Interpretation of the Reflectance Spectra of Lithium (Li) Minerals and Pegmatites: A Case Study for Mineralogical and Lithological Identification in the Fregeneda-Almendra Area

Interpretation of the Reflectance Spectra of Lithium (Li) Minerals and Pegmatites: A Case Study for Mineralogical and Lithological Identification in the Fregeneda-Almendra Area

Reflectance spectroscopy has been used to identify several deposit types. However, applications concerning lithium (Li)-pegmatites are still scarce. Reflectance spectroscopic studies complemented by microscopic and geochemical studies were employed in the Fregeneda–Almendra (Spain–Portugal) pegmatit...

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Main Authors: Joana Cardoso-Fernandes, João Silva, Mônica M. Perrotta, Alexandre Lima, Ana C. Teodoro, Maria Anjos Ribeiro, Filipa Dias, Odile Barrès, Jean Cauzid, Encarnación Roda-Robles
Format: Article
Language:English
Published: MDPI AG 2021-09-01
Series:Remote Sensing
Subjects:
remote sensing
reflectance spectroscopy
hyperspectral
geological exploration
spectral library
absorption features
Online Access:https://www.mdpi.com/2072-4292/13/18/3688
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spelling doaj-cac0b8cf6ed643e4963859af2cb40bca2021-09-26T01:17:44ZengMDPI AGRemote Sensing2072-42922021-09-01133688368810.3390/rs13183688Interpretation of the Reflectance Spectra of Lithium (Li) Minerals and Pegmatites: A Case Study for Mineralogical and Lithological Identification in the Fregeneda-Almendra AreaJoana Cardoso-Fernandes0João Silva1Mônica M. Perrotta2Alexandre Lima3Ana C. Teodoro4Maria Anjos Ribeiro5Filipa Dias6Odile Barrès7Jean Cauzid8Encarnación Roda-Robles9Department of Geosciences, Environment and Spatial Plannings, Faculty of Sciences, University of Porto, Rua Campo Alegre, 4169-007 Porto, PortugalDepartment of Geosciences, Environment and Spatial Plannings, Faculty of Sciences, University of Porto, Rua Campo Alegre, 4169-007 Porto, PortugalRemote Sensing and Mineral Spectroscopy Laboratory, Geological Survey of Brazil (CPRM), Rua Costa, 55, São Paulo 01304-010, BrazilDepartment of Geosciences, Environment and Spatial Plannings, Faculty of Sciences, University of Porto, Rua Campo Alegre, 4169-007 Porto, PortugalDepartment of Geosciences, Environment and Spatial Plannings, Faculty of Sciences, University of Porto, Rua Campo Alegre, 4169-007 Porto, PortugalDepartment of Geosciences, Environment and Spatial Plannings, Faculty of Sciences, University of Porto, Rua Campo Alegre, 4169-007 Porto, PortugalDepartment of Geosciences, Environment and Spatial Plannings, Faculty of Sciences, University of Porto, Rua Campo Alegre, 4169-007 Porto, PortugalGeoRessources Laboratory, Université de Lorraine, CNRS, F-54000 Nancy, FranceGeoRessources Laboratory, Université de Lorraine, CNRS, F-54000 Nancy, FranceDepartamento de Geología, Universidad del País Vasco (UPV/EHU), Barrio Sarriena s/n, 48940 Leioa, SpainReflectance spectroscopy has been used to identify several deposit types. However, applications concerning lithium (Li)-pegmatites are still scarce. Reflectance spectroscopic studies complemented by microscopic and geochemical studies were employed in the Fregeneda–Almendra (Spain–Portugal) pegmatite field to analyze the spectral behavior of Li-minerals and field lithologies. The spectral similarity of the target class (Li-pegmatites) with other elements was also evaluated. Lepidolite was discriminated from other white micas and the remaining Li-minerals. No diagnostic feature of petalite and spodumene was identified, since their spectral curves are dominated by clays. Their presence was corroborated (by complementary techniques) in petalite relics and completely replaced crystals, although the clay-related absorption depths decrease with Li content. This implies that clays can be used as pathfinders only in areas where argillic alteration is not prevalent. All sampled lithologies present similar water and/or hydroxide features. The overall mineral assemblage is very distinct, with lepidolite, cookeite, and orthoclase exclusively identified in Li-pegmatite (being these minerals crucial targets for Li-pegmatite discrimination in real-life applications), while chlorite and biotite can occur in the remaining lithologies. Satellite data can be used to discriminate Li-pegmatites due to distinct reflectance magnitude and mineral assemblages, higher absorptions depths, and distinct Al–OH wavelength position. The potential use of multi- and hyperspectral data was evaluated; the main limitations and advantages were discussed. These new insights on the spectral behavior of Li-minerals and pegmatites may aid in new Li-pegmatite discoveries around the world.https://www.mdpi.com/2072-4292/13/18/3688remote sensingreflectance spectroscopyhyperspectralgeological explorationspectral libraryabsorption features
collection DOAJ
language English
format Article
sources DOAJ
author Joana Cardoso-Fernandes
João Silva
Mônica M. Perrotta
Alexandre Lima
Ana C. Teodoro
Maria Anjos Ribeiro
Filipa Dias
Odile Barrès
Jean Cauzid
Encarnación Roda-Robles
spellingShingle Joana Cardoso-Fernandes
João Silva
Mônica M. Perrotta
Alexandre Lima
Ana C. Teodoro
Maria Anjos Ribeiro
Filipa Dias
Odile Barrès
Jean Cauzid
Encarnación Roda-Robles
Interpretation of the Reflectance Spectra of Lithium (Li) Minerals and Pegmatites: A Case Study for Mineralogical and Lithological Identification in the Fregeneda-Almendra Area
Remote Sensing
remote sensing
reflectance spectroscopy
hyperspectral
geological exploration
spectral library
absorption features
author_facet Joana Cardoso-Fernandes
João Silva
Mônica M. Perrotta
Alexandre Lima
Ana C. Teodoro
Maria Anjos Ribeiro
Filipa Dias
Odile Barrès
Jean Cauzid
Encarnación Roda-Robles
author_sort Joana Cardoso-Fernandes
title Interpretation of the Reflectance Spectra of Lithium (Li) Minerals and Pegmatites: A Case Study for Mineralogical and Lithological Identification in the Fregeneda-Almendra Area
title_short Interpretation of the Reflectance Spectra of Lithium (Li) Minerals and Pegmatites: A Case Study for Mineralogical and Lithological Identification in the Fregeneda-Almendra Area
title_full Interpretation of the Reflectance Spectra of Lithium (Li) Minerals and Pegmatites: A Case Study for Mineralogical and Lithological Identification in the Fregeneda-Almendra Area
title_fullStr Interpretation of the Reflectance Spectra of Lithium (Li) Minerals and Pegmatites: A Case Study for Mineralogical and Lithological Identification in the Fregeneda-Almendra Area
title_full_unstemmed Interpretation of the Reflectance Spectra of Lithium (Li) Minerals and Pegmatites: A Case Study for Mineralogical and Lithological Identification in the Fregeneda-Almendra Area
title_sort interpretation of the reflectance spectra of lithium (li) minerals and pegmatites: a case study for mineralogical and lithological identification in the fregeneda-almendra area
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2021-09-01
description Reflectance spectroscopy has been used to identify several deposit types. However, applications concerning lithium (Li)-pegmatites are still scarce. Reflectance spectroscopic studies complemented by microscopic and geochemical studies were employed in the Fregeneda–Almendra (Spain–Portugal) pegmatite field to analyze the spectral behavior of Li-minerals and field lithologies. The spectral similarity of the target class (Li-pegmatites) with other elements was also evaluated. Lepidolite was discriminated from other white micas and the remaining Li-minerals. No diagnostic feature of petalite and spodumene was identified, since their spectral curves are dominated by clays. Their presence was corroborated (by complementary techniques) in petalite relics and completely replaced crystals, although the clay-related absorption depths decrease with Li content. This implies that clays can be used as pathfinders only in areas where argillic alteration is not prevalent. All sampled lithologies present similar water and/or hydroxide features. The overall mineral assemblage is very distinct, with lepidolite, cookeite, and orthoclase exclusively identified in Li-pegmatite (being these minerals crucial targets for Li-pegmatite discrimination in real-life applications), while chlorite and biotite can occur in the remaining lithologies. Satellite data can be used to discriminate Li-pegmatites due to distinct reflectance magnitude and mineral assemblages, higher absorptions depths, and distinct Al–OH wavelength position. The potential use of multi- and hyperspectral data was evaluated; the main limitations and advantages were discussed. These new insights on the spectral behavior of Li-minerals and pegmatites may aid in new Li-pegmatite discoveries around the world.
topic remote sensing
reflectance spectroscopy
hyperspectral
geological exploration
spectral library
absorption features
url https://www.mdpi.com/2072-4292/13/18/3688
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