DEPTH TO BASEMENT ESTIMATION AND BASEMENT TOPOGRAPHIC MAPPING FROM AEROMAGNETIC DATA ACQUIRED OVER THE CENTRAL PART OF THE BORNO BASIN, NORTHEASTERN NIGERIA; IMPLICATIONS FOR PETROLEUM EXPLORATION

Authors

  • Yusuf Abdulmumin
    Abubakar Tafawa Balewa University Bauchi
  • Abdulmajid Isa Jibrin
    Abubakar Tafawa Balewa University Bauchi
  • Fatima Saidu
  • Idris Ismail Kariya
    Abubakar Tafawa Balewa University Bauchi
  • Jamaluddeen Yusuf
    Department of Geology, University of Jos

Keywords:

Borno Basin, Depth to basement, Petroleum prospect, Euler Deconvolution

Abstract

A reconnaissance for petroleum exploration was conducted in the central part of the Nigerian sector of the Chad Basin (Borno Basin) using High Resolution Aeromagnetic Data (HRAM) obtained from the Nigerian Geological Survey Agency (NGSA). The study was aimed at identifying high-prospect areas by estimating sedimentary thickness and mapping basement geometry. Upward continuation eliminated shallow magnetic sources, making it easier to focus on deeper regional geologic structures thought to have originated from the basement. To make the anomalies easier to interpret, the reduction to equator processing approach was employed to concentrate them on the associated geologic causes. At various solution positions, the depth to basement rocks was calculated using a new 3D Located Euler Deconvolution depth weighting method. The rocks in the study area have residual magnetic intensities ranging from -275 to 190 nT. The basement topography exhibits undulations and thicknesses varying from around 100 m to over 3 km, as indicated by the results of the Euler Deconvolution and the basement topographic map. Four major sub-basins, situated in the southern and northeastern parts of the study area, with thicknesses ranging from > 2.5 to up to 3 km, with the largest sub-basin, situated in the southern portion of the study area, having the highest thickness, up to 3.4 km in certain areas. These sub-basins are thick enough to generate geothermal gradient for organic matter maturation where the right source rock exist hence recommendable for further geophysical investigation using reflection seismic and other petrophysical studies.

Dimensions

REFERENCES

Ahmed, K. S., Liu, K., Paterne, M. A., Kra, K. L., Kuttin, A. A. A., Malquaire, K. P. R., & Ngum, K. M. M. A. (2020). Anatomy of Eastern Niger rift basin with specific references of its petroleum systems. International Journal of Geosciences, 11(5), 305-324.

Akiishi, M., Isikwue, B. C., & Tyovenda, A. A. (2018). Mapping of depth to basement in Masu Area of Nigerian sector of Chad Basin, using aeromagnetic and aerogravity data. IOSR Journal of Applied Geology and Geophysics, 6(5), 36-45.

Anakwuba, E.K., Onwuemesi, A.G., Chinwuko, A.I., Onuba, L.N., 2011. The interpretation of aeromagnetic anomalies over Maiduguri–Dikwa depression, Chad Basin Nigeria: A structural view. Archives of Applied Science Research. 3(4), 499-508.

Arogundade, A. B., Hammed, O. S., Awoyemi, M. O., Falade, S. C., Ajama, O. D., Olayode, F. A., ... & Olabode, A. O. (2020). Analysis of aeromagnetic anomalies of parts of Chad Basin, Nigeria, using high-resolution aeromagnetic data. Modeling Earth Systems and Environment, 6, 1545-1556.

Avbovbo, A.A., Ayoola, E.O., Osahon, G.A., 1986. Depositional and structural styles in Chad Basin of northeastern Nigeria. AAPG bulletin. 70 (12), 1787-1798. https://doi.org/10.1306/94886D21-1704-11D7-8645000102C1865D.

Biyiha-Kelaba, W., Ndougsa-Mbarga, T., Yene-Atangana, J. Q., Ngoumou, P. C., & Tabod, T. C. (2013). 2.5 D Models derived from the magnetic anomalies obtained by upwards continuation in the Mimbi area, southern Cameroon. Journal of Earth Sciences and Geotechnical Engineering, 3(4), 175-199.

Burke, K. (1976). The Chad Basin: an active intra-continental basin. In Developments in geotectonics (Vol. 12, pp. 197-206). Elsevier. https://doi.org/10.1016/0040-1951(76)90016-0.

Chinwuko, A.I., Onwuemesi, A.G., Anakwuba, E.K., Onuba, L.O., Nwokeabia, N.C., 2012. Interpretation of aeromagnetic anomalies over parts of upper Benue trough and Southern Chad Basin, Nigeria. Advances in Applied Science Research. 3(3), 1757-1766.

Chukwunonso, O.C., Godwin, O.A., Kenechukwu, A.E., Ifeanyi, C.A., Emmanuel, I.B., Ojonugwa, U.A., 2012. Aeromagnetic interpretation over Maiduguri and environs of southern Chad basin, Nigeria. Journal of earth sciences and geotechnical engineering. 2(3), 77-93.

Dou, L., Cheng, D., Wang, J., Du, Y., Xiao, G., & Wang, R. (2020). Petroleum systems of the Bongor Basin and the great Baobab oilfield, Southern Chad. Journal of Petroleum Geology, 43(3), 301-321.

Genik, G. J. (1993). Petroleum geology of cretaceous-tertiary rift basins in Niger, Chad, and Central African Republic. AAPG bulletin, 77(8), 1405-1434. https://doi.org/10.1306/BDFF8EAC-1718-11D7-8645000102C1865D

Published

30-06-2024

How to Cite

DEPTH TO BASEMENT ESTIMATION AND BASEMENT TOPOGRAPHIC MAPPING FROM AEROMAGNETIC DATA ACQUIRED OVER THE CENTRAL PART OF THE BORNO BASIN, NORTHEASTERN NIGERIA; IMPLICATIONS FOR PETROLEUM EXPLORATION. (2024). FUDMA JOURNAL OF SCIENCES, 8(3), 546-554. https://doi.org/10.33003/fjs-2024-0803-2489

Issue

Vol. 8 No. 3 (2024): FUDMA Journal of Sciences - Vol. 8 No. 3 (Special Issue)

Section

Research Articles
Copyright & Licensing

How to Cite

DEPTH TO BASEMENT ESTIMATION AND BASEMENT TOPOGRAPHIC MAPPING FROM AEROMAGNETIC DATA ACQUIRED OVER THE CENTRAL PART OF THE BORNO BASIN, NORTHEASTERN NIGERIA; IMPLICATIONS FOR PETROLEUM EXPLORATION. (2024). FUDMA JOURNAL OF SCIENCES, 8(3), 546-554. https://doi.org/10.33003/fjs-2024-0803-2489

Most read articles by the same author(s)