The role of biofilm and hydrodynamics on the fate of microplastic particles in rivers: an experimental study

The transfer of microplastics particles (MP) from densely populated and industrialised areas to watercourses is particularly important but, some rivers crossing these types of territories present no significant MP concentration difference between upstream and downstream. At the same time low-density MP is found in the sediments. In general, three key parameters are hypothesized as governing the MP fate in aquatic environments: particle characteristics, interactions with biota, and hydrodynamics. The role of these parameters together on the dynamics of this MP dynamics in running water systems is yet to be explored to better estimate the temporality of MP displacement and its fate. In an experimental approach, we integrated the water column and sediment compartments, exploring the role of turbulence and biofilm on low-density MP dynamics. In a flume containing sediment and biofilm on it, the trajectory of standard particles of polyethylene polymer ( 50 µm) were followed at different flow velocities. A Particle Image Velocimeter setup followed by data processing using Particle Tracking Velocimetry allowed to retrace the trajectory of the particles near the sediment indicating their fate. We observed that increasing turbulence led to higher relative numbers of MP being in contact with the biofilm from 4 Also see: https://micro2024.sciencesconf.org/559204/document