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Trace element concentrations in water and Clupeonella cultriventris caspia in the Southern Caspian Sea and Assessment of Potential Risk to Human Health.

التفاصيل البيبلوغرافية
العنوان: Trace element concentrations in water and Clupeonella cultriventris caspia in the Southern Caspian Sea and Assessment of Potential Risk to Human Health.
المؤلفون: Gorjian Arabi MH; Research Center for the Caspian Region, University of Mazandaran, Babolsar, Iran. h.gorjian@umz.ac.ir., Sinkakarimi MH; Research Center for the Caspian Region, University of Mazandaran, Babolsar, Iran., Ahmadpour M; Research Center for the Caspian Region, University of Mazandaran, Babolsar, Iran., Islami I; Faculty of Natural Resource and Marine Science, Tarbiat Modares University, Noor, Iran., Hapeman P; Biology Department, Central Connecticut State University, New Britain, CT, USA.
المصدر: Biological trace element research [Biol Trace Elem Res] 2022 Feb; Vol. 200 (2), pp. 822-831. Date of Electronic Publication: 2021 Mar 10.
نوع المنشور: Journal Article
اللغة: English
بيانات الدورية: Publisher: Humana Press Country of Publication: United States NLM ID: 7911509 Publication Model: Print-Electronic Cited Medium: Internet ISSN: 1559-0720 (Electronic) Linking ISSN: 01634984 NLM ISO Abbreviation: Biol Trace Elem Res Subsets: MEDLINE
أسماء مطبوعة: Original Publication: [London, Clifton, N. J.] Humana Press.
مواضيع طبية MeSH: Metals, Heavy*/analysis , Trace Elements*/analysis , Water Pollutants, Chemical*/analysis, Caspian Sea ; Environmental Monitoring ; Humans ; Hunting ; Risk Assessment ; Water
مستخلص: Despite the fishing pressure on common kilka (Clupeonella cultriventris caspia) and the importance of the Caspian Sea, there are little data on trace element levels in those. Therefore, the concentrations of 27 trace elements were measured in water (n=15) and C. cultriventris (n=1050) collected from the southern Caspian Sea. The concentrations of Cd, Hg, and Zn in the water exceeded permissible limits and posed potential ecological risks to the aquatic biota, especially in the southeastern region of the Caspian Sea. The estimated daily intakes of As, Cd, Co, Hg, Mn, Pb, Sb, and V from the consumption of C. cultriventris were higher than the acceptable daily intake recommended by the JECFA and USEPA. However, the target hazard quotients and hazard index values were lesser than one. It appears that C. cultriventris provides a small amount of essential element nutrition for consumers. In conclusion, this study revealed that consumers are exposed to As, Co, Hg, Mn, Mo, Sb, and, V through the consumption of C. cultriventris. Also, the concentrations of Cd, Hg, and Zn in water showed significant ecological risk.
(© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)
References: Achary MS, Satpathy KK, Panigrahi S, Mohanty AK, Padhi RK, Biswas S, Prabhu RK, Vijayalakshmi S, Panigrahy RC (2017) Concentration of heavy metals in the food chain components of the nearshore coastal waters of Kalpakkam, southeast coast of India. Food Control 72:232–243.
Castro-González MI, Méndez-Armenta M (2008) Heavy metals: Implications associated to fish consumption. Environ Toxicol Pharmacol 26:263–271. (PMID: 21791373)
Asante KA, Agusa T, Kubota R, Mochizuki H, Ramu K, Nishida S, Ohta S, Yeh H, Subramanian A, Tanabe S (2010) Trace elements and stable isotope ratios (δ13C and δ15N) in fish from deep-waters of the Sulu Sea and the Celebes Sea. Mar Pollut Bull 60:1560–1570. (PMID: 20483434)
Nordberg GF, Gerhardsson L, Mumtaz MM, Ruiz P, Fowler BA (2014) Interactions and mixtures in metal toxicology, in: Handbook on the Toxicology of Metals: Fourth Edition pp. 213–238.
Amiard JC, Amiard-Triquet C, Berthet B, Metayer C (1987) Comparative study of the patterns of bioaccumulation of essential (Cu, Zn) and non-essential (Cd, Pb) trace metals in various estuarine and coastal organisms. J Exp Mar Biol Ecol 106:73–89.
Varol M, Kaya GK, Alp A (2017) Heavy metal and arsenic concentrations in rainbow trout (Oncorhynchus mykiss) farmed in a dam reservoir on the Firat (Euphrates) River: risk-based consumption advisories. Sci. Total Environ 599–600:1288–1296.
Neff MR, Bhavsar SP, Ni FJ, Carpenter DO, Drouillard K, Fisk AT, Arts MT (2014) Risk-benefit of consuming Lake Erie fish. Environ Res 134:57–65. (PMID: 25046813)
Maleki A, Azadi NA, Mansouri B, Majnoni F, Rezaei Z, Gharibi F (2015) Health risk assessment of trace elements in two fish species of Sanandaj Gheshlagh Reservoir, Iran. Toxicol Environ Heal Sci 7(1):43–49.
Bouchoucha M, Chekri R, Leufroy A, Jitaru P, Millour S, Marchond N, Chafey C, Testu C, Zinck J, Cresson P, Mirallès F, Mahe A, Arnich N, Sanaa M, Bemrah N, Guérin T (2019) Trace element contamination in fish impacted by bauxite red mud disposal in the Cassidaigne canyon (NW French Mediterranean). Sci Total Environ 690:16–26. (PMID: 31284191)
Miao X, Hao Y, Tang X, Xie Z, Liu L, Luo S, Huang Q, Zou S, Zhang C, Li J (2020) Analysis and health risk assessment of toxic and essential elements of the wild fish caught by anglers in Liuzhou as a large industrial city of China. Chemosphere 243:125337. (PMID: 31739255)
Xie Q, Gui D, Liu W, Wu Y (2020) Risk for Indo-Pacific humpback dolphins (Sousa chinensis) and human health related to the heavy metal levels in fish from the Pearl River Estuary, China. Chemosphere 240:124844. (PMID: 31550584)
Copat C, Arena G, Fiore M, Ledda C, Fallico R, Sciacca S, Ferrante M (2013) Heavy metals concentrations in fish and shellfish from eastern Mediterranean Sea: consumption advisories. Food Chem Toxicol 53:33–37. (PMID: 23211443)
Gobert S, Pasqualini V, Dijoux J, Lejeune P, Durieux EDH, Marengo M (2017) Trace element concentrations in the apex predator swordfish (Xiphias gladius) from a Mediterranean fishery and risk assessment for consumers. Mar Pollut Bull 120:364–369. (PMID: 28521936)
Hull EA, Barajas M, Burkart KA, Fung SR, Jackson BP, Barrett PM, Neumann RB, Olden JD, Gawel JE (2021) Human health risk from consumption of aquatic species in arsenic-contaminated shallow urban lakes. Sci Total Environ 770:145318. (PMID: 33736365)
Da Silvaa CA, Garcia CAB, De Santana HLP, De Pontes GC, Wasserman JC, Da Costa SSL (2021) Metal and metalloid concentrations in marine fish marketed in Salvador, BA, northeastern Brazil, and associated human health risks. Regional Studies in Marine Science. In Press. https://doi.org/10.1016/j.rsma.2021.101716.
Dumont HJ (1998) The Caspian Lake: history, biota, structure, and function. Limnol Oceanogr 43:44–52.
Malvandi H, Alahabadi A (2019) Evaluation of potential human health risk due to the exposure to mercury via fish consumption of Alosa spp. from the southern Caspian Sea. Mar Pollut Bull 143:66–71. (PMID: 31789168)
Mamedov EV (2006) The biology and abundance of kilka (Clupeonella spp.) along the coast of Azerbaijan, Caspian Sea. ICES J Mar Sci 63:1665–1673.
Fazli H, Zhang C-I, Hay DE, Lee C-W, Janbaz A-A, Borani MS (2007) Population ecological parameters and biomass of anchovy kilka Clupeonella engrauliformis in the Caspian Sea. Fish Sci 73:285–294.
Saeedi Saravi SS, Shokrzadeh M (2013) Heavy metals contamination in water and three species of most consumed fish sampled from Caspian Sea (2011). Environ Monit Assess 185:10333–10337. (PMID: 23842607)
Sinka-Karimi MH, Mansouri B, Donyavi R, Azadi N (2017) Evaluation of risks and limits of white fish, mullet, and carp consumption in terms of lead concentration at the southeastern coast of the caspian sea: a systematic review and meta-analysis. J Maz Univ Med Sci 27:415–432.
Sayyad Bourani M, Abdolmalaki S, Khanipour AA, Fazli H, Khedmati K (2008) Catch composition and fishing trend of kilka in Iranian part of the Caspian Sea. Iran J Fish Sci 7(1):73–86.
Briscoe M (2015) Determination of heavy metals in food by inductively coupled plasma–mass spectrometry: first action 2015.01. J. AOAC Int 98:1113–1120.
CCME (2007) Canadian water quality guidelines for the protection of aquatic life: Summary table.
NOAA (2008) Screening quick reference tables. National Oceanic and Atmospheric Administration. Available from: https://repository.library.noaa.gov/view/noaa/9327.
EPA US (2000) Guidance for assessing chemical contaminant data for use in fish advisories, volume 2: risk assessment and fish consumption limits. EPA 823-B-00-008.
Chien L-C, Hung T-C, Choang K-Y, Yeh C-Y, Meng P-J, Shieh M-J, Han B-C (2002) Daily intake of TBT, Cu, Zn, Cd and As for fishermen in Taiwan. Sci Total Environ 285:177–185. (PMID: 11874040)
IRIS (2019) Integrated risk information system online database. Environmental Protection Agency. Available from URL https// www.epa.gov/risk/regional-screening-levels-rsls-generic-tables.
USEPA (U.S. Environmental Protection Agency) 2000 (2000) Guidance for assessing chemical contaminant data for use in fish advisories, volume II. Risk Assessment and fish consumption limits. (EPA 823-B-00-008).
Tabari S, Saeedi Saravi SS, Bandany GA, Dehghan A, Shokrzadeh M (2010) Heavy metals (Zn, Pb, Cd and Cr) in fish, water and sediments sampled form Southern Caspian Sea, Iran. Toxicol Ind Health 26:649–656. (PMID: 20639278)
De Mora S, Sheikholeslami MR, Wyse E, Azemard S, Cassi R (2004) An assessment of metal contamination in coastal sediments of the Caspian Sea. Mar Pollut Bull 48:61–77. (PMID: 14725876)
Naji A, Sohrabi T (2015) Distribution and contamination pattern of heavy metals from surface sediments in the southern part of Caspian Sea, Iran. Chem Speciat Bioavailab 27:29–43.
Rekacewicz P, Dejouhanet L (2002) Transboundary diagnostic analysis for the Caspian Sea. Maps Graph. Casp Environ Program.
Jamshidi S, Bastami KD (2017) Preliminary assessment of metal distribution in the surface sediments along the coastline of the southern Caspian Sea. Mar Pollut Bull 116:462–468. (PMID: 28017367)
Wang S-L, Xu X-R, Sun Y-X, Liu J-L, Li H-B (2013) Heavy metal pollution in coastal areas of South China: a review. Mar Pollut Bull 76:7–15. (PMID: 24084375)
Copat C, Vinceti M, D’Agati MG, Arena G, Mauceri V, Grasso A, Fallico R, Sciacca S, Ferrante M (2014) Mercury and selenium intake by seafood from the Ionian Sea: a risk evaluation. Ecotoxicol Environ Saf 100:87–92. (PMID: 24433795)
Yi Y, Yang Z, 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. Environ Pollut 159:2575–2585. (PMID: 21752504)
Sinkakarimi MH, Pourkhabbaz AR, Hassanpour M, Levengood JM, Ghasempouri SM (2015) Potential human health risk assessment of heavy metals in the flesh of mallard and pochard in the South Eastern Caspian Sea region of Iran. J Adv Environ Heal Res 3:139–145.
JECFA (2019) Evaluations of the Joint FAO/WHO Expert Committee on Food Additives; Available from URL http://apps.who.int/food-additivescontaminants-jecfa-daabase/search.aspx?fc=47.
Heshmati A, Karami-Momtaz J, Nili-Ahmadabadi A, Ghadimi S (2017) Dietary exposure to toxic and essential trace elements by consumption of wild and farmed carp (Cyprinus carpio) and Caspian kutum (Rutilus frisii kutum) in Iran. Chemosphere 173:207–215. (PMID: 28110010)
Manavi PN, Mazumder A (2018) Potential risk of mercury to human health in three species of fish from the southern Caspian Sea. Mar Pollut Bull 130:1–5. (PMID: 29866535)
Agah H, Leermakers M, Elskens M, Fatemi SMR, Baeyens W (2007) Total mercury and methyl mercury concentrations in fish from the Persian Gulf and the Caspian Sea. Water Air Soil Pollut 181:95–105.
Liu X, Jiang J, Yan Y, Dai Y, Deng B, Ding S, Su S, Sun W, Li Z, Gan Z (2018) Distribution and risk assessment of metals in water, sediments, and wild fish from Jinjiang River in Chengdu, China. Chemosphere 196:45–52. (PMID: 29291513)
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. Environ Pollut 121:129–136. (PMID: 12475070)
Fey P, Bustamante P, Bosserelle P, Espiau B, Malau A, Mercader M, Wafo E, Letourneur Y (2019) Does trophic level drive organic and metallic contamination in coral reef organisms Sci. Total Environ 667:208–221.
Xu Y, Wang W-X (2002) Exposure and potential food chain transfer factor of Cd, Se and Zn in marine fish Lutjanus argentimaculatus. Mar Ecol Prog Ser 238:173–186.
Kojadinovic J, Potier M, Le Corre M, Cosson RP, Bustamante P (2007) Bioaccumulation of trace elements in pelagic fish from the Western Indian Ocean. Environ Pollut 146:548–566. (PMID: 17084003)
Burger J, Gaines KF, Boring CS, Stephens WL Jr, Snodgrass J, Gochfeld M (2001) Mercury and selenium in fish from the Savannah River: species, trophic level, and locational differences. Environ Res 87:108–118. (PMID: 11683594)
Hakanson L, Jansson M (2002) Principles of lake sedimentology. The Blackburn Press, New Jersey.
Li F, Pan H, Ye W, Zhu L, Cao Z (2009) The advances in the geochemical research on urban dust. Geophys. Geochemical Explor.
Kumar V, Parihar RD, Sharma A, Bakshi P, Sidhu GPS, Bali AS, Karaouzas I, Bhardwaj R, Thukral AK, Gyasi-Agyei Y (2019) Global evaluation of heavy metal content in surface water bodies: a meta-analysis using heavy metal pollution indices and multivariate statistical analyses. Chemosphere 236:124364. (PMID: 31326755)
معلومات مُعتمدة: 97022096 Iran University of Science and Technology
فهرسة مساهمة: Keywords: Caspian sea; Dietary exposure; Food safety; Health risks; Minerals
المشرفين على المادة: 0 (Metals, Heavy)
0 (Trace Elements)
0 (Water Pollutants, Chemical)
059QF0KO0R (Water)
تواريخ الأحداث: Date Created: 20210311 Date Completed: 20220110 Latest Revision: 20220110
رمز التحديث: 20231215
DOI: 10.1007/s12011-021-02664-8
PMID: 33694126
قاعدة البيانات: MEDLINE
الوصف
تدمد:1559-0720
DOI:10.1007/s12011-021-02664-8