Abstract
The Sultanate of Oman overlooks three water bodies: The Arabian Sea, the Sea of Oman and the Arabian Gulf with a coastal face of more than 3000 km. Due to the recent global climate change, storm intensity has increased and inundation of coastal areas is inevitable. The pattern of coastal flooding depends on the geomorphologic and oceanographic characteristics of the coastal zone. The current research aims to delineate the susceptibility of Omani coast to the sudden sea level rise from cyclones and tsunamis using the coastal vulnerability index (CVI). Five physical parameters were implemented to perform the CVI, namely: The coastal geomorphology, elevation, slope, tidal range and bathymetry of the nearshore zone. Data were extracted from remotely sensed images and government resources assisted by field surveying. Geospatial analysis using geographical information system (GIS) was performed to manipulate and process the CVI from the collected data. Results showed that high vulnerable coastal regions to sea level rise account for 805 km of the coast, mostly along Al-Batinah plain in the north and along some scattered sectors at the eastern coast of the country. Major settlements and infrastructures are located at high CVI category. Moderate vulnerable coasts total 695 km mostly at the headlands along the Arabian Sea, whereas the low vulnerability coasts include the remaining shores along Musandam Peninsula and the eastern coast. This study provides a national map of the coastal vulnerability to the sea level rise, which is important for urban planning and decision supports for a sustainable management of Omani coastal zone.
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References
Ahammed B, Mahendra RS, Pandey AC (2016) Coastal vulnerability assessment for Eastern Coast of India, Andhra Pradesh by using geo-spatial technique. Geoinf Geostat Overv 4:3
Al-Hatrushi S (2017) Morphology of the raised shore platforms along the coastline between Daghmar and Dhabab, Sultanate of Oman. J Arts Soc Sci 8:13–24
Al-Hatrushi S, Kwarteng A, Sana A, Al-Buloushi A, MacLachlan A, Hamed K (2014) Coastal erosion in Al Batinah. Sultan Qaboos University, Academic Publication Board, Muscat
Al-Sariri T (2014) Coastal zone and climate change management in Oman. Ph.D. Dissertation, University of Surrey, UK
Boruff BJ, Emrich C, Cutter SL (2005) Erosion hazard vulnerability of US coastal counties. J Coast Res 21(5):932–942
Browning J, Thomas N (2016) An assessment of the tsunami risk in Muscat and Salalah, Oman, based on estimations of probable maximum loss. Int J Disaster Risk Reduct 16:75–87
IPCC (2007) Climate change 2007: impacts, adaptation and vulnerability. Contribution of working group II to the fourth assessment report of the intergovernmental panel on climate change. In: Parry ML, Canziani OF, Palutikof JP, van der Linden PJ, Hanson CE (eds) Cambridge University Press, Cambridge, UK
IPCC (2013) Summary for policy makers. Climate change 2013: the physical science basis. Contribution of working group i to the fifth assessment report of the intergovernmental panel on climate change. In: Stocker TF, Qin D, Plattner G-K, Tignor M, Allen SK, Boschung J, Nauels A, Xia Y, Bex V, Midgley PM (eds) Cambridge University Press, Cambridge, UK
Carayannis GP (2006) The potential of Tsunami generation along the Makran Subduction Zone in Northern Arabian Sea. Case study: the earthquake and tsunami of November 28, 1945. Sci Tsunami Hazards 24:358–384
Claereboudt M (2019) Oman. In: Sheppard C (ed) World seas: an environmental evaluation, V. II: the Indian Ocean to the Pacific. Elsevier Ltd, Amsterdam
Didenkulova I, Pelinovsky E (2011) Runup of tsunami waves in u-shaped bays. Pure Appl Geophys 168:1239
Djouder F, Boutiba M (2017) (2017) Vulnerability assessment of coastal areas to sea level rise from the physical and socioeconomic parameters: case of the Gulf Coast of Bejaia, Algeria. Arab J Geosci 10:299
Duriyapong F, Nakhapakorn K (2011) Coastal vulnerability assessment: a case study of Samut Sakhon coastal zone. Songklanakarin J Sci Technol 33:469–476
Dwarakish GS, Vinay SA, Natesan U, Asano T, Kakinuma T, Venkataramana K, Babita MK (2009) Coastal vulnerability assessment of the 628 future sea level rise in Udupi coastal zone of Karnataka state, west coast of India. Ocean Coast Manag 52:467–478
Finkl C (2004) Coastal classification: systematic approaches to consider in the development of a comprehensive scheme. J Coast Res 20:166–213
Fritz HM, Blount CD, Albusaidi FB, Al-Harthy AH (2010) Cyclone Gonu storm surge in Oman. Estuar Coast Shelf Sci 86(2010):102–106
Geist E, Parsons T (2006) Probabilistic analysis of tsunami hazards. Nat Hazards 37(2006):277–314
Ghoussein Y, Mhawej M, Jaffalb A, Fadel A, El Hourany R, Faour G (2018) Vulnerability assessment of the South-Lebanese coast: a GIS-based approach. Ocean Coast Manag 158:56–63
Gornitz V (1990) Vulnerability of the East Coast, USA to future sea level rise. J Coast Res 9:201–237
Haggag M, Badry H (2012) Hydrometeorological modeling study of tropical cyclone phet in the Arabian Sea in 2010. Atmos Clim Sci 2:174–190
Hammar-Klose ES, Pendleton EA, Thieler ER, Williams SJ (2003) Coastal vulnerability assessment of Cape Cod national seashore (CACO) to sea-level rise, US Geological Survey, Open file Report 02–233
Haselsteiner 2011. Flood protection and groundwater recharge in the Batinah region in Oman. In: Interntaional conference on drought management stratigies in arid and semi-arid regions, Muscat, Oman, 11–14 December 2011
Heidarzadeh M, Pirooz M, Zaker N, Yalciner A (2009) Preliminary estimation of the tsunami hazards associated with the Makran subduction zone at the northwestern Indian Ocean. Nat Hazards 48:229–243
Hereher M (2015a) Coastal vulnerability assessment for Egypt’s Mediterranean coast. Geom Nat Hazards Risk 6:342–355
Hereher M (2015b) Assessment of South Sinai coastal vulnerability to climate change. J Coast Res 31(6):1469–1477
Hereher M (2015c) Assessment of Egypt’s Red Sea coastal sensitivity to climate change. Environ Earth Sci 74:2831–2843
Hereher M (2016) Vulnerability assessment of the Saudi Arabian Red Sea coast to climate change. Environ Earth Sci 75(30):1–13
Hereher M (2020a) Assessment of infrastructure vulnerability to tsunamis upon the coastal zone of Oman using GIS. Geosciences 10(5):175
Hereher M (2020b) Assessment of climate change impacts on sea surface temperatures and sea level rise—the Arabian Gulf. Climate 8(4):50
Hereher M and Al-Awadhi T (2019) Remote sensing of coastal ecosystems using spectral indices. In: Proceedings of the 3rd international conference on vision, image and signal processing (ICVISP), Vancouver, BC, Canada, August 2019. Association for Computing Machinery. https://doi.org/10.1145/3387168.3387174
Hoque M, Ahmed N, Pradhan B, Royd S (2019) Assessment of coastal vulnerability to multi-hazardous events using geospatial techniques along the eastern coast of Bangladesh. Ocean Coast Manag 181:104898
Keller E (2012) Introduction to environmental geology, 5th edn. Pearson Prentice Hall, New Jersey
Khouakhi A, Snoussi M, Niazi S, Raji O (2013) Vulnerability assessment of Al Hoceima bay (Moroccan Mediterranean coast): a coastal management tool to reduce potential impacts of sea-level rise and storm surges. J Coast Res 65(sp1):968–973
Kindle JC, Arnone RA (2001) A review of the surface circulation of the northern Arabian Sea. In: Claereboudt M et al (eds) Proceedings of the 1st international conference on fisheries, aquaculture and environment in the NW Indian Ocean. Sultan Qaboos University, Muscat, Oman, pp 113–122
Kumar T, Mahendra RS, Nayak S, Radhakrishnan K, Sahu VK (2010) Coastal vulnerability assessment for Orissa State, East coast of India. JCR 26:523–534
Kwarteng A, Al-Hatrushi S, Illenberger W, McLachlan A, Sana A, Al-Buloushi A, Hamed K (2016) Beach erosion along Al Batinah coast, Sultanate of Oman. Arab J Geosci 9:85
Maanan M, Maanan M, Rueff H, Adouk N, Zourarah B, Rhinane H (2018) Assess the human and environmental vulnerability for coastal hazard by using a multi-criteria decision analysis. Hum Ecol Risk Assess. https://doi.org/10.1080/10807039.2017.1421452
Mettraux M, Homewood PW, Kwarteng AY, Mattner J (2011) Coastal and continental sabkhas of Barr Al Hikman, Sultanate of Oman. Int Assoc Sedimentol Spec Publ 43:183–204
Mukul M, Srivastava V, Jade S, Mukul M (2017) Uncertainties in the Shuttle Radar Topography Mission (SRTM) heights: insights from the Indian Himalaya and Peninsula. Sci Rep 7:41672
NCSI (2011) National Center for statistical information. Census 2010: final results. The Sultanate of Oman.
Oman Maritime Book (2014) Oman National Hydrographic Office. Royal Navy of Oman, Sultanate of Oman
Panahi F, Asadollahi R, Asadollahi M, Bafarani A (2010) Experience of cyclone Gonu in the Islamic Republic of Iran: lessons learned. East Mediterranean Health J 16:1290–1294
Pantusa D, D’Alessandro F, Riefolo L, Principato F, Tomasicchio G (2018) Application of a coastal vulnerability index. A case study along the Apulian Coastline, Italy. Water 10:1218. https://doi.org/10.3390/w10091218
Park J, Anderson K, Aster R, Butler R, Lay T, Simpson D (2005) Global seismographic network records the great Sumatra-Andaman earthquake. EOS Trans Am Geophys Union 86(6):57–64
Pendleton EA, Thieler ER, Jeffress SW (2005) Coastal vulnerability assessment of golden gate national recreation area to sea-level rise (Open-File Report no. 2005–1058). United States Geological Survey, Reston
Pfeer WT, Harper JT, O’Neel SJS (2008) Kinematic constraints on glacier contributions to 21st-century sea-level rise. Science 321:1340–1343
Rao KN, Subraelu P, Rao T, Malini B, Ratheesh R, Bhatta-charya S, Rajawat A (2008) Sea-level rise and coastal vulnerability: an assessment of Andhra Pradesh coast, India through remote sensing and GIS. J Coast Conserv 12(4):195–207
Short AD (1991) Macro–meso tidal beach morphodynamics—an overview. J Coast Res 7:417–436
Thieler ER, Hammar-Klose ES (1999) National assessment of coastal vulnerability to sea-level rise, US Atlantic coast (Open-File Report no. 99593, 1 sheet). United States Geological Survey, Woods Hole
Thieler ER and Hammar-Klose ES (2000) National assessment of coastal vulnerability to sea-level rise: preliminary results for the US. Pacific Coast, Open-File Report 00-178, 1 sheet. US Geological Survey
Vermeer M, Rahmstorf S (2009) Global sea level linked to global temperature. PNAS 106(51):21527–21532
Vita-Finzi C (1973) The Musandam expedition 1971–1972 Scientific results: Late Quaternary subsidence. Geogr J 139:414–421
Williams SJ (2013) Sea-level rise implications for coastal regions. J Coast Res 63:184–196
Wimpol Ltd. (1986) A review of the physical and chemical oceanography of Oman, vol 1. Council for Conservation of the Environment and Water Resources, Muscat, p 23
Acknowledgements
This research was funded by the Sultan Qaboos University HM Trust Fund (Project# SR/ART/GEOG/17/01). Authors also acknowledge the comments of two anonymous reviewers.
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Hereher, M., Al-Awadhi, T., Al-Hatrushi, S. et al. Assessment of the coastal vulnerability to sea level rise: Sultanate of Oman. Environ Earth Sci 79, 369 (2020). https://doi.org/10.1007/s12665-020-09113-0
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DOI: https://doi.org/10.1007/s12665-020-09113-0