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La Esperanza deposit, Aguilar mining district, Humahuaca Department, Jujuy Province, Argentinai
Regional Level Types
La Esperanza depositDeposit
Aguilar mining districtDistrict
Humahuaca DepartmentDepartment
Jujuy ProvinceProvince
ArgentinaCountry

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Key
Latitude & Longitude (WGS84):
23° 7' 46'' South , 65° 42' 58'' West
Latitude & Longitude (decimal):
Locality type:
Nearest Settlements:
PlacePopulationDistance
El Aguilar3,655 (2016)11.0km
Humahuaca11,369 (2015)38.3km
Abra Pampa9,425 (2016)45.5km


SEDEX mineralization related to igneous intrusion into Ordovician sediments. Located 7 km from the Aguilar mine. There is some confusion as to which side of the Jujuy/Salta border this mine is located on.

Native lead reported with galena from here.

Select Mineral List Type

Standard Detailed Strunz Dana Chemical Elements

Mineral List


24 valid minerals.

Detailed Mineral List:

Alabandite
Formula: MnS
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Albite
Formula: Na(AlSi3O8)
Reference: Gemmel, J.B., Zantor, H., and Meinert, L.D. (1992): Genesis of the Aguilar zinc-lead-silver deposit, Argentina - Contact metasomatic vs. sedimentary exhalative. Economic Geology, 87, 2085-2112.
'Apatite'
Formula: Ca5(PO4)3(Cl/F/OH)
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Arsenopyrite
Formula: FeAsS
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Baryte
Formula: BaSO4
Reference: Gemmel, J.B., Zantor, H., and Meinert, L.D. (1992): Genesis of the Aguilar zinc-lead-silver deposit, Argentina - Contact metasomatic vs. sedimentary exhalative. Economic Geology, 87, 2085-2112.; Milka K. de Brodtkorb (2002) Las Especies Minerales de la Republica Argentina. Vol. 1 (elements, sulphides and sulphosalts). (Asociacion Mineralogica Argentina); USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Chalcopyrite
Formula: CuFeS2
Reference: Gemmel, J.B., Zantor, H., and Meinert, L.D. (1992): Genesis of the Aguilar zinc-lead-silver deposit, Argentina - Contact metasomatic vs. sedimentary exhalative. Economic Geology, 87, 2085-2112.; USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Clinozoisite
Formula: {Ca2}{Al3}(Si2O7)(SiO4)O(OH)
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Diopside
Formula: CaMgSi2O6
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Epidote
Formula: {Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Reference: Gemmel, J.B., Zantor, H., and Meinert, L.D. (1992): Genesis of the Aguilar zinc-lead-silver deposit, Argentina - Contact metasomatic vs. sedimentary exhalative. Economic Geology, 87, 2085-2112.; USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Fluorite
Formula: CaF2
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Galena
Formula: PbS
Reference: Gemmel, J.B., Zantor, H., and Meinert, L.D. (1992): Genesis of the Aguilar zinc-lead-silver deposit, Argentina - Contact metasomatic vs. sedimentary exhalative. Economic Geology, 87, 2085-2112.; Milka K. de Brodtkorb (2002) Las Especies Minerales de la Republica Argentina. Vol. 1 (elements, sulphides and sulphosalts). (Asociacion Mineralogica Argentina); USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
'Garnet Group'
Formula: X3Z2(SiO4)3
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Greigite
Formula: Fe2+Fe3+2S4
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Lead
Formula: Pb
Description: associated with galena
Reference: Milka K. de Brodtkorb (2002) Las Especies Minerales de la Republica Argentina. Vol. 1 (elements, sulphides and sulphosalts). (Asociacion Mineralogica Argentina); USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Magnetite
Formula: Fe2+Fe3+2O4
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Marcasite
Formula: FeS2
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Muscovite
Formula: KAl2(AlSi3O10)(OH)2
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Pyrargyrite
Formula: Ag3SbS3
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Pyrite
Formula: FeS2
Reference: Gemmel, J.B., Zantor, H., and Meinert, L.D. (1992): Genesis of the Aguilar zinc-lead-silver deposit, Argentina - Contact metasomatic vs. sedimentary exhalative. Economic Geology, 87, 2085-2112.; USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Pyrrhotite
Formula: Fe7S8
Reference: Gemmel, J.B., Zantor, H., and Meinert, L.D. (1992): Genesis of the Aguilar zinc-lead-silver deposit, Argentina - Contact metasomatic vs. sedimentary exhalative. Economic Geology, 87, 2085-2112.; USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Rhodonite
Formula: Mn2+SiO3
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Sphalerite
Formula: ZnS
Reference: Milka K. de Brodtkorb (2002) Las Especies Minerales de la Republica Argentina. Vol. 1 (elements, sulphides and sulphosalts). (Asociacion Mineralogica Argentina); USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Tremolite
Formula: ☐{Ca2}{Mg5}(Si8O22)(OH)2
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Vesuvianite
Formula: Ca19Fe3+Al4(Al6Mg2)(☐4)☐[Si2O7]4[(SiO4)10]O(OH)9
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Vonsenite
Formula: Fe2+2Fe3+(BO3)O2
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models
Wurtzite
Formula: (Zn,Fe)S
Reference: USGS Open-File Report 2009-1252 Sediment-hosted zinc-lead deposits of the world - Database and grade and tonnage models

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
Lead1.AA.05Pb
Group 2 - Sulphides and Sulfosalts
Alabandite2.CD.10MnS
Arsenopyrite2.EB.20FeAsS
Chalcopyrite2.CB.10aCuFeS2
Galena2.CD.10PbS
Greigite2.DA.05Fe2+Fe3+2S4
Marcasite2.EB.10aFeS2
Pyrargyrite2.GA.05Ag3SbS3
Pyrite2.EB.05aFeS2
Pyrrhotite2.CC.10Fe7S8
Sphalerite2.CB.05aZnS
Wurtzite2.CB.45(Zn,Fe)S
Group 3 - Halides
Fluorite3.AB.25CaF2
Group 4 - Oxides and Hydroxides
Magnetite4.BB.05Fe2+Fe3+2O4
Group 6 - Borates
Vonsenite6.AB.30Fe2+2Fe3+(BO3)O2
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Baryte7.AD.35BaSO4
Group 9 - Silicates
Albite9.FA.35Na(AlSi3O8)
Clinozoisite9.BG.05a{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
Diopside9.DA.15CaMgSi2O6
Epidote9.BG.05a{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Muscovite9.EC.15KAl2(AlSi3O10)(OH)2
Rhodonite9.DK.05Mn2+SiO3
Tremolite9.DE.10☐{Ca2}{Mg5}(Si8O22)(OH)2
Vesuvianite9.BG.35Ca19Fe3+Al4(Al6Mg2)(☐4)☐[Si2O7]4[(SiO4)10]O(OH)9
Unclassified Minerals, Rocks, etc.
'Apatite'-Ca5(PO4)3(Cl/F/OH)
'Garnet Group'-X3Z2(SiO4)3

List of minerals arranged by Dana 8th Edition classification

Group 1 - NATIVE ELEMENTS AND ALLOYS
Metals, other than the Platinum Group
Lead1.1.1.4Pb
Group 2 - SULFIDES
AmXp, with m:p = 1:1
Alabandite2.8.1.4MnS
Galena2.8.1.1PbS
Pyrrhotite2.8.10.1Fe7S8
Sphalerite2.8.2.1ZnS
Wurtzite2.8.7.1(Zn,Fe)S
AmBnXp, with (m+n):p = 1:1
Chalcopyrite2.9.1.1CuFeS2
AmBnXp, with (m+n):p = 3:4
Greigite2.10.1.10Fe2+Fe3+2S4
AmBnXp, with (m+n):p = 1:2
Arsenopyrite2.12.4.1FeAsS
Marcasite2.12.2.1FeS2
Pyrite2.12.1.1FeS2
Group 3 - SULFOSALTS
ø = 3
Pyrargyrite3.4.1.2Ag3SbS3
Group 7 - MULTIPLE OXIDES
AB2X4
Magnetite7.2.2.3Fe2+Fe3+2O4
Group 9 - NORMAL HALIDES
AX2
Fluorite9.2.1.1CaF2
Group 24 - ANHYDROUS BORATES
A2BO2[XO3]
Vonsenite24.2.1.2Fe2+2Fe3+(BO3)O2
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO4
Baryte28.3.1.1BaSO4
Group 58 - SOROSILICATES Insular, Mixed, Single, and Larger Tetrahedral Groups
Insular, Mixed, Single, and Larger Tetrahedral Groups with cations in [6] and higher coordination; single and double groups (n = 1, 2)
Clinozoisite58.2.1a.4{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
Epidote58.2.1a.7{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Vesuvianite58.2.4.1Ca19Fe3+Al4(Al6Mg2)(☐4)☐[Si2O7]4[(SiO4)10]O(OH)9
Group 65 - INOSILICATES Single-Width,Unbranched Chains,(W=1)
Single-Width Unbranched Chains, W=1 with chains P=2
Diopside65.1.3a.1CaMgSi2O6
Single-Width Unbranched Chains, W=1 with chains P=5
Rhodonite65.4.1.1Mn2+SiO3
Group 66 - INOSILICATES Double-Width,Unbranched Chains,(W=2)
Amphiboles - Mg-Fe-Mn-Li subgroup
Tremolite66.1.3a.1☐{Ca2}{Mg5}(Si8O22)(OH)2
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 2:1 layers
Muscovite71.2.2a.1KAl2(AlSi3O10)(OH)2
Group 76 - TECTOSILICATES Al-Si Framework
Al-Si Framework with Al-Si frameworks
Albite76.1.3.1Na(AlSi3O8)
Unclassified Minerals, Mixtures, etc.
'Apatite'-Ca5(PO4)3(Cl/F/OH)
'Garnet Group'-X3Z2(SiO4)3

List of minerals for each chemical element

HHydrogen
H ApatiteCa5(PO4)3(Cl/F/OH)
H Clinozoisite{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
H Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
H MuscoviteKAl2(AlSi3O10)(OH)2
H Tremolite☐{Ca2}{Mg5}(Si8O22)(OH)2
H VesuvianiteCa19Fe3+Al4(Al6Mg2)(☐4)☐[Si2O7]4[(SiO4)10]O(OH)9
BBoron
B VonseniteFe22+Fe3+(BO3)O2
OOxygen
O BaryteBaSO4
O ApatiteCa5(PO4)3(Cl/F/OH)
O Clinozoisite{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
O DiopsideCaMgSi2O6
O Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
O Garnet GroupX3Z2(SiO4)3
O MagnetiteFe2+Fe23+O4
O MuscoviteKAl2(AlSi3O10)(OH)2
O RhodoniteMn2+SiO3
O Tremolite☐{Ca2}{Mg5}(Si8O22)(OH)2
O VesuvianiteCa19Fe3+Al4(Al6Mg2)(☐4)☐[Si2O7]4[(SiO4)10]O(OH)9
O VonseniteFe22+Fe3+(BO3)O2
O AlbiteNa(AlSi3O8)
FFluorine
F ApatiteCa5(PO4)3(Cl/F/OH)
F FluoriteCaF2
NaSodium
Na AlbiteNa(AlSi3O8)
MgMagnesium
Mg DiopsideCaMgSi2O6
Mg Tremolite☐{Ca2}{Mg5}(Si8O22)(OH)2
Mg VesuvianiteCa19Fe3+Al4(Al6Mg2)(☐4)☐[Si2O7]4[(SiO4)10]O(OH)9
AlAluminium
Al Clinozoisite{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
Al Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Al MuscoviteKAl2(AlSi3O10)(OH)2
Al VesuvianiteCa19Fe3+Al4(Al6Mg2)(☐4)☐[Si2O7]4[(SiO4)10]O(OH)9
Al AlbiteNa(AlSi3O8)
SiSilicon
Si Clinozoisite{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
Si DiopsideCaMgSi2O6
Si Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Si Garnet GroupX3Z2(SiO4)3
Si MuscoviteKAl2(AlSi3O10)(OH)2
Si RhodoniteMn2+SiO3
Si Tremolite☐{Ca2}{Mg5}(Si8O22)(OH)2
Si VesuvianiteCa19Fe3+Al4(Al6Mg2)(☐4)☐[Si2O7]4[(SiO4)10]O(OH)9
Si AlbiteNa(AlSi3O8)
PPhosphorus
P ApatiteCa5(PO4)3(Cl/F/OH)
SSulfur
S GalenaPbS
S SphaleriteZnS
S BaryteBaSO4
S AlabanditeMnS
S ArsenopyriteFeAsS
S ChalcopyriteCuFeS2
S GreigiteFe2+Fe23+S4
S MarcasiteFeS2
S PyrargyriteAg3SbS3
S PyriteFeS2
S PyrrhotiteFe7S8
S Wurtzite(Zn,Fe)S
ClChlorine
Cl ApatiteCa5(PO4)3(Cl/F/OH)
KPotassium
K MuscoviteKAl2(AlSi3O10)(OH)2
CaCalcium
Ca ApatiteCa5(PO4)3(Cl/F/OH)
Ca Clinozoisite{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
Ca DiopsideCaMgSi2O6
Ca Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Ca FluoriteCaF2
Ca Tremolite☐{Ca2}{Mg5}(Si8O22)(OH)2
Ca VesuvianiteCa19Fe3+Al4(Al6Mg2)(☐4)☐[Si2O7]4[(SiO4)10]O(OH)9
MnManganese
Mn AlabanditeMnS
Mn RhodoniteMn2+SiO3
FeIron
Fe ArsenopyriteFeAsS
Fe ChalcopyriteCuFeS2
Fe Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Fe GreigiteFe2+Fe23+S4
Fe MagnetiteFe2+Fe23+O4
Fe MarcasiteFeS2
Fe PyriteFeS2
Fe PyrrhotiteFe7S8
Fe VesuvianiteCa19Fe3+Al4(Al6Mg2)(☐4)☐[Si2O7]4[(SiO4)10]O(OH)9
Fe VonseniteFe22+Fe3+(BO3)O2
CuCopper
Cu ChalcopyriteCuFeS2
ZnZinc
Zn SphaleriteZnS
Zn Wurtzite(Zn,Fe)S
AsArsenic
As ArsenopyriteFeAsS
AgSilver
Ag PyrargyriteAg3SbS3
SbAntimony
Sb PyrargyriteAg3SbS3
BaBarium
Ba BaryteBaSO4
PbLead
Pb GalenaPbS
Pb LeadPb

References

Sort by

Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Gemmel, J.B., Zantor, H., and Meinert, L.D. (1992): Genesis of the Aguilar zinc-lead-silver deposit, Argentina - Contact metasomatic vs. sedimentary exhalative. Economic Geology, 87, 2085-2112.
Gemuts, I., Little, M.L., and Giudici, J., 1996, Precious and base metal deposits in Argentina: SEG (Society of Economic Geologists) Newsletter, no. 25, p. 1, 7-14.
Schalamuk, I.B., and de Barrio, R.E., 2002, Ordovician mineralizations in Argentina, 14 p.,
Sureda, R.J., 1999, Los yasimentos sedex de plomo y zinc en la Sierra de Aguilar, Jujuy, in Zappettini, E.O., ed., Recursos minerales de la Republica Argentina: Buenos Aires, Instituto de Geologia y Recursos Minerales SEGEMAR, Anales 35, 459-485.
Sureda, R.J., and Martin, J.L., 1990, El Aguilar Mine - An Ordovician sediment-hosted stratiform lead-zinc deposit in the Central Andes, in Fonboté, L., Amstutz, G.C., Cardozo, M., Cedillo, E., and Frutos, J., eds., Stratabound ore deposits in the Andes: Berlin, Springer-Verlag, p. 161-174.

Other Regions, Features and Areas containing this locality

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South America PlateTectonic Plate

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