Toxicity, Health Risks, Environmental Effects of Trace Metals in the Sediments of the Middle Black Sea (Samsun) and Bioaccumulation in Hyallella azteca Amphipods

Abstract

The present work studied the sources, concentrations, distributions, and possible ecotoxicological risks of trace metals (TMs) in surface sediments of the K & imath;z & imath;l & imath;rmak and Ye & scedil;il & imath;rmak Rivers, the largest rivers in the Black Sea Region of T & uuml;rkiye, and the Mert and Engiz Rivers located between these rivers, to evaluate the region's health risks and pollution status. Average TM concentrations were measured in mg/kg and ordered from smallest to largest as Cd (4.1) < Co (19.9) < Ni (31.6) < Cu (34.9) < Pb (37.8) < Cr (197.6) < Zn (213.9) < Al (24,408.8) < Fe (35,920). Seasonal changes were observed, especially during the dry season, and Pb, Zn, and Co concentrations were found to increase. The geographic accumulation index (Igeo), contamination factor (CF), enrichment factor (EF), and pollution load index (PLI) used in environmental risk assessment indicate medium and high contamination levels and potential ecological effects. Similarly, while toxic risk index (TRI) and aggregate toxicity index (ATI) from toxicity assessment indices showed medium and high toxic levels, the highest individual growth rate (IGR) results of Hyallella azteca used in bioavailable TM assessment were observed in the control sediment (6.8), while the survival rate was 100% in the control sediment, it did not fall below 70% in the other sampling points. Bioaccumulation factor (BAF) results showed that Cu, Cd, Co, and Ni metals accumulated in H. azteca tissues. Health risk results indicated no health risk for adults while demonstrating a slight health risk for children. Pearson correlation coefficient (PCC) and principal component analysis (PCA) showed the presence of anthropogenic, lithogenic TM sources and slight effects of industrial and agrogenic sources.