Effects of polyethylene microplastics with different particle sizes and concentrations on the community structure and function of periphytic biofilms

The widespread use of microplastics (MPs) inevitably lead to their release into aquatic environment, where they are likely to encounter the periphytic biofilms, leading to changes in microbial community structure and function. However studies on the toxicity of MPs with different particle sizes and concentrations to biofilms are still lacking. Here, the effects of polyethylene (PE) MPs with three sizes (10, 40 and 120 mu m) and two concentrations (2 and 20 mg/L) on biofilm communities were investigated in microcosms over a 28-day incubation period. High-throughput sequencing showed that the alpha and beta diversity of biofilm community were significantly altered by MPs, depending on their size and concentration. Typically, larger particle sizes and higher concentrations resulted in more significant changes in biofilm community structure, indicating a stronger shading effect of larger particles. Compared to the controls, 120 mu m MPs treatments significantly reduced the Chao1 and Shannon index of biofilm community regardless of the concentration, while 40 mu m MPs reduced the Shannon index only at high concentrations. Moreover, MPs resulted in the changes in the abundances of bacterial communities, with the abundance of Cyanobacteria increasing significantly while that of Proteobacteria and Bacteroidetes decreasing in all treatments. Interestingly, functional analysis by FAPROTAX suggested that a decrease in the abundance of chemoheterotrophy genes and an increase in photoautotrophic- and nitrification-associated genes were observed after exposure to MPs, leading to potential changes of the carbon and nitrogen metabolism of biofilms. These results highlighted that MPs exposure had negative impacts on microbial community structure and function, which in turn affects microbial-mediated processes.