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Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Environmental Sources Policy & Risk Sign in to save

From pollution to solutions: Insights into the sources, transport and management of plastic debris in pristine and urban rivers

Environmental Research 2023 24 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.
Daoji Li, Changjun Li, J. G. Lu, Changjun Li, Changjun Li, Xiaohui Wang, Changjun Li, Yinan He, Khalida Jabeen Changjun Li, Khalida Jabeen, Changjun Li, Khalida Jabeen, Khalida Jabeen, Xinyu Bu, Daoji Li, Lixin Zhu, Khalida Jabeen Daoji Li, Khalida Jabeen Daoji Li, Daoji Li, Daoji Li, Xiaohui Wang, Xiaohui Wang, Xiaohui Wang, Xiaohui Wang, Xiaohui Wang, Xiaohui Wang, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Khalida Jabeen Changjun Li, Khalida Jabeen Lixin Zhu, Lixin Zhu, J. G. Lu, J. G. Lu, Lixin Zhu, Yinan He, Changjun Li, Khalida Jabeen Changjun Li, Khalida Jabeen, Khalida Jabeen, Khalida Jabeen, Khalida Jabeen Khalida Jabeen Changjun Li, Changjun Li, Changjun Li, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Lixin Zhu, Xiaohui Wang, Xiaohui Wang, Xiaohui Wang, Daoji Li, Daoji Li, Chun-Hua Jiang, Khalida Jabeen, Khalida Jabeen, Xiaohui Wang, Changjun Li, Lixin Zhu, Changjun Li, Lixin Zhu, Lixin Zhu, Lixin Zhu, Khalida Jabeen Khalida Jabeen, Khalida Jabeen Changjun Li, Khalida Jabeen, Chun-Hua Jiang, Lixin Zhu, Changjun Li, Lixin Zhu, Lixin Zhu, Lixin Zhu, Changjun Li, Daoji Li, Xiaohui Wang, Xiaohui Wang, Xiaohui Wang, Xiaohui Wang, Changjun Li, Lixin Zhu, Lixin Zhu, Changjun Li, Xiaohui Wang, Changjun Li, Yinan He, Xiaohui Wang, Khalida Jabeen Khalida Jabeen Daoji Li, Khalida Jabeen Khalida Jabeen Daoji Li, Daoji Li, Chun-Hua Jiang, Chun-Hua Jiang, Khalida Jabeen, Lixin Zhu, Khalida Jabeen, Lixin Zhu, Khalida Jabeen, Khalida Jabeen, Khalida Jabeen, Daoji Li, Daoji Li, Daoji Li, Daoji Li, Daoji Li, Changjun Li, Daoji Li, Chun-Hua Jiang, Lixin Zhu, Khalida Jabeen Lixin Zhu, Daoji Li, Changjun Li, Xiaohui Wang, Xiaohui Wang, Khalida Jabeen Khalida Jabeen, Chun-Hua Jiang, Daoji Li, Lixin Zhu, Daoji Li, Xiaohui Wang, Chun-Hua Jiang, Xinyu Bu, Daoji Li, Daoji Li, Daoji Li, Daoji Li, Chun-Hua Jiang, Daoji Li, Xiaohui Wang, Khalida Jabeen Khalida Jabeen Yinan He, Daoji Li, Khalida Jabeen, Daoji Li, Xiaohui Wang, Khalida Jabeen, TuanLinh Tran Vo, Daoji Li, TuanLinh Tran Vo, TuanLinh Tran Vo, TuanLinh Tran Vo, Changjun Li, Yinan He, Daoji Li, Khalida Jabeen Daoji Li, Lixin Zhu, Changjun Li, Khalida Jabeen, Changjun Li, Daoji Li, Lixin Zhu, Daoji Li, Changjun Li, Yinan He, J. G. Lu, Lixin Zhu, Daoji Li, Daoji Li, Lixin Zhu, Daoji Li, Daoji Li, Khalida Jabeen

Summary

This review examines how river systems receive and transport plastic debris -- including both macroplastics and microplastics -- from land sources to the ocean, synthesizing evidence on pollution sources, fate, and management strategies across pristine and urban rivers.

Polymers
PP
Study Type Environmental

River systems are important recipients of environmental plastic pollution and have become key pathways for the transfer of mismanaged waste from the land to the ocean. Understanding the sources and fate of plastic debris, including plastic litter (>5 mm) and microplastics (MPs) (<5 mm), entering different riverine systems is essential to mitigate the ongoing environmental plastic pollution crisis. We comprehensively investigated the plastic pollution in the catchments of two rivers in the Yangtze River basin: an urban river, the Suzhou section of the Beijing-Hangzhou Grand Canal (SZ); and a pristine rural river, the Jingmen section of the Hanjiang River (JM). The abundance of plastic pollutants in SZ was significantly higher than in JM: 0.430 ± 0.450 items/m and 0.003 ± 0.003 items/m of plastic litter in the water; 23.47 ± 25.53 n/m and 2.78 ± 1.55 n/m MPs in the water; and 218.82 ± 77.40 items/kg and 5.30 ± 1.99 items/kg of MPs in the sediment, respectively. Plastic litter and MPs were closely correlated in abundance and polymer composition. Overall, the polymer type, shape and color of MPs were dominant by polypropylene (42.5%), fragment (60.4%) and transparent (40.0%), respectively. Source tracing analysis revealed that packaging, shipping, and wastewater were the primary sources of plastic pollutants. The mantel analysis indicated that socio-economic and geospatial factors play crucial roles in driving the hotspot formation of plastic pollution in river networks. The composition of the MP communities differed significantly between the sediments and the overlying water. The urban riverbed sediments had a more pronounced pollutant 'sink' effect compared with the pristine rivers. These findings suggested that the modification of natural streams during urbanization may influence the transport and fate of plastic pollutants in them. Our results offer pivotal insights into effective preventive measures.

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