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The Spatial Distribution Pattern of Surficial Sediment in Shiab Al-Kabeer, a Shoal in the Red Sea of Saudi Arabia

  • Najeeb M. A. Rasul
  • Abdulnasser S. Al-Qutub
Chapter

Abstract

A unique feature commonly referred to as a ‘shoal’, called Shiab Al-Kabeer, is located in the Red Sea offshore from Saudi Arabia. It is made up mainly of live and dead corals with over 90% calcium carbonate material largely contributed by the corals. Aeolian quartz from the adjacent deserts and fluvial material derived from numerous wadis during flood discharge make up a small part of the sediment veneer. The shoal is inhabited by various fauna and flora exclusive to the Red Sea. Bio-eroders such as grazers, borers and burrowers, especially some species of fish like parrotfish and shrimp-gobies, create cavities and holes in the shoal area, and generate new sediment by excavating the cavities, forming mounds on the sea bed. Apart from being an excellent ground for spawning, the shoal is also used for overnight dwelling by picnickers, as an anchorage for small boats, as a nesting ground for seabirds, and is an attractive site for marine tourism (SCUBA diving). The shoal undergoes a degree of stress either through human activities or natural processes. However, the clear and uncontaminated water keeps the sub-environment of the shoal healthy, although minor irreversible processes caused by contamination might be of some concern. Some coral debris, molluscs, and foraminiferal sand are stained black, because of precipitation of free pyrite in a reducing environment caused by weak currents and quiescent conditions, in the presence of plant and organic debris, mainly algae and sea-grass. The dynamics and shape of the shoal are controlled primarily by water currents generated either by wind or by tidal cycles, breaking waves and physical factors related to human activities.

Notes

Acknowledgements

We wish to thank the Saudi Geological Survey for giving us the opportunity to use the data that were generated under the technical work program, and data used in a Master’s thesis. We would also like to express our thanks to Dr. Marco Taviani and Dr. Ramadan Abu-Zeid in helping us in the identification of biogenic components. We also wish to extend our thanks to Drs. G. Owen, J. Coakley, N. Hashimi, G. Bailey, A. Khalik and A. Rushdi for reviewing the chapter. Many discussions with Dr. I. Stewart and his comments helped us tremendously in compiling this research. Louiesito Abalos is thanked for helping us in formatting the chapter. Special thanks to all the members of the Center for Marine Geology and colleagues at Saudi Geological Survey for helping us in the field and laboratory work.

References

  1. Abou-Ouf MA, El Shater A (1993) Black benthic foraminifera in carbonate facies of a coastal sabkha, Saudi Arabian Red Sea coast. J Fac Mar Sci King Abdulaziz Univ 4:133–141CrossRefGoogle Scholar
  2. Al-Washmi HA, Rasul NM (2003) Sedimentary processes of the Quaternary sediments of Al-Kharrar Lagoon, Red Sea, Saudi Arabia. J Environ Sci Univ Mansoura Egypt 26(1):273–296Google Scholar
  3. Bahafzalah AAK, El Askary MA (1981) Sedimentological and micropaleontological investigations of the beach sands around Jeddah, Saudi Arabia. Bull Fac Earth Sci KAU 4:25–42Google Scholar
  4. Behairy AKA, El-Sayed MKh (1984) Carbonate cements in modern Red Sea reef, north of Jeddah, Saudi Arabia. Mar Geol 58:443–450CrossRefGoogle Scholar
  5. Behairy AKA, Jaubert J (eds) (1984) Ecology of a coral reef complex and of an inshore lagoon near Sharm Obhur, Red Sea, Saudi Arabia. Final Report, KAU. FMS/UN 163 p (unpublished)Google Scholar
  6. Behairy AKA, El-Rayis OA, Ibrahim AM (1983) Preliminary investigations of some heavy metals in water, sediments and plankton in Obhur Creek (eastern Red Sea). J Fac Mar Sci King Abdulaziz Univ 3:129–139Google Scholar
  7. Behairy AKA, Rao DNVN, El-Shater A (1991) A siliciclastic coastal sabkha, Red Sea Coast, Saudi Arabia. J Fac Mar Sci King Abdulaziz Univ 2:65–77CrossRefGoogle Scholar
  8. Behairy AKA, Sheppard CRC, El-Sayed MK (1992) A review of the geology of coral reefs in the Red Sea. UNEP Regional Seas Reports and Studies No. 152, 39 pGoogle Scholar
  9. Bruckner A, Dempsey CA (2015) The status, threats, and resilience of reef-building corals of the Saudi Arabian Red Sea. In: Rasul NMA, Stewart ICF (eds) The Red Sea: the formation, morphology, oceanography and environment of a young ocean basin. Springer Earth System Sciences, Berlin, pp 471–486Google Scholar
  10. Bruckner A, Rowlands G, Riegl B, Purkis S, Williams A, Renaud P (2011) Khaled bin Sultan Living Oceans Foundation atlas of Saudi Arabian Red Sea marine habitats. Panoramic Press, Phoenix, Arizona, 274 pGoogle Scholar
  11. Bruckner A, Rowlands G, Riegl B, Williams A, Renaud P (2012) Khaled bin sultan living oceans foundation atlas of Saudi Arabian Red Sea marine habitats. Panoramic Press, 262 pGoogle Scholar
  12. Crossland CJ (1987) In situ release of mucus and DOC-lipid from the corals Acropora variabilis and Stylophora pistillata in different light regimes. Coral Reefs 6:35–42CrossRefGoogle Scholar
  13. Cummins RA (1979) Ecology of gobiid fishes associated with alpheid shrimps at one tree reef. PhD thesis, University of Sydney, Sydney, Australia, 252 pGoogle Scholar
  14. De Vantier L, Pilcher N (2000) The status of coral reefs in Saudi Arabia. In: Global Coral Reef Monitoring Network (GCRMN)Google Scholar
  15. De Vantier L, Turak E, Al-Shaikh K, De′ath G (2000) Coral communities of the central-northern Saudi Arabian Red Sea. Fauna Arab 18:23–66Google Scholar
  16. Dudley WC (2003) Coral reef sedimentology. Kalakua Marine Education Center, University of Hawaii, Hilo, Hawaii. Marine Science Course 461Google Scholar
  17. Edwards FJ (1987) Climate and oceanography. In: Edwards AJ, Head SM (eds) The Red Sea. Pergamon Press, Oxford, pp 45–68CrossRefGoogle Scholar
  18. El-Sayed SZ (1984) Productivity of the Antarctic waters—a reappraisal. In: Holm-Hansen O, Bolis L, Gllles R (eds) Marine phytoplankton and productivity. Springer, Berlin, pp 19–34CrossRefGoogle Scholar
  19. El-Sayed MK, Hosny CF (1980) Sediments of the intertidal zone off Ghardaqa, Red Sea, Egypt. In: Proceedings of the symposium on coastal and marine environments of the Red Sea, KhartoumGoogle Scholar
  20. Farrow GE (1971) Back-reef and lagoonal environments of Aldabra atoll distinguished by their crustacean burrows. Symp Zool Soc Lond 28:455–500Google Scholar
  21. Fishelson I (1971) Ecology and distribution of the benthic fauna in the shallow waters of the Red Sea. Mar Biol 10:113–133CrossRefGoogle Scholar
  22. Folk RL (1980) Petrology of sedimentary rocks. Hemphill’s, Austin, Texas, 182 pGoogle Scholar
  23. Friedman G (1968) Geology and geochemistry of reefs carbonate sediments, and waters, Gulf of Aqaba (Elat), Red Sea. J Sed Petrol 38(2):895–919Google Scholar
  24. Jado AR, Hötzl H (1984) Quaternary period in Saudi Arabia. Springer, 361 pGoogle Scholar
  25. Jado AR, Hötzl, H Boscher B (1989) Development of sedimentation along the Saudi Arabian Red Sea coast. J Earth Sci King Abdulaziz Univ 3:863–888CrossRefGoogle Scholar
  26. Karplus I (1987) The association between gobiid fishes and burrowing alpheid shrimps. Oceanogr Mar Biol Ann Rev 25:507–562Google Scholar
  27. Karplus I, Szlep R, Tsurnamal M (1974) The burrows of alpheid shrimp associated with gobiid fish in the northern Red Sea. Mar Biol 24:259–268CrossRefGoogle Scholar
  28. Klaus R (2015) Coral reefs and communities of the central and southern Red Sea (Sudan, Eritrea, Djibouti, and Yemen). In: Rasul NMA, Stewart ICF (eds) The Red Sea: the formation, morphology, oceanography and environment of a young ocean basin. Springer Earth System Sciences, Berlin, pp 409–451Google Scholar
  29. Le Corre (1983) Dosage du carbone organique paticulaire. In: Aminot A, Chaussepeid M (eds) Manuel des analyses chimiques en milieu marin. CNEXO, France, pp 203–208Google Scholar
  30. Levy Y (1977) The origin and evolution of brine in coastal sabkhas, northern Sinai. J Sediment Petrol 47(1):451–462Google Scholar
  31. Maiklem WR (1967) Black and brown speckled foraminiferal sand from the southern part of the Great Barrier Reef. J Sediment Petrol 37:1023–1030CrossRefGoogle Scholar
  32. Mason C, Folk RL (1958) Differentiation of beach dune and aeolian flat environment by size analysis, Mustang Island, Texas. J Sediment Petrol 28:211–226Google Scholar
  33. Maul GA (1996) Small islands: marine science and sustainable development. Coastal and Estuarine Studies, American Geophysical Union, Washington, DC, 467 pGoogle Scholar
  34. Mergner H (1971) Structure, ecology and zonation of Red Sea reefs. Symp Zool Soc Lond 28:141–161Google Scholar
  35. Ormond RFG, Shepherd AR, Price ARG, Pitts JR (1984) Report on the distribution of habitats and species in the Saudi Arabian Red Sea. No. 1. Kingdom of Saudi Arabia. IUCN/MEPAGoogle Scholar
  36. Rao DNVN, Behairy AKA (1986) Nature and composition of shore-zone sediments between Jeddah and Yanbu, eastern Red Sea. Mar Geol 70:287–305CrossRefGoogle Scholar
  37. Rasul NMA (1992) Late Quaternary to present day coarse-grained sedimentation of the Indus fluvial-marine system. PhD thesis (unpublished), University of Wales, 248 pGoogle Scholar
  38. Rasul NM (2015) Lagoon sediments of the eastern Red Sea: distribution processes, pathways and patterns. In: Rasul NMA, Stewart ICF (eds) The Red Sea: the formation, morphology, oceanography and environment of a young ocean basin. Springer Earth System Sciences, Berlin, pp 281–316Google Scholar
  39. Rasul N, Al-Nomani S, Al-Hazmi O, Widinly N, Qutub A, Bantan R (2009) Bathymetric survey in Sharm Obhur. Saudi Geological Survey Technical Report SGS-TR-2008-11, 15 pGoogle Scholar
  40. Rasul NMA, Abushosha M, Al-Hazmi O, Al-Nomani S, Bahareth F, Widinly N, Akbar A, Qutub AS, Farawati R (2010) Bathymetric survey and ground-truthing of the Al-Kharrar lagoon, Red Sea coast of Saudi Arabia. Saudi Geological Survey Technical Report SGS-TR-2008-8, 77 pGoogle Scholar
  41. Rasul NMA, Stewart ICF, Nawab ZA (2015) Introduction to the Red Sea: its origin, structure, and environment. In: Rasul NMA, Stewart ICF (eds) The Red Sea: the formation, morphology, oceanography and environment of a young ocean basin. Springer Earth System Sciences, Berlin, pp 1–28Google Scholar
  42. Rasul NMA, Al-Kotob AN, Al-Nomani, S (2017) Geological and oceanographical studies of the coastal waters of Rabigh and Masturah regions, SGS Technical Report (submitted)Google Scholar
  43. Rowlands G, Purkis SJ (2015) The geomorphology of shallow water coral reef environments in the Red Sea. In: Rasul NMA, Stewart ICF (eds) The Red Sea: the formation, morphology, oceanography and environment of a young ocean basin. Springer Earth System Sciences, Berlin, pp 395–408Google Scholar
  44. Rowlands G, Purkis SJ, Bruckner A (2014) Diversity in the geomorphology of shallow-water carbonate depositional systems in the Saudi Arabian Red Sea. Geomorphology.  https://doi.org/10.1016/j.geomorph.2014.03.014CrossRefGoogle Scholar
  45. Schlee J, Uchupi E, Trumbull JVA (1964) Statistical parameters of Cape Cod beach and eolian sands. US Geological Survey Professional Paper 501-D, pp D118–D122Google Scholar
  46. Sea Around Us (2007) A global database on marine fisheries and ecosystems. Fisheries Centre, University of British Columbia, Vancouver, Canada. www.seaaroundus.org/lme/SummaryInfo.aspx?LME=33
  47. Shepard FP, Young R (1961) Distinguishing between beach and dune sands. J Sediment Petrol 31(2):196–214Google Scholar
  48. Sheppard CRC, Sheppard ALS (1991) Corals and coral communities of Arabia. Fauna of Saudi Arabia 12:3–170Google Scholar
  49. Sheppard C, Price A, Roberts C (1992) Marine ecology of the Arabian region: patterns and processes in the extreme tropical environments. Academic Press, The NetherlandsGoogle Scholar
  50. Solohub JT, Klovan JE (1970) Evaluation of grain-size parameters in lacustrine environments. J Sediment Petrol 40:81–101Google Scholar
  51. Sugden W (1963) Some aspects of sedimentation in the Persian Gulf. J Sediment Petrol 33:355–364CrossRefGoogle Scholar
  52. Sugden W (1966) Pyrite staining of pellety debris in carbonate sediments from the Middle East and elsewhere. Geol Mag 103:250–256CrossRefGoogle Scholar
  53. UNEP/IUCN (1988) Coral reefs of the world. UNEP Regional Sea Directories and Bibliographies. IUCN, Gland, Switzerland and Cambridge, UK; UNEP, Nairobi, KenyaGoogle Scholar
  54. Yanagisawa Y (1984) Studies on the interspecific relationship between gobiid fish and snapping shrimp. 2. Life history and pair formation of snapping shrimp Alpheus bellulus. Publ Seto Mar Biol Lab 29:93–116CrossRefGoogle Scholar

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  • Najeeb M. A. Rasul
    • 1
  • Abdulnasser S. Al-Qutub
    • 1
  1. 1.Center for Marine Geology, Saudi Geological SurveyJeddahSaudi Arabia

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