Monitoring von PAK-Metaboliten in Aalmuttern (Zoarces viviparus) aus der Wismar-Bucht

Background, aim, and scope Polycyclic aromatic hydrocarbons (PAH) are important environmental contaminants in the marine environment. The Baltic is known to be significantly contaminated with PAH. The eelpout (Zoarces viviparus) has been used for coastal monitoring in the Baltic. The aim of the present study was to elucidate whether the eelpout can be used to investigate PAH contamination in the Mecklenburg Bight and whether PAH sources may be revealed by the relation of the metabolites. Material and methods PAH metabolites were determined in the bile fluid of eelpout caught in spring 2008 at three sampling locations in the Wismar Bight. Two metabolites were determined by means of HPLC and fluorescence detection. In addition, bile pigments were measured photometrically. Results The concentrations of 1-hydroxypyrene in bile were significantly different at all three sampling locations under investigation. Highest concentrations were found near the city of Wismar with a mean value of 1086?ng/ml. Concentrations for individual fish ranged from <22.5 to 3317?ng/ml 1-hydroxypyrene. Concentrations of 1-hydroxyphenanthrene were lower and ranged from 2.1 to 803?ng/ml in individual samples. In fish caught next to the city of Wismar a mean value of 96?ng/ml 1-hydroxyphenanthrene was calculated. Discussion In the light of substantial anthropogenic contamination in this area caused by harbor, shipyards and shipping traffic, high values of 1-hydroxypyrene found in eelpout near the city of Wismar appear to be very plausible. Furtheron, the 1-hydroxypyrene results are in accordance to literature data. 1-Hydroxyphenantrene in eelpout bile was found in higher concentrations compared to earlier investigations. Spatial differences in the relation of the two metabolites may indicate a local source of PAH. Recommendations and perspectives PAH metabolites are useful parameters for monitoring the PAH pollution of fish like eelpout. Additional information regarding potential PAH sources can be gained from the relations of individual metabolites.