Luming Wang, Juan Huang, Ming Chen, Hui Jin, Yufeng Wu and Xuan Chen
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Interestingly, the proportion of fiber and small-sized (38–75 μm) microplastics was predominant in the plum rain seasons, while the percentage of large-sized (270–5000 μm) and polymers of PE occurred in the typhoon rain seasons. The index of hazard scores of plastic polymers (<em>H</em>) revealed that the studied river had a severe pollution level (IV), which was highly influenced by PVC and PC. Besides, the pollution load index PLI value of different rain seasons was slightly polluted (I), while the PLI in autumn rain seasons was relatively higher than that in other seasons due to the higher variance of MPs. Therefore, the ecological risk of microplastics of PVC and PC in the Qinhuai River during varying seasons should be seriously considered. 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引用次数: 0
摘要
微塑料(MPs)越来越被认为是世界性的环境污染物,对城市河流的安全产生了重大影响。本研究探讨了 2023 年夏季梅雨季节和台风雨季节(包括 6 月和 8 月)微塑料的丰度和特征。秦淮河六个采样点的MP丰度空间波动较大,平均浓度为470±119.56个/L,且丰度随河水流量的增加而增加。下游 MP 丰度最高,为每升 484 ± 121.34 个,与悬浮固体(SS)浓度呈正相关。透明和绿色 MP 在各采样点分布较为均匀,碎片形状在夏季占主导地位。有趣的是,纤维和小尺寸(38-75 μm)微塑料的比例在梅雨季节居多,而大尺寸(270-5000 μm)和聚乙烯聚合物的比例则出现在台风雨季。塑料聚合物危害指数(H)显示,研究河流的污染等级为严重污染(IV),受 PVC 和 PC 的影响较大。此外,不同雨季的污染负荷指数 PLI 值均为轻度污染(I),而秋雨季节的 PLI 值相对高于其他季节,这是因为 MPs 的方差较大。因此,应认真考虑不同季节秦淮河中聚氯乙烯(PVC)和聚碳酸酯(PC)微塑料的生态风险。我们的研究有望为改善城市河流的管理提供有价值的帮助。
Investigation of microplastics in urban rivers of Eastern China in summer: abundance, characteristics and ecological risk assessment†
Microplastics (MPs) are increasingly becoming recognized as worldwide environmental contaminants, exerting a substantial impact on the safety of city rivers. This study explored the abundance and characteristics of MPs in summer 2023, including June and August, representing plum rain and typhoon rain seasons. The Qinhuai River exhibits more spatial fluctuations in six sampling sites with average concentrations of 470 ± 119.56 items per L, and the abundance increases with the water flows in the river. Downstream had the highest MP abundance of 484 ± 121.34 items per L, which were positive with the concentration of suspended solids (SS). Transparent and green MPs were more even in the sampling sites, and the shapes of fragments were predominant in the summer. Interestingly, the proportion of fiber and small-sized (38–75 μm) microplastics was predominant in the plum rain seasons, while the percentage of large-sized (270–5000 μm) and polymers of PE occurred in the typhoon rain seasons. The index of hazard scores of plastic polymers (H) revealed that the studied river had a severe pollution level (IV), which was highly influenced by PVC and PC. Besides, the pollution load index PLI value of different rain seasons was slightly polluted (I), while the PLI in autumn rain seasons was relatively higher than that in other seasons due to the higher variance of MPs. Therefore, the ecological risk of microplastics of PVC and PC in the Qinhuai River during varying seasons should be seriously considered. Our research is expected to provide valuable assistance in improving the management of urban rivers.
期刊介绍:
Environmental Science: Processes & Impacts publishes high quality papers in all areas of the environmental chemical sciences, including chemistry of the air, water, soil and sediment. We welcome studies on the environmental fate and effects of anthropogenic and naturally occurring contaminants, both chemical and microbiological, as well as related natural element cycling processes.