Abstract
The Al-Hada highway that descends towards the west of the city of At-Taif is a major connecting highway in the western part of the Kingdom of Saudi Arabia. It is one of the series of descending roads connecting the holy city of Makkah and the city of Jeddah with the city of At-Taif and the cities farther south along the escarpment. The length of the Al-Hada highways is about 22 km. The Al-Hada highway has been historically exposed to landslides and other geohazards since the day it was opened to public some 60 years ago. The road has been reconstructed and many slope instabilities have been remediated and the road has been expanded to two lanes in each direction. Heavy rainfalls occurred on the 14th of April 2012 in the province of At-Taif, causing huge debris flows in two places along the Al-Hada highway. As a result of that, these debris flows closed all four lanes of the highway for 2 weeks in order to remove the debris. The current research deals with mapping of all debris flows along Al-Hada highway and determining their volumes and their impact on the road. Finally, suitable solutions have been suggested to address these critical sites to minimize and/or avoid the debris flow hazards in the future.
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References
Abo Saa’da YE (1981) Preliminary evaluation of the stability of Al-Hada rock slopes. Unpublished M.Sc. Thesis, King Abdulaziz University
Abo Saa’da YE (1990) Preliminary evaluation of the stability of Al-Hada rock slopes. Jour. K.A.U., Earth Sciences, Special Issue, Saudi Symp. Earth Sci 3:303–311
Costa JE (1984) Physical geomorphology of debris flows. In: Costa JE, Fleischer PJ (eds) Developments and applications of geomorphology (pp 268–317). Springer, Berlin
Chatwin SC, Howes DE, Schwab JW, Swanston DN (1994) A guide for management of landslide-prone terrain in the Pacific Northwest, 2nd edn. B.C. Min. For., Victoria, B.C. Land Manage. Handb. 18:220
Chatwin SC, Rollerson TP (1984) Landslide study: timber forest license 39, block 6. Report for MacMillan Bloedel Limited, Land Use Planning Advisory Team. Woodlands Services Division, Nanaimo, p 45
Church M, Miles M (1987) Meteorological antecedents to debris flow in southwestern British Columbia: some case histories. In: Costa JE, Wieczorek GF (eds) Debris flows/avalanches: process, recognition and mitigation. Reviews in Engineering Geology. Geol Soc Am VII:63–79
DeNatale JS, Fiegel GL, Iverson RM, Major JJ, LaHusen RG, Duffy JD, Fisher GD (1997) Response of flexible wire rope barriers to debris-flow loading. Proceedings of the First International Conference on Debris-Flow Hazards Mitigation
Eisbacher GH, Clague JJ (1984) Destructive mass movements in high mountains: hazard and management. Geol Surv Can 84–16:230
Evans SG (1982) Landslides and surficial deposits in urban areas of British Columbia: a review. Can Geotech J 19:269–288
Frenez T, Roth A, Kaestli A (2004) Debris flow mitigation by means of flexible barriers. Proceedings of the 10th Congress Interpraevent 2004, Trento, Italy
Gartner JE, Cannon SH, Santi PM, Dewolfe VG (2008) Empirical models to predict the volumes of debris flows generated by recently burned basins in the western U.S. Geomorphology 96:339–354
Gimbarzevsky P (1988) Mass wasting on the Queen Charlotte Islands: a regional inventory. B.C. Min. For. Victoria, B.C. Land Manage Rep 29:96
Government of Japan (1984) Basics of planning the measures against debris flows and planning countermeasure facilities against debris flow. Min Construction 1:39
Huebl J, Fiebiger G (2005) Debris flow mitigation measures. Debris-flow hazards and related phenomena, Matthias and Hung red. Springer, Berlin, pp 445–488
Hollingsworth R, Kovacs GS (1981) Soil slumps and debris flows: prediction and protection. Bull Assoc Eng Geol 18:17–28
Hungr O, Morgan GC, Kellerhals R (1984) Quantitative analysis of debris torrent hazards for design of remedial measures. Can Geotech J 21:663–677
Hungr O, Morgan GC, VanDine DF, Lister DR (1987) Debris flow defences in British Columbia. In: Costa JE, Wieczorek GF (eds) Debris flows/avalanches: process, recognition and mitigation. Reviews in engineering geology. Geol Soc Am VII:201–222
Hungr O, Evans SG, Bovis M, Hutchinson JN (2001) Review of the classification of landslides of the flow type. Environ Eng Geosci VII:221–238
Jaeger HM, Nagel SR (1992) Physics of the granular state. Science 255:1523–1531
Jaeger HM, Nagel SR, Behringer RP (1996) The physics of granular materials. Phys Today 49(4):32–38
Johnson AM (1984) Debris flow. In: Brunsden D, Prior DB (eds) Slope instability. Wiley, New York, pp 257–361
Iverson RM, Reid ME, LaHusen RG (1997) Debris flow mobilization from landslides. Annu Rev Earth Planet Sci 25:85–138
Iverson RM, Schilling SP, Vallance JW (1998) Objective delineation of lahar—inundation hazard zones. Geol Soc Am Bull 110(8):972–984
Krag RK, Sauder EA, Wellburn GV (1986) A forest engineering analysis of landslides in logged areas on the Queen Charlotte Islands, British Columbia. B.C. Min. For., Victoria, B.C. Land Manage Rep 43:138
Lo DOK (2000) Review of natural terrain landslide debris-resisting barrier design. GEO report no. 104, Geotechnical Engineering Office, Civil Engineering Department, The Government of Hong Kong Special Administrative Region
Marzouki F (1977) Petrogeneis of Al-Hada plutonic rocks, Kingdom of Saudi Arabia. Unpublished Ph.D. Thesis, University of Western Ontario
Miles MJ, Harting EA, Rollerson T, Kellerhals R (1979) Effects of the proposed Coquihalla Highway on the fluvial environment and associated fisheries resource. Report to B.C. Min. Highways and Public Works and B.C. Min. Environ., Victoria, B.C.
O’Connor JE, Hardison JHIII, Costa JE (1997) Debris flows from moraine-dammed lakes in the Three Sisters and Mt. Jefferson Wilderness Areas, Oregon. US Geol. Surv. Water- Supply Pap (in press)
ONR 24800 (2007) Schutzbauwerke der Wildbachverbauung-Begriffsbestimmungen und Klassifizierung. Austrian Standard Institute, Vienna
Pierson TC (1986) Flow behavior of channelized debris flows. Mount St. Helens. Washington. In Abra-hams AD (ed) Hillslope processes. Allen and Unwin, Boston, p 269–296
Pierson TC, Janda RJ, Thouret JC, Borrero CA (1990) Perturbation and melting of snow and ice by the 13 November 1985 eruption of Nevado del Ruiz, Columbia, and consequent mobilization, flow, and deposition of lahars. J Volcanol Geotherm Res 41:17–66
Pierson TC, Costa JE (1987) A rheologic classification of subaerial sediment-water flows. In: Costa JE, Wieczorek GF (eds) Debris flows/avalanches: process, recognition and mitigation. Reviews in Engineering Geology. Geol Soc Am VII:1–12
Prochaska AB, Santi PM, Higgins JD, Cannon SH (2008) A study of methods to estimate debris flow velocity. Landslides 5:431–444
Regmi AD, Yoshida K, Nagata H, Pradhan MS, Pradhan B, Pourghasemi H (2013) The relationship between geology and rock weathering on the rock instability along Mugling–Narayanghat road corridor, Central Nepal Himalaya. Nat Hazards. doi:10.1007/s11069-012-0497-6
Rickenmann D (1999) Empirical relationships for debris flows. Nat Hazards 19(1):47–77
Rickenmann D (2001) Estimation of debris-flow impact on flexible wire rope barriers. Unpublished internal Geobrugg report
Rimbock A, Strobl T (2002) Rope nets for woody debris entrapmentin torrents. Technical document of the Technische Universitat Muchen
Sauder EA, Krag RK, Wellburn GV (1987) Logging and mass wasting in the Pacific Northwest with application to the Queen Charlotte Islands, B.C.: a literature review. B.C. Min. For., Victoria, B.C. Land Manage Rep 53
Siebert L (1984) Large volcanic debris avalanches: characteristics of source areas, deposits, and associated eruptions. J Volcanol Geoth Res 22:163–197
Swanston DN (1974) Slope stability problems associated with timber harvesting in mountainous regions of the western United States. U.S. Dep. Agric. For. Serv., Gen. Tech. Rep. PNW-021. 14 p
Thurber Consultants Ltd (1984) Debris torrents, a review of mitigative measures. Report to B.C. Min. Transportation and Highways, Victoria, B.C
Tripp DB, Poulin VC (1986) The effects of mass wasting on juvenile fish habitats in streams on the Queen Charlotte Islands. B.C. Min. For., Victoria, B.C. Land Manage Rep 45:48
VanDine DF (1985) Debris flows and debris torrents in the southern Canadian Cordillera. Can Geotech J 22:44–68
VanDine DF (1996) Debris flow control structures for forest engineering. Res. Br., B.C. Min. For., Victoria, B.C., Work. Pap. 08/1996
Varnes DJ (1978) Slope movement types and processes. In: Schuster RL, Krizek RJ (eds) Landslides—analysis and control. Natl Acad Sci Transportation Res, Washington, DC, p 11–33, Board Special Rep. 176
Wilford DJ, Schwab JW (1982) Soil mass movements in the Rennell Sound area, Queen Charlotte Islands, British Columbia. In: Fredericton NB (ed) Proc Symp Can Hydrol, p 21
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Youssef, A.M., Pradhan, B. & Maerz, N.H. Debris flow impact assessment caused by 14 April 2012 rainfall along the Al-Hada Highway, Kingdom of Saudi Arabia using high-resolution satellite imagery. Arab J Geosci 7, 2591–2601 (2014). https://doi.org/10.1007/s12517-013-0935-0
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DOI: https://doi.org/10.1007/s12517-013-0935-0