MINERALOGY AND GEOCHEMISTRY STUDY OF REE MINERALS IN HOST ROCKS IN IIC IRON DEPOSIT, BAFGH MINERAL AREA, CENTRAL IRAN

Detalhes bibliográficos
Autor(a) principal: Lotfi, Mohammad
Data de Publicação: 2020
Outros Autores: Shirazi, Mansoureh Shirnavard, Nezafati, Nima, Gourabjeripour, Arash
Tipo de documento: Artigo
Idioma: eng
Título da fonte: Geosaberes
Texto Completo: http://www.geosaberes.ufc.br/geosaberes/article/view/909
Resumo: The IIC deposit area to the east of the Bafq region exposes rocks that comprise the part of the Central Iran continental terrane. The IIC deposit iron orebodies are magmatic-related hydrothermal deposits that, when considered collectively display a vertical zonation from high-temperature, magmatic ± hydrothermal deposits emplaced at moderate depths (~1–2 km) to magnetite-dominant IOCG deposits emplaced at an even shallower subvolcanic level. The shallowest parts of these systems include near-surface, iron oxide-only replacement deposits, surficial epithermal sediment-hosted replacement deposits, and synsedimentary (exhalative) ironstone deposits. Alteration associated with the IOCG mineralizing system within the host volcanic, plutonic, and sedimentary rocks dominantly produced potassic with lesser amounts of calcic- and sodic-rich mineral assemblages. Our data suggest that hydrothermal magmatic fluids contributed to formation of the primary sodic and calcic alterations. The aim of this study is to delineate and recognize the different iron mineralized zones, based on surface and subsurface study. However, the data do not discriminate between a magmatic-hydrothermal source fluids resolved from Fe-rich immiscible liquid or Fe-rich silicate magma. Iron ores, occurring as massive-type and vein-type bodies are chemically different. Minor pyrite occurs as a late phase in the iron ores. The REE patterns of the mineralized metasomatites show LREE enrichment and strong Eu negative anomalies. The strong negative Eu anomaly probably indicates near-surface fractionation of alkali rhyolites involving feldspars. Field observations, ore mineral and alteration assemblages, coupled with lithogeochemical data suggest that an evolving fluid from magmatic dominated to surficial brine-rich fluid has contributed to the formation of the IIC deposit.
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spelling MINERALOGY AND GEOCHEMISTRY STUDY OF REE MINERALS IN HOST ROCKS IN IIC IRON DEPOSIT, BAFGH MINERAL AREA, CENTRAL IRAN ESTUDIO DE MINERALOGÍA Y GEOQUÍMICA DE MINERALES REE EN ROCAS HOSPEDANTES DE DEPÓSITOS DE HIERRO DE LA CII, ÁREA MINERAL DE BAFGH, IRÁN CENTRAL ESTUDO DE MINERALOGIA E GEOQUÍMICA DE MINERAIS REE EM ROCHAS HOSPEDEIRAS NO DEPÓSITO DE FERRO DA IIC, ÁREA MINERAL DE BAFGH, IRÃ CENTRALThe IIC deposit area to the east of the Bafq region exposes rocks that comprise the part of the Central Iran continental terrane. The IIC deposit iron orebodies are magmatic-related hydrothermal deposits that, when considered collectively display a vertical zonation from high-temperature, magmatic ± hydrothermal deposits emplaced at moderate depths (~1–2 km) to magnetite-dominant IOCG deposits emplaced at an even shallower subvolcanic level. The shallowest parts of these systems include near-surface, iron oxide-only replacement deposits, surficial epithermal sediment-hosted replacement deposits, and synsedimentary (exhalative) ironstone deposits. Alteration associated with the IOCG mineralizing system within the host volcanic, plutonic, and sedimentary rocks dominantly produced potassic with lesser amounts of calcic- and sodic-rich mineral assemblages. Our data suggest that hydrothermal magmatic fluids contributed to formation of the primary sodic and calcic alterations. The aim of this study is to delineate and recognize the different iron mineralized zones, based on surface and subsurface study. However, the data do not discriminate between a magmatic-hydrothermal source fluids resolved from Fe-rich immiscible liquid or Fe-rich silicate magma. Iron ores, occurring as massive-type and vein-type bodies are chemically different. Minor pyrite occurs as a late phase in the iron ores. The REE patterns of the mineralized metasomatites show LREE enrichment and strong Eu negative anomalies. The strong negative Eu anomaly probably indicates near-surface fractionation of alkali rhyolites involving feldspars. Field observations, ore mineral and alteration assemblages, coupled with lithogeochemical data suggest that an evolving fluid from magmatic dominated to surficial brine-rich fluid has contributed to the formation of the IIC deposit.El área de depósito de la CII al este de la región de Bafq expone rocas que comprenden la parte del terreno continental del centro de Irán. Los depósitos de mineral de hierro del depósito de la CII son depósitos hidrotermales relacionados con la magmática que, cuando se consideran colectivamente, muestran una zonificación vertical desde depósitos magmáticos ± hidrotermales de alta temperatura emplazados a profundidades moderadas (~ 1–2 km) hasta depósitos de COI dominantes con magnetita emplazados de manera uniforme. nivel subvolcánico menos profundo. Las partes menos profundas de estos sistemas incluyen depósitos de reemplazo de óxido de hierro cerca de la superficie, depósitos de reemplazo alojados en sedimentos epitermales superficiales y depósitos de piedra de hierro sinedimentarios (espiratorios). La alteración asociada con el sistema de mineralización IOCG dentro de las rocas volcánicas, plutónicas y sedimentarias del huésped produjo predominantemente potásico con cantidades menores de ensambles minerales ricos en calcio y sodio. Nuestros datos sugieren que los fluidos magmáticos hidrotermales contribuyeron a la formación de las alteraciones sódicas y cálcicas primarias. El objetivo de este estudio es delinear y reconocer las diferentes zonas mineralizadas de hierro, en base al estudio de superficie y subsuelo. Sin embargo, los datos no discriminan entre una fuente magmática-hidrotermal fluidos resueltos a partir de líquido inmiscible rico en Fe o magma de silicato rico en Fe. Los minerales de hierro, que se presentan como cuerpos de tipo venoso y masivo, son químicamente diferentes. La pirita menor ocurre como una fase tardía en los minerales de hierro. Los patrones REE de las metasomatitas mineralizadas muestran enriquecimiento LREE y fuertes anomalías negativas de Eu. La fuerte anomalía negativa de Eu probablemente indica un fraccionamiento cercano a la superficie de riolitas alcalinas que involucran feldespatos. Las observaciones de campo, el mineral mineral y los ensambles de alteración, junto con los datos litogeoquímicos, sugieren que un fluido en evolución desde fluido magmático dominado a fluido rico en salmuera superficial ha contribuido a la formación del depósito IIC.A área de depósito da IIC a leste da região de Bafq expõe rochas que compõem a parte do terrano continental do Irã Central. Os corpos orbitais de ferro da IIC são depósitos hidrotérmicos relacionados à magmática que, quando considerados coletivamente exibem uma zonação vertical de depósitos magmáticos ± hidrotérmicos de alta temperatura, colocados em profundidades moderadas (~ 1–2 km) a depósitos de IOCG dominantes por magnetita, colocados em um nível uniforme nível subvulcânico mais raso. As partes mais rasas desses sistemas incluem depósitos de substituição próximos à superfície, apenas com óxido de ferro, depósitos de substituição hospedados em sedimentos epitérmicos superficiais e depósitos de pedras de ferro sesedimentares (exalativas). As alterações associadas ao sistema de mineralização IOCG nas rochas vulcânicas, plutônicas e sedimentares do hospedeiro produzem predominantemente potássico com quantidades menores de conjuntos minerais ricos em cálcio e sódico. Nossos dados sugerem que fluidos magmáticos hidrotérmicos contribuíram para a formação das principais alterações sódicas e cálcicas. O objetivo deste estudo é delinear e reconhecer as diferentes zonas mineralizadas de ferro, com base em estudos de superfície e subsuperfície. No entanto, os dados não discriminam entre fluidos de fonte hidrotérmica magmática resolvidos a partir de líquido imiscível rico em Fe ou magma de silicato rico em Fe. Os minérios de ferro, que ocorrem como corpos maciços e veios, são quimicamente diferentes. Pirita menor ocorre como uma fase tardia nos minérios de ferro. Os padrões REE dos metassomatitos mineralizados mostram enriquecimento de LREE e fortes anomalias negativas da Eu. A forte anomalia Eu negativa provavelmente indica fracionamento próximo à superfície de riolitos alcalinos envolvendo feldspatos. Observações de campo, minerais de minério e conjuntos de alterações, juntamente com dados litoquímicos, sugerem que um fluido em evolução de magmático dominado a fluido rico em salmoura surficial contribuiu para a formação do depósito da IIC.Universidade Federal do Ceará2020-01-08info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttp://www.geosaberes.ufc.br/geosaberes/article/view/90910.26895/geosaberes.v11i0.909Geosaberes; Vol 11 (2020): Vol 11 (2020); 51 - 75Geosaberes; Vol 11 (2020): Vol 11 (2020); 51 - 75Geosaberes; Vol 11 (2020): Vol 11 (2020); 51 - 752178-0463reponame:Geosaberesinstname:Universidade Federal do Ceará (UFC)instacron:UFCenghttp://www.geosaberes.ufc.br/geosaberes/article/view/909/803Copyright (c) 2020 Geosabereshttp://creativecommons.org/licenses/by-nc/4.0info:eu-repo/semantics/openAccessLotfi, MohammadShirazi, Mansoureh ShirnavardNezafati, NimaGourabjeripour, Arash2020-05-23T23:31:53Zoai:geosaberes.www.geosaberes.ufc.br:article/909Revistahttp://www.geosaberes.ufc.br/geosaberes/PUBhttp://www.geosaberes.ufc.br/geosaberes/oaigeosaberes@ufc.br||jose.z.candido@gmail.com||fabiomoria@yahoo.com.br2178-04632178-0463opendoar:2020-05-23T23:31:53Geosaberes - Universidade Federal do Ceará (UFC)false
dc.title.none.fl_str_mv MINERALOGY AND GEOCHEMISTRY STUDY OF REE MINERALS IN HOST ROCKS IN IIC IRON DEPOSIT, BAFGH MINERAL AREA, CENTRAL IRAN
ESTUDIO DE MINERALOGÍA Y GEOQUÍMICA DE MINERALES REE EN ROCAS HOSPEDANTES DE DEPÓSITOS DE HIERRO DE LA CII, ÁREA MINERAL DE BAFGH, IRÁN CENTRAL
ESTUDO DE MINERALOGIA E GEOQUÍMICA DE MINERAIS REE EM ROCHAS HOSPEDEIRAS NO DEPÓSITO DE FERRO DA IIC, ÁREA MINERAL DE BAFGH, IRÃ CENTRAL
title MINERALOGY AND GEOCHEMISTRY STUDY OF REE MINERALS IN HOST ROCKS IN IIC IRON DEPOSIT, BAFGH MINERAL AREA, CENTRAL IRAN
spellingShingle MINERALOGY AND GEOCHEMISTRY STUDY OF REE MINERALS IN HOST ROCKS IN IIC IRON DEPOSIT, BAFGH MINERAL AREA, CENTRAL IRAN
Lotfi, Mohammad
title_short MINERALOGY AND GEOCHEMISTRY STUDY OF REE MINERALS IN HOST ROCKS IN IIC IRON DEPOSIT, BAFGH MINERAL AREA, CENTRAL IRAN
title_full MINERALOGY AND GEOCHEMISTRY STUDY OF REE MINERALS IN HOST ROCKS IN IIC IRON DEPOSIT, BAFGH MINERAL AREA, CENTRAL IRAN
title_fullStr MINERALOGY AND GEOCHEMISTRY STUDY OF REE MINERALS IN HOST ROCKS IN IIC IRON DEPOSIT, BAFGH MINERAL AREA, CENTRAL IRAN
title_full_unstemmed MINERALOGY AND GEOCHEMISTRY STUDY OF REE MINERALS IN HOST ROCKS IN IIC IRON DEPOSIT, BAFGH MINERAL AREA, CENTRAL IRAN
title_sort MINERALOGY AND GEOCHEMISTRY STUDY OF REE MINERALS IN HOST ROCKS IN IIC IRON DEPOSIT, BAFGH MINERAL AREA, CENTRAL IRAN
author Lotfi, Mohammad
author_facet Lotfi, Mohammad
Shirazi, Mansoureh Shirnavard
Nezafati, Nima
Gourabjeripour, Arash
author_role author
author2 Shirazi, Mansoureh Shirnavard
Nezafati, Nima
Gourabjeripour, Arash
author2_role author
author
author
dc.contributor.author.fl_str_mv Lotfi, Mohammad
Shirazi, Mansoureh Shirnavard
Nezafati, Nima
Gourabjeripour, Arash
description The IIC deposit area to the east of the Bafq region exposes rocks that comprise the part of the Central Iran continental terrane. The IIC deposit iron orebodies are magmatic-related hydrothermal deposits that, when considered collectively display a vertical zonation from high-temperature, magmatic ± hydrothermal deposits emplaced at moderate depths (~1–2 km) to magnetite-dominant IOCG deposits emplaced at an even shallower subvolcanic level. The shallowest parts of these systems include near-surface, iron oxide-only replacement deposits, surficial epithermal sediment-hosted replacement deposits, and synsedimentary (exhalative) ironstone deposits. Alteration associated with the IOCG mineralizing system within the host volcanic, plutonic, and sedimentary rocks dominantly produced potassic with lesser amounts of calcic- and sodic-rich mineral assemblages. Our data suggest that hydrothermal magmatic fluids contributed to formation of the primary sodic and calcic alterations. The aim of this study is to delineate and recognize the different iron mineralized zones, based on surface and subsurface study. However, the data do not discriminate between a magmatic-hydrothermal source fluids resolved from Fe-rich immiscible liquid or Fe-rich silicate magma. Iron ores, occurring as massive-type and vein-type bodies are chemically different. Minor pyrite occurs as a late phase in the iron ores. The REE patterns of the mineralized metasomatites show LREE enrichment and strong Eu negative anomalies. The strong negative Eu anomaly probably indicates near-surface fractionation of alkali rhyolites involving feldspars. Field observations, ore mineral and alteration assemblages, coupled with lithogeochemical data suggest that an evolving fluid from magmatic dominated to surficial brine-rich fluid has contributed to the formation of the IIC deposit.
publishDate 2020
dc.date.none.fl_str_mv 2020-01-08
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv http://www.geosaberes.ufc.br/geosaberes/article/view/909
10.26895/geosaberes.v11i0.909
url http://www.geosaberes.ufc.br/geosaberes/article/view/909
identifier_str_mv 10.26895/geosaberes.v11i0.909
dc.language.iso.fl_str_mv eng
language eng
dc.relation.none.fl_str_mv http://www.geosaberes.ufc.br/geosaberes/article/view/909/803
dc.rights.driver.fl_str_mv Copyright (c) 2020 Geosaberes
http://creativecommons.org/licenses/by-nc/4.0
info:eu-repo/semantics/openAccess
rights_invalid_str_mv Copyright (c) 2020 Geosaberes
http://creativecommons.org/licenses/by-nc/4.0
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
dc.publisher.none.fl_str_mv Universidade Federal do Ceará
publisher.none.fl_str_mv Universidade Federal do Ceará
dc.source.none.fl_str_mv Geosaberes; Vol 11 (2020): Vol 11 (2020); 51 - 75
Geosaberes; Vol 11 (2020): Vol 11 (2020); 51 - 75
Geosaberes; Vol 11 (2020): Vol 11 (2020); 51 - 75
2178-0463
reponame:Geosaberes
instname:Universidade Federal do Ceará (UFC)
instacron:UFC
instname_str Universidade Federal do Ceará (UFC)
instacron_str UFC
institution UFC
reponame_str Geosaberes
collection Geosaberes
repository.name.fl_str_mv Geosaberes - Universidade Federal do Ceará (UFC)
repository.mail.fl_str_mv geosaberes@ufc.br||jose.z.candido@gmail.com||fabiomoria@yahoo.com.br
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