Macrozoobenthos Response to Sediment Contamination near the S/s Stuttgart Wreck: A Biological and Chemical Assessment in the Gulf of Gdańsk, Southern Baltic Sea
2025
Anna Tarała | Diana Dziaduch | Katarzyna Galer-Tatarowicz | Aleksandra Bojke | Maria Kubacka | Marcin Kalarus
This study provides an up-to-date assessment of the environmental status in the area of the S/s Stuttgart wreck in the southern Baltic Sea, focusing on macrozoobenthos, sediment chemistry, and contamination in Mytilus trossulus soft tissues. Comparative analyses from 2016 and 2023 revealed increased species richness and distinct benthic assemblages, shaped primarily by depth and distance from the wreck. Among macrozoobenthos, there dominated opportunistic species, characterized by a high degree of resistance to the unfavorable state of the environment, suggesting adaptation to local conditions. Elevated concentrations of heavy metals were detected in sediments, with maximum values of Cd&mdash:0.85 mg·:kg&minus:1, Cu&mdash:34 mg·:kg&minus:1, Zn&mdash:119 mg·:kg&minus:1, and Ni&mdash:32.3 mg·:kg&minus:1. However, no significant correlations between sediment contamination and macrozoobenthos composition were found. In Mytilus trossulus, contaminant levels were mostly within regulatory limits: however, mercury concentrations reached 0.069 mg·:kg&minus:1 wet weight near the wreck and 0.493 mg·:kg&minus:1 at the reference station, both exceeding the threshold defined in national legislation (0.02 mg·:kg&minus:1) (Journal of Laws of 2021, item 568). Condition indices for Macoma balthica were lower in the wreck area, suggesting sublethal stress. Ecotoxicological tests showed no acute toxicity in most sediment samples, emphasizing the complexity of pollutant effects. The data presented here not only enrich the existing literature on marine pollution but also contribute to the development of more effective environmental protection strategies for marine ecosystems under international protection.
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