Abstract
There are a great number of historical and recent earthquakes have occurred in the southern Red Sea and southwestern Saudi Arabia between Latitudes 14°–19°N and Longitudes 39°–45°E in the period of 200–2005 A.D. with magnitudes ranges from 2 ≤ M ≤ 8.0. The area of interest has a complicated geological structures and tectonics. The epicentral distribution of both historical and instrumental earthquakes shows a general correlation with the regional geology and tectonics. Concentration of activity are seen where the spreading zone is intersected by NE transform faults. Most of the seismicity of this area is of swarm type and volcanic–related. Based on the seismic activity, focal mechanism solutions, geological structures and tectonics, four seismic source zones were defined; Southern Arabian Shield, Southern Red Sea, Northern Yemen and Middle of the Red Sea. The maximum expected magnitude for each seismic source zone was estimated. The b values correlate well with the tectonic environment and seem to increase gradually southwards with the opening of the Red Sea where it has 0.57 for the middle Red Sea and attains 1.06 for the southern Arabian Shield. This may reflects the heterogeneity of the crust and regional stress field. The stochastic method is applied for the seismic hazard assessment using more recent and advanced FORTRAN program for Strong Motion SIMulation (SMSIM). The area was divided into small grid of point each 0.5° for both of latitude and longitude. The source parameters and the maximum expected magnitude for each seismic source were implemented into the method as input data also the path and site effect taken into consideration for the assessment of seismic hazard potentialities within the area in terms of Peak Ground Acceleration (PGA) and the response spectra for different rock units at the populated cities. The results of this method show that the maximum simulated time history of PGA on the bed-rock is 41.1 cm/sec2 resulted from the southern Red Sea source, while the maximum PGA on the ground surface is 72.15 cm/sec2 resulted also from the southern Red Sea source. The response spectra were calculated for different rock units at selected sites for 1, 3, 5 and 10 % from the critical damping.
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References
Abdel-Gawad M (1969) New evidence of transcurrent movements in the Red Sea area and Petroleum implications. Am Assoc Petrol Geol Bull 53(7):1466–1479
AL-Amri AM (1994) Seismicity of the south-western region of the Arabian Shield and southern Red Sea, department of geology, King Saud University. J Afr Earth Sci 19(1):17–25
Al-Amri AM (1995) Preliminary seismic hazard assessment of the southern Red Sea region. European earthquake engineering, pp 33–38
Al-Amri AM (1998) The crustal structure of the Western Arabian platform from the spectral analysis of long-period P-wave amplitude ratios. Tectonophysics 290:271–283
Al- Amri AM, Punsalan BT, Uy E A (1998) Spatial distribution of the seismicity parameter in the Red Sea reigions. J Earth Sci 16(5–6):557–563
Al-Amri A, Alkhalifah T (2004) Improving the level of seismic hazard parameters in Saudi Arabia using earthquake location and magnitude calibration. Project no. 20–68, King Abdul Aziz City for Science & Technology, Riyadh
AL-Haddad M, Siddiqi GH, AL-Zaid R, Arafah A, Necioglu A, Turkelli N (1994) A basis for evaluation of seismic hazard and design for Saudi Arabia. Earthq Spectra 10(2):231–258
Alsinawi SA (1983) Dhamar earthquake of 13/12/82 a report submitted to the Yemeni Government, p 34 (Arabic text)
Alsinawi SA (1986) Historical seismicity of the Arab region. Proceedings of the third Arab seismological seminar, Riyadh Saudi Arabia, pp 11–33
Ambraseys NN (1988) The seismicity of Saudi Arabia and adjacent area, Report Prepared for the Kingdom of Saudi Arabia. ESEE, Imperial Col Sci Tech London, U.K. Report 88/11. p 294
Ambraseys NN, Melville CP (1983) Seismicity of Yemen. Nature 303:321–323
Ambraseys NN, Melville CP, Adams RD (1994) The seismicity of Egypt, Arabia and the Red Sea- ahistorical review. Cambridge University Press and King Abdul Aziz City for Science and Technology, p 181
Atkinson GM, Boore DM (1995) Ground motion relations for eastern North America. Bull Seism Soc Am 85:17–30
Barazangi M (1981) Evaluation of Seismic Risk along the western part of the Arabian plate: discussion and recommendations, Bull Fac Earth Sci K.A.U pp 77–87
Boore DM, Atkinson GM (1987) Stochastic prediction of ground motion and spectral response parameters at hard-rock sites in eastern North America. Bull Seism Soc Am 77:440–467
Boore DM (1983) Stochastic simulation of high frequency ground motions based on seismological models of the radiated spectra. Bull Seism Soc Am 73:1865–1894
Boore DM (1996) SMSIM- Fortran programs for simulating OFR 96-80-A, USGS, Open-File Report 00-509, p 55
Boore DM (2002) SMSIM: Stochastic method simulation of ground motion from earthquakes. In: Lee WHK, Kanamorri H, Jennings PC, Kisslinger DC (eds) International handbook of earthquake and engineering seismology, Chapter 85.13, Academic, London
Brown GF, Jackson RO, Bogue RG, Maclean WH (1963) Geologic map of the Southern Hijaz quadrangle, Kingdom of Saudi Arabia: U.S. Geol. Survey Misc Geol Inv Map I-210A, scale 1:500000
Drake CL, Girdler RW (1964) A geophysical study of the Red Sea. Royal Astron Soc Geophys J 8:473–495
El-Difrway MFI (1996) Earthquake ground motion amplification in the greater Cairo area. Bull Fac Sci Cairo Univ Vol 63:105–132
El-Isa Z, Al- Shanti A (1989) Seismicity and tectonics of the Red Sea and Western Arabia. Geophys J R Astron Soc 97:449–457
Fairhead JD (1968) The seismicity of East African rift system 1955–1968, MSc Dissertation, University of Newcastle upon Tyne
Fairhead JD, Girdler R (1970) The seismicity of the Red Sea, Gulf of Aden and Afar triangle. Phis Trans R Soc Lond A 267:49–74
Fairhead JD, Girdler R (1972) The seismicity of East African rift system. Tectonophysics 15:115–122
Gutenberg GB, Richter C (1944) The seismicity of the earth and associated phenomena. Hafner Publishing Co., New York, p 310
Hanks TC (1982) Fmax. Bull Seism Soc Am 72:1867–1879
Hanks TC, McGuire RK (1981) The character of high frequency strong ground motion. Bull Seism Soc Am 71:2071–2095
Hatzdimitrio P, Papadimitio E, Mountrakis D, Papazachos B (1985) The seismic parameter b of the frequency-magnitude relation and its association with the geological zones in the area of Greece. Tectonophysics 120:141–151
Isacks B, Oliver J (1964) Seismic waves with frequencies from 1 to 100 cycles per second recorded in a deep mine in northern New Jersey. Bull Seismol Soc Am 54:1941–1979
Karnik V (1969) Seismicity of the European area. D. Reidel, Dordrecht, p 364, Part I
Langer CJ, Bollinger GA, Merghelani HM (1987) Aftershocks of the 13 December 1982 North Yemen Earthquake: Conjugate normal faulting in an extensional setting. Bull Seismol Soc Am 77(6):2038–2055
Makris J, Berendsen D, Denecke C (1986) Sonne cruise no. 29 in the central Red Sea Tech Rept, Project No. R 341, IfG Hamgurg, p 34
Makris J, Bobsien M, Meier K, Rihm R (1989) Sonne cruise no. 53 in the southern Red Sea. Tech Rept, Project No. R 383 B6, IfG Hamburg, p 83
McKenze D, Davis D, Molnar P (1970) Plate tectonics of the Red Sea and east Africa. Nature 226:243–248
Midorikawa S (1987) Prediction of isoseismal map in the Kanto plain due to hypothetical earthquake. J Struct Eng 33:43–48
Mogi K (1962) Study of the elastic shocks caused by the fracture of heterogeneous materials and its relations to earthquake phenomena. Bull Earth Res Inst 40:125–173
Mountrakis D, Sapountzis E, Kilias A, Elefteriadis G, Christophides G (1983) Paleogeographic conditions in the western Pelagonian margin in Greece during the intial rifting of the continental area. Can J Earth Sci 20:1673–1681
Nuttli O, Herrmann R (1984) Ground motion of Mississippi Valley earthquakes. Tech J Topics Civil Eng 110:54–69
Papazachos BC (1980) Seismicity rates and long-term earthquake prediction in the Agean area. Quaterniones Geodaesiae 3:171–190
Papazachos BC, Kiratzi AA, Hatzidimitriou PM, Rocca ACh (1984) Seismic faults in the Agean area. Tectonophysics 106:71–85
Papazachos BC, Scordilis EM, Papagiotopoulos DG, Papazachos CB, Karakaisis GF (2004) Global relations between seismic fault parameters and moment magnitude of earthquakes. Bull Geol Soc Greece XXXVI:1482–1489
Poirier JP, Taher MA (1980) Historical seismicity in the near and middle east, North Africa and Spain from Arabic documents (VIIth–Xviith century). Bull Seism Soc Amer 70(6):2185–2201
Powers R, Ramierez L, Redmond C, Elberg E (1966) Geology of the Arabian Peninsula: sedimentary geology of Saudi Arabia, US Geol. Surv Prof Paper, 560-D, p 147
Reiter L (1991) Earthquakes hazard analysis. Colombia Univ Press, New York
Thenhaus PC (1983) Summary of workshop concerning regional seismic zones of parts of the United States, by the U.S. Geological Survey, 865, p 36
Thenhaus PC, Algermissen S, Perkins D, Hansen S, Diment W (1986) Probabilistic estimates of the seismic ground-motion hazards in western Saudi Arabia, U.S. Geological Surv Bull No. 1968, p 40
Acknowledgements
The authors would like to express their thanks and deep gratitude to all staff of KSU and KACST seismic center for their kind support and valuable discussion.
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Al-Malki, M.A., Al-Amri, A.M. (2013). Seismic zones regionalization and hazard assessment of SW Arabian Shield and Southern Red Sea Region. In: Al Hosani, K., Roure, F., Ellison, R., Lokier, S. (eds) Lithosphere Dynamics and Sedimentary Basins: The Arabian Plate and Analogues. Frontiers in Earth Sciences. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-30609-9_16
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