2. ENVIRONMENTAL ChEMISTRy & TEChNOLOGy 2.1. Lectures

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Chem. Listy, 102, s265–s1311 (2008) Environmental Chemistry & Technology HBCD profiles in fish are different from those observed in sediment and sewage sludge. In fish, usually α-HBCD is the major diastereomer, whereas in sediment and in sewage sludge is most abundant γ-HBCD. The processes affecting these differences in isomer composition are not fully investigated yet. LC-MS/MS is an appropriate for monitoring changes of diastereomers pattern. This study was undertaken within the projects MSM 6046137305 and NPV II (2B06151). REFEREnCES 1. Haug L. S., Thomsen C., Liane V. H., Becher G.: Chemosphere 71, 1087 (2007). s377 2. Heeb n. V., Schweizer W. B., Mattrel P., Haag R., Kohler M., Schmid P., Zennegg M., Wolfensberger M.: Chemosphere 71, 1547 (2008). 3. Gómara B., Lebrón-Aguilar R., Quintanilla-López J. E., González M. J.: Anal. Chim. Acta 605, 53 (2007). 4. Van Leeuwen S. P. J., De Boer J.: Mol. nutr. Food Res. 25, 194 (2008). 5. Yegers B. n., Mets A., Van Bommel R., Minkenberg C., Hamers T., Kamstra J. H., Pierce G. J., Boon J. P.: Environ. Sci. Technol. 39, 2095 (2005).
Chem. Listy, 102, s265–s1311 (2008) Environmental Chemistry & Technology P22 ThE CONTENT OF POLybROMINATED DIPhENyL EThERS IN FREShwATER FISh FROM bRNO wATER RESERVOIR M. HROCH, M. VáVROVá and V. VEČEREK Faculty of Chemistry, University of Technology Brno, Purkyňova 118, 612 00 Brno, Czech Republic, hroch@fch.vutbr.cz Introduction One group of “new” persistent halogenated contaminants is represented by brominated flame-retardants (BFRs). BFRs are chemicals widely used in various products such as plastics and textiles to prevent a fire hazard. Generally two types of these compounds are in use. The reactive BFRs represented mainly by tetrabromobisphenol A (TBBPA) are incorporated into the polymeric materials by covalent binding, whereas the additive types, represented by polybrominated diphenyl ethers (PBDEs), polybrominated biphenyls (PBBs) and hexabromocyclododecane (HBCD) are embedded into a matrix of appropriate polymer. PBDEs are similar to polychlorinated biphenyls (PCBs) in structure and characteristics such as hydrophobic and semi-volatile and/or nonvolatile. Theoretically 209 congeners (5 majorities) of PBDEs exist with specific chemical and physical properties, which lead to various biological and toxicological effects. Alike other organohalogen compounds such as PCBs, DDT and other organochlorine pesticides, PB- DEs are lipophilic, very stable and resist to acids and basis, heat and light and biodegradation. Table I Physical and chemical characteristics of majority congeners Congener no. of Br Log Melting Slb. in water atom K ow point [°C] [mg ml –1 , 25°C] 47 4 6.55 83.5–84.5 0.015 99 5 7.13 90.5–94.5 0.0094 100 5 6.86 102 0.04 154 6 7.39 131–132.5 8.7 × 10 –7 209 10 9.97 302.5 4.17 × 10 –9 The concern over these anthropogenic compounds is that they can be released into the environment from products as they are not chemically bounded to the materials, and more importantly, they are persistent with a high bioaccumulation potential. PBDEs are being found as contaminants of indoor and outdoor environments. The presence of PBDE was proved in all the components of the environment such as air, sediment and sewage sludge as well as biological samples including biota, human blood, adipose tissues and breast milk. Quite high concentrations were found in the dust in flats and offices. s378 Experimental This study presents results of measuring concentration of ten PBDE congeners (BDE-3, 15, 28, 47, 99, 100, 118, 153, 154 and 183) in different species of fish using gas chromatography with electron captured detector (GC-ECD). These samples were collected from Brno water reservoir, which is situated near the Brno city. Five head of each kind were detected and the total PBDE congener concentrations (Σ PBDEs) in the fish were amur < bream < crucian < carp. C h e m i c a l s PBDE standards, all with declared 99% purity, were purchased from AccuStandard, Inc. (new Haven, USA). Working standard mixtures in isooctane contained following congeners: 4-BDE (BDE 3), 4,4’-diBDE (BDE 15), 2,4,4’-triBDE (BDE 28), 2,2’,4,4’-tetraBDE (BDE 47), 2,2’,4,4’,5-pentaBDE (BDE 99), 2,2’,4,4’,6-pentaBDE (BDE 100), 2,3’,4,4’,5-pentaBDE (BDE 118), 2,2’,4,4’,5,5’hexaBDE (BDE 153), 2,2’,4,4’,5,6’-hexaBDE (BDE 154), 2,2’,3,4,4’,5’,6-heptaBDE (BDE 183). M e t h o d A homogenized fish tissue was desiccated with mixture of sea sand and anhydrous sodium sulphate. Soxhlet extraction carried out (6 hours) with hexane/petrolether solvent mixture (96 : 4, v/v) for isolation of target analytes from the sample. Concentrated crude extracts were purified by using multi layer column (300 × 8 mm; florisil, silica, alumina). The collected fraction was evaporated to dryness and re-dissolved in 1 ml of isooctane. After addition of a few drops of sulphuric acid the organic layer was used for GC analysis. Quantification of target analytes was carried out by high-resolution gas chromatography, where two capillary columns (DB-17 MS column and HT-8 column) operated in parallel mode were used. Experiments were carried out on Agilent 6890 GC system and the analytes were identified by retention times. Results This paper reports PBDEs levels in freshwater fish. These were determined by gas chromatography with ECD. The identification of PBDEs in the fish samples was based on comparison of the retention times with those of the available authenticated standards. All results are summarized in Fig. 1. Chromatogram of carp-skin sample analysed by GC with electron captured detector in capillary column Db-17 MS
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2. ENVIRONMENTAL ChEMISTRy & TEChNOLOGy 2.1. Lectures

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