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References
| Al Farraj S, El-Gendy AH, Alyahya H, El-Hedeny M (2011). Heavy metals accumulation in the mantle of the common cuttlefish Sepia pharaonis from Arabian Gulf. Aust. J. Basic. Appl. Sci. 5(6):897–905. | ||||
|
Al-Busaidi M, Yesudhason P, Al-Mughairi S, Al-Rahbi WAK, Al-Harthy KS, Al-Mazrooei NA (2011). Toxic metals in commercial marine fish in Oman with reference to national and international standards. Chemosphere 84:67–73. Crossref |
||||
|
Al-Darwish H, El-Gawad Mohammed F, Lotfy M (2005). Assessment of contaminants in Dubai coastal region, United Arab Emirates. Environ. Geol. 49:240–250. Crossref |
||||
|
Al-Hashimi AH, Al-Zorba MA (1991). Mercury in some commercial fish from Kuwait: A pilot study. Sci. Total. Environ. 106:71–82. Crossref |
||||
|
Al-Jamali F, Bishop J, Osment J, Jones D, LeVay L (2005). A review of the impacts of aquaculture and artificial waterways upon coastal ecosystems in the Gulf (Arabian/Persian) including a case study demonstrating how future management may resolve these impacts. Aquatic Ecosyst. Health Manage. 8:81–94. Crossref |
||||
|
Al-Jedah JH, Robinson RK (2001). Aspects of the safety of fish caught off the coast of Qatar. Food Control. 12:549–552. Crossref |
||||
|
Al-Madfa H, Abdel-Moati M, Al-Gimaly F (1998). Pinctada radiata (pearl oyster): a bioindicator for metal pollution monitoring in the Qatari waters (Arabian Gulf). Bull. Environ. Contam. Toxicol. 60:245–251. Crossref |
||||
| Al-Mahroos F, Al-Saleh F (2000). Umbilical cord blood lead level of newborns in Bahrain. Curr. Pediatr. Res. 4(1):7–12. | ||||
|
Al-Saleh I, Doush I (2002). Mercury contents in shrimp and fish species from the Gulf Coast of Saudi Arabia. Bull. Environ. Contam. Tox. 68:576–583. Crossref |
||||
| Al-Sayed H, Dairi M (2006). Metal accumulation in the edible marine snail Turbo coronatus (Gmelin) from different locations in Bahrain. Arab J. Sci. Res. 24:48-57. | ||||
|
Al-Sayed H, Mahasneh A, Al-Saad J (1994). Variation of trace metal concentrations in seawater and pearl oyster Pinctada radiata from Bahrain (Arabian Gulf). Mar. Pollut. Bull. 28(6):370–374. Crossref |
||||
|
Alyahya H, El-Gendy A, Al Farraj S, El-Hedeny M (2011). Evaluation of Heavy metal pollution in the Arabian Gulf using the clam Meretrix meretrix Linnaeus, 1758. Water Air Soil Pollut. 214:499–507. Crossref |
||||
| Bu-Olayan AH, Thomas BV (2001). Arsenic levels in the marine ecosystem off the Kuwait coast. Arabian Gulf Environ. 21:71–75. | ||||
|
Buo-Olayan A, Subrahmanyam M (1997). Accumulation of copper, nickel. Lead and zinc by snail, Lunella coronatus and pearl oyster, Pinctada radiata from the Kuwait coast before and after the Gulf war oil spill. Sci. Total Environ. 197:161-165. Crossref |
||||
|
Chang XL, Jin TY, Chen L (2009). Metallothionein I Isoform mRNA Expression in Peripheral Lymphocytes as a Biomarke for Occupational Cadmium Exposure. Experimental Biol. Medicine. 234:666–672, ISSN 1535-3702 Crossref |
||||
|
Corbari L, Zbinden M, Cambon-Bonavita MA, Gaill F, Compere P (2008). Bacterial symbionts and mineral deposits in the branchial chamber of the hydrothermal vent shrimp Rimicaris exoculata: Relationship to moult cycle. Aquatic Biol. 1:225–238. Crossref |
||||
|
Daoji L, Dag D (2004). Ocean pollution from land-based sources: East China sea. AMBIO – J. Human Environ. 33(1/2):107-113. Crossref |
||||
|
De Mora S, Fowler S, Wyse E, Azemard S (2004). Distribution of heavy metals In marine bivalves, fish and coastal sediments in the Gulf and Gulf of Oman. Mar. Pollut. Bull. 49:410–424. Crossref |
||||
|
De Mora S, Tolosa I, Fowler S, Villeneuve J, Cassi R, Cattini C (2010). Distribution of petroleum hydrocarbons and organochlorinated contaminants in marine biota and coastal sediments from the ROPME Sea Area during 2005. Mar. Pollut. Bull. 60:2323–2349. Crossref |
||||
|
De Forest D, Brix K, Adams W (2007). Assessing metal bioaccumulation in aquatic environments: The inverse relationship between bioaccumulation factors,trophic transfer factors and exposure concentration. Aquat. Toxicol. 84:236–246. Crossref |
||||
| Dijana G, Jasminka D, Vesna S, Teuta T (2012). Analysis of Heavy Metals concentration in Wastewater along Highways in Croatia. J. Computing Info. Technol. CIT 20(3):209–215. | ||||
| Egyptian Organization for Standardization (1993). Egyptian standard, maximum levels for heavy metal concentrations in food. ES 2360-993,UDC:546.19:815. Egypt. | ||||
| El-Gendy A (2003). Biomarkers of pollution in the clam Scapharca inaequivalvis Bruguiere, 1789. Ph. D. thesis submitted to Zoology Department, Faculty of Science, Alexandria University, Egypt. | ||||
|
Freije AM (2014). Heavy metal, heavy element and petroleum hydrocarbon pollution in the Arabian Gulf: Review. J. Assoc. Arab Universities for Basic Appl. Sci. pp.1-11. Crossref |
||||
|
Hedge L, Knott A, Johnston E (2009). Dredging related metal bioaccumulation in oysters. Mar. Pollut. Bull. 58:832–840. Crossref |
||||
|
Injuk J, Van Grieken R, Blank A, Eksperiandovam L, Buhrke V (2006). Specimen preparation. In: Beckhoff B, Kanngießer B, Langhoff N, Wedell R, Wolff H (eds) Handbook of practical X-ray fluorescence analysis. Springer, Berlin Heidelberg, pp. 411–432. Crossref |
||||
|
Islam Md. S, Tanaka M (2004). Impact of pollution on coastal and marine ecosystems including coastal and marine fisheries and approach for management: a review and synthesis. Mar. Pollut. Bull. 48:624–649. Crossref |
||||
| Juma HA, Al-Madany IS (2008). Concentration of heavy metals in the territorial sea water of the Kingdom of Bahrain, Arabian Gulf, Arab Gulf. J. Sci. Res. 26(1/2):19–32. | ||||
| Khade SN, Mane UH (2012). Diversity of Bivalve and Gastropod, Molluscs of some localities from Raigad district, Maharashtra, west coast of India. Recent Res. Sci. Technol. 4(10):43-48 | ||||
|
Khamdan SAA, Al Madany IM (2009). Temporal and spatial variations of the quality of ambient air in the Kingdom of Bahrain during 2007. Environ. Monit. Assess. 154:241–252. Crossref |
||||
| Khan MA, Al-Homaid NA (2008). Remote sensing study on mangrove depletion, Tarut Bay, Saudi Arabia. In (Alsharhan et al. (Eds.), Desertification in the third millennium. pp. 227–234. | ||||
| Khan N, Price P (2002). Legal and Institutional Frameworks. In: Khan, N., Munawar, M., Price, A. (Eds.), The Gulf ecosystem: Health and sustainability. Backhuys Publishers, Leiden. | ||||
| Khan NY, Munawar M, Price ARG (Eds.) (2001). The Gulf Ecosystem: Health and Sustainability. Backhuys Publishers, Leiden, pp. 327–351. | ||||
|
Nadim F, Bagtzoglou AC, Iranmahboob J (2008). Costal management in the Persian Gulf region within the framework of the ROPME programme of action. Ocean. Coast. Manage. 51:556–565. Crossref |
||||
|
Nagata C, Nagao Y, Shibuya C (2005). Urinary Cadmium and Serum Levels of Estrogens and Androgens in Postmenopausal Japanese Women. Cancer Epidemiology, Biomarkers Prevention. 14:705-708. Crossref |
||||
| Naithani V, Pathak N, Chaudhary M (2010). Evaluation of Heavy Metals in Two Major Ingredients of Ampucare. Int. J. Pharmaceutical Sci. Drug Res. 2(2):137-141. | ||||
| Naser H (2012). Metal Concentrations in Marine Sediments Influenced by Anthropogenic Activities in Bahrain, Arabian Gulf. In: Hong-Bo, Shao (Ed.), Metal Contaminations: Sources, Detection and Environmental Impacts. NOVA Science Publishers, Inc., New York, pp. 157–175. | ||||
|
Naser HA (2010). Testing taxonomic resolution levels for detecting environmental impacts using macrobenthic assemblages in tropical waters. Environ. Monit. Assess. 170:435–444. Crossref |
||||
|
Nicholas G, Paltridge–Lachlan J, Palmer-Paul J, Milham–Georgia E, Guild J, Stangoulis CR (2012). Energy-dispersive X-ray fluorescence analysis of zinc and iron concentration in rice and pearl millet grain. Plant Soil. Crossref |
||||
|
Perring L, Blanc L (2008). Faster Measurement of Minerals in Milk Powders: Comparison of a High Power Wavelength Dispersive XRF System with ICP-AES and Potentiometry Reference Methods. Food Anal. Methods. 1:205–213. Crossref |
||||
| Pete P (2010). Introduction to energy-dispersive x-ray fluorescence (XRF) –an analytical chemistry perspective. Department of Chemistry & Biochemistry San Francisco State University. Creative Commons Attribution-ShareAlike 3.0 Unported License. | ||||
| Radwan EH, Mahmoud GA, Saad GA, Radwan Kh. H (2009). Light and Electron Microscope studies on the effect of marine pollution on the histological characterization of the digestive gland of the pearl oyster Pinctada radiata (Leach 1814). J. Egy. Germ. Soc. Zool. 55(C):25-47. | ||||
|
Radwan EH, Hamed SS, Saad GA (2014). Temporal and spatial effects on some physiological parameters of the bivalve Lithophaga lithophaga (Linnaeus, 1758) from coastal regions of Alexandria. Egypt. Open J. Ecol. 4:732-743. Crossref |
||||
|
Readman JW, Fillmann G, Tolosa I, Bartocci J, Villeneuve JP, Catinni C, Mee LD (2002). Petroleum and PAH contamination of the Black Sea. Mar. Pollut. Bull. 44:48–62. Crossref |
||||
| Saad GA, Hamed SS, Radwan Kh. H, Radwan EH (2011). Screening of genomic DNA and analysis of heavy metals to identify mutations in the genes of Ciona intestinalis (Linnaeus, 1767) collected from the Mediterranean Sea – Alexandria, Egypt. Scientific Research and Essays, 6(23):4984-5003, | ||||
|
Sadiq M, Alam I (1989). Metal concentrations in Pearl Oyster, Pinctada radiata, collected from Saudi Arabian Coast of the Arabian Gulf. Bulletin Environ. Contamination Toxicol. 42:111–118. Crossref |
||||
| Saad GA, Radwan Kh. H, Mahmoud GA, Radwan EH (2008). Molecular characterization of Ciona intestinalis proteins using Polyacrylamide Gel Electrophoresis. J. Egy. Germ. Soc. Zool. 57(C):297-320. | ||||
|
Sadiq M, Alam IA, Al-Mohanna H (1992). Bioaccumulation of nickel and vanadium by clams (Meretrix meretrix) living in different salinities along the Saudi coast of the Arabian Gulf. Environmental Pollution. 76(3):225–231. Crossref |
||||
| Sadiq M, Saeed T, Fowler SW (2002). Seafood contamination. In: Khan, N.Y., Munawar, M., Price, A.R.G. (Eds.), The Gulf Ecosystem: Health and Sustainability. Backhuys Publishers, Leiden, pp. 327–351. | ||||
| Sahin C, Emiral H, Okumus I, Gozier M (2009). The benthic exotic species of the black sea: Blood cockle (Anadara inaequivalvis, Bruguiere, 1789; Bivalve) and Rapa Whelk (Rapana rhomasiana, Crosse, 1861: Mollusc). J. Animal Vet. Adv. 8(2):240-245. | ||||
| SASO (1997). Saudi Arabian Standards Organization, Maximum limits of contaminating metallic elements in foods, Riyadh, Saudi Arabia. | ||||
|
Sheavly SB, Register KM (2007). Marine debris and plastics: Environmental concerns, sources, impacts and solutions. J. Polymers Environ. 15(4):301-305. Crossref |
||||
|
Sokolova IM (2004). Cadmium effects on mitochondrial function are enhanced by Elevated temperatures in a marine poikilotherm, Crassostrea virginica Gmelin (Bivalvia: Ostreidae). J. Exp. Biol. 207:2639-2648. Crossref |
||||
|
Sokolova IM, Evans S, Hughes FM (2004). Cadmium-induced apoptosis in Oyster hemocytes involves disturbance of cellular energy balance but no Mitochondrial permeability transition. J. Exp. Biol. 207:3369-3380. Crossref |
||||
| USFDA (Food and Drug Administration) (2006). Mercury levels in commercial fish and shellfish. | ||||
| Vedrana N, Alper D, Lorena P (2012). First record of Anadara transversa (Mollusca: Bivalvia: Arcidae) in Croatian waters (Adriatic Sea). ACTA ADRIAT. 53(1):139–144 | ||||
| WHO, World Health Organization (1993). Evaluation of certain food additives and contaminants. Forty-first report of the joint FAO/WHO Expert Committee in Food Additives. WHO Technical Report Series No. 837. World Health Organization, Geneva. | ||||
| Zyadah MA (2010). Effect of human impact and environmental parameters on the biodiversity in Jeddah and Rabigh Regions, Red Sea, SA, Saudi Biological Society: pp. 1-12. | ||||
| Zyadah MA (2011). Effect of human impact and pollution on the marine biodiversity in Arabian Gulf Coast, SA. Saudi Biological Society, pp. 1-11. | ||||
| Zyadah MA, Almotairy M (2012). Evaluation of environmental pollution in the Arabian Gulf Coast at the Eastern Province, SA. Asian Trans. Basic Appl. Sci. 2(3):14-21. | ||||
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