Microplastics pollution in the rivers of a metropolitan city and its estimated dependency on surrounding developed land

• Published in: The Science of the total environment Vol. 880; p. 163268
• Main Authors: Liu, H.M., Grist, Eric P.M., Xu, X.Y., Lo, H.S., Wong, A.C.Y., Cheung, S.G.
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.07.2023
• Subjects: Built area ratio; Hong Kong; Microplastic pollution; Percentage developed area; Rivers; MPs; nature of the river; Hong Kong; SMPs; Microplastic pollution; Rivers; Built area ratio; Percentage developed area
• ISSN: 0048-9697; 1879-1026; 1879-1026
• DOI: 10.1016/j.scitotenv.2023.163268

The spatial distribution and abundance of suspected microplastics (SMPs) in the surface water of a metropolitan city, as represented by four Hong Kong rivers, was studied during the dry season. Shing Mun River (SM), Lam Tsuen River (LT), and Tuen Mun River (TM) are located in urbanized areas, and SM and TM are tidal rivers. The fourth river, Silver River (SR) is situated in a rural area. TM had a significantly higher SMP abundance (53.80 ± 20.67 n/L) than the other rivers. The SMP abundance increased from upstream to downstream in non-tidal rivers (LT and SR), but not in tidal rivers (TM and SM), probably due to the tidal influence and a more homogeneous urban development along the tidal rivers. Inter-site differences in the SMP abundance were strongly correlated with the built area ratio (defined as the percentage of surrounding developed land area), human activities, and the nature of the river. About half (48.72 %) of the SMPs were <250 μm. Fibers and fragments were most abundant (>98 %), with most of them being transparent (58.54 %), black (14.68 %), or blue (12.12 %). Polyethylene terephthalate (26.96 %) and polyethylene (20.70 %) were the most common polymers. However, the MP abundance could be overestimated due to the presence of natural fibers. By contrast, an underestimation of the MP abundance could result from a smaller volume of water samples collected, due to a low filtration efficiency caused by high organic content and particle concentrations in the water. A more effective solid waste management strategy and upgrading of the sewage treatment facilities for removing microplastics are recommended to ameliorate the microplastic pollution in local rivers. [Display omitted] •Microplastic abundance correlated with built area ratio, human activities and nature of river.•Size distribution of MPs obtained by sieving method and microscopic examination is different.•Fibers and fragments were most abundant.•PET and PE were most commonly found.