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In recent decades, remote sensing technology has been incorporated in numerous mineral exploration projects in metallogenic provinces around the world. Multispectral and hyperspectral sensors play a significant role in affording unique data for mineral exploration and environmental hazard monitoring. This book covers the advances of remote sensing data processing algorithms in mineral exploration, and the technology can be used in monitoring and decision-making in relation to environmental mining hazard. This book presents state-of-the-art approaches on recent remote sensing and GIS-based mineral prospectivity modeling, offering excellent information to professional earth scientists, researchers, mineral exploration communities and mining companies.

Research & information: general --- Geography --- Toroud–Chahshirin Magmatic Belt (TCMB) --- remote sensing --- ASTER --- hydrothermally altered zones --- polymetallic vein-type mineralization --- emissivity --- emissivity normalization method --- dolomite --- phosphorite --- relative band depth (RBD) --- Bowers Terrane --- listvenite --- hydrothermal/metasomatic alteration minerals --- damage zones --- Northern Victoria Land --- Antarctica --- multispectral and radar data --- data fusion --- gold mineralization --- Wadi Beitan–Wadi Rahaba --- structural control --- Najd Fault System --- South Eastern Desert --- Egypt --- hyperspectral --- Goldstrike --- Carlin-type --- decarbonatization --- argillization --- Advanced Space borne Thermal Emission and Reflection Radiometer (ASTER) --- Sentinel 2 --- Synthetic Aperture Radar (SAR) data --- Egyptian Eastern Desert --- transpression and transtension zones --- Landsat-8 --- WorldView-3 --- the Inglefield Mobile Belt (IMB) --- copper-gold mineralization --- High Arctic regions --- epithermal gold --- hydrothermal alteration --- Ahar-Arasbaran region --- Landsat-7 ETM+ --- Bayesian Network Classifiers --- hyperspectral imaging --- drill-core --- SWIR --- mineral abundance mapping --- mineral association --- machine learning --- band ratios --- principal component analysis (PCA) --- fuzzy logic modeling --- Kashmar–Kerman tectonic zone (KKTZ) --- carbonate-hosted Pb-Zn mineralization --- Iran --- dimensionality reduction --- principal component analysis --- independent component analysis --- minimum noise fraction --- fuzzy logic --- riverbed --- metals --- electrical resistivity imaging --- tailings --- Mar Menor --- Cartagena–La Unión --- unmanned aerial systems --- multispectral --- magnetic --- geologic mapping --- drones --- UAV --- dust dispersion --- spectra --- canopy scale --- pixel scale --- mining area --- mineral exploration --- multispectral and hyperspectral data --- mining --- Toroud–Chahshirin Magmatic Belt (TCMB) --- remote sensing --- ASTER --- hydrothermally altered zones --- polymetallic vein-type mineralization --- emissivity --- emissivity normalization method --- dolomite --- phosphorite --- relative band depth (RBD) --- Bowers Terrane --- listvenite --- hydrothermal/metasomatic alteration minerals --- damage zones --- Northern Victoria Land --- Antarctica --- multispectral and radar data --- data fusion --- gold mineralization --- Wadi Beitan–Wadi Rahaba --- structural control --- Najd Fault System --- South Eastern Desert --- Egypt --- hyperspectral --- Goldstrike --- Carlin-type --- decarbonatization --- argillization --- Advanced Space borne Thermal Emission and Reflection Radiometer (ASTER) --- Sentinel 2 --- Synthetic Aperture Radar (SAR) data --- Egyptian Eastern Desert --- transpression and transtension zones --- Landsat-8 --- WorldView-3 --- the Inglefield Mobile Belt (IMB) --- copper-gold mineralization --- High Arctic regions --- epithermal gold --- hydrothermal alteration --- Ahar-Arasbaran region --- Landsat-7 ETM+ --- Bayesian Network Classifiers --- hyperspectral imaging --- drill-core --- SWIR --- mineral abundance mapping --- mineral association --- machine learning --- band ratios --- principal component analysis (PCA) --- fuzzy logic modeling --- Kashmar–Kerman tectonic zone (KKTZ) --- carbonate-hosted Pb-Zn mineralization --- Iran --- dimensionality reduction --- principal component analysis --- independent component analysis --- minimum noise fraction --- fuzzy logic --- riverbed --- metals --- electrical resistivity imaging --- tailings --- Mar Menor --- Cartagena–La Unión --- unmanned aerial systems --- multispectral --- magnetic --- geologic mapping --- drones --- UAV --- dust dispersion --- spectra --- canopy scale --- pixel scale --- mining area --- mineral exploration --- multispectral and hyperspectral data --- mining

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• Reference Manager
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In recent decades, remote sensing technology has been incorporated in numerous mineral exploration projects in metallogenic provinces around the world. Multispectral and hyperspectral sensors play a significant role in affording unique data for mineral exploration and environmental hazard monitoring. This book covers the advances of remote sensing data processing algorithms in mineral exploration, and the technology can be used in monitoring and decision-making in relation to environmental mining hazard. This book presents state-of-the-art approaches on recent remote sensing and GIS-based mineral prospectivity modeling, offering excellent information to professional earth scientists, researchers, mineral exploration communities and mining companies.

Toroud–Chahshirin Magmatic Belt (TCMB) --- remote sensing --- ASTER --- hydrothermally altered zones --- polymetallic vein-type mineralization --- emissivity --- emissivity normalization method --- dolomite --- phosphorite --- relative band depth (RBD) --- Bowers Terrane --- listvenite --- hydrothermal/metasomatic alteration minerals --- damage zones --- Northern Victoria Land --- Antarctica --- multispectral and radar data --- data fusion --- gold mineralization --- Wadi Beitan–Wadi Rahaba --- structural control --- Najd Fault System --- South Eastern Desert --- Egypt --- hyperspectral --- Goldstrike --- Carlin-type --- decarbonatization --- argillization --- Advanced Space borne Thermal Emission and Reflection Radiometer (ASTER) --- Sentinel 2 --- Synthetic Aperture Radar (SAR) data --- Egyptian Eastern Desert --- transpression and transtension zones --- Landsat-8 --- WorldView-3 --- the Inglefield Mobile Belt (IMB) --- copper-gold mineralization --- High Arctic regions --- epithermal gold --- hydrothermal alteration --- Ahar-Arasbaran region --- Landsat-7 ETM+ --- Bayesian Network Classifiers --- hyperspectral imaging --- drill-core --- SWIR --- mineral abundance mapping --- mineral association --- machine learning --- band ratios --- principal component analysis (PCA) --- fuzzy logic modeling --- Kashmar–Kerman tectonic zone (KKTZ) --- carbonate-hosted Pb-Zn mineralization --- Iran --- dimensionality reduction --- principal component analysis --- independent component analysis --- minimum noise fraction --- fuzzy logic --- riverbed --- metals --- electrical resistivity imaging --- tailings --- Mar Menor --- Cartagena–La Unión --- unmanned aerial systems --- multispectral --- magnetic --- geologic mapping --- drones --- UAV --- dust dispersion --- spectra --- canopy scale --- pixel scale --- mining area --- mineral exploration --- multispectral and hyperspectral data --- mining

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This Special Issue covers a broad range of topics related to the mineralogy of noble metals (Au, Ag, Pt, Pd, Rh, and Ru) and the occurrence, formation, and distribution of these elements in natural ore-forming systems. This collection of eleven research articles discusses various problems related to these topics. I hope this Special Issue will contribute to a better understanding of the genesis of gold, silver, and other noble metal deposits as well as the behavior of these elements in endogenic and supergene environments, and suggest ways forward to solving the problem of their full extraction from ores.

Southeast Guizhou --- n/a --- Nibao gold deposit --- arsenopyrite --- gold selenide --- mineralization age --- thermodynamic modeling --- S)-oxides --- Cu-Fe-Ni-S system --- chlorargyrite --- colloids --- Fe-Sb(Te --- pyrite --- mustard gold --- Mössbauer Effect --- platinum --- gold mineralization --- nanoparticles --- magnetite veins --- dyscrasite --- chloride complexes --- calaverite --- metalloid elements --- maletoyvayamite --- gold ore deposits --- ligand surroundings --- platinum-group elements --- fractional crystallization --- fluid regime --- native gold --- Southern Urals --- monolithic and porous gold --- Rb–Sr isotopic composition --- Gaching ore deposit --- antigorite serpentinites --- Fennoscandian Shield --- zircon U–Pb age --- Ag --- karst cavities --- gold sulfoselenide --- Yunnan–Guizhou–Guangxi “Golden Triangle” region --- As)-oxides --- distribution --- sulfide minerals --- Tl tellurates and antimonates --- gold ore field --- valleriite --- gold --- Tl oxides (avicennite) --- nucleation --- drop-shaped inclusions --- As --- structural and surficial modes --- Kolmozero–Voronya belt --- gold source --- S --- Au --- non-equal positions --- ore genesis --- XPS --- liquid intermediates --- crystal lattice --- Chaoyangzhai gold deposit --- Au-Sb(Te --- Kagan ultramafic massif --- deposition --- invisible species --- noble metals --- in situ sulfur isotopes --- Se --- “invisible” gold --- Oleninskoe deposit --- ore-forming fluid --- Tl carbonates