Application of the singularity mapping technique to identify local anomalies by polarization data (a case study: Hamyj Copper Deposit, Iran)

Ferdows, Mohammad Shahi; Ramazi, Hamidreza

doi:10.1007/s40328-015-0112-x

Cited by 4 publications

(4 citation statements)

References 18 publications

(22 reference statements)

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“…Integration of induced polarization (IP) and electrical resistivity (ER) is the best selection for copper mineralization exploration (e.g., Chen and Tsao 2001;Flores and Peralta-Ortega 2009;Mamo 2013;Ferdows and Ramazi 2015a;Mashhadi and Ramazi 2018;. IP and ER methods are among the most applicable geophysical methods used in subsurface studies notably for selection of the best drilling points for exploration purposes (Bishop and Emerson 1999;Wynn and Grosz 2000;Ferdows and Ramazi 2015b;Hope and Andersson 2016). Some examples of their increased usage include copper exploration using 3D IP modelling in NSW, Australia (Whaite et al 2001), using combination of ER and IP in polymetal deposit in China (Yang, Liu and Wang 2008), gold exploration at the eastern desert of Egypt by IP measurement (Taha et al 2018), combination of ER, IP and microgravity to detect buried caves in Spain (Martínez-Moreno et al 2013), copper exploration using IP and ER in Iran (Ramazi and Jalali 2014), gold-silver deposit exploration by IP method in Russia (Gurin et al 2015), detection of the uranium mineralization zone in India (Biswas and Sharma 2016), integration of geophysical methods including IP and ER methods for massive sulphide exploration in Sweden (Tavakoli et al 2016), bitumen mineralization exploration in the west of Iran (Mashhadi, Mostafaei and Ramazi 2017), gold deposit exploration by 3D-induced polarization modelling in Indonesia (Halim et al 2017), 3D tomography of induced polarization and its application in polymetallic mine (Jun-Lu et al 2017), copper mineral exploration using 3D model of IP and resistivity in Brazil (Morriera et al 2018), investigation of a rock glacier by 3D tomography of IP and ER in France (Duvillard et al 2018) and urban area investigation by 3D IP and ER in Stockholm (Pazzi et al 2018;Rossi et al 2017Rossi et al , 2018.…”

Section: Figurementioning

confidence: 99%

“…Integration of induced polarization (IP) and electrical resistivity (ER) is the best selection for copper mineralization exploration (e.g., Chen and Tsao ; Flores and Peralta‐Ortega ; Mamo ; Ferdows and Ramazi ; Mashhadi and Ramazi ; Mostafaei and Ramazi ). IP and ER methods are among the most applicable geophysical methods used in subsurface studies notably for selection of the best drilling points for exploration purposes (Bishop and Emerson ; Wynn and Grosz ; Ferdows and Ramazi ; Hope and Andersson ). Some examples of their increased usage include copper exploration using 3D IP modelling in NSW, Australia (Whaite et al .…”

Section: Introductionmentioning

confidence: 99%

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Investigating the applicability of induced polarization method in ore modelling and drilling optimization: a case study from Abassabad, Iran

Mostafaei

Ramazi

2019

Near Surface Geophysics

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The main issue in mineral exploration is to obtain as much information as possible in a time‐ and cost‐efficient manner. This may be achieved through a combination of geophysical methods including the induced polarization method. The induced polarization is the most applicable method in case of metal exploration through drilling. We argue that the relationship between induced polarization, electrical resistivity and ore grade data may be used in resource estimation. This argument is tested in the active copper mine of Madan Bozorg, Abassabad, which is located in the Miami‐Sabzevar mineralization belt in NW Iran. Within the borehole locations, geophysical profiles of induced polarization and electrical resistivity were designed and surveyed using combined resistivity sounding and profiling array. Two‐dimensional models of induced polarization and electrical resistivity were prepared through inversion of geophysical data, after the primary processing. The three‐dimensional block models of induced polarization and electrical resistivity were also compiled using geostatistical methods. Obtained two‐dimensional and three‐dimensional models of induced polarization and electrical resistivity were checked using exploratory boreholes to investigate the relationship among induced polarization, electrical resistivity and copper grade. The three‐dimensional block model of the copper ore was prepared using cokriging and artificial neural network, using a combination of induced polarization and drilling data. In the cases where borehole data were unavailable, the presence of copper ore was predicted by artificial neural network and cokriging methods, and the three‐dimensional models of ore body were constructed in all of the study area. Obtained models based on the predicted copper ore distribution were checked and compared with ore distribution model compiled using drilling data. The results indicate a good agreement between predicted and real results. This led to reduction of borehole number to about 45% and the optimization of boreholes locations. Finally, an optimized drilling plan has been prepared and presented for the Abassabad copper mine.

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Section: Figurementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Investigating the applicability of induced polarization method in ore modelling and drilling optimization: a case study from Abassabad, Iran

Mostafaei

Ramazi

2019

Near Surface Geophysics

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“…These extensive investigations play a fundamental role in enhancing our knowledge of the deep-seated structural aspects of the Earth's crust. Despite the facts mentioned above, metal sulfide concentrations were found, and information on below-ground media was gathered using geophysical exploration methods [14][15][16][17].…”

Section: Introductionmentioning

confidence: 99%

3D Geophysical Modeling Based on Multi-Scale Edge Detection, Magnetic Susceptibility Inversion, and Magnetization Vector Inversion in Panjshir, Afghanistan to Detect Probabilistic Fe-Polymetallic Bearing Zone

Rezayee,

Akbar,

Poyesh

et al. 2023

Geosciences

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The Panjshir Fe-Polymetallic ore deposit is a valuable geological resource in Afghanistan, rich in iron and multiple essential metallic minerals, with substantial potential for industrial development. The exploration phase faces challenges related to the complex geological settings, high variability of mineral compositions, and the need for advanced geophysical techniques to accurately locate and assess valuable metallic resources. Considering the strong magnetic characteristics exhibited by Fe-Polymetallic elements, geomagnetic data were employed to analyze and map the likely prospectivity of Fe-Polymetallic deposits within the study area. Multi-scale edge detection techniques were employed to accurately map the boundaries of magnetic bodies by utilizing the upward continued analytical signal amplitude. The presence of a fault system on the geological map confirmed the structural information derived from our edge detection techniques. Advanced magnetic data inversion techniques were employed to create a three-dimensional representation of the distribution of magnetic bodies linked to Fe-Polymetallic deposits. In our efforts to reduce the impact of remnant magnetization in the study area, we adopted a comprehensive strategy by employing both magnetic susceptibility and magnetization vector inversion techniques. The use of a sparse and blocky norm regularization [0,1,1,1] is well-suited for magnetic susceptibility inversion, while a blocky norm [0000,0000,0000] is the appropriate choice for magnetization vector inversion in our study. Ultimately, the zones characterized by a high magnetic susceptibility and a high magnetization amplitude are considered promising areas for potential Fe-polymetallic occurrences.

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“…Considering the issues to be resolved, geophysical exploration technologies were used to detect metal sulfide concentration, and ascertain the information regarding underground media [3][4][5][6]. Given the rough terrain, heavy vegetation, and bad traffic condition, geophysical methods that require large instruments are inapplicable.…”

Section: Introductionmentioning

confidence: 99%

Application of Integrated Geophysical Technologies to the Exploration of Polymetal Deposits: Case study in Fufang, Jiangxi, China

Wang¹,

Liu²,

Li³

et al. 2019

JESTR

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Prior research has confirmed that the Fufang prospecting area exhibits good mineral anomalies. The geochemical anomaly that pertained to copper content was delineated within a wide range; hence, the deployment of boreholes and trenches was hindered for further prospecting work. To shrink this anomaly range and identify favourable areas for mineralization, a combination of geophysical methods based on electrical and magnetic theories was proposed. First, magnetic and induced polarization (IP) mappings were utilized to characterize the distribution of anomalies horizontally. Then, the major structures were identified using IP and audio magnetotelluric sounding measurements. The integrated geophysical anomalies with good spatial consistency were also delineated. Results demonstrate that the main strike of the regional fault is in the direction of NE 50°, and some parallel secondary faults are also inferred. The dykes in this area are well developed in the strata due to rock mass intrusion. Several geophysical anomalies are highly superposed. This condition indicates good prospecting of copper and polymetals. The found anomalies delineate a new prospecting area that is 62% smaller than the previous one. This study provides a good prospect in the designated anomaly area.

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Application of the singularity mapping technique to identify local anomalies by polarization data (a case study: Hamyj Copper Deposit, Iran)

Cited by 4 publications

References 18 publications

Investigating the applicability of induced polarization method in ore modelling and drilling optimization: a case study from Abassabad, Iran

Investigating the applicability of induced polarization method in ore modelling and drilling optimization: a case study from Abassabad, Iran

3D Geophysical Modeling Based on Multi-Scale Edge Detection, Magnetic Susceptibility Inversion, and Magnetization Vector Inversion in Panjshir, Afghanistan to Detect Probabilistic Fe-Polymetallic Bearing Zone

Application of Integrated Geophysical Technologies to the Exploration of Polymetal Deposits: Case study in Fufang, Jiangxi, China

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