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Environmental Assessment and Evaluation of Anthropogenic Impacts on Sulaibikhat Bay Tidal Flat Area, Kuwait

Received: 9 January 2018     Accepted: 1 February 2018     Published: 8 March 2018
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Abstract

Sulaibikhat Bay is situated along the northern coastline of Kuwait. It occupies the southwestern part of Kuwait Bay, between latitudes 29° 19ʺ and 29° 24ʺ north and longitudes 47° 50ʺ and 47° 55ʺ east, and covers a total area of about 45 km2. The lagoon bay is a shallow (7-8 m) tide-dominated embayment with a very soft muddy flat basin. It has a simple bottom topography, with a maximum water depth of about 8 m. The main objectives of this study is to delineate the water quality of Sulaibikhat Bay, to study the input of anthropogenic activities on the water quality, to recommend methods to improve water quality of the bay and to study the sediment and their heavy metals contents. About 15 marine water and 15 sediment samples were collected along the Sulaibikhat Bay. The samples were analyzed chemically for Total Petroleum Hydrocarbons, Trace Metals, and Total Organic Carbon. Also Biological Oxygen Demand, Chemical Oxygen Demand, and physically analyzed for Dissolved Oxygen, temperature, salinity, PH, Conductivity and nutrient levels. Data analyses for sediment and water reveal that the level of contamination is within the international standard however there are some higher reading of trace metals and other chemicals from the outlets of the power station more than the inlets. As, two sources or large input of trace metals in the coastal water of Sulaibikhat Bay are suggested in this study namely; estuarine fluviatile source of Shatt Al-Arab trace metal rich and dust fallouts.

Published in Journal of Health and Environmental Research (Volume 4, Issue 1)
DOI 10.11648/j.jher.20180401.14
Page(s) 21-34
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2018. Published by Science Publishing Group

Keywords

Heavy Metals, Nutrients, Anthropogenic Impact, Tidal bay, Water Quality, Bottom Sediments, Sewage Outlets, Contaminations

References
[1] Al-Zamel, A., Al-Sarawi, M., & Khader, S. (2007). The coastal geomorphology, hydrodynamics and biolithofacies in the intertidal and subtidal areas of Umm Al-Namil island, Kuwait Bay, Kuwait. Journal of coastal research, 23(2): 501-514.
[2] Al-Sarawi, A. M., Gundlach, E. R., & Baca, B. J. (1998). Coastal Geomorphology and Resources inTerms of Sensitivity to Oil Spill in Kuwait. J. Univ. Kuwait (Sci.), 15:141-184.
[3] Massoud, M. S., Al-Abdali, F., Al-Ghadban, A. N., & Al-Sarawi, M. (1996). Bottom Sediments of the Arabian Gulf –II. TPH and TOC Contents as Indicators Oil Pollution and Implications for the Effect and Fate of the Kuwait Oil Slick. Environmental pollution, 93(3): 271-284.
[4] Massoud, M. S., Al-Abdali, F., & Al-Ghadban, A. N. (1998). The Status of Oil Pollution of the Arabian Gulf by the End of 1993. Environment international, 24(1/2):11-22.
[5] Devlin M. J; Will J,; Quesne Le,; Lyons B. (2015 ). The Marine Environment of Kuwait Emerging issues in a rapidly changing environment. Marine pollution bulletin, 100, 2, 593-596.
[6] Sheppard C., Al-Husiani M., Al-Jamail F., Al-Yamani F., & Baldwin R. (2010). The Gulf: A Young Sea in Decline", Marine Pollution Bull, 60: 13-38.
[7] Al-Khabbaz, A., & Al-Shemmari, A. (2012). Major, Trace and Rare Earth Elements from Sulaibikhat Bay. KISR 11257, technical report.
[8] Al-Sarawi, A. M., Massoud, M. S., Khader, S., & Bou-Olyan, A. H. (2002). Recent Trace Metal Levels in coastal waters of Sulaibikhat Bay, Kuwait. Technology, 8:27-38.
[9] Altheyabi, N. (2012). Effect of thermal pollution on microfauna "foraminifera" a case study of Ras Al zour and Ras Al Subiya power stations, state of Kuwait, Kuwait University.
[10] Al-Sarawi, A. M., Massoud, M. S., & Khader, S. R., (2002). Recent Trace Metal Pollution in Bottom Sediments of Sulaibikhat Bay, Kuwait. Technology, 8: 38-50.
[11] Bu-Olyan., A., & Al-Sarawi, A. M. (1993). Inorganic and Organic Pollutant Measurements at the Kuwait water front Project. Water, air, and soil pollution, 69: 301-308.
[12] Al-Shemmari, H., A, Al-Dousari, L. Talebl & Al-Ghadban, A. (2013). Mineralogical characteristics of Surface sediment in Sulaibikhat Bay, Kuwait. Kuwait J. Sci., 40(2): 159-1760.
[13] Al-Shamroukh, A. & Al-Yaegoub, A. (2011). Secular Variation of Mineralogical Contents in the Bottom Sediments of sulaibikhat Bay. KISR 10915.
[14] Al-Zamel, A., Bou-Rabee, F., Al-Sarawi, M. A., & Olszewsk, B. M. (2005). Determination of the sediment deposition rates in the Kuwait Bay. Five bottom sediment cares from the Kuwait Bay were dated using 137Cs and 210Pb. Nukleonika, 51 (Supplement 2): S39-S44.
[15] Al-Shemmari, H., Al-Otaibi, Y. & Owens, R. (2010). Trace metal concentrations in the surface sediments of Sulaibikhat Bay, Kuwait. Kuwait J. Sci. Eng., 37(2A): 87-110.
[16] Ghannoum, M. A., Al-Sarawi, M., Bou Olyan, A. & Baca, B., (1991). Microbiological water quality along the Kuwait waterfront project, Kuwait. INTERN. J. Environmental studies, 37: 65-71.
[17] Sheppard, C, Al-Husaini, M, Al-Jamail, F., Al-Yamani, F., Baldwin, R., Benzoni, F., Dutrieux, E, Dutvy, N, Durvasuls, S., Jones, D., Loughland, R., Medio, D., Nithyanandan, M., Pilling. Polikarpov, G., L, Price, A., Purkis, S., Riegl, B., Saburova, M., Namin, K., Taylor, O., Wilson, S. & Zainal, K. (2015). The Gulf: A Young Sea in Decline", Marine Pollution Bulletin, 60:13-38.
[18] Fowler, S. W., Readman, J. W., Oregioni, B., Villeneuve, J.-P. & Mckay, K. (1993). Petroleum Hydrocarbons and Trace Metals in Near Shore Gulf Sediments and Biota Before and After the 1991 War. Marine pollution bulletin, 27:171-182.
[19] Shriadah, M. A. (1998). Metals Pollution in Marine Sediments of the United Arab Emirates Creeks along the Arabian Gulf Shoreline. Bull. Environ. contam. Toxicology, 60: 417-424
[20] Anderlini, V. C., Jacob, P. G., and Lee, J. W. (1982) Atlas of physical and chemical oceanographic characteristics of Kuwait Bay. Kuwait Institute for Scientific Research Report No. KISR 704, Kuwait.
[21] Al-Abdali, F., Massoud, M. S. and Al-Ghadban, A. N., (1996). Bottom Sediments of the Arabian Gulf; Trace metal contents as indicators of pollution and Implications for the Effect and fate of Kuwait Oil Slick. Environmental Pollution, 93 (3), 285-301.
[22] Al-Sarawi, A. M., Massoud, M. S., Al-Thoweini, F., & Abdulrassol, A. (2002). Environmental Impact Assessment of the Oil Sector Complex Works Off shore Al-Shuwaikh Coast, Kuwait, II. Quality and Mercury Content of Ambient Air before Construction. Technology, 8: 65-78.
[23] Anderlini, V. C., Mohammed, O. S., Zarba, M. A., and Omar, N. (1981). Assessment of trace metal pollution in kuwait 1, final report of trace element and bacterial pollutant project, EES31A, Kuwait Institute for Scientific Research, 203 pages
[24] Al-Muzaini, S. M. (1998). The status of Kuwaiti marine environment, first edition. Kuwait: Kuwait Environment Protection Society. (in Arabic).
[25] Rubio, B., Nombetia, M. A., & Vilas, F. (2000). Geochemistry of major and trace elements in sediments of the Ria De Vigo (NW Spain): An assessment of metal pollution. Marine Pollution Bulletin 40: 968-980.
[26] Al-Ghadban, A. N. (2004). Assessment of Suspended Sediment in Kuwait Bay Using Landsat and Spot Images. Kuwait Journal of Science and Engineering, 31(2):155-172.
[27] Bu-Olayan, A. H. and Thomas, B. V. )2013(. Effect of Trace Metals Levels in Wastewater Discharges, Sediment and Euchelus Asper in Kuwait Marine Environment. International Journal of Environmental Research (IJER), 7(3):779-784.
[28] Vazquez, G, F., Deigado, H, D., Dela Huerta, C, J., Aguilera, L. G., & Sharma, V. K., (1993). Trace and heavy metals in San Andres Lagoon Tamaulipas, Mexico. Environment International, 19:71-77.
[29] Ali, l. N., Al-Dousari, A., and Talebi, L., (2009), Impact of desalination plants discharge effluent on the marine environment in Kuwait. KISR 969.
Cite This Article
  • APA Style

    Mohamed El-Anbaawy, Ahmed Abdelhalim, Deadan Al Ajmi, Mohammad Al Sarawi. (2018). Environmental Assessment and Evaluation of Anthropogenic Impacts on Sulaibikhat Bay Tidal Flat Area, Kuwait. Journal of Health and Environmental Research, 4(1), 21-34. https://doi.org/10.11648/j.jher.20180401.14

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    ACS Style

    Mohamed El-Anbaawy; Ahmed Abdelhalim; Deadan Al Ajmi; Mohammad Al Sarawi. Environmental Assessment and Evaluation of Anthropogenic Impacts on Sulaibikhat Bay Tidal Flat Area, Kuwait. J. Health Environ. Res. 2018, 4(1), 21-34. doi: 10.11648/j.jher.20180401.14

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    AMA Style

    Mohamed El-Anbaawy, Ahmed Abdelhalim, Deadan Al Ajmi, Mohammad Al Sarawi. Environmental Assessment and Evaluation of Anthropogenic Impacts on Sulaibikhat Bay Tidal Flat Area, Kuwait. J Health Environ Res. 2018;4(1):21-34. doi: 10.11648/j.jher.20180401.14

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  • @article{10.11648/j.jher.20180401.14,
      author = {Mohamed El-Anbaawy and Ahmed Abdelhalim and Deadan Al Ajmi and Mohammad Al Sarawi},
      title = {Environmental Assessment and Evaluation of Anthropogenic Impacts on Sulaibikhat Bay Tidal Flat Area, Kuwait},
      journal = {Journal of Health and Environmental Research},
      volume = {4},
      number = {1},
      pages = {21-34},
      doi = {10.11648/j.jher.20180401.14},
      url = {https://doi.org/10.11648/j.jher.20180401.14},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.jher.20180401.14},
      abstract = {Sulaibikhat Bay is situated along the northern coastline of Kuwait. It occupies the southwestern part of Kuwait Bay, between latitudes 29° 19ʺ and 29° 24ʺ north and longitudes 47° 50ʺ and 47° 55ʺ east, and covers a total area of about 45 km2. The lagoon bay is a shallow (7-8 m) tide-dominated embayment with a very soft muddy flat basin. It has a simple bottom topography, with a maximum water depth of about 8 m. The main objectives of this study is to delineate the water quality of Sulaibikhat Bay, to study the input of anthropogenic activities on the water quality, to recommend methods to improve water quality of the bay and to study the sediment and their heavy metals contents. About 15 marine water and 15 sediment samples were collected along the Sulaibikhat Bay. The samples were analyzed chemically for Total Petroleum Hydrocarbons, Trace Metals, and Total Organic Carbon. Also Biological Oxygen Demand, Chemical Oxygen Demand, and physically analyzed for Dissolved Oxygen, temperature, salinity, PH, Conductivity and nutrient levels. Data analyses for sediment and water reveal that the level of contamination is within the international standard however there are some higher reading of trace metals and other chemicals from the outlets of the power station more than the inlets. As, two sources or large input of trace metals in the coastal water of Sulaibikhat Bay are suggested in this study namely; estuarine fluviatile source of Shatt Al-Arab trace metal rich and dust fallouts.},
     year = {2018}
    }
    

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  • TY  - JOUR
    T1  - Environmental Assessment and Evaluation of Anthropogenic Impacts on Sulaibikhat Bay Tidal Flat Area, Kuwait
    AU  - Mohamed El-Anbaawy
    AU  - Ahmed Abdelhalim
    AU  - Deadan Al Ajmi
    AU  - Mohammad Al Sarawi
    Y1  - 2018/03/08
    PY  - 2018
    N1  - https://doi.org/10.11648/j.jher.20180401.14
    DO  - 10.11648/j.jher.20180401.14
    T2  - Journal of Health and Environmental Research
    JF  - Journal of Health and Environmental Research
    JO  - Journal of Health and Environmental Research
    SP  - 21
    EP  - 34
    PB  - Science Publishing Group
    SN  - 2472-3592
    UR  - https://doi.org/10.11648/j.jher.20180401.14
    AB  - Sulaibikhat Bay is situated along the northern coastline of Kuwait. It occupies the southwestern part of Kuwait Bay, between latitudes 29° 19ʺ and 29° 24ʺ north and longitudes 47° 50ʺ and 47° 55ʺ east, and covers a total area of about 45 km2. The lagoon bay is a shallow (7-8 m) tide-dominated embayment with a very soft muddy flat basin. It has a simple bottom topography, with a maximum water depth of about 8 m. The main objectives of this study is to delineate the water quality of Sulaibikhat Bay, to study the input of anthropogenic activities on the water quality, to recommend methods to improve water quality of the bay and to study the sediment and their heavy metals contents. About 15 marine water and 15 sediment samples were collected along the Sulaibikhat Bay. The samples were analyzed chemically for Total Petroleum Hydrocarbons, Trace Metals, and Total Organic Carbon. Also Biological Oxygen Demand, Chemical Oxygen Demand, and physically analyzed for Dissolved Oxygen, temperature, salinity, PH, Conductivity and nutrient levels. Data analyses for sediment and water reveal that the level of contamination is within the international standard however there are some higher reading of trace metals and other chemicals from the outlets of the power station more than the inlets. As, two sources or large input of trace metals in the coastal water of Sulaibikhat Bay are suggested in this study namely; estuarine fluviatile source of Shatt Al-Arab trace metal rich and dust fallouts.
    VL  - 4
    IS  - 1
    ER  - 

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Author Information
  • Department of Geology, Faculty of Science, Cairo University, Cairo, Egypt

  • Department of Geology, Faculty of Science, Cairo University, Cairo, Egypt

  • Department of Geology, Faculty of Science, Cairo University, Cairo, Egypt

  • Department of Earth and Environmental Science, College of Science, Kuwait University, Khaldyah, Kuwait

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