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Microplastics from Ocean Depths to Landfall: Typhoon-Induced Microplastic Circulation in a Warming Climate
Summary
Typhoon events were found to transport microplastics from the ocean surface to coastal land areas, with storm-driven sea spray and flooding depositing plastic particles far inland. The study demonstrates that extreme weather events are an underappreciated pathway for redistributing marine microplastics onto terrestrial environments.
This study examines the influence of typhoons on atmospheric microplastic (MP) pollution by utilizing atmospheric deposition samples collected during three typhoons in eastern China (2023-2024). MP deposition rates increased significantly during typhoons (6291-12,722 items/m2/d), followed by a sharp decline post-typhoon (48-779 items/m2/d). Typhoon periods exhibited increased polymer diversity (9 types versus 4-5 during nontyphoon periods) and a higher prevalence of small-sized MPs (<280 μm), including dense polymers like PET and PVC, indicating a potential vertical resuspension from deeper ocean layers and subsequent atmospheric emission. Backward trajectory analysis confirmed the predominant entrainment of marine air masses during typhoon events, establishing a direct pathway for atmospheric transport from marine to terrestrial environments. We propose a novel mechanism whereby typhoons enhance vertical MP transport through mixing and facilitate their resuspension and atmospheric release via bubble bursting. Additionally, we examine how climate-driven typhoon intensification may accelerate MP pollution, creating a feedback loop where MPs affect ocean warming and climate, further intensifying typhoons and worsening both issues. Finally, discussing the implications of these results in policy development and urban planning to combat typhoon-induced MP pollution. Our findings offer substantial indirect evidence and provide a foundation for future studies to generate direct empirical validation of mechanisms.
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