Uptake and accumulation of microplastic particles by two freshwater ciliates isolated from a local river in South Africa

Microplastics are considered environmental pollutants of serious concern. In freshwater environments, they can affect aquatic biota and accumulate along the food web. Therefore, this study investigated the capacity of bacterivorous freshwater ciliates, essential members of the aquatic food chain, to ingest plain and fluorescentlylabeled polystyrene microspheres. Two holotrich ciliates were isolated from a stream in KwaZulu-Natal (South Africa) and identified as members of the genera Paramecium and Tetrahymena based on morphological characteristics and 18S rRNA gene sequence analysis. While the larger bacterivorous ciliate Paramecium sp. strain RB1 ingested all three sizes of plain polystyrene microbeads tested (2,5,10 mu m), the smaller sized Tetrahymena sp. strain RB2 only ingested microbeads of 2 and 5 mu m. The two ciliates ingested polystyrene microbeads at rates ranging from 1650 to 3870 particles x ciliate(-1) x hour(-1) for all particle sizes ingested, matching rates determined for selected microbial prey (E. coli, S. cerevisiae) of similar size. The ability to ingest non-nutritious microplastic particles was confirmed for both ciliates using fluorescently-labeled microbeads as these were detected in food vacuoles by fluorescence microscopy. Therefore, ciliates such as Paramecium sp. strain RB1 and Tetrahymena sp. strain RB2 can contribute to the transfer and bioaccumulation of microplastics in freshwater food webs in South Africa.