Due to the increasing global consumption, more and more packaging and other plastics are ending up as waste. This breaks down to microplastics, entering the natural cycle and food chain, and is often transported by rivers to the sea. Research on microplastics transport requires understanding of spreading and dispersion of such particles due to currents, simulated using mathematical models. One of the methods applied is the particle tracking method. By using relevant data on velocity fields in various meteorological conditions, we can simulate particle motion in advance. We applied the model NAFTA3d, upgraded for neutrally buoyant and negative bouyant particles. We observed motion and concentration of discrete particles due to circulation. In simulations without meteorological extremes, pollution moves due to the circulation throughout the Gulf of Trieste and can reach Croatia's Istria and the Slovenian sea. In detail, we observed motion of the floating particles inflow with the Soča River into the Gulf of Trieste in extreme wind conditions. Positively buoyant particles were mainly transported towards the south along the Italian coast. Graphic depiction of simulation results enabled us to illustrate motion of discrete particles. Further research on circulation in semi-closed and closed seas is important for understanding possible contamination pathways, as well as in terms of safety and rapid response in case of hazardous discharges and accidents.