<p>Microplastics (MPs) are emerging contaminants that have garnered widespread global attention owing to their pervasive pollution across various environmental matrices. In this study, pine needles were employed as passive samplers for atmospheric microplastics (AMPs) to systematically investigate the occurrence status of AMPs in five typical counties/cities (Urumqi, Changji, Shihezi, Hutubi and Manasi) within the "Wuchangshi" region of Xinjiang, China. The results indicated that the annual average abundance of AMPs in the study region was 9.63 ± 4.59 n/g. In terms of spatial distribution, Urumqi exhibited the highest AMPs abundance (11.62 ± 7.15 n/g), while the abundance in winter was significantly higher than that in other seasons (16.81 ± 3.87 n/g). Fibrous AMPs accounted for the highest proportion (48.6%), with colorless being the dominant color. Polyethylene (PE) was the predominant polymer type, accounting for 19.7% of the total AMPs. Potential sources of pollution mainly including transportation, commercial activities, and industrial operations. The ecological risk exhibited regional variations, and the Potential Ecological Risk Index (PERI) indicated an overall high-risk status. This study aims to provide a new reference for the application of pine needles as passive samplers and a scientific basis for the formulation of national environmental quality standards for MPs.</p>

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Atmospheric Microplastic Pollution and Risk Assessment in the “Wuchangshi” Region of Xinjiang, China, Using Pine Needles as Passive Sampler

  • Xiaoxiao Li,
  • Jianjiang Lu,
  • Liru Wang,
  • Yanbin Tong,
  • Jinfeng Xiao,
  • Yulin Chai,
  • Bingyu Wang

摘要

Microplastics (MPs) are emerging contaminants that have garnered widespread global attention owing to their pervasive pollution across various environmental matrices. In this study, pine needles were employed as passive samplers for atmospheric microplastics (AMPs) to systematically investigate the occurrence status of AMPs in five typical counties/cities (Urumqi, Changji, Shihezi, Hutubi and Manasi) within the "Wuchangshi" region of Xinjiang, China. The results indicated that the annual average abundance of AMPs in the study region was 9.63 ± 4.59 n/g. In terms of spatial distribution, Urumqi exhibited the highest AMPs abundance (11.62 ± 7.15 n/g), while the abundance in winter was significantly higher than that in other seasons (16.81 ± 3.87 n/g). Fibrous AMPs accounted for the highest proportion (48.6%), with colorless being the dominant color. Polyethylene (PE) was the predominant polymer type, accounting for 19.7% of the total AMPs. Potential sources of pollution mainly including transportation, commercial activities, and industrial operations. The ecological risk exhibited regional variations, and the Potential Ecological Risk Index (PERI) indicated an overall high-risk status. This study aims to provide a new reference for the application of pine needles as passive samplers and a scientific basis for the formulation of national environmental quality standards for MPs.