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A review on the characteristics of sabkha soils in the Arabian Gulf Region

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Abstract

One of the most unpredictable and potentially hazardous soils in hot and arid climates is the sabkha soil. This soil is known as problematic because, upon wetting, it is susceptible to collapse due to the dissolution of cementing materials and its corrosive effects and heaves due to the salt crystallization/recrystallization process. Sabkha soil spreads along the seaboard of the Red Sea and Arabian Gulf in Saudi Arabia and may be found as muddy or sandy sabkha. This paper presents an extensive review of the origin of sabkha sediments and potential geotechnical hazards associated with the properties of sabkha soil. The ability of sabkha soil to swell was reported as this behavior was noted in some areas, which certainly increases the geotechnical problems associated with this soil. Different practical techniques to improve the properties of sabkha soil were discussed. The importance of the techniques depends mainly on the type of sabkha deposits, muddy or sandy sabkha, as well as the load conditions before construction.

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References

  • Abas H (2015) Performance and design optimization of stone column in sabkha soils. PhD thesis, King Fahd University of Petroleum and Minerals (Saudi Arabia)

    Google Scholar 

  • Abduljauwad SN, Al-Amoudi OSB (1995) Geotechnical behaviour of saline sabkha soils. Geotechnique 45:425–445

  • Abduljauwad SN, Bayomy F, Al-Shaikh AKM, Al-Amoudi OSB (1994) Influence of geotextiles on performance of saline sebkha soils. J Geotech Eng 120:1939–1960

  • Abou Al Heija MK, Shehata WM (1986) Engineering properties of Al-Lith sabkha, Saudi Arabia. In: Proe 5th Inter Congo IAEG 2. pp 935– 941

  • Abou Al-Heija MK, Shehata WM (1989) Engineering geological aspects of Al-Lith sabkha, Saudi Arabia. In: 28th International Geology Congress, Washington. vol 1, p 1–6

  • Aiban SA, Al-Amoudi OSB, Ahmed I, Al-Abdul Wahhab HI (1998) Reinforcement of a Saudi sabkha soil using geotextiles. In: Proceedings of the sixth international conference in geosynthetics. pp 805–810

  • Aiban SA, Al-Ahmadi HM, Asi IM et al (2006a) Effect of geotextile and cement on the performance of sabkha subgrade. Build Environ 41:807–820. https://doi.org/10.1016/j.buildenv.2005.03.006

    Article  Google Scholar 

  • Aiban SA, Siddiqi ZU, Baghabra Al-Amoudi OS et al (2006b) Effect of geotextiles on the load-carrying capacity and deformation characteristics of sabkha soil. Geosynth Int 13:98–110. https://doi.org/10.1680/gein.2006.13.3.98

  • Akili W (1975) Soil investigation-Sabkhat Al-Riyas, Eastern Province, Saudi Arabia, (unpublished).

  • Akili W (1981) On sabkha sands of eastern Saudi Arabia. In: Proceedings of the Geotechnical Problems in Saudi Arabia Symposium. pp 775–793

  • Akili W (2004) Foundations over salt-encrusted flats (sabkha): profiles, properties and design guidelines. In Proceedings of the fifth international conference on case histories in geotechnical engineering, New York, NY, paper (No. 1.43, p. 19)

  • Akili W, Ahmed N (1983) The sabkhas of eastern Saudi Arabia: geotechnical considerations. In Proceedings 1st Saudi Eng. Conf (Vol. 2, pp. 300-322).

  • Akili W, Torrance JK (1981) The development and geotechnical problems of sabkha, with preliminary experiments on the static penetration resistance of cemented sands. Q J Eng Geol 14:59–73

  • Al-Alawi HS, Ganiyu AA, Badr A (2020) Stabilisation of Sohar’s Sabkha soil using waste gypsum plasterboard. In IOP Conference Series: Materials Science and Engineering (Vol. 849, No. 1, p. 012028)

  • Al-Alusi N, Sharp P, Sainak A (2012) Ground improvement in sabkha, Abu Dhabi emirate, UAE. In Proc. 11th Australia new Zealand Conference on Geomechanics, At Crown Conference Centre, Melbourne, Australia. pp 698-703

    Google Scholar 

  • Al-Amoudi OSB (1992) Studies on soil-foundation interaction in the sabkha environment of Eastern Province of Saudi Arabia. PhD thesis, King Fahd University of Petroleum and Minerals (Saudi Arabia)

  • Al-Amoudi OSB (2002) Characterization and chemical stabilization of Al-Qurayyah sabkha soil. J Mater Civ Eng 14:478–484. https://doi.org/10.1061/(ASCE)0899-1561(2002)14:6(478)

  • Al-Amoudi OSB (2008) Testing and stabilization of saline sabkha soils: a review. Sixth International Conference on Case Histories in Geotechnical Engineering, paper, vol 45

    Google Scholar 

  • Al-Amoudi OSB, Abduljauwad SN (1994) Modified odometer for arid, saline soils. J Geotech Eng 120:1892–1897

  • Al-Amoudi OSB, Abduljauwad SN (1995) Compressibility and collapse characteristics of arid saline sabkha soils. Eng Geol39:185–202. https://doi.org/10.1016/0013-7952(95)00016-9

  • Al-Amoudi OSB, Abduljauwad SN, El-Naggar ZR (1992) Response of sabkha to laboratory tests: a case study. Eng Geol 33:111–125

  • Al-Amoudi OSB, Asi IM, El-Naggar ZR (1995) Stabilization of an arid, saline sabkha soil using additives. Q J Eng Geol 28:369–379. https://doi.org/10.1144/gsl.qjegh.1995.028.p4.06

  • AL-Amoudi OSB, Aiban SA, Al-Abdul Wahhab HI (1999) Variability and characteristics of eastern Saudi Sabkha soils. In: International Conference on Soil Mechanics and Foundation Engineering. pp 17–20

  • Al-ayedi ES (1996) Chemical stabilization of Al-Qurrayyah Eastern Saudi Sabkha soil chemical stabilization of Al-Qurayyah Eastern Saudi Sabkha Soil. Master thesis, King Fahd University of Petroleum & Minerals (Saudi Arabia)

    Google Scholar 

  • Al-guwaizani AS (1994) Sedimentology and geochemistry of Qurayyah Sabkha , Eastern Saudi Arabia. Master thesis, King Fahd University of Petroleum & Minerals (Saudi Arabia)

  • Al-Homidy AA, Dahim MH, Abd El Aal AK (2017) Improvement of geotechnical properties of sabkha soil utilizing cement kiln dust. J Rock Mech Geotech Eng 9:749–760. https://doi.org/10.1016/j.jrmge.2016.11.012

  • Ali SM (1999) Interface frictional characteristics of non-woven geotextile - sabkha and - sand using pull-out tests. Master thesis, King Fahd University of Petroleum and Minerals (Saudi Arabia)

    Google Scholar 

  • Ali WMEMS (2004) Studies on soil-foundation interaction in the sabkha environment of Eastern Saudi Arabia. Master thesis, King Fahd University of Petroleum and Minerals (Saudi Arabia)

    Google Scholar 

  • Ali KM, Malik I, Ibrahim AM (2015) Geotechnical properties of sabkha soil in the southern part of Al- Khobar city, KSA. Int J Eng Res Appl 5:24–29

  • Alnuaim AM (2010) Performance of foundations in sabkha soil- numerical investigation. Master thesis, The University of Western Ontario London, Ontario, Canada

    Google Scholar 

  • Alnuaim AM, El Naggar MH (2014) Performance of foundations in sabkha soil: numerical investigation. Geotech Geol Eng 32:637–656. https://doi.org/10.1007/s10706-014-9739-6

  • Alnuaim A, Alsanabani N, Alshenawy A (2020) Monotonic and cyclic behavior of salt-encrusted flat (sabkha) soil. Int J Civ Eng 19:187–198 https://doi.org/10.1007/s40999-020-00561-0

  • Al-Otaibi FA (2006) An assessment of the possibility of stabilising Sabkha soils using oil lake residue - reuse of waste materials. PhD thesis, Cardiff University, United Kingdom

    Google Scholar 

  • Alqasimi AM (1993) Improving engineering properties of sabkha soils using portland cement. PhD thesis, University of South Carolina

    Google Scholar 

  • AL-Rawas AA (2000) State-of-the-art-review of collapsible soils. Sultan Qaboos Univ J Sci [SQUJS] 5:115. https://doi.org/10.24200/squjs.vol5iss0pp115-135

  • Al-Shamrani MA (1998) Application of the Cα Cc concept to secondary compression of sabkha soils.pdf. Can Geotech J 35:15–26

  • Al-Shamrani MA (2004) Applicability of the rectangular hyperbolic method to settlement predictions of sabkha soils. Geotech Geol Eng 22:563–587. https://doi.org/10.1023/B:GEGE.0000047046.73649.04

  • Al-Shamrani MA, Dhowian AW (1995) Rheological behavior of Jazan sabkhas. The fourth Saudi engineering conference, In, pp 385–392

    Google Scholar 

  • Al-Shamrani MA, Dhowian AW (1997) Preloading for reduction of compressibility characteristics of sabkha soil profiles. Eng Geol 48:19–41

  • Al-Shayea N, Abduljauwad S, Bashir R et al (2003) Determination of parameters for a hyperbolic model of soils. Proc Inst Civ Eng: Geotech Eng 156:105–117. https://doi.org/10.1680/geng.2003.156.2.105

  • Amin A (2004) Comparative study of the geotechnical properties of the coastal Sabkhas of Saudi Arabia and their hazardous effects. Bull Eng Geol Environ 63:309–314 https://doi.org/10.1007/s10064-004-0254-5

  • Aqeel A (2016) Investigation of expansive soils in Obhor Sabkha, Jeddah-Saudi Arabia. Arab J Geosci 9(4):314

    Article  Google Scholar 

  • Arifuzzaman M, Habib MA, Al-Turki MK et al (2016) Improvement and characterization of sabkha soil of Saudi Arabia: areview. J Teknol (Sciences & Engineering) 78:1–11. https://doi.org/10.11113/jt.v78.5352

  • Basyoni MH, Aref MA (2016) Composition and origin of the sabkha brines, and their environmental impact on infrastructure in Jizan area, Red Sea Coast, Saudi Arabia. Environ Earth Sci 75:1–17. https://doi.org/10.1007/s12665-015-4913-6

  • Dhowian AW (1991) Secondary compression of sabkha " saline " soils. Eng Geol 30:155–169

  • Dhowian AW (2017) Laboratory simulation of field preloading on Jizan sabkha soil. J King Saud Univ Eng Sci 29:12–21. https://doi.org/10.1016/j.jksues.2015.09.001

  • Dhowian AW, Erol AO (1993) Ground conditions and associated structural problems in Jizan and Tabuk region. Final Report of the Contract No. AR-8-106, Research Grant Supported by King Abdulaziz City for Science and Technology (KACST)

  • Dhowian AW, Erol AO, Sultan S (1987) Settlement predictions in complex sabkha soil profiles. Bull Int Assoc EngGeol, Paris 36:11–21

    Article  Google Scholar 

  • Elias J-M (2004) Building roads on sabkha soils with geosynthetic systems. In: Proceedings of 2nd Golf Conference. Abu Dhabi, UAE, pp 1–12

    Google Scholar 

  • El-Naggar ZR (1988) Foundation problems in sabkha deposits. Short course on foundation engineering for practicing engineers CE Department, KFUPM, Dhahran, pp SD1–SD54

    Google Scholar 

  • Ghazali FM, Fatani MNY, Khan AM (1985) Geotechnical properties of sabkha soils of Jeddah and Jizan, Saudi Arabia. In Proceedings of the Second Saudi Engineering Conference: Dahran, pp 286–307

  • Hakami BA, Seif ESSA (2019a) Expansive potentiality of sabkha soils of Rabigh Lagoon, Saudi Arabia: a case study. Arab J Geosci 12(4):107. https://doi.org/10.1007/s12517-019-4271-x

  • Hakami BA, Seif ESSA (2019b) Geotechnical aspects and associated problems of Al-Shuaiba Lagoon soil, Red Sea, Saudi Arabia. Environ earth Sci 78(5):1–19. https://doi.org/10.1007/s12665-019-8136-0

  • Hausmann MR (1990) Engineering principles of ground modification

  • Hussain WAS, Awn SHA (2015) Effect of some chemical additives on the behavior of sabkha soil. J Eng Dev 19:1–17

    Google Scholar 

  • Ibrahim AA, Jibril BY (2005) Chemical treatment of sabkha in Saudi Arabia. Desalination 174:205–210. https://doi.org/10.1016/j.desal.2004.09.010

  • Ismael NF, Jeragh AM, Mollah MA, Khaldi O (1987) Factors affecting the collapse potential of calcareous desert sands. Southeast Asian Geotechnical Conference 9:147–158

    Google Scholar 

  • James AN, Little AL (1994) Geotechnical aspects of sabkha at Jubail, Saudi Arabia. Q J Eng Geol 27:83–121

  • Juillie Y, Sherwood D (1983) Improvement of Sabkhas soil of the Arabian Gulf coast. In: Proc. 8th Eur. Conf. Soil Mechanics and Foundation Engineering. Helsinki, Vol. 2, Session 7-21, pp 781–788

  • Kinsman DJJ (1969) Modes of formation, sedimentary associations, and diagnostic features of shallow-water and supratidal evaporites. AAPG Bull 53:830–840

  • Mitchell JK, Soga K (1976) Fundamentals of Soil Behavior, John Wiley&Sons. Inc., New York, 422

  • Moon JS, Jung HS, Lee S, Kang ST (2019) Ground improvement using dynamic compaction in sabkha deposit. Appl Sci 9:2506. https://doi.org/10.3390/app9122506

  • Russell RBC (1974) Chemical and physical properties of sabkha-type materials (No. TRRL SR 79 UC)

  • Sabtan AA (2005) Performance of a steel structure on Ar-Rayyas Sabkha soils. Geotech Geol Eng 23:157–174. https://doi.org/10.1007/s10706-003-5200-y

  • Sabtan AA, Shehata WM (2002) Problematic sabkha - a potential source of fresh water. Bull Eng Geol Environ 61:153–159. https://doi.org/10.1007/s100640100133

  • “Saudi Building Code National Committee” (2018) Saudi Building Code for Soils and foundations

  • Shabel I (2007) Stabilization of Jizan sabkha soil using cement and cement kiln dust. Master thesis, King Saud University, Saudi Arabia

    Google Scholar 

  • Shehata W, Al-Saafin A, Harari Z, Bader T (1990) Potential sabkha hazards in Saudi Arabia. In: Proc 6th Int IAEG Congr, pp 2003–2010

    Google Scholar 

  • Siddiqi ZU (2000) Effects of geotextiles on the load-carrying capacity of pavements on Sabkha. Master thesis, King Fahd University of Petroleum & Minerals, Saudi Arabia

    Google Scholar 

  • Sonnenfeld P, Perthuisot J-P (1984) Brines and evaporites. Academic Press, New York

    Google Scholar 

Download references

Acknowledgements

The authors thank the Deanship of Scientific Research and RSSU at King Saud University for their technical support.

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Correspondence to Wagdi M. Hamid.

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Responsible Editor: Zeynal Abiddin Erguler

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Alshenawy, A.O., Hamid, .M. & Alnuaim, A.M. A review on the characteristics of sabkha soils in the Arabian Gulf Region. Arab J Geosci 14, 2018 (2021). https://doi.org/10.1007/s12517-021-08275-w

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