Residue of chlorinated pesticides in fish caught in the Southern Baltic

Reindl, A. R.; Falkowska, L.; Szumiło, E.; Staniszewska, M.

Artykuł - szczegóły

Tytuł artykułu

Residue of chlorinated pesticides in fish caught in the Southern Baltic

Autorzy

Reindl A. R. , Falkowska L. , Szumiło E. , Staniszewska M.

Wybrane pełne teksty z tego czasopisma

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

The aim of this study was to estimate the residue of chlorinated pesticides in the edible fish caught in the Gulf of Gdańsk and in the Vistula Lagoon. The highest mean concentrations of total DDT were found in the muscles of salmon (331.45 ng g⁻¹ lw.) and sabre carp (306.29 ng g⁻¹ lw.) caught in the Vistula Lagoon, and in the muscles of cod (309.88 ng g⁻¹ lw.) and herring (304.86 ng g−1 lw.) from the Gulf of Gdańsk. Moreover, it was discovered that the following were present in the muscles of fish: DDT metabolites (pp’-DDE and pp’-DDD isomers) as well as hexachlorobenzene and its metabolites and endrin, dieldrin, α-endosulfan isomers and methoxychlor. Pesticides concentrations were higher in the livers of fish than in the muscles, which proves that the removal of toxins from the fish systems dominates over their accumulation. Because no concentration limits for pesticides have been defined, consumer safety assessment of fish caught in the Southern Baltic and in the Vistula Lagoon is not possible. The authors, having observed an increase in heksachlorobenzen in fish tissues suggested the existence of contemporary sources of pesticides which introduce them into the coastal zone.

Słowa kluczowe

DDT heksachlorobenzen edible fish Gulf of Gdansk Vistula Lagoon

Wydawca

Institute of Oceanography University of Gdańsk

Czasopismo

Oceanological and Hydrobiological Studies

Rocznik

2013

Tom

Vol. 42, No. 3

Strony

251--259

Opis fizyczny

Bibliogr. 37 poz., tab.

Twórcy

autor

Reindl A. R.

andrzej.reindl@ug.edu.pl

Department of Marine Chemistry and Environmental Protection, Faculty of Oceanography and Geography, University of Gdańsk, Al. Piłsudskiego 46, 81-387, Gdynia, Poland

autor

Falkowska L.

Department of Marine Chemistry and Environmental Protection, Faculty of Oceanography and Geography, University of Gdańsk, Al. Piłsudskiego 46, 81-387, Gdynia, Poland

autor

Szumiło E.

Department of Marine Chemistry and Environmental Protection, Faculty of Oceanography and Geography, University of Gdańsk, Al. Piłsudskiego 46, 81-387, Gdynia, Poland

autor

Staniszewska M.

Department of Marine Chemistry and Environmental Protection, Faculty of Oceanography and Geography, University of Gdańsk, Al. Piłsudskiego 46, 81-387, Gdynia, Poland

Bibliografia

1. Arrhenius, F. & Hansson S. (1992). Food consumption of herring and sprat in the Baltic Sea. ICES, Baltic Fish Committee J, 7, 1–10.
2. Bartel, R. (2001). Return of salmon back to Polish waters. Ecology & Hydrobiology 1,3; 377–392.
3. Bignert, A., Litzén K., Odsjö T., Olsson M., Persson W. & Reutergårdh L. (1995). Time related factors influence the concentrations of sDDT, PCBs and shell parameters in eggs of Baltic Guillemot (Uria aalge), 1861–1989. Environmental Pollution, 89:27–36.
4. Bignert, A., Danielsson S., Nyberg E., Asplund L., Eriksson U., Berger U. & Haglund P. (2010). Comments Concerning the National Swedish Contaminant Monitoring Programme in Marine Biota, 2010. Report to the Swedish Environmental Protection Agency. Report nr 1:2010, - 154.
5. Brylińska, (2001). Ryby słodkowodne Polski. PWN Warszawa, 141–145.
6. Buszewski, B., Buszewska T., Chmarzyński A., Kowalkowski T., Kowalska J., Kosbucki P., Zbytniewski R., Namieśnik J., Kot-Wasik A., Pacyna J. & Panasiuk D. (2005). The present condition of the Vistula river catchment area and its impact on the Baltic Sea coastal zone. Reg Environ change. 5, 97–110.
7. Casini, M., Cardinale M. & Arrhenius F. (2004). Feeding preferences of herring (Clupea harengus) and sprat (Sprattus sprattus) in the southern Baltic Sea, ICES, J. Mar. Sci. 61, 1267–1277.
8. El-Mekkawi, H., Diab M., Zaki M. & Hassan A. (2009). Determination of chlorinated organic pesticide residues in water, sediments and fish farms at Abbassa and Shal Al-Husainia, Shakia governorate. Australian J. Bass. Appl. Sci. 3(4), 4376–4383
9. Evans, D.W., Dodo D.K. & Hanson P.J. (1993). Trace-element concentrations in fish livers: implications of variations with fish size in pollution monitoring. Mar. Pollut. Bull. 26, 329–334.
10. Falandysz, J., Brudnowska B., Iwata H. & Tanabe S. (1999a). Organochlorine pesticides and polichronated biphynls in the ambient air in city of Gdańsk. Roczniki PZH. 50(1), 39–48.
11. Falandysz, J., Strandberg B., Strandberg L., Bergqvist P. A. & Rappe Ch. (1999b). Dieldrin, aldrin, endrin, isodrin, endosulphan 1 and 2 on fish in the Gulf of Gdańsk, Roczniki PZH. 50(2), 131–138.
12. Falandysz, J. & Strandberg B. (2004). Persistent organochlorine compounds in sludge and sediments from tha Gdańsk region, Baltic Sea. Pol. J. Env. Stud. 13(2), 133–138
13. Falkowska L., Reindl A.R., Szumiło E., Kwaśniak J., Staniszewska M., Bełdowska M., Lewandowska A. & Krause I. (2013). Mercury and chlorinated pesticides on the highest level of the food web as exemplified by herring from the Southern Baltic and African penguins from the zoo. Water Air and Soil Pollution 224:1549. DOI: 10.1007/s11270-013-1549-6
14. Gąsowska, M. (1962). Klucze do oznaczania kręgowców Polski. Cz. I, Krągłouste-Cyclostomi, Ryby-Pisces. Opracowanie zbiorowe, PWN, Warszawa, Kraków. 240.
15. Grynkiewicz, M., Polkowska Ż., Górecki T. & Namieśnik J. (2001). Pesticides in precipitation in the Gdańsk region (Poland). Chemosphere. 43, 303–312
16. HELCOM, (2010). Hazardous substances in the Baltic Sea — An integrated thematic assessment of hazardous substances in the Baltic Sea. Balt. Sea Environ. Proc. No. 120B.
17. Jackowski, E. (2002). Ryby Zatoki Puckiej. Monografia rybacka, Wydaw. Mor. Inst. Ryb., Gdynia. 108.
18. Koistinen, J. Kiviranta H, Ruokojärvi P, Parmanne R, Verta M, Hallikainen A & Vartiainen T. (2008). Organohalogen pollutants in herring from the northern Baltic Sea: concentrations, congener profiles and explanatory factors. Environ Pollut. 154(2), 172–183.
19. Kosikowska M., Szymańska M. & Biziuk M. (2011). Determination of pesticides residues in ambient air in tri-city. [in:] JakośĆ Powietrza a jakośĆ życia. W. Wardencji (ed.), 63–69.
20. Kosior, M., Trella K.K. & Jaworski A., (2001). Fecundity of cod (Gadus morhua callarias L.) in the southern Baltic in the late 1990s. Acta Ichthyol. Piscat. 31(2), 55–75.
21. Kot-Wasik, A., Dębska J. & Namieśnik J. (2004). Monitoring of organic pollutants in coastal waters of the Gulf of Gdańsk, Southern Baltic. Mar. Poll. Bull. 49, 264–276.
22. Kwaśniak J. & Falkowska L. (2012). Mercury distribution in muscles and internal organs of the juvenile and adult Baltic cod (Gadus morrhua callarias Linnaeus, 1758). Oceanol. Hydrobiol. Stud. 41(2), 65–71. DOI: 10.2478/s13545-012-0018-y
23. Moilanen, R., Pyysalo H., Wickström K. & Linko R. (1982). Time trend of chlordane, DDT and PCB concentration in Pike (Esox Lucius) and Baltic Herring (Clupea harengus) in the Turku Archipelago, Northern Baltic Sea for the period 1971–1982. Bull. Environm. Contam. Toxicol. 29, 334–340.
24. Nfon, E, Cousins I.T. & Broman D. (2008). Biomagnification of organic pollutants in benthic and pelagic marine food chains from the Baltic Sea. Sci Total Environ. 397(1–3), 190–204.
25. Olsson, M., Bignert, A., Aune, M., Haarich, M., Harms, U., Korhonen, M., Poutanen, E., Roots, O. & Sapota, G. (2003). Organic contaminants. Chapter in Forth Periodic Assessment of the State of the Marine Environment of the Baltic Sea Area, 1994–1998. Baltic Marine Environment Protection Commission 2002. pp 133–140.
26. Reindl, A.R., Bolałek J. & Falkowska L. (2013). Persistent organic pollutants (POPs) in the marine food web: herrings from the southern Baltic Sea (Clupea harengus) — penguins from the zoo (Spheniscus demersus). Oceanol. Hydrobiol. Stud. 42(1). DOI: 10.2478/s13545-000-0000-0
27. Roots, O. & Talvari A. (1997). Bioaccumulation of the toxic chlororganic compounds and their isomers into the organism of Baltic grey seals. Chemosphere. 35(5), 979–985.
28. Sapota, G. (1997). Chlorinated hydrocarbons in sediments from the Vistula Lagoon. Oceanol. Hydrobiol. Stud. 26(2–3), 61–69.
29. Sapota, G. (2006). Decreasing trend of persistent organic pollutants (POPs) in herring from the southern Baltic Sea. Oceanol. Hydrobiol. Stud. 35(1), 15–21.
30. Strandberg, B., Strandberg L., van Bavel B., Bergqvist P.A., Broman D., Falandysz J., Näf C., Papakosta O., Rolff C. & Rappe C. (1998a). Concentrations and spatial variations of cyclodienes and other organochlorines in herring and perch from the Baltic Sea. Sci Total Environ. 215(1–2), 69–83.
31. Strandberg, B., Bandh C., Van Bavel B., Bergqvist P. A., Broman D., Näf C., Pettersen H. & Rappe C. (1998b). Concentrations, biomagnification and spatial variation of organochlorine compounds in a pelagic food web in the northern part of the Baltic Sea, Sci. Tot. Environ. 217, 143–154.
32. Szlinder-Richert, J., Barska I., Mazerski J. & Usydus Z. (2008). Organochlorine pesticidies in fish from the southern Baltic Sea — levels, bioaccumulation features and temporal trends during the period from 1997 to 2006. Mar. Poll. Bull. 56(5), 927–940.
33. Terlecki, J. (2000). Ciosa, Pelecus cultratus (Linnaeus, 1758). In: Ryby słodkowodne Polski. M. Brylińska (ed.). Warszawa, PWN. 322–328.
34. Wiener, J. G., Krabbenhoft D. P., Heinz G. H. & Scheuhammer A. M. (2003). Ecotoxicology of mercury. In: Hoffman, DJ, Rattner BA, Burton GA, Cairns J, editors. Handbook of ecotoxicology. Boca Raton7 Lewis Publ. 409–463.
35. Wiśniewolski, W., Augustyn L., Bartel R., Depowski R., Dębowski P., Klich M., Kolman R. & Witkowski A. (2004). Możliwości odtworzenia populacji ryb wędrownych (jesiotra — Acipenser sturio/A. oxyrhynchus, łososia — Salmo salar, troci — Salmo trutta trutta i certy — Vimba vimba) w polskich rzekach. WWF Polska, Warszawa. 42.
36. Vorkamp, K., Christensen J. H., Glasius M. & Riget F. F. (2004). Persistent chalogenated compounds in black guillemots (Cepphus grylle) from Greenland — levels, compound patterns and spatial trends. Mar. Poll. Bull. 48, 111–121.
37. Zitko, V. (2003). Chlorinated pesticides: Aldrin, DDT, endrin, dieldrin, mirex. Pages 47–90 in The Handbook of Environmental Chemistry (H. Fiedler, ed), vol. 3, Part O, Persistent Organic Pollutants. Springer Verlag Berlin, Heidelberg.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-c442cf7b-ff29-4298-94dc-3b75d36d111e