PETROGRAPHIC, FLUID INCLUSION AND OXYGEN ISOTOPE CHARACTERISTICS OF RAMAND AREA, NW IRAN

Detalhes bibliográficos
Autor(a) principal: Bootorabi, Sima
Data de Publicação: 2020
Outros Autores: Mehrnia, Reza, Khakzad, Ahmad, Nezafati, Nima
Tipo de documento: Artigo
Idioma: eng
Título da fonte: Geosaberes
Texto Completo: http://www.geosaberes.ufc.br/geosaberes/article/view/1047
Resumo: Ramand mineralization area is located at a distance of about 60 km from the provincial capital of Qazvin province, Iran. The studied area is a part of the Central Iran structural zone in the southern part of Danesfahan geological map. Lithological units in Ramand area are composed of riodacite, rhyolite, tuff riodacite, crystal tuff and riodacite. The presence of clay minerals indicates argillic alteration, which is a good indicator of mineralization. This type of alteration can be detected in volcanic regions which have been severely affected by argillic alteration. Silicification is the most important evidence of precious metal potential in post magmatic environments. According to mineralogical studies, sulfide minerals in the area consist of pyrite and chalcopyrite with supergene minerals such as covellite, malachite, and Fe hydroxides. Based on phase content, the three types of inclusion in Ramand area include vapor, vapor liquid, and liquid rich inclusions. According to fluid inclusion data, the liquid vapor homogenization temperature [TH (L–V)] varied from 73 to 307 °C, and salinity ranged from 1.75 to 4.74 wt% NaCl eq. The calculated δ18O values of water in equilibrium with quartz ranged from 5.8 to 6.9 per ml. Calculated δ18O values of water in equilibrium with calcite ranged from 4.4 to 9.4 per ml. These data suggest that the ores formed most likely originated from magmatic hydrothermal sources along with some meteoric solutions during mineralization processes.
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spelling PETROGRAPHIC, FLUID INCLUSION AND OXYGEN ISOTOPE CHARACTERISTICS OF RAMAND AREA, NW IRAN PETROGRAFÍA, LÍQUIDO DE INCLUSIÓN Y CARACTERÍSTICAS DEL ISÓTOPO DE OXÍGENO DEL ÁREA DE RAMAND, NW DE IRÁN PETROGRAFIA, FLUIDO DE INCLUSÃO E ISÓTOPO DE OXIGÊNIO CARACTERÍSTICOS DA ÁREA DE RAMAND, NW DO IRÃRamand mineralization area is located at a distance of about 60 km from the provincial capital of Qazvin province, Iran. The studied area is a part of the Central Iran structural zone in the southern part of Danesfahan geological map. Lithological units in Ramand area are composed of riodacite, rhyolite, tuff riodacite, crystal tuff and riodacite. The presence of clay minerals indicates argillic alteration, which is a good indicator of mineralization. This type of alteration can be detected in volcanic regions which have been severely affected by argillic alteration. Silicification is the most important evidence of precious metal potential in post magmatic environments. According to mineralogical studies, sulfide minerals in the area consist of pyrite and chalcopyrite with supergene minerals such as covellite, malachite, and Fe hydroxides. Based on phase content, the three types of inclusion in Ramand area include vapor, vapor liquid, and liquid rich inclusions. According to fluid inclusion data, the liquid vapor homogenization temperature [TH (L–V)] varied from 73 to 307 °C, and salinity ranged from 1.75 to 4.74 wt% NaCl eq. The calculated δ18O values of water in equilibrium with quartz ranged from 5.8 to 6.9 per ml. Calculated δ18O values of water in equilibrium with calcite ranged from 4.4 to 9.4 per ml. These data suggest that the ores formed most likely originated from magmatic hydrothermal sources along with some meteoric solutions during mineralization processes.El área de mineralización de Ramand se encuentra a una distancia de unos 60 km de la capital provincial de la provincia de Qazvin, Irán. El área estudiada es parte de la zona estructural del centro de Irán en la parte sur del mapa geológico de Danesfahan. Las unidades litológicas en el área de Ramand se componen de riodacita, riolita, toba riodacita, toba de cristal y riodacita. La presencia de minerales arcillosos indica alteración argílica, que es un buen indicador de mineralización. Este tipo de alteración puede detectarse en regiones volcánicas que han sido severamente afectadas por la alteración argílica. La silicificación es la evidencia más importante del potencial de metales preciosos en entornos post magmáticos. De acuerdo con estudios mineralógicos, los minerales de sulfuro en el área consisten en pirita y calcopirita con minerales supergénicos tales como la calallita, la malaquita y los hidróxidos de Fe. Según el contenido de fase, los tres tipos de inclusión en el área de Ramand incluyen vapor, vapor líquido e inclusiones ricas en líquido. Según los datos de inclusión de líquidos, la temperatura de homogeneización del vapor líquido [TH (L–V)] varió de 73 a 307 ° C, y la salinidad varió de 1.75 a 4.74% en peso de NaCl eq. Los valores calculados de δ18O del agua en equilibrio con cuarzo oscilaron entre 5,8 y 6,9 por ml. Los valores calculados de δ18O del agua en equilibrio con calcita oscilaron entre 4,4 y 9,4 por ml. Estos datos sugieren que los minerales formados probablemente se originaron de fuentes hidrotermales magmáticas junto con algunas soluciones meteóricas durante los procesos de mineralización.A área de mineralização de Ramand está localizada a uma distância de cerca de 60 km da capital da província de Qazvin, no Irã. A área estudada faz parte da zona estrutural do Irã Central, na parte sul do mapa geológico de Danesfahan. As unidades litológicas na área de Ramand são compostas por riodacito, riolito, tiod riodacito, tufo de cristal e riodacito. A presença de minerais argilosos indica alteração argílica, que é um bom indicador de mineralização. Este tipo de alteração pode ser detectado em regiões vulcânicas que foram severamente afetadas pela alteração argílica. A silicificação é a evidência mais importante do potencial de metais preciosos em ambientes pós-magmáticos. De acordo com estudos mineralógicos, os minerais sulfetados na área consistem em pirita e calcopirita com minerais supergênicos, como covellite, malaquita e hidróxidos de Fe. Com base no conteúdo da fase, os três tipos de inclusão na área de Ramand incluem inclusões de vapor, vapor líquido e líquido rico. De acordo com os dados de inclusão de fluidos, a temperatura de homogeneização do vapor líquido [TH (L–V)] variou de 73 a 307 ° C, e a salinidade variou de 1,75 a 4,74% em peso de NaCl eq. Os valores calculados de δ18O da água em equilíbrio com o quartzo variaram de 5,8 a 6,9 por ml. Os valores calculados de δ18O da água em equilíbrio com calcita variaram de 4,4 a 9,4 por ml. Esses dados sugerem que os minérios formados provavelmente se originaram de fontes hidrotérmicas magmáticas, juntamente com algumas soluções meteóricas durante os processos de mineralização.Universidade Federal do Ceará2020-07-04info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttp://www.geosaberes.ufc.br/geosaberes/article/view/104710.26895/geosaberes.v11i0.1047Geosaberes; Vol 11 (2020): Vol 11 (2020); 450 - 466Geosaberes; Vol 11 (2020): Vol 11 (2020); 450 - 466Geosaberes; Vol 11 (2020): Vol 11 (2020); 450 - 4662178-0463reponame:Geosaberesinstname:Universidade Federal do Ceará (UFC)instacron:UFCenghttp://www.geosaberes.ufc.br/geosaberes/article/view/1047/836Copyright (c) 2020 Geosabereshttp://creativecommons.org/licenses/by-nc/4.0info:eu-repo/semantics/openAccessBootorabi, SimaMehrnia, RezaKhakzad, AhmadNezafati, Nima2020-07-04T19:43:55Zoai:geosaberes.www.geosaberes.ufc.br:article/1047Revistahttp://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:2020-07-04T19:43:55Geosaberes - Universidade Federal do Ceará (UFC)false
dc.title.none.fl_str_mv PETROGRAPHIC, FLUID INCLUSION AND OXYGEN ISOTOPE CHARACTERISTICS OF RAMAND AREA, NW IRAN
PETROGRAFÍA, LÍQUIDO DE INCLUSIÓN Y CARACTERÍSTICAS DEL ISÓTOPO DE OXÍGENO DEL ÁREA DE RAMAND, NW DE IRÁN
PETROGRAFIA, FLUIDO DE INCLUSÃO E ISÓTOPO DE OXIGÊNIO CARACTERÍSTICOS DA ÁREA DE RAMAND, NW DO IRÃ
title PETROGRAPHIC, FLUID INCLUSION AND OXYGEN ISOTOPE CHARACTERISTICS OF RAMAND AREA, NW IRAN
spellingShingle PETROGRAPHIC, FLUID INCLUSION AND OXYGEN ISOTOPE CHARACTERISTICS OF RAMAND AREA, NW IRAN
Bootorabi, Sima
title_short PETROGRAPHIC, FLUID INCLUSION AND OXYGEN ISOTOPE CHARACTERISTICS OF RAMAND AREA, NW IRAN
title_full PETROGRAPHIC, FLUID INCLUSION AND OXYGEN ISOTOPE CHARACTERISTICS OF RAMAND AREA, NW IRAN
title_fullStr PETROGRAPHIC, FLUID INCLUSION AND OXYGEN ISOTOPE CHARACTERISTICS OF RAMAND AREA, NW IRAN
title_full_unstemmed PETROGRAPHIC, FLUID INCLUSION AND OXYGEN ISOTOPE CHARACTERISTICS OF RAMAND AREA, NW IRAN
title_sort PETROGRAPHIC, FLUID INCLUSION AND OXYGEN ISOTOPE CHARACTERISTICS OF RAMAND AREA, NW IRAN
author Bootorabi, Sima
author_facet Bootorabi, Sima
Mehrnia, Reza
Khakzad, Ahmad
Nezafati, Nima
author_role author
author2 Mehrnia, Reza
Khakzad, Ahmad
Nezafati, Nima
author2_role author
author
author
dc.contributor.author.fl_str_mv Bootorabi, Sima
Mehrnia, Reza
Khakzad, Ahmad
Nezafati, Nima
description Ramand mineralization area is located at a distance of about 60 km from the provincial capital of Qazvin province, Iran. The studied area is a part of the Central Iran structural zone in the southern part of Danesfahan geological map. Lithological units in Ramand area are composed of riodacite, rhyolite, tuff riodacite, crystal tuff and riodacite. The presence of clay minerals indicates argillic alteration, which is a good indicator of mineralization. This type of alteration can be detected in volcanic regions which have been severely affected by argillic alteration. Silicification is the most important evidence of precious metal potential in post magmatic environments. According to mineralogical studies, sulfide minerals in the area consist of pyrite and chalcopyrite with supergene minerals such as covellite, malachite, and Fe hydroxides. Based on phase content, the three types of inclusion in Ramand area include vapor, vapor liquid, and liquid rich inclusions. According to fluid inclusion data, the liquid vapor homogenization temperature [TH (L–V)] varied from 73 to 307 °C, and salinity ranged from 1.75 to 4.74 wt% NaCl eq. The calculated δ18O values of water in equilibrium with quartz ranged from 5.8 to 6.9 per ml. Calculated δ18O values of water in equilibrium with calcite ranged from 4.4 to 9.4 per ml. These data suggest that the ores formed most likely originated from magmatic hydrothermal sources along with some meteoric solutions during mineralization processes.
publishDate 2020
dc.date.none.fl_str_mv 2020-07-04
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
format article
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dc.identifier.uri.fl_str_mv http://www.geosaberes.ufc.br/geosaberes/article/view/1047
10.26895/geosaberes.v11i0.1047
url http://www.geosaberes.ufc.br/geosaberes/article/view/1047
identifier_str_mv 10.26895/geosaberes.v11i0.1047
dc.language.iso.fl_str_mv eng
language eng
dc.relation.none.fl_str_mv http://www.geosaberes.ufc.br/geosaberes/article/view/1047/836
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); 450 - 466
Geosaberes; Vol 11 (2020): Vol 11 (2020); 450 - 466
Geosaberes; Vol 11 (2020): Vol 11 (2020); 450 - 466
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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