Succession of Bacteria Attached to Microplastics After Transferring from a Mariculture Area to a Seagrass Meadow.

Wang, Shuai; Shi, Yunfeng; Wang, Hui; Li, Zhaoyang; Zhao, Muqiu

Microplastics have been recognized as a novel niche for bacteria. However, studies have characterized the plastisphere microbial community in situ without exploring the microbial changes after transferring to other ecosystems. Here we focus on bacterial succession on typical microplastics (polypropylene and expanded polystyrene) and natural substrates (wood) after transferring from mariculture area to seagrass meadows system. Using high-throughput sequencing of 16 S rRNA, we found that alpha diversity significantly reduced after transferring and microplastics especially PP had significant separations on PCoA plots at different succession stages. The abundance and metabolic pathways of potential pathogen-associated microorganisms are significantly decreased. The relative abundance of xenobiotics biodegradation pathways was significantly lower and of energy metabolism pathways was significantly higher by comparing before and after transferring. Main environmental factors affecting microbial communities changed from nutrient characteristics to basic physicochemical properties after transferring. The succession times of the microbial communities of the three materials were different.

Bulletin of Environmental Contamination & Toxicology, 2023, Vol 110, Issue 4, p1

0007-4861

Academic Journal

10.1007/s00128-023-03700-0