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Ocena stężeń tributylocyny w próbkach z Portu Gdynia
Języki publikacji
Abstrakty
Tributyltin (TBT) may affect various organisms. TBT has been used in antifouling paints for the protection of ship hulls and hence harbor sediments may contain high concentrations of TBT. This study shows TBT concentrations found in sediments from three basins (No. V, VI, and VIII) of the Port of Gdynia. TBT concentrations ranged from 291 to 1689 ngSn·g-1 d.w. and should be classified as highly contaminated and grossly contaminated [20]. These results indicate that TBT in harbour sediments is an environmental risk that may be emphasized by dredging operations in the region. However, obtained results confirm also the global tendency for depreciating content of TBT in port sediments after the global banning on the use of TBT in 2008.
Tributylocyna (TBT) może wpływać negatywnie na różne organizmy. TBT była stosowana jako komponent w farbach przeciwporostowych do ochrony kadłubów statków, dlatego też osady portowe mogą zawierać wysokie stężenia TBT. W pracy przedstawiono ocenę zawartości TBT w osadach z trzech basenów (nr V, VI i VIII) w Porcie Gdynia. Stężenia TBT zawierały się w zakresie od 291 do 1689 ngSn-g-1 s.m. i powinny być klasyfikowane jako wysoce zanieczyszczone i rażąco zanieczyszczone [20]. Wyniki te wskazują, że TBT w osadach portowych stanowi realne ryzyko środowiskowe, które może być zwiększone w wyniku prowadzenia prac pogłębiarskich w porcie. Jednakże, uzyskane wyniki potwierdzają również ogólną tendencję do zmniejszania zawartości TBT w osadach portowych w wyniku wprowadzenia zakazu stosowania TBT w 2008 roku.
Wydawca
Czasopismo
Rocznik
Tom
Strony
218--222
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
- Department of Environmental Protection, Maritime Institute in Gdansk, Poland
autor
- Department of Environmental Protection, Maritime Institute in Gdansk, Poland
autor
- Department of Environmental Protection, Maritime Institute in Gdansk, Poland
autor
- Department of Environmental Protection, Maritime Institute in Gdansk, Poland
Bibliografia
- [1] Sternberg R.M., Gooding M.O., Hotchkiss A.K., LeBlanc G.A., 2010. Environmentalendocrine control of reproductive maturation in gastropods: implications for the mechanisms of tributyltin-induced imposex in prosobranchs. Ecotoxicology 9, 4-23.
- [2] Suzdalev S., Gulbinskas S., Blažauskas N., 2015. Distribution of tributyltin in surface sediments from transitional marine-lagoon system of the south-eastern Baltic Sea, Lithuania. Environ. Sci. Pollut. Res., 22, 2634–2642.
- [3] Kim N.S., Hong S.H., An J.G., Shin K.H., Shim W.J., 2015. Distribution of butyltins and alternative antifouling biocides in sediments from shipping and shipbuilding areas in South Korea. Mar. Pollut. Bull., 95, 484-490.
- [4] Senthilkumar, K., Duda, C. A., Villeneuve, D. D. L, Kannan, K., Falandysz, J., Giesy, J. P. 1999. Butyltin Compounds in Sediment and Fish from the Polish Coast of the Baltic Sea. Environ.Sci. and Pollut.Res. 6, 200-206.
- [5] Radke B., Wasik A., Jewell L., Pączek U., Namieśnik J., 2013. The speciation of organotin compounds in sediment and water samples from the Port of Gdynia. Soil Sediment Contam. 22, 614-630.
- [6] Filipkowska F., Kowalewska G., Pavoni B., Łęczyński L., 2011. Organotin compounds in surface sediments from seaports on the Gulf of Gdańsk (southern Baltic coast). Environ. Monit. Assess., 182, 455-466.
- [7] Laitano M.V., Castro I.B., Costa P.G., Fillmann G., Cledon M., 2015. Butyltin and PAH contamination of Mar del Plata Port (Argentina) sediments and their influence on adjacent coastal region. Bull Environ. Contam. Toxicol., 95, 513-520.
- [8] Briant N., Bancon-Montigny R., Elbaz-Poulichet F., Freydier R., Delpoux S., Cossa D., 2013. Trace elements in the sediments of a large Mediterranean marina (Port Camrgue, France): Level and contamination history. Mar. Pollut. Bull. 73, 78-85.
- [9] IMO, 2008. International Convention on the Control of Harmful Anti-fouling Systems on Ships. International Maritime Organization. Derived from: http://www.imo.org/en/ about/conventions/listofconventions/pages/international-convention-on-the-controlof-harmful-anti-fouling-systems-on-ships-(afs).aspx.
- [10] Stewart C., Thompson J.A.J., 1997. Vertical distribution of butyltin residues in sediments of British Columbia harbours. Environ. Technol., 18, 1195 – 1202.
- [11] De Oliveira C.R., Dos Santos D., Madureira L.A., de Marchi M.R., 2010. Speciation of butyltin derivatives in surface sediments of three southern Brazilian harbors. J Hazard Mater., 181:851-856.
- [12] Dong C.D., Chen C.F., Chen C.W., 2015. Composition and source of butyltin in sediments of Kaohsiung harbor, Taiwan. Estuar. Coast. Shelf. Sci., 156, 134-143.
- [13] Szpunar J., Falandysz J., Schmitt O., Obrebska E., 1997. Butyltin in marine freshwater and sediments of Poland. Bull Environ. Contam. Toxicol., 58:859-864.
- [14] Radke B., Łęczyński L., Wasik A., Namieśnik J., Bolałek J., 2008. The content of butyl- and phenyltin derivatives in the sediment from the Port of Gdansk. Chemosphere 73, 407-414.
- [15] Rosińska S., 2016. Port Gdynia. The official website of the Gdynia Port. Derived from: www.port.gdynia.pl.
- [16] Wojtkiewicz M., Stasiek K., Galer-Tatrowicz K., Pazikowska-Sapota G., Dembska G., 2015. Validation of analytical methods for determination of tributyltin (TBT) in soils and bottom sediments. BMI 20, 189-194.
- [17] Hoch M., Schwesig D., 2004. Parameters controlling the partitioning of tributyltin (TBT) in aquatic systems. Appl. Geochem. 19, 323–334.
- [18] Díez S., Jover E., Albaigés J., Bayona J. M., 2006. Occurrence and degradation of butyltins and waster marker compounds in sediments from Barcelona harbor, Spain. Environ. Int. 32, 858-865.
- [19] SMOCS, 2012. Contamination in sediments from the Baltic Sea region. Situation and Methods. Derived from: https://www.researchgate.net/publication/301481508_Contamination_in_sediments_from_the_Baltic_Sea_region_Situation_and_Methods_ wwwsmocseu.
- [20] Dowson P. H., Bubband J. M., Lester J. N., 1989. Temporal Distribution of Organotins in the Aquatic Environment: Five Years after the 1989 UK Retail Ban on TBT Based Antifouling Paints. Mar. Pollut. Bull., 26, 487-494.
- [21] Undap S.L., Nirmala K., Miki S., Inoue S., Qiu X., Honda M., Shimasaki Y., Oshima Y., 2013. High tributyltin contamination in sediments from ports in Indonesia and Northern Kyushu, Japan. J. Fac. Agric. Kyushu. Univ., 58, 131–135.
- [22] Lee C.C., Hsieh C.Y., Tien C.Y., 2006. Factors influencing organotin distribution in different marine environmental compartments, and their potential health risk. Chemosphere 65, 547-59.
- [23] Okoro H.K., Fatoki O.S., Adekola F.A., Ximba B.J., Snyman R.G., 2013. Spatiotemporal variation of organotin compounds in seawater and sediments from Cape Town harbour, South Africa using gas chromatography with flame photometric detector (GCFPD). Arab. J. Chem., 9, 95-104.
- [24] Cassi R., Tolosa I., de Mora S., 2008. A survey of antifoulants in sediments from ports and marinas along the French Mediterranean coast. Mar. Pollut. Bull. 56, 1943–1948.
- [25] Zhang K.G., Shi J.B., He B., Xu W.H., Li X.D., Jinag G.B., 2013. Organotin compounds in surface sediments from selected fishing ports along the Chinese coast. Chin. Sci.Bull., 58, 231-237.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-da582d66-d7a6-4fa6-b3da-8fa9e5ab8029