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Journal of Taibah University for Science Volume 14, 2020 - Issue 1
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Research Articles

Monitoring long-term shoreline changes along Yanbu, Kingdom of Saudi Arabia using remote sensing and GIS techniques

Abdoul Jelil NiangGeography Department, Umm Al-Qura University, Makkah, Saudi ArabiaCorrespondence[email protected] [email protected]
ORCID Iconhttps://orcid.org/0000-0003-4609-6055
ORCID Icon
Pages 762-776 | Received 20 Mar 2020, Accepted 18 May 2020, Published online: 03 Jun 2020

References

  • Komar PD. Beach processes and sedimentation. 2nd ed. Englewood-Cliffs (NJ): Prentice Hall; 1998. p. 544.
  • Woodroffe CD. Coasts, form, processes and evolution. Cambridge: Cambridge University Press; 2002. p. 623.
  • Thomas T, Phillips MR, Williams AT. Mesoscale evolution of a headland bay: beach rotation process. Geomorphology. 2010;123:129–141.
  • Pranzini E., Williams AT. Coastal erosion and protection in Europe. London & New York: Earthscan/ Routledge; 2013. p. 454.
  • Thomas T, Phillips MR, Williams AT, et al. A multicentury record of linked nearshore and coastal change. Earth Surf Process Landf. 2011;36:995–1006.
  • Pethick J. The sustainable use of coasts: monitoring, modelling and management. In: Jones PS, Healy MG, Williams AT, editor. Studies in European coastal management. Cardigan: Samara Publishing Ltd; 1996. p. 83–93.
  • Esteves LS, Toldo Jr EE, Dillenburg SR. Long and short- term coastal erosion in southern Brazil. J Coast Res. 2002;SI35:273–282.
  • Balica SF, Wright NG, Van der Meulen F. A flood vulnerability index for coastal cities and its use in assessing climate change impacts. Nat Hazards. 2012;64(1):73–105.
  • Bagli S, Soille P. Morhological automatic extraction of Pan-European coastline from Landsat ETM + images. International Symposium on GIS and Computer Cartography for Coastal Zone Management, October, Genova; 2003.
  • Mills JP, Buckley SJ, Mitchell HL, et al. A geomatics data integration technique for coastal change monitoring. Earth Surf Processes Landforms. 2005;30:651–664.
  • Williams AT, Pond K, Ergin A, et al. The hazards of beach litter. In: Finkl CW, editor. Coastal hazards. Dordrecht: Springer; 2013. p. 753–780.
  • Granja HM, Carvalho GS. Inland beach migration (beach erosion) and the coastal zone management (Experience of the northwest coastal zone of Portugal). Period Biology. 2000;102:413–424.
  • Zhang K, Huang W, Douglas BC, et al. Shoreline position variability and long-term trend analysis. Shore Beach. 2002;70:31–35.
  • Esteves LS, Williams JJ, Dillenburg SR. Seasonal and inter-annual influences on the patterns of shoreline changes in Rio Grande do Sul. southern Brazil. J Coast Res. 2006;22(5):1076–1093.
  • Dobroniak C, Anthony EJ. Short-term morphological expression of dune sand recycling on a microtidal, wave-exposed estuarine shoreline. J Coast Res. 2002;SI35:240–248.
  • Newsham R, Belson PS, Tragheim DG, et al. Determination and prediction of sediment yields from recession of the holderness coast, N.E. England. J Coast Conserv. 2002;8:49–54.
  • Silva JF, Duck RW. Changing use and hydromorphological adjustment in a coastal lagoon-estuarine system, the Ria de Aveiro, Portugal. Sediment Dyn Hydromorphology Fluvial Syst. 2006;306:197–204.
  • Moore LJ. Shoreline mapping techniques. J Coast Res. 2000;16(1):111–124.
  • El-Raey M, Sharaf El-Din SH, Khafagy AA, et al. Remote sensing of beach erosion/accretion patterns along Damietta–port Said shoreline, Egypt. Int J Remote Sens. 1999;20:1087–1106.
  • Liu H, Jezek KC. Automated extraction of coastline from satellite imagery by integrating canny edge detection and locally adaptive thresholding methods. Int J Remote Sens. 2004;25(5):937–958.
  • Douglas BC, Crowell M. Long-term shoreline position predictions and error propagation. J Coast Res. 2000;16(1):145–152.
  • Pajak MJ, Leatherman S. The high water line as shoreline indicator. J Coast Res. 2002;18(2):329–337.
  • Leatherman SP. Shoreline change mapping and management along the U.S. east coast. J Coast Res. 2003;SI38:5–13.
  • Parker BB. The difficulties in measuring a consistently defined shoreline – the problem of vertical referencing. J Coast Res. 2003;SI38:44–56.
  • Rogers, J., Hamer, B., Brampton, A., et al. Beach management manual. 2nd ed. London: CIRIA; 2010. p. 915.
  • Al-Sheikh A. Management of environmental degradation of Jeddah coastal zone, Saudi Arabia, using remote sensing and geographic information systems. J Am Sci. 2011;7(5):665–673.
  • Alharbi OA, Williams AT, Phillips MR, et al. Textural characteristics of sediments along the southern Red Sea coastal areas, Saudi Arabia. Arab J Geosci. 2016;9(19):735.
  • Alharbi OA, Phillips MR, Williams AT, et al. Temporal shoreline change and infrastructure influences along the southern Red Sea coast of Saudi Arabia. Arab J Geosci. 2017;10(16):360.
  • Al-Dubai Talha A, Bantan RA, Abu-Zeid RH, et al. Environmental assessment of coastal degradation of Southern Corniche of Jeddah coast (Saudi Arabia), using remote sensing and GIS Conference: JPGU-AGU Joint meeting.
  • Nofal RAE, Abboud IA. Sea level changes of Sharm Yanbu and its expected impacts on development processes using GIS and remote sensing. J Taibah U Sci. 2019;13(1):547–558. doi:10.1080/16583655.2019.1605653.
  • Abu-Ouf M, EI-Shater A. The relationship between the environmental conditions of the Jeddah coast, Red Sea, and benthic foraminifera. J. K.A. U. Mar. Sci. 1991;2:49–64.
  • Al-Modayan AA. Utilizing GIS in flash flooding risk assessment in urban environment with reference to Yanbu and Rabigh cities, western Saudi Arabia. JAKU: Earth Sci. 2012;23(1):67–83.
  • Youssef AM, Sefry SA, Pradhan B, et al. Analysis on causes of flash flood in Jeddah city (kingdom of Saudi Arabia) of 2009 and 2011 using multi-sensor remote sensing data and GIS. Geomatics, Nat Hazards Risk. 2016;7(3):1018–1042. doi:10.1080/19475705.2015.1012750.
  • Rasul Najeeb MA, Stewart Ian CF. The Red sea. In: Pugh DT, Abualnaja Y, editors. The formation, morphology, oceanography and environment of a young ocean basin in sea-level changes. Berlin: Springer-Verlag; 2015. p. 317–328.
  • Royal Commission for Jubail and Yanbu. (2016). Yanbu Industrial City 1st Q. Economic Review 2016. Report #23, 30p.
  • Alyousef K, Al-Amri A, Fnais M, et al. Site effect evaluation for Yanbu city urban expansion zones, western Saudi Arabia, using microtremor analysis. Arab J Geosci. 2015;8:1717–1729. DOI 10.1007/s12517-014-1310-5.
  • Almadani S, Al-Amri A, Fnais M, et al. Seismic hazard assessment for Yanbu metropolitan area, western Saudi Arabia. Arab J Geosci. 2015;8:9945. doi:10.1007/s12517-015-1930-4.
  • Dumper M, Stanley BE, editors: foreword by Janet L. Abu-Lughod. Cities of the Middle East and north Africa: a historical encyclopedia. Santa Barbara (CA): ABC-CLIO; 2007. p. 439.
  • Short AD, Masselink G. Embayed and structurally controlled beaches. In: Short AD, editor. Handbook of beach and shoreface morphodynamics. Chichester: John Wiley and Sons Ltd; 1999. p. 230–250.
  • Carter RWG. Coastal environments, an introduction to the physical, ecological and cultural systems of coastlines. London: Academic Press; 1988. p. 617.
  • Monnier O, Guilcher A. Le Sharm Abhur, ria récifale du Hedjaz, mer Rouge: géomorphologie et impact de l'urbanisation. Annales de Géographie. 1993;102(569):1–16.
  • Subyani AM, Al-Modayan AA, Al-Ahmadi FS. Topographic, seasonal and aridity influences on rainfall variability in western Saudi Arabia. J Environ Hydrol. 2010;18(2):1–11.
  • Madah F, Mayerle R, Bruss G, et al. Characterises of tides in The Red Sea region, a Numerical Model study. Open J Mar Sci. 2015;5(2):193.
  • Crowell M, Leatherman SP, Buckley MK. Historical shoreline change: error analysis and mapping accuracy. J Coast Res. 1991;7(3):839–852.
  • Wernette P, Shortridge A, Lusch DP, et al. Accounting for positional uncertainty in historical shoreline change analysis without ground reference information. Int J Remote Sens. 2017;38(13):3906–3922. doi:10.1080/01431161.2017.1303218.
  • Zhang X, Pan D, Chen J, et al. Evaluation of coastline changes under human Intervention using multi-temporal high-resolution images: a case study of the Zhoushan islands, China. Remote Sens. 2014;2014(6):9930–9950.
  • Hapke CJ, Himmelstoss EA, Kratzmann MG, et al. National assessment of shoreline change: historical shoreline change along the New England and Mid-Atlantic coasts: U.S. Geological Survey Open-File Report 2010-1118; 2011. p. 57.
  • Chenthamil Selvan S, Kankara RS, Rajan B. Assessment of shoreline changes along Karnataka coast, India using GIS & remote sensing techniques. Indian J Mar Sci. 2014;43(7):1286–1291.
  • Himmelstoss EA, Henderson RE, Kratzmann MG, et al. Digital shoreline analysis system (DSAS) version 5.0 user guide: U.S. Geological Survey Open-File Report 2018–1179; 2018, p. 110. https://doi.org/10.3133/ofr20181179.
  • Mullick MRA, Islam KMA, Tanim AH. Shoreline change assessment using geospatial tools: a study on the Ganges deltaic coast of Bangladesh. Earth Sci Inform. 2019. doi: 10.1007/s12145-019-00423-
  • Himmelstoss EA, Kratzmann MG, Thieler ER. National assessment of shoreline change—Summary statistics for updated vector shorelines and associated shoreline change data for the Gulf of Mexico and Southeast Atlantic coasts: U.S. G SOpen-File Report (2017)–1015; 2017.
  • Abdu MS, Salagoor JY, An-Nwisser Al-Harigi F. Jeddah urban growth and development process: the underlying factors. Sci J King Faisal U (Basic and Applied Sciences). March 2002;3(1):111–136. Dhu Al Hajjah 1422:.
  • Khan MA, Kumar A. Impact of “urban development” on mangrove forests along the west coast of the Arabian Gulf. Earth Sci India. 2009;2(3):159–173.
  • Spalding M, Green E, Ravilious C. World atlas of coral reefs. Berkeley: University of California Press; 2001.
  • Tortel P. Thoughts on integrated high-resolution images: a case study of the Zhoushan islands, China. Remote Sens. 2014;6:9930–9950.
  • Bakur Hariri MS. The present status of the Red sea coral reefs between Haql and Yanbu, Saudi Aarabia. Life Sci J. 2012;9(4):3852–3859.
  • Luijendijk A, Roshanka GH, GennadiiDonchyts FB, et al. The state of the world’s beaches. Sci Rep. 2018;8 (1). doi: 10.1038/s41598-018-24630-6
  • Aina YA, Aleem KF. Assessing the vulnerability of an industrial city to predicted sea level rise using SRTM and GPS Observations: the case of Yanbu, Saudi Arabia. Int J Geoinform. September 2014;10(3):73–81.

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