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Pocho Department, Córdoba Province, Argentinai
Regional Level Types
Pocho DepartmentDepartment
Córdoba ProvinceProvince
ArgentinaCountry

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Neighbouring regions:
Cruz del Eje Department, Córdoba Province, Argentina
Minas Department, Córdoba Province, Argentina
San Alberto Department, Córdoba Province, Argentina
General Ocampo Department, La Rioja Province, Argentina
General San Martín Department, La Rioja Province, Argentina
Locality type:
Department
Largest Settlements:
PlacePopulation
Salsacate1,205 (2016)
Other Languages:
View 6 more...
French:
Pocho, Argentine
German:
Departamento Pocho, Argentinien
Italian:
Dipartimento di Pocho, Provincia di Córdoba, Argentina
Russian:
Почо , Аргентина
Simplified Chinese:
波喬縣, 科爾多瓦省, 阿根廷
Spanish:
Departamento Pocho, Argentina
Dutch:
Pocho, Argentinië
Georgian:
პოჩოს დეპარტამენტი
Hungarian:
Pocho megye, Argentína
Mingrelian:
პოჩოშ დეპარტამენტი
Portuguese:
Pocho, Província de Córdova, Argentina
Scots:
Pocho Depairtment


Pocho Department is a department of Córdoba Province in Argentina.

The provincial subdivision has an area of 3,207 km², and its capital city is Salsacate.

Select Mineral List Type

Standard Detailed Gallery Strunz Chemical Elements

Mineral List

Mineral list contains entries from the region specified including sub-localities

23 valid minerals. 1 (TL) - type locality of valid minerals. 1 erroneous literature entry.

Rock Types Recorded

Note: data is currently VERY limited. Please bear with us while we work towards adding this information!

Rock list contains entries from the region specified including sub-localities

Select Rock List Type

Alphabetical List Tree Diagram

Detailed Mineral List:

Albite
Formula: Na(AlSi3O8)
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
'Alluaudite Group'
Reference: Colombo, F., & Sfragulla, J. (2012). The Garnet–phosphate Buffer In Peraluminous Granitic Magmas: A Case Study From Pegmatites In The Pocho District, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Beryl
Formula: Be3Al2(Si6O18)
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Beusite
Formula: Mn2+Mn2+2 (PO4)2
Reference: Colombo, F., & Sfragulla, J. (2012). The Garnet–phosphate Buffer In Peraluminous Granitic Magmas: A Case Study From Pegmatites In The Pocho District, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
'Biotite'
Formula: K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Chladniite
Formula: Na3CaMg11(PO4)9
Reference: Vallcorba O, Casas L, Colombo F, Frontera C, Rius J (2016) First terrestrial occurrence of the complex phosphate chladniite: crystal-structure refinement by synchrotron through-the-substrate microdiffraction. European Journal of Mineralogy 29, 287-293.
Chrysoberyl
Formula: BeAl2O4
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Dravite
Formula: NaMg3Al6(Si6O18)(BO3)3(OH)3(OH)
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Fluorapatite
Formula: Ca5(PO4)3F
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
'Garnet Group'
Formula: X3Z2(SiO4)3
Reference: Colombo, F., & Sfragulla, J. (2012). The Garnet–phosphate Buffer In Peraluminous Granitic Magmas: A Case Study From Pegmatites In The Pocho District, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Graftonite
Formula: Fe2+Fe2+2(PO4)2
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Jahnsite-(CaMnMg)
Formula: {Ca}{Mn2+}{(Mg,Fe2+)2}{Fe3+2}(PO4)4(OH)2 · 8H2O
Reference: Colombo, F., & Sfragulla, J. (2012). The Garnet–phosphate Buffer In Peraluminous Granitic Magmas: A Case Study From Pegmatites In The Pocho District, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Liraite (TL)
Formula: NaCa2Mn2+2[Fe3+Fe2+]Mn2+2(PO4)6(H2O)2
Type Locality:
Reference: Biglia, M.E., Cooper, M.A., Grew, E.S., Yates, M.G., Sfragulla, J.A., Guereschi, A.B., Márquez-Zavalía, M.F., Galliski, M.A. (2021) Liraite, ideally NaCa2Mn2[Fe3+Fe2+]Mn2(PO4)6(H2O)2, a new phosphate mineral of the wicksite group from the Ceferino Namuncurá pegmatite, Córdoba, Argentina. The Canadian Mineralogist: 59(4): 751–761.; Biglia, M. E., Cooper, M. A., Grew, E. S., Sfragulla, J. A., Márquez-Zavalía, M. F., Guereschi, A. B., Yates, M. G., and Galliski, M. A. (2020) Liraite, IMA 2019-085, in: CNMNC Newsletter 53. European Journal of Mineralogy: 32. https://doi.org/10.5194/ejm-32-209-2020
Maghagendorfite
Formula: (Na,◻)MgMn2+(Fe2+,Fe3+)2(PO4)3
Description: Described by Colombo et al. (2012), where the material was provisionally identified as maghagendorfite based on compositional data acquired with an electron microprobe. This material has now been proven to be chladniite. see Vallcorba (2016)
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571. Vallcorba O, Casas L, Colombo F, Frontera C, Rius J (2016) First terrestrial occurrence of the complex phosphate chladniite: crystal-structure refinement by synchrotron through-the-substrate microdiffraction. European Journal of Mineralogy 29, 287-293.
Metaswitzerite
Formula: Mn2+3(PO4)2 · 4H2O
Reference: Biglia, M.E., Cooper, M.A., Grew, E.S., Yates, M.G., Sfragulla, J.A., Guereschi, A.B., Márquez-Zavalía, M.F., Galliski, M.A. (2021) Liraite, ideally NaCa2Mn2[Fe3+Fe2+]Mn2(PO4)6(H2O)2, a new phosphate mineral of the wicksite group from the Ceferino Namuncurá pegmatite, Córdoba, Argentina. The Canadian Mineralogist: 59(4): 751–761.
Microcline
Formula: K(AlSi3O8)
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Mitridatite
Formula: Ca2Fe3+3(PO4)3O2 · 3H2O
Reference: Colombo, F., & Sfragulla, J. (2012). The Garnet–phosphate Buffer In Peraluminous Granitic Magmas: A Case Study From Pegmatites In The Pocho District, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Muscovite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Phosphosiderite
Formula: FePO4 · 2H2O
Reference: Biglia, M.E., Cooper, M.A., Grew, E.S., Yates, M.G., Sfragulla, J.A., Guereschi, A.B., Márquez-Zavalía, M.F., Galliski, M.A. (2021) Liraite, ideally NaCa2Mn2[Fe3+Fe2+]Mn2(PO4)6(H2O)2, a new phosphate mineral of the wicksite group from the Ceferino Namuncurá pegmatite, Córdoba, Argentina. The Canadian Mineralogist: 59(4): 751–761.
'Plagioclase'
Formula: (Na,Ca)[(Si,Al)AlSi2]O8
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Quartz
Formula: SiO2
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Robertsite
Formula: Ca2Mn3+3(PO4)3O2 · 3H2O
Reference: Biglia, M.E., Cooper, M.A., Grew, E.S., Yates, M.G., Sfragulla, J.A., Guereschi, A.B., Márquez-Zavalía, M.F., Galliski, M.A. (2021) Liraite, ideally NaCa2Mn2[Fe3+Fe2+]Mn2(PO4)6(H2O)2, a new phosphate mineral of the wicksite group from the Ceferino Namuncurá pegmatite, Córdoba, Argentina. The Canadian Mineralogist: 59(4): 751–761.
Schorl
Formula: NaFe2+3Al6(Si6O18)(BO3)3(OH)3(OH)
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Spessartine
Formula: Mn2+3Al2(SiO4)3
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
'Triplite Group'
Reference: Colombo, F., & Sfragulla, J. (2012). The Garnet–phosphate Buffer In Peraluminous Granitic Magmas: A Case Study From Pegmatites In The Pocho District, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Triploidite
Formula: Mn2+2(PO4)(OH)
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Varulite
Formula: NaCaMn2+Mn2+2(PO4)3
Reference: Biglia, M.E., Cooper, M.A., Grew, E.S., Yates, M.G., Sfragulla, J.A., Guereschi, A.B., Márquez-Zavalía, M.F., Galliski, M.A. (2021) Liraite, ideally NaCa2Mn2[Fe3+Fe2+]Mn2(PO4)6(H2O)2, a new phosphate mineral of the wicksite group from the Ceferino Namuncurá pegmatite, Córdoba, Argentina. The Canadian Mineralogist: 59(4): 751–761.
Wagnerite
Formula: (Mg,Fe2+)2(PO4)F
Reference: Colombo, F., & Sfragulla, J. (2012). The garnet–phosphate buffer in peraluminous granitic magmas: a case study from pegmatites in the Pocho district, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.
Wolfeite
Formula: Fe2+2(PO4)(OH)
Reference: Colombo, F., & Sfragulla, J. (2012). The Garnet–phosphate Buffer In Peraluminous Granitic Magmas: A Case Study From Pegmatites In The Pocho District, Córdoba, Argentina. The Canadian Mineralogist, 50(6), 1555-1571.

Gallery:

List of minerals arranged by Strunz 10th Edition classification

Group 4 - Oxides and Hydroxides
Chrysoberyl4.BA.05BeAl2O4
Quartz4.DA.05SiO2
Group 8 - Phosphates, Arsenates and Vanadates
Beusite8.AB.20Mn2+Mn2+2 (PO4)2
Chladniite8.AC.50Na3CaMg11(PO4)9
Fluorapatite8.BN.05Ca5(PO4)3F
Graftonite8.AB.20Fe2+Fe2+2(PO4)2
Jahnsite-(CaMnMg)8.DH.15{Ca}{Mn2+}{(Mg,Fe2+)2}{Fe3+2}(PO4)4(OH)2 · 8H2O
Liraite (TL)8.CF.NaCa2Mn2+2[Fe3+Fe2+]Mn2+2(PO4)6(H2O)2
Maghagendorfite ?8.AC.10(Na,◻)MgMn2+(Fe2+,Fe3+)2(PO4)3
Metaswitzerite8.CE.25Mn2+3(PO4)2 · 4H2O
Mitridatite8.DH.30Ca2Fe3+3(PO4)3O2 · 3H2O
Phosphosiderite8.CD.05FePO4 · 2H2O
Robertsite8.DH.30Ca2Mn3+3(PO4)3O2 · 3H2O
Triploidite8.BB.15Mn2+2(PO4)(OH)
Varulite8.AC.10NaCaMn2+Mn2+2(PO4)3
Wagnerite8.BB.15(Mg,Fe2+)2(PO4)F
Wolfeite8.BB.15Fe2+2(PO4)(OH)
Group 9 - Silicates
Albite9.FA.35Na(AlSi3O8)
Beryl9.CJ.05Be3Al2(Si6O18)
Dravite9.CK.05NaMg3Al6(Si6O18)(BO3)3(OH)3(OH)
Microcline9.FA.30K(AlSi3O8)
Muscovite9.EC.15KAl2(AlSi3O10)(OH)2
Schorl9.CK.05NaFe2+3Al6(Si6O18)(BO3)3(OH)3(OH)
Spessartine9.AD.25Mn2+3Al2(SiO4)3
Unclassified Minerals, Rocks, etc.
'Alluaudite Group'-
'Biotite'-K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
'Garnet Group'-X3Z2(SiO4)3
'Plagioclase'-(Na,Ca)[(Si,Al)AlSi2]O8
'Triplite Group'-

List of minerals for each chemical element

HHydrogen
H LiraiteNaCa2Mn22+[Fe3+Fe2+]Mn22+(PO4)6(H2O)2
H MitridatiteCa2Fe33+(PO4)3O2 · 3H2O
H Jahnsite-(CaMnMg){Ca}{Mn2+}{(Mg,Fe2+)2}{Fe23+}(PO4)4(OH)2 · 8H2O
H WolfeiteFe22+(PO4)(OH)
H MuscoviteKAl2(AlSi3O10)(OH)2
H BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
H SchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
H DraviteNaMg3Al6(Si6O18)(BO3)3(OH)3(OH)
H TriploiditeMn22+(PO4)(OH)
H RobertsiteCa2Mn33+(PO4)3O2 · 3H2O
H PhosphosideriteFePO4 · 2H2O
H MetaswitzeriteMn32+(PO4)2 · 4H2O
BeBeryllium
Be ChrysoberylBeAl2O4
Be BerylBe3Al2(Si6O18)
BBoron
B SchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
B DraviteNaMg3Al6(Si6O18)(BO3)3(OH)3(OH)
OOxygen
O LiraiteNaCa2Mn22+[Fe3+Fe2+]Mn22+(PO4)6(H2O)2
O Garnet GroupX3Z2(SiO4)3
O BeusiteMn2+Mn22+ (PO4)2
O MitridatiteCa2Fe33+(PO4)3O2 · 3H2O
O Jahnsite-(CaMnMg){Ca}{Mn2+}{(Mg,Fe2+)2}{Fe23+}(PO4)4(OH)2 · 8H2O
O WolfeiteFe22+(PO4)(OH)
O Wagnerite(Mg,Fe2+)2(PO4)F
O QuartzSiO2
O Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
O MuscoviteKAl2(AlSi3O10)(OH)2
O MicroclineK(AlSi3O8)
O FluorapatiteCa5(PO4)3F
O ChrysoberylBeAl2O4
O GraftoniteFe2+Fe22+(PO4)2
O SpessartineMn32+Al2(SiO4)3
O BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
O BerylBe3Al2(Si6O18)
O SchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
O DraviteNaMg3Al6(Si6O18)(BO3)3(OH)3(OH)
O AlbiteNa(AlSi3O8)
O TriploiditeMn22+(PO4)(OH)
O VaruliteNaCaMn2+Mn22+(PO4)3
O RobertsiteCa2Mn33+(PO4)3O2 · 3H2O
O PhosphosideriteFePO4 · 2H2O
O MetaswitzeriteMn32+(PO4)2 · 4H2O
O ChladniiteNa3CaMg11(PO4)9
O Maghagendorfite(Na,◻)MgMn2+(Fe2+,Fe3+)2(PO4)3
FFluorine
F Wagnerite(Mg,Fe2+)2(PO4)F
F FluorapatiteCa5(PO4)3F
F BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
NaSodium
Na LiraiteNaCa2Mn22+[Fe3+Fe2+]Mn22+(PO4)6(H2O)2
Na Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Na SchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
Na DraviteNaMg3Al6(Si6O18)(BO3)3(OH)3(OH)
Na AlbiteNa(AlSi3O8)
Na VaruliteNaCaMn2+Mn22+(PO4)3
Na ChladniiteNa3CaMg11(PO4)9
Na Maghagendorfite(Na,◻)MgMn2+(Fe2+,Fe3+)2(PO4)3
MgMagnesium
Mg Jahnsite-(CaMnMg){Ca}{Mn2+}{(Mg,Fe2+)2}{Fe23+}(PO4)4(OH)2 · 8H2O
Mg Wagnerite(Mg,Fe2+)2(PO4)F
Mg BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Mg DraviteNaMg3Al6(Si6O18)(BO3)3(OH)3(OH)
Mg ChladniiteNa3CaMg11(PO4)9
Mg Maghagendorfite(Na,◻)MgMn2+(Fe2+,Fe3+)2(PO4)3
AlAluminium
Al Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Al MuscoviteKAl2(AlSi3O10)(OH)2
Al MicroclineK(AlSi3O8)
Al ChrysoberylBeAl2O4
Al SpessartineMn32+Al2(SiO4)3
Al BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Al BerylBe3Al2(Si6O18)
Al SchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
Al DraviteNaMg3Al6(Si6O18)(BO3)3(OH)3(OH)
Al AlbiteNa(AlSi3O8)
SiSilicon
Si Garnet GroupX3Z2(SiO4)3
Si QuartzSiO2
Si Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Si MuscoviteKAl2(AlSi3O10)(OH)2
Si MicroclineK(AlSi3O8)
Si SpessartineMn32+Al2(SiO4)3
Si BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Si BerylBe3Al2(Si6O18)
Si SchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
Si DraviteNaMg3Al6(Si6O18)(BO3)3(OH)3(OH)
Si AlbiteNa(AlSi3O8)
PPhosphorus
P LiraiteNaCa2Mn22+[Fe3+Fe2+]Mn22+(PO4)6(H2O)2
P BeusiteMn2+Mn22+ (PO4)2
P MitridatiteCa2Fe33+(PO4)3O2 · 3H2O
P Jahnsite-(CaMnMg){Ca}{Mn2+}{(Mg,Fe2+)2}{Fe23+}(PO4)4(OH)2 · 8H2O
P WolfeiteFe22+(PO4)(OH)
P Wagnerite(Mg,Fe2+)2(PO4)F
P FluorapatiteCa5(PO4)3F
P GraftoniteFe2+Fe22+(PO4)2
P TriploiditeMn22+(PO4)(OH)
P VaruliteNaCaMn2+Mn22+(PO4)3
P RobertsiteCa2Mn33+(PO4)3O2 · 3H2O
P PhosphosideriteFePO4 · 2H2O
P MetaswitzeriteMn32+(PO4)2 · 4H2O
P ChladniiteNa3CaMg11(PO4)9
P Maghagendorfite(Na,◻)MgMn2+(Fe2+,Fe3+)2(PO4)3
KPotassium
K MuscoviteKAl2(AlSi3O10)(OH)2
K MicroclineK(AlSi3O8)
K BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
CaCalcium
Ca LiraiteNaCa2Mn22+[Fe3+Fe2+]Mn22+(PO4)6(H2O)2
Ca MitridatiteCa2Fe33+(PO4)3O2 · 3H2O
Ca Jahnsite-(CaMnMg){Ca}{Mn2+}{(Mg,Fe2+)2}{Fe23+}(PO4)4(OH)2 · 8H2O
Ca Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Ca FluorapatiteCa5(PO4)3F
Ca VaruliteNaCaMn2+Mn22+(PO4)3
Ca RobertsiteCa2Mn33+(PO4)3O2 · 3H2O
Ca ChladniiteNa3CaMg11(PO4)9
TiTitanium
Ti BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
MnManganese
Mn LiraiteNaCa2Mn22+[Fe3+Fe2+]Mn22+(PO4)6(H2O)2
Mn BeusiteMn2+Mn22+ (PO4)2
Mn Jahnsite-(CaMnMg){Ca}{Mn2+}{(Mg,Fe2+)2}{Fe23+}(PO4)4(OH)2 · 8H2O
Mn SpessartineMn32+Al2(SiO4)3
Mn TriploiditeMn22+(PO4)(OH)
Mn VaruliteNaCaMn2+Mn22+(PO4)3
Mn RobertsiteCa2Mn33+(PO4)3O2 · 3H2O
Mn MetaswitzeriteMn32+(PO4)2 · 4H2O
Mn Maghagendorfite(Na,◻)MgMn2+(Fe2+,Fe3+)2(PO4)3
FeIron
Fe LiraiteNaCa2Mn22+[Fe3+Fe2+]Mn22+(PO4)6(H2O)2
Fe MitridatiteCa2Fe33+(PO4)3O2 · 3H2O
Fe Jahnsite-(CaMnMg){Ca}{Mn2+}{(Mg,Fe2+)2}{Fe23+}(PO4)4(OH)2 · 8H2O
Fe WolfeiteFe22+(PO4)(OH)
Fe Wagnerite(Mg,Fe2+)2(PO4)F
Fe GraftoniteFe2+Fe22+(PO4)2
Fe BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Fe SchorlNaFe32+Al6(Si6O18)(BO3)3(OH)3(OH)
Fe PhosphosideriteFePO4 · 2H2O
Fe Maghagendorfite(Na,◻)MgMn2+(Fe2+,Fe3+)2(PO4)3

Fossils

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References

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Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Colombo, F., Sfragulla, J. (2012) The Garnet–phosphate Buffer In Peraluminous Granitic Magmas: A Case Study From Pegmatites In The Pocho District, Córdoba, Argentina. The Canadian Mineralogist: 50(6): 1555-1571.

Other Databases

Wikipedia:https://en.wikipedia.org/wiki/Pocho_Department
Wikidata ID:Q431234

Localities in this Region

Argentina

Other Regions, Features and Areas that Intersect

Argentina
South America PlateTectonic Plate

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