4.8 Article

Interaction of cyanobacteria with calcium facilitates the sedimentation of microplastics in a eutrophic reservoir

Journal

WATER RESEARCH
Volume 189, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.watres.2020.116582

Keywords

Microplastic; Reservoirs; Cyanobacteria; Calcite; Biofouling; Biofilms; Sedimentation

Funding

  1. BMBF project MikroPlaTaS [02WPL1448A]

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This study found that both sessile and planktonic phototrophic microorganisms play a crucial role in the densification and sinking of microplastics in freshwater reservoirs. The involvement of microorganisms mediated by calcium facilitates the processes of microplastic sedimentation, potentially leading to permanent burial within reservoir sediments.
Low-density microplastics are frequently found in sediments of many lakes and reservoirs. The processes leading to sedimentation of initially buoyant polymers are poorly understood for inland waters. This study investigated the impact of biofilm formation and aggregation on the density of buoyant polyethylene microplastics. Biofilm formation on polyethylene films (4 x 4 x 0.15 mm) was studied in a eutrophic reservoir (Bautzen, Saxony, Germany). Additionally, aggregation dynamics of small PE microplastics (similar to 85 mu m) with cyanobacteria were investigated in laboratory experiments. During summer phototrophic sessile cyanobacteria (Chamaesiphon spp. and Leptolyngbya spp.) precipitated calcite while forming biofilms on microplastics incubated in Bautzen reservoir. Subsequently the density of the biofilms led to sinking of roughly 10% of the polyethylene particles within 29 days of incubation. In the laboratory experiments planktonic cyanobacteria (Microcystis spp.) formed large and dense cell aggregates under the influence of elevated Ca2+ concentrations. These aggregates enclosed microplastic particles and led to sinking of a small portion (similar to 0.4 %) of polyethylene microplastics. This study showed that both sessile and planktonic phototrophic microorganisms mediate processes influenced by calcium which facilitates densification and sinking of microplastics in freshwater reservoirs. Loss of buoyancy leads to particle sedimentation and could be a prerequisite for the permanent burial of microplastics within reservoir sediments. (C) 2020 Elsevier Ltd. All rights reserved.

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