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Torres, Belén; Melgarejo, Joan-Carles; Torró, Lisard; Camprubí, Antoni; Castillo-Oliver, Montgarri; Artiaga, David; Campeny, Marc; Tauler, Esperança; Jiménez-Franco, Abigail; Alfonso, Pura; et al. (2019) The Poopó Polymetallic Epithermal Deposit, Bolivia: Mineralogy, Genetic Constraints, and Distribution of Critical Elements. Minerals, 9 (8). 472 doi:10.3390/min9080472

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Reference Type	Journal (article/letter/editorial)
Title	The Poopó Polymetallic Epithermal Deposit, Bolivia: Mineralogy, Genetic Constraints, and Distribution of Critical Elements
Journal	Minerals
Authors	Torres, Belén		Author
	Melgarejo, Joan-Carles		Author
	Torró, Lisard		Author
	Camprubí, Antoni		Author
	Castillo-Oliver, Montgarri		Author
	Artiaga, David		Author
	Campeny, Marc		Author
	Tauler, Esperança		Author
	Jiménez-Franco, Abigail		Author
	Alfonso, Pura		Author
	Arce-Burgoa, Osvaldo		Author
Year	2019 (July 31)	Volume	9
Page(s)	472	Issue	8
Publisher	MDPI AG
URL	http://dx.doi.org/10.3390/min9080472
Download URL	https://www.mdpi.com/2075-163X/9/8/472/pdf?version=1565253751
DOI	doi:10.3390/min9080472Search in ResearchGate
	Generate Citation Formats
Classification	Not set	LoC	Not set
Mindat Ref. ID	7736151	Long-form Identifier	mindat:1:5:7736151:8
GUID	0
Full Reference	Torres, Belén; Melgarejo, Joan-Carles; Torró, Lisard; Camprubí, Antoni; Castillo-Oliver, Montgarri; Artiaga, David; Campeny, Marc; Tauler, Esperança; Jiménez-Franco, Abigail; Alfonso, Pura; et al. (2019) The Poopó Polymetallic Epithermal Deposit, Bolivia: Mineralogy, Genetic Constraints, and Distribution of Critical Elements. Minerals, 9 (8). 472 doi:10.3390/min9080472
Plain Text	Torres, Belén; Melgarejo, Joan-Carles; Torró, Lisard; Camprubí, Antoni; Castillo-Oliver, Montgarri; Artiaga, David; Campeny, Marc; Tauler, Esperança; Jiménez-Franco, Abigail; Alfonso, Pura; et al. (2019) The Poopó Polymetallic Epithermal Deposit, Bolivia: Mineralogy, Genetic Constraints, and Distribution of Critical Elements. Minerals, 9 (8). 472 doi:10.3390/min9080472
In	(2019, July) Minerals Vol. 9 (8) MDPI AG
Abstract/Notes	The tin-rich polymetallic epithermal deposit of Poopó, of plausible Late Miocene age, is part of the Bolivian Tin Belt. As an epithermal low sulfidation mineralisation, it represents a typological end-member within the “family” of Bolivian tin deposits. The emplacement of the mineralisation was controlled by the regional fault zone that constitutes the geological border between the Bolivian Altiplano and the Eastern Andes Cordillera. In addition to Sn and Ag, its economic interest resides in its potential in critical elements as In, Ga and Ge. This paper provides the first systematic characterisation of the complex mineralogy and mineral chemistry of the Poopó deposit with the twofold aim of identifying the mineral carriers of critical elements and endeavouring to ascertain plausible metallogenic processes for the formation of this deposit, by means of a multi-methodological approach. The poor development of hydrothermal alteration assemblage, the abundance of sulphosalts and the replacement of löllingite and pyrrhotite by arsenopyrite and pyrite, respectively, indicate that this deposit is ascribed to the low-sulphidation subtype of epithermal deposits, with excursions into higher states of sulphidation. Additionally, the occurrence of pyrophyllite and topaz has been interpreted as the result of discrete pulses of high-sulphidation magmatic fluids. The δ34SVCDT range in sulphides (−5.9 to −2.8‰) is compatible either with: (i) hybrid sulphur sources (i.e., magmatic and sedimentary or metasedimentary); or (ii) a sole magmatic source involving magmas that derived from partial melting of sedimentary rocks or underwent crustal assimilation. In their overall contents in critical elements (In, Ga and Ge), the key minerals in the Poopó deposit, based on their abundance in the deposit and compositions, are rhodostannite, franckeite, cassiterite, stannite and, less importantly, teallite, sphalerite and jamesonite.

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Locality Pages

Locality	Citation Details
Ichocollo Mine (Monserrat Mine), Monserrat-Antequera mining district, Poopó Province, Oruro, Bolivia	(Paragenetic Table: Figure 9 indicates that Teallite is later in the sequence than Cylindrite)
Poopó, Poopó Province, Oruro, Bolivia
Trinacria Mine, Callapampa, Poopó, Poopó Province, Oruro, Bolivia
Condor Iquiña, Poopó, Poopó Province, Oruro, Bolivia
Rosario Mine, Poopó, Poopó Province, Oruro, Bolivia
San Francisco Mine, Poopó, Poopó Province, Oruro, Bolivia

Mineral Occurrences

Locality	Mineral(s)
Poopó, Poopó Province, Oruro, Bolivia	ⓘ Acanthite, ⓘ Adularia, ⓘ Andorite, ⓘ Apatite, ⓘ Argyrodite, ⓘ Arsenopyrite, ⓘ Baryte, ⓘ Berndtite, ⓘ Bismuthinite, ⓘ Breccia, ⓘ Canfieldite, ⓘ Cassiterite, ⓘ Chalcopyrite, ⓘ Cinnabar, ⓘ Cylindrite, ⓘ Epsomite, ⓘ Franckeite, ⓘ Galena, ⓘ Greenockite, ⓘ Herzenbergite, ⓘ Illite, ⓘ Jalpaite, ⓘ Jamesonite, ⓘ K Feldspar, ⓘ Kermesite, ⓘ Kësterite, ⓘ Kleemanite, ⓘ Löllingite, ⓘ Marcasite, ⓘ Monazite Group, ⓘ Muscovite, ⓘ Native Bismuth, ⓘ Plumbogummite, ⓘ Proustite, ⓘ Pyrargyrite, ⓘ Pyrite, ⓘ Pyrophyllite, ⓘ Pyrrhotite, ⓘ Quartz, ⓘ Ramdohrite, ⓘ Rhodostannite, ⓘ Semseyite, ⓘ Siderite, ⓘ Smectite Group, ⓘ Sphalerite, ⓘ Stannite, ⓘ Stannite Group, ⓘ Stibnite, ⓘ Teallite, ⓘ Tennantite Subgroup, ⓘ Terrywallaceite, ⓘ Tetrahedrite Subgroup, ⓘ Thorianite, ⓘ Topaz, ⓘ Treasurite, ⓘ Vivianite, ⓘ Wolframite Group, ⓘ Wurtzite, ⓘ Zinkenite, ⓘ Zircon

Locality

Mineral(s)

Poopó, Poopó Province, Oruro, Bolivia

ⓘ Acanthite, ⓘ Adularia, ⓘ Andorite, ⓘ Apatite, ⓘ Argyrodite, ⓘ Arsenopyrite, ⓘ Baryte, ⓘ Berndtite, ⓘ Bismuthinite, ⓘ Breccia, ⓘ Canfieldite, ⓘ Cassiterite, ⓘ Chalcopyrite, ⓘ Cinnabar, ⓘ Cylindrite, ⓘ Epsomite, ⓘ Franckeite, ⓘ Galena, ⓘ Greenockite, ⓘ Herzenbergite, ⓘ Illite, ⓘ Jalpaite, ⓘ Jamesonite, ⓘ K Feldspar, ⓘ Kermesite, ⓘ Kësterite, ⓘ Kleemanite, ⓘ Löllingite, ⓘ Marcasite, ⓘ Monazite Group, ⓘ Muscovite, ⓘ Native Bismuth, ⓘ Plumbogummite, ⓘ Proustite, ⓘ Pyrargyrite, ⓘ Pyrite, ⓘ Pyrophyllite, ⓘ Pyrrhotite, ⓘ Quartz, ⓘ Ramdohrite, ⓘ Rhodostannite, ⓘ Semseyite, ⓘ Siderite, ⓘ Smectite Group, ⓘ Sphalerite, ⓘ Stannite, ⓘ Stannite Group, ⓘ Stibnite, ⓘ Teallite, ⓘ Tennantite Subgroup, ⓘ Terrywallaceite, ⓘ Tetrahedrite Subgroup, ⓘ Thorianite, ⓘ Topaz, ⓘ Treasurite, ⓘ Vivianite, ⓘ Wolframite Group, ⓘ Wurtzite, ⓘ Zinkenite, ⓘ Zircon

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