Structural development of northwest Saudi Arabia using aeromagnetic and seismological data

Mohamed Fnais , Elkhedr Ibrahim , Essam Abd El-Motaal , Kamal Abdelrahman , Abdelmaguid Al-Heniedi , Khaled Al-Kahtany

Journal of Earth Science ›› 2016, Vol. 27 ›› Issue (6) : 998 -1007.

PDF
Journal of Earth Science ›› 2016, Vol. 27 ›› Issue (6) : 998 -1007. DOI: 10.1007/s12583-016-0904-0
Special Column on Tectonics of Turkey and Iran and Comparison with Other Tethyan Domains

Structural development of northwest Saudi Arabia using aeromagnetic and seismological data

Author information +
History +
PDF

Abstract

High resolution aeromagnetic and seismological data constrained by field-based structural investigations have been used to map and delineate the structural elements that affected and shaped the Midyan area in the northwest part of Saudi Arabia. The area was divided into four major domains defined by NNE, NNW, NW and ENE trending faults identified by trends, patterns and intensity of magnetic anomalies. The ENE trending left-lateral strike-slip faults intersected by NNE trending faults are the predominant tectonic features in the Gulf of Aqaba coastal area and stop at the boundary of a central domain characterized by complexity in the pattern and intensity of magnetic anomalies, that may be attributed to heterogeneity of basement rocks containing complex igneous rock suites including diorite, gabbro, ultramafic and alkali granitic rocks. This domain is characterized by the presence of narrow linear magnetic anomalies that extend for kilometers in an NNW direction, indicating dikes intruded through NNW trending faults. These dikes become WNW-oriented near their northern termination by transfer of movement to WNW-oriented faults marking the northern termination of the Red Sea rift. It is believed that this fault zone is still experiencing neotectonic activity, as evident from recorded seismicity. The aeromagnetic structural results coincide with fault plane solutions for the largest earthquakes, confirming aeromagnetic interpreted trends and illustrating mixed mechanisms between extensional and strike-slip faulting. Thus the study area displays different mechanisms associated with different tectonic trends which show clearly in the structural patterns of the area.

Keywords

aeromagnetism / seismicity / neotectonics / Midyan area / Saudi Arabia

Cite this article

Download citation ▾
Mohamed Fnais, Elkhedr Ibrahim, Essam Abd El-Motaal, Kamal Abdelrahman, Abdelmaguid Al-Heniedi, Khaled Al-Kahtany. Structural development of northwest Saudi Arabia using aeromagnetic and seismological data. Journal of Earth Science, 2016, 27(6): 998-1007 DOI:10.1007/s12583-016-0904-0

登录浏览全文

4963

注册一个新账户 忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

Abou Elenean K. A Study on the Seismotectonics of Egypt in Relation to the Mediterranean and Red Sea Tectonics: [Dissertation], 1997, 156.
[2]

Afifi A. M., Connally T. C., Senalp M., . Preliminary Report on a Geologic Field Trip to Midyan, December 11–1., 1992, 1993
[3]

Al-Amri A. M. Recent Seismic Activity in the Northern Red Sea. Journal of Geodynamics, 1995, 20(3): 243-253.

[4]

Al-Damegh K. S., Abou Elenean K. M., Hussein H. M., . Source Mechanisms of the June 2004 Tabuk Earthquake Sequence, Eastern Red Sea Margin. Kingdom of Saudi Arabian Journal Seismology, 2009, 13(4): 561-576.
[5]

Al-Fotawi B. A., Gazzaz M. A., Hassan M. A. Uranium and Thorium Enrichment in Haql Granite in Midyan Region, Northwest of Saudi Arabia. Earth Sciences Journal, 1991, 4(1): 161-170.
[6]

Al-Rehaili M. H. Reconnaissance Geology of the Wadi as Sahab Quadrangle, Sheet 28/35B, 1982
[7]

Ambraseys N. N., Bommer J. J. Uniform Magnitude Re-Evaluation for the Strong-Motion Database of Europe and Adjacent Areas. Journal of European Earthquake Engineering, 1990, 4: 3-16.
[8]

Ambraseys N. N., Free M. W. Surface-Wave Magnitude Calibration for European Region Earthquakes. Journal of Earthquake Engineering, 1997, 1(1): 1-22.
[9]

Ambraseys, N. N., Melville, C. P., Adams, R. D., 1994. The Seismicity of Egypt, Arabia and the Red Sea. In: Ambraseys, N. N., Melville, C. P., Adams, R. D., eds., Cambridge University Press, Cambridge. 181
[10]

Andreasen G. E., Petty A. J. Total Intensity Aeromagnetic Map of the Northern Hijaz Quadrangle and Part of Wadi as Sirhan Quadrangle, Kingdom of Saudi Arabia. Directorate General of Mineral Resources, Saudi Arabian, 1974
[11]

Bird D. Interpreting Magnetic Data: Geophysical Corner, 1997
[12]

Blank H. R. Aeromagnetic and Geologic Study of Tertiary Dikes and Related Structures on the Arabian Margin of the Red Sea. Red Sea Research 1970–1975. Saudi Arabian Directorate General of Min, 1977, 22: G1-G18.
[13]

Bramkamp R. A., Brown G. F., Holme D. A., . Geologic Map of the Wadi as Sirhan Quadrangle, Kingdom of Saudi Arabia, Jeddah. U.S, 1963
[14]

Clark M. D. Geologic Map of the Al Bad’ Quadrangle, Sheet 28A, Kingdom of Saudi Arabia. Saudi Arabian Directorate General of Mineral Resources, Jeddah, 1985
[15]

Clark M. D. Geologic Map of the Al Bad’ Quadrangle, Sheet 28A, Kingdom of Saudi Arabia. Ministry of Petroleum and Mineral Resources, Deputy Ministry for Mineral Resources, Jeddah, 1987
[16]

Davies F. B., Grainger D. J. Geologic Map of the Al Muwaylih Quadrangle, Sheet 27A, 1985
[17]

El-Isa Z., Merghelani H., Bazzaris M. The Gulf of Aqaba Earthquake Swarm of 1983 January–April. Geophysics Journal of Royal Astronomical Society, 1984, 78(3): 711-722.

[18]

Fairhead J. D., Girdler R. W. The Seismicity of Africa. Geophysical Journal International, 1971, 24(3): 271-301.

[19]

Harris N. B. W. Alkaline Complexes from the Arabian Shield. Journal of African Earth Sciences, 1985, 3(1–2): 83-88.

[20]

Huang P. Y., Soloman S. C. Centroid Depth and Mechanisms of Mid-Ocean Ridge Earthquakes in the Indian Ocean. Gulf of Aden, and Red Sea. Journal of Geophysical Research, 1987, 92: 1361-1382.

[21]

Hughes G. W., Perincek D., Grainger D. J., . Lithostratigraphy and Depositional History of Part of the Midyan Region, Northwestern Saudi Arabia. GeoArabia, 1999, 4(4): 503-542.
[22]

Hussein H. M., Marzouk I., Moustafa A. R., . Preliminary Seismicity and Focal Mechanisms in the Southern Gulf of Suez: August 1994 through December 1997. Journal of African Earth Sciences, 2006, 45(1): 48-60.

[23]

Ibrahim E. H., Odah H. H., El Agami N. L., . Paleomagnetic and Geological Investigation into Southern Sinai Volcanic Rocks and the Rifting of the Gulf of Suez. Tectonophysics, 2000, 321(3): 343-358.

[24]

Johnson R. F., Trent V. A. Mineral Reconnaissance of Wadi as Surr Quadrangle, Kingdom of Saudi Arabia, 1967
[25]

Kebeasy R. M. Seismicity in Geology of Egypt. In: Rushdi Said, ed., The Geology of Egypt, 1990, 51-59.
[26]

King Fahd University of Petroleum and Minerals (KFUPM., 1998. Processing and Interpretation of Landsat TM Data for the Midyan Area, Red Sea. Unpublished Report for Saudi Aramco, Dhahran. 49
[27]

Korrat I., Hussein H., Marzouk I., . Seismicity of the Northernmost Part of the Red Sea (1995–1999). Acta Geophysica, 2006, 54(1): 33-49.

[28]

Milner A., Morris N., Jeffery P. Report on Macrofossils from the Kingdom of Saudi Arabia. Natural History Museum, 1993
[29]

Motti E., Teixido L., Vazques-Lopez R., . Maqna Massif Area: Geology and Mineralization, 1982, 44.
[30]

Mousa H. M. Earthquake Activities in Egypt and Adjacent Regions and Its Relation to Geotectonic Features in A. R. Egypt: [Dissertation], 1989
[31]

Moustafa A. R., Abd-Allah A. M. Transfer Zones with En Echelon Faulting at the Northern End of the Suez Rift. Tectonics, 1992, 11(3): 499-506.

[32]

Poirier J. P., Taher M. A. Historical Seismicity in the Near and Middle East, North Africa, and Spain from Arabic Documents (VIIth-XVIIIth Century). Bulletin of the Seismological Society of America, 1980, 70: 2185-2201.
[33]

Radain A. A. M. Petrogenesis of Some Peralkaline and Non-Peralkaline Post-Tectonic Granites in the Arabian Shield, Kingdom of Saudi Arabia, 1980, 16 195.
[34]

Ramsay C. R., Drysdall A. R., Clark M. D. Felsic Plutonic Rocks of the Midyan Region, Kingdom of Saudi Arabia—I, Distribution, Classification, and Resource Potential. Felsic Plutonic Rocks and Associated Mineralization of the Kingdom of Saudi Arabia. Saudi Arabian Deputy Ministry for Mineral Resources Bulletin, 1986, 29: 63-77.
[35]

Remond C., Teixido L. Geological and Mineral Exploration of the Sedimentary Cover between Al Bad and Al Muwaylih (28/35 A-C and 27/35 A-B). Bureau de Recherches Géologiques et Minères Open-File Report JED-OR 80–26, 1980, 79.
[36]

Rowaihy N. M. Geologic Map of the Haql Quadrangle, Sheet 29A, Kingdom of Saudi Arabia, 1985, 15.
[37]

Salamon A., Hofstetter A., Garfunkel Z., . Seismotectonics of the Sinai Subplate––The Eastern Mediterranean Region. Geophysical Journal International, 2003, 155(1): 149-173.

[38]

Shapira A., Jarradat M. Earthquake Risk and Loss Assessment in Aqaba and Eilat Regions, 1995
[39]

Shwartz D. H., Arden D. D. Geological History of the Red Sea Area. American Association of Petroleum Geologists Bulletin, 1960, 44: 1621-1637.
[40]

Stoeser D. B. Distribution and Tectonic Setting of Plutonic Rocks of the Arabian Shield. Journal of African Earth Sciences, 1986, 4: 21-46.

AI Summary AI Mindmap
PDF

154

Accesses

0

Citation

Detail
Sections
Recommended

AI思维导图

/