Oil spill related heavy metal: A review [Logam berat berkaitan tumpahan minyak: Satu ulasan]

Oil spill related heavy metal: A review [Logam berat berkaitan tumpahan minyak: Satu ulasan]

Bibliographic Details
Format: Restricted Document
_version_ 1860797426245304320
building INTELEK Repository
collection Online Access
collectionurl https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072
date 2015-12-30 16:20:34
format Restricted Document
id 12668
institution UniSZA
internalnotes 1. Wang, Z., Stout, S. A. and Fingas, M. (2006). Forensic Fingerprinting of Biomarkers for Oil Spill Characterization and Source Identification. Environmental Forensics 7: 105–146. 2. Obiajunwa, E. I., Pelemo, D. A., Owolabi, S. A., Fasasi, M. K. and Johnson-Fatokun, F. O. (2002). Characterisation of heavy metal pollutants of soils and sediments around a crude-oil production terminal using EDXRF. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 194(1): 61-64. 3. Wang, Z., Fingas, M. and Page, D. S. (1999). Oil spill identification. Journal of Chromatography A 843 (1): 369-411. 4. Schmidt-Etkin, D. (2011). Spill occurrences: A world overview. Oil Spill Science and Technology: 7-48. 5. U. S. Department of Energy. (2004). Energy Information Administration Website. 6. International Energy Agency (2012). International Energy Agency Oil Market Report for 2009. Information Administration Website 7. McNutt, M. K., Camilli, R., Crone, T. J., Guthrie, G. D., Hsieh, P. A., Ryerson, T. B. and Shaffer, F. (2012). Review of flow rate estimates of the Deepwater Horizon oil spill. Proceedings of the National Academy of Sciences 109(50): 20260 – 20267. 8. Adcroft, A., Hallberg, R., Dunne, J. P., Samuels, B. L., Galt, J. A., Barker, C. H. and Payton, D. (2010). Simulations of underwater plumes of dissolved oil in the Gulf of Mexico. Geophysical Research Letters 37(18): 1-5. 9. Hoch, M. (2010). New Estimate Puts Gulf Oil Leak at 205 Million Gallons. 10. Johnson, C. N., Flowers, A. R., Noriea, N. F., Zimmerman, A. M., Bowers, J. C., DePaola, A. and Grimes, D. J. (2010). Relationships between environmental factors and pathogenic vibrios in the northern Gulf of Mexico. Applied and Environmental Microbiology 76(21): 7076 – 7084. 11. Michel, J., Nixon, Z., Hayes, M.O., Short, J., Irvine, G., Betenbaugh, D., Boring, C., Mann, D. (2010). Distribution of subsurface oil from the Exxon Valdez oil spill. Exxon Valdez oil spill restoration project final report. Restoration Project 070801. National Oceanic and Atmospheric Administration, Juneau, Alaska. pp121. 12. Crone, T. J. and Tolstoy, M. (2010). Magnitude of the 2010 Gulf of Mexico oil leak. Science 330(6004): 634- 634. 13. Mulabagal, V., Yin, F., John, G. F., Hayworth, J. S., and Clement, T. P. (2013). Chemical fingerprinting of petroleum biomarkers in Deepwater Horizon oil spill samples collected from Alabama shoreline. Marine Pollution Bulletin 70(1-2), 147–154. 14. Hayworth, J. S., Clement, T. P. and Valentine, J. F. (2011). Deepwater Horizon oil spill impacts on Alabama beaches. Hydrology and Earth System Sciences 15(12): 3639 - 3649. 15. Boehm, A. B., Yamahara, K. M. and Sassoubre, L. M. (2014). Diversity and transport of microorganisms in intertidal sands of the California Coast. Applied and Environmental Microbiology 80(13): 3943-3951. 16. Wiens, J. A. (Ed.). (2013). Oil in the environment: Legacies and lessons of the Exxon Valdez oil spill. Cambridge University Press. 17. Wells, P.G., Butler, J.N., Hughes, J.S. (eds). (1995). Fate and effects in Alaskan waters. American Society for Testing and Materials, Philadelphia, PA: pp458. 18. Rice, S. D., Spies, R. B., Wolfe, D. A., Wright, B. A. (eds). (1996). Proceedings of Exxon Valdez Oil Spill Symposium. American Fisheries Society Symposium 18, Bethesda, MD: pp 931. 19. Boehm, P. D., Page, D. S., Gilfillan, E. S., Stubblefield, W. A., Harner, E. J. (1995). Shoreline ecology program for Prince William Sound, Alaska, following the Exxon Valdez oil spill: Part 2—Chemistry and toxicology. In: Exxon Valdez Oil Spill: Fate and Effects in Alaskan Waters. P. G. Wells, J. N. Butler, and J. S. Hughes (eds). American Society for Testing and Materials, Philadelphia, PA. 20. Neff, J. M. (1995). Shoreline oiling conditions in Prince William Sound following the Exxon Valdez oil spill. In: Wells, P.G., Butler, J.N., Hughes, J.S. (eds.), Exxon Valdez Oil Spill: Fate and Effects in Alaskan . 21. Page, D. S., Boehm, P. D., Neff, J. M. (2008). Shoreline type and subsurface oil persistence in the Exxon Valdez spill zone of Prince William Sound, Alaska. In: Proceedings of the 31st AMOP Technical Seminar on Environmental Contamination and Response. June 3−5. 22. Page, D. S., Boehm, P. D., Brown, J. S., Gundlach, E. R. and Neff, J. M. (2013). Fate of oil on shorelines. Oil in the Environment: Legacies and Lessons of the Exxon Valdez Oil Spill: 116-143. 23. Short, J.W., Lindeberg, M.R., Harris, P.M., Maselko, J.M., Pella, J.J., Rice, S.D. 2004. Estimate of oil persisting on the beaches of Prince William Sound 12 years after the Exxon Valdez oil spill. Environmental Science & Technology 38: 19 – 25. 24. Nixon, Z., Michel, J., Hayes, M. O., Irvine, G. V. and Short, J. (2013). Geomorphic factors related to the persistence of subsurface oil from the Exxon Valdez oil spill. Journal of Coastal Research 69(sp1): 115-127. 25. Fingas, M. (Ed.). (2010). Oil spill science and technology. Gulf Professional Publishing. 26. Tawfiq, N. and Olsen, D. A. (1993). Saudi Arabia's response to the 1991 Gulf oil spill. Marine Pollution Bulletin 27: 333-345. 27. Gundlach E. R., McCain J. C., Fadlallah Y. H. (1993). Distribution of Oil Along the Saudi Arabian Coastline (May/June 1991) as a Result of the Gulf War Oil Spills. Marine Pollution Bulletin 27: 93 – 96. 28. Hayes, M. O., Michel, J., Montello, T. M., Aurand, D. V., Al-Mansi, A. M., Al-Moamen, A. H., Sauer, T. C. and Thayer, G. W. (1993). Distribution and weathering of shoreline oil one year after the Gulf War oil spill. Marine Pollution Bulletin, 27: 135-142. 29. Hayes, M. O., Michel, J., Montello, T. M., Aurand, D. V., Sauer, T. C., Al-Mansi, A. and Al-Momen, A. H. (1995). Distribution and weathering of oil from the Iraq-Kuwait conflict oil spill within intertidal habitats-two years later. In International Oil Spill Conference. American Petroleum Institute (1): 443-451 30. Censi, P., Spoto, S. E., Saiano, F., Sprovieri, M., Mazzola, S., Nardone, G. and Ottonello, D. (2006). Heavy metals in coastal water systems. A case study from the northwestern Gulf of Thailand. Chemosphere 64: 1167–1176. 31. Carls, E. G., Fenn, D. B.and Chaffey, S. A. (1995). Soil contamination by oil and gas drilling and production operations in Padre Island National Seashore, Texas, USA. Journal of Environmental Management 45(3): 273-286. 32. Kisic, I., Mesic, S., Basic, F., Brkic, V., Mesic, M., Durn, G., Zgorelec, Z. and Bertovic, L. (2009). The effect of drilling fluids and crude oil on some chemical characteristics of soil and crops. Geoderma 149(3): 209 – 216. 33. Krzyzanowski, J. (2012). Environmental pathways of potential impacts to human health from oil and gas development in northeast British Columbia, Canada. Environmental Reviews 20(2): 122-134. 34. Yen, T. F. (1975). Genesis and degradation of petroleum hydrocarbons in marine environments. In Marine Chemistry in the Coastal Environment, edited by TM Church (Am. Chem. Soc. Symposium Ser. Nolg, 1975): pp. 23l-266). 35. Fu, J., Wang, Q., Wang, H., Yu, H. and Zhang, X. (2014). Monitoring of non-destructive sampling strategies to assess the exposure of avian species in Jiangsu Province, China to heavy metals. Environmental Science and Pollution Research 21(4): 2898 – 2906. 36. Onojake, M. C. and Frank, O. (2013). Assessment of heavy metals in a soil contaminated by oil spill: a case study in Nigeria. Chemistry and Ecology 29(3): 246 – 254. 37. Nie, M., Xian, N., Fu, X., Chen, X. and Li, B. (2010). The interactive effects of petrolem-hydrocarbon spillage and plant rhizosphere on concentrations and distribution of heavy metals in sediments in the Yellow River Delta, China. Journal of Hazardous Materials 174(1): 156 –161. 38. Bastami, K. D., Bagheri, H., Haghparast, S., Soltani, F., Hamzehpoor, A. and Bastami, M. D. (2012). Geochemical and geo-statistical assessment of selected heavy metals in the surface sediments of the Gorgan Bay, Iran. Marine Pollution Bulletin 64(12): 2877 – 2884. 39. Google (2011). Google Scholar. Available: http://scholar.google.com/ [accessed 15 March 2011]. 40. Apeti, D. A. and Hartwell, I. S. (2015). Baseline assessment of heavy metal concentrations in surficial sediment from Kachemak Bay, Alaska. Environmental Monitoring and Assessment 187(1): 1-11. 41. Gohlke, J. M., Doke, D., Tipre, M., Leader, M. and Fitzgerald, T. (2011). A review of seafood safety after the Deepwater Horizon blowout. Environmental Health Perspectives 119(8): 1062 – 1069. 42. Solomon, G. M. and Janssen, S. (2010). Health effects of the Gulf oil spill. Journal American Medical Association 304(10): 1118 – 1119. 43. Wainipee, W., Weiss, D. J., Sephton, M. A., Coles, B. J., Unsworth, C. and Court, R. (2010). The effect of crude oil on arsenate adsorption on goethite. Water Research 44(19): 5673 – 5683. 44. Kimbrough K, Johnson W. E., Lauenstein G. G., Christensen J. D. and Apeti D. A. (2008). An Assessment of Two Decades of Contaminant Monitoring in the Nation’s Coastal Zone. NOAA Technical Memorandum NOS NCCOS 74. Silver Spring, MD: National Oceanic and Atmospheric Administration. 45. National Oceanic and Atmospheric Administration, NOAA (2011). The Mussel Watch Program, National Status and Trends Database. Available: http://ccma.nos.noaa.gov/about/coast/nsandt/download.aspx [accessed 21 June 2011]. 46. U.S. Environmental Protection Agency, U.S. EPA (2009). The National Listing of Fish Advisories: Release of 2008 Data. Available: http://water.epa.gov/scitech/swguidance/fishshellfish/fishadvisories/ [accessed 14 December 2010]. 47. Bartolomé, L., Navarro, P., Raposo, J. C., Arana, G., Zuloaga, O., Etxebarria, N. and Soto, M. (2010). Occurrence and distribution of metals in mussels from the Cantabrian coast. Archives of Environmental Contamination and Toxicology 59(2): 235 – 243. 48. Villares, R., Real, C., Fernández, J. Á., Aboal, J. and Carballeira, A. (2007). Use of an environmental specimen bank for evaluating the impact of the Prestige oil spill on the levels of trace elements in two species of Fucus on the coast of Galicia (NW Spain). Science of The Total Environment 374(2): 379 – 387. 49. Barbour E. K., Sabra A. H., Bianu E. G., Jaber L.,S and Shaib H. A. (2009). Oppositional dynamics of organic versus inorganic contaminants in oysters following an oil spill. Journal Coastal Research 25(4): 864 – 869. 50. Kumar, R. S. (2000). A review of biodiversity studies of soil dwelling organisms in Indian mangroves. Zoos’ Print Journal 15(3): 221 – 227. 51. Reinecke, A. J., Snyman, R. G. and Nel, J. A. J. (2003). Uptake and distribution of lead (Pb) and cadmium (Cd) in the freshwater crab, Potamonautes perlatus (Crustacea) in the Eerste River, South Africa. Water, Air, and Soil Pollution 145(1-4): 395 – 408. 52. Ikem, A., Egiebor, N. O. and Nyavor, K. (2003). Trace elements in water, fish and sediment from Tuskegee Lake, Southeastern USA. Water, Air, and Soil Pollution 149(1-4): 51 – 75. 53. Eimers, M. C., Evans, R. D. and Welbourn, P. M. (2001). Cadmium accumulation in the freshwater isopod Asellus racovitzai: the relative importance of solute and particulate sources at trace concentrations. Environmental Pollution 111(2): 247 – 253. 54. Ho, K. C., Chow, Y. L., and Yau, J. T. S. (2003). Chemical and microbiological qualities of The East River (Dongjiang) water, with particular reference to drinking water supply in Hong Kong. Chemosphere 52(9): 1441 - 1450. 55. Clément, J. C., Aquilina, L., Bour, O., Plaine, K., Burt, T. P. and Pinay, G. (2003). Hydrological flowpaths and nitrate removal rates within a riparian floodplain along a fourth‐order stream in Brittany (France). Hydrological Processes 17(6): 1177 – 1195. 56. Al-Mohanna, S. Y. and Subrahmanyam, M. N. V. (2001). Flux of heavy metal accumulation in various organs of the intertidal marine blue crab Portunus pelagicus (L.) from the Kuwait coast after the Gulf War. Environment International 27(4): 321 – 326. 57. Abdel-Baki, A. S., Sakran, T. and Zayed, E. (2011). Validity, impacts and seasonal prevalence of Henneguya species infecting catfish Clarias gariepinus from River Nile, Egypt. Parasitology Research 109(1):119 – 123. 58. Pieniak, Z., Kołodziejczyk, M., Kowrygo, B. and Verbeke, W. (2011). Consumption patterns and labelling of fish and fishery products in Poland after the EU accession. Food Control 22(6): 843 – 850. 59. Sioen, I., Matthys, C., De Backer, G., Van Camp, J. and Henauw, S. D. (2007). Importance of seafood as nutrient source in the diet of Belgian adolescents. Journal of Human Nutrition and Dietetics 20(6): 580 – 589. 60. Al-Busaidi, M., Yesudhason, P., Al-Mughairi, S., Al-Rahbi, W. A. K., Al-Harthy, K. S., Al-Mazrooei, N. A. and Al-Habsi, S. H. (2011). Toxic metals in commercial marine fish in Oman with reference to national and international standards. Chemosphere 85(1): 67 – 73. 61. Livingstone, D. R. (2003). Oxidative stress in aquatic organisms in relation to pollution and aquaculture. Revue de Medecine Veterinaire 154(6): 427 – 430. 62. Batvari, B. P. D., Kamala-Kannan, S., Shanthi, K., Krishnamoorthy, R., Lee, K. J. and Jayaprakash, M. (2008). Heavy metals in two fish species (Carangoidel malabaricus and Belone stronglurus) from Pulicat Lake, North of Chennai, Southeast Coast of India. Environmental Monitoring and Assessment 145(1-3): 167 – 175. 63. Simon, T. P., Jankowski, R. and Morris, C. (2000). Modification of an index of biotic integrity for assessing vernal ponds and small palustrine wetlands using fish, crayfish, and amphibian assemblages along southern Lake Michigan.Aquatic Ecosystem Health and Management 3(3): 407 – 418. 64. Nduka, J. K. C., Constance, E. and Obiakor, E. (2006). Selective bioaccumulation of metals by different parts of some fish species from crude oil polluted water. Bul. Environ. Contaminant Toxicology 77: 846 – 853. 65. Obaseki, P. J. (2000). Globalisation and the Nigerian economy. Central Bank of Nigeria Economic and Financial Review 38(2): 17 – 33. 66. Copat, C., Bella, F., Castaing, M., Fallico, R., Sciacca, S. and Ferrante, M. (2012). Heavy metals concentrations in fish from Sicily (Mediterranean Sea) and evaluation of possible health risks to consumers. Bulletin of Environmental Contamination and Toxicology 88(1): 78 – 83. 67. Ahmad, А. К. and Shuhaimi-Othman, M. (2010). Heavy Metal Concentrations in Sediments and Fishes from Lake Chini, Pahang, Malaysia. Journal of Biological Sciences 10(2): 93 – 100. 68. Mathews, T. and Fisher, N. S. (2009). Dominance of dietary intake of metals in marine elasmobranch and teleost fish. Science of the total environment 407(18): 5156 – 5161. 69. Al-Husaini, I., Abdul-Wahab, S., Ahamad, R. and Chan, K. (2014). Levels of Cd, Cu, Pb and V in marine sediments in the vicinity of the Single Buoy Moorings (SBM3) at Mina Al Fahal in the Sultanate of Oman. Marine Pollution Bulletin 83(1): 337 – 342. 70. Ruelas-Inzunza, J., Páez-Osuna, F., Zamora-Arellano, N., Amezcua-Martínez, F., and Bojórquez-Leyva, H. (2009). Mercury in biota and surficial sediments from Coatzacoalcos estuary, Gulf of Mexico: distribution and seasonal variation. Water, Air, and Soil Pollution 197(1-4): 165-174. 71. El-Tokhi, M. M. and Mostafa, Y. M. (2001). Heavy metals and petroleum hydrocarbons contamination of bottom sediments of El Sukhna area, Gulf of Suez, Egypt. Petroleum Science and Technology 19(5-6): 481 – 494. 72. Owamah, H. I. (2013). Heavy metals determination and assessment in a petroleum impacted River in the Niger Delta Region of Nigeria. Journal of Petroleum & Environmental Biotechnology, 4(1): 1 – 4. 73. Yi, Y., Yang, Z. and Zhang, S. (2011). Ecological risk assessment of heavy metals in sediment and human health risk assessment of heavy metals in fishes in the middle and lower reaches of the Yangtze River basin. Environmental Pollution, 159(10): 2575-2585. 74. Enk, M. D. and Mathis, B. J. (1977). Distribution of cadmium and lead in a stream ecosystem. Hydrobiologia 52(2-3): 153 –158. 75. Anderson, R. V., Vinikour, W. S. and Brower, J. E. (1978). The distribution of Cd, Cu, Pb and Zn in the biota of two freshwater sites with different trace metal inputs. Ecography 1(4): 377 – 384. 76. Burrows, I. G. and Whitton, B. A. (1983). Heavy metals in water, sediments and invertebrates from a metalcontaminated river free of organic pollution. Hydrobiologia 106(3): 263 – 273. 77. Barak, N. E. and Mason, C. F. (1989). Heavy metals in water, sediment and invertebrates from rivers in eastern England. Chemosphere 19(10): 1709 – 1714. 78. Luoma, S. N. and Bryan, G. W. (1978). Factors controlling the availability of sediment-bound lead to the estuarine bivalve Scrobicularia plana. Journal of the Marine Biological Association of the United Kingdom 58(04), 793-802. 79. Yuan, J. M., Ross, R. K., Gao, Y. T. and Mimi, C. Y. (2001). Fish and shellfish consumption in relation to death from myocardial infarction among men in Shanghai, China. American Journal of Epidemiology 154(9): 809 – 816. 80. Thomas, L. D., Hodgson, S., Nieuwenhuijsen, M. and Jarup, L. (2009). Early kidney damage in a population exposed to cadmium and other heavy metals. Environment Health Perspective 117(2): 181 –184. 81. Zheng, G., Tian, L., Liang, Y., Broberg, K., Lei, L., Guo, W., Nilsson, J., Bergdahl, I.A., Skerfving, S. and Jin, T. (2011). δ-Aminolevulinic acid dehydratase genotype predicts toxic effects of lead on workers’ peripheral nervous system. Neurotoxicology 32: 374 – 382. 82. Fernandes, C., Fontaínhas-Fernandes, A., Cabral, D., and Salgado, M. A. (2008). Heavy metals in water, sediment and tissues of Liza saliens from Esmoriz-Paramos lagoon, Portugal. Environmental Monitoring and Assessment, 136(1-3): 267–75. 83. Krishna, P., Jyothirmayi, V. and Madhusudhana Rao, K. (2014). Human health risk assessment of heavy metal accumulation through fish consumption, from Machilipatnam Coast, Andhra Pradesh, India. International Research Journal of Public and Environmental Health 1(5): 121–125. 84. Stern, B. R., Solioz, M., Krewski, D., Aggett, P., Aw, T.-C., Baker, S. and Starr, T. (2007). Copper and human health: biochemistry, genetics, and strategies for modeling dose-response relationships. Journal of Toxicology and Environmental Health, 10: 157–222. 85. Griswold, W. (2009). Human Health Effects of Heavy Metals. Issue 15. Center for Hazardous Substance Research. Kansas State University. 86. ATSDR, U. D. (1993). Toxicological profile for benzene Agency for toxic substances and disease Registry, US Department of Health and Human Services. Public Health Service. 87. Liu, P., Wang, C., Song, X. and Wu, Y. (2010). International Journal of Hygiene and Dietary intake of lead and cadmium by children and adults – Result calculated from dietary recall and available lead / cadmium level in food in comparison to result from food duplicate diet method. International Journal of Hygiene and Environmental Health 213: 450–457. 88. Cid, B. P., Boia, C., Pombo, L., & Rebelo, E. (2001). Determination of trace metals in fish species of the Ria de Aveiro (Portugal) by electrothermal atomic absorption spectrometry. Food Chemistry 75(1): 93 –100. 89. Moiseenko, T. I. and Kudryavtseva, L. P. (2001). Trace metal accumulation and fish pathologies in areas affected by mining and metallurgical enterprises in the Kola Region, Russia. Environmental Pollution 114(2): 285 – 297. 90. Castro-González, M. I. and Méndez-Armenta, M. (2008). Heavy metals: Implications associated to fish consumption. Environmental Toxicology and Pharmacology 26(3): 263 – 271. 91. Sivaperumal, P., Sankar, T. V. and Nair, P. V. (2007). Heavy metal concentrations in fish, shellfish and fish products from internal markets of India vis-a-vis international standards. Food Chemistry 102(3): 612 – 620. 92. Uysal, K., Emre, Y. and Köse, E. (2008). The determination of heavy metal accumulation ratios in muscle, skin and gills of some migratory fish species by inductively coupled plasma-optical emission spectrometry (ICP-OES) in Beymelek Lagoon (Antalya/Turkey). Microchemical Journal 90(1): 67 – 70. 93. Palaniappan, P. R. and Karthikeyan, S. (2009). Bioaccumulation and depuration of chromium in the selected organs and whole body tissues of freshwater fish Cirrhinus mrigala individually and in binary solutions with nickel. Journal of Environmental Sciences 21(2): 229 – 236. 94. Beyer, W. N., Gaston, G., Brazzle, R., O'Connell, A. F. and Audet, D. J. (2007). Deer exposed to exceptionally high concentrations of lead near the Continental Mine in Idaho, USA. Environmental Toxicology and Chemistry 26(5): 1040 – 1046. 95. Ma, W.C., 2011. Lead in mammals. In: Beyer, W.N., Meador, J.P. (Eds.), Environmental Contaminants in Biota: Interpreting Tissue Concentrations, 2nd ed. CRC Press, Boca Raton, USA, pp 595 – 608. 96. Skerfvings, and Bergdahl I. (2007). Lead. In In Nordberg et al (eds). Handbook on the Toxicology of Metals, 3rd ed; Academic Press/Elsevier: pp 599-635. 97. Sharpe, R. T. and Livesey, C. T. (2005). Surveillance of suspect animal toxicoses with potential food safety implications in England and Wales between 1990 and 2002. The Veterinary Record 157(16): 465 – 469. 98. Thompson, J. P., Lempiainen, H., Hackett, J. A., Nestor, C. E., Muller, A., Bolognani, F., Oakeley, E. J., Schubeler, D. Terranova, R., Reinhardt, D., Moggs, J. G. and Meehan, R. R. (2012). Non-genotoxic carcinogen exposure induces defined changes in the 5-hydroxymethylome. Genome Biology 13(10): 1 – 17. 99. Faulkner-Hudson, T. G., & Browning, E. (1964). Vanadium. In Toxicology and Biological Significance. Elsevier Amsterdam. 100. Waters, M. D. (1977). Toxicology of vanadium. Advances in Modern Toxicology 2: 147 – 189. 101. Friberg, L., Nordberg, G.F. and Vouk, V.B. (Eds.), 1979. Handbook on the Toxicology of Metals. Elsevier/North- Holland Biomedical Press, Amsterdam. 102. SIMRAC (Safety in Mines Research Advisory Committee Report), (2000). Hazardous metals in mining processing plants in South Africa. The risk of occupational exposure. Mine Health and Safety Council. 103. Barth, A., Schaffer, A.W., Konnaris, C., Blauensteiner, R., Winker, R., Osterode, W. and Rudiger, H.W. (2002). Neurobehavioral effects of vanadium. Journal Toxicology Environmental Health Part A 65 (9): 677– 683. 104. Denkhaus, E. and Salnikow, K. (2002). Nickel essentiality, toxicity, and carcinogenicity. Critical reviews in oncology/hematology, 42(1), 35-56. 105. Centeno, L. M. (2000). Geochemistry of an acid-contaminated stream in New Lexington, Ohio. 106. Lancaster, J. R. (1988). The bioinorganic chemistry of nickel. Vch Pub 107. Orrenius, S., Zhivotovsky, B., & Nicotera, P. (2003). Regulation of cell death: the calcium–apoptosis link. Nature Reviews Molecular Cell Biology 4(7): 552 – 565. 108. Shen, W. H., Moore, C. C., Ikeda, Y., Parker, K. L. and Ingraham, H. A. (1994). Nuclear receptor steroidogenic factor 1 regulates the Müllerian inhibiting substance gene: a link to the sex determination cascade. Cell 77(5): 651 – 661. 109. Sigel, A., Sigel, H. and Sigel, R. K. (Eds.). (2007). Nickel and its surprising impact in nature: metal ions in life sciences (Vol. 5). John Wiley & Sons. 110. Miller, W. R. (1996). Estrogen and breast cancer. London: Chapman and Hall. 111. Benbrahim-Tallaa, L., Liu, J., Webber, M. M. and Waalkes, M.P. (2007). Estrogen signaling and disruption of androgen metabolism in acquired androgen-independence during cadmium carcinogenesis in human prostate epithelial cells. The Prostate 67: 135–145. 112. WHO. (1992b). Cadmium: Environmental aspect, environmental health criteria, 135. Geneva: World Health Organisation. 113. Pan, J., Plant, J. A., Voulvoulis, N., Oates, C. J., & Ihlenfeld, C. (2010). Cadmium levels in Europe: implications for human health. Environmental Geochemistry and Health 32(1): 1 – 12. 114. Institute of Medicine, Food and Nutrition Board (2001). Dietary Reference Intakes for Vitamin A, Vitamin K, Arsenic, Boron, Chromium, Copper, Iodine, Iron, Manganese, Molybdenum, Nickel, Silicon, Vanadium, and Zinc. Washington, DC: National Academy Press. 115. Lewis, M. R. and Kokan, L. (1998). Zinc gluconate: acute ingestion. Clinical Toxicology 36(1-2): 99 – 101. 116. Hooper, R. P., Christophersen, N. and Peters, N. E. (1990). Modelling streamwater chemistry as a mixture of soilwater end-members—An application to the Panola Mountain catchment, Georgia, USA. Journal of Hydrology 116(1): 321 – 343. 117. Johnson, A. R., Munoz, A., Gottlieb, J. L. and Jarrard, D. F. (2007). High dose zinc increases hospital admissions due to genitourinary complications. The Journal of Urology 177(2): 639 – 643. 118. Owamah, H. I. (2013). Heavy metals determination and assessment in a petroleum impacted River in the Niger Delta Region of Nigeria. Journal of Petroleum & Environmental Biotechnology 4(1): 1 – 4. 119. Osakwe SA, Otuya BO, Adaikpoh EO (2003) Determination of Pb, Cu, Ni, Fe,and Hg in the soils of Okpai Delta State, Nigeria. Nigerian Journal of Science and Environment 3: 45 – 49. 120. Simeonov, V., Stratis, J.A., Samara, C., Zachariadis, G., Voutsa, D., Anthemidis, A., Sofoniou, M. and Kouimtzis, T. (2003). Assessment of the surface water quality in Northern Greece. Water Research 37: 4119 – 4224. 121. Vega, M., Pardo, R., Barrato, E. and Deban, L. (1998). Assessment of seasonal and polluting effects on the quality of river water by exploratory data analysis. Water Research 32: 3581 – 3592. 122. Shrestha, S. and Kazama, F. (2007). Assessment of surface water quality using multivariate statistical techniques: a case study of the Fuji river basin, Japan. Environmental Modelling and Software 22: 464 – 475. 123. Kannel, P. R., Lee, S., Kanel, S. R. and Khan, S.P. (2007). Chemometric application in classification and assessment of monitoring locations of an urban river system. Analytica Chimica Acta 582: 390 – 399. 124. Fatoba, P.O., Ogunkunle, C.O., Oyedeji, S. and Salawudeen, M. B. (2013). Heavy metal depositions around some Petroleums Product Depots in Nigeria, using mosses as biomonitors. The Bioscientist 1: 99-105. 125. Pandey, S. S., Kim, K. H., Yim, U.H., Jung, M.C., and Kang, C.H. (2009). Airborne mercury pollution from a large oil spill accident on the west coast of Korea. Journal of Hazardous Materials 164: 380 – 384. 126. British Petroleum, BP. (2010). BP Has Extensive Production Operations in North America Focused on Offshore Gulf of Mexico and Alaska. Available: http://www.bp.com/productfamily.do? categoryId=16002776&content Id=7020157 [accessed 22 June 2011] 127. Bartolomé, L., Navarro, P., Raposo, J.C., Arana, G., Zuloaga, O. and Etxebarria, N. (2010). Occurrence and distribution of metals in mussels from the Cantabrian coast. Achieve Environmental Contaminant Toxicology. 59(2): 235 – 243. 128. Perez-Lopez, M., Cid, F., Oropesa A. L., Fidalgo, L. E., Beceiro A. L. and Soler, F. (2006). Heavy metal and arsenic content in seabirds affected by the Prestige oil spill on the Galician coast (NW Spain). Science of the Total Environment 359: 209 – 220. 129. Wang, H., Zhu, N., Cai, D., Wang, Y., Liu, Y., Tian, S., Wang, Y. and Huo, R. (2014) Evaluation and content of various heavy metals found in the fish (Chaeturichthys stigmatias Richardson)collected from the oil spill area of Bohai Bay (China) during the Summer. Advanced Materials Research 955-959: 1448 – 1451. 130. Wilhelm, S. M., Liang, L., Cussen, D. and Kirchgessner, D. A. (2007). Mercury in crude oil processed in the United States (2004). Environmental Science & Technology 41(13): 4509 – 4514. 131. Bu-Olayan, A. H., Subrahmanyam, M. N. V., Al-Sarawi, M. and Thomas, B. V. (1998). Effects of the Gulf War oil spill in relation to trace metals in water, particulate matter, and PAHs from the Kuwait Coast. Environment International 24(7): 789 –797.
originalfilename 6975-01-FH02-ESERI-15-04697.jpg
person norman
recordtype oai_dc
resourceurl https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12668
spelling 12668 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12668 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal image/jpeg inches 96 96 norman 1431 766 75 75 2015-12-30 16:20:34 1431x766 6975-01-FH02-ESERI-15-04697.jpg UniSZA Private Access Oil spill related heavy metal: A review [Logam berat berkaitan tumpahan minyak: Satu ulasan] Malaysian Journal of Analytical Sciences Oil spill occurs every day worldwide and oil contamination is a significant contributor for the higher levels of heavy metals in the environment. This study is purposely to summarize the heavy metals which significant to major oil spill incidents around the world and effects of toxic metals to human health. The study performed a comprehensive review of relevant scientific journal articles and government documents concerning heavy metals contamination and oil spills. Overall, the heavy metals most frequently been detected in oil spill related study where Pb>Ni>V>Zn>Cd and caused many effects to human health especially cancer. In conclusion, the comparison of heavy metal level between the post - spill and baseline levels must be done, and implementation of continuous monitoring of heavy metal. In addition, the result based on the strategies must be transparent to public in order to maintaining human health. 19 6 Malaysian Society of Analytical Sciences Malaysian Society of Analytical Sciences 1348-1360 1. Wang, Z., Stout, S. A. and Fingas, M. (2006). Forensic Fingerprinting of Biomarkers for Oil Spill Characterization and Source Identification. Environmental Forensics 7: 105–146. 2. Obiajunwa, E. I., Pelemo, D. A., Owolabi, S. A., Fasasi, M. K. and Johnson-Fatokun, F. O. (2002). Characterisation of heavy metal pollutants of soils and sediments around a crude-oil production terminal using EDXRF. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 194(1): 61-64. 3. Wang, Z., Fingas, M. and Page, D. S. (1999). Oil spill identification. Journal of Chromatography A 843 (1): 369-411. 4. Schmidt-Etkin, D. (2011). Spill occurrences: A world overview. Oil Spill Science and Technology: 7-48. 5. U. S. Department of Energy. (2004). Energy Information Administration Website. 6. International Energy Agency (2012). International Energy Agency Oil Market Report for 2009. Information Administration Website 7. McNutt, M. K., Camilli, R., Crone, T. J., Guthrie, G. D., Hsieh, P. A., Ryerson, T. B. and Shaffer, F. (2012). Review of flow rate estimates of the Deepwater Horizon oil spill. Proceedings of the National Academy of Sciences 109(50): 20260 – 20267. 8. Adcroft, A., Hallberg, R., Dunne, J. P., Samuels, B. L., Galt, J. A., Barker, C. H. and Payton, D. (2010). Simulations of underwater plumes of dissolved oil in the Gulf of Mexico. Geophysical Research Letters 37(18): 1-5. 9. Hoch, M. (2010). New Estimate Puts Gulf Oil Leak at 205 Million Gallons. 10. Johnson, C. N., Flowers, A. R., Noriea, N. F., Zimmerman, A. M., Bowers, J. C., DePaola, A. and Grimes, D. J. (2010). Relationships between environmental factors and pathogenic vibrios in the northern Gulf of Mexico. Applied and Environmental Microbiology 76(21): 7076 – 7084. 11. Michel, J., Nixon, Z., Hayes, M.O., Short, J., Irvine, G., Betenbaugh, D., Boring, C., Mann, D. (2010). Distribution of subsurface oil from the Exxon Valdez oil spill. Exxon Valdez oil spill restoration project final report. Restoration Project 070801. National Oceanic and Atmospheric Administration, Juneau, Alaska. pp121. 12. Crone, T. J. and Tolstoy, M. (2010). Magnitude of the 2010 Gulf of Mexico oil leak. Science 330(6004): 634- 634. 13. Mulabagal, V., Yin, F., John, G. F., Hayworth, J. S., and Clement, T. P. (2013). Chemical fingerprinting of petroleum biomarkers in Deepwater Horizon oil spill samples collected from Alabama shoreline. Marine Pollution Bulletin 70(1-2), 147–154. 14. Hayworth, J. S., Clement, T. P. and Valentine, J. F. (2011). Deepwater Horizon oil spill impacts on Alabama beaches. Hydrology and Earth System Sciences 15(12): 3639 - 3649. 15. Boehm, A. B., Yamahara, K. M. and Sassoubre, L. M. (2014). Diversity and transport of microorganisms in intertidal sands of the California Coast. Applied and Environmental Microbiology 80(13): 3943-3951. 16. Wiens, J. A. (Ed.). (2013). Oil in the environment: Legacies and lessons of the Exxon Valdez oil spill. Cambridge University Press. 17. Wells, P.G., Butler, J.N., Hughes, J.S. (eds). (1995). Fate and effects in Alaskan waters. American Society for Testing and Materials, Philadelphia, PA: pp458. 18. Rice, S. D., Spies, R. B., Wolfe, D. A., Wright, B. A. (eds). (1996). Proceedings of Exxon Valdez Oil Spill Symposium. American Fisheries Society Symposium 18, Bethesda, MD: pp 931. 19. Boehm, P. D., Page, D. S., Gilfillan, E. S., Stubblefield, W. A., Harner, E. J. (1995). Shoreline ecology program for Prince William Sound, Alaska, following the Exxon Valdez oil spill: Part 2—Chemistry and toxicology. In: Exxon Valdez Oil Spill: Fate and Effects in Alaskan Waters. P. G. Wells, J. N. Butler, and J. S. Hughes (eds). American Society for Testing and Materials, Philadelphia, PA. 20. Neff, J. M. (1995). Shoreline oiling conditions in Prince William Sound following the Exxon Valdez oil spill. In: Wells, P.G., Butler, J.N., Hughes, J.S. (eds.), Exxon Valdez Oil Spill: Fate and Effects in Alaskan . 21. Page, D. S., Boehm, P. D., Neff, J. M. (2008). Shoreline type and subsurface oil persistence in the Exxon Valdez spill zone of Prince William Sound, Alaska. In: Proceedings of the 31st AMOP Technical Seminar on Environmental Contamination and Response. June 3−5. 22. Page, D. S., Boehm, P. D., Brown, J. S., Gundlach, E. R. and Neff, J. M. (2013). Fate of oil on shorelines. Oil in the Environment: Legacies and Lessons of the Exxon Valdez Oil Spill: 116-143. 23. Short, J.W., Lindeberg, M.R., Harris, P.M., Maselko, J.M., Pella, J.J., Rice, S.D. 2004. Estimate of oil persisting on the beaches of Prince William Sound 12 years after the Exxon Valdez oil spill. Environmental Science & Technology 38: 19 – 25. 24. Nixon, Z., Michel, J., Hayes, M. O., Irvine, G. V. and Short, J. (2013). Geomorphic factors related to the persistence of subsurface oil from the Exxon Valdez oil spill. Journal of Coastal Research 69(sp1): 115-127. 25. Fingas, M. (Ed.). (2010). Oil spill science and technology. Gulf Professional Publishing. 26. Tawfiq, N. and Olsen, D. A. (1993). Saudi Arabia's response to the 1991 Gulf oil spill. Marine Pollution Bulletin 27: 333-345. 27. Gundlach E. R., McCain J. C., Fadlallah Y. H. (1993). Distribution of Oil Along the Saudi Arabian Coastline (May/June 1991) as a Result of the Gulf War Oil Spills. Marine Pollution Bulletin 27: 93 – 96. 28. Hayes, M. O., Michel, J., Montello, T. M., Aurand, D. V., Al-Mansi, A. M., Al-Moamen, A. H., Sauer, T. C. and Thayer, G. W. (1993). Distribution and weathering of shoreline oil one year after the Gulf War oil spill. Marine Pollution Bulletin, 27: 135-142. 29. Hayes, M. O., Michel, J., Montello, T. M., Aurand, D. V., Sauer, T. C., Al-Mansi, A. and Al-Momen, A. H. (1995). Distribution and weathering of oil from the Iraq-Kuwait conflict oil spill within intertidal habitats-two years later. In International Oil Spill Conference. American Petroleum Institute (1): 443-451 30. Censi, P., Spoto, S. E., Saiano, F., Sprovieri, M., Mazzola, S., Nardone, G. and Ottonello, D. (2006). Heavy metals in coastal water systems. A case study from the northwestern Gulf of Thailand. Chemosphere 64: 1167–1176. 31. Carls, E. G., Fenn, D. B.and Chaffey, S. A. (1995). Soil contamination by oil and gas drilling and production operations in Padre Island National Seashore, Texas, USA. Journal of Environmental Management 45(3): 273-286. 32. Kisic, I., Mesic, S., Basic, F., Brkic, V., Mesic, M., Durn, G., Zgorelec, Z. and Bertovic, L. (2009). The effect of drilling fluids and crude oil on some chemical characteristics of soil and crops. Geoderma 149(3): 209 – 216. 33. Krzyzanowski, J. (2012). Environmental pathways of potential impacts to human health from oil and gas development in northeast British Columbia, Canada. Environmental Reviews 20(2): 122-134. 34. Yen, T. F. (1975). Genesis and degradation of petroleum hydrocarbons in marine environments. In Marine Chemistry in the Coastal Environment, edited by TM Church (Am. Chem. Soc. Symposium Ser. Nolg, 1975): pp. 23l-266). 35. Fu, J., Wang, Q., Wang, H., Yu, H. and Zhang, X. (2014). Monitoring of non-destructive sampling strategies to assess the exposure of avian species in Jiangsu Province, China to heavy metals. Environmental Science and Pollution Research 21(4): 2898 – 2906. 36. Onojake, M. C. and Frank, O. (2013). Assessment of heavy metals in a soil contaminated by oil spill: a case study in Nigeria. Chemistry and Ecology 29(3): 246 – 254. 37. Nie, M., Xian, N., Fu, X., Chen, X. and Li, B. (2010). The interactive effects of petrolem-hydrocarbon spillage and plant rhizosphere on concentrations and distribution of heavy metals in sediments in the Yellow River Delta, China. Journal of Hazardous Materials 174(1): 156 –161. 38. Bastami, K. D., Bagheri, H., Haghparast, S., Soltani, F., Hamzehpoor, A. and Bastami, M. D. (2012). Geochemical and geo-statistical assessment of selected heavy metals in the surface sediments of the Gorgan Bay, Iran. Marine Pollution Bulletin 64(12): 2877 – 2884. 39. Google (2011). Google Scholar. Available: http://scholar.google.com/ [accessed 15 March 2011]. 40. Apeti, D. A. and Hartwell, I. S. (2015). Baseline assessment of heavy metal concentrations in surficial sediment from Kachemak Bay, Alaska. Environmental Monitoring and Assessment 187(1): 1-11. 41. Gohlke, J. M., Doke, D., Tipre, M., Leader, M. and Fitzgerald, T. (2011). A review of seafood safety after the Deepwater Horizon blowout. Environmental Health Perspectives 119(8): 1062 – 1069. 42. Solomon, G. M. and Janssen, S. (2010). Health effects of the Gulf oil spill. Journal American Medical Association 304(10): 1118 – 1119. 43. Wainipee, W., Weiss, D. J., Sephton, M. A., Coles, B. J., Unsworth, C. and Court, R. (2010). The effect of crude oil on arsenate adsorption on goethite. Water Research 44(19): 5673 – 5683. 44. Kimbrough K, Johnson W. E., Lauenstein G. G., Christensen J. D. and Apeti D. A. (2008). An Assessment of Two Decades of Contaminant Monitoring in the Nation’s Coastal Zone. NOAA Technical Memorandum NOS NCCOS 74. Silver Spring, MD: National Oceanic and Atmospheric Administration. 45. National Oceanic and Atmospheric Administration, NOAA (2011). The Mussel Watch Program, National Status and Trends Database. Available: http://ccma.nos.noaa.gov/about/coast/nsandt/download.aspx [accessed 21 June 2011]. 46. U.S. Environmental Protection Agency, U.S. EPA (2009). The National Listing of Fish Advisories: Release of 2008 Data. Available: http://water.epa.gov/scitech/swguidance/fishshellfish/fishadvisories/ [accessed 14 December 2010]. 47. Bartolomé, L., Navarro, P., Raposo, J. C., Arana, G., Zuloaga, O., Etxebarria, N. and Soto, M. (2010). Occurrence and distribution of metals in mussels from the Cantabrian coast. Archives of Environmental Contamination and Toxicology 59(2): 235 – 243. 48. Villares, R., Real, C., Fernández, J. Á., Aboal, J. and Carballeira, A. (2007). Use of an environmental specimen bank for evaluating the impact of the Prestige oil spill on the levels of trace elements in two species of Fucus on the coast of Galicia (NW Spain). Science of The Total Environment 374(2): 379 – 387. 49. Barbour E. K., Sabra A. H., Bianu E. G., Jaber L.,S and Shaib H. A. (2009). Oppositional dynamics of organic versus inorganic contaminants in oysters following an oil spill. Journal Coastal Research 25(4): 864 – 869. 50. Kumar, R. S. (2000). A review of biodiversity studies of soil dwelling organisms in Indian mangroves. Zoos’ Print Journal 15(3): 221 – 227. 51. Reinecke, A. J., Snyman, R. G. and Nel, J. A. J. (2003). Uptake and distribution of lead (Pb) and cadmium (Cd) in the freshwater crab, Potamonautes perlatus (Crustacea) in the Eerste River, South Africa. Water, Air, and Soil Pollution 145(1-4): 395 – 408. 52. Ikem, A., Egiebor, N. O. and Nyavor, K. (2003). Trace elements in water, fish and sediment from Tuskegee Lake, Southeastern USA. Water, Air, and Soil Pollution 149(1-4): 51 – 75. 53. Eimers, M. C., Evans, R. D. and Welbourn, P. M. (2001). Cadmium accumulation in the freshwater isopod Asellus racovitzai: the relative importance of solute and particulate sources at trace concentrations. Environmental Pollution 111(2): 247 – 253. 54. Ho, K. C., Chow, Y. L., and Yau, J. T. S. (2003). Chemical and microbiological qualities of The East River (Dongjiang) water, with particular reference to drinking water supply in Hong Kong. Chemosphere 52(9): 1441 - 1450. 55. Clément, J. C., Aquilina, L., Bour, O., Plaine, K., Burt, T. P. and Pinay, G. (2003). Hydrological flowpaths and nitrate removal rates within a riparian floodplain along a fourth‐order stream in Brittany (France). Hydrological Processes 17(6): 1177 – 1195. 56. Al-Mohanna, S. Y. and Subrahmanyam, M. N. V. (2001). Flux of heavy metal accumulation in various organs of the intertidal marine blue crab Portunus pelagicus (L.) from the Kuwait coast after the Gulf War. Environment International 27(4): 321 – 326. 57. Abdel-Baki, A. S., Sakran, T. and Zayed, E. (2011). Validity, impacts and seasonal prevalence of Henneguya species infecting catfish Clarias gariepinus from River Nile, Egypt. Parasitology Research 109(1):119 – 123. 58. Pieniak, Z., Kołodziejczyk, M., Kowrygo, B. and Verbeke, W. (2011). Consumption patterns and labelling of fish and fishery products in Poland after the EU accession. Food Control 22(6): 843 – 850. 59. Sioen, I., Matthys, C., De Backer, G., Van Camp, J. and Henauw, S. D. (2007). Importance of seafood as nutrient source in the diet of Belgian adolescents. Journal of Human Nutrition and Dietetics 20(6): 580 – 589. 60. Al-Busaidi, M., Yesudhason, P., Al-Mughairi, S., Al-Rahbi, W. A. K., Al-Harthy, K. S., Al-Mazrooei, N. A. and Al-Habsi, S. H. (2011). Toxic metals in commercial marine fish in Oman with reference to national and international standards. Chemosphere 85(1): 67 – 73. 61. Livingstone, D. R. (2003). Oxidative stress in aquatic organisms in relation to pollution and aquaculture. Revue de Medecine Veterinaire 154(6): 427 – 430. 62. Batvari, B. P. D., Kamala-Kannan, S., Shanthi, K., Krishnamoorthy, R., Lee, K. J. and Jayaprakash, M. (2008). Heavy metals in two fish species (Carangoidel malabaricus and Belone stronglurus) from Pulicat Lake, North of Chennai, Southeast Coast of India. Environmental Monitoring and Assessment 145(1-3): 167 – 175. 63. Simon, T. P., Jankowski, R. and Morris, C. (2000). Modification of an index of biotic integrity for assessing vernal ponds and small palustrine wetlands using fish, crayfish, and amphibian assemblages along southern Lake Michigan.Aquatic Ecosystem Health and Management 3(3): 407 – 418. 64. Nduka, J. K. C., Constance, E. and Obiakor, E. (2006). Selective bioaccumulation of metals by different parts of some fish species from crude oil polluted water. Bul. Environ. Contaminant Toxicology 77: 846 – 853. 65. Obaseki, P. J. (2000). Globalisation and the Nigerian economy. Central Bank of Nigeria Economic and Financial Review 38(2): 17 – 33. 66. Copat, C., Bella, F., Castaing, M., Fallico, R., Sciacca, S. and Ferrante, M. (2012). Heavy metals concentrations in fish from Sicily (Mediterranean Sea) and evaluation of possible health risks to consumers. Bulletin of Environmental Contamination and Toxicology 88(1): 78 – 83. 67. Ahmad, А. К. and Shuhaimi-Othman, M. (2010). Heavy Metal Concentrations in Sediments and Fishes from Lake Chini, Pahang, Malaysia. Journal of Biological Sciences 10(2): 93 – 100. 68. Mathews, T. and Fisher, N. S. (2009). Dominance of dietary intake of metals in marine elasmobranch and teleost fish. Science of the total environment 407(18): 5156 – 5161. 69. Al-Husaini, I., Abdul-Wahab, S., Ahamad, R. and Chan, K. (2014). Levels of Cd, Cu, Pb and V in marine sediments in the vicinity of the Single Buoy Moorings (SBM3) at Mina Al Fahal in the Sultanate of Oman. Marine Pollution Bulletin 83(1): 337 – 342. 70. Ruelas-Inzunza, J., Páez-Osuna, F., Zamora-Arellano, N., Amezcua-Martínez, F., and Bojórquez-Leyva, H. (2009). Mercury in biota and surficial sediments from Coatzacoalcos estuary, Gulf of Mexico: distribution and seasonal variation. Water, Air, and Soil Pollution 197(1-4): 165-174. 71. El-Tokhi, M. M. and Mostafa, Y. M. (2001). Heavy metals and petroleum hydrocarbons contamination of bottom sediments of El Sukhna area, Gulf of Suez, Egypt. Petroleum Science and Technology 19(5-6): 481 – 494. 72. Owamah, H. I. (2013). Heavy metals determination and assessment in a petroleum impacted River in the Niger Delta Region of Nigeria. Journal of Petroleum & Environmental Biotechnology, 4(1): 1 – 4. 73. Yi, Y., Yang, Z. and Zhang, S. (2011). Ecological risk assessment of heavy metals in sediment and human health risk assessment of heavy metals in fishes in the middle and lower reaches of the Yangtze River basin. Environmental Pollution, 159(10): 2575-2585. 74. Enk, M. D. and Mathis, B. J. (1977). Distribution of cadmium and lead in a stream ecosystem. Hydrobiologia 52(2-3): 153 –158. 75. Anderson, R. V., Vinikour, W. S. and Brower, J. E. (1978). The distribution of Cd, Cu, Pb and Zn in the biota of two freshwater sites with different trace metal inputs. Ecography 1(4): 377 – 384. 76. Burrows, I. G. and Whitton, B. A. (1983). Heavy metals in water, sediments and invertebrates from a metalcontaminated river free of organic pollution. Hydrobiologia 106(3): 263 – 273. 77. Barak, N. E. and Mason, C. F. (1989). Heavy metals in water, sediment and invertebrates from rivers in eastern England. Chemosphere 19(10): 1709 – 1714. 78. Luoma, S. N. and Bryan, G. W. (1978). Factors controlling the availability of sediment-bound lead to the estuarine bivalve Scrobicularia plana. Journal of the Marine Biological Association of the United Kingdom 58(04), 793-802. 79. Yuan, J. M., Ross, R. K., Gao, Y. T. and Mimi, C. Y. (2001). Fish and shellfish consumption in relation to death from myocardial infarction among men in Shanghai, China. American Journal of Epidemiology 154(9): 809 – 816. 80. Thomas, L. D., Hodgson, S., Nieuwenhuijsen, M. and Jarup, L. (2009). Early kidney damage in a population exposed to cadmium and other heavy metals. Environment Health Perspective 117(2): 181 –184. 81. Zheng, G., Tian, L., Liang, Y., Broberg, K., Lei, L., Guo, W., Nilsson, J., Bergdahl, I.A., Skerfving, S. and Jin, T. (2011). δ-Aminolevulinic acid dehydratase genotype predicts toxic effects of lead on workers’ peripheral nervous system. Neurotoxicology 32: 374 – 382. 82. Fernandes, C., Fontaínhas-Fernandes, A., Cabral, D., and Salgado, M. A. (2008). Heavy metals in water, sediment and tissues of Liza saliens from Esmoriz-Paramos lagoon, Portugal. Environmental Monitoring and Assessment, 136(1-3): 267–75. 83. Krishna, P., Jyothirmayi, V. and Madhusudhana Rao, K. (2014). Human health risk assessment of heavy metal accumulation through fish consumption, from Machilipatnam Coast, Andhra Pradesh, India. International Research Journal of Public and Environmental Health 1(5): 121–125. 84. Stern, B. R., Solioz, M., Krewski, D., Aggett, P., Aw, T.-C., Baker, S. and Starr, T. (2007). Copper and human health: biochemistry, genetics, and strategies for modeling dose-response relationships. Journal of Toxicology and Environmental Health, 10: 157–222. 85. Griswold, W. (2009). Human Health Effects of Heavy Metals. Issue 15. Center for Hazardous Substance Research. Kansas State University. 86. ATSDR, U. D. (1993). Toxicological profile for benzene Agency for toxic substances and disease Registry, US Department of Health and Human Services. Public Health Service. 87. Liu, P., Wang, C., Song, X. and Wu, Y. (2010). International Journal of Hygiene and Dietary intake of lead and cadmium by children and adults – Result calculated from dietary recall and available lead / cadmium level in food in comparison to result from food duplicate diet method. International Journal of Hygiene and Environmental Health 213: 450–457. 88. Cid, B. P., Boia, C., Pombo, L., & Rebelo, E. (2001). Determination of trace metals in fish species of the Ria de Aveiro (Portugal) by electrothermal atomic absorption spectrometry. Food Chemistry 75(1): 93 –100. 89. Moiseenko, T. I. and Kudryavtseva, L. P. (2001). Trace metal accumulation and fish pathologies in areas affected by mining and metallurgical enterprises in the Kola Region, Russia. Environmental Pollution 114(2): 285 – 297. 90. Castro-González, M. I. and Méndez-Armenta, M. (2008). Heavy metals: Implications associated to fish consumption. Environmental Toxicology and Pharmacology 26(3): 263 – 271. 91. Sivaperumal, P., Sankar, T. V. and Nair, P. V. (2007). Heavy metal concentrations in fish, shellfish and fish products from internal markets of India vis-a-vis international standards. Food Chemistry 102(3): 612 – 620. 92. Uysal, K., Emre, Y. and Köse, E. (2008). The determination of heavy metal accumulation ratios in muscle, skin and gills of some migratory fish species by inductively coupled plasma-optical emission spectrometry (ICP-OES) in Beymelek Lagoon (Antalya/Turkey). Microchemical Journal 90(1): 67 – 70. 93. Palaniappan, P. R. and Karthikeyan, S. (2009). Bioaccumulation and depuration of chromium in the selected organs and whole body tissues of freshwater fish Cirrhinus mrigala individually and in binary solutions with nickel. Journal of Environmental Sciences 21(2): 229 – 236. 94. Beyer, W. N., Gaston, G., Brazzle, R., O'Connell, A. F. and Audet, D. J. (2007). Deer exposed to exceptionally high concentrations of lead near the Continental Mine in Idaho, USA. Environmental Toxicology and Chemistry 26(5): 1040 – 1046. 95. Ma, W.C., 2011. Lead in mammals. In: Beyer, W.N., Meador, J.P. (Eds.), Environmental Contaminants in Biota: Interpreting Tissue Concentrations, 2nd ed. CRC Press, Boca Raton, USA, pp 595 – 608. 96. Skerfvings, and Bergdahl I. (2007). Lead. In In Nordberg et al (eds). Handbook on the Toxicology of Metals, 3rd ed; Academic Press/Elsevier: pp 599-635. 97. Sharpe, R. T. and Livesey, C. T. (2005). Surveillance of suspect animal toxicoses with potential food safety implications in England and Wales between 1990 and 2002. The Veterinary Record 157(16): 465 – 469. 98. Thompson, J. P., Lempiainen, H., Hackett, J. A., Nestor, C. E., Muller, A., Bolognani, F., Oakeley, E. J., Schubeler, D. Terranova, R., Reinhardt, D., Moggs, J. G. and Meehan, R. R. (2012). Non-genotoxic carcinogen exposure induces defined changes in the 5-hydroxymethylome. Genome Biology 13(10): 1 – 17. 99. Faulkner-Hudson, T. G., & Browning, E. (1964). Vanadium. In Toxicology and Biological Significance. Elsevier Amsterdam. 100. Waters, M. D. (1977). Toxicology of vanadium. Advances in Modern Toxicology 2: 147 – 189. 101. Friberg, L., Nordberg, G.F. and Vouk, V.B. (Eds.), 1979. Handbook on the Toxicology of Metals. Elsevier/North- Holland Biomedical Press, Amsterdam. 102. SIMRAC (Safety in Mines Research Advisory Committee Report), (2000). Hazardous metals in mining processing plants in South Africa. The risk of occupational exposure. Mine Health and Safety Council. 103. Barth, A., Schaffer, A.W., Konnaris, C., Blauensteiner, R., Winker, R., Osterode, W. and Rudiger, H.W. (2002). Neurobehavioral effects of vanadium. Journal Toxicology Environmental Health Part A 65 (9): 677– 683. 104. Denkhaus, E. and Salnikow, K. (2002). Nickel essentiality, toxicity, and carcinogenicity. Critical reviews in oncology/hematology, 42(1), 35-56. 105. Centeno, L. M. (2000). Geochemistry of an acid-contaminated stream in New Lexington, Ohio. 106. Lancaster, J. R. (1988). The bioinorganic chemistry of nickel. Vch Pub 107. Orrenius, S., Zhivotovsky, B., & Nicotera, P. (2003). Regulation of cell death: the calcium–apoptosis link. Nature Reviews Molecular Cell Biology 4(7): 552 – 565. 108. Shen, W. H., Moore, C. C., Ikeda, Y., Parker, K. L. and Ingraham, H. A. (1994). Nuclear receptor steroidogenic factor 1 regulates the Müllerian inhibiting substance gene: a link to the sex determination cascade. Cell 77(5): 651 – 661. 109. Sigel, A., Sigel, H. and Sigel, R. K. (Eds.). (2007). Nickel and its surprising impact in nature: metal ions in life sciences (Vol. 5). John Wiley & Sons. 110. Miller, W. R. (1996). Estrogen and breast cancer. London: Chapman and Hall. 111. Benbrahim-Tallaa, L., Liu, J., Webber, M. M. and Waalkes, M.P. (2007). Estrogen signaling and disruption of androgen metabolism in acquired androgen-independence during cadmium carcinogenesis in human prostate epithelial cells. The Prostate 67: 135–145. 112. WHO. (1992b). Cadmium: Environmental aspect, environmental health criteria, 135. Geneva: World Health Organisation. 113. Pan, J., Plant, J. A., Voulvoulis, N., Oates, C. J., & Ihlenfeld, C. (2010). Cadmium levels in Europe: implications for human health. Environmental Geochemistry and Health 32(1): 1 – 12. 114. Institute of Medicine, Food and Nutrition Board (2001). Dietary Reference Intakes for Vitamin A, Vitamin K, Arsenic, Boron, Chromium, Copper, Iodine, Iron, Manganese, Molybdenum, Nickel, Silicon, Vanadium, and Zinc. Washington, DC: National Academy Press. 115. Lewis, M. R. and Kokan, L. (1998). Zinc gluconate: acute ingestion. Clinical Toxicology 36(1-2): 99 – 101. 116. Hooper, R. P., Christophersen, N. and Peters, N. E. (1990). Modelling streamwater chemistry as a mixture of soilwater end-members—An application to the Panola Mountain catchment, Georgia, USA. Journal of Hydrology 116(1): 321 – 343. 117. Johnson, A. R., Munoz, A., Gottlieb, J. L. and Jarrard, D. F. (2007). High dose zinc increases hospital admissions due to genitourinary complications. The Journal of Urology 177(2): 639 – 643. 118. Owamah, H. I. (2013). Heavy metals determination and assessment in a petroleum impacted River in the Niger Delta Region of Nigeria. Journal of Petroleum & Environmental Biotechnology 4(1): 1 – 4. 119. Osakwe SA, Otuya BO, Adaikpoh EO (2003) Determination of Pb, Cu, Ni, Fe,and Hg in the soils of Okpai Delta State, Nigeria. Nigerian Journal of Science and Environment 3: 45 – 49. 120. Simeonov, V., Stratis, J.A., Samara, C., Zachariadis, G., Voutsa, D., Anthemidis, A., Sofoniou, M. and Kouimtzis, T. (2003). Assessment of the surface water quality in Northern Greece. Water Research 37: 4119 – 4224. 121. Vega, M., Pardo, R., Barrato, E. and Deban, L. (1998). Assessment of seasonal and polluting effects on the quality of river water by exploratory data analysis. Water Research 32: 3581 – 3592. 122. Shrestha, S. and Kazama, F. (2007). Assessment of surface water quality using multivariate statistical techniques: a case study of the Fuji river basin, Japan. Environmental Modelling and Software 22: 464 – 475. 123. Kannel, P. R., Lee, S., Kanel, S. R. and Khan, S.P. (2007). Chemometric application in classification and assessment of monitoring locations of an urban river system. Analytica Chimica Acta 582: 390 – 399. 124. Fatoba, P.O., Ogunkunle, C.O., Oyedeji, S. and Salawudeen, M. B. (2013). Heavy metal depositions around some Petroleums Product Depots in Nigeria, using mosses as biomonitors. The Bioscientist 1: 99-105. 125. Pandey, S. S., Kim, K. H., Yim, U.H., Jung, M.C., and Kang, C.H. (2009). Airborne mercury pollution from a large oil spill accident on the west coast of Korea. Journal of Hazardous Materials 164: 380 – 384. 126. British Petroleum, BP. (2010). BP Has Extensive Production Operations in North America Focused on Offshore Gulf of Mexico and Alaska. Available: http://www.bp.com/productfamily.do? categoryId=16002776&content Id=7020157 [accessed 22 June 2011] 127. Bartolomé, L., Navarro, P., Raposo, J.C., Arana, G., Zuloaga, O. and Etxebarria, N. (2010). Occurrence and distribution of metals in mussels from the Cantabrian coast. Achieve Environmental Contaminant Toxicology. 59(2): 235 – 243. 128. Perez-Lopez, M., Cid, F., Oropesa A. L., Fidalgo, L. E., Beceiro A. L. and Soler, F. (2006). Heavy metal and arsenic content in seabirds affected by the Prestige oil spill on the Galician coast (NW Spain). Science of the Total Environment 359: 209 – 220. 129. Wang, H., Zhu, N., Cai, D., Wang, Y., Liu, Y., Tian, S., Wang, Y. and Huo, R. (2014) Evaluation and content of various heavy metals found in the fish (Chaeturichthys stigmatias Richardson)collected from the oil spill area of Bohai Bay (China) during the Summer. Advanced Materials Research 955-959: 1448 – 1451. 130. Wilhelm, S. M., Liang, L., Cussen, D. and Kirchgessner, D. A. (2007). Mercury in crude oil processed in the United States (2004). Environmental Science & Technology 41(13): 4509 – 4514. 131. Bu-Olayan, A. H., Subrahmanyam, M. N. V., Al-Sarawi, M. and Thomas, B. V. (1998). Effects of the Gulf War oil spill in relation to trace metals in water, particulate matter, and PAHs from the Kuwait Coast. Environment International 24(7): 789 –797.
spellingShingle Oil spill related heavy metal: A review [Logam berat berkaitan tumpahan minyak: Satu ulasan]
summary Oil spill occurs every day worldwide and oil contamination is a significant contributor for the higher levels of heavy metals in the environment. This study is purposely to summarize the heavy metals which significant to major oil spill incidents around the world and effects of toxic metals to human health. The study performed a comprehensive review of relevant scientific journal articles and government documents concerning heavy metals contamination and oil spills. Overall, the heavy metals most frequently been detected in oil spill related study where Pb>Ni>V>Zn>Cd and caused many effects to human health especially cancer. In conclusion, the comparison of heavy metal level between the post - spill and baseline levels must be done, and implementation of continuous monitoring of heavy metal. In addition, the result based on the strategies must be transparent to public in order to maintaining human health.
title Oil spill related heavy metal: A review [Logam berat berkaitan tumpahan minyak: Satu ulasan]
title_full Oil spill related heavy metal: A review [Logam berat berkaitan tumpahan minyak: Satu ulasan]
title_fullStr Oil spill related heavy metal: A review [Logam berat berkaitan tumpahan minyak: Satu ulasan]
title_full_unstemmed Oil spill related heavy metal: A review [Logam berat berkaitan tumpahan minyak: Satu ulasan]
title_short Oil spill related heavy metal: A review [Logam berat berkaitan tumpahan minyak: Satu ulasan]
title_sort oil spill related heavy metal: a review [logam berat berkaitan tumpahan minyak: satu ulasan]

Similar Items