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Plastisphere in lake waters: Microbial diversity, biofilm structure, and potential implications for freshwater ecosystems

Environmental Pollution 2022 59 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Loris Pietrelli, Maria Sighicelli, Stefania Di Vito Loris Pietrelli, Loris Pietrelli, Loris Pietrelli, Maria Sighicelli, Loris Pietrelli, Loris Pietrelli, Francesca Di Pippo, Francesca Di Pippo, Francesca Di Pippo, Maria Sighicelli, Stefania Di Vito, Loris Pietrelli, Loris Pietrelli, Stefania Di Vito Stefania Di Vito Loris Pietrelli, Maria Sighicelli, Maria Sighicelli, Simona Crognale, Stefania Di Vito, Stefania Di Vito, Simona Crognale, Maria Sighicelli, Stefania Di Vito Maria Sighicelli, Maria Sighicelli, Maria Sighicelli, Loris Pietrelli, Loris Pietrelli, Francesca Di Pippo, Stefania Di Vito Stefania Di Vito Stefania Di Vito Stefano Amalfitano, Stefano Amalfitano, Stefano Amalfitano, Stefano Amalfitano, Stefano Amalfitano, Caterina Levantesi, Caterina Levantesi, Stefania Di Vito, Stefania Di Vito, Stefania Di Vito, Loris Pietrelli, Loris Pietrelli, Stefano Amalfitano, Maria Sighicelli, Stefano Amalfitano, Maria Sighicelli, Maria Sighicelli, Luca Vitanza, Luca Vitanza, Maria Sighicelli, Simona Crognale, Francesca Di Pippo, Loris Pietrelli, Loris Pietrelli, Loris Pietrelli, Stefania Di Vito Maria Sighicelli, Maria Sighicelli, Stefano Amalfitano, Loris Pietrelli, Stefania Di Vito Stefano Amalfitano, Maria Sighicelli, Stefania Di Vito, Stefania Di Vito, Caterina Levantesi, Loris Pietrelli, Loris Pietrelli, Stefania Di Vito, Stefania Di Vito Stefania Di Vito Stefano Amalfitano, Stefania Di Vito, Simona Rossetti, Stefano Amalfitano, Simona Rossetti, Simona Rossetti, Loris Pietrelli, Simona Rossetti, Francesca Di Pippo, Loris Pietrelli, Loris Pietrelli, Stefania Di Vito, Stefania Di Vito Simona Rossetti, Stefania Di Vito, Stefania Di Vito

Summary

Using a combination of confocal microscopy, FTIR spectroscopy, and DNA sequencing, researchers characterized plastisphere biofilms on microplastics from lake water, finding distinct microbial communities on MPs compared to surrounding water including eukaryotic members not previously reported on lake plastispheres. The unique biofilm structure suggests freshwater MPs support specialized ecological niches.

Study Type Environmental

Once dispersed in water, microplastic (MP) particles are rapidly colonised by aquatic microbes, which can adhere and grow onto solid surfaces in the form of biofilms. This study provides new insights on microbial diversity and biofilm structure of plastisphere in lake waters. By combining Fourier Confocal Laser Scanning Microscopy (CLSM), Transform Infrared Spectroscopy (FT-IR) and high-throughput DNA sequencing, we investigated the microbial colonization patterns on floating MPs and, for the first time, the occurrence of eukaryotic core members and their possible relations with biofilm-forming bacterial taxa within the plastisphere of four different lakes. Through PCR-based methods (qPCR, LAMP-PCR), we also evaluated the role of lake plastisphere as long-term dispersal vectors of potentially harmful organisms (including pathogens) and antibiotic resistance genes (ARGs) in freshwater ecosystems. Consistent variation patterns of the microbial community composition occurred between water and among the plastisphere samples of the different lakes. The eukaryotic core microbiome was mainly composed by typical freshwater biofilm colonizers, such as diatoms (Pennales, Bacillariophyceaea) and green algae (Chlorophyceae), which interact with eukaryotic and prokaryotic microbes of different trophic levels. Results also showed that MPs are suitable vectors of biofilm-forming opportunistic pathogens and a hotspot for horizontal gene transfer, likely facilitating antibiotic resistance spread in the environments.

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