Itabira, Minas Gerais, Brazil (original) (raw)

Itabira, Minas Gerais, Brazili

Regional Level Types
Itabira Municipality
Minas Gerais State
Brazil Country

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Largest Settlements:

Place Population
Itabira 99,496 (2012)

Long-form identifier:

mindat:1:2:403:6

37b5f88d-3819-437e-8ad2-7d75dac4add1

French:

Itabira, Minas Gerais, Brésil

German:

Itabira, Minas Gerais, Brasilien

Italian:

Itabira, Minas Gerais, Brasile

Portuguese:

Itabira, Minas Gerais, Brasil

Russian:

Итабира, Минас-Жерайс, Бразилия

Simplified Chinese:

伊塔比拉, 米纳斯吉拉斯, 巴西

Spanish:

Itabira, Minas Gerais, Brasil

Arabic:

إيتابيرا, ميناس جرايس, البرازيل

Armenian:

Իտաբիրա, Մինաս Ժերաիս, Բրազիլիա

Basque:

Itabira, Minas Gerais, Brasil

Bengali:

ইতাবিরা, মিনাস জেরাইস, ব্রাজিল

Bishnupriya Manipuri:

ইটাবিরা, মিনাস জেরায়িস, ব্রাজিল

Cebuano:

Itabira, Minas Gerais, Brasil

Danish:

Itabira, Minas Gerais, Brasilien

Dutch:

Itabira, Minas Gerais, Brazilië

Esperanto:

Itabira, Minas-Ĝerajso, Brazilo

Finnish:

Itabira, Minas Gerais, Brasilia

Georgian:

იტაბირა, მინას-ჟერაისი, ბრაზილია

Greek:

Ιταμπίρα, Μίνας Ζεράις, Βραζιλία

Gujarati:

ઇટાબીરા, મિનાસ ગેરઈસ, બ્રાઝિલ

Hindi:

इतअबीर, मिनास जेरायज़, ब्राज़ील

Hungarian:

Itabira, Minas Gerais, Brazília

Indonesian:

Itabira, Minas Gerais, Brasil

Japanese:

イタビラ, ミナスジェライス州, ブラジル

Kannada:

ಇಟಾಬಿರಾ, ಮಿನಾಸ್ ಗೆರೈಸ್, ಬ್ರೆಜಿಲ್

Kazakh (Cyrillic Script):

Итабира, Минас-Жерайс, Бразилия

Korean:

이타비라, 미나스제라이스, 브라질

Latvian:

Itabira, Minasžeraisa, Brazīlija

Lithuanian:

Itabira, Minas Žeraisas, Brazilija

Malagasy:

Itabira, Minas Gerais, Brazila

Malay:

Itabira, Minas Gerais, Brazil

Marathi:

इटाबिरा, मिनास जेराईस, ब्राझील

Minnan / Hokkien-Taiwanese:

Itabira, Minas Gerais, Pa-se

Norwegian:

Itabira, Minas Gerais, Brasil

Polish:

Itabira, Minas Gerais, Brazylia

Romanian:

Itabira, Minas Gerais, Brazilia

Scots:

Itabira, Minas Gerais, Brazil

Sinhalese:

ඉටබිරා, මිනාස් ගෙරායිස්, බ්රසීලය

Swedish:

Itabira, Minas Gerais, Brasilien

Tamil:

இடாபிரா, மினாஸ் ஜெரைசு, பிரேசில்

Telugu:

ఇతాబిర, మినాస్ జెరాయిస్, బ్రెజిల్

Thai:

อิตาบิรา, มีนัสเชไรส์, ประเทศบราซิล

Turkish:

Itabira, Minas Gerais, Brezilya

Ukrainian:

Ітабіра, Мінас-Жерайс, Бразилія

Urdu:

اتابیرا, میناس گیرائس, برازیل

Vietnamese:

Itabira, Minas Gerais, Brasil

Volapük:

Itabira, Minas Gerais, Brasilän

Waray:

Itabira, Minas Gerais, Brasil

Portions of the Itabira area are assigned to overlapping geological provinces, the Iron Quadrangle Province (known in Brazil as the Quadrilátero Ferrífero) and the Eastern Brazilian Pegmatite Province. The Iron Quadrangle Province is named for a more-or-less rectangular region containing rich deposits of iron ore in the form of banded iron formation (BIF). Brazil has become the world’s leading exporter of iron, largely due to these BIF deposits, and they are so important to the economy of the country that this kind of ore has become known throughout Brazil as “itabirite.” The BIF occurs in folded and thrust-faulted, marine metasedimentary rocks of Mesoproterozoic age. Geological features of these rocks formed during accretion of an island arc onto a portion of the ancient supercontinent of Rodinia roughly 2.0 billion years ago–an event typically referred to as the Transamazonian Orogeny (see Brito Neves et al., 2014).

Gold, platinum, and palladium deposits also formed in the Iron Quadrangle at that time. Those deposits occur in shear-zone veins and pods characterized by specular hematite, quartz, and kaolinite, forming a distinctive ore type referred to as “jacutinga” in Brazil. The Morro Velho Mine at Nova Lima in the Iron Quadrangle is the world’s oldest continuously operating gold mine, having opened in 1725. Upon reaching a depth of 1775 meters in 1915 it became the deepest mine in the world (since exceeded by diamond mines in South Africa). By 1960 it had produced 450 tons of gold. Platinoid ores in the area include five different essential platinum-bearing minerals, for which Itabira is type locality of one. Six essential palladium-bearing minerals have been reported from Itabira, which, rather remarkably, is the type locality for four of those. More recent hydrothermal activity associated with near-surface processes may have contributed to conditions that gave rise to this degree of mineralogic novelty, but by this time the gold and platinoids were already there.

The Eastern Brazilian Pegmatite Province (EBPP) is characterized by local pegmatitic intrusions, many of which have produced colored gemstones such as aquamarine, tourmaline, and topaz. The pegmatites are related to larger granitic intrusions that invaded what is now the eastern portion of Minas Gerais and adjacent parts of Rio de Janeiro, Espírito Santo, and Bahia states. These granites are associated with a second episode of tectonic accretion known as the Brasiliano Orogeny, of late Neoproterozoic and early Paleozoic age, roughly 660-500 million years ago. This was the most recent tectonic event that contributed to the geographic and tectonic outlines of the southern portion of the supercontinent Gondwana. The granites and associated pegmatites invaded country rock typical for the Iron Quadrangle province and other geologic provinces in eastern Brazil. Deposits of the EBPP are therefore spottily overprinted on older geological features, but because the pegmatites are important economically, and all are related to that one tectonic event, they have been recognized as belonging to a geological province in their own right.

Various portions of the EBPP have been referred to as gemological districts, and Itabira is in the Gemological District of Santa Maria de Itabira. In this area, beryllium-rich pegmatites emplaced during the Brasiliano Orogeny were leached by hot aqueous solutions, carrying Be3+ into the surrounding chromium-rich metasedimentary rocks (schists). Beryl colored green by a few tenths of a percent of Cr3+ formed the beryl variety emerald that crystallized in those rocks as temperatures declined (Gemma et al., 1996). That is considered to be a metamorphic rather than igneous process. Nevertheless, emeralds would not be present near Itabira if beryllium-rich pegmatites had not been intruded previously. Thus, this area is considered to be an outlier of the EBPP, superimposed over the larger Iron Quadrangle region. Because most pegmatites are rather small and localized, they have not fostered development of world-class open-pit and underground mines, as the iron and gold deposits have.

NK, May 2018

Select Mineral List Type

Standard Detailed Gallery Strunz

Chemical Elements

Mineral List

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

45 valid minerals. 5 (TL) - type locality of valid minerals.

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

Entries shown in red are rocks recorded for this region.

Detailed Mineral List:

ActinoliteFormula: ◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2Localities: Itabira, Minas Gerais, BrazilBelmont mine, Itabira, Minas Gerais, Brazil
AlbiteFormula: Na(AlSi3O8)Locality: Piteiras Mine, Itabira, Minas Gerais, BrazilReferences: Jordt-Evangelista, H., Lana, C., Delgado, C. E. R., & Viana, D. J. (2016). Age of the emerald mineralization from the Itabira-Nova Era District, Minas Gerais, Brazil, based on LA-ICP-MS geochronology of cogenetic titanite. Brazilian Journal of Geology, 46(3), 427-437.
AlmandineFormula: Fe2+3Al2(SiO4)3References: Karel Bal Collection
'Amphibole Supergroup'Formula: A B2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2Locality: Rocha Mineração mine, Itabira, Minas Gerais, BrazilReferences: Da Silva Lopes, P.H., Cesar-Mendes, J., Roeser, H. (2008): Ein neues Smaragdvorkommen in Brasilien – Die Rocha Mineracao Mine in Minas Gerais, Der Aufschluss, Vol. 59, 301-315
AnkeriteFormula: Ca(Fe2+,Mg)(CO3)2Locality: Conceição mine, Itabira, Minas Gerais, BrazilReferences: Rosière, C. A., & Chemale Jr, F. (2013). Itabiritos e minérios de ferro de alto teor do Quadrilátero Ferrífero–uma visão geral e discussão. Revista Geonomos, 8(2), 27-43.
'Apatite'Formula: Ca5(PO4)3(Cl/F/OH)Locality: Belmont mine, Itabira, Minas Gerais, BrazilReferences: **(2002) Emeralds of the World. extraLapis English 2. Lapis International LLC**pp.24-35
Arsenopalladinite (TL)Formula: Pd8(As,Sb)3Localities: Itabira, Minas Gerais, BrazilCauê mine, Itabira, Minas Gerais, BrazilConceição mine, Itabira, Minas Gerais, BrazilType Locality: Itabira, Minas Gerais, BrazilDescription: The mineral occurs in grains 0.3 to 1.8 mm in size in the concentrates from gold washing. It is found associated with atheneite, hematite, isomertieite, quartz, palladian gold, palladseite and stillwaterite.
Atheneite (TL)Formula: Pd2As0.75Hg0.25Localities: Itabira, Minas Gerais, BrazilCauê mine, Itabira, Minas Gerais, BrazilType Locality: Itabira, Minas Gerais, BrazilDescription: The mineral was found as a few grains in residual concentrates from gold washings as Itabira, Brazil. Intergrowths with arsenopalladinite occur, and hematite inclusions are present.
BaryteFormula: BaSO4Localities: Morro Agudo mine (Água Limpa mine), Itabira, Minas Gerais, BrazilCauê mine, Itabira, Minas Gerais, Brazil
BerylFormula: Be3Al2(Si6O18)Localities: Belmont mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, BrazilRocha Mineração mine, Itabira, Minas Gerais, BrazilItabira, Minas Gerais, Brazil
Beryl var. AquamarineFormula: Be3Al2Si6O18Locality: Belmont mine, Itabira, Minas Gerais, Brazil
Beryl var. EmeraldFormula: Be3Al2(Si6O18)Localities: Belmont mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, BrazilRocha Mineração mine, Itabira, Minas Gerais, BrazilItabira, Minas Gerais, Brazil
'Biotite'Formula: K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2Localities: Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, Brazil
CalciteFormula: CaCO3Locality: Morro Agudo mine (Água Limpa mine), Itabira, Minas Gerais, Brazil
'Chlorite Group'Localities: Itabira, Minas Gerais, BrazilBelmont mine, Itabira, Minas Gerais, BrazilRocha Mineração mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, Brazil
ChromiteFormula: Fe2+Cr3+2O4Localities: Belmont mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, Brazil
ChrysoberylFormula: BeAl2O4Locality: Belmont mine, Itabira, Minas Gerais, BrazilReferences: **(2002) Emeralds of the World. extraLapis English 2. Lapis International LLC**pp.24-35
ClinochloreFormula: Mg5Al(AlSi3O10)(OH)8Locality: Piteiras Mine, Itabira, Minas Gerais, BrazilReferences: Jordt-Evangelista, H., Lana, C., Delgado, C. E. R., & Viana, D. J. (2016). Age of the emerald mineralization from the Itabira-Nova Era District, Minas Gerais, Brazil, based on LA-ICP-MS geochronology of cogenetic titanite. Brazilian Journal of Geology, 46(3), 427-437.
CordieriteFormula: (Mg,Fe)2Al3(AlSi5O18)References: Karel Bal Collection
Cordierite var. IoliteFormula: (Mg,Fe)2Al3(AlSi5O18)References: Karel Bal Collection
DolomiteFormula: CaMg(CO3)2Locality: Morro Agudo mine (Água Limpa mine), Itabira, Minas Gerais, Brazil
'Feldspar Group'Locality: Piteiras Mine, Itabira, Minas Gerais, BrazilReferences: Jordt-Evangelista, H., Lana, C., Delgado, C. E. R., & Viana, D. J. (2016). Age of the emerald mineralization from the Itabira-Nova Era District, Minas Gerais, Brazil, based on LA-ICP-MS geochronology of cogenetic titanite. Brazilian Journal of Geology, 46(3), 427-437.
FluoriteFormula: CaF2Locality: Piteiras Mine, Itabira, Minas Gerais, BrazilReferences: Jordt-Evangelista, H., Lana, C., Delgado, C. E. R., & Viana, D. J. (2016). Age of the emerald mineralization from the Itabira-Nova Era District, Minas Gerais, Brazil, based on LA-ICP-MS geochronology of cogenetic titanite. Brazilian Journal of Geology, 46(3), 427-437.
GalenaFormula: PbSLocality: Morro Agudo mine (Água Limpa mine), Itabira, Minas Gerais, Brazil
'Garnet Group'Formula: X3Z2(SiO4)3 Localities: Rocha Mineração mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, Brazil
GoldFormula: AuLocalities: Cauê mine, Itabira, Minas Gerais, BrazilItabira, Minas Gerais, BrazilConceição mine, Itabira, Minas Gerais, Brazil
Gold var. Palladium-bearing GoldFormula: (Au,Pd)Localities: Cauê mine, Itabira, Minas Gerais, BrazilConceição mine, Itabira, Minas Gerais, Brazil
Gold var. PorpeziteFormula: (Au,Pd)References: RWMW specimen
HematiteFormula: Fe2O3Localities: Reported from at least 8 localities in this region.
Hematite var. MartiteFormula: Fe2O3
Hematite var. SpeculariteFormula: Fe2O3Locality: Morro Agudo mine (Água Limpa mine), Itabira, Minas Gerais, BrazilReferences: Rosière, C. A., & Chemale Jr, F. (2013). Itabiritos e minérios de ferro de alto teor do Quadrilátero Ferrífero–uma visão geral e discussão. Revista Geonomos, 8(2), 27-43.
HongshiiteFormula: PtCuLocalities: Itabira, Minas Gerais, BrazilConceição mine, Itabira, Minas Gerais, BrazilCauê mine, Itabira, Minas Gerais, Brazil
'Hornblende Root Name Group'Formula: ◻Ca2(Z2+4Z3+)(AlSi7O22)(OH,F,Cl)2Locality: Piteiras Mine, Itabira, Minas Gerais, Brazil
Isomertieite (TL)Formula: Pd11Sb2As2Localities: Itabira, Minas Gerais, BrazilCauê mine, Itabira, Minas Gerais, BrazilType Locality: Itabira, Minas Gerais, Brazil
Jacutingaite (TL)Formula: Pt2HgSe3Type Locality: References: Cabral, A. R., Galbiatti, H. F., Kwitko-Ribeiro, R., Lehmann, B. (2008) Platinum enrichment at low temperatures and related microstructures, with examples of hongshiite (PtCu) and empirical ‘Pt2HgSe3’ from Itabira, Minas Gerais, Brazil. Terra Nova, 20 (1). 32-37 doi:10.1111/j.1365-3121.2007.00783.x Williams, P. A., Hatert, F., Pasero, M., Mills, S. J. (2011) IMA Commission on New Minerals, Nomenclature and Classification (CNMNC) Newsletter 8. Mineralogical Magazine, 75 (2) 289-294 doi:10.1180/minmag.2011.075.2.289 Vymazalova, A., Laufek, F., Drabek, M., Cabral, A. R., Haloda, J., Sidorinova, T., Lehmann, B., Galbiatti, H. F., Drahokoupil, J. (2012) JACUTINGAITE, Pt2HgSe3, A NEW PLATINUM-GROUP MINERAL SPECIES FROM THE CAUE IRON-ORE DEPOSIT, ITABIRA DISTRICT, MINAS GERAIS, BRAZIL. The Canadian Mineralogist, 50 (2) 431-440 doi:10.3749/canmin.50.2.431
KaoliniteFormula: Al2(Si2O5)(OH)4Localities: Conceição mine, Itabira, Minas Gerais, BrazilCauê mine, Itabira, Minas Gerais, Brazil
'K Feldspar'Locality: Belmont mine, Itabira, Minas Gerais, BrazilReferences: Morteani, G., Preinfalk, C., Horn, A. H. (2000) Classification and mineralization potential of the pegmatites of the Eastern Brazilian Pegmatite Province. Mineralium Deposita, 35 (7) 638-655 doi:10.1007/s001260050268
KyaniteFormula: Al2(SiO4)OLocalities: Rocha Mineração mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, Brazil
'Limonite'Locality: Cauê mine, Itabira, Minas Gerais, BrazilReferences: Alexandre Raphael Cabral, Georges Beaudoin, Bernd Lehmann, Henry Francisco Galbiatti (2005) S/Se ratios in palladiferous gold coexisting with palladseite, Cauê iron ore deposit, Itabira district, Quadrilátero Ferrífero of Minas Gerais, Brazil. GEOCHMISTRY, MINERALOGY AND PETROLOGY • 4 3 • SOFIA • 2005 pp35-40
MagnetiteFormula: Fe2+Fe3+2O4Localities: Cauê mine, Itabira, Minas Gerais, BrazilConceição mine, Itabira, Minas Gerais, Brazil
Mertieite ?Formula: Pd8Sb2.5As0.5Locality: Conceição mine, Itabira, Minas Gerais, BrazilReferences: Plumlee, Geoffrey S., Whitehouse-Veaux, Pamela Heald (1994) Mineralogy, paragenesis, and mineral zoning of the Bulldog Mountain vein system, Creede District, Colorado. Economic Geology, 89 (8). 1883-1905 doi:10.2113/gsecongeo.89.8.1883 January 2001 v. 96 no. 1 p. 61-74
MicroclineFormula: K(AlSi3O8)Locality: Piteiras Mine, Itabira, Minas Gerais, BrazilReferences: Jordt-Evangelista, H., Lana, C., Delgado, C. E. R., & Viana, D. J. (2016). Age of the emerald mineralization from the Itabira-Nova Era District, Minas Gerais, Brazil, based on LA-ICP-MS geochronology of cogenetic titanite. Brazilian Journal of Geology, 46(3), 427-437.
MolybdeniteFormula: MoS2Locality: Belmont mine, Itabira, Minas Gerais, BrazilReferences: **(2002) Emeralds of the World. extraLapis English 2. Lapis International LLC**pp.24-35
MuscoviteFormula: KAl2(AlSi3O10)(OH)2Localities: Conceição mine, Itabira, Minas Gerais, BrazilRocha Mineração mine, Itabira, Minas Gerais, BrazilBelmont mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, Brazil
NaldrettiteFormula: Pd2SbReferences: Vandenbroucke Museum, Waregem Belgium, SEM/EDS analysis.
PalladiniteFormula: PdO
PalladiumFormula: (Pd,Pt)Localities: Cauê mine, Itabira, Minas Gerais, BrazilConceição mine, Itabira, Minas Gerais, Brazil
Palladseite (TL)Formula: Pd17Se15Localities: Itabira, Minas Gerais, BrazilCauê mine, Itabira, Minas Gerais, BrazilType Locality: Itabira, Minas Gerais, Brazil
PhlogopiteFormula: KMg3(AlSi3O10)(OH)2Localities: Piteiras Mine, Itabira, Minas Gerais, BrazilBelmont mine, Itabira, Minas Gerais, BrazilCauê mine, Itabira, Minas Gerais, Brazil
'Plagioclase'Formula: (Na,Ca)[(Si,Al)AlSi2]O8Localities: Belmont mine, Itabira, Minas Gerais, BrazilRocha Mineração mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, Brazil
PlatinumFormula: PtLocality: Cauê mine, Itabira, Minas Gerais, BrazilReferences: Kwitko, R., Cabral, A. R., Lehmann, B., Laflamme, J. G., Cabri, L. J., Criddle, A. J., & Galbiatti, H. F. (2002). Hongshiite, PtCu, from itabirite-hosted Au–Pd–Pt mineralization (jacutinga), Itabira district, Minas Gerais, Brazil. The Canadian Mineralogist, 40(2), 711-723.
PyriteFormula: FeS2Localities: Morro Agudo mine (Água Limpa mine), Itabira, Minas Gerais, BrazilBelmont mine, Itabira, Minas Gerais, Brazil
QuartzFormula: SiO2Localities: Reported from at least 7 localities in this region.
RutileFormula: TiO2
SillimaniteFormula: Al2(SiO4)OLocalities: Rocha Mineração mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, Brazil
SperryliteFormula: PtAs2Locality: Cauê mine, Itabira, Minas Gerais, BrazilReferences: Kwitko, R., Cabral, A. R., Lehmann, B., Laflamme, J. G., Cabri, L. J., Criddle, A. J., & Galbiatti, H. F. (2002). Hongshiite, PtCu, from itabirite-hosted Au–Pd–Pt mineralization (jacutinga), Itabira district, Minas Gerais, Brazil. The Canadian Mineralogist, 40(2), 711-723.
SphaleriteFormula: ZnSLocality: Morro Agudo mine (Água Limpa mine), Itabira, Minas Gerais, Brazil
StauroliteFormula: Fe2+2Al9Si4O23(OH)Localities: Rocha Mineração mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, Brazil
SudovikoviteFormula: PtSe2Locality: Cauê mine, Itabira, Minas Gerais, BrazilReferences: MinMag 66:327-336 Kwitko, R., Cabral, A. R., Lehmann, B., Laflamme, J. G., Cabri, L. J., Criddle, A. J., & Galbiatti, H. F. (2002). Hongshiite, PtCu, from itabirite-hosted Au–Pd–Pt mineralization (jacutinga), Itabira district, Minas Gerais, Brazil. The Canadian Mineralogist, 40(2), 711-723.
TalcFormula: Mg3Si4O10(OH)2Localities: Itabira, Minas Gerais, BrazilCauê mine, Itabira, Minas Gerais, BrazilPiteiras Mine, Itabira, Minas Gerais, Brazil
Talc var. SteatiteFormula: Mg3(Si4O10)(OH)2References: www.cprm.gov.br/ingles/bens/ifer0101.html.
Tetra-auricuprideFormula: AuCuLocality: Cauê mine, Itabira, Minas Gerais, BrazilReferences: Kwitko, R., Cabral, A. R., Lehmann, B., Laflamme, J. G., Cabri, L. J., Criddle, A. J., & Galbiatti, H. F. (2002). Hongshiite, PtCu, from itabirite-hosted Au–Pd–Pt mineralization (jacutinga), Itabira district, Minas Gerais, Brazil. The Canadian Mineralogist, 40(2), 711-723.
TitaniteFormula: CaTi(SiO4)OLocality: Piteiras Mine, Itabira, Minas Gerais, BrazilReferences: Jordt-Evangelista, H., Lana, C., Delgado, C. E. R., & Viana, D. J. (2016). Age of the emerald mineralization from the Itabira-Nova Era District, Minas Gerais, Brazil, based on LA-ICP-MS geochronology of cogenetic titanite. Brazilian Journal of Geology, 46(3), 427-437.
Titanite var. GrothiteLocality: Piteiras Mine, Itabira, Minas Gerais, BrazilReferences: Delgado, C.E.R Jordt-Evangelista, H. Viana, D.J. (2005) GROTHITA (TITANITA DE ALTO AL) DA PROVÍNCIA ESMERALDÍFERA DE ITABIRA, MG. Boletim de Resumos do 9º Simpósio de Geologia do Sudeste e 13º Simpósio de Geologia de Minas Gerais. SBG 01: 77
'Tourmaline'Formula: A D3G6 (T6O18)(BO3)3X3Z Localities: Conceição mine, Itabira, Minas Gerais, BrazilCauê mine, Itabira, Minas Gerais, Brazil
'Wad'Locality: Cauê mine, Itabira, Minas Gerais, BrazilReferences: Alexandre Raphael Cabral, Georges Beaudoin, Bernd Lehmann, Henry Francisco Galbiatti (2005) S/Se ratios in palladiferous gold coexisting with palladseite, Cauê iron ore deposit, Itabira district, Quadrilátero Ferrífero of Minas Gerais, Brazil. GEOCHMISTRY, MINERALOGY AND PETROLOGY • 4 3 • SOFIA • 2005 pp35-40

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
Gold 1.AA.05 Au
var. Palladium-bearing Gold 1.AA.05 (Au,Pd)
var. Porpezite 1.AA.05 (Au,Pd)
Tetra-auricupride 1.AA.10b AuCu
Palladium 1.AF.10 (Pd,Pt)
Platinum 1.AF.10 Pt
Hongshiite 1.AG.45 PtCu
Group 2 - Sulphides and Sulfosalts
Atheneite (TL) 2.AC.05a Pd2As0.75Hg0.25
Mertieite ? 2.AC.10b Pd8Sb2.5As0.5
Arsenopalladinite (TL) 2.AC.10c Pd8(As,Sb)3
Isomertieite (TL) 2.AC.15a Pd11Sb2As2
Naldrettite 2.AC.25d Pd2Sb
Palladseite (TL) 2.BC.05 Pd17Se15
Sphalerite 2.CB.05a ZnS
Jacutingaite (TL) 2.CC.45 Pt2HgSe3
Galena 2.CD.10 PbS
Sudovikovite 2.EA.20 PtSe2
Molybdenite 2.EA.30 MoS2
Pyrite 2.EB.05a FeS2
Sperrylite 2.EB.05a PtAs2
Group 3 - Halides
Fluorite 3.AB.25 CaF2
Group 4 - Oxides and Hydroxides
Palladinite 4.AB.30 PdO
Chrysoberyl 4.BA.05 BeAl2O4
Magnetite 4.BB.05 Fe2+Fe3+2O4
Chromite 4.BB.05 Fe2+Cr3+2O4
Hematite var. Martite 4.CB.05 Fe2O3
4.CB.05 Fe2O3
var. Specularite 4.CB.05 Fe2O3
Quartz 4.DA.05 SiO2
Rutile 4.DB.05 TiO2
Group 5 - Nitrates and Carbonates
Calcite 5.AB.05 CaCO3
Dolomite 5.AB.10 CaMg(CO3)2
Ankerite 5.AB.10 Ca(Fe2+,Mg)(CO3)2
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Baryte 7.AD.35 BaSO4
Group 9 - Silicates
Almandine 9.AD.25 Fe2+3Al2(SiO4)3
Sillimanite 9.AF.05 Al2(SiO4)O
Kyanite 9.AF.15 Al2(SiO4)O
Staurolite 9.AF.30 Fe2+2Al9Si4O23(OH)
Titanite 9.AG.15 CaTi(SiO4)O
var. Grothite 9.AG.15 CaTi(SiO4)O
Beryl var. Aquamarine 9.CJ.05 Be3Al2Si6O18
var. Emerald 9.CJ.05 Be3Al2(Si6O18)
9.CJ.05 Be3Al2(Si6O18)
Cordierite var. Iolite 9.CJ.10 (Mg,Fe)2Al3(AlSi5O18)
9.CJ.10 (Mg,Fe)2Al3(AlSi5O18)
Actinolite 9.DE.10 ◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Talc 9.EC.05 Mg3Si4O10(OH)2
var. Steatite 9.EC.05 Mg3(Si4O10)(OH)2
Muscovite 9.EC.15 KAl2(AlSi3O10)(OH)2
Phlogopite 9.EC.20 KMg3(AlSi3O10)(OH)2
Clinochlore 9.EC.55 Mg5Al(AlSi3O10)(OH)8
Kaolinite 9.ED.05 Al2(Si2O5)(OH)4
Microcline 9.FA.30 K(AlSi3O8)
Albite 9.FA.35 Na(AlSi3O8)
Unclassified
'Apatite' - Ca5(PO4)3(Cl/F/OH)
'Amphibole Supergroup' - A B2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
'Feldspar Group' -
'Biotite' - K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2
'Plagioclase' - (Na,Ca)[(Si,Al)AlSi2]O8
'Garnet Group' - X3Z2(SiO4)3
'K Feldspar' -
'Hornblende Root Name Group' - ◻Ca2(Z2+4Z3+)(AlSi7O22)(OH,F,Cl)2
'Chlorite Group' -
'Wad' -
'Tourmaline' - A D3G6 (T6O18)(BO3)3X3Z
'Limonite' -

List of minerals for each chemical element

H Hydrogen
H Actinolite ◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
H Amphibole Supergroup A B2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
H Biotite K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2
H Clinochlore Mg5Al(AlSi3O10)(OH)8
H Kaolinite Al2(Si2O5)(OH)4
H Muscovite KAl2(AlSi3O10)(OH)2
H Phlogopite KMg3(AlSi3O10)(OH)2
H Staurolite Fe22+Al9Si4O23(OH)
H Talc var. Steatite Mg3(Si4O10)(OH)2
H Talc Mg3Si4O10(OH)2
H Hornblende Root Name Group ◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
H Apatite Ca5(PO4)3(Cl/F/OH)
Be Beryllium
Be Beryl var. Aquamarine Be3Al2Si6O18
Be Beryl Be3Al2(Si6O18)
Be Chrysoberyl BeAl2O4
Be Beryl var. Emerald Be3Al2(Si6O18)
B Boron
B Tourmaline A D3G6 (T6O18)(BO3)3X3Z
C Carbon
C Ankerite Ca(Fe2+,Mg)(CO3)2
C Calcite CaCO3
C Dolomite CaMg(CO3)2
O Oxygen
O Actinolite ◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
O Albite Na(AlSi3O8)
O Amphibole Supergroup A B2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
O Ankerite Ca(Fe2+,Mg)(CO3)2
O Beryl var. Aquamarine Be3Al2Si6O18
O Almandine Fe32+Al2(SiO4)3
O Baryte BaSO4
O Biotite K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2
O Beryl Be3Al2(Si6O18)
O Calcite CaCO3
O Chromite Fe2+Cr23+O4
O Chrysoberyl BeAl2O4
O Clinochlore Mg5Al(AlSi3O10)(OH)8
O Cordierite (Mg,Fe)2Al3(AlSi5O18)
O Dolomite CaMg(CO3)2
O Beryl var. Emerald Be3Al2(Si6O18)
O Hematite Fe2O3
O Kaolinite Al2(Si2O5)(OH)4
O Kyanite Al2(SiO4)O
O Magnetite Fe2+Fe23+O4
O Hematite var. Martite Fe2O3
O Microcline K(AlSi3O8)
O Muscovite KAl2(AlSi3O10)(OH)2
O Phlogopite KMg3(AlSi3O10)(OH)2
O Quartz SiO2
O Rutile TiO2
O Sillimanite Al2(SiO4)O
O Staurolite Fe22+Al9Si4O23(OH)
O Talc var. Steatite Mg3(Si4O10)(OH)2
O Talc Mg3Si4O10(OH)2
O Titanite CaTi(SiO4)O
O Tourmaline A D3G6 (T6O18)(BO3)3X3Z
O Cordierite var. Iolite (Mg,Fe)2Al3(AlSi5O18)
O Hematite var. Specularite Fe2O3
O Hornblende Root Name Group ◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
O Plagioclase (Na,Ca)[(Si,Al)AlSi2]O8
O Garnet Group X3Z2(SiO4)3
O Palladinite PdO
O Apatite Ca5(PO4)3(Cl/F/OH)
F Fluorine
F Amphibole Supergroup A B2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
F Biotite K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2
F Fluorite CaF2
F Hornblende Root Name Group ◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
F Apatite Ca5(PO4)3(Cl/F/OH)
Na Sodium
Na Albite Na(AlSi3O8)
Na Plagioclase (Na,Ca)[(Si,Al)AlSi2]O8
Mg Magnesium
Mg Actinolite ◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Mg Ankerite Ca(Fe2+,Mg)(CO3)2
Mg Biotite K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2
Mg Clinochlore Mg5Al(AlSi3O10)(OH)8
Mg Cordierite (Mg,Fe)2Al3(AlSi5O18)
Mg Dolomite CaMg(CO3)2
Mg Phlogopite KMg3(AlSi3O10)(OH)2
Mg Talc var. Steatite Mg3(Si4O10)(OH)2
Mg Talc Mg3Si4O10(OH)2
Mg Cordierite var. Iolite (Mg,Fe)2Al3(AlSi5O18)
Al Aluminium
Al Albite Na(AlSi3O8)
Al Amphibole Supergroup A B2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Al Beryl var. Aquamarine Be3Al2Si6O18
Al Almandine Fe32+Al2(SiO4)3
Al Biotite K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2
Al Beryl Be3Al2(Si6O18)
Al Chrysoberyl BeAl2O4
Al Clinochlore Mg5Al(AlSi3O10)(OH)8
Al Cordierite (Mg,Fe)2Al3(AlSi5O18)
Al Beryl var. Emerald Be3Al2(Si6O18)
Al Kaolinite Al2(Si2O5)(OH)4
Al Kyanite Al2(SiO4)O
Al Microcline K(AlSi3O8)
Al Muscovite KAl2(AlSi3O10)(OH)2
Al Phlogopite KMg3(AlSi3O10)(OH)2
Al Sillimanite Al2(SiO4)O
Al Staurolite Fe22+Al9Si4O23(OH)
Al Cordierite var. Iolite (Mg,Fe)2Al3(AlSi5O18)
Al Hornblende Root Name Group ◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
Al Plagioclase (Na,Ca)[(Si,Al)AlSi2]O8
Si Silicon
Si Actinolite ◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Si Albite Na(AlSi3O8)
Si Amphibole Supergroup A B2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Si Beryl var. Aquamarine Be3Al2Si6O18
Si Almandine Fe32+Al2(SiO4)3
Si Biotite K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2
Si Beryl Be3Al2(Si6O18)
Si Clinochlore Mg5Al(AlSi3O10)(OH)8
Si Cordierite (Mg,Fe)2Al3(AlSi5O18)
Si Beryl var. Emerald Be3Al2(Si6O18)
Si Kaolinite Al2(Si2O5)(OH)4
Si Kyanite Al2(SiO4)O
Si Microcline K(AlSi3O8)
Si Muscovite KAl2(AlSi3O10)(OH)2
Si Phlogopite KMg3(AlSi3O10)(OH)2
Si Quartz SiO2
Si Sillimanite Al2(SiO4)O
Si Staurolite Fe22+Al9Si4O23(OH)
Si Talc var. Steatite Mg3(Si4O10)(OH)2
Si Talc Mg3Si4O10(OH)2
Si Titanite CaTi(SiO4)O
Si Cordierite var. Iolite (Mg,Fe)2Al3(AlSi5O18)
Si Hornblende Root Name Group ◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
Si Plagioclase (Na,Ca)[(Si,Al)AlSi2]O8
Si Garnet Group X3Z2(SiO4)3
P Phosphorus
P Apatite Ca5(PO4)3(Cl/F/OH)
S Sulfur
S Baryte BaSO4
S Galena PbS
S Molybdenite MoS2
S Pyrite FeS2
S Sphalerite ZnS
Cl Chlorine
Cl Amphibole Supergroup A B2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Cl Hornblende Root Name Group ◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
Cl Apatite Ca5(PO4)3(Cl/F/OH)
K Potassium
K Biotite K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2
K Microcline K(AlSi3O8)
K Muscovite KAl2(AlSi3O10)(OH)2
K Phlogopite KMg3(AlSi3O10)(OH)2
Ca Calcium
Ca Actinolite ◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Ca Ankerite Ca(Fe2+,Mg)(CO3)2
Ca Calcite CaCO3
Ca Dolomite CaMg(CO3)2
Ca Fluorite CaF2
Ca Titanite CaTi(SiO4)O
Ca Hornblende Root Name Group ◻Ca2(Z42+Z3+)(AlSi7O22)(OH,F,Cl)2
Ca Plagioclase (Na,Ca)[(Si,Al)AlSi2]O8
Ca Apatite Ca5(PO4)3(Cl/F/OH)
Ti Titanium
Ti Amphibole Supergroup A B2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Ti Biotite K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2
Ti Rutile TiO2
Ti Titanite CaTi(SiO4)O
Cr Chromium
Cr Chromite Fe2+Cr23+O4
Fe Iron
Fe Actinolite ◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Fe Ankerite Ca(Fe2+,Mg)(CO3)2
Fe Almandine Fe32+Al2(SiO4)3
Fe Biotite K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2
Fe Chromite Fe2+Cr23+O4
Fe Cordierite (Mg,Fe)2Al3(AlSi5O18)
Fe Hematite Fe2O3
Fe Magnetite Fe2+Fe23+O4
Fe Hematite var. Martite Fe2O3
Fe Pyrite FeS2
Fe Staurolite Fe22+Al9Si4O23(OH)
Fe Cordierite var. Iolite (Mg,Fe)2Al3(AlSi5O18)
Fe Hematite var. Specularite Fe2O3
Cu Copper
Cu Hongshiite PtCu
Cu Tetra-auricupride AuCu
Zn Zinc
Zn Sphalerite ZnS
As Arsenic
As Arsenopalladinite Pd8(As,Sb)3
As Atheneite Pd2As0.75Hg0.25
As Isomertieite Pd11Sb2As2
As Mertieite Pd8Sb2.5As0.5
As Sperrylite PtAs2
Se Selenium
Se Palladseite Pd17Se15
Se Sudovikovite PtSe2
Se Jacutingaite Pt2HgSe3
Mo Molybdenum
Mo Molybdenite MoS2
Pd Palladium
Pd Arsenopalladinite Pd8(As,Sb)3
Pd Atheneite Pd2As0.75Hg0.25
Pd Isomertieite Pd11Sb2As2
Pd Mertieite Pd8Sb2.5As0.5
Pd Palladium (Pd,Pt)
Pd Palladseite Pd17Se15
Pd Palladinite PdO
Pd Gold var. Porpezite (Au,Pd)
Pd Gold var. Palladium-bearing Gold (Au,Pd)
Pd Naldrettite Pd2Sb
Sb Antimony
Sb Arsenopalladinite Pd8(As,Sb)3
Sb Isomertieite Pd11Sb2As2
Sb Mertieite Pd8Sb2.5As0.5
Sb Naldrettite Pd2Sb
Ba Barium
Ba Baryte BaSO4
Pt Platinum
Pt Hongshiite PtCu
Pt Palladium (Pd,Pt)
Pt Platinum Pt
Pt Sperrylite PtAs2
Pt Sudovikovite PtSe2
Pt Jacutingaite Pt2HgSe3
Au Gold
Au Gold Au
Au Tetra-auricupride AuCu
Au Gold var. Porpezite (Au,Pd)
Au Gold var. Palladium-bearing Gold (Au,Pd)
Hg Mercury
Hg Atheneite Pd2As0.75Hg0.25
Hg Jacutingaite Pt2HgSe3
Pb Lead
Pb Galena PbS

Fossils

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Other Databases

Wikipedia: https://en.wikipedia.org/wiki/Itabira
Wikidata ID: Q1638413
GeoNames ID: 3460960

Localities in this Region

Other Regions, Features and Areas that Intersect

This page contains all mineral locality references listed on mindat.org. This does not claim to be a complete list. If you know of more minerals from this site, please register so you can add to our database. This locality information is for reference purposes only. You should never attempt to visit any sites listed in mindat.org without first ensuring that you have the permission of the land and/or mineral rights holders for access and that you are aware of all safety precautions necessary.

References

Kwitko, R., Cabral, A.R., Lehmann, B., Laflamme, J.H.G., Cabri, L.J., Criddle, A.J., and Galbiatti, H.F. (2002) Hongshiite, PtCu, from itabirite-hosted Au-Pd-Pt mineralization (jacutinga), Itabira district, Minas Gerais, Brazil. Canadian Mineralogist: 40: 711-723.