Remote sensing in the search for metallic ores: a review of current practice and future potential

Gregory, A F

doi:10.4095/106063

Cited by 3 publications

(2 citation statements)

References 5 publications

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“…Geology is the study of the composition, structure, and history of earth processes and their products [4]. Geological investigation relies on various data sources such as field and laboratory studies, geophysics, geochemistry, aerial photography, and remote sensing [5]. The latter represents a critical data source for a variety of geological applications, such as mineral alteration, lithological and structural mapping [6][7][8][9][10][11][12][13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Geology, Geochemistry and Geophysical Studies in Exploration of Copper and Iron Reserves: A Case Study

Motlagh

Rasti

Safaei

2022

Technium EcoGeoMarine

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The large Miocene stock work-vein porphyry copper mineralization of Sarcheshmeh are already known, but there are still few studies regarding mineral prospection in smaller deposits. This paper proposes exploration techniques for Cu prospecting in Hefdah Chenar area, Kerman Province, Iran, as case study. This study investigate the Hefdah Chenar area's mineralization in light of its natural context, focusing on geology, geochemistry, and geophysics. Hefdah Chenar district consists of an Eocene volcanic andesite succession with a gently northeast dipping, which was intruded by at least two phases of copper-bearing granodiorite porphyries. Several documents and data including topographic, geological, land use, soils maps, Hefdah Chenar area's map, field visit, the geochemical study's results, and stream sediment samples proved the presence of some points with a grade higher than the threshold limit. The results of the geophysical IP&RS method indicated that the sulfur mineralization trend was northeast and consistent with the effects of surface mineralization. The result of this investigation indicates that based on the results of geophysical models, there is an increase in the amount of induced polarization at the location of possible faults. Furthermore, among these, magnetic data presents that there is no significant changes except in areas with magnetic veins.

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Section: Introductionmentioning

confidence: 99%

Geology, Geochemistry and Geophysical Studies in Exploration of Copper and Iron Reserves: A Case Study

Motlagh

Rasti

Safaei

2022

Technium EcoGeoMarine

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“…Since the seventies (Bishop et al, 2018a), satellite imagery, with various missions and instruments, has allowed geological mapping to take a big step forward with the use of remotely sensed data. Geological remote sensing that debuted recently (Gregory, 1979)with the use of low resolution images of landsat1; has evolved in parallel with the progression of the satellite programs that followed; like Landsat2 to Landsat8; ASTER and others Multi or hyperspectral satellites, for more details see (("Satellite Missions Directory -Earth Observation Missions -eoPortal," n.d.). Over the past three decades, the use of multispectral data has increasingly permitted determining the nature of minerals and rocks.…”

Section: Introductionmentioning

confidence: 99%

The Contribution of Sentinel-2 Satellite Images for Geological Mapping in the South of Tafilalet Basin (Eastern Anti-Atlas, Morocco)

Fal

Maanan

Baïdder

et al. 2019

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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<p><strong>Abstract.</strong> Geological mapping in desert, mountainous or densely vegetated areas are sometimes faced with many constraints. Recently several remote sensing methods are used on ASTER or LANDSAT imagery for making that task easier. The aim of this paper is to evaluate the applicability of some of these methods on Sentinel-2A images. The study, therefore, focuses on a lithological classification using these multispectral images in the south of the Tafilalet basin. To achieve this goal, two L1C level images were used. Decorelation stretch combined with the optimal index factor (OIF) and Minimum Noise Fraction (MNF) were the main improvements used for RGB combination images. The classifiers Spectral Angle Mapper (SAM) and the Maximum Likelihood classifier (MLC) have been evaluated for a most accurate classification to be used for our lithofacies mapping. The latest drawn geological maps and RGB images of false colour combinations were used to select regions of interest (ROI) as the endmembers to use for these classifiers. Obtained results showed a clear discrimination of the different lithological units of the study area. Classifications evaluation showed that the Maximum likelihood classifier is more accurate with an overall accuracy of 76% and a Kappa coefficient is 0.74. Finally, this study has shown the importance of the use of sentinel-2 multispectral images in geological mapping and has shown that the high spectral resolution of the VNIR and SWIR bands creates a synergy with the high spatial resolution for optimal lithological mapping.</p>

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The use of enhanced Landsat-TM image in the characterization of uraniferous granitic rocks in the Central Eastern Desert of Egypt

Rakaiby

1995

International Journal of Remote Sensing

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Remote sensing in the search for metallic ores: a review of current practice and future potential

Cited by 3 publications

References 5 publications

Geology, Geochemistry and Geophysical Studies in Exploration of Copper and Iron Reserves: A Case Study

Geology, Geochemistry and Geophysical Studies in Exploration of Copper and Iron Reserves: A Case Study

The Contribution of Sentinel-2 Satellite Images for Geological Mapping in the South of Tafilalet Basin (Eastern Anti-Atlas, Morocco)

The use of enhanced Landsat-TM image in the characterization of uraniferous granitic rocks in the Central Eastern Desert of Egypt

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