The competitive advantage of Microcystis aeruginosa over Scenedesmus obliquus weakened by exposure to polylactic acid microplastics

Abstract

Aquatic ecosystems are heavily affected by microplastics (MPs), and its impacts on aquatic life have received extensive attention. However, it is still unclear how biodegradable MPs influence the growth and competition of phytoplankton. In this study, the response of growth dynamics, alternation in algal cell morphology and toxin-producing capability, and changes in the extracellular process of Microcystis aeruginosa (M. aeruginosa) and Scenedesmus obliquus (S. obliquus) were systematically studied in monoculture and co-culture conditions with and without the presence of polylactic acid MPs (PLA-MPs). The results indicated that although the loss of cell integrity was observed, PLA-MPs addition (50 mg/L) caused a 1.40- and 1.36-fold increase in cell densities of M. aeruginosa and S. obliquus in monoculture systems, respectively. This suggests the PLA-MPs more favored the growth of M. aeruginosa. This effect was manifested in co-culture conditions, because the degradation of PLA-MPs provided additional inorganic carbon in the experimental systems and benefited the growth of both M. aeruginosa and S. obliquus. Meanwhile, the synthesis of microcystins from the toxic M. aeruginosa was substantially reduced upon PLA-MPs exposure, which reduced the competitive advantage of M. aeruginosa over S. obliquus. Thus; the cell density of M. aeruginosa and S. obliquus showed 1.15- and 1.88-folds increasing compared to that without PLA-MPs addition. This interaction between PLA-MPs and algae weakened the competitive advantage of M. aeruginosa over S. obliquus, but their competitive outcomes remained unchanged. The results provided new insights into understanding the potential ecological risks of biodegradable plastics in aquatic ecosystems.