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DOI :10.26650/EurJBiol.2019.0001   IUP :10.26650/EurJBiol.2019.0001    Tam Metin (PDF)

Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea

Levent BatFatih ŞahinAysan Oztekin

Objective: Metal bioaccumulation of the bivalve Mytilaster lineatus, based on different seasons and stations was investigated in Sinop Peninsula of the Black Sea. Soft tissues of mussels from Gazibey Rock and Içliman were taken during the spring and the summer of the year 2016 and were analyzed for Hg, Cd, Pb, Cu and Zn. Materials and Methods: The soft tissues of the mussels digested with Suprapur® HNO3 (nitric acid) using a Milestone Systems, Start D 260 microwave digestion system. The accuracy and precision of the method was verified by the simultaneous analysis of the certified reference materials NIST 2976 (mussel tissue) for the samples. The Inductively Coupled Plasma–Mass Spectrometer (ICP-MS), Agilent Technologies, 7700x was used for metal analyses. Results: Results showed that higher concentrations of almost all metals in Içliman than those in Gazibey Rock. However, no significant differences were detected between seasons except for both Cu and Zn. The metal amounts of M. lineatus ranged between 0.024-0.035, 0.054-0.072, 0.13-0.25, 0.64-0.85 and 6-20 mg kg-1 wet wt. for Hg, Cd, Pb, Cu and Zn, respectively. Conclusion: The measured metals in both sampling areas did not exceed the threshold set by the European Commission and Turkish Food Codex. The results of this study also confirmed the potential of M. lineatus to be used as bio-indicators of heavy metal pollution.

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Referanslar

  • 1. Bat L, Öztekin A, Şahin F, Arici E, Özsandikci U. An overview of the Black Sea pollution in Turkey. MedFAR 2018; 1(2): 67-86. google scholar
  • 2. Bat L, Özkan EY. Chapter 13. Heavy metal levels in sediment of the Turkish Black Sea coast. In: Bikarska I, Raykov V, Nikolov N. (Eds.) Progressive Engineering Practices in Marine Resource Management. IGI Global book series Advances in Environmental Engineering and Green Technologies (AEEGT) (ISSN: 2326-9162; eISSN: 2326-9170) USA, 2016; 399-419. google scholar
  • 3. Bat L, Arıcı E. Chapter 5. Heavy Metal Levels in Fish, Molluscs, and Crustacea From Turkish Seas and Potential Risk of Human Health. In: Holban AM, Grumezescu AM. (Eds.) Handbook of Food Bioengineering, Volume 13, Food Quality: Balancing Health and Disease. Elsevier, Academic Press, ISBN: 978-0-12-811442-1, 2018 ; 159-196. http://dx.doi.org/10.1016/B978-0-12-811442-1.00005-5 google scholar
  • 4. Phillips DJH, Rainbow PS. Biomonitoring of trace aquatic contaminants. Environmental Management Series, Chapman & Hall, London 1994. google scholar
  • 5. Phillips DJH. The chemistries and environmental fates of trace metals and organochlorines in aquatic ecosystems. Mar Pollut Bull 1995; 31(4-12): 193-00. google scholar
  • 6. Uysal H. Türkiye sahillerinde bulunan midyeler ‘Mytilus galloprovincialis Lamark’ üzerinde biyolojik ve ekolojik araştırmalar. EÜ Fen Fak İlmi Rap Ser 1970; 79: 1-79. google scholar
  • 7. Çulha M, Bat L, Türk-Çulha S, Yeşim-Çelik M. Benthic mollusk composition of some facies in the upper-infralittoral zone of the southern Black Sea, Turkey. Turk J Zool 2010; 34: 523-32. google scholar
  • 8. Bat L, Gönlügür G. Sinop Sahillerinin üst-infralittoral zonundaki midye fasiesleri üzerinde kalitatif ve kantitatif araştırmalar. (Qualitative and quantitative investigations on mussel facies in the upper-infralittoral zone of Sinop coasts, Black Sea, Turkey). (OMÜ S.057 Numaralı Araştırma Fonu) 2001; 31 pp. 9. Mülayim A, Balkis H. Toxic Metal (Pb, Cd, Cr, and Hg) levels in Rapana venosa (Valenciennes, 1846), Eriphia verrucosa (Forskal, 1775), and sediment samples from the Black Sea littoral (Thrace, Turkey). Mar Poll Bull 2015; 95: 215-22. 10. Bat L, Öztekin HC. Heavy Metals in Mytilus galloprovincialis, Rapana venosa and Eriphia verrucosa from the Black Sea coasts of Turkey as bioindicators of pollution. Walailak J Sci Tech 2016; 13(9): 715-28. google scholar
  • 11. Bat L, Arici E, Öztekin A. Human health risk assessment of heavy metals in the Black Sea: evaluating mussels. Current World Environ 2018; 13(1): 15-31. google scholar
  • 12. Bat L, Arici E, Öztekin A, Yardim Ö, Üstün F. Use of the Mediterranean mussel Mytilus galloprovincialis Lamarck, 1819 from Sinop coasts of the Black Sea as bio-monitor. Int J Mar Sci 2018; 8(5): 44-7. google scholar
  • 13. Bat L, Şahin F, Öztekin A. Toxic elements in edible Mollusks from Igneada coasts of the Black Sea, Turkey. Korean J Food Health Conv 2018; 4(3): 22-31. doi: http://dx.doi.org/10.13106/kjfhc.2018.vol4.no3.22 google scholar
  • 14. Bat L, Sezgin M, Şahin F, Birinci Özdemir Z, Ürkmez D. Sinop city fishery of the Black Sea. Mar Sci 2013; 3(3): 55-64. DOI: 10.5923/j. ms.20130303.01 google scholar
  • 15. Bat L, Bat L, Sahin F, Sezgin M, Gonener S, Erdem E, Ozsandıkcı U. Fishery of Sinop coasts in the Black Sea surveys. Eur J Biol 2018; 77(1): 18-25. doi: 10.26650/EuroJBiol.2018.388175 google scholar
  • 16. Bernhard M. Manual of methods in the aquatic environment research.Rome: Food and Agriculture Organization. 1976. google scholar
  • 17. United Nations Environment Programme. Reference methods for marine pollution studies. RSMS 11. Determination of total cadmium, zinc, lead and copper in selected marine organisms by flameless atomic absorption spectrophotometry. Geneva: United Nations Environment Programme; 1984. [Online] Available from: http://www.unep.ch/regionalseas/pubs/rsrm.htm [Accessed on 22nd November, 2016] google scholar
  • 18. United Nations Environment Programme. GESAMP: Cadmium, lead and tin the marine environment. UNEP Regional Seas Reports and Studies No. 56. Nairobi: United Nations Environment Programme; 1985. [Online] Available from: http://www.unep.org/regionalseas/ publications/reports/RSRS/pdfs/rsrs056.pdf [Accessed on 1th December, 2016] google scholar
  • 19. Zar JH. Biostatistical analysis. 2nd ed. New Jersey: Prentice Hall 1984. google scholar
  • 20. MAFF (The Ministry of Agriculture, Forestry and Fisheries). Monitoring and surveillance of non-radioactive contaminants in the aquatic environment and activities regulating the disposal wastes at sea, of 1993. Directorate of Fisheries research, Lowestoft, Aquatic Environment Monitoring Report, 1995; 44. google scholar
  • 21. TFC. Official Gazette of Republic of Turkey. Notifications about determination of the maximum levels for certain contaminants in foodstuffs of Turkish Food Codex (inTurkish). (Notification No: 2002/63) 2002; 24885. google scholar
  • 22. Council of Europe. Partial Agreement in the Social and Public Field. The Guidelines on Metals and Alloys used as Food Contact Materials are Part of the Council of Europe’s Policy Statements Concerning Materials and Articles Intented to Come into Contact with Foodstuffs. Technical Document Strasbourg, 2001. 23. Commission Regulation (EC). Setting maximum levels for certain contaminants in foodstuffs. 2006; 1881. google scholar
  • 24. TFC. Official Gazette of Republic of Turkey. Notifications changes to the maximum levels for certain contaminants in foodstuffs (in Turkish). (Notification No: 2009/22) 2009; 27143. google scholar
  • 25. Beltrame MO, De Marco SG, Marcovecchio JE. Influences of sex, habitat, and seasonality on heavy-metal concentrations in the burrowing crab (Neohelice granulata) from a coastal lagoon in Argentina. Arch Environ Contam Toxicol 2010; 58(3): 746-56. google scholar
  • doi: 10.1007/s00244-009-9405-9 google scholar
  • 26. Simonetti P, Botté SE, Fiori SM, Marcovecchio JE. Heavy-metal concentrations in soft tissues of the burrowing crab Neohelice granulata in Bahía Blanca Estuary, Argentina. Arch Environ Contam Toxicol 2012; 62: 243–253. doi: 10.1007/s00244-011-9692-9 google scholar
  • 27. Baltas H, Sirin M, Dalgic G, Bayrak EY, Akdeniz A. Assessment of metal concentrations (Cu, Zn, and Pb) in seawater, sediment and biota samples in the coastal area of eastern Black Sea, Turkey. Mar Pollut Bull 2017; 122(1-2): 475-82. doi: 10.1016/j.marpolbul.2017.06.059 google scholar
  • 28. Demina LL, Budko DM. Trace metals in carbonate biomineralization by the example of Bivalvia Mytilus spp. from the Black Sea. (in Russian) Geologo-Mineralogical Sci Fundamental Res 2014; 11: 2185-89. 29. Temerdashev ZA, Eletskii II, Kaunova AA, Korpakova IG. Determination of heavy metals in Mytilus galloprovincialis Lamarck mussels using the IСP-AES method. (in Russian). Аналитика и контроль 2017; 21(2): 116-24. google scholar
  • 30. Egorov VN, Lazorenko GE, Mirzoyeva NY, Stokozov NA, Kostova SK, Malakhova LV, Pirkova AV, Arkhipova SI, Korkishko NF, Popovichev VN, Plotitsyna OV, Migal LV. Content of 137 Cs, 40 K, 90 Sr, 210 Po radionuclides and some chemical pollutants in the Black Sea mussels, Mytilus galloprovincialis Lam. Морской экологический журнал 2006; 5(3): 70-8. google scholar
  • 31. Strungaru SA, Nicoara M, Teodosiu C, Micu D, Plavan G. Toxic metals biomonitoring based on prey-predator interactions and environmental forensics techniques: A study at the Romanian-Ukraine cross border of the Black Sea. Mar Pollut Bull 2017; 124(1): 321-330. doi: 10.1016/j.marpolbul.2017.07.052 google scholar
  • 32. Oros A, Pecheanu I, Mihnea R. Bioaccumulation in Mytilus galloprovincialis along the Romanian Black Sea coastal aarea. J Environ Protec Ecol 2003; 4(4): 850-56. google scholar
  • 33. Roméo M, Frasila C, Gnassia-Barelli M, Damiens G, Micu D, Mustata G. Biomonitoring of trace metals in the Black Sea (Romania) using mussels Mytilus galloprovincialis. Water Res 2005; 39(4): 596-604. doi: 10.1016/j.watres.2004.09.026 google scholar
  • 34. Simeonova P, Simeonov D, Spassov L, Simeonov V. Determination and statistical interpretation of toxic metals content in mollusks and snails from Black Sea. Bulg J Chem 2013; 2(3): 105-14. google scholar
  • 35. Gorinstein S, Moncheva S, Toledo F, Arancibia-Avila P, Trakhtenberg S, Gorinstein A, Goshev I, Namiesnik J. Relationship between seawater pollution and qualitative changes in the extracted proteins from mussels Mytilus galloprovincialis. Sci Total Environ 2006; 364(1): 251-259. doi: 10.1016/j.scitotenv.2005.06.013 google scholar
  • 36. Gorinstein S, Jung ST, Moncheva S, Arancibia-Avila P, Park YS, Kang SG, Goshev I, Trakhtenberg S, Namiesnik J. Partial characterization of proteins from mussel Mytilus galloprovincialis as a biomarker of contamination. Arch Environ Contam Toxicol 2005; 49(4): 504-10. doi: 10.1007/s00244-004-0238-2 google scholar

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DIŞA AKTAR



APA

Bat, L., Şahin, F., & Oztekin, A. (2019). Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea. European Journal of Biology, 78(1), 23-28. https://doi.org/10.26650/EurJBiol.2019.0001


AMA

Bat L, Şahin F, Oztekin A. Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea. European Journal of Biology. 2019;78(1):23-28. https://doi.org/10.26650/EurJBiol.2019.0001


ABNT

Bat, L.; Şahin, F.; Oztekin, A. Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea. European Journal of Biology, [Publisher Location], v. 78, n. 1, p. 23-28, 2019.


Chicago: Author-Date Style

Bat, Levent, and Fatih Şahin and Aysan Oztekin. 2019. “Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea.” European Journal of Biology 78, no. 1: 23-28. https://doi.org/10.26650/EurJBiol.2019.0001


Chicago: Humanities Style

Bat, Levent, and Fatih Şahin and Aysan Oztekin. Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea.” European Journal of Biology 78, no. 1 (Dec. 2024): 23-28. https://doi.org/10.26650/EurJBiol.2019.0001


Harvard: Australian Style

Bat, L & Şahin, F & Oztekin, A 2019, 'Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea', European Journal of Biology, vol. 78, no. 1, pp. 23-28, viewed 19 Dec. 2024, https://doi.org/10.26650/EurJBiol.2019.0001


Harvard: Author-Date Style

Bat, L. and Şahin, F. and Oztekin, A. (2019) ‘Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea’, European Journal of Biology, 78(1), pp. 23-28. https://doi.org/10.26650/EurJBiol.2019.0001 (19 Dec. 2024).


MLA

Bat, Levent, and Fatih Şahin and Aysan Oztekin. Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea.” European Journal of Biology, vol. 78, no. 1, 2019, pp. 23-28. [Database Container], https://doi.org/10.26650/EurJBiol.2019.0001


Vancouver

Bat L, Şahin F, Oztekin A. Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea. European Journal of Biology [Internet]. 19 Dec. 2024 [cited 19 Dec. 2024];78(1):23-28. Available from: https://doi.org/10.26650/EurJBiol.2019.0001 doi: 10.26650/EurJBiol.2019.0001


ISNAD

Bat, Levent - Şahin, Fatih - Oztekin, Aysan. Metal Bioaccumulation of Mytilaster lineatus (Gmelin, 1791) Collected from Sinop Coast in the Southern Black Sea”. European Journal of Biology 78/1 (Dec. 2024): 23-28. https://doi.org/10.26650/EurJBiol.2019.0001



ZAMAN ÇİZELGESİ


Gönderim05.02.2019
Kabul22.03.2019
Çevrimiçi Yayınlanma31.05.2019

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