Tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the Lemarchant volcanogenic massive sulfide deposit, Newfoundland, Canada

The use of hyperspectral reflectance in mineral exploration has been steadily increasing in recent decades. This study presents a novel approach that integrates geochemical and spectral proxies to delineate ore formation and alteration processes, which provide new spectral-based exploration paramete...

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Published in:Economic Geology
Main Authors: Cloutier, J, Piercey, SJ
Format: Article in Journal/Newspaper
Language:unknown
Published: Economic Geology Publ Co 2020
Subjects:
Canada
Newfoundland
Online Access:https://eprints.utas.edu.au/38629/
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spelling ftunivtasmania:oai:eprints.utas.edu.au:38629 2023-05-15T17:22:02+02:00 Tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the Lemarchant volcanogenic massive sulfide deposit, Newfoundland, Canada Cloutier, J Piercey, SJ 2020 https://eprints.utas.edu.au/38629/ unknown Economic Geology Publ Co Cloutier, J orcid:0000-0002-9432-9880 and Piercey, SJ 2020 , 'Tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the Lemarchant volcanogenic massive sulfide deposit, Newfoundland, Canada' , Economic Geology, vol. 115, no. 5 , pp. 1055-1078 , doi:10.5382/econgeo.4723 <http://dx.doi.org/10.5382/econgeo.4723>. Article PeerReviewed 2020 ftunivtasmania https://doi.org/10.5382/econgeo.4723 2021-11-29T23:17:27Z The use of hyperspectral reflectance in mineral exploration has been steadily increasing in recent decades. This study presents a novel approach that integrates geochemical and spectral proxies to delineate ore formation and alteration processes, which provide new spectral-based exploration parameters that can be used in real time. The precious metal-bearing, bimodal-felsic Northwest zone of the Lemarchant volcanogenic massive sulfide (VMS) deposits, Newfoundland, Canada, is used as a case study.Alteration associated with the Northwest zone includes intense and localized sulfide (pyrite, chalcopyrite, sphalerite, and galena) and barite enrichment, as well as quartz, white mica, and chlorite alteration. Zones of elevated Zn (>5,000 ppm) are associated with high chlorite carbonate pyrite index (CCPI), Ishikawa alteration index (AI), Ba/Sr, and low Na2O values and elevated SiO2 and K2O, Fe2O3, Na2O, and BaO contents, similar to global alteration signatures in VMS deposits. Mineralized areas contain phengitic white micas with 2,200-nm absorption features longer than 2,215 nm and Mg-rich chlorites with 2,250-nm absorption features shorter than 2,252 nm. Together, these data are consistent with the Northwest zone having undergone intense hydrothermal alteration during the mineralization event.A new lithology-normalized spectral alteration index (SAI) for white mica and chlorite was developed in order to map and characterize the alteration intensity surrounding the deposit. In addition, depth ratio parameters (2200D/2340D vs. 2250D/2340D) were used to characterize mineralogical changes and zonation. Together, these features document a paleofluid pathway with Mg chlorite alteration extending to at least 300 m away from the mineralization, outside the study area, within the andesitic and dacitic units.The use of hyperspectral reflectance coupled with geochemical alteration proxies permitted the identification of areas of intense alteration, the chemical affinities of the minerals, and their relationships to alteration processes (i.e., seawater alteration versus silicification), which would not be possible using geochemistry alone. Article in Journal/Newspaper Newfoundland University of Tasmania: UTas ePrints Canada Economic Geology 115 5 1055 1078
institution Open Polar
collection University of Tasmania: UTas ePrints
op_collection_id ftunivtasmania
language unknown
description The use of hyperspectral reflectance in mineral exploration has been steadily increasing in recent decades. This study presents a novel approach that integrates geochemical and spectral proxies to delineate ore formation and alteration processes, which provide new spectral-based exploration parameters that can be used in real time. The precious metal-bearing, bimodal-felsic Northwest zone of the Lemarchant volcanogenic massive sulfide (VMS) deposits, Newfoundland, Canada, is used as a case study.Alteration associated with the Northwest zone includes intense and localized sulfide (pyrite, chalcopyrite, sphalerite, and galena) and barite enrichment, as well as quartz, white mica, and chlorite alteration. Zones of elevated Zn (>5,000 ppm) are associated with high chlorite carbonate pyrite index (CCPI), Ishikawa alteration index (AI), Ba/Sr, and low Na2O values and elevated SiO2 and K2O, Fe2O3, Na2O, and BaO contents, similar to global alteration signatures in VMS deposits. Mineralized areas contain phengitic white micas with 2,200-nm absorption features longer than 2,215 nm and Mg-rich chlorites with 2,250-nm absorption features shorter than 2,252 nm. Together, these data are consistent with the Northwest zone having undergone intense hydrothermal alteration during the mineralization event.A new lithology-normalized spectral alteration index (SAI) for white mica and chlorite was developed in order to map and characterize the alteration intensity surrounding the deposit. In addition, depth ratio parameters (2200D/2340D vs. 2250D/2340D) were used to characterize mineralogical changes and zonation. Together, these features document a paleofluid pathway with Mg chlorite alteration extending to at least 300 m away from the mineralization, outside the study area, within the andesitic and dacitic units.The use of hyperspectral reflectance coupled with geochemical alteration proxies permitted the identification of areas of intense alteration, the chemical affinities of the minerals, and their relationships to alteration processes (i.e., seawater alteration versus silicification), which would not be possible using geochemistry alone.
format Article in Journal/Newspaper
author Cloutier, J
Piercey, SJ
spellingShingle Cloutier, J
Piercey, SJ
Tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the Lemarchant volcanogenic massive sulfide deposit, Newfoundland, Canada
author_facet Cloutier, J
Piercey, SJ
author_sort Cloutier, J
title Tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the Lemarchant volcanogenic massive sulfide deposit, Newfoundland, Canada
title_short Tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the Lemarchant volcanogenic massive sulfide deposit, Newfoundland, Canada
title_full Tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the Lemarchant volcanogenic massive sulfide deposit, Newfoundland, Canada
title_fullStr Tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the Lemarchant volcanogenic massive sulfide deposit, Newfoundland, Canada
title_full_unstemmed Tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the Lemarchant volcanogenic massive sulfide deposit, Newfoundland, Canada
title_sort tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the lemarchant volcanogenic massive sulfide deposit, newfoundland, canada
publisher Economic Geology Publ Co
publishDate 2020
url https://eprints.utas.edu.au/38629/
geographic Canada
geographic_facet Canada
genre Newfoundland
genre_facet Newfoundland
op_relation Cloutier, J orcid:0000-0002-9432-9880 and Piercey, SJ 2020 , 'Tracing mineralogy and alteration intensity using the spectral alteration index and depth ratios at the northwest zone of the Lemarchant volcanogenic massive sulfide deposit, Newfoundland, Canada' , Economic Geology, vol. 115, no. 5 , pp. 1055-1078 , doi:10.5382/econgeo.4723 <http://dx.doi.org/10.5382/econgeo.4723>.
op_doi https://doi.org/10.5382/econgeo.4723
container_title Economic Geology
container_volume 115
container_issue 5
container_start_page 1055
op_container_end_page 1078
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