca Mountain repository horizon and the Nopal I deposit are located in the oxidizing, hydrologically unsaturated zone 100 m or more above the water table. The locality is similar chemically to the Yucca Mountain locality and is studied due to the chemical environment being ideal to store nuclear waste.
Giersdorf_00000955	The Sierra Peña Blanca is located to the north of Aldama City (Chihuahua State). It corresponds to an uplifted faulted block about 80 km long and 15 to 20 km wide, of Mesozoic and Cenozoic rocks, surrounded by basins to the west and the east. The average elevation of the sierra is 1,800 m, whereas the basins are around 1,600 m and decrease gradually eastward. This sierra,as well as other sierras belonging to the Basin and Range system, presents a general northward strike, with a tilt to the west.
Giersdorf_00000955b	The Sierra Peña Blanca is located to the north of Aldama City (Chihuahua State). It corresponds to an uplifted faulted block about 80 km long and 15 to 20 km wide, of Mesozoic and Cenozoic rocks, surrounded by basins to the west and the east. The average elevation of the sierra is 1,800 m, whereas the basins are around 1,600 m and decrease gradually eastward. This sierra,as well as other sierras belonging to the Basin and Range system, presents a general northward strike, with a tilt to the west.
Giersdorf_00000956	The Sierra Peña Blanca is located to the north of Aldama City (Chihuahua State). It corresponds to an uplifted faulted block about 80 km long and 15 to 20 km wide, of Mesozoic and Cenozoic rocks, surrounded by basins to the west and the east. The average elevation of the sierra is 1,800 m, whereas the basins are around 1,600 m and decrease gradually eastward. This sierra,as well as other sierras belonging to the Basin and Range system, presents a general northward strike, with a tilt to the west.
Giersdorf_00000957	The Sierra Peña Blanca is located to the north of Aldama City (Chihuahua State). It corresponds to an uplifted faulted block about 80 km long and 15 to 20 km wide, of Mesozoic and Cenozoic rocks, surrounded by basins to the west and the east. The average elevation of the sierra is 1,800 m, whereas the basins are around 1,600 m and decrease gradually eastward. This sierra,as well as other sierras belonging to the Basin and Range system, presents a general northward strike, with a tilt to the west.
Giersdorf_00000958	The Sierra Peña Blanca is located to the north of Aldama City (Chihuahua State). It corresponds to an uplifted faulted block about 80 km long and 15 to 20 km wide, of Mesozoic and Cenozoic rocks, surrounded by basins to the west and the east. The average elevation of the sierra is 1,800 m, whereas the basins are around 1,600 m and decrease gradually eastward. This sierra,as well as other sierras belonging to the Basin and Range system, presents a general northward strike, with a tilt to the west.
Giersdorf_00000959	The Sierra Peña Blanca is located to the north of Aldama City (Chihuahua State). It corresponds to an uplifted faulted block about 80 km long and 15 to 20 km wide, of Mesozoic and Cenozoic rocks, surrounded by basins to the west and the east. The average elevation of the sierra is 1,800 m, whereas the basins are around 1,600 m and decrease gradually eastward. This sierra,as well as other sierras belonging to the Basin and Range system, presents a general northward strike, with a tilt to the west.
Giersdorf_00000960	The Nopal 1 Deposit is confined to a breccia zone or pipe, limited to by faults. The breccia pipe is 100m high x 20m x 40m wide. The deposit is found within the Nopal Rhyolite. Uranium minerals found in the deposit are primarily oxidized.
Giersdorf_00000961	The Las Margaritas Deposit is hosedted by the Escuadra Formation and is found on the axis of a tectonic valley.
Giersdorf_00000962	The Puerto 3 deposit is located to the northwest of the Las Margaritas deposit and is hosted by the Nopal Rhyolite overlain by the Escuadra Formation.

18 Ages assigned to this locality:

Excel ID	Max Age (Ma)	Min Age (Ma)	Age as listed in reference	Dating Method	Age Interpret	Prioritized?	Sample Source	Sample Num	Dated Mineral	Minerals explicitely stated as having this age	Age applies to these Elements	MinDat Locality ID	Dated Locality (Max Age)	Location as listed in reference	Reference	Reference DOI	Reference ID	Age Notes
Giersdorf_00000955	53.8	53.8	53.8-42.2									17023	Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Peña Blanca	George-Aniel et al. (1991)	10.2113/gsecongeo.86.2.233	EG86_233	The age of 53.8 is given for altered biotites and 42.2 is given for sanidine. This is the referred to in the literature as unit 1.
Giersdorf_00000955b	42	42										17023	Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Peña Blanca	George-Aniel et al. (1991)	10.2113/gsecongeo.86.2.233	EG86_233	The age of 53.8 is given for altered biotites and 42.2 is given for sanidine. This is the referred to in the literature as unit 1.
Giersdorf_00000956	44.7	42.9	43.8±0.9				sanidine		Sanidine			17023	Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Peña Blanca	George-Aniel et al. (1991)	10.2113/gsecongeo.86.2.233	EG86_233	Age given for the Nopal rhyolite which underlies what was previously referred to as the Escuadra Formation. The two are occasionally separated by a thin layer of pumice, but together make up what is referred to as unit 2 in the literature.
Giersdorf_00000957	45.4	43.6	44.5±0.9				sanidine		Sanidine			17023	Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Peña Blanca	George-Aniel et al. (1991)	10.2113/gsecongeo.86.2.233	EG86_233	Age given for what was previously referred to as the Escuadra formation, which overlies the Nopal Rhyolite. The two are occasionally separated by a thin layer of pumice, but together make up what is referred to as unit 2 in the literature.
Giersdorf_00000958	38.3	38.3	38.3		After approximately a 6 Ma hiatus, which is generalized in all of the surrounding areas, volcanic activity started again and formed the top part of the Escuadra Formation.		sanidine		Sanidine			17023	Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Peña Blanca	George-Aniel et al. (1991)	10.2113/gsecongeo.86.2.233	EG86_233	Age given for the upper part of the Escuadra Formation, still a component of Unit 2.
Giersdorf_00000959	37.3	37.3	37.3		The age of the Mesa Formation is given to be the youngest volcanogenic rock of the area.		sanidine		Sanidine			17023	Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Peña Blanca	George-Aniel et al. (1991)	10.2113/gsecongeo.86.2.233	EG86_233	The Mesa formation is a component of what is referred to as Unit 5 of the locality.
Giersdorf_00000961	44.95	38.3	44.95-38.3							Carnotite, Margaritasite, Molybdenite, Phosphuranylite, Powellite, Tyuyamunite, Uranophane, Parauranophane	U	15672	Margaritas No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Las Margaritas	George-Aniel et al. (1991)	10.2113/gsecongeo.86.2.233	EG86_233	Age of the deposit is given by the window of ages for the Escuadra Formation.
Giersdorf_00000810	43.8	43.8	43.8		The age of 43.8 is provided as a constrant on the maximum possible uranium mineralization age as that is the age given to the host rock.							17009	Nopal No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Nopal I mine	Pearcy et al. (1994)	10.1016/0883-2927(94)90030-2	AG9_713
Giersdorf_00000811	13.1	2.7	7.9±5.2	U-Pb	Age is the average age from microprobe analysis on 7 samples	high	uraninite		Uraninite	Becquerelite, Boltwoodite, Ianthinite, Schoepite, Soddyite, Uraninite, Weeksite	U	17009	Nopal No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Nopal I mine	Pearcy et al. (1994)	10.1016/0883-2927(94)90030-2	AG9_713
Giersdorf_00000812	11.58	7.72	9.65±1.93	U-Pb			uraninite	32-ts2-p1	Uraninite	Becquerelite, Boltwoodite, Ianthinite, Schoepite, Soddyite, Uraninite, Weeksite	U	17009	Nopal No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Nopal I mine	Pearcy et al. (1994)	10.1016/0883-2927(94)90030-2	AG9_713
Giersdorf_00000813	10.1	6.08	8.09±2.01	U-Pb			uraninite	32-ts2-p4	Uraninite	Becquerelite, Boltwoodite, Ianthinite, Schoepite, Soddyite, Uraninite, Weeksite	U	17009	Nopal No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Nopal I mine	Pearcy et al. (1994)	10.1016/0883-2927(94)90030-2	AG9_713
Giersdorf_00000814	5.55	1.85	3.7±1.85	U-Pb			uraninite	32-ts2-p5	Uraninite	Becquerelite, Boltwoodite, Ianthinite, Schoepite, Soddyite, Uraninite, Weeksite	U	17009	Nopal No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Nopal I mine	Pearcy et al. (1994)	10.1016/0883-2927(94)90030-2	AG9_713
Giersdorf_00000815	15.21	11.41	13.31±1.9	U-Pb			uraninite	32-ts2-p6	Uraninite	Becquerelite, Boltwoodite, Ianthinite, Schoepite, Soddyite, Uraninite, Weeksite	U	17009	Nopal No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Nopal I mine	Pearcy et al. (1994)	10.1016/0883-2927(94)90030-2	AG9_713
Giersdorf_00000816	12.36	8.26	10.31±2.05	U-Pb			uraninite	1-ts3-p1	Uraninite	Becquerelite, Boltwoodite, Ianthinite, Schoepite, Soddyite, Uraninite, Weeksite	U	17009	Nopal No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Nopal I mine	Pearcy et al. (1994)	10.1016/0883-2927(94)90030-2	AG9_713
Giersdorf_00000817	6.22	2.08	4.15±2.07	U-Pb			uraninite	1-ts3-p2	Uraninite	Becquerelite, Boltwoodite, Ianthinite, Schoepite, Soddyite, Uraninite, Weeksite	U	17009	Nopal No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Nopal I mine	Pearcy et al. (1994)	10.1016/0883-2927(94)90030-2	AG9_713
Giersdorf_00000818	8.12	4.06	6.09±2.03	U-Pb			uraninite	1-ts3-p6	Uraninite	Becquerelite, Boltwoodite, Ianthinite, Schoepite, Soddyite, Uraninite, Weeksite	U	17009	Nopal No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Nopal I mine	Pearcy et al. (1994)	10.1016/0883-2927(94)90030-2	AG9_713
Giersdorf_00000960	44.7	42.9	43.8±0.9		The Nopal 1 Deposit and similar deposits are described as forming at the same time as the Nopal Rhyolite and are attributed its age.					Uraninite	U	17009	Nopal No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Nopal I mine	George-Aniel et al. (1991)	10.2113/gsecongeo.86.2.233	EG86_233	The Nopal 1 Deposit is used to describe the formation age of other similar deposits found in the Sierra Peña Blanca area, and are all found within the Nopal Rhyolite.
Giersdorf_00000962	44.7	42.9	43.8±0.9							Kaolinite, Montmorillonite, Uranophane, Parauranophane	U	208595	Puerto No. 3 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	Puerto 3 mine	George-Aniel et al. (1991)	10.2113/gsecongeo.86.2.233	EG86_233	The age is derived from the age of the host Nopal Rhyolite.

Sample	Source Locality	Reference URL
R060461	Margaritas No. 1 Mine, Sierra Peña Blanca, Peña Blanca District, Aldama Municipality, Chihuahua, Mexico	https://rruff.info/R060461

All locality data graciously provided by mindat.org

All age data...