5B |
Felsic granulite |
- |
TIMS |
- |
2134 |
579 |
Machado et al. (1996)Machado N., Valladares C.S., Heilbron M., Valeriano C.M. 1996. U-Pb geochronology of the central Ribeira Belt (Brazil) and implications for the evolution of the Brazilian Orogeny. Precambrian Research, 79(3-4):347-361. https://doi.org/10.1016/0301-9268(95)00103-4 https://doi.org/10.1016/0301-9268(95)001...
|
LC-17 |
Enderbitic granulite |
- |
SHRIMP |
- |
2985 ± 17 |
808 ± 360 |
Silva et al. (2002)Silva L.C., Armstrong R., Noce C.M., Carneiro M.A., Pimentel M.M., Pedrosa-Soares A.C., Leite C.A., Vieira V.S., Silva M.A., Paes V.J.C., Cardoso-Filho J.M. 2002. Reavaliação da evolução geológica em terrenos pré-cambrianos brasileiros com base em novos dados U-Pb SHRIMP, parte II: Orógeno Araçuaí, Cinturão Mineiro e Cráton São Francisco Meridional. Revista Brasileira de Geociências, 32(4):513-528.
|
LC-17 |
Enderbitic granulite |
- |
SHRIMP |
- |
2985 ± 17 |
2856 ± 10 |
Silva et al. (2002)Silva L.C., Armstrong R., Noce C.M., Carneiro M.A., Pimentel M.M., Pedrosa-Soares A.C., Leite C.A., Vieira V.S., Silva M.A., Paes V.J.C., Cardoso-Filho J.M. 2002. Reavaliação da evolução geológica em terrenos pré-cambrianos brasileiros com base em novos dados U-Pb SHRIMP, parte II: Orógeno Araçuaí, Cinturão Mineiro e Cráton São Francisco Meridional. Revista Brasileira de Geociências, 32(4):513-528.
|
LC-32 |
Charnokitic granulite |
- |
SHRIMP |
- |
2195 ± 15 |
587 ± 9 |
Silva et al. (2002)Silva L.C., Armstrong R., Noce C.M., Carneiro M.A., Pimentel M.M., Pedrosa-Soares A.C., Leite C.A., Vieira V.S., Silva M.A., Paes V.J.C., Cardoso-Filho J.M. 2002. Reavaliação da evolução geológica em terrenos pré-cambrianos brasileiros com base em novos dados U-Pb SHRIMP, parte II: Orógeno Araçuaí, Cinturão Mineiro e Cráton São Francisco Meridional. Revista Brasileira de Geociências, 32(4):513-528.
|
1070 |
Mafic granulite |
E-MORB |
LA-MC-ICP-MS |
|
2427 ± 9 |
654 ± 12 |
Heilbron et al. (2010)Heilbron M., Duarte B.P., Valeriano C.M., Simonetti A., Machado N., Nogueira J.R. 2010. Evolution of reworked Paleoproterozoic basement rocks within the Ribeira belt (Neoproterozoic), SE-Brazil, based on U-Pb geochronology: implications for paleogeographic reconstructions of the São Francisco-Congo paleocontinent. Precambrian Research, 178(1-4):136-148. https://doi.org/10.1016/j.precamres.2010.02.002 https://doi.org/10.1016/j.precamres.2010...
|
1076 |
Enderbitic granulite |
- |
LA-MC-ICP-MS |
|
1966 ± 38 |
587 ± 15 |
Heilbron et al. (2010)Heilbron M., Duarte B.P., Valeriano C.M., Simonetti A., Machado N., Nogueira J.R. 2010. Evolution of reworked Paleoproterozoic basement rocks within the Ribeira belt (Neoproterozoic), SE-Brazil, based on U-Pb geochronology: implications for paleogeographic reconstructions of the São Francisco-Congo paleocontinent. Precambrian Research, 178(1-4):136-148. https://doi.org/10.1016/j.precamres.2010.02.002 https://doi.org/10.1016/j.precamres.2010...
|
1065 |
Charnokitic granulite |
- |
LA-MC-ICP-MS |
|
2199 ± 17 |
633 ± 140 |
Heilbron et al. (2010)Heilbron M., Duarte B.P., Valeriano C.M., Simonetti A., Machado N., Nogueira J.R. 2010. Evolution of reworked Paleoproterozoic basement rocks within the Ribeira belt (Neoproterozoic), SE-Brazil, based on U-Pb geochronology: implications for paleogeographic reconstructions of the São Francisco-Congo paleocontinent. Precambrian Research, 178(1-4):136-148. https://doi.org/10.1016/j.precamres.2010.02.002 https://doi.org/10.1016/j.precamres.2010...
|
CJE-44 |
Mafic granulite |
- |
LA-MC-ICP-MS |
|
1765 ± 34 |
586 ± 14 |
Heilbron et al. (2010)Heilbron M., Duarte B.P., Valeriano C.M., Simonetti A., Machado N., Nogueira J.R. 2010. Evolution of reworked Paleoproterozoic basement rocks within the Ribeira belt (Neoproterozoic), SE-Brazil, based on U-Pb geochronology: implications for paleogeographic reconstructions of the São Francisco-Congo paleocontinent. Precambrian Research, 178(1-4):136-148. https://doi.org/10.1016/j.precamres.2010.02.002 https://doi.org/10.1016/j.precamres.2010...
|
1062 |
Charno-enderbitic granulite |
- |
LA-MC-ICP-MS |
|
1656 ± 69 |
590 ± 5 |
Heilbron et al. (2010)Heilbron M., Duarte B.P., Valeriano C.M., Simonetti A., Machado N., Nogueira J.R. 2010. Evolution of reworked Paleoproterozoic basement rocks within the Ribeira belt (Neoproterozoic), SE-Brazil, based on U-Pb geochronology: implications for paleogeographic reconstructions of the São Francisco-Congo paleocontinent. Precambrian Research, 178(1-4):136-148. https://doi.org/10.1016/j.precamres.2010.02.002 https://doi.org/10.1016/j.precamres.2010...
|
LC-66 |
Norite |
- |
SHRIMP |
|
2119 ± 16 |
579 ± 5 |
Noce et al. (2007)Noce C.M., Pedrosa-Soares A.C., Silva L.C., Armstrong R., Piuzana D. 2007. Evolution of polycyclic basement complexes in the Araçuaí Orogen, based on U–Pb SHRIMP data: implication for Brazil-Africa links in Paleoproterozoic time. Precambrian Research, 159(1-2):60-78. https://doi.org/10.1016/j.precamres.2007.06.001 https://doi.org/10.1016/j.precamres.2007...
|
UB-1 |
Enderbite |
- |
SHRIMP |
|
2084 ± 13 |
594 ± 37 |
Noce et al. (2007)Noce C.M., Pedrosa-Soares A.C., Silva L.C., Armstrong R., Piuzana D. 2007. Evolution of polycyclic basement complexes in the Araçuaí Orogen, based on U–Pb SHRIMP data: implication for Brazil-Africa links in Paleoproterozoic time. Precambrian Research, 159(1-2):60-78. https://doi.org/10.1016/j.precamres.2007.06.001 https://doi.org/10.1016/j.precamres.2007...
|
IV-48 |
Granodioritic orthogneiss |
- |
SHRIMP |
|
2107 ± 71 |
580 ± 19 |
Degler et al. (2018)Degler R., Pedrosa-Soares A., Novo T., Tedeschi M., Silva L.C., Dussin I., Lana C. 2018. Rhyacian-Orosirian isotopic records from the basement of the Araçuaí-Ribeira orogenic system (SE Brazil): links in the Congo-São Francisco paleocontinent. Precambrian Research, 317:179-195. https://doi.org/10.1016/j.precamres.2018.08.018 https://doi.org/10.1016/j.precamres.2018...
|
M-03 |
Tonalitic orthogneiss |
- |
LA-MC-ICP-MS |
|
2110 ± 12 |
- |
Degler et al. (2018)Degler R., Pedrosa-Soares A., Novo T., Tedeschi M., Silva L.C., Dussin I., Lana C. 2018. Rhyacian-Orosirian isotopic records from the basement of the Araçuaí-Ribeira orogenic system (SE Brazil): links in the Congo-São Francisco paleocontinent. Precambrian Research, 317:179-195. https://doi.org/10.1016/j.precamres.2018.08.018 https://doi.org/10.1016/j.precamres.2018...
|
LC-07 |
Tonalitic orthogneiss |
- |
SHRIMP |
|
2122 ± 11 |
565 ± 7 |
Degler et al. (2018)Degler R., Pedrosa-Soares A., Novo T., Tedeschi M., Silva L.C., Dussin I., Lana C. 2018. Rhyacian-Orosirian isotopic records from the basement of the Araçuaí-Ribeira orogenic system (SE Brazil): links in the Congo-São Francisco paleocontinent. Precambrian Research, 317:179-195. https://doi.org/10.1016/j.precamres.2018.08.018 https://doi.org/10.1016/j.precamres.2018...
|
RC-101 |
Enderbitic orthogneiss |
- |
SHRIMP |
|
2144 ± 13 |
- |
Degler et al. (2018)Degler R., Pedrosa-Soares A., Novo T., Tedeschi M., Silva L.C., Dussin I., Lana C. 2018. Rhyacian-Orosirian isotopic records from the basement of the Araçuaí-Ribeira orogenic system (SE Brazil): links in the Congo-São Francisco paleocontinent. Precambrian Research, 317:179-195. https://doi.org/10.1016/j.precamres.2018.08.018 https://doi.org/10.1016/j.precamres.2018...
|
RC-103 |
Enderbitic orthogneiss |
- |
SHRIMP |
|
2143 ± 21 |
- |
Degler et al. (2018)Degler R., Pedrosa-Soares A., Novo T., Tedeschi M., Silva L.C., Dussin I., Lana C. 2018. Rhyacian-Orosirian isotopic records from the basement of the Araçuaí-Ribeira orogenic system (SE Brazil): links in the Congo-São Francisco paleocontinent. Precambrian Research, 317:179-195. https://doi.org/10.1016/j.precamres.2018.08.018 https://doi.org/10.1016/j.precamres.2018...
|
VA-LM-07B |
Enderbitic granulite |
Low-K tholeiite |
SHRIMP |
- |
2446 ± 10 |
- |
Araújo et al. (2019Araújo L.E.A.B., Heilbron M., Valeriano C.M., Teixeira W., Aguiar Neto C.C. 2019. Lithogeochemical and Nd-Sr isotope data of the orthogranulites of the Juiz de Fora Complex, SE-Brazil: insights from a hidden Rhyacian Orogen within the Ribeira belt. Brazilian Journal of Geology, 49(3):e20190007. https://doi.org/10.1590/2317-4889201920190007 https://doi.org/10.1590/2317-48892019201...
, 2021Araújo L.E.A.B., Heilbron M., Teixeira W., Dussin I.A., Valeriano C.M., Bruno H., Sato K., Paravidini G., Castro M. 2021. Siderian to Rhyacian evolution of the Juiz de Fora Complex: arc fingerprints and correlations within the Minas-Bahia Orogen and the Western Central Africa Belt. Precambrian Research, 359:106118. https://doi.org/10.1016/j.precamres.2021.106118 https://doi.org/10.1016/j.precamres.2021...
) |
RP-LM-04 |
Charnokitic granulite |
Sanukitoid |
SHRIMP |
- |
2182 ± 13 |
561 ± 41 |
Araújo et al. (2019Araújo L.E.A.B., Heilbron M., Valeriano C.M., Teixeira W., Aguiar Neto C.C. 2019. Lithogeochemical and Nd-Sr isotope data of the orthogranulites of the Juiz de Fora Complex, SE-Brazil: insights from a hidden Rhyacian Orogen within the Ribeira belt. Brazilian Journal of Geology, 49(3):e20190007. https://doi.org/10.1590/2317-4889201920190007 https://doi.org/10.1590/2317-48892019201...
, 2021Araújo L.E.A.B., Heilbron M., Teixeira W., Dussin I.A., Valeriano C.M., Bruno H., Sato K., Paravidini G., Castro M. 2021. Siderian to Rhyacian evolution of the Juiz de Fora Complex: arc fingerprints and correlations within the Minas-Bahia Orogen and the Western Central Africa Belt. Precambrian Research, 359:106118. https://doi.org/10.1016/j.precamres.2021.106118 https://doi.org/10.1016/j.precamres.2021...
) |
RP-LM-04 |
Charnokitic granulite |
Sanukitoid |
SHRIMP |
|
2182 ± 13 |
2021 ± 29 |
Araújo et al. (2019Araújo L.E.A.B., Heilbron M., Valeriano C.M., Teixeira W., Aguiar Neto C.C. 2019. Lithogeochemical and Nd-Sr isotope data of the orthogranulites of the Juiz de Fora Complex, SE-Brazil: insights from a hidden Rhyacian Orogen within the Ribeira belt. Brazilian Journal of Geology, 49(3):e20190007. https://doi.org/10.1590/2317-4889201920190007 https://doi.org/10.1590/2317-48892019201...
, 2021Araújo L.E.A.B., Heilbron M., Teixeira W., Dussin I.A., Valeriano C.M., Bruno H., Sato K., Paravidini G., Castro M. 2021. Siderian to Rhyacian evolution of the Juiz de Fora Complex: arc fingerprints and correlations within the Minas-Bahia Orogen and the Western Central Africa Belt. Precambrian Research, 359:106118. https://doi.org/10.1016/j.precamres.2021.106118 https://doi.org/10.1016/j.precamres.2021...
) |
BP-LM-13 |
Charno-enderbitic granulite |
Sanukitoid |
SHRIMP |
- |
2200 ± 7 |
- |
Araújo et al. (2019Araújo L.E.A.B., Heilbron M., Valeriano C.M., Teixeira W., Aguiar Neto C.C. 2019. Lithogeochemical and Nd-Sr isotope data of the orthogranulites of the Juiz de Fora Complex, SE-Brazil: insights from a hidden Rhyacian Orogen within the Ribeira belt. Brazilian Journal of Geology, 49(3):e20190007. https://doi.org/10.1590/2317-4889201920190007 https://doi.org/10.1590/2317-48892019201...
, 2021Araújo L.E.A.B., Heilbron M., Teixeira W., Dussin I.A., Valeriano C.M., Bruno H., Sato K., Paravidini G., Castro M. 2021. Siderian to Rhyacian evolution of the Juiz de Fora Complex: arc fingerprints and correlations within the Minas-Bahia Orogen and the Western Central Africa Belt. Precambrian Research, 359:106118. https://doi.org/10.1016/j.precamres.2021.106118 https://doi.org/10.1016/j.precamres.2021...
) |
BP-LM-12 |
Charno-enderbitic granulite |
TTG |
SHRIMP |
2364 ± 16 |
2197 ± 13 |
588 ± 18 |
Araújo et al. (2019Araújo L.E.A.B., Heilbron M., Valeriano C.M., Teixeira W., Aguiar Neto C.C. 2019. Lithogeochemical and Nd-Sr isotope data of the orthogranulites of the Juiz de Fora Complex, SE-Brazil: insights from a hidden Rhyacian Orogen within the Ribeira belt. Brazilian Journal of Geology, 49(3):e20190007. https://doi.org/10.1590/2317-4889201920190007 https://doi.org/10.1590/2317-48892019201...
, 2021Araújo L.E.A.B., Heilbron M., Teixeira W., Dussin I.A., Valeriano C.M., Bruno H., Sato K., Paravidini G., Castro M. 2021. Siderian to Rhyacian evolution of the Juiz de Fora Complex: arc fingerprints and correlations within the Minas-Bahia Orogen and the Western Central Africa Belt. Precambrian Research, 359:106118. https://doi.org/10.1016/j.precamres.2021.106118 https://doi.org/10.1016/j.precamres.2021...
) |
BP-CM-151 |
Mafic orthogranulite |
Tholeiite |
LA-MC-ICP-MS |
2395 ± 19 |
2134 ± 43 |
544 ± 19 |
Araújo et al. (2019Araújo L.E.A.B., Heilbron M., Valeriano C.M., Teixeira W., Aguiar Neto C.C. 2019. Lithogeochemical and Nd-Sr isotope data of the orthogranulites of the Juiz de Fora Complex, SE-Brazil: insights from a hidden Rhyacian Orogen within the Ribeira belt. Brazilian Journal of Geology, 49(3):e20190007. https://doi.org/10.1590/2317-4889201920190007 https://doi.org/10.1590/2317-48892019201...
, 2021Araújo L.E.A.B., Heilbron M., Teixeira W., Dussin I.A., Valeriano C.M., Bruno H., Sato K., Paravidini G., Castro M. 2021. Siderian to Rhyacian evolution of the Juiz de Fora Complex: arc fingerprints and correlations within the Minas-Bahia Orogen and the Western Central Africa Belt. Precambrian Research, 359:106118. https://doi.org/10.1016/j.precamres.2021.106118 https://doi.org/10.1016/j.precamres.2021...
) |
RB13A |
Charnokite |
- |
LA-MC-ICP-MS |
- |
2039 ± 22 |
589 ± 6 |
Kuribara et al. (2019)Kuribara Y., Tsunogae T., Santosh M., Takamura Y., Costa A., Rosière C. 2019. Eoarchean to Neoproterozoic crustal evolutioI the Mantiqueira and the Juiz de Fora Complexes, SE Brazil: petrology, geochemistry, zircon U-Pb geochronology and Lu-Hf isotopes. Precambrian Research, 323:82-101. https://doi.org/10.1016/j.precamres.2019.01.008 https://doi.org/10.1016/j.precamres.2019...
|
MAJF26 |
Enderbitic orthogranulite |
TTG |
LA-ICP-MS |
2380 ± 19 |
2085 ± 24 |
591 ± 10 |
Almeida et al. (2022) |
CTVC 8D |
Mafic orthogranulite |
IAT |
LA-ICP-MS |
- |
2101 ± 12 |
- |
Almeida et al. (2022) |
ADVC 241A |
Enderbitic orthogranulite |
Sanukitoid |
LA-ICP-MS |
- |
2067 ± 6 |
- |
Almeida et al. (2022) |
SJVC 72A |
Mafic orthogranulite |
E-MORB |
LA-ICP-MS |
- |
2038 ± 5 |
512 ± 11 |
Almeida et al. (2022) |
MRVC 23A |
Charnokitic orthogranulite |
Hybrid granitoid |
LA-ICP-MS |
- |
2019 ± 16 |
636 ± 39 |
Almeida et al. (2022) |
MAJF 14 |
Charno-enderbitic granulite |
Hybrid granitoid |
LA-ICP-MS |
2730 ± 19 |
1982 ± 18 |
600 ± 41 |
Almeida et al. (2022) |
CPR-03 |
Granulitic orthogneiss |
- |
LA-MC-ICP-MS |
- |
2209 ± 22 |
596 ± 20 |
Faria et al. (2022)Faria T.G., Alves M.I., Potratz G.L., Silva L.F., Rodrigues S.W.O., Martins M.V.A., Geraldes M.C. 2022. The Serra do Caparaó Complex, Mantiqueira Province, Brazil, revisited: metamorphic age constraints by U-Pb and Lu-Hf method in zircon by LA-ICP-MS. Journal of the Geological Survey of Brazil, 5(1):49-80. https://doi.org/10.29396/jgsb.2022.v5.n1.1 https://doi.org/10.29396/jgsb.2022.v5.n1...
|
CPR-04 |
Granulitic orthogneiss |
- |
LA-MC-ICP-MS |
- |
2199 ± 21 |
603 ± 20 |
Faria et al. (2022)Faria T.G., Alves M.I., Potratz G.L., Silva L.F., Rodrigues S.W.O., Martins M.V.A., Geraldes M.C. 2022. The Serra do Caparaó Complex, Mantiqueira Province, Brazil, revisited: metamorphic age constraints by U-Pb and Lu-Hf method in zircon by LA-ICP-MS. Journal of the Geological Survey of Brazil, 5(1):49-80. https://doi.org/10.29396/jgsb.2022.v5.n1.1 https://doi.org/10.29396/jgsb.2022.v5.n1...
|
CPR-08 |
Granulitic orthogneiss |
- |
LA-MC-ICP-MS |
- |
2104 ± 16 |
622 ± 46 |
Faria et al. (2022)Faria T.G., Alves M.I., Potratz G.L., Silva L.F., Rodrigues S.W.O., Martins M.V.A., Geraldes M.C. 2022. The Serra do Caparaó Complex, Mantiqueira Province, Brazil, revisited: metamorphic age constraints by U-Pb and Lu-Hf method in zircon by LA-ICP-MS. Journal of the Geological Survey of Brazil, 5(1):49-80. https://doi.org/10.29396/jgsb.2022.v5.n1.1 https://doi.org/10.29396/jgsb.2022.v5.n1...
|
CPR-10 |
Granulitic orthogneiss |
- |
LA-MC-ICP-MS |
- |
2196 ± 14 |
633 ± 22 |
Faria et al. (2022)Faria T.G., Alves M.I., Potratz G.L., Silva L.F., Rodrigues S.W.O., Martins M.V.A., Geraldes M.C. 2022. The Serra do Caparaó Complex, Mantiqueira Province, Brazil, revisited: metamorphic age constraints by U-Pb and Lu-Hf method in zircon by LA-ICP-MS. Journal of the Geological Survey of Brazil, 5(1):49-80. https://doi.org/10.29396/jgsb.2022.v5.n1.1 https://doi.org/10.29396/jgsb.2022.v5.n1...
|
CPR-13 |
Migmatitic orthogneiss |
- |
LA-MC-ICP-MS |
- |
2176 ± 26 |
600 ± 18 |
Faria et al. (2022)Faria T.G., Alves M.I., Potratz G.L., Silva L.F., Rodrigues S.W.O., Martins M.V.A., Geraldes M.C. 2022. The Serra do Caparaó Complex, Mantiqueira Province, Brazil, revisited: metamorphic age constraints by U-Pb and Lu-Hf method in zircon by LA-ICP-MS. Journal of the Geological Survey of Brazil, 5(1):49-80. https://doi.org/10.29396/jgsb.2022.v5.n1.1 https://doi.org/10.29396/jgsb.2022.v5.n1...
|
CPR-18 |
Migmatitic orthogneiss |
- |
LA-MC-ICP-MS |
- |
2160 ± 39 |
584 ± 29 |
Faria et al. (2022)Faria T.G., Alves M.I., Potratz G.L., Silva L.F., Rodrigues S.W.O., Martins M.V.A., Geraldes M.C. 2022. The Serra do Caparaó Complex, Mantiqueira Province, Brazil, revisited: metamorphic age constraints by U-Pb and Lu-Hf method in zircon by LA-ICP-MS. Journal of the Geological Survey of Brazil, 5(1):49-80. https://doi.org/10.29396/jgsb.2022.v5.n1.1 https://doi.org/10.29396/jgsb.2022.v5.n1...
|
CPR-20 |
Migmatitic orthogneiss |
- |
LA-MC-ICP-MS |
- |
2121 ± 18 |
596 ± 16 |
Faria et al. (2022)Faria T.G., Alves M.I., Potratz G.L., Silva L.F., Rodrigues S.W.O., Martins M.V.A., Geraldes M.C. 2022. The Serra do Caparaó Complex, Mantiqueira Province, Brazil, revisited: metamorphic age constraints by U-Pb and Lu-Hf method in zircon by LA-ICP-MS. Journal of the Geological Survey of Brazil, 5(1):49-80. https://doi.org/10.29396/jgsb.2022.v5.n1.1 https://doi.org/10.29396/jgsb.2022.v5.n1...
|