The selective occurrence of ripening effect makes the cotransport of various sized nanoplastics in seawater-saturated and freshwater-saturated porous media significantly different.

We explored the coadsorption and cotransport (single, binary, and ternary systems) of varying sized (50, 200, and 500 nm) Polymethylmethacrylate (PMMA) nanoplastics (NPs) with different concentration ratios in freshwater-saturated and seawater-saturated porous media. It was found that ripening effect occurred selectively, with ripening more likely to occur in seawater relative to freshwater, resulting in significantly different cotransport and coadsorption of varying sized NPs in freshwater-saturated and seawater-saturated porous media. In freshwater, there was no obvious ripening effect happening. In both binary and ternary systems, as the concentration of coexisting PMMA NPs increased, the adsorption and retention of coexisting other sized PMMA NPs were inhibited due to competition for adsorption sites. In seawater, coexisting varying sized NPs promoted adsorption and retention of each other in saturated porous media due to increased roughness and ripening effect. The NP aggregate size and the increase in surface roughness of media grains brought about by the increase in size variety of NPs dominated the cotransport of varying sized NPs in seawater-saturated porous media. The findings of this study provide help for clarifying the fate of NPs presented in real environments in porous media of freshwater and seawater systems.