Geoquímica de minerais detríticos em estudos de proveniência : uma revisão

Detalhes bibliográficos
Autor(a) principal: Barros, Carla Ennes de
Data de Publicação: 2005
Outros Autores: Nardi, Lauro Valentim Stoll, Dillenburg, Sergio Rebello
Tipo de documento: Artigo
Idioma: por
Título da fonte: Repositório Institucional da UFRGS
Texto Completo: http://hdl.handle.net/10183/22609
Resumo: The chemical composition of detrital minerals in sediments has become a powerful tool for provenance studies, particularly in the last decades with the improvement of analytical techniques for mineral grains. Major and trace element contents of igneous and metamorphic minerals can reveal the characteristics of their original sources, mainly with respect to their geochemical affinity, geotectonic setting and the physical parameters that controlled their crystallization. The proportions of major elements in pyroxenes and amphiboles can be used for the identification of their igneous or metamorphic origin, for the definition of their magmatic affiliation, and for the discussion of the probable tectonic setting where they were generated. Metamorphic and igneous zircons can be distinguished by REE patterns or U and Th contents. Magmatic zircons from different geotectonic settings can show different concentrations of REE, Nb, Hf and Y. Magmatic garnets from granites typically show high Mn contents, and can be distinguished from metamorphic ones or from garnets of ultramafic rocks mainly through their major element composition. Compositional zoning of garnets are indicative of their metamorphic or igneous character. Magmatic, metamorphic and hydrothermal epidotes can be distinguished by their chemical composition, as well. Several other minerals, such as apatite, tourmaline, rutile, titanite, and feldspars can indicate, through their chemical composition, the probable rock that could have produced them. The integration of geochemical data on detrital minerals with other usual tools of sedimentary petrology is certainly the most efficient approach for investigating the provenance of sediments.
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spelling Barros, Carla Ennes deNardi, Lauro Valentim StollDillenburg, Sergio Rebello2010-05-20T04:16:20Z20051518-2398http://hdl.handle.net/10183/22609000524042The chemical composition of detrital minerals in sediments has become a powerful tool for provenance studies, particularly in the last decades with the improvement of analytical techniques for mineral grains. Major and trace element contents of igneous and metamorphic minerals can reveal the characteristics of their original sources, mainly with respect to their geochemical affinity, geotectonic setting and the physical parameters that controlled their crystallization. The proportions of major elements in pyroxenes and amphiboles can be used for the identification of their igneous or metamorphic origin, for the definition of their magmatic affiliation, and for the discussion of the probable tectonic setting where they were generated. Metamorphic and igneous zircons can be distinguished by REE patterns or U and Th contents. Magmatic zircons from different geotectonic settings can show different concentrations of REE, Nb, Hf and Y. Magmatic garnets from granites typically show high Mn contents, and can be distinguished from metamorphic ones or from garnets of ultramafic rocks mainly through their major element composition. Compositional zoning of garnets are indicative of their metamorphic or igneous character. Magmatic, metamorphic and hydrothermal epidotes can be distinguished by their chemical composition, as well. Several other minerals, such as apatite, tourmaline, rutile, titanite, and feldspars can indicate, through their chemical composition, the probable rock that could have produced them. The integration of geochemical data on detrital minerals with other usual tools of sedimentary petrology is certainly the most efficient approach for investigating the provenance of sediments.application/pdfporPesquisas em Geociências. Porto Alegre, RS. Vol. 32, n. 1 (2005), p. 3-15Geoquimica mineralMinerais detríticosGeoquímica de minerais detríticos em estudos de proveniência : uma revisãoinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/otherinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFRGSinstname:Universidade Federal do Rio Grande do Sul (UFRGS)instacron:UFRGSTEXT000524042.pdf.txt000524042.pdf.txtExtracted Texttext/plain57288http://www.lume.ufrgs.br/bitstream/10183/22609/2/000524042.pdf.txt5f5d0088af11b9a794dcc2cc079eeb93MD52ORIGINAL000524042.pdf000524042.pdfTexto completoapplication/pdf327747http://www.lume.ufrgs.br/bitstream/10183/22609/1/000524042.pdff3581efba6609b9aea63dd2651ac3af5MD51THUMBNAIL000524042.pdf.jpg000524042.pdf.jpgGenerated Thumbnailimage/jpeg1759http://www.lume.ufrgs.br/bitstream/10183/22609/3/000524042.pdf.jpg9e3cfe8997b2590527b5108a5004035eMD5310183/226092023-03-09 03:29:06.704974oai:www.lume.ufrgs.br:10183/22609Repositório de PublicaçõesPUBhttps://lume.ufrgs.br/oai/requestopendoar:2023-03-09T06:29:06Repositório Institucional da UFRGS - Universidade Federal do Rio Grande do Sul (UFRGS)false
dc.title.pt_BR.fl_str_mv Geoquímica de minerais detríticos em estudos de proveniência : uma revisão
title Geoquímica de minerais detríticos em estudos de proveniência : uma revisão
spellingShingle Geoquímica de minerais detríticos em estudos de proveniência : uma revisão
Barros, Carla Ennes de
Geoquimica mineral
Minerais detríticos
title_short Geoquímica de minerais detríticos em estudos de proveniência : uma revisão
title_full Geoquímica de minerais detríticos em estudos de proveniência : uma revisão
title_fullStr Geoquímica de minerais detríticos em estudos de proveniência : uma revisão
title_full_unstemmed Geoquímica de minerais detríticos em estudos de proveniência : uma revisão
title_sort Geoquímica de minerais detríticos em estudos de proveniência : uma revisão
author Barros, Carla Ennes de
author_facet Barros, Carla Ennes de
Nardi, Lauro Valentim Stoll
Dillenburg, Sergio Rebello
author_role author
author2 Nardi, Lauro Valentim Stoll
Dillenburg, Sergio Rebello
author2_role author
author
dc.contributor.author.fl_str_mv Barros, Carla Ennes de
Nardi, Lauro Valentim Stoll
Dillenburg, Sergio Rebello
dc.subject.por.fl_str_mv Geoquimica mineral
Minerais detríticos
topic Geoquimica mineral
Minerais detríticos
description The chemical composition of detrital minerals in sediments has become a powerful tool for provenance studies, particularly in the last decades with the improvement of analytical techniques for mineral grains. Major and trace element contents of igneous and metamorphic minerals can reveal the characteristics of their original sources, mainly with respect to their geochemical affinity, geotectonic setting and the physical parameters that controlled their crystallization. The proportions of major elements in pyroxenes and amphiboles can be used for the identification of their igneous or metamorphic origin, for the definition of their magmatic affiliation, and for the discussion of the probable tectonic setting where they were generated. Metamorphic and igneous zircons can be distinguished by REE patterns or U and Th contents. Magmatic zircons from different geotectonic settings can show different concentrations of REE, Nb, Hf and Y. Magmatic garnets from granites typically show high Mn contents, and can be distinguished from metamorphic ones or from garnets of ultramafic rocks mainly through their major element composition. Compositional zoning of garnets are indicative of their metamorphic or igneous character. Magmatic, metamorphic and hydrothermal epidotes can be distinguished by their chemical composition, as well. Several other minerals, such as apatite, tourmaline, rutile, titanite, and feldspars can indicate, through their chemical composition, the probable rock that could have produced them. The integration of geochemical data on detrital minerals with other usual tools of sedimentary petrology is certainly the most efficient approach for investigating the provenance of sediments.
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dc.relation.ispartof.pt_BR.fl_str_mv Pesquisas em Geociências. Porto Alegre, RS. Vol. 32, n. 1 (2005), p. 3-15
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