Structural and hydrothermal alteration mapping related to orogenic gold mineralization in part of Kushaka schist belt, North-central Nigeria, using airborne magnetic and gamma-ray spectrometry data

Sanusi, Sherif Olumide; Amigun, John Olurotimi

doi:10.1007/s42452-020-03435-1

Cited by 21 publications

(15 citation statements)

References 70 publications

(147 reference statements)

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“…The processing of the gamma-ray spectrometry data adopted the methods of Boadi et al, [82]. It has been established that mineralization zones occurring along shear zones and contacts in the Schist belt within the study area have been subject to variable degrees of hydrothermal alteration [83]. Delineation of hydrothermal alteration zones relied on regions exhibiting elevated potassium (K) concentrations extracted from gamma-ray spectrometric data, a method employed by de Quadros et al [84].…”

Section: Gamma-ray Spectrometry Datamentioning

confidence: 99%

Utilizing remote sensing and aerogeophysical data for spatial decision support system for optimal gold mineralization site identification in North-Central Nigeria

S.,

2024

ETJ

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Remote sensing is employed to detect potential gold reserves in the study. • The research facilitates comprehension of structural geology and its mapping. • FOPCA and aeromagnetic techniques are utilized for advanced interpretation. • GIS modeling enhances the understanding of zones with mineral prospects.This study presents a comprehensive investigation utilizing remote sensing data and aerogeophysical datasets to identify potential economic gold mineralization sites in Zungeru, North-Central Nigeria. The research objectives include understanding the structural setting, mapping lithologic contacts, and detecting hydrothermally altered zones. Spatial suitability analysis was conducted on processed datasets. Feature-Oriented Principal Component Analysis (Crosta approach) was applied to selected Landsat 8 OLI imagery bands for mapping hydroxyl and iron oxide alterations. Additionally, regional topographic lineaments were mapped using SRTM DEM, and subsurface lineaments were identified using aeromagnetic data. Interpretation of the aeromagnetic data revealed complex anomalies associated with various structural characteristics, such as faults, folds, and fractures. The investigation of hydrothermal alteration zones through gamma-ray spectrometry data and K/eTh ratio analysis demonstrated a significant connection with igneous intrusions, further supported by ternary maps of the radioelements. Five thematic maps representing factors that control gold mineralization were integrated using GIS modeling to identify prospective zones. Five distinct mineral-prospective zones are delineated, showing varying levels of mineralization potential. The "Very Good" to "Good" zones are predominantly aligned in the NNE direction, with some occurrence in the NW quadrant. The spatial correlation with lithological characteristics and lineament features suggests their strong influence on mineral prospectivity. Around 76% of gold mineralization is within the most favorably projected zones.Both models show considerable reliability, with predictive accuracies surpassing 70%, as validated using the ROC/AUC metric. The Fuzzy Logic model showcases the highest predictive efficacy, with a prediction level of 78.3%. The validation results of gold mining sites from the models indicate a percentage agreement of 75%. The study guides future exploration efforts, directing them toward areas with the highest promise of finding gold. This work is instrumental in optimizing resource allocation and maximizing the efficiency of exploration endeavors, paving the way for more targeted and successful gold prospecting in the region.

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Section: Gamma-ray Spectrometry Datamentioning

confidence: 99%

Utilizing remote sensing and aerogeophysical data for spatial decision support system for optimal gold mineralization site identification in North-Central Nigeria

S.,

2024

ETJ

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“…Thorium is known to be less mobile geochemically than potassium and uranium. Therefore, thorium (eTh) is used as a lithological background monitor to determine ideal eU and K values [29,30]. Therefore, normalization of the radioactive data by eTh values is necessary to overcome the influences of environment, lithology, leaching and weathering on K and eU concentrations.…”

Section: Detection Of Hydrothermal Alteration Zonesmentioning

confidence: 99%

“…The Potassium Ternary Composite Image (Figure 5) of the study area is generated and compared with the (eTh/K map) (Figure 4) and hydrothermal alteration zones such as potassic and phyllic altered areas were detected. As thorium impoverishment often occurs with K enrichment during hydrothermal alteration processes [30]. The F-Parameter technique proposed by Efmov, 1978 [31] was also applied because it involves two significant relationships, the K richness correlated to eTh/eU ratio and eU richness correlated to the eTh/K ratio (equation.…”

Section: Detection Of Hydrothermal Alteration Zonesmentioning

confidence: 99%

Detection of Uranium Anomalies and Alteration Zones Using Airborne Gamma-Ray Spectrometry at Gabal Attala and Its Surrounding Area, Eastern Desert, Egypt

Tarshan¹

2022

EARTH

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Gamma-ray spectrometry method is widely used in various fields. The study area is located in the Central Eastern Desert of Egypt and covers about 1200 square kilometers. The rock units in the study area can be organized in ages from the Precambrian (mainly granite) to Quaternary. Airborne gamma-ray spectrometry data were collected by Aero-Service, 1984. The main objectives of this study are to detect hydrothermal alteration zones and the uranium anomalies in the study area. The processing of the data was conducted to generate radioactive element concentration maps (K, eU and eTh). Hydrothermal alteration zones such as potassic and phyllic altered areas were detected using the Potassium Ternary Composite Image map and the eTh/K map. The F-parameter technique and K ideal method were used to determine the locations of the potassium-enrichment. These locations are characteristically associated with the orogenic gold mineralization in the study area. Fourteen radioactivity zones were classified based on the Interpreted Radio-Spectrometric Zonation (IRSZ) Map. These zones were divided into high, medium and low radioactive response where zones of high radioactive response were revealed as zones 1, 6, 9 and 13. Uranium anomalies have been identified as these anomalies are abundant in eU values and also associated with higher values of eU/eTh and eU/K, where the maximum value of eU is associated with the Younger Granite with a value of 18.831 ppm. These uranium anomalies are associated with Taref Formation, Post-Hammamat felsite, Quaternary deposits and Younger Granite. The locations of uranium anomalies are considered important exploration targets, as these locations are promising and have priority for ground geophysical and geological follow-up.

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“…Unlike potassium and uranium, thorium has lower mobility. Hence, the optimal eU and K values are determined using thorium (eTh) as a lithological background monitor (Thorium normalisation) 50 , 51 . Based on radiometric data, hydrothermal alteration zones can be identified by the observed areas of K enrichment 43 , 45 , 52 – 54 .…”

Section: Introductionmentioning

confidence: 99%

Radiometric characteristics of some metallic ores and nonmetallic deposits: an example, Wadi Al-Allaqi, South Eastern Desert, Egypt

Gobashy,

El-Sadek,

Mekkawi

et al. 2024

Sci Rep

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Hydrothermal alteration processes are connected to many mineral formations, particularly auriferous deposits. In this study, airborne gamma-ray spectrometry (GRS) data and the analysis of radioactive materials (eU, eTh, and K) are applied to search for regions with hydrothermal alteration activity. An example is presented from Wadi Al-Allaqi, South Eastern Desert, Egypt. GRS was used to analyse various radiometric data to address potential mineral deposit areas, to map regions potentially showing metallic ore mineralisation, and to point out new geological mineral resources. The Kd (potassium deviation), “F” parameter and Th-normalisation of the K and eU anomalies were calculated, and locating new exploratory targets in the study area that exhibit high F-parameter, Kd, and K/eTh values was recommended. Additionally, the research region has a few isolated enriched spots of (K). Therefore, GRS data was used to characterise and estimate potential metallic ores, nonmetallic deposits, and gold ore zones associated with the alteration zones. Results show that most of the known mineral deposits and gold occurrences in the area, according to the metallogenic map of Egypt, are located in zones with a ratio value of (0.25–0.30) (K%/(U or Th ppm)) maps which may suggest a moderate degree of alteration. Also, most mineral deposits and gold occurrences are found in intermediate altered zones, or K-enriched sites, with a Kd% of (0.2. The work represents an attempt to map hydrothermal alteration zones associated with mineral deposits in the Wadi Al-Allaqi area. Generally, natural radiation characteristics and attributes suggest criteria that can be used globally for regional mineral exploration.

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Structural and hydrothermal alteration mapping related to orogenic gold mineralization in part of Kushaka schist belt, North-central Nigeria, using airborne magnetic and gamma-ray spectrometry data

Cited by 21 publications

References 70 publications

Utilizing remote sensing and aerogeophysical data for spatial decision support system for optimal gold mineralization site identification in North-Central Nigeria

Utilizing remote sensing and aerogeophysical data for spatial decision support system for optimal gold mineralization site identification in North-Central Nigeria

Detection of Uranium Anomalies and Alteration Zones Using Airborne Gamma-Ray Spectrometry at Gabal Attala and Its Surrounding Area, Eastern Desert, Egypt

Radiometric characteristics of some metallic ores and nonmetallic deposits: an example, Wadi Al-Allaqi, South Eastern Desert, Egypt

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