پتانسیل خطر غذایی فلزات سنگین در ماهیان سواحل شمالی خلیج فارس و دریای عمان: مرور سیستماتیک و متاآنالیز
محورهای موضوعی : فصلنامه زیست شناسی جانوریمحمد حسین سینکاکرمی 1 , نوشین گشمردی 2
1 - گروه علوم محیط زیست، دانشکده علوم دریایی و محیطی، دانشگاه مازندران، بابلسر، ایران
2 - گروه آموزش زیست شناسی، دانشگاه فرهنگیان، صندوق پستی 889-14665 تهران، ایران
کلید واژه: خلیج فارس, دریای عمان, ماهی, فلزات سنگین, خطر غذایی,
چکیده مقاله :
خلیج فارس و دریای عمان محل زیست گونههای مختلفی از آبزیان بهویژه ماهیان میباشند. فلزات سنگین بهعنوان مهمترین آلایندههای این اکوسیستمهای آبی محسوب میشوند که میتوانند عوامل مهم تهدیدکننده سلامت مصرفکنندگان باشند. هدف این پژوهش، مرور نظاممند مطالعاتی است که به تعیین غلظت فلزات سنگین در بافت عضله برخی از ماهیان این آبها از تاریخ 1384 تا 1397 پرداختهاند. این پژوهش متاآنالیز روی بافت عضله 1182 قطعه از ماهیان حلواسفید، شوریده، زمینکن، سرخو، سنگسر، شبهشوریده، شیر، قباد و هامور صید شده از خلیج فارس و دریای عمان بهمنظور بررسی میزان این فلزات انجام گرفت. میزان مجازمصرف، خطر مصرف غذایی و مقایسه با استانداردها بررسی شد. میزان شاخصهایTHQ و HI در همهی گونههای ماهیان مورد مطالعه برای بالغین کمتر از یک، اما برای کودکان فقط در ماهی شیر در شاخص HI بالاتر از یک بهدست آمد. میزان فلزات جیوه، روی و سرب در تمامی ماهیها، کادمیوم در سرخو و سنگسر و نیکل در سنگسر، قباد و هامور از تمامی استانداردها پایینتر بود. میزان جذب روزانه و هفتگی برای تمامی فلزات مورد مطالعه در اثر مصرف ماهیان مورد بررسی پایینتر از میزان مجاز کمیته JECFA بهدست آمد. همچنین کمترین میزان وعدههای مجاز مصرف از نظر فلزات مورد مطالعه مربوط به ماهیهای شیر؛ فلز جیوه، شبهشوریده؛ فلز سرب و زمینکن؛ سایر فلزات بود. بهنظر ميرسد مصرف زیاد ماهی زمینکن از نظر فلزات مورد بررسی احتمالا میتواند با خطراتی بهویژه برای کودکان بههمراه باشد. از اینرو حفاظت از محیط زیست که در ایجاد مشکلات بهداشت تغذیه تاثیرگذار است، یک ضرورت تلقی میگردد.
The Persian Gulf and the Oman Sea are habitats for a variety of aquatic species, especially fish. Heavy metals are crucial pollutants in aquatic ecosystems and can be among the major factors influencing the health of consumers. The purpose of this essay is to conduct a systematic review of studies that have assessed the concentration of heavy metals in the muscle tissue of certain fish species in these waters, spanning from the year 2006 to 2018. This meta-analysis study was performed on 1182 muscle tissues of Pampus argenteus, Platycephalus indicus, Lutjanus johnii, javelin grunter, Johnius belangerii, Otolithes ruber, Scomberomorus commerson, Scomberomorus guttatus, Epinephelus coioides, caught from the Persian Gulf and the Oman Sea, in order to investigate the amount of these metals. Also, the safety of food intake and the comparison with the standards were investigated. The THQ and HI indices were found to be less than 1 in the all species of fish for adults, but for children only in Scomberomorus commerson in HI index is more than one. The amount of mercury, zinc and lead in the all pecies of fish, cadmium in Lutjanus johnii and javelin grunter and nickel in Scomberomorus guttatus and Epinephelus coioides were lower than all standards. The daily and weekly absorption rates for all studied metals were lower than the authorized JECFA Committee due to fish consumption. Also, the lowest amount of allowance for studied metals was found mercury in Scomberomorus commerson, lead in Johnius belangerii and cadmium in Platycephalus indicus. It seems that high use of the Platycephalus indicus in terms of the studied metals has led to health risks in children. Therefore, environmental protection, which it has been influential in creating nutritional health problems, is considered a necessity.
1. Abdolahpur Monikh F., Maryamabadi A., Savari A., Ghanemi K. 2013. Heavy metals’ concentration in sediment, shrimp and two fish species from the northwest Persian Gulf. Toxicology and Industrial Health, 31(6):554-565.
2. Ahmad А.K., Shuhaimi-Othman M. 2010. Heavy Metal Concentrations in Sediments and Fishes from Lake Chini, Pahang, Malaysia. Journal of Biological Sciences, 10(2):93-100.
3. Ahrariroudi M., 2021. An overview of the pollutants in the sea of Oman and its effects on the marine ecosystem. Journal of Shipping and Maritime Technology, 5(4):21-30 [In Persian].
4. Albuquerque K.F.D.M., Silva M.H.L., Azevedo J.W.D.J., Soares L.S., Bandeira A.M., Soares L.A., Castro A.C.L. 2023. Assessment of water quality and concentration of heavy metals in fishes in the estuary of the Perizes River, Gulf of Maranhão, Brazil. Marine Pollution Bulletin, 186:114420.
5. Al-Saleh I., Shinwari N. 2002. Preliminary report on the levels of elements in four fish species from the Persian gulf of Saudi Arabia. Chemosphere, 48(7):749-755.
6. Andres S., Ribeyre F., Tourencq J.N., Boudou A. 2000. Interspecific comparison of cadmium and zinc contamination in the organs of four fish species along a polymetallic pollution gradient (Lot River, France). Science of The Total Environment, 248(1):11-25.
7. Asar S., Jalalpour S., Ayoubi F., Rahmani M., Rezaeian M. 2016. PRISMA; Preferred Reporting Items for Systematic Reviews and Meta-Analyses. Journal of Rafsanjan University of Medical Sciences, 15(1):63-80 [In Persian].
8. Asgari Rad H., Saeedi M., AzadBakht N., 2016. Heavy Metals (Cadmium, Zinc, Nickel, Chrome, Lead, and Copper) Contamination in Kohl Available in Iran’s Market. Journal of Mazandaran University of Medical Sciences, 26(133):295-304 [In Persian].
9. Askary Sary A., Javahery Baboli M., Mahjob S., Velayatzadeh M., 2012. The comparison of heavy metals (Hg, Cd, Pb) in the muscle of Otolithes ruber in Abadan and Bandar Abbas Ports, the Persian Gulf. Iranian Fisheries Science Research Institute, 21(3):99-106 [In Persian].
10. Askary Sary A., Velayatzadeh M. 2011. The measure and comparison of heavy metals concentration of Lead and Zinc in Liver and Muscle of Otolithes ruber, Scomberomorus guttatus and Scomberomorus commerson Persian Gulf. New Technologies in Aquaculture Development, 2(5):39-46 [In Persian].
11. ATSDR. 2007. Toxicologi guide for lead Pb. U.S. Department of Health and Human Services Public Health Service, Agency for Toxic Substances and Disease Registry.
12. Baseri E., Alimohammadi M., Nabizadeh Nodehi R., Nazmara S., khanikiGh J., Mahmoodi B. 2017. Estimation of Weekly Human Intake of Heavy Metals (Lead, Cadmium, Chromium, Copper, Iron, Tin, Zinc, and Nickel) through Cheese Consumption in Iran. Journal of Health, 8(2):160-169 [In Persian].
13. Bhattacharjee T., Goswami M. 2018. Heavy Metals (As, Cd and Pb) Toxicity and Detection of These Metals in Ground Water Sample: A Review on Different Techniques. International Journal of Engineering Science Invention, 7(1):12-21.
14. Canli M., Atli G. 2003. The relationships between heavy metal (Cd, Cr, Cu, Fe, Pb, Zn) levels and the size of six Mediterranean fish species. Environmental Pollution, 121(1):129-36.
15. Çelik U., Oehlenschläger J. 2007. High contents of cadmium, lead, zinc and copper in popular fishery products sold in Turkish supermarkets. Food control, 18(3):258-261.
16. Celik U., Oehlenschläger J. 2004. Determination of zinc and copper in fish samples collected from Northeast Atlantic by DPSAV. Food Chemistry, 87(3):343-347.
17. Chen C.W., Kao C.M., Chen C.F., Dong C.D. 2007. Distribution and accumulation of heavy metals in the sediments of Kaohsiung Harbor, Taiwan. Chemosphere, 66(8):1431-1440.
18. Cheraghi M., Pourkhabbaz H., Javanmardi S. 2013. Determination of mercury concentration in Liza abu from Karoon river. Journal of Mazandaran University of Medical Sciences, 23(103): 105-113 [In Persian].
19. Cheraghi M., Spurgem O., Noorayee M.H. 2012. Evaluation of Cadmium Risk Caused by Gripus Barbus, Arvand River. Journal of Wetland Ecobiology, 4(13):75-82.
20. Chi Q., Zhu G.W., Langdon A. 2007. Bioaccumulation of heavy metals in fishes from Taihu Lake, China. Journal of Environmental Sciences, 19(12):1500-1504.
21. Chien L.C., Hung T.C., Choang K.Y., Yeh C.Y., Meng P.J., Shieh M.J., Ha B.C. 2002. Daily intake of TBT, Cu, Zn, Cd and As for fishermen in Taiwan. Science of The Total Environment, 285(1-3):177-185.
22. Conte F., Copat C., Longo S., Conti G.O., Grasso A., Arena G., Dimartino A., Brundo M.V., Ferrante M. 2016. Polycyclic aromatic hydrocarbons in Haliotis tuberculata (Linnaeus, 1758)(Mollusca, Gastropoda): Considerations on food safety and source investigation. Food and Chemical Toxicology, 94:57-63.
23. Cooper C.B., Doyle M.E., Kipp K. 1991. Risks of consumption of contaminated seafood: the Quincy Bay case study. Environmental Health Perspectives, 90(1):133-140.
24. Dadar M., Adel M., Ferrante M., Nasrollahzadeh Saravi H., Copat C., Oliveri Conti G. 2016. Potential risk assessment of trace metals accumulation in food, water and edible tissue of rainbow trout (Oncorhynchus mykiss) farmed in Haraz River, northern Iran. Toxin Reviews, 35(3-4):141-146.
25. Daneshyar H., panahpour E., Ghanavati N. 2016. Assessment of the Lead, Nickel and Mercury Concentrations in Effluent and Muscle of Three Species of Boleophthalmus Dussumieri, Sardinella Melanura and Otolithes Ruber in KhorMusa. Journal of Wetland Ecobiology, 8(3):59-68 [In Persian].
26. Das K.K., Buchner V. 2007. Effect of nickel exposure on peripheral tissues: role of oxidative stress in toxicity and possible protection by ascorbic acid. Reviews on Environmental Health, 22(2):157-173.
27. Dehghani M. 2017. Bioaccumulation of heavy metals in eight fish species of the Khur-e Khuran International Wetland in the Persian Gulf, Iran. Journal of Aquatic Biology, 5(1):33-39 [In Persian].
28. Demirezen D., Uruç K. 2006. Comparative study of trace elements in certain fish, meat and meat products. Meat Science, 74(2):255-260.
29. Dural M., Göksu M.Z.L., Özak A.A. 2007. Investigation of heavy metal levels in economically important fish species captured from the Tuzla lagoon. Food Chemistry. 102(1): 415-421.
30. Eastwood S., Couture P. 2002. Seasonal variations in condition and liver metal concentrations of yellow perch (Perca flavescens) from a metal-contaminated environment. Aquatic Toxicology, 58(1-2):43-56.
31. Fagerberg B., Borné Y., Barregard L., Sallsten G., Forsgard N., Hedblad B., Persson M., Engström G. 2017. Cadmium exposure is associated with soluble urokinase plasminogen activator receptor, a circulating marker of inflammation and future cardiovascular disease. Environmental Research, 152:185-191.
32. Fakhri Y., Saha N., Miri A., Baghaei M., Roomiani L., Ghaderpoori M., Taghavi M., Keramati H., Bahmani Z., Moradi B., Bay A., Pouya R.H. 2018. Metal concentrations in fillet and gill of parrotfish (Scarus ghobban) from the Persian Gulf and implications for human health. Food and Chemical Toxicology, 118:348-354.
33. Falcó G., Llobet J.M., Bocio A., Domingo J.L. 2006. Daily intake of arsenic, cadmium, mercury, and lead by consumption of edible marine species. Journal of Agricultural and Food Chemistry, 54(16):6106-6112.
34. Farkas A., Salanki J., Specziar A. 2002. Relation between growth and the heavy metal concentration in organs of bream Abramis brama L. populating Lake Balaton. Archives of Environmental Contamination and Toxicology, 43(2):236-243.
35. Ganjavi M., Ezzatpanah H., Givianrad M.H., Shams A. 2010. Effect of canned tuna fish processing steps on lead and cadmium contents of Iranian tuna fish. Food Chemistry, 118(3):525-528.
36. Gashmardi N. 2015. Education and strengthening of community environmental culture; Optimal water use strategy. Optimization of water consumtion in industry challenges and solutions 2015: Conference on university of Isfahan – Isfahan - Iran [In Persian].
37. Gashmardi N., Farzadinia P., Mohammadi M., Siyanat F. 2016. Zinc and lead poisoning effects on hepatic tissue in male rats. International Conference on researches in Science and Engineering, At: Istanbul University, Turkey.
38. Ghanbari F., Pazira A., Obeidi R., Foruzani S. 2018. Investigating heavy metals (Cu, Zn, Fe and Se) bioaccumulation in muscle, liver and gill tissues of Pomadasys kaakan from the Bushehr port. Iranian Scientific Fisheries Journal, 26(6):171-178 [In Persian].
39. Ghorbanizadeh V., Hasan Nanjir S.T. 2015. Application Meta-analysis application with software CMA2. 1rd ed. sociologists.
40. Giblin F., Massaro E.J. 1973. Pharmacodynamics of methyl mercury in the rainbow trout (Salmo gairdneri): tissue uptake, distribution and excretion. Toxicology and Applied Pharmacology, 24(1):81-91.
41. Glass G.V. 1976. Primary, secondary, and meta-analysis of research. Educational Researcher, 5(10):3-8.
42. Gorjipour E., adough Niris A., Hossin A.R., Bita s., 2009. Accumulatin of heavy metals in the muscle, liver and gill tissuse of Epinephelus coioiedes. Iranian Scientific Fisheries Journal, 18(1):101-108. [In Persian].
43. Gupta V. 2013. Mammalian feces as bio-indicator of heavy metal contamination in Bikaner Zoological Garden, Rajasthan, India. Research Journal of Animal, Veterinary and Fishery Sciences, 1(5):10-15.
44. Hassanpour M., Rajaei G., SinkaKarimi M.H., Ferdosian F., Maghsoudloorad R. 2014. Determination of heavy metals (Pb, Cd, Zn and Cu) in Caspian kutum (Rutilus frisii kutum) from Miankaleh international wetland and human health risk. Journal of Mazandaran University of Medical Sciences. 24(113):163-170. [In Persian].
45. He Z.L., Yang X.E., Stoffella P.J. 2005. Trace elements in agroecosystems and impacts on the environment. Journal of Trace Elements in Medicine and Biology, 19(2-3):125-140.
46. Hosseini M., Nabavi S.B., Golshani R., Nabavi S.N., Raeesi sarasiab A. 2015. The heavy metals pollution (Cd, Co, Pb, Cu and Ni) in sediment, liver and muscles tissues of flounder Psettodes erumei from Busheher Province, Persian Gulf. Journal of Animal Research (Iranian Journal of Biology), 28(4):441-449 [In Persian].
47. Hosseini M., Naderi M., Gholami S., Hadipour M. 2018. Toxic metals in the muscle and liver of five main commercially-important fishes from the Persian Gulf, Southern Iran. Caspian Journal of Environmental Sciences, 16(2):191-198 [In Persian].
48. Hossein Khezri P., Takhsha M., Aein Jamshid K., Aghshenas A. 2014. Assessment level of heavy metals (Pb, Cd, Hg) in four fish species of Persian Gulf (Bushehr-Iran). International Journal of Advanced Technology and Engineering Research, 4(2):7-11 [In Persian].
49. IRIS (Integrated Risk Information System). 2018. online database. Environmental Protection Agency. Available at: https://semspub.epa.gov/work/HQ/197414.pdf.
50. Jia Y., Wang L., Qu Z., Wang C., Yang Z. 2017. Effects on heavy metal accumulation in freshwater fishes: species, tissues, and sizes. Environmental Science and Pollution Research, 24(10):9379-9386.
51. Junianto A., Hasan Z., Mahdiana Apriliani I. 2017. Evaluation of heavy metal contamination invarious fish meat from Cirata Dam, West Java,Indonesia. ProQuest, 10(2):241-246.
52. Karimi Iraj Z., Pourkhabbaz A.R., Hassanpour M., SinkaKarimi M.H. 2014. Bioaccumulation of Heavy Metals in Tissues of Clupeonella Cultiventris Caspia and Alosa Caspia and their Consumption Risk Assessment in the Southern Coast of Caspian Sea. Journal of Mazandaran University of Medical Sciences, 24(118):99-110 [In Persian].
53. Kesavan K., Murugan A., Venkatesan V., Kumar V. 2013. Heavy metal accumulation in molluscs and sediment from Uppanar estuary, southeast coast of India. Thalassas: An International Journal of Marine Sciences, 29(2):15-21.
54. Khalili Poor S., Shafiee M., Emtiazjoo M. 2011. Determination of mercury, cadmium and lead in Muscle Tissue of Otolithes Rubuer in Bushehr Bandargah. Journal of Marine Science and Technology Research, 5(4):48-59 [In Persian].
55. Khazaei S.H., Ahmadi Alkoei Z., Shahriari M. 2013. A Survey of Lead, Nickel and Cadmium Concentration on Consumable Fish in Khorramshahr City. Jundishapur Scientific Medical Journal, 12(4):409-418 [In Persian].
56. Khorasani N., Hosseini S.M., Poorbagher H., Hosseini S.V., Aflaki F. 2013. Determination of heavy metal content in the tiger-toothed croaker (Otolithes ruber): a case study in Bandar-e Mahshahr. Journal of Natural Environment (Iranian Journal of Natural Recources), 66(2):181-190 [In Persian].
57. Koosej N., Jafariyan H., Rahmani A., Patimar A., Gholipoor H. 2017. Study on Trace Metals Levels and Health Risk Assessment of Silago Sihama in Hormozgan Province. Nutrition and Food Sciences Research, 4(1):41-6.
58. Lohren H., Blagojevic L., Fitkau R., Ebert F., Schildknecht S., Leist M., Schwerdtle T. 2015. Toxicity of organic and inorganic mercury species in differentiated human neurons and human astrocytes. Journal of Trace Elements in Medicine and Biology, 32:200-208.
59. Lotfi H., Baghaei H., mousavi S., Khayambhashi S., 2012. The environment of the Persian Gulf and its conservation. Quariterly Journal of Human Geography, 3(1):1-9 [In Persian].
60. Mahjob S., Askary Sary A., Javahery Baboli M., Velayatzadeh M. 2016. The comparison of heavy metals Hg, Cd and Pb in the muscle of Otolithes ruber in Boshehr and Bandar-e-Emam Khomeini Sea Ports, Persian Gulf. Journal of Animal Environment, 7(4):232-240 [In Persian].
61. Mansouri B., Maleki A., Davari B., Karimi J., Momeneh V. 2016. Bioaccumulation of cadmium, lead, chromium, copper, and zinc in freshwater fish species in Gharasou river in Kermanshah province, Iran, 2014. Journal of Mazandaran University of Medical Sciences, 26(137):150-158 [In Persian].
62. Marijić V.F., Raspor B. 2007. Metal exposure assessment in native fish, Mullus barbatus L., from the Eastern Adriatic Sea. Toxicology Letters, 168(3):292-301.
63. Mashroofeh A., Riyahi Bakhtiari A., Pourkazemi M. 2013. Evaluation of cadmium, vanadium, nickel and zink concentrations in different tissues of beluga and stellate sturgeon and risk assessment regarding consuming their muscle tissue in south Caspian Sea. Journal of Mazandaran University of Medical Sciences, 22(96):89-96 [In Persian].
64. Meng Z.R., Li L., Wu Y.Q. 2014. Evaluate of Heavy Metal Content of some Edible Fish and Bivalve in Markets of Dandong, China. Applied Mechanics and Materials, 522-524:92-95.
65. Ministry of Health and Medical Education of Iran (MHMEI). [Online], 2015. Average lifetime of Iranian. Available from http://www.behdasht.gov.ir.
66. Miri M., Akbari E., Amrane A., Jafari S.J., Eslami H., Hoseinzadeh E., Zarrabi M., Salimi J., Sayyad-Arbabi M., Taghavi M. 2017. Health risk assessment of heavy metal intake due to fish consumption in the Sistan region, Iran. Environmental monitoring and assessment, 189(11):583.
67. Mohammadnabizadeh S., Pourkhabbaz A., Afshari R. 2014. Analysis and determination of trace metals (nickel, cadmium, chromium, and lead) in tissues of Pampus argenteus and Platycephalus indicus in the Hara Reserve, Iran. Journal of Toxicology, 576496(6):167-172.
68. Mokhtari M., Shariati M., Gashmardi N. 2007. Effect of lead on thyroid hormones and liver enzymes in adult male rats. Journal of Hormozgan University of Medical Sciences, 11(2):115-120 [In Persian].
69. Mokhtari M., Shariati M., Gashmardi N. 2005. The Effect of Zinc on Thyroid Hormones and Liver Enzyme Concentration in Adult Male Rats. Journal of Advances in Medical and Biomedical Research, 13(51):7-12 [In Persian].
70. Momodu M., Anyakora C., 2010. Heavy metal contamination of ground water: The Surulere case study. Research Journal Environmental and Earth Sciences, 2(1):39-43.
71. Monsefrad F., Imanpour Namin J., Heidary S. 2012. Concentration of heavy and toxic metals Cu, Zn, Cd, Pb and Hg in liver and muscles of Rutilus frisii kutum during spawning season with respect to growth parameters. Iranian Journal of Fisheries Sciences, 11(4):825-839.
72. Mortazavi A., Hatamikia M., Bahmani M., Hassanzadazar H. 2016. Heavy metals (mercury, lead and cadmium) determination in 17 species of fish marketed in Khorramabad city, West of Iran. Journal of Chemical Health Risks, 6(1):41-48.
73. Moshtaghzadeh G., Naji A., koosej N. 2018. Risk assessment of some potentially toxic elements pollution in the muscle and liver of Longtail tuna (Thunnus tonggol) and Abu mullet (Liza abu) for human consumption in the Hormozgan Province. Iranian Scientific Fisheries Journal, 26(6):71-96 [In Persian].
74. Mudgal V., Madaan N., Mudgal A., Singh R., Mishra S. 2010. Effect of toxic metals on human health. The Open Nutraceuticals Journal, 3(1):94-99.
75. Murtala B.A., Abdul W.O., Akinyemi A.A. 2012. Bioaccumulation of heavy metals in fish (Hydrocynus forskahlii, Hyperopisus bebe occidentalis and Clarias gariepinus) organs in downstream Ogun coastal water, Nigeria. Journal of Agricultural Science, 4(11):51-59.
76. Nabavi S.M.B., Hosseini M., Parsa Y., Asfaram A., Ravanpaykar A. 2014. Assessment of PCBs, heavy metals (Cd, Co, Ni, Pb), mercury and methyl mercury content in four fish commonly consumed in Iran. Toxicology and Environmental Health Sciences, 6(2):119-126.
77. Nasrollahzadeh Saravi H., Pourgholam R., Pourang N., Rezaei M., Makhlough A., Unesipour H. 2013. Heavy metal concentrations in edible tissue of Cyprinus carpio and its target hazard quotients in the Southern Iranian Caspian Sea Coast,(2010). Journal of Mazandaran University of Medical Sciences, 23(103):33-44 [In Persian].
78. NOAA; Export Requirements by Country and Jurisdiction (A-F). 2023. https://www. fisheries.noaa.gov/seafood-commerce-trade/export-requirements-country-and-juri..
79. Noghani Dokht Bahmani M, Mirmohammad Tabar S., 2017. Meta-analaysis Basic and Application (Uses of CMA.2 Software).1rd ed. Mashhad Ferdowsi University.
80. Norouzi M., Bagheri Tavani M. 2019. Assessment of the Consumption Risk of Fifteen Heavy Metals in Liza aurata in the Caspian Sea. Journal of Aquatic Ecology, 8 (3):96-107 [In Persian].
81. Obeidi R., Pazira A, Ghanbari F., Moghdani S. 2017. Determination of heavy metal (Nickel and Cadmium) concentrations in muscle and liver tissues of (Pomadasys kaakan) in Bushehr seaport. Iranian Scientific Fisheries Journal, 26(1):55-66 [In Persian].
82. Pazira A., Khosravifard O., Ghanbari F. 2010. A comparison of bioaccumulation Lead and Zinc in muscle tissues of Scomberomorus commerson and Scomberomorus guttatus in Bushehr seaport. Journal of Wetland Ecobiology, 8(3):5-14 [In Persian].
83. Pourmoghaddas H., Shahryaari A. 2010. The concentration of lead, chromium, cadmium, nickel and mercury in three species of consuming fishes of Isfahan city. Journal of Health System Research, 6(1):30-6 [In Persian].
84. Rahman M.S., Molla A.H., Saha N., Rahman A. 2012. Study on heavy metals levels and its risk assessment in some edible fishes from Bangshi River, Savar, Dhaka, Bangladesh. Food Chemistry, 134(4):1847-1854.
85. Ranjbar Vakil Abadi D., Dobaradaran S., Nabipour I., Lamani X., Ravanipour M., Tahmasebi R., Nazmara S. 2015. Comparative investigation of heavy metal, trace, and macro element contents in commercially valuable fish species harvested off from the Persian Gulf. Environmental Science and Pollution Research, 22(9):6670-6678 [In Persian].
86. Rashidi Ebrahim Hesari A., Hoseini S.M. 2017. Evaluating the Sensitivity of Tidal Dynamics to Spatial Variation of Bottom Friction Coefficient in the Hormuz Strait. Hydrophysics, 3(1-4): 21-32 [In Persian].
87. Razzaghi F., Mohammad shafie M., Emtiazjoo M., 2011. Determination of concentration of Cd ,Pb ,Hg ,Fe in Muscle of Otolithes ruber in Northern part of Persian Gulf, Bandar Abbas. Journal of Marine Science and Technology Research, 6(5):67-77 [In Persian].
88. Rezaeian M. 2013. How to report systematic reviews and meta-analyses. Journal of Rafsanjan University of Medical Sciences, 12(2):87-88 [In Persian].
89. Robards K., Worsfold P., 1991. Cadmium: toxicology and analysis. A review. Analyst, 116(6): 549-568.
90. Romeo M., Siau Y., Sidoumou Z.n., Gnassia-Barelli M. 1999. Heavy metal distribution in different fish species from the Mauritania coast. Science of The Total Environment, 232(3):169-175.
91. Roomiani l., velayatzadeh M., Mashayekhi F. 2016. Risk assessment of the heavy metals mercury, cadmium, lead and arsenic in the two species fish Tor grypus and Capoeta capoeta in Helle River from Bushehr. Journal of Developmental Biology, 8(4):45-58 [In Persian].
92. Sadeghi E., Mohammadi M., Sharafi K., Bohlouli S. 2015. Determination and assessment of three heavy metal content (Cd, Pb and Zn) in Scomberomorous commerson fish caught from the Persian Gulf. Bulgarian Chemical Communications, 47:222-225.
93. Sadeghi M.S., Emtiazju M., Daghighi Rohi R. 2017. Heavy metal (Pb,Cd) levels in muscle and liver of Pomadasys kakaan in Hormozgan province (Bandar abbas). Journal of Marine Science and Technology Research, 11(4):23-35 [In Persian].
94. Sadeghi M.S., Moraky N., Ebdaly S., Farzadmehr M. 2012. Heavy metal concentrations (Pb,Cd) in certain tissues (Liver and muscle) of Scomberomorus guttatus in Persian Gulf. Journal of Marine Biology, 3(12):65-71 [In Persian].
95. Sadeghi Bajgiran S., Pourkhabbaz A., Hasanpour M., SinkaKarimi M.H. 2016. A study on zinc, nickel, and vanadium in fish muscle of Alosa caspia and Sander lucioperca and food risk assessment of its consumption in the southeast of the Caspian Sea. Iranian Journal of Health and Environment, 8(4):423-432 [In Persian].
96. Sadough Niri A., Sharifian S., Ahmadi R. 2015. Assessment of metal accumulation in two fish species (Tenualosa ilisha and Otolithes ruber), captured from the north of Persian Gulf. Bulletin of Environmental Contamination and Toxicology, 94(1):71-76.
97. Safahieh A., Monikh F.A., Taghi Ronagh M., Savari A., Doraghi A. 2011. Determination of heavy metals (Cd, Co, Cu, Ni and Pb) in croacker fish (Johnius belangerii) from Musa estuary in the Persian Gulf. International Journal of Environmental Science and Development, 2(6):460-464.
98. Sahebi Z., Mohamad Shafiee M.R., Emtyazjoo M. 2011. Permissible consumption limits of mercury, cadmium and lead existed in Otolithes rubber. Advances in Environmental Biology, 5(5):920-928.
99. Salami Asl S., Savari A. 2017. Measuring the Amount of Heavy Metals Concentration (Nickel, Vanadium, Lead, Cobalt and Cadmium) in the Ballast Tanks of Commercial Ships Entering Bandar-e Imam Khomeini. Journal of Marine Biology, 6(3):61-70 [In Persian].
100. Schmitt C.J., Brumbaugh W.G. 1990. National contaminant biomonitoring program: concentrations of arsenic, cadmium, copper, lead, mercury, selenium, and zinc in US freshwater fish, 1976–1984. Archives of Environmental Contamination and Toxicology, 19(5):731-747.
101. Shahriari A. 2006. Determination of heavy metals (Cd, Cr, Pb, Ni) in edible tissues of Lutjans Coccineus and Tigeratooh Croaker In the persian Gulf-2003. Journal of Gorgan University of Medical Sciences, 7(2):65-67 [In Persian].
102. Sharifian S., Sadoogh Nayeri A., Khaleghi M., Sharifian S. 2013. Estimation of the daily and weekly inflow of heavy metals in different groups of Otolithes rubber fish in southern provinces of Iran. The First National Congress of Iran for the development of the Makran coast and the maritime authority [In Persian].
103. Saei-Dehkordi S.S., Fallah A.A. 2011. Determination of copper, lead, cadmium and zinc content in commercially valuable fish species from the Persian Gulf using derivative potentiometric stripping analysis. Microchemical Journal, 98(1):156-165.
104. SinkaKarimi M.H., Donyavi R., Sadeghi Bajgiran S. 2015. Consumption limit for Caspian with fish in stand of Cadmium and Lead from Southeastern coast of Caspian Sea. Zanko Journal of Medical Sciences, 16(49):32-43 [In Persian].
105. Sinkakarimi M.H., Gorjian Arabi M.H., Ahmadpour M., Hassanpour M. 2020. A survey of cadmium and zinc in Sand smelt (Atherina boyeri caspia) from Anzali International Wetland. Journal of Animal Environment, 12(3):167-174 [In Persian].
106. SinkaKarimi M.H., Hassanpour M., Ahmadpour M. 2015. Concentration of selenium and vanadium in Clupeonella cultiventris caspia and Alosa caspia and their consumption risk assessment from southern coast Caspian Sea. Zanko Journal of Medical Sciences, 15(47):1-9 [In Persian].
107. Sinkakarimi M.H., Mansouri B., Azadi N.A., Maleki A., Davari B. 2017. Assessment of Heavy Metals in Chicken Meat Distributed in Sanandaj, Iran, and Calculating the Food Consumption Risk. Journal of Mazandaran University of Medical Sciences, 26(146):128-138 [In Persian].
108. SinkaKarimi M.H., Pourkhabbaz A.R., Hassanpour M., Ghasempour S.M. 2014. Determination of metals in tissues of mallard (Anas platyrhynchos) and risk assessment of food consumption in the southeastern Caspian Sea. Journal of Wetland Ecobiology, 5(18):79-90 [In Persian].
109. Sinkakarimi M.H., Solgi E., Hosseinzadeh Colagar A. 2017. Cadmium and Lead Effects on Viability, Lipid Peroxidation and Total Antioxidant Capacity Levels in Eisenia fetida. Journal of Mazandaran University of Medical Sciences, 27(149):28-39 [In Persian].
110. Solgi E. 2015. Estimation of Daily Intake and Potential Risk of Cadmium and Lead in Consumers of Liza salines in the Eastern Coast of the Caspian Sea. Journal of Mazandaran University of Medical Sciences, 25(122):382-388 [In Persian].
111. Solgi E., Esfandi Sarafraz J. 2015. Determination of lead and cadmium in the edible tissue of (Liza aurata) in Bandar Anzali coast: Accumulation and risk consumption. Journal of Aquatic Ecology, 5(1):34-43 [In Persian].
112. Suhaimi F., Wong S., Lee V., Low L. 2005. Heavy metals in fish and shellfish found in local wet markets. Singapore journal of primary industries, 32(4):1-8.
113. Sweet L.I., Zelikoff J.T., 2001. Toxicology and immunotoxicology of mercury: a comparative review in fish and humans. Journal of Toxicology and Environmental Health Part B, 4(2):161-205.
114. Tabari S., Saravi S.S.S., Bandany G.A., Dehghan A., Shokrzadeh M. 2010. Heavy metals (Zn, Pb, Cd and Cr) in fish, water and sediments sampled form Southern Caspian Sea, Iran. Toxicology and Industrial Health, 26(10):649-656.
115. Tacon A.G.J. 2023. Contribution of Fish and Seafood to Global Food and Feed Supply: An Analysis of the FAO Food Balance Sheet for 2019. Fisheries Science and Aquaculture, 31(2):274-283.
116. Tahsini H., Ahmadpour M., Sinkakarimi M.H. 2018. Assessment of cadmium and lead concentration in rainbow trout (Oncorhynchus mykiss) and calculation the food consumption risk. Iranian Journal of Health and Environment, 11(2):215-224 [In Persian].
117. Tahsini H., Alizadeh M., gavilian H. 2018. Evaluation of Heavy Metals Concentration and Its Consumption Risk in Trout Fish (Oncorhynchus Mykiss). Journal of Environmental Health Engineering, 6(2):187-198 [In Persian].
118. Tatina M., Oryan S., Gharibkhani M. 2009. Surveying the amount of heavy metals (Ni, Pb, Cd and V) accumulation derived from oil pollution on the muscle tissue of Pelates quadrilineatus from the Persian Gulf. Journal of Marine Biology, 1(3):28-39 [In Persian].
119. Taweel A., Shuhaimi-Othman M., Ahmad A.K. 2013. Assessment of heavy metals in tilapia fish (Oreochromis niloticus) from the Langat River and Engineering Lake in Bangi, Malaysia, and evaluation of the health risk from tilapia consumption. Ecotoxicology and Environmental Safety, 93(32):45-51.
120. Teffer A.K., Staudinger M.D., Taylor D.L., Juanes F. 2014. Trophic influences on mercury accumulation in top pelagic predators from offshore New England waters of the northwest Atlantic Ocean. Marine Environmental Research, 101:124-134.
121. Tigchelaar M., Leape J., Micheli F., Allison E.H., Basurto X., Bennett A., Bush S.R., Cao L., Cheung W.W.L., Crona B., DeClerck F., Fanzo J., Gelcich S., Gephart J.A., Golden C.D., Halpern B.S., Hicks C.C., Jonell M., Kishore A., Koehn J.Z., Little D.C., Naylor R.L., Phillips M.J., Selig E.R., Short R.E., Sumaila U.R., Thilsted S.H., Troell M., Wabnitz C.C.C. 2022. The vital roles of blue foods in the global food system. Global Food Security, 33(100637):1-11.
122. Türkmen A., Türkmen M., Tepe Y., Akyurt I. 2005. Heavy metals in three commercially valuable fish species from Iskenderun Bay, Northern East Mediterranean Sea, Turkey. Food Chemistry, 91(1):167-172.
123. Uluozlu O.D., Tuzen M., Mendil D., Soylak M. 2007. Trace metal content in nine species of fish from the Black and Aegean Seas, Turkey. Food Chemistry, 104(2):835-840.
124. United States Environmental Protection Agency (USEPA). 2000. Risk-based Concentration Table. Philadelphia, PA; Washington DC.
125. United States Environmental Protection Agency (USEPA). 1989. Guidance manual for assessing human health risks from chemically contaminated, fish and shellfish. EPA-503/8- 89-002, USEPA, Office of Marine and Estuarine Protection, Washington, DC.
126. United States Environmental Protection Agency. 2000. Guidance for assessing chemical contaminant data for use advisories, volume 2: Risk assessment and fish consumption limites. Third Edition. USEPA, Office of Science and Technology Office of Water, Washington, DC. Available from: http://www.epa.gov/ waterscience/fish/guidance.html.
127. Vilizzi L., Tarkan A.S. 2016. Bioaccumulation of metals in common carp (Cyprinus carpio L.) from water bodies of Anatolia (Turkey): a review with implications for fisheries and human food consumption. Environmental Monitoring and Assessment, 188(4):243.
128. Vinodhini R., Narayanan M. 2008. Bioaccumulation of heavy metals in organs of fresh water fish Cyprinus carpio (Common carp). International journal of Environmental Science and Technology, 5(2):179-182.
129. Watanabe K.H., Desimone F.W., Thiyagarajah A., Hartley W.R., Hindrichs A.E. 2003. Fish tissue quality in the lower Mississippi River and health risks from fish consumption. Science of The Total Environment, 302(1-3):109-126.
130. World Health Organization. 2013. Evaluation of certain food additives and contaminants: seventy-seventh report of the Joint FAO/WHO Expert Committee on Food Additives.
131. Yaghobzadeh Y., Hossein-Nezhad M., Asadi-Shiran G., Pourali M. 2014. An investigation of lead concentration in Rutilus frisii kutum form Caspian Sea case study of Bandar Anzali and Roodsar, Iran. Journal of Mazandaran University of Medical Sciences, 23(110):102-108 [In Persian].
132. Yang F., Zhang H., Xie S., Wei C., Xiao X. 2023. Concentrations of heavy metals in water, sediments and aquatic organisms from a closed realgar mine. Environmental Science and Pollution Research, 30(2):4959-4971.
133. Yi Y.J., Zhang S.H. 2012. The relationships between fish heavy metal concentrations and fish size in the upper and middle reach of Yangtze River. Procedia Environmental Sciences, 13:1699-1707.
134. Yılmaz F., Özdemir N., Demirak A., Tuna A.L. 2007. Heavy metal levels in two fish species Leuciscus cephalus and Lepomis gibbosus. Food Chemistry, 100(2):830-835.
135. Yousefi Jourdehi A., Abdali S., Hallajian A., Kazemi R., Sudagar M., Shokohi S., Shakoori M., Moradinasab A.A. 2012. Behavioral and morphopathological responses of Sliver Carp (Hypophthalmichthys molitrix) to acute toxicity of copper and zinc. Journal of Utilization and Cultivation of Aquatics, 1(3):15-27 [In Persian].
136. Zargar A., Nouruzi Z. 2016. The Persian Gulf Countries' Responsibilities and Their Roles in Environmental Protection. Studies of International Relations Journal, 9(33):251-281 [In Persian].