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  • Cited by 3
  • Print publication year: 2014
  • Online publication date: May 2014

18 - Natural hazards in Saudi Arabia

from Part V - Case studies: the Middle East

References

Abdel Wahab, A., Abul Maaty, M. A., Stuart, F. M., Awad, H., and Kafafy, A. (2013). The geology and geochronology of Al Wahbah maar crater, Harrat Kishb, Saudi Arabia. Quaternary Geochronology, in press, http://dx.doi.org/10.1016/j.quageo.2013.01.008.
Ackerman, S. A. and Cox, S. K. (1989). Surface weather observations of atmospheric dust over the southwest summer monsoon region. Meteorology and Atmospheric Physics, 41, 19–34.
Adams, R. D. and Barazangi, M. (1984). Seismotectonics and seismology in the Arab region: a brief summary and future plans. Bulletin of the Seismological Society of America, 74(3), 1011–1030.
Al Amri, A. (1994). Seismicity of the south-western region of the Arabian shield and southern Red Sea. Journal of African Earth Sciences, 19(1), 17–25.
Al Amri, A. (1995). Recent seismic activity in the northern Red Sea. Journal of Geodynamics, 20(3), 243–253.
Al Amri, A. M. and Rodgers, A. J. (2013). Improvement of seismicity parameters in the Arabian Shield and Platform using earthquake location and magnitude calibration. In Lithosphere Dynamics and Sedimentary Basins: The Arabian Plate and Analogues, eds. Al Hosani, K., Roure, F., Ellison, R. and Lokier, S.Berlin: Springer, pp. 281–293.
Al Amri, A. M., Rodgers, A. J. and Al-Khalifah, T. A. (2008). Improving the level of seismic hazard parameters in Saudi Arabia using earthquake location. Arabian Journal of Geosciences, 1(1), 1–15.
Al Damegh, K. S., AbouElenean, K. M., Hussein, H. M. and Rodgers, A. J. (2009). Source mechanisms of the June 2004 Tabuk earthquake sequence, Eastern Red Sea margin, Kingdom of Saudi Arabia. Journal of Seismology, 13(4), 561–576.
Al-Ghamdi, K. A., Elzahrany, R. A., Mirza, M. N. and Dawod, G. M. (2012). Impacts of urban growth on flood hazards in Makkah City, Saudi Arabia. International Journal of Water Resources and Environmental Engineering, 4(2), 23–34.
Al Harbi, B. H. and Moied, K. (2005). Riyadh Air Quality Report (1999–2004), King Abdulaziz City for Science and Technology. Report No. 279-25-ER.
Al Kwatli, M. A., Gillot, P. Y., Zeyen, H., Hildenbrand, A. and Al Gharib, I. (2012). Volcano-tectonic evolution of the northern part of the Arabian plate in the light of new K–Ar ages and remote sensing: Harrat Ash Shaam volcanic province (Syria). Tectonophysics, 580, 192–207.
Al Saud, M. (2010). Assessment of flood hazard of Jeddah area 2009, Saudi Arabia. Journal of Water Resource and Protection, 2, 839–847.
Ambraseys, N. N., Melville, C. P. and Adams, R. D. (2005). The Seismicity of Egypt, Arabia and the Red Sea: A Historical Review. Cambridge: Cambridge University Press.
Badarinath, K. V. S., Kharol, S. K., Kaskaoutis, D. G.et al. (2010). Long-range transport of dust aerosols over the Arabian Sea and Indian region–A case study using satellite data and ground-based measurements. Global and Planetary Change, 72(3), 164–181.
Bellahsen, N., Faccenna, C., Funiciello, F., Daniel, J. M. and Jolivet, L. (2003). Why did Arabia separate from Africa? Insights from 3-D laboratory experiments. Earth and Planetary Science Letters, 216(3), 365–381.
Bennett, C. M., McKendry, I. G., Kelly, S., Denike, K. and Koch, T. (2006). Impact of the 1998 Gobi dust event on hospital admissions in the Lower Fraser Valley, British Columbia. Science of the Total Environment, 366(2–3), 918–925.
Bennion, P., Hubbard, R., O'Hara, S.et al. (2007). The impact of airborne dust on respiratory health in children living in the Aral Sea region. International Journal of Epidemiology, 36(5), 1103–1110.
Borga, M., Anagnostou, E. N., Blöschl, G. and Creutin, J. D. (2010). Flash floods: observations and analysis of hydro-meteorological controls. Journal of Hydrology, 394, 1–3.
Camp, V. E. and Roobol, M. J. (1992). Upwelling asthenosphere beneath western Arabia and its regional implications. Journal of Geophysical Research, 97(15), 255–271.
Chang, S. J. and Van der Lee, S. (2011). Mantle plumes and associated flow beneath Arabia and East Africa. Earth and Planetary Science Letters, 302(3), 448–454.
Chester, D. K., Degg, M., Duncan, A. M. and Guest, J. E. (2000). The increasing exposure of cities to the effects of volcanic eruptions: a global survey. Global Environmental Change, Part B: Environmental Hazards, 2(3), 89–103.
Coleman, R. G., Gregory, R. T. and Brown, G. F. (1983). Cenozoic volcanic rocks of Saudi Arabia. USGS Open-File Report: 83–788. 86 pp.
Dawod, G. M., Mirza, M. N. and Al-Ghamdi, K. A. (2013). Assessment of several flood estimation methodologies in Makkah metropolitan area, Saudi Arabia. Arabian Journal of Geosciences, 6(4), 985–993.
Dayan, U., Heffter, J., Miller, J. and Gutman, G. (1991). Dust intrusion events into the Mediterranean Basin. Journal of Applied Meteorology, 30, 1185–1199.
Deif, A. and El-Hussain, I. (2012). Seismic moment rate and earthquake mean recurrence interval in the major tectonic boundaries around Oman. Journal of Geophysics and Engineering, 9(6), 773–783.
Ganor, E. and Mamane, Y. (1982). Transport of Saharan dust across the eastern Mediterranean. Atmospheric Environment, 16, 581–587.
Garfunkel, Z. (1981). Internal structure of the Dead Sea leaky transform (rift) in relation to plate kinematics. Tectonophysics, 80(1), 81–108.
Girdler, R. W. (1991). The Afro-Arabian rift system – an overview. Tectonophysics, 197(2), 139–153.
Gracheva, R. and Golyeva, A. (2010). Landslides in mountain regions: hazards, resources and information. In Geophysical Hazards: Minimising Risk, Maximizing Awareness, ed. Beer, T.Dordrecht: Springer, pp. 248–260.
Grainger, D. (2007). The Geologic Evolution of Saudi Arabia. Jeddah: Saudi Geological Survey.
Groisman, P. Y., Knight, R. W., Easterling, D. R.et al. (2005). Trends in intense precipitation in the climate record. Journal of Climate, 18(9), 1326–1350.
Huntington, T. G. (2006). Evidence for intensification of the global water cycle: review and synthesis. Journal of Hydrology, 319(1–4), 83–95.
Hussein, M. T. and Zaidi, F. K. (2012). Assessing hydrological elements as key issue for urban development in arid regions. In Urban Development, ed. Polyzos, S.Rijeka, Croatia: InTech, pp. 129–158.
Ibrahim, K. M., Tarawneh, K. and Rabba, I. (2003). Phases of activity and geochemistry of basaltic dike systems in northeast Jordan parallel to the Red Sea. Journal of Asian Earth Sciences, 21(5), 467–472.
Innocenti, D. and Albrito, P. (2011). Reducing the risks posed by natural hazards and climate change: the need for a participatory dialogue between the scientific community and policy makers. Environmental Science & Policy, 14(7), 730–733.
Junge, C. (1979). The importance of mineral dust as an atmospheric constituent. In Saharan Dust, Scope 14, ed. Morales, C.New York: John Wiley and Sons, pp. 49–60.
Klinger, Y., Rivera, L., Haessler, H. and Maurin, J. C. (1999). Active faulting in the Gulf of Aqaba: New knowledge from the MW 7.3 earthquake of 22 November 1995. Bulletin of the Seismological Society of America, 89(4), 1025–1036.
Kutiel, H. and Furman, H. (2003). Dust storms in the Middle East: sources of origin and their temporal characteristics. Indoor and Built Environment, 12(6), 419–426.
Langer, C. J., Bollinger, G. A. and Merghelani, H. M. (1987). Aftershocks of the 13 December 1982 North Yemen earthquake: Conjugate normal faulting in an extensional setting. Bulletin of the Seismological Society of America, 77(6), 2038–2055.
Leroy, S. A. G. (2013). Natural hazards, landscapes, and civilizations. In Treatise on Geomorphology, vol. 13, ed. Shroder, J. F.San Diego: Academic Press, pp. 190–203.
Maghrabi, A., Al Harbi, B. and Tapper, N. (2011). Impact of the March 2009 dust event in Saudi Arabia on aerosol optical properties, meteorological parameters, sky temperature and emissivity. Atmospheric Environment, 45(13), 2164–2173.
Marchi, L., Borga, M., Preciso, E. and Gaume, E. (2010). Characterisation of selected extreme flash floods in Europe and implications for flood risk management. Journal of Hydrology, 394(1), 118–133.
Morales, C., ed. (1979). Saharan Dust, Scope 14. New York: John Wiley and Sons.
Moufti, M. R., Moghazi, A. M. and Ali, K. A. (2012). Geochemistry and Sr–Nd–Pb isotopic composition of the Harrat Al-Madinah Volcanic Field, Saudi Arabia. Gondwana Research, 21(2), 670–689.
Moufti, M. R., Moghazi, A. M. and Ali, K. A. (2013). 40Ar/39Ar geochronology of the Neogene–Quaternary Harrat Al-Madinah Intercontinental Volcanic Field, Saudi Arabia: implications for duration and migration of volcanic activity. Journal of Asian Earth Sciences, 62, 253–268.
Mukhopadhyay, B., Mogren, S., Mukhopadhyay, M. and Dasgupta, S. (2013). Incipient status of dyke intrusion in top crust – evidence from the Al-Ays 2009 earthquake swarm, Harrat Lunayyir, SW Saudi Arabia. Geomatics, Natural Hazards and Risk, 4(1), 30–48.
Nouh, M. (2006). Wadi flow in the Arabian Gulf states. Hydrological Processes, 20, 2393–2413.
Pallister, J. S., McCausland, W. A. and Jónsson, S. (2010). Broad accommodation of rift-related extension recorded by dyke intrusion in Saudi Arabia. Nature Geoscience, 3(10), 705–712.
Presidency of Meteorology and Environment (2005). First National Communication, Kingdom of Saudi Arabia, submitted to the United Nations Framework Convention on Climate Change, PME, Jeddah.
Ring, U. and Layer, P. W. (2003). High-pressure metamorphism in the Aegean, eastern Mediterranean: Underplating and exhumation from the Late Cretaceous until the Miocene to Recent above the retreating Hellenic subduction zone. Tectonics, 22(3), 1022, doi:10.1029/2001TC001350.
Rodgers, A., Walter, W., Mellors, R., Al-Amri, A. and ZhangY. (1999). Lithospheric structure of the Arabian shield and platform from complete regional waveform modeling and surface wave group velocities. Geophysical Journal International, 138(3), 871–878.
Şeber, D. and Mitchell, B. J. (1992). Attenuation of surface waves across the Arabian Peninsula. Tectonophysics, 204(1), 137–150.
Segev, A. (2005). Magmatic rocks. In Geological Framework of the Levant, vol. II, Part 4, eds. Krasheninnikov, V. A., Hall, J. K., Hirsch, F., Benjamini, C. and FlexerA.Jerusalem: Historical Productions-Hall, pp. 553–576.
Sen, Z. (2008). Wadi Hydrology. Boca Raton, FL: CRC Press.
Shaw, J. E., Baker, J. A., Menzies, M. A., Thirlwall, M. F. and Ibrahim, K. M. (2003). Petrogenesis of the largest intraplate volcanic field on the Arabian Plate (Jordan): a mixed lithosphere–asthenosphere source activated by lithospheric extension. Journal of Petrology, 44, 1657–1679.
Smirnov, A., Holben, B. N., Dubovik, O.et al. (2002). Atmospheric aerosol optical properties in the Persian Gulf. Journal of the Atmospheric Sciences, 59(3), 620–634.
Stern, R. J. and Johnson, P. (2010). Continental lithosphere of the Arabian Plate: a geologic, petrologic, and geophysical synthesis. Earth-Science Reviews, 101(1), 29–67.
Stocklin, J. (1968). Structural history and tectonics of Iran: a review. AAPG Bulletin, 52(7), 1229–1258.
Stoeser, D. B. and Camp, V. E. (1985). Pan-African microplate accretion of the Arabian Shield. Geological Society of America Bulletin, 96(7), 817–826.
Subyani, A. M. and Al-Dakheel, A. M. (2009). Multivariate geostatistical methods of mean annual and seasonal rainfall in southwest Saudi Arabia. Arabian Journal of Geosciences, 2(1), 19–27.
Trifonov, V. G., Dodonov, A. E., Sharkov, E. V.et al. (2011). New data on the Late Cenozoic basaltic volcanism in Syria, applied to its origin. Journal of Volcanology and Geothermal Research, 199, 177–192.
Weinstein, Y., Navon, O., Altherr, R. and Stein, M. (2006). The role of lithospheric mantle heterogeneity in the generation of Plio-Pleistocene alkali basaltic suites from NW Harrat Ash Shaam (Israel). Journal of Petrology, 47(5), 1017–1050.