Trace element signature of pyrite from the los colorados iron oxide-apatite (ioa) deposit, chile: a missing link between andean ioa and iron oxide copper-gold systems?

Although studies have proposed that iron oxide-apatite (IOA) deposits may represent the deeper roots of some Andean iron oxide copper-gold (IOCG) systems, their genetic links remain obscure and controversial. A key question when considering an integrated genetic model is whether a magmatic-hydrother...

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Main Authors: Reich Morales, Martín, Simon, Adam C., Deditius, Artur P., Barra, Fernando, Chryssoulis, Stephen, Lagas, Gonzalo, Tardani, Daniele, Knipping, Jaayke L., Bilenker, Laura, Sánchez Alfaro, Pablo
Format: Article in Journal/Newspaper
Language:English
Published: Soc Economic Geologists 2016
Subjects:
Laco magnetite deposit
Field evidence bearing
Northern Chile
Hydrothermal solutions
Metal nanoparticles
Invisible gold
Ore genesis
Kiruna-type
Origin
Mineralization
Kiruna
Online Access:https://repositorio.uchile.cl/handle/2250/140472
id ftunivchile:oai:repositorio.uchile.cl:2250/140472
record_format openpolar
spelling ftunivchile:oai:repositorio.uchile.cl:2250/140472 2023-05-15T17:04:21+02:00 Trace element signature of pyrite from the los colorados iron oxide-apatite (ioa) deposit, chile: a missing link between andean ioa and iron oxide copper-gold systems? Reich Morales, Martín Simon, Adam C. Deditius, Artur P. Barra, Fernando Chryssoulis, Stephen Lagas, Gonzalo Tardani, Daniele Knipping, Jaayke L. Bilenker, Laura Sánchez Alfaro, Pablo 2016 application/pdf https://repositorio.uchile.cl/handle/2250/140472 en eng Soc Economic Geologists Economic Geology Volumen: 111 Número: 3 Páginas: 743-761 May 2016 https://repositorio.uchile.cl/handle/2250/140472 Economic Geology Laco magnetite deposit Field evidence bearing Northern Chile Hydrothermal solutions Metal nanoparticles Invisible gold Ore genesis Kiruna-type Origin Mineralization Artículo de revista 2016 ftunivchile 2023-03-05T00:50:48Z Although studies have proposed that iron oxide-apatite (IOA) deposits may represent the deeper roots of some Andean iron oxide copper-gold (IOCG) systems, their genetic links remain obscure and controversial. A key question when considering an integrated genetic model is whether a magmatic-hydrothermal fluid that precipitates massive magnetite will continue transporting significant amounts of dissolved Fe, Cu, and Au after IOA precipitation. Here we provide new geochemical data for accessory pyrite from the Los Colorados IOA deposit in the Chilean iron belt that confirm the role of this sulfide as a relevant repository for economic metals in IOA deposits. Pyrite occurs at Los Colorados as disseminated grains and as veinlets associated with magnetite and actinolite that postdate the main igneous magnetite stage. Electron probe microanalysis (EPMA) data for pyrite show anomalously high Co and Ni concentrations (up similar to 3.9 and similar to 1.5 wt %, respectively) and relatively high As contents (100s of ppm to a maximum of similar to 2,000 ppm). When combined with results from secondary ion mass spectrometry (SIMS) spot analyses, pyrite data show significant amounts of Cu that range from sub-ppm values (similar to 100 ppb) up to 1,000s of ppm, plus nonnegligiblc concentrations of Zn, Ph, Cd, Sb, Se, and Te (up to 100 ppm). The highest contents of Cu measured (wt % level) most likely record the presence of Cu-bearing submicron-sized mineral inclusions. Contents of Au and Ag are up to 1 and 10 ppm, respectively, with maximum concentrations that can rise up to 800 ppm Au and 300 ppm Ag due to the presence of submicron-sized inclusions. The high Co/Ni ratios of pyrite from Los Colorados are consistent with a magmatic-hydrothermal origin associated with a greater mafic affinity, compared to pyrite from porphyry Cu deposits. Furthermore, the geochemical signature of Los Colorados pyrite shares important similarities of composition and microtexture with the few published data for pyrite from IOCG deposits (e.g., ... Article in Journal/Newspaper Kiruna Universidad de Chile: Repositorio académico Kiruna
institution Open Polar
collection Universidad de Chile: Repositorio académico
op_collection_id ftunivchile
language English
topic Laco magnetite deposit
Field evidence bearing
Northern Chile
Hydrothermal solutions
Metal nanoparticles
Invisible gold
Ore genesis
Kiruna-type
Origin
Mineralization
spellingShingle Laco magnetite deposit
Field evidence bearing
Northern Chile
Hydrothermal solutions
Metal nanoparticles
Invisible gold
Ore genesis
Kiruna-type
Origin
Mineralization
Reich Morales, Martín
Simon, Adam C.
Deditius, Artur P.
Barra, Fernando
Chryssoulis, Stephen
Lagas, Gonzalo
Tardani, Daniele
Knipping, Jaayke L.
Bilenker, Laura
Sánchez Alfaro, Pablo
Trace element signature of pyrite from the los colorados iron oxide-apatite (ioa) deposit, chile: a missing link between andean ioa and iron oxide copper-gold systems?
topic_facet Laco magnetite deposit
Field evidence bearing
Northern Chile
Hydrothermal solutions
Metal nanoparticles
Invisible gold
Ore genesis
Kiruna-type
Origin
Mineralization
description Although studies have proposed that iron oxide-apatite (IOA) deposits may represent the deeper roots of some Andean iron oxide copper-gold (IOCG) systems, their genetic links remain obscure and controversial. A key question when considering an integrated genetic model is whether a magmatic-hydrothermal fluid that precipitates massive magnetite will continue transporting significant amounts of dissolved Fe, Cu, and Au after IOA precipitation. Here we provide new geochemical data for accessory pyrite from the Los Colorados IOA deposit in the Chilean iron belt that confirm the role of this sulfide as a relevant repository for economic metals in IOA deposits. Pyrite occurs at Los Colorados as disseminated grains and as veinlets associated with magnetite and actinolite that postdate the main igneous magnetite stage. Electron probe microanalysis (EPMA) data for pyrite show anomalously high Co and Ni concentrations (up similar to 3.9 and similar to 1.5 wt %, respectively) and relatively high As contents (100s of ppm to a maximum of similar to 2,000 ppm). When combined with results from secondary ion mass spectrometry (SIMS) spot analyses, pyrite data show significant amounts of Cu that range from sub-ppm values (similar to 100 ppb) up to 1,000s of ppm, plus nonnegligiblc concentrations of Zn, Ph, Cd, Sb, Se, and Te (up to 100 ppm). The highest contents of Cu measured (wt % level) most likely record the presence of Cu-bearing submicron-sized mineral inclusions. Contents of Au and Ag are up to 1 and 10 ppm, respectively, with maximum concentrations that can rise up to 800 ppm Au and 300 ppm Ag due to the presence of submicron-sized inclusions. The high Co/Ni ratios of pyrite from Los Colorados are consistent with a magmatic-hydrothermal origin associated with a greater mafic affinity, compared to pyrite from porphyry Cu deposits. Furthermore, the geochemical signature of Los Colorados pyrite shares important similarities of composition and microtexture with the few published data for pyrite from IOCG deposits (e.g., ...
format Article in Journal/Newspaper
author Reich Morales, Martín
Simon, Adam C.
Deditius, Artur P.
Barra, Fernando
Chryssoulis, Stephen
Lagas, Gonzalo
Tardani, Daniele
Knipping, Jaayke L.
Bilenker, Laura
Sánchez Alfaro, Pablo
author_facet Reich Morales, Martín
Simon, Adam C.
Deditius, Artur P.
Barra, Fernando
Chryssoulis, Stephen
Lagas, Gonzalo
Tardani, Daniele
Knipping, Jaayke L.
Bilenker, Laura
Sánchez Alfaro, Pablo
author_sort Reich Morales, Martín
title Trace element signature of pyrite from the los colorados iron oxide-apatite (ioa) deposit, chile: a missing link between andean ioa and iron oxide copper-gold systems?
title_short Trace element signature of pyrite from the los colorados iron oxide-apatite (ioa) deposit, chile: a missing link between andean ioa and iron oxide copper-gold systems?
title_full Trace element signature of pyrite from the los colorados iron oxide-apatite (ioa) deposit, chile: a missing link between andean ioa and iron oxide copper-gold systems?
title_fullStr Trace element signature of pyrite from the los colorados iron oxide-apatite (ioa) deposit, chile: a missing link between andean ioa and iron oxide copper-gold systems?
title_full_unstemmed Trace element signature of pyrite from the los colorados iron oxide-apatite (ioa) deposit, chile: a missing link between andean ioa and iron oxide copper-gold systems?
title_sort trace element signature of pyrite from the los colorados iron oxide-apatite (ioa) deposit, chile: a missing link between andean ioa and iron oxide copper-gold systems?
publisher Soc Economic Geologists
publishDate 2016
url https://repositorio.uchile.cl/handle/2250/140472
geographic Kiruna
geographic_facet Kiruna
genre Kiruna
genre_facet Kiruna
op_source Economic Geology
op_relation Economic Geology Volumen: 111 Número: 3 Páginas: 743-761 May 2016
https://repositorio.uchile.cl/handle/2250/140472
_version_ 1766058427630485504

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