In preparation for this diploma thesis, on the initiative of the National Park Brijuni and with the scientists from the Department of Ecology, Agronomy and Aquaculture at University of Zadar, and the Department of Geology at the Faculty of Science in Ljubljana, marine sediment from the area of the National Park Brijuni was processed, namely from five locations for the purpose of determining deviations within different locations,which differ by the strenght of the anthropogenic impact, by degree of protection and activities of managing in that area. In the area of National Park Brijuni, five sites have been selected, allocated according to the different effects of anthropogenic impact and potential pollution: - Locations with pronounced anthropogenic influence (Luka Veli Brijun) - Locations with moderate anthropogenic influence (Bay Zenadija, Cape Sokol and Grunj Island) - Location with extremely low anthropogenic impact (Bay Javorika). At mentioned locations, geochemical and mineral properties of marine sediment were defined and based on the final results, differences were found between sites according to the strength of anthropogenic impact. Using X-ray diffraction (XRD), the analyzed mineral content indicates the highest concentration of calcite, which is in line with the geological structure of Brijuni. Using the XRF method, the concentrations of principal and secondary elements were determined, as well as the concentrations of potentially toxic elements (PTE) in marine sediment from all five locations. At all five sites for certain PTEs, pollution levels, enrichment factor (EF) and geoaccumulation indeks (IGEO) were calculated which display the highest presence of zinc, copper, lead and arsenic in marine sediment located in the harbour of Veli Brijun, which is associated with the use of biocides and the lack of the sewage system. With distancing from the harbour, PTE representation is declining, indicating that the further marine environment is not polluted. At all locations, the highest concentration of PTE is zinc, which is due to wastewater and waste deposition. The obtained results suggest the implementation of more effective measures that will contribute to the reduction of the anthropogenic impact on the marine environment.