The Use of Euler Deconvolution Technique in the Estimation of Depth to Magnetic Source Bodies around the Schist Belt Parts of Kano State, Nigeria

Abstract: Depth estimation of magnetic source bodies in parts of the Schist Belt of Kano, using Euler Deconvolution is presented in this paper. Detail ground magnetic survey was carried out using SCINTREX proton precession magnetometer to produce the Total Magnetic Intensity (TMI) map and consequently the residual map. The TMI ranges from 34,261 nT to 34,365 nT, while the residual field ranges from -160 nT to 115 nT. The depth estimate for contacts ranges from 6.5 m to 39.8 m, while that of dyke ranges from 8.9 m to 51.3 m. The depth estimation presented in this work is compared with the results of aeromagnetic study carried out in the same area and found to agree fairly well. Further, this also ensures the validity of aeromagnetic investigation in such applications. Keywords: Contacts, Dykes, Euler Deconvolution, Schist Belt. PACS: 91.25.F and 91.25.Rt.

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Application Effect Analysis of Magnetic Gradients Data Continuation from Undulate Surface to Plane

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.779-780.643 ◽

2013 ◽

Vol 779-780 ◽

pp. 643-646

Author(s):

Hai Xia Li ◽

Hai Long Yu ◽

Xiao Ling Zhang

Keyword(s):

Model Test ◽

Analytic Signal ◽

Deconvolution Method ◽

Euler Deconvolution ◽

Effect Analysis ◽

Method Calculation ◽

Magnetic Source ◽

Deconvolution Technique ◽

Before And After ◽

Magnetic Gradients

Application effect of magnetic gradients data continuation from undulate surface to plane has been analyzed by model test. The gradient data of before and after the processing was used for the analytic signal and the Euler deconvolution method calculation respectively, comparing the calculated results show that the maxima of analytic signal calculated by gradients anomaly on undulate surface deviate obviously from the center location of the prism magnetic source, and the position of prism boundaries are not clear. However, the analytic signal calculated by gradients anomaly after continuation from undulate surface to plane can be successfully used to estimate the center and boundaries position of prism. The solutions of Euler deconvolution method calculated by gradients anomaly on undulate surface are dispersive, the solutions calculated by gradients anomaly after continuation from undulate surface to plane are relatively clustering, and can outline clearly the positions of prism corners. The results demonstrate that continuation from undulate surface to plane processing of gradients anomaly can improve the application effect of analytic signal and Euler deconvolution technique.

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Comparative depth estimation of iron-ore deposit using the Data-Coordinate Interpolation Technique for airborne and ground magnetic survey variation

African Journal of Science Technology Innovation and Development ◽

10.1080/20421338.2019.1572702 ◽

2019 ◽

Vol 11 (5) ◽

pp. 663-669 ◽

Cited By ~ 1

Author(s):

James Adeyemo Adegoke ◽

Gideon Oluyinka Layade

Keyword(s):

Iron Ore ◽

Depth Estimation ◽

Magnetic Survey ◽

Ore Deposit ◽

Interpolation Technique ◽

Ground Magnetic ◽

Iron Ore Deposit

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Depth Estimation Using the Tilt Angle of Gravity Field due to the Semi-Infinite Vertical Cylindrical Source

Journal of Geological Research ◽

10.1155/2017/3513272 ◽

2017 ◽

Vol 2017 ◽

pp. 1-7 ◽

Cited By ~ 2

Author(s):

Ata Eshaghzadeh

Keyword(s):

Tilt Angle ◽

Gravity Data ◽

Random Noise ◽

Depth Estimation ◽

Potential Fields ◽

Source Depth ◽

Euler Deconvolution ◽

Deconvolution Technique ◽

Cylindrical Source ◽

Interpretation Method

Tilt angle filter is an interpretation method that is used to determine the source borders locations from potential fields data. Moreover, the tilt angle is applied for estimation of the anomaly source depth, such as contact-depth method and tilt-depth method. In this paper an application of the tilt angle technique obtained from the first vertical and horizontal gradients of the gravity anomaly from semi-infinite vertical cylindrical source is described. The technique is based on the tilt angle and derivatives ratio. In this approach the depth estimates are proportional to the computed tilt angles and their distances from the cross section center of the anomaly cause on the surface. This new method is termed the tilt-distance-depth (TDD). The method is demonstrated using synthetic gravity data, with and without random noise, and real gravity data from Iran. The results are also compared with the solutions from Euler deconvolution technique and inverse modelling using Modelvision software.

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Spectral analysis and Euler deconvolution technique of gravity data to decipher the basement depth in the Dehradun-Badrinath area

Journal of the Geological Society of India ◽

10.1007/s12594-014-0077-3 ◽

2014 ◽

Vol 83 (5) ◽

pp. 501-512 ◽

Cited By ~ 5

Author(s):

G. K. Ghosh ◽

C. L. Singh

Keyword(s):

Spectral Analysis ◽

Gravity Data ◽

Euler Deconvolution ◽

Deconvolution Technique ◽

Basement Depth

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Ground magnetic survey for the investigation of magnetic minerals at Iboro Village, Abeokuta, south-western Nigeria

Scientia Africana ◽

10.4314/sa.v20i2.9 ◽

2021 ◽

Vol 20 (2) ◽

pp. 99-106

Author(s):

O.I. Popoola ◽

O.A. Adenuga ◽

E.O. Joshua

Keyword(s):

Magnetic Anomalies ◽

Geological Structure ◽

Magnetic Survey ◽

Magnetic Minerals ◽

Contour Maps ◽

Ogun State ◽

Geological Map ◽

Regional Gradient ◽

Ground Magnetic ◽

Iron Ore Deposit

The geological map of the old western region of Nigeria indicates the presence of iron ore deposit at Iboro village Ogun state (7.9983o - 7.99933o N, 3.5790o - 3.5890o E). Hence a ground magnetic survey was carried out at a location at Iboro village so as to delineate the subsurface magnetic anomalies and to know whether the anomalies favour accumulation of magnetic minerals. The survey was carried out using high resolution proton precession magnetometer model G-856X. Eight traverses were run at 5m separations and earth magnetic intensity values were measured at 10m intervals along each traverse; the acquired data were corrected for drift. The residual anomalies obtained by removal of regional gradient from observed data using trend analysis were presented as profiles and maps. The treated data were qualitatively and quantitatively interpreted and the results gave values for the total ground magnetic anomalies that varied between a minimum and maximum peak values of about -33.0 and 30.6nT respectively. Depth to the basement rock was estimated using Peter’s half slope method which gave a maximum depth of about 13m. The contour maps and the total relative graphs present the subsurface picture of the geological structure that is assumed to harbour the metallic minerals through the action of the field towards the concentration of anomalies. It was suspected that the overburden was relatively thin in the study area and the minerals were at a shallow depth.

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Resolving Optimum Magnetic Signatures for Drill-Hole Targeting in Gold Exploration – A Case Study for Mbudzane in Gwanda, Zimbabwe

International Journal of Geography and Geology ◽

10.18488/journal.10/2014.3.1/10.1.9.29 ◽

2013 ◽

Vol 3 (1) ◽

pp. 9-29

Author(s):

Dumisani John Hlatywayo ◽

Emmanuel Sakala

Keyword(s):

Drill Hole ◽

Magnetic Survey ◽

Gold Exploration ◽

Rock Formations ◽

Induced Polarisation ◽

Line Spacing ◽

Magnetic Signatures ◽

Ground Magnetic ◽

Tilt Derivative ◽

Resistivity Image

Optimum magnetic signatures for drill-hole targeting in gold exploration in Mbudzane were resolved from induced polarisation-resistivity and magnetic anomalies. Total magnetic field and a gold-in-soil map showed the area is magnetically quiet with high anomalous values along old gold workings. Induced polarisation was carried out along a grid for lines of 500m length, 50m separation and a baseline oriented at 330˚. The survey comprised a gradient array and three real sections. The magnetic survey was conducted over the same grid as the induced polarisation. Stations were set at 5m intervals for a line spacing of 50m. The results show intense anomalies that suggest different degrees of magnetic alteration and a set of conjugate lineaments and faults that possibly control the mineralisation in Mbudzane. The tilt derivative of the reduced-to-pole image resolves the separation between anomalies, giving information on the faulting. High chargeability is confined to the sheared and silicified mafic schist. The gradient resistivity image revealed contact between rock formations. Real section IP shows coincident low chargeability – low resistivity anomalies close to the surface. Chargeability intensity increases with depth, suggesting incipient development of disseminated sulphide replacement zones. A strong correlation between ground magnetic inferred contacts and apparent resistivity-chargeability anomalies forms the basis for suggesting a new drill-hole targeting. They dictate both the depth and angle at which drilling should be carried out. These results should be applicable to any region where drill-hole targeting in gold exploration may be required.

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