Mapping iron oxides with Landsat-8/OLI and EO-1/Hyperion imagery from the Serra Norte iron deposits in the Carajás Mineral Province, Brazil

Ducart, Diego Fernando; Silva, Adalene Moreira; Toledo, Catarina Labouré Bemfica; Assis, Luciano Mozer de

doi:10.1590/2317-4889201620160023

Cited by 93 publications

(31 citation statements)

References 34 publications

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“…Geological applications are therefore suitable applications for hyperspectral sensors enabling an identical or better discrimination of the potential geological components than multispectral sensors of similar GSD [107,108,120]. However, the SNR value is identified as the hyperspectral critical factor for geological applications, and a higher spatial resolution is required only, but for finer detection (such as mineral dykes detection).…”

Section: Geology Applicationsmentioning

confidence: 99%

Survey of Hyperspectral Earth Observation Applications from Space in the Sentinel-2 Context

et al. 2018

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In the last few decades, researchers have developed a plethora of hyperspectral Earth Observation (EO) remote sensing techniques, analysis and applications. While hyperspectral exploratory sensors are demonstrating their potential, Sentinel-2 multispectral satellite remote sensing is now providing free, open, global and systematic high resolution visible and infrared imagery at a short revisit time. Its recent launch suggests potential synergies between multi-and hyper-spectral data. This study, therefore, reviews 20 years of research and applications in satellite hyperspectral remote sensing through the analysis of Earth observation hyperspectral sensors' publications that cover the Sentinel-2 spectrum range: Hyperion, TianGong-1, PRISMA, HISUI, EnMAP, Shalom, HyspIRI and HypXIM. More specifically, this study (i) brings face to face past and future hyperspectral sensors' applications with Sentinel-2's and (ii) analyzes the applications' requirements in terms of spatial and temporal resolutions. Eight main application topics were analyzed including vegetation, agriculture, soil, geology, urban, land use, water resources and disaster. Medium spatial resolution, long revisit time and low signal-to-noise ratio in the short-wave infrared of some hyperspectral sensors were highlighted as major limitations for some applications compared to the Sentinel-2 system. However, these constraints mainly concerned past hyperspectral sensors, while they will probably be overcome by forthcoming instruments. Therefore, this study is putting forward the compatibility of hyperspectral sensors and Sentinel-2 systems for resolution enhancement techniques in order to increase the panel of hyperspectral uses.

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Section: Geology Applicationsmentioning

confidence: 99%

Survey of Hyperspectral Earth Observation Applications from Space in the Sentinel-2 Context

et al. 2018

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“…al, 2013). This has proven useful for rapid mapping in remote areas (Ducart et al, 2016) and to be an extremely cost-effective approach (Lisica, 2015) for high-grading study areas. With seismic data and field crews yielding financial burdens and health and safety risks, remote sensing is becoming a go-to tool for exploration.…”

Section: Introduction and Methodsmentioning

confidence: 99%

Remote sensing techniques for onshore oil and gas exploration

Lord

2017

The Leading Edge

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Remote-sensing data are highly useful for the oil and gas industry. Remote sensing has proven to be an integral tool for downstream and upstream oil and gas operations through evaluation of infrastructure for well-site planning and for exploration through large-scale regional reconnaissance. Spectral analysis is a key form of processing to evaluate for surface outcrops and surface hydrocarbon seepage. We will show methodologies using remote-sensing data and how they assist in the overall understanding of the hydrocarbon system. A number of studies are shown in which hyperspectral and multispectral data sets have proven useful in understanding the geology and inferring information about the subsurface. Case studies are presented from Pennsylvania, USA; Neuquén province, Argentina; and Lebanon. Advantages and disadvantages of the use of these methodologies and the future of remote sensing in the oil and gas industry are discussed.

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“…By applying the theoretical method of the spectral features of iron oxides, which typically present reflectance in OLI band 4, 6 and absorptions in band 2 and band 5 (Ducart et al, 2016), OLI bands 4/2 and 6/5 were selected as band ratios for highlighting iron minerals in the study area.…”

Section: Band Ratioingmentioning

confidence: 99%

“…Area of ferric iron mineral occuring as coatings or disseminated on surfaces of hydrothermally altered rocks, sedimentary rocks and mafic related regolith at low grade can be identified with this ratio (Rockwell, 2013;Dehnavi et al, 2010). As a result, high pixel values in the study area Another band ratio applied in this study is OLI band 6/5, an index proposed to detect crystal-field absorption features from possible ferrous (Fe 2+ ) mineral and ferric-ferrous iron oxide magnetite (Kaufmann, 1988;Wilford and Creasey, 2002;Rajendran et al, 2007;Dogan, 2008;Elsayed Zeinelabdein and Albiely, 2008;Ducart et al, 2016) since OLI band 5 coincides with the absorption feature of ferrous and ferric iron minerals whereas band 6 covers the high reflection peak for ferrous iron oxides, ferruginous saprolite, clays and hydrothermally altered rocks (Podwysocki, et al, 1985;Wilford and Creasey, 2002). This index highlights ferrous iron related rocks as shown in figure 4.…”

Section: Band Ratioingmentioning

confidence: 99%

“…Based on the consideration of those two band ratio results above, a false color composite image using a combination of the OLI band ratios of 6/4, 4/2 and 6/7 in red, green and blue, respectively, has been obtained to detect alteration zones featured by iron oxides, hydroxyl-bearing minerals, and hydrothermal clays (Sabins, 1999;Elsayed Zeinelabdein and Albielyb, 2008;Knepper, 2010;Knepper, 2010;Ducart et al, 2016). A high ratio value of one color will display on the pixel as a primary color of red, green or blue; high ratio values of two colors will be presented in the pixel as a combination of two colors proportional to their values.…”

Section: Band Ratioingmentioning

confidence: 99%

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Aeromagnetic and spectral expressions of rare earth element deposits in Gallinas Mountains area, Central New Mexico, USA

Zhou

Gammons

et al. 2018

Interpretation

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KeywordNew Mexico, Gallinas Mountains, Aeromagnetic, Landsat, 2D magnetic modeling Interpretation 2 ABSTRACT The Gallinas Mountains located in the conjunction of Lincoln County and Torrance County, New Mexico, USA are a series of alkaline volcanic rocks intruded into Permian sedimentary rocks. The Gallinas Mountains area is known to host fluorite and copper as veins containing bastnasite while hydrothermally altered rocks associated with iron oxides have been found in the area as well. In this study, multispectral band ratio method was used for surface mineral interpretation by processing satellite image, while aeromagnetic inversion method was applied using aeromagnetic data, digital elevation model and physical properties for 2-D subsurface structure modeling. Bastnasite has higher magnetic susceptibility than the host rocks and surrounding sedimentary rock whereas magnetization of iron oxides (magnetite & hematite) is much stronger than bastnasite; both of them can contribute to a positive aeromagnetic anomaly. Results of this study hypothesize the possible presence of mineralogies and lithologies among the Gallinas Mountains area, indicating the presence of a positive magnetic anomaly that is possibly resultant from both bastnasite and iron oxides.

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Mapping iron oxides with Landsat-8/OLI and EO-1/Hyperion imagery from the Serra Norte iron deposits in the Carajás Mineral Province, Brazil

Cited by 93 publications

References 34 publications

Survey of Hyperspectral Earth Observation Applications from Space in the Sentinel-2 Context

Survey of Hyperspectral Earth Observation Applications from Space in the Sentinel-2 Context

Remote sensing techniques for onshore oil and gas exploration

Aeromagnetic and spectral expressions of rare earth element deposits in Gallinas Mountains area, Central New Mexico, USA

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