Abstract
An essential procedure that facilitates the analysis and interpretation of magnetic anomalies is the use of data enhancement and filtering approaches such as edge detection and depth estimation techniques. This is because these data enhancement and filtering approaches are useful in elucidating amplitude variations within original data so that the observed magnetic anomalies can be interpreted in terms of their corresponding geologic sources. Thus, magnetic intensity responses over the southern Kibi–Winneba belt have been filtered using the Fast Fourier Transform approach to delineate shallow and deep-seated anomalies. These magnetic anomaly responses were subsequently transformed to be symmetrically aligned with their respective subsurface geologic sources using the reduction-to-pole technique. The transformed shallow and deep-seated magnetic anomaly responses were then used to facilitate the delineation of various geological structures and boundaries using edge detection techniques, comprising first vertical derivative, tilt angle derivative (TDR), 3D Euler deconvolution (ED), and the Center of Exploration Targeting (CET) grid analysis techniques. Depth estimation techniques consisting of analytic signal, source parameter imaging and the radially averaged power spectrum techniques were also used to determine the source depths of the observed magnetic anomalies. Results from the edge detection techniques outlined several NE–SW trending lineaments particularly predominant within the eastern and southern part of the study area. These predominantly trending NE–SW delineated lineaments are of much relevance to gold mineralization occurrence within the Kibi–Winneba belt. The outlook of the results obtained from the depth estimation techniques denotes comparativeness. For the regional magnetic component, the average maximum depth was 6865 m whereas an average maximum depth value of 2757.5 m was obtained for the residual (near surface) magnetic sources within the study area. The estimated depth solutions generated using the ED technique for the regional and residual magnetic intensities significantly correlated with various source edges delineated on their respective TDR maps. Also, the magnetic source depths estimated using the aforementioned depth estimation techniques corroborated with depth ranges estimated in the literature. This further indicates that the techniques employed are essential in outlining the structural framework of the study area.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abdelrady M, Moneim MA, Alarifi SS, Abdelrady A, Othman A, Mohammed MA, Mohamed A (2023) Geophysical investigations for the identification of subsurface features influencing mineralization zones. J King Saud Univ Sci 35:102809
Abu M, Ehinola OA, Adeleye MA, Asiedu DK, Nunoo S (2022) Inorganic geochemistry and hydrocarbon potential of the Voltaian Basin of Ghana, West Africa. Marine Pet Geol 141:105685
Abu M, Nunoo S, Kazapoe RW (2023) Geochemical and multivariate statistical characterization of shales of the Oti−Pendjari Group of the Neoproterozoic Basin of Ghana: implication of paleoweathering, climatic conditions, and provenance. J Sediment Environ. https://doi.org/10.1007/s43217-023-00125-x
Adebayo AS, Olufemi AP, Dasho O, Awosika DD, Olagunju E (2023) Environmental impact assessment of active dumpsite in Ondo City, Nigeria: geochemical and geophysical approaches. Environ Monit Assess 195(6):785
Agyei Duodu J, Loh G, Boamah K, Baba M, Hirdes W, Toloczyki M, Davis D (2009) Geological Map of Ghana 1:1000000. Geological Survey Department
Al-Badani MA, Al-Wathaf YM (2018) Using the aeromagnetic data for mapping the basement depth and contact locations, at southern part of Tihamah region, Western Yemen. Egypt J Pet 27(4):485–495
Alekseev DA, Koshurnikov AV, Gunar AY, Balikhin EI, Semiletov IP, Shakhova NE, Palshin NA, Lobkovsky LI (2023) Time-domain electromagnetics for subsea permafrost mapping in the arctic: the synthetic response analyses and uncertainty estimates from numerical modelling data. Geosciences 13(5):144
Alkholy A, Saleh A, Ghazala H, Al Deep M, Mekkawi M (2023) Groundwater exploration usingdrainage pattern and geophysical data: a case study from Wadi Gena, Egypt. Arab J Geosci 16(1):92
Amponsah PO, Forson ED (2023) Geospatial modelling of mineral potential zones using data-driven based weighting factor and statistical index techniques. J Afr Earth Sc. https://doi.org/10.1016/j.jafrearsci.2023.105020
Amponsah PO, Forson ED, Sungzie PS, Loh YSA (2023a) Groundwater prospectivity modeling over the Akatsi Districts in the Volta Region of Ghana using the frequency ratio technique. Model Earth Syst Environ 9(1):937–955
Amponsah PO, Kwayisi D, Awunyo EK, Sapah MS, Sakyi PA, Su BX, Lu Y, Nude PM (2023b) New evidence for crustal reworking and juvenile arc-magmatism during the Palaeoproterozoic Eburnean events in the Suhum Basin, South-east Ghana. Geol J. https://doi.org/10.1002/gj.4790
Amponsah TY, Wemegah DD, Danuor SK, Forson ED (2023c) Depth‐based correlation analysis between the density of lineaments in the crystalline basement's weathered zones and groundwater occurrences within the Voltaian basin, Ghana. Geophys Prospect. https://doi.org/10.1111/1365-2478.13422
Appiah I, Wemegah DD, Asare V-DS, Danuor SK, Forson ED (2018) Integrated geophysical characterisation of sunyani municipal solid waste disposal site using magnetic gradiometry, magnetic susceptibility survey and electrical resistivity tomography. J Appl Geophys 153:143–153
Araffa SAS, El-bohoty M, Abou Heleika M, Mekkawi M, Ismail E, Khalil A, Abd EL-Razek EM (2018) Implementation of magnetic and gravity methods to delineate the subsurface structural features of the basement complex in central sinai area, Egypt. NRIAG J Astron Geophys 7(1):162–174
Asiedu DK, Agoe M, Amponsah PO, Nude PM, Anani CY (2019) Geochemical constraints on provenance and source area weathering of metasedimentary rocks from the Paleoproterozoic (~ 2.1 Ga) Wa-Lawra Belt, southeastern margin of the West African Craton. Geodin Acta 31(1):27–39
Atta SK (2023) Mapping subsurface geological structures in the birimian supergroup, Ghana using airborne magnetic and radiometric data: implications for gold exploration. J Afr Earth Sci 205:105003
Bansal A, Gabriel G, Dimri V, Krawczyk C (2011) Estimation of depth to the bottom of magnetic sources by a modified centroid method for fractal distribution of sources: an application to aeromagnetic data in Germany. Geophysics 76(3):L11–L22
Baranov V (1957) A new method for interpretation of aeromagnetic maps: pseudo-gravimetric anomalies. Geophysics 22(2):359–382
Bhattacharyya B (1966) Continuous spectrum of the total-magnetic-field anomaly due to a rectangular prismatic body. Geophysics 31(1):97–121
Buckel J, Mudler J, Gardeweg R, Hauck C, Hilbich C, Frauenfelder R, Kneisel C, Buchelt S, Blöthe JH, Hördt A et al (2023) Identifying mountain permafrost degradation by repeating historical electrical resistivity tomography (ERT) measurements. Cryosphere 17(7):2919–2940
Burazer M, Grbović M, Žitko V (2001) Magnetic data processing for hydrocarbon exploration in the Pannonian basin, Yugoslavia. Geophysics 66(6):1669–1679
Chidichimo F, De Biase M, Muto F, Straface S (2023) Modeling a metamorphic aquifer through a hydro-geophysical approach: the gap between field data and system complexity. Hydrology 10(4):80
Cooper G, Cowan D (2005) Differential reduction to the pole. Comput Geosci 31(8):989–999
Diatta F, Ndiaye PM, Diène M, Amponsah PO, Ganne J (2017) The structural evolution of the Dialé-Daléma basin, Kédougou-Kéniéba Inlier, eastern Senegal. J Afr Earth Sc 129:923–933
Dzikunoo EA, Kazapoe RW, Agbetsoamedo JE (2021) An integrated structural and geophysical approach to defining the structures of part of the Nangodi greenstone belt, Northeastern Ghana. J Afr Earth Sc 180:104238
Eisenlohr B (1989) The structural geology of Birimian and Tarkwaian rocks of southwest Ghana: Republic of Ghana, Federal Republic of Germany, Technical Cooperation Project no. 80.2040. 6. BGR
Eisenlohr B, Hirdes W (1992) The structural development of the early proterozoic birimian and Tarkwaian rocks of southwest Ghana, West Africa. J Afr Earth Sci (and the Middle East) 14(3):313–325
Eldougdoug A, Abdelazeem M, Gobashy M, Abdelwahed M, Abd El-Rahman Y, Abdelhalim A, Said S (2023) Exploring gold mineralization in altered ultramafic rocks in south Abu Marawat, eastern desert. Egypt Sci Rep 13(1):7293
Ennih N, Liégeois J-P (2008) The boundaries of the west african craton, with special reference to the basement of the moroccan metacratonic anti-atlas belt. Geol Soc Lond Spec Publ 297(1):1–17
Evina Aboula YS, Mvondo Ondoa J, Ndjigui P-D (2023) Mapping geological configuration using geophysics data: an investigative approach in targeting iron ore, gold mineralization and other commodities, a case study of Toko-Nlokeng area (Nyong greenstone belt, SW Cameroon). Appl Earth Sci 137:1–32
Forson ED, Amponsah PO (2023) Mineral prospectivity mapping over the Gomoa area of Ghana’s southern Kibi–Winneba belt using support vector machine and naive bayes. J Afr Earth Sc. https://doi.org/10.1016/j.jafrearsci.2023.105024
Forson ED, Menyeh A (2023) Best worst method-based mineral prospectivity modeling over the central part of the southern Kibi–Winneba belt of Ghana. Earth Sci Inf 16(2):1657–1676
Forson ED, Menyeh A, Wemegah DD (2021) Mapping lithological units, structural lineaments and alteration zones in the southern Kibi–Winneba belt of Ghana using integrated geophysical and remote sensing datasets. Ore Geol Rev 137:104271
Forson ED, Menyeh A, Wemegah DD, Danuor SK, Adjovu I, Appiah I (2020) Mesothermal gold prospectivity mapping of the southern Kibi–Winneba belt of Ghana based on fuzzy analytical hierarchy process, concentration-area (c-a) fractal model and prediction-area (p-a) plot. J Geophys 174:103971
Forson ED, Wemegah DD, Hagan GB, Appiah D, Addo-Wuver F, Adjovu I, Otchere FO, Mateso S, Menyeh A, Amponsah T (2022) Data-driven multi-index overlay gold prospectivity mapping using geophysical and remote sensing datasets. J Afr Earth Sc 190:104504
Ghazala HH, Ibraheem IM, Lamees M, Haggag M (2018) Structural study using 2D modeling of the potential field data and gis technique in sohag governorate and its surroundings, Upper Egypt. NRIAG J Astron Geophys 7(2):334–346
Ghosh G, Dasgupta R (2013) Edge detection and depth estimation using 3d euler deconvolution, tilt angle derivative and tdx derivative using magnetic data of thrust fold belt area of mizoram. In: 10th Biennial international conference & exposition, vol 70
Gobashy MM, Mekkawi MM, Araffa SAS, Ezz Eldin MM, Khalil MH (2023) Magnetic signature of gold deposits: example from um Garayat region, south eastern desert, Egypt. Pure Appl Geophys 180(3):1053–1080
Gorbunov A, Fraser S, Cuffey P, Lansana E, Deen H, Archer T (2023) Objective classification of high-resolution geophysical data: empowering the next generation of mineral exploration in Sierra Leone. Geophys Prospect. https://doi.org/10.1111/1365-2478.13337
Griffis JR, Barning K, Agezo LF, Akosah KF (2002) Gold deposits of Ghana. In Graphic Evolution Ltd. Ontario, Canada. Minerals Commission of Ghana.
Groves DI, Santosh M, Zhang L (2020) A scale-integrated exploration model for orogenic gold deposits based on a mineral system approach. Geosci Front 11(3):719–738
GSD (2010) Geological map of ghana. Geological Survey Department
Gunn P, Dentith M (1997) Magnetic responses associated with mineral deposits. J Aust Geol Geophys 17:145–158
Hinze WJ, Von Frese RR, Saad AH (2013) Gravity and magnetic exploration: principles, practices, and applications. Cambridge University Press, Cambridge
Hirdes W, Nunoo B (1994) The proterozoic paleoplacers at Tarkwa gold mine, sw Ghana: sedimentology, mineralogy, and precise age dating of the main reef and west reef and bearing of the investigations on source area aspects. Geol Jahrb D 100:247–311
Holden E-J, Wong JC, Kovesi P, Wedge D, Dentith M, Bagas L (2012) Identifying structural complexity in aeromagnetic data: an image analysis approach to greenfields gold exploration. Ore Geol Rev 46:47–59
Keating P, Pilkington M (2004) Euler deconvolution of the analytic signal and its application to magnetic interpretation. Geophys Prospect 52(3):165–182
Kesse GO (1985) The mineral and rock resources of Ghana. AA Balkema Publishers, Accord
Kovesi P et al (1999) Image features from phase congruency. Videre J Comput vis Res 1(3):1–26
Lee Y (1960) Statistical theory of communication. Wiley, New York
Leube A, Hirdes W, Mauer R, Kesse GO (1990) The early proterozoic Birimian supergroup of Ghana and some aspects of its associated gold mineralization. Precambr Res 46(1–2):139–165
Mamouch Y, Attou A, Miftah A, Ouchchen M, Dadi B, Moussaid A, Et-tayea Y, El Azmi M, Boualoul M (2023) Aeromagnetic data of the Kelâat M’gouna inlier (Jbel Saghro, Eastern Anti-Atlas, Morocco): Geotectonic and mining implications. J Afr Earth Sc 197:104744
Masurel Q, Eglinger A, Thébaud N, Allibone A, André-Mayer AS, McFarlane H, Miller J, Jessell M, Aillères L, Vanderhaeghe O, Salvi S (2022) Paleoproterozoic gold events in the southern West African Craton: review and synopsis. Miner Depos 57(4):513–537
Miller HG, Singh V (1994) Potential field tilt? A new concept for location of potential field sources. J Appl Geophys 32(2–3):213–217
Milligan P, Gunn P (1997) Enhancement and presentation of airborne geophysical data. J Aust Geol Geophys 17(2):63–75
Montaj GO (2013) Software for earth science mapping and processing. Geosoft Incorporation Ltd., Toronto
Núñez-Demarco P, Bonilla A, Sánchez-Bettucci L, Prezzi C (2023) Potential-field filters for gravity and magnetic interpretation: a review. Surv Geophys 44(3):603–664
Nunoo S, Hofmann A, Kramers J (2022) Geology, zircon U-Pb dating and εHf data for the Julie greenstone belt and associated rocks in NW Ghana: implications for Birimian-to-Tarkwaian correlation and crustal evolution. J Afr Earth Sci 186:104444
Obiora DN, Ossai MN, Okwoli E (2015) A case study of aeromagnetic data interpretation of Nsukka area, Enugu state, Nigeria, for hydrocarbon exploration. Int J Phys Sci 10(17):503–519
Perrouty S, Aillères L, Jessell MW, Baratoux L, Bourassa Y, Crawford B (2012) Revised eburnean geodynamic evolution of the gold-rich southern Ashanti belt, Ghana, with new field and geophysical evidence of 6pre-tarkwaian deformations. Precambr Res 204:12–39
Rajagopalan S (2003) Analytic signal vs. reduction to pole: solutions for low magnetic latitudes. Explor Geophys 34(4):257–262
Reid AB, Allsop J, Granser H, Millett AT, Somerton I (1990) Magnetic interpretation in three dimensions using Euler deconvolution. Geophysics 55(1):80–91
Riahi ZT, Sarkarinejad K, Faghih A, Soleimany B, Payrovian GR (2023) Integration of remote sensing and geophysical data for structural lineaments analysis in the rag-e-sefid oil/gas field and surrounding areas. SW Iran Geosci J 27(3):297–320
Saada SA (2016) Edge detection and depth estimation of galala el bahariya plateau, eastern desert-Egypt, from aeromagnetic data. Geomech Geophys Geo Energy Geo Resour 2(1):25–41
Salako KA (2014) Depth to basement determination using source parameter imaging (SPI) of aeromagnetic data: an application to upper Benue trough and Borno basin, northeast Nigeria. Acad Res Int 5:74–86
Salem A, Williams S, Fairhead D, Smith R, Ravat D (2008) Interpretation of magnetic data using tilt-angle derivatives. Geophysics 73(1):L1–L10
Salem A, Williams S, Fairhead JD, Ravat D, Smith R (2007) Tilt-depth method: a simple depth estimation method using first-order magnetic derivatives. Lead Edge 26(12):1502–1505
Sapah MS, Agbetsoamedo JE, Amponsah PO, Dampare SB, Asiedu DK (2021) Neodymium isotope composition of Palaeoproterozoic Birimian shales from the Wa-Lawra Belt, north-west Ghana: constraints on provenance. Geol J 56(4):2072–2081
Scott LM, Janikas MV (2010) Spatial statistics in arcgis. In: Handbook of applied spatial analysis. Springer, pp 27–41
Senayah JK, Nketia AK, Gyansa AS (2010) Report on the soil resources of gomoa east district, Central Region, Ghana. Council for Scientific and Industrial Research (CSIR), Soil Research Institute CSIR/WAAPP No. 017.
Shehata AA, Sarhan MA, Abdel-Fattah MI, Mansour S (2023) Geophysical assessment for the oil potentiality of the Abu Roash “G” reservoir in west Beni Suef basin, western desert. Egypt J Afr Earth Sci 199:104845
Shivaprasad B, Ravikumar M (2023) Enhancement of brain magnetic resonance images using cascade of notch filter and linear transformation methods. Pattern Recognit Image Anal 33(1):66–79
Smith RS, Salem A, Lemieux J (2005) An enhanced method for source parameter imaging of magnetic data collected for mineral exploration. Geophys Prospect 53(5):655–665
Spector A, Grant F (1970) Statistical models for interpreting aeromagnetic data. Geophysics 35(2):293–302
Tawey MD, Adetona AA, Alhassan UD, Rafiu AA, Salako KA, Udensi EE (2020) Edge detection and depth to magnetic source estimation in part of central Nigeria. Phys Sci Int J 24:54–67
Thompson D (1982) Euldph: a new technique for making computer-assisted depth estimates from magnetic data. Geophysics 47(1):31–37
Thurston JB, Smith RS (1997) Automatic conversion of magnetic data to depth, dip, and susceptibility contrast using the SPI (TM) method. Geophysics 62(3):807–813
Trompette R (1994) Geology of western gondwana (2000–500 ma), pan-african-brasiliano aggregation of south America and Africa. Balkema, Rotterdam, p 350
Wemegah DD, Preko K, Noye RM, Boadi B, Menyeh A, Danuor SK, Amenyoh T et al (2015) Geophysical interpretation of possible gold mineralization zones in Kyerano, south-western Ghana using aeromagnetic and radiometric datasets. J Geosci Environ Prot. 3(04):67
Whitehead N, Musselman C (2005) Montaj grav/mag interpretation. In: Processing, analysis and visualization system for 3D inversion of potential field data for Oasis Montaj TM: Tutorial and User Guide. Version, 6
Yoshimaru S, Kiyokawa S, Ito T, Ikehara M, Horie K, Takehara M, Sano T, Nyame FK, Tetteh GM (2016) Stratigraphy and age of paleoproterozoic Birimian volcaniclastic sequence in the cape three points area, Axim-Konongo (Ashanti) belt, southwest Ghana. In: AGU Fall meeting abstracts, vol 2016, pp V13E–2899
Dentith M, Mudge ST (2014) Geophysics for the mineral exploration geoscientist. Cambridge University Press, Cambridge
Acknowledgements
Author wishes to thank Ghana Geological Survey Authority for making data available for the research. Many thanks go to the University of Ghana-Carnegie Corporation and Building a New Generation Africa (BaNGA-Africa) for their immense support in making this study a success. The author also acknowledges the preliminary contribution by Mr. Isaac Kwofie, which was essential towards the success of this study. Many thanks also to Dr. Prince Ofori Amponsah for his invaluable support.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The author declares that there is no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.
Additional information
Edited by Dr. Mario Zarroca Hernández (ASSOCIATE EDITOR) / Prof. Gabriela Fernández Viejo (CO-EDITOR-IN-CHIEF).
Supplementary Information
Below is the link to the electronic supplementary material.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Forson, E.D. Regional-residual depth estimation and edge detection characterization over the southern Kibi–Winneba belt, Ghana using aeromagnetic data. Acta Geophys. (2023). https://doi.org/10.1007/s11600-023-01198-y
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s11600-023-01198-y