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Environmental Sources
Marine & Wildlife
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The processes and transport fluxes of land-based macroplastics and microplastics entering the ocean via rivers
Journal of Hazardous Materials2024
71 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 60
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Feng Yuan,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Feng Yuan,
Yongcheng Ding,
Teng Wang,
Yongcheng Ding,
Yongcheng Ding,
Feng Yuan,
Feng Yuan,
Feng Yuan,
Huahong Shi
Yongcheng Ding,
Teng Wang,
Huahong Shi
Hongyu Chen,
Huahong Shi
Xinqing Zou,
Teng Wang,
Teng Wang,
Teng Wang,
Hongyu Chen,
Hongyu Chen,
Hongyu Chen,
Hongyu Chen,
Teng Wang,
Teng Wang,
Teng Wang,
Rongze Liu,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Teng Wang,
Feng Yuan,
Yongcheng Ding,
Rongze Liu,
Xinqing Zou,
Xinqing Zou,
Xinqing Zou,
Huahong Shi
Huahong Shi
Yongcheng Ding,
Huahong Shi
Huahong Shi
Teng Wang,
Rongze Liu,
Rongze Liu,
Yongcheng Ding,
Rongze Liu,
Yongcheng Ding,
Yongcheng Ding,
Teng Wang,
Rongze Liu,
Teng Wang,
Rongze Liu,
Hongyu Chen,
Rongze Liu,
Hong Liao,
Hongyu Chen,
Hong Liao,
Hong Liao,
Hong Liao,
Hong Liao,
Xinqing Zou,
Huahong Shi
Xinqing Zou,
Xinqing Zou,
Xinqing Zou,
Xinqing Zou,
Xinqing Zou,
Yongcheng Ding,
Yongcheng Ding,
Huahong Shi
Xinqing Zou,
Yongcheng Ding,
Huahong Shi
Huahong Shi
Huahong Shi
Yongcheng Ding,
Rongze Liu,
Feng Yuan,
Huahong Shi
Huahong Shi
Teng Wang,
Huahong Shi
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Feng Yuan,
Teng Wang,
Huahong Shi
Teng Wang,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Teng Wang,
Rongze Liu,
Teng Wang,
Hong Liao,
Hong Liao,
Teng Wang,
Yongcheng Ding,
Feng Yuan,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Feng Yuan,
Teng Wang,
Feng Yuan,
Yongcheng Ding,
Teng Wang,
Yongcheng Ding,
Hongyu Chen,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Xinqing Zou,
Xinqing Zou,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Feng Yuan,
Yongcheng Ding,
Huahong Shi
Huahong Shi
Yongcheng Ding,
Teng Wang,
Teng Wang,
Hongyu Chen,
Huahong Shi
Huahong Shi
Xinqing Zou,
Huahong Shi
Huahong Shi
Yongcheng Ding,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Yongcheng Ding,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Teng Wang,
Yongcheng Ding,
Huahong Shi
Teng Wang,
Huahong Shi
Feng Yuan,
Huahong Shi
Huahong Shi
Feng Yuan,
Huahong Shi
Huahong Shi
Huahong Shi
Teng Wang,
Teng Wang,
Feng Yuan,
Huahong Shi
Hong Liao,
Hongyu Chen,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Yongcheng Ding,
Huahong Shi
Huahong Shi
Feng Yuan,
Feng Yuan,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Feng Yuan,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Rongze Liu,
Hongyu Chen,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Rongze Liu,
Yongcheng Ding,
Yongcheng Ding,
Yongcheng Ding,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Yongcheng Ding,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Xinqing Zou,
Teng Wang,
Huahong Shi
Huahong Shi
Yongcheng Ding,
Huahong Shi
Yongcheng Ding,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Yongcheng Ding,
Huahong Shi
Yongcheng Ding,
Xinqing Zou,
Huahong Shi
Huahong Shi
Xinqing Zou,
Huahong Shi
Xinqing Zou,
Hong Liao,
Huahong Shi
Teng Wang,
Xinqing Zou,
Xinqing Zou,
Huahong Shi
Teng Wang,
Xinqing Zou,
Hong Liao,
Teng Wang,
Xinqing Zou,
Huahong Shi
Huahong Shi
Xinqing Zou,
Huahong Shi
Summary
This review traces the full journey of plastic waste from land to ocean via rivers, covering how plastics enter waterways and the methods scientists use to estimate how much reaches the sea. About 80% of marine plastic pollution comes from land-based sources, and better monitoring and modeling are needed to improve estimates. Understanding these transport pathways is essential for reducing the microplastic contamination that ultimately enters the seafood supply and affects human health.
Study Type
Environmental
Approximately 80% of marine plastic waste originates from land-based sources and enters oceans through rivers. Hence, to create effective regulations, it is crucial to thoroughly examine the processes by which land-based plastic waste flows into marine environments. To this end, this review covers the complete journey of macro- and microplastics from their initial input into rivers to their ultimate release into oceans. Here, we also discuss the primary influencing factors and current popular research topics. Additionally, the principles, applicability, accuracy, uncertainty, and potential improvement of the standard methods used for flux estimation at each stage are outlined. Emission estimates of land-based macro- and microplastics are typically assessed using the emission factor approach, coefficient accounting approach, or material flow analysis. Accurately estimating mismanaged plastic waste is crucial for reducing uncertainty in the macroplastic emission inventory. In our review of the processes by which land-originating plastics enter rivers, we categorized them into two major types: point-source and diffuse-source pollution. Land surface hydrological models simulate transport from diffuse sources to rivers, necessitating further research. Riverine (micro)plastic flux to the ocean is often estimated using monitoring statistics and watershed hydrological models at the watershed scale; however, standardized monitoring methods have not yet been established. At the global scale, algorithms based on river datasets are often used, which require further improvements in river data selection and microplastic number-mass conversion factors. Furthermore, the article summarizes the accuracy and sources of uncertainty of various methods. Future research efforts should focus on quantifying and mitigating uncertainties in resultant projections. Overall, this review deepens our understanding of the processes by which land-based plastic waste enters the ocean and helps scholars efficiently select or improve relevant methods when studying land-ocean transport fluxes.